Title: | Web Application Framework for R |
---|---|
Description: | Makes it incredibly easy to build interactive web applications with R. Automatic "reactive" binding between inputs and outputs and extensive prebuilt widgets make it possible to build beautiful, responsive, and powerful applications with minimal effort. |
Authors: | Winston Chang [aut, cre] , Joe Cheng [aut], JJ Allaire [aut], Carson Sievert [aut] , Barret Schloerke [aut] , Yihui Xie [aut], Jeff Allen [aut], Jonathan McPherson [aut], Alan Dipert [aut], Barbara Borges [aut], Posit Software, PBC [cph, fnd], jQuery Foundation [cph] (jQuery library and jQuery UI library), jQuery contributors [ctb, cph] (jQuery library; authors listed in inst/www/shared/jquery-AUTHORS.txt), jQuery UI contributors [ctb, cph] (jQuery UI library; authors listed in inst/www/shared/jqueryui/AUTHORS.txt), Mark Otto [ctb] (Bootstrap library), Jacob Thornton [ctb] (Bootstrap library), Bootstrap contributors [ctb] (Bootstrap library), Twitter, Inc [cph] (Bootstrap library), Prem Nawaz Khan [ctb] (Bootstrap accessibility plugin), Victor Tsaran [ctb] (Bootstrap accessibility plugin), Dennis Lembree [ctb] (Bootstrap accessibility plugin), Srinivasu Chakravarthula [ctb] (Bootstrap accessibility plugin), Cathy O'Connor [ctb] (Bootstrap accessibility plugin), PayPal, Inc [cph] (Bootstrap accessibility plugin), Stefan Petre [ctb, cph] (Bootstrap-datepicker library), Andrew Rowls [ctb, cph] (Bootstrap-datepicker library), Brian Reavis [ctb, cph] (selectize.js library), Salmen Bejaoui [ctb, cph] (selectize-plugin-a11y library), Denis Ineshin [ctb, cph] (ion.rangeSlider library), Sami Samhuri [ctb, cph] (Javascript strftime library), SpryMedia Limited [ctb, cph] (DataTables library), John Fraser [ctb, cph] (showdown.js library), John Gruber [ctb, cph] (showdown.js library), Ivan Sagalaev [ctb, cph] (highlight.js library), R Core Team [ctb, cph] (tar implementation from R) |
Maintainer: | Winston Chang <[email protected]> |
License: | GPL-3 | file LICENSE |
Version: | 1.9.1.9000 |
Built: | 2024-11-07 16:19:04 UTC |
Source: | https://github.com/rstudio/shiny |
Shiny makes it incredibly easy to build interactive web applications with R. Automatic "reactive" binding between inputs and outputs and extensive prebuilt widgets make it possible to build beautiful, responsive, and powerful applications with minimal effort.
The Shiny tutorial at https://shiny.rstudio.com/tutorial/ explains the framework in depth, walks you through building a simple application, and includes extensive annotated examples.
Maintainer: Winston Chang [email protected] (ORCID)
Authors:
Joe Cheng [email protected]
JJ Allaire [email protected]
Carson Sievert [email protected] (ORCID)
Barret Schloerke [email protected] (ORCID)
Yihui Xie [email protected]
Jeff Allen
Jonathan McPherson [email protected]
Alan Dipert
Barbara Borges
Other contributors:
Posit Software, PBC [copyright holder, funder]
jQuery Foundation (jQuery library and jQuery UI library) [copyright holder]
jQuery contributors (jQuery library; authors listed in inst/www/shared/jquery-AUTHORS.txt) [contributor, copyright holder]
jQuery UI contributors (jQuery UI library; authors listed in inst/www/shared/jqueryui/AUTHORS.txt) [contributor, copyright holder]
Mark Otto (Bootstrap library) [contributor]
Jacob Thornton (Bootstrap library) [contributor]
Bootstrap contributors (Bootstrap library) [contributor]
Twitter, Inc (Bootstrap library) [copyright holder]
Prem Nawaz Khan (Bootstrap accessibility plugin) [contributor]
Victor Tsaran (Bootstrap accessibility plugin) [contributor]
Dennis Lembree (Bootstrap accessibility plugin) [contributor]
Srinivasu Chakravarthula (Bootstrap accessibility plugin) [contributor]
Cathy O'Connor (Bootstrap accessibility plugin) [contributor]
PayPal, Inc (Bootstrap accessibility plugin) [copyright holder]
Stefan Petre (Bootstrap-datepicker library) [contributor, copyright holder]
Andrew Rowls (Bootstrap-datepicker library) [contributor, copyright holder]
Brian Reavis (selectize.js library) [contributor, copyright holder]
Salmen Bejaoui (selectize-plugin-a11y library) [contributor, copyright holder]
Denis Ineshin (ion.rangeSlider library) [contributor, copyright holder]
Sami Samhuri (Javascript strftime library) [contributor, copyright holder]
SpryMedia Limited (DataTables library) [contributor, copyright holder]
John Fraser (showdown.js library) [contributor, copyright holder]
John Gruber (showdown.js library) [contributor, copyright holder]
Ivan Sagalaev (highlight.js library) [contributor, copyright holder]
R Core Team (tar implementation from R) [contributor, copyright holder]
shiny-options for documentation about global options.
Creates a panel whose contents are absolutely positioned.
absolutePanel( ..., top = NULL, left = NULL, right = NULL, bottom = NULL, width = NULL, height = NULL, draggable = FALSE, fixed = FALSE, cursor = c("auto", "move", "default", "inherit") ) fixedPanel( ..., top = NULL, left = NULL, right = NULL, bottom = NULL, width = NULL, height = NULL, draggable = FALSE, cursor = c("auto", "move", "default", "inherit") )
absolutePanel( ..., top = NULL, left = NULL, right = NULL, bottom = NULL, width = NULL, height = NULL, draggable = FALSE, fixed = FALSE, cursor = c("auto", "move", "default", "inherit") ) fixedPanel( ..., top = NULL, left = NULL, right = NULL, bottom = NULL, width = NULL, height = NULL, draggable = FALSE, cursor = c("auto", "move", "default", "inherit") )
... |
Attributes (named arguments) or children (unnamed arguments) that should be included in the panel. |
top |
Distance between the top of the panel, and the top of the page or parent container. |
left |
Distance between the left side of the panel, and the left of the page or parent container. |
right |
Distance between the right side of the panel, and the right of the page or parent container. |
bottom |
Distance between the bottom of the panel, and the bottom of the page or parent container. |
width |
Width of the panel. |
height |
Height of the panel. |
draggable |
If |
fixed |
Positions the panel relative to the browser window and prevents it from being scrolled with the rest of the page. |
cursor |
The type of cursor that should appear when the user mouses over
the panel. Use |
The absolutePanel
function creates a <div>
tag whose CSS
position is set to absolute
(or fixed if fixed = TRUE
). The way
absolute positioning works in HTML is that absolute coordinates are specified
relative to its nearest parent element whose position is not set to
static
(which is the default), and if no such parent is found, then
relative to the page borders. If you're not sure what that means, just keep
in mind that you may get strange results if you use absolutePanel
from
inside of certain types of panels.
The fixedPanel
function is the same as absolutePanel
with
fixed = TRUE
.
The position (top
, left
, right
, bottom
) and size
(width
, height
) parameters are all optional, but you should
specify exactly two of top
, bottom
, and height
and
exactly two of left
, right
, and width
for predictable
results.
Like most other distance parameters in Shiny, the position and size
parameters take a number (interpreted as pixels) or a valid CSS size string,
such as "100px"
(100 pixels) or "25%"
.
For arcane HTML reasons, to have the panel fill the page or parent you should
specify 0
for top
, left
, right
, and bottom
rather than the more obvious width = "100%"
and height = "100%"
.
An HTML element or list of elements.
Creates an action button or link whose value is initially zero, and increments by one each time it is pressed.
actionButton(inputId, label, icon = NULL, width = NULL, disabled = FALSE, ...) actionLink(inputId, label, icon = NULL, ...)
actionButton(inputId, label, icon = NULL, width = NULL, disabled = FALSE, ...) actionLink(inputId, label, icon = NULL, ...)
inputId |
The |
label |
The contents of the button or link–usually a text label, but you could also use any other HTML, like an image. |
icon |
An optional |
width |
The width of the input, e.g. |
disabled |
If |
... |
Named attributes to be applied to the button or link. |
An integer of class "shinyActionButtonValue"
. This class differs from
ordinary integers in that a value of 0 is considered "falsy".
This implies two things:
Event handlers (e.g., observeEvent()
, eventReactive()
) won't execute on initial load.
Input validation (e.g., req()
, need()
) will fail on initial load.
observeEvent()
and eventReactive()
Other input elements:
checkboxGroupInput()
,
checkboxInput()
,
dateInput()
,
dateRangeInput()
,
fileInput()
,
numericInput()
,
passwordInput()
,
radioButtons()
,
selectInput()
,
sliderInput()
,
submitButton()
,
textAreaInput()
,
textInput()
,
varSelectInput()
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("obs", "Number of observations", 0, 1000, 500), actionButton("goButton", "Go!", class = "btn-success"), plotOutput("distPlot") ) server <- function(input, output) { output$distPlot <- renderPlot({ # Take a dependency on input$goButton. This will run once initially, # because the value changes from NULL to 0. input$goButton # Use isolate() to avoid dependency on input$obs dist <- isolate(rnorm(input$obs)) hist(dist) }) } shinyApp(ui, server) } ## Example of adding extra class values actionButton("largeButton", "Large Primary Button", class = "btn-primary btn-lg") actionLink("infoLink", "Information Link", class = "btn-info")
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("obs", "Number of observations", 0, 1000, 500), actionButton("goButton", "Go!", class = "btn-success"), plotOutput("distPlot") ) server <- function(input, output) { output$distPlot <- renderPlot({ # Take a dependency on input$goButton. This will run once initially, # because the value changes from NULL to 0. input$goButton # Use isolate() to avoid dependency on input$obs dist <- isolate(rnorm(input$obs)) hist(dist) }) } shinyApp(ui, server) } ## Example of adding extra class values actionButton("largeButton", "Large Primary Button", class = "btn-primary btn-lg") actionLink("infoLink", "Information Link", class = "btn-info")
Add, remove, or list directory of static resources to Shiny's web server, with the given path prefix. Primarily intended for package authors to make supporting JavaScript/CSS files available to their components.
addResourcePath(prefix, directoryPath) resourcePaths() removeResourcePath(prefix)
addResourcePath(prefix, directoryPath) resourcePaths() removeResourcePath(prefix)
prefix |
The URL prefix (without slashes). Valid characters are a-z, A-Z, 0-9, hyphen, period, and underscore. For example, a value of 'foo' means that any request paths that begin with '/foo' will be mapped to the given directory. |
directoryPath |
The directory that contains the static resources to be served. |
Shiny provides two ways of serving static files (i.e., resources):
Static files under the www/
directory are automatically made available
under a request path that begins with /
.
addResourcePath()
makes static files in a directoryPath
available
under a request path that begins with prefix
.
The second approach is primarily intended for package authors to make supporting JavaScript/CSS files available to their components.
Tools for managing static resources published by Shiny's web server:
addResourcePath()
adds a directory of static resources.
resourcePaths()
lists the currently active resource mappings.
removeResourcePath()
removes a directory of static resources.
addResourcePath('datasets', system.file('data', package='datasets')) resourcePaths() removeResourcePath('datasets') resourcePaths() # make sure all resources are removed lapply(names(resourcePaths()), removeResourcePath)
addResourcePath('datasets', system.file('data', package='datasets')) resourcePaths() removeResourcePath('datasets') resourcePaths() # make sure all resources are removed lapply(names(resourcePaths()), removeResourcePath)
bindCache()
adds caching reactive()
expressions and render*
functions
(like renderText()
, renderTable()
, ...).
Ordinary reactive()
expressions automatically cache their most recent
value, which helps to avoid redundant computation in downstream reactives.
bindCache()
will cache all previous values (as long as they fit in the
cache) and they can be shared across user sessions. This allows
bindCache()
to dramatically improve performance when used correctly.
bindCache(x, ..., cache = "app")
bindCache(x, ..., cache = "app")
x |
The object to add caching to. |
... |
One or more expressions to use in the caching key. |
cache |
The scope of the cache, or a cache object. This can be |
bindCache()
requires one or more expressions that are used to generate a
cache key, which is used to determine if a computation has occurred
before and hence can be retrieved from the cache. If you're familiar with the
concept of memoizing pure functions (e.g., the memoise package), you
can think of the cache key as the input(s) to a pure function. As such, one
should take care to make sure the use of bindCache()
is pure in the same
sense, namely:
For a given key, the return value is always the same.
Evaluation has no side-effects.
In the example here, the bindCache()
key consists of input$x
and
input$y
combined, and the value is input$x * input$y
. In this simple
example, for any given key, there is only one possible returned value.
r <- reactive({ input$x * input$y }) %>% bindCache(input$x, input$y)
The largest performance improvements occur when the cache key is fast to compute and the reactive expression is slow to compute. To see if the value should be computed, a cached reactive evaluates the key, and then serializes and hashes the result. If the resulting hashed key is in the cache, then the cached reactive simply retrieves the previously calculated value and returns it; if not, then the value is computed and the result is stored in the cache before being returned.
To compute the cache key, bindCache()
hashes the contents of ...
, so it's
best to avoid including large objects in a cache key since that can result in
slow hashing. It's also best to avoid reference objects like environments and
R6 objects, since the serialization of these objects may not capture relevant
changes.
If you want to use a large object as part of a cache key, it may make sense to do some sort of reduction on the data that still captures information about whether a value can be retrieved from the cache. For example, if you have a large data set with timestamps, it might make sense to extract the most recent timestamp and return that. Then, instead of hashing the entire data object, the cached reactive only needs to hash the timestamp.
r <- reactive({ compute(bigdata()) } %>% bindCache({ extract_most_recent_time(bigdata()) })
For computations that are very slow, it often makes sense to pair
bindCache()
with bindEvent()
so that no computation is performed until
the user explicitly requests it (for more, see the Details section of
bindEvent()
).
Because the value expression (from the original reactive()
) is
cached, it is not necessarily re-executed when someone retrieves a value,
and therefore it can't be used to decide what objects to take reactive
dependencies on. Instead, the key is used to figure out which objects
to take reactive dependencies on. In short, the key expression is reactive,
and value expression is no longer reactive.
Here's an example of what not to do: if the key is input$x
and the value
expression is from reactive({input$x + input$y})
, then the resulting
cached reactive will only take a reactive dependency on input$x
– it
won't recompute {input$x + input$y}
when just input$y
changes.
Moreover, the cache won't use input$y
as part of the key, and so it could
return incorrect values in the future when it retrieves values from the
cache. (See the examples below for an example of this.)
A better cache key would be something like input$x, input$y
. This does
two things: it ensures that a reactive dependency is taken on both
input$x
and input$y
, and it also makes sure that both values are
represented in the cache key.
In general, key
should use the same reactive inputs as value
, but the
computation should be simpler. If there are other (non-reactive) values
that are consumed, such as external data sources, they should be used in
the key
as well. Note that if the key
is large, it can make sense to do
some sort of reduction on it so that the serialization and hashing of the
cache key is not too expensive.
Remember that the key is reactive, so it is not re-executed every single time that someone accesses the cached reactive. It is only re-executed if it has been invalidated by one of the reactives it depends on. For example, suppose we have this cached reactive:
r <- reactive({ input$x * input$y }) %>% bindCache(input$x, input$y)
In this case, the key expression is essentially reactive(list(input$x, input$y))
(there's a bit more to it, but that's a good enough
approximation). The first time r()
is called, it executes the key, then
fails to find it in the cache, so it executes the value expression, { input$x + input$y }
. If r()
is called again, then it does not need to
re-execute the key expression, because it has not been invalidated via a
change to input$x
or input$y
; it simply returns the previous value.
However, if input$x
or input$y
changes, then the reactive expression will
be invalidated, and the next time that someone calls r()
, the key
expression will need to be re-executed.
Note that if the cached reactive is passed to bindEvent()
, then the key
expression will no longer be reactive; instead, the event expression will be
reactive.
By default, when bindCache()
is used, it is scoped to the running
application. That means that it shares a cache with all user sessions
connected to the application (within the R process). This is done with the
cache
parameter's default value, "app"
.
With an app-level cache scope, one user can benefit from the work done for another user's session. In most cases, this is the best way to get performance improvements from caching. However, in some cases, this could leak information between sessions. For example, if the cache key does not fully encompass the inputs used by the value, then data could leak between the sessions. Or if a user sees that a cached reactive returns its value very quickly, they may be able to infer that someone else has already used it with the same values.
It is also possible to scope the cache to the session, with
cache="session"
. This removes the risk of information leaking between
sessions, but then one session cannot benefit from computations performed in
another session.
It is possible to pass in caching objects directly to
bindCache()
. This can be useful if, for example, you want to use a
particular type of cache with specific cached reactives, or if you want to
use a cachem::cache_disk()
that is shared across multiple processes and
persists beyond the current R session.
To use different settings for an application-scoped cache, you can call
shinyOptions()
at the top of your app.R, server.R, or
global.R. For example, this will create a cache with 500 MB of space
instead of the default 200 MB:
shinyOptions(cache = cachem::cache_mem(max_size = 500e6))
To use different settings for a session-scoped cache, you can set
session$cache
at the top of your server function. By default, it will
create a 200 MB memory cache for each session, but you can replace it with
something different. To use the session-scoped cache, you must also call
bindCache()
with cache="session"
. This will create a 100 MB cache for
the session:
function(input, output, session) { session$cache <- cachem::cache_mem(max_size = 100e6) ... }
If you want to use a cache that is shared across multiple R processes, you
can use a cachem::cache_disk()
. You can create a application-level shared
cache by putting this at the top of your app.R, server.R, or global.R:
shinyOptions(cache = cachem::cache_disk(file.path(dirname(tempdir()), "myapp-cache")))
This will create a subdirectory in your system temp directory named
myapp-cache
(replace myapp-cache
with a unique name of
your choosing). On most platforms, this directory will be removed when
your system reboots. This cache will persist across multiple starts and
stops of the R process, as long as you do not reboot.
To have the cache persist even across multiple reboots, you can create the cache in a location outside of the temp directory. For example, it could be a subdirectory of the application:
shinyOptions(cache = cachem::cache_disk("./myapp-cache"))
In this case, resetting the cache will have to be done manually, by deleting the directory.
You can also scope a cache to just one item, or selected items. To do that,
create a cachem::cache_mem()
or cachem::cache_disk()
, and pass it
as the cache
argument of bindCache()
.
The actual cache key that is used internally takes value from evaluating
the key expression(s) (from the ...
arguments) and combines it with the
(unevaluated) value expression.
This means that if there are two cached reactives which have the same result from evaluating the key, but different value expressions, then they will not need to worry about collisions.
However, if two cached reactives have identical key and value expressions
expressions, they will share the cached values. This is useful when using
cache="app"
: there may be multiple user sessions which create separate
cached reactive objects (because they are created from the same code in the
server function, but the server function is executed once for each user
session), and those cached reactive objects across sessions can share
values in the cache.
With a cached reactive expression, the key and/or value expression can be
asynchronous. In other words, they can be promises — not regular R
promises, but rather objects provided by the
promises package, which
are similar to promises in JavaScript. (See promises::promise()
for more
information.) You can also use future::future()
objects to run code in a
separate process or even on a remote machine.
If the value returns a promise, then anything that consumes the cached reactive must expect it to return a promise.
Similarly, if the key is a promise (in other words, if it is asynchronous), then the entire cached reactive must be asynchronous, since the key must be computed asynchronously before it knows whether to compute the value or the value is retrieved from the cache. Anything that consumes the cached reactive must therefore expect it to return a promise.
If you've implemented your own render*()
function, it may just work with
bindCache()
, but it is possible that you will need to make some
modifications. These modifications involve helping bindCache()
avoid
cache collisions, dealing with internal state that may be set by the,
render
function, and modifying the data as it goes in and comes out of
the cache.
You may need to provide a cacheHint
to createRenderFunction()
(or
htmlwidgets::shinyRenderWidget()
, if you've authored an htmlwidget) in
order for bindCache()
to correctly compute a cache key.
The potential problem is a cache collision. Consider the following:
output$x1 <- renderText({ input$x }) %>% bindCache(input$x) output$x2 <- renderText({ input$x * 2 }) %>% bindCache(input$x)
Both output$x1
and output$x2
use input$x
as part of their cache key,
but if it were the only thing used in the cache key, then the two outputs
would have a cache collision, and they would have the same output. To avoid
this, a cache hint is automatically added when renderText()
calls
createRenderFunction()
. The cache hint is used as part of the actual
cache key, in addition to the one passed to bindCache()
by the user. The
cache hint can be viewed by calling the internal Shiny function
extractCacheHint()
:
r <- renderText({ input$x }) shiny:::extractCacheHint(r)
This returns a nested list containing an item, $origUserFunc$body
, which
in this case is the expression which was passed to renderText()
:
{ input$x }
. This (quoted) expression is mixed into the actual cache
key, and it is how output$x1
does not have collisions with output$x2
.
For most developers of render functions, nothing extra needs to be done;
the automatic inference of the cache hint is sufficient. Again, you can
check it by calling shiny:::extractCacheHint()
, and by testing the
render function for cache collisions in a real application.
In some cases, however, the automatic cache hint inference is not
sufficient, and it is necessary to provide a cache hint. This is true
for renderPrint()
. Unlike renderText()
, it wraps the user-provided
expression in another function, before passing it to createRenderFunction()
(instead of createRenderFunction()
). Because the user code is wrapped in
another function, createRenderFunction()
is not able to automatically
extract the user-provided code and use it in the cache key. Instead,
renderPrint
calls createRenderFunction()
, it explicitly passes along a
cacheHint
, which includes a label and the original user expression.
In general, if you need to provide a cacheHint
, it is best practice to
provide a label
id, the user's expr
, as well as any other arguments
that may influence the final value.
For htmlwidgets, it will try to automatically infer a cache hint;
again, you can inspect the cache hint with shiny:::extractCacheHint()
and
also test it in an application. If you do need to explicitly provide a
cache hint, pass it to shinyRenderWidget
. For example:
renderMyWidget <- function(expr) { q <- rlang::enquo0(expr) htmlwidgets::shinyRenderWidget( q, myWidgetOutput, quoted = TRUE, cacheHint = list(label = "myWidget", userQuo = q) ) }
If your render
function sets any internal state, you may find it useful
in your call to createRenderFunction()
to use
the cacheWriteHook
and/or cacheReadHook
parameters. These hooks are
functions that run just before the object is stored in the cache, and just
after the object is retrieved from the cache. They can modify the data
that is stored and retrieved; this can be useful if extra information needs
to be stored in the cache. They can also be used to modify the state of the
application; for example, it can call createWebDependency()
to make
JS/CSS resources available if the cached object is loaded in a different R
process. (See the source of htmlwidgets::shinyRenderWidget
for an example
of this.)
Some render functions cannot be cached, typically because they have side effects or modify some external state, and they must re-execute each time in order to work properly.
For developers of such code, they should call createRenderFunction()
(or
markRenderFunction()
) with cacheHint = FALSE
.
renderPlot()
When bindCache()
is used with renderPlot()
, the height
and width
passed to the original renderPlot()
are ignored. They are superseded by
sizePolicy
argument passed to 'bindCache. The default is:
sizePolicy = sizeGrowthRatio(width = 400, height = 400, growthRate = 1.2)
sizePolicy
must be a function that takes a two-element numeric vector as
input, representing the width and height of the <img>
element in the
browser window, and it must return a two-element numeric vector, representing
the pixel dimensions of the plot to generate. The purpose is to round the
actual pixel dimensions from the browser to some other dimensions, so that
this will not generate and cache images of every possible pixel dimension.
See sizeGrowthRatio()
for more information on the default sizing policy.
bindEvent()
, renderCachedPlot()
for caching plots.
## Not run: rc <- bindCache( x = reactive({ Sys.sleep(2) # Pretend this is expensive input$x * 100 }), input$x ) # Can make it prettier with the %>% operator library(magrittr) rc <- reactive({ Sys.sleep(2) input$x * 100 }) %>% bindCache(input$x) ## End(Not run) ## Only run app examples in interactive R sessions if (interactive()) { # Basic example shinyApp( ui = fluidPage( sliderInput("x", "x", 1, 10, 5), sliderInput("y", "y", 1, 10, 5), div("x * y: "), verbatimTextOutput("txt") ), server = function(input, output) { r <- reactive({ # The value expression is an _expensive_ computation message("Doing expensive computation...") Sys.sleep(2) input$x * input$y }) %>% bindCache(input$x, input$y) output$txt <- renderText(r()) } ) # Caching renderText shinyApp( ui = fluidPage( sliderInput("x", "x", 1, 10, 5), sliderInput("y", "y", 1, 10, 5), div("x * y: "), verbatimTextOutput("txt") ), server = function(input, output) { output$txt <- renderText({ message("Doing expensive computation...") Sys.sleep(2) input$x * input$y }) %>% bindCache(input$x, input$y) } ) # Demo of using events and caching with an actionButton shinyApp( ui = fluidPage( sliderInput("x", "x", 1, 10, 5), sliderInput("y", "y", 1, 10, 5), actionButton("go", "Go"), div("x * y: "), verbatimTextOutput("txt") ), server = function(input, output) { r <- reactive({ message("Doing expensive computation...") Sys.sleep(2) input$x * input$y }) %>% bindCache(input$x, input$y) %>% bindEvent(input$go) # The cached, eventified reactive takes a reactive dependency on # input$go, but doesn't use it for the cache key. It uses input$x and # input$y for the cache key, but doesn't take a reactive dependency on # them, because the reactive dependency is superseded by addEvent(). output$txt <- renderText(r()) } ) }
## Not run: rc <- bindCache( x = reactive({ Sys.sleep(2) # Pretend this is expensive input$x * 100 }), input$x ) # Can make it prettier with the %>% operator library(magrittr) rc <- reactive({ Sys.sleep(2) input$x * 100 }) %>% bindCache(input$x) ## End(Not run) ## Only run app examples in interactive R sessions if (interactive()) { # Basic example shinyApp( ui = fluidPage( sliderInput("x", "x", 1, 10, 5), sliderInput("y", "y", 1, 10, 5), div("x * y: "), verbatimTextOutput("txt") ), server = function(input, output) { r <- reactive({ # The value expression is an _expensive_ computation message("Doing expensive computation...") Sys.sleep(2) input$x * input$y }) %>% bindCache(input$x, input$y) output$txt <- renderText(r()) } ) # Caching renderText shinyApp( ui = fluidPage( sliderInput("x", "x", 1, 10, 5), sliderInput("y", "y", 1, 10, 5), div("x * y: "), verbatimTextOutput("txt") ), server = function(input, output) { output$txt <- renderText({ message("Doing expensive computation...") Sys.sleep(2) input$x * input$y }) %>% bindCache(input$x, input$y) } ) # Demo of using events and caching with an actionButton shinyApp( ui = fluidPage( sliderInput("x", "x", 1, 10, 5), sliderInput("y", "y", 1, 10, 5), actionButton("go", "Go"), div("x * y: "), verbatimTextOutput("txt") ), server = function(input, output) { r <- reactive({ message("Doing expensive computation...") Sys.sleep(2) input$x * input$y }) %>% bindCache(input$x, input$y) %>% bindEvent(input$go) # The cached, eventified reactive takes a reactive dependency on # input$go, but doesn't use it for the cache key. It uses input$x and # input$y for the cache key, but doesn't take a reactive dependency on # them, because the reactive dependency is superseded by addEvent(). output$txt <- renderText(r()) } ) }
Modify an object to respond to "event-like" reactive inputs, values, and
expressions. bindEvent()
can be used with reactive expressions, render
functions, and observers. The resulting object takes a reactive dependency on
the ...
arguments, and not on the original object's code. This can, for
example, be used to make an observer execute only when a button is pressed.
bindEvent()
was added in Shiny 1.6.0. When it is used with reactive()
and
observe()
, it does the same thing as eventReactive()
and
observeEvent()
. However, bindEvent()
is more flexible: it can be combined
with bindCache()
, and it can also be used with render
functions (like
renderText()
and renderPlot()
).
bindEvent( x, ..., ignoreNULL = TRUE, ignoreInit = FALSE, once = FALSE, label = NULL )
bindEvent( x, ..., ignoreNULL = TRUE, ignoreInit = FALSE, once = FALSE, label = NULL )
x |
An object to wrap so that is triggered only when a the specified event occurs. |
... |
One or more expressions that represents the event; this can be a
simple reactive value like |
ignoreNULL |
Whether the action should be triggered (or value
calculated) when the input is |
ignoreInit |
If |
once |
Used only for observers. Whether this |
label |
A label for the observer or reactive, useful for debugging. |
Shiny's reactive programming framework is primarily designed for calculated
values (reactive expressions) and side-effect-causing actions (observers)
that respond to any of their inputs changing. That's often what is
desired in Shiny apps, but not always: sometimes you want to wait for a
specific action to be taken from the user, like clicking an
actionButton()
, before calculating an expression or taking an action. A
reactive value or expression that is used to trigger other calculations in
this way is called an event.
These situations demand a more imperative, "event handling" style of
programming that is possible–but not particularly intuitive–using the
reactive programming primitives observe()
and isolate()
. bindEvent()
provides a straightforward API for event handling that wraps observe
and
isolate
.
The ...
arguments are captured as expressions and combined into an
event expression. When this event expression is invalidated (when its
upstream reactive inputs change), that is an event, and it will cause
the original object's code to execute.
Use bindEvent()
with observe()
whenever you want to perform an action
in response to an event. (This does the same thing as observeEvent()
,
which was available in Shiny prior to version 1.6.0.) Note that
"recalculate a value" does not generally count as performing an action –
use reactive()
for that.
Use bindEvent()
with reactive()
to create a calculated value that
only updates in response to an event. This is just like a normal reactive expression except it ignores all the usual invalidations that
come from its reactive dependencies; it only invalidates in response to the
given event. (This does the same thing as eventReactive()
, which was
available in Shiny prior to version 1.6.0.)
bindEvent()
is often used with bindCache()
.
bindEvent()
takes an ignoreNULL
parameter that affects behavior when
the event expression evaluates to NULL
(or in the special case of an
actionButton()
, 0
). In these cases, if ignoreNULL
is TRUE
, then it
will raise a silent validation error. This is useful behavior
if you don't want to do the action or calculation when your app first
starts, but wait for the user to initiate the action first (like a "Submit"
button); whereas ignoreNULL=FALSE
is desirable if you want to initially
perform the action/calculation and just let the user re-initiate it (like a
"Recalculate" button).
bindEvent()
also takes an ignoreInit
argument. By default, reactive
expressions and observers will run on the first reactive flush after they
are created (except if, at that moment, the event expression evaluates to
NULL
and ignoreNULL
is TRUE
). But when responding to a click of an
action button, it may often be useful to set ignoreInit
to TRUE
. For
example, if you're setting up an observer to respond to a dynamically
created button, then ignoreInit = TRUE
will guarantee that the action
will only be triggered when the button is actually clicked, instead of also
being triggered when it is created/initialized. Similarly, if you're
setting up a reactive that responds to a dynamically created button used to
refresh some data (which is then returned by that reactive
), then you
should use reactive(...) %>% bindEvent(..., ignoreInit = TRUE)
if you
want to let the user decide if/when they want to refresh the data (since,
depending on the app, this may be a computationally expensive operation).
Even though ignoreNULL
and ignoreInit
can be used for similar purposes
they are independent from one another. Here's the result of combining
these:
ignoreNULL = TRUE
and ignoreInit = FALSE
This is the default. This combination means that reactive/observer code
will run every time that event expression is not
NULL
. If, at the time of creation, the event expression happens
to not be NULL
, then the code runs.
ignoreNULL = FALSE
and ignoreInit = FALSE
This combination means that reactive/observer code will run every time no matter what.
ignoreNULL = FALSE
and ignoreInit = TRUE
This combination means that reactive/observer code will
not run at the time of creation (because ignoreInit = TRUE
),
but it will run every other time.
ignoreNULL = TRUE
and ignoreInit = TRUE
This combination means that reactive/observer code will
not at the time of creation (because ignoreInit = TRUE
).
After that, the reactive/observer code will run every time that
the event expression is not NULL
.
bindEvent()
can be used with reactive expressions, observers, and shiny
render functions.
When bindEvent()
is used with reactive()
, it creates a new reactive
expression object.
When bindEvent()
is used with observe()
, it alters the observer in
place. It can only be used with observers which have not yet executed.
In many cases, it makes sense to use bindEvent()
along with
bindCache()
, because they each can reduce the amount of work done on the
server. For example, you could have sliderInputs x
and y
and a
reactive()
that performs a time-consuming operation with those values.
Using bindCache()
can speed things up, especially if there are multiple
users. But it might make sense to also not do the computation until the
user sets both x
and y
, and then clicks on an actionButton named
go
.
To use both caching and events, the object should first be passed to
bindCache()
, then bindEvent()
. For example:
r <- reactive({ Sys.sleep(2) # Pretend this is an expensive computation input$x * input$y }) %>% bindCache(input$x, input$y) %>% bindEvent(input$go)
Anything that consumes r()
will take a reactive dependency on the event
expression given to bindEvent()
, and not the cache key expression given to
bindCache()
. In this case, it is just input$go
.
A bookmarkButton
is a actionButton()
with a default label
that consists of a link icon and the text "Bookmark...". It is meant to be
used for bookmarking state.
bookmarkButton( label = "Bookmark...", icon = shiny::icon("link", lib = "glyphicon"), title = "Bookmark this application's state and get a URL for sharing.", ..., id = "._bookmark_" )
bookmarkButton( label = "Bookmark...", icon = shiny::icon("link", lib = "glyphicon"), title = "Bookmark this application's state and get a URL for sharing.", ..., id = "._bookmark_" )
label |
The contents of the button or link–usually a text label, but you could also use any other HTML, like an image. |
icon |
An optional |
title |
A tooltip that is shown when the mouse cursor hovers over the button. |
... |
Named attributes to be applied to the button or link. |
id |
An ID for the bookmark button. The only time it is necessary to set
the ID unless you have more than one bookmark button in your application.
If you specify an input ID, it should be excluded from bookmarking with
|
enableBookmarking()
for more examples.
## Only run these examples in interactive sessions if (interactive()) { # This example shows how to use multiple bookmark buttons. If you only need # a single bookmark button, see examples in ?enableBookmarking. ui <- function(request) { fluidPage( tabsetPanel(id = "tabs", tabPanel("One", checkboxInput("chk1", "Checkbox 1"), bookmarkButton(id = "bookmark1") ), tabPanel("Two", checkboxInput("chk2", "Checkbox 2"), bookmarkButton(id = "bookmark2") ) ) ) } server <- function(input, output, session) { # Need to exclude the buttons from themselves being bookmarked setBookmarkExclude(c("bookmark1", "bookmark2")) # Trigger bookmarking with either button observeEvent(input$bookmark1, { session$doBookmark() }) observeEvent(input$bookmark2, { session$doBookmark() }) } enableBookmarking(store = "url") shinyApp(ui, server) }
## Only run these examples in interactive sessions if (interactive()) { # This example shows how to use multiple bookmark buttons. If you only need # a single bookmark button, see examples in ?enableBookmarking. ui <- function(request) { fluidPage( tabsetPanel(id = "tabs", tabPanel("One", checkboxInput("chk1", "Checkbox 1"), bookmarkButton(id = "bookmark1") ), tabPanel("Two", checkboxInput("chk2", "Checkbox 2"), bookmarkButton(id = "bookmark2") ) ) ) } server <- function(input, output, session) { # Need to exclude the buttons from themselves being bookmarked setBookmarkExclude(c("bookmark1", "bookmark2")) # Trigger bookmarking with either button observeEvent(input$bookmark1, { session$doBookmark() }) observeEvent(input$bookmark2, { session$doBookmark() }) } enableBookmarking(store = "url") shinyApp(ui, server) }
This function defines a set of web dependencies necessary for using Bootstrap components in a web page.
bootstrapLib(theme = NULL)
bootstrapLib(theme = NULL)
theme |
One of the following:
|
It isn't necessary to call this function if you use bootstrapPage()
or
others which use bootstrapPage
, such fluidPage()
, navbarPage()
,
fillPage()
, etc, because they already include the Bootstrap web dependencies.
Create a Shiny UI page that loads the CSS and JavaScript for Bootstrap, and has no content in the page body (other than what you provide).
bootstrapPage(..., title = NULL, theme = NULL, lang = NULL) basicPage(...)
bootstrapPage(..., title = NULL, theme = NULL, lang = NULL) basicPage(...)
... |
The contents of the document body. |
title |
The browser window title (defaults to the host URL of the page) |
theme |
One of the following:
|
lang |
ISO 639-1 language code for the HTML page, such as "en" or "ko".
This will be used as the lang in the |
This function is primarily intended for users who are proficient in HTML/CSS,
and know how to lay out pages in Bootstrap. Most applications should use
fluidPage()
along with layout functions like
fluidRow()
and sidebarLayout()
.
A UI definition that can be passed to the shinyUI function.
The basicPage
function is deprecated, you should use the
fluidPage()
function instead.
brushedPoints()
returns rows from a data frame which are under a brush.
nearPoints()
returns rows from a data frame which are near a click, hover,
or double-click. Alternatively, set allRows = TRUE
to return all rows from
the input data with an additional column selected_
that indicates which
rows of the would be selected.
brushedPoints( df, brush, xvar = NULL, yvar = NULL, panelvar1 = NULL, panelvar2 = NULL, allRows = FALSE ) nearPoints( df, coordinfo, xvar = NULL, yvar = NULL, panelvar1 = NULL, panelvar2 = NULL, threshold = 5, maxpoints = NULL, addDist = FALSE, allRows = FALSE )
brushedPoints( df, brush, xvar = NULL, yvar = NULL, panelvar1 = NULL, panelvar2 = NULL, allRows = FALSE ) nearPoints( df, coordinfo, xvar = NULL, yvar = NULL, panelvar1 = NULL, panelvar2 = NULL, threshold = 5, maxpoints = NULL, addDist = FALSE, allRows = FALSE )
df |
A data frame from which to select rows. |
brush , coordinfo
|
The data from a brush or click/dblclick/hover event
e.g. |
xvar , yvar
|
A string giving the name of the variable on the x or y axis.
These are only required for base graphics, and must be the name of
a column in |
panelvar1 , panelvar2
|
A string giving the name of a panel variable. For expert use only; in most cases these will be automatically derived from the ggplot2 spec. |
allRows |
If |
threshold |
A maximum distance (in pixels) to the pointer location.
Rows in the data frame will be selected if the distance to the pointer is
less than |
maxpoints |
Maximum number of rows to return. If |
addDist |
If TRUE, add a column named |
A data frame based on df
, containing the observations selected by the
brush or near the click event. For nearPoints()
, the rows will be sorted
by distance to the event.
If allRows = TRUE
, then all rows will returned, along with a new
selected_
column that indicates whether or not the point was selected.
The output from nearPoints()
will no longer be sorted, but you can
set addDist = TRUE
to get an additional column that gives the pixel
distance to the pointer.
For plots created with ggplot2, it is not necessary to specify the
column names to xvar
, yvar
, panelvar1
, and panelvar2
as that
information can be automatically derived from the plot specification.
Note, however, that this will not work if you use a computed column, like
aes(speed/2, dist))
. Instead, we recommend that you modify the data
first, and then make the plot with "raw" columns in the modified data.
If x or y column is a factor, then it will be coerced to an integer vector. If it is a character vector, then it will be coerced to a factor and then integer vector. This means that the brush will be considered to cover a given character/factor value when it covers the center value.
If the brush is operating in just the x or y directions (e.g., with
brushOpts(direction = "x")
, then this function will filter out points
using just the x or y variable, whichever is appropriate.
plotOutput()
for example usage.
## Not run: # Note that in practice, these examples would need to go in reactives # or observers. # This would select all points within 5 pixels of the click nearPoints(mtcars, input$plot_click) # Select just the nearest point within 10 pixels of the click nearPoints(mtcars, input$plot_click, threshold = 10, maxpoints = 1) ## End(Not run)
## Not run: # Note that in practice, these examples would need to go in reactives # or observers. # This would select all points within 5 pixels of the click nearPoints(mtcars, input$plot_click) # Select just the nearest point within 10 pixels of the click nearPoints(mtcars, input$plot_click, threshold = 10, maxpoints = 1) ## End(Not run)
This generates an object representing brushing options, to be passed as the
brush
argument of imageOutput()
or
plotOutput()
.
brushOpts( id, fill = "#9cf", stroke = "#036", opacity = 0.25, delay = 300, delayType = c("debounce", "throttle"), clip = TRUE, direction = c("xy", "x", "y"), resetOnNew = FALSE )
brushOpts( id, fill = "#9cf", stroke = "#036", opacity = 0.25, delay = 300, delayType = c("debounce", "throttle"), clip = TRUE, direction = c("xy", "x", "y"), resetOnNew = FALSE )
id |
Input value name. For example, if the value is |
fill |
Fill color of the brush. If |
stroke |
Outline color of the brush. If |
opacity |
Opacity of the brush |
delay |
How long to delay (in milliseconds) when debouncing or throttling, before sending the brush data to the server. |
delayType |
The type of algorithm for limiting the number of brush
events. Use |
clip |
Should the brush area be clipped to the plotting area? If FALSE, then the user will be able to brush outside the plotting area, as long as it is still inside the image. |
direction |
The direction for brushing. If |
resetOnNew |
When a new image is sent to the browser (via
|
clickOpts()
for clicking events.
Shiny automatically includes busy indicators, which more specifically means:
Calculating/recalculating outputs have a spinner overlay.
Outputs fade out/in when recalculating.
When no outputs are calculating/recalculating, but Shiny is busy doing something else (e.g., a download, side-effect, etc), a page-level pulsing banner is shown.
This function allows you to customize the appearance of these busy indicators
by including the result of this function inside the app's UI. Note that,
unless spinner_selector
(or fade_selector
) is specified, the spinner/fade
customization applies to the parent element. If the customization should
instead apply to the entire page, set spinner_selector = 'html'
and
fade_selector = 'html'
.
busyIndicatorOptions( ..., spinner_type = NULL, spinner_color = NULL, spinner_size = NULL, spinner_delay = NULL, spinner_selector = NULL, fade_opacity = NULL, fade_selector = NULL, pulse_background = NULL, pulse_height = NULL, pulse_speed = NULL )
busyIndicatorOptions( ..., spinner_type = NULL, spinner_color = NULL, spinner_size = NULL, spinner_delay = NULL, spinner_selector = NULL, fade_opacity = NULL, fade_selector = NULL, pulse_background = NULL, pulse_height = NULL, pulse_speed = NULL )
... |
Currently ignored. |
spinner_type |
The type of spinner. Pre-bundled types include: 'ring', 'ring2', 'ring3', 'bars', 'bars2', 'bars3', 'pulse', 'pulse2', 'pulse3', 'dots', 'dots2', 'dots3'. A path to a local SVG file can also be provided. The SVG should adhere to the following rules:
|
spinner_color |
The color of the spinner. This can be any valid CSS color. Defaults to the app's "primary" color if Bootstrap is on the page. |
spinner_size |
The size of the spinner. This can be any valid CSS size. |
spinner_delay |
The amount of time to wait before showing the spinner. This can be any valid CSS time and can be useful for not showing the spinner if the computation finishes quickly. |
spinner_selector |
A character string containing a CSS selector for
scoping the spinner customization. The default ( |
fade_opacity |
The opacity (a number between 0 and 1) for recalculating output. Set to 1 to "disable" the fade. |
fade_selector |
A character string containing a CSS selector for
scoping the spinner customization. The default ( |
pulse_background |
A CSS background definition for the pulse. The default uses a linear-gradient of the theme's indigo, purple, and pink colors. |
pulse_height |
The height of the pulsing banner. This can be any valid CSS size. |
pulse_speed |
The speed of the pulsing banner. This can be any valid CSS time. |
useBusyIndicators()
to disable/enable busy indicators.
library(bslib) card_ui <- function(id, spinner_type = id) { card( busyIndicatorOptions(spinner_type = spinner_type), card_header(paste("Spinner:", spinner_type)), plotOutput(shiny::NS(id, "plot")) ) } card_server <- function(id, simulate = reactive()) { moduleServer( id = id, function(input, output, session) { output$plot <- renderPlot({ Sys.sleep(1) simulate() plot(x = rnorm(100), y = rnorm(100)) }) } ) } ui <- page_fillable( useBusyIndicators(), input_task_button("simulate", "Simulate", icon = icon("refresh")), layout_columns( card_ui("ring"), card_ui("bars"), card_ui("dots"), card_ui("pulse"), col_widths = 6 ) ) server <- function(input, output, session) { simulate <- reactive(input$simulate) card_server("ring", simulate) card_server("bars", simulate) card_server("dots", simulate) card_server("pulse", simulate) } shinyApp(ui, server)
library(bslib) card_ui <- function(id, spinner_type = id) { card( busyIndicatorOptions(spinner_type = spinner_type), card_header(paste("Spinner:", spinner_type)), plotOutput(shiny::NS(id, "plot")) ) } card_server <- function(id, simulate = reactive()) { moduleServer( id = id, function(input, output, session) { output$plot <- renderPlot({ Sys.sleep(1) simulate() plot(x = rnorm(100), y = rnorm(100)) }) } ) } ui <- page_fillable( useBusyIndicators(), input_task_button("simulate", "Simulate", icon = icon("refresh")), layout_columns( card_ui("ring"), card_ui("bars"), card_ui("dots"), card_ui("pulse"), col_widths = 6 ) ) server <- function(input, output, session) { simulate <- reactive(input$simulate) card_server("ring", simulate) card_server("bars", simulate) card_server("dots", simulate) card_server("pulse", simulate) } shinyApp(ui, server)
Note: As of Shiny 1.5.0, we recommend using moduleServer()
instead of
callModule()
, because the syntax is a little easier
to understand, and modules created with moduleServer
can be tested with
testServer()
.
callModule(module, id, ..., session = getDefaultReactiveDomain())
callModule(module, id, ..., session = getDefaultReactiveDomain())
module |
A Shiny module server function |
id |
An ID string that corresponds with the ID used to call the module's UI function |
... |
Additional parameters to pass to module server function |
session |
Session from which to make a child scope (the default should almost always be used) |
The return value, if any, from executing the module server function
Create a group of checkboxes that can be used to toggle multiple choices independently. The server will receive the input as a character vector of the selected values.
checkboxGroupInput( inputId, label, choices = NULL, selected = NULL, inline = FALSE, width = NULL, choiceNames = NULL, choiceValues = NULL )
checkboxGroupInput( inputId, label, choices = NULL, selected = NULL, inline = FALSE, width = NULL, choiceNames = NULL, choiceValues = NULL )
inputId |
The |
label |
Display label for the control, or |
choices |
List of values to show checkboxes for. If elements of the list
are named then that name rather than the value is displayed to the user. If
this argument is provided, then |
selected |
The values that should be initially selected, if any. |
inline |
If |
width |
The width of the input, e.g. |
choiceNames , choiceValues
|
List of names and values, respectively,
that are displayed to the user in the app and correspond to the each
choice (for this reason, |
A list of HTML elements that can be added to a UI definition.
Character vector of values corresponding to the boxes that are checked.
checkboxInput()
, updateCheckboxGroupInput()
Other input elements:
actionButton()
,
checkboxInput()
,
dateInput()
,
dateRangeInput()
,
fileInput()
,
numericInput()
,
passwordInput()
,
radioButtons()
,
selectInput()
,
sliderInput()
,
submitButton()
,
textAreaInput()
,
textInput()
,
varSelectInput()
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( checkboxGroupInput("variable", "Variables to show:", c("Cylinders" = "cyl", "Transmission" = "am", "Gears" = "gear")), tableOutput("data") ) server <- function(input, output, session) { output$data <- renderTable({ mtcars[, c("mpg", input$variable), drop = FALSE] }, rownames = TRUE) } shinyApp(ui, server) ui <- fluidPage( checkboxGroupInput("icons", "Choose icons:", choiceNames = list(icon("calendar"), icon("bed"), icon("cog"), icon("bug")), choiceValues = list("calendar", "bed", "cog", "bug") ), textOutput("txt") ) server <- function(input, output, session) { output$txt <- renderText({ icons <- paste(input$icons, collapse = ", ") paste("You chose", icons) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( checkboxGroupInput("variable", "Variables to show:", c("Cylinders" = "cyl", "Transmission" = "am", "Gears" = "gear")), tableOutput("data") ) server <- function(input, output, session) { output$data <- renderTable({ mtcars[, c("mpg", input$variable), drop = FALSE] }, rownames = TRUE) } shinyApp(ui, server) ui <- fluidPage( checkboxGroupInput("icons", "Choose icons:", choiceNames = list(icon("calendar"), icon("bed"), icon("cog"), icon("bug")), choiceValues = list("calendar", "bed", "cog", "bug") ), textOutput("txt") ) server <- function(input, output, session) { output$txt <- renderText({ icons <- paste(input$icons, collapse = ", ") paste("You chose", icons) }) } shinyApp(ui, server) }
Create a checkbox that can be used to specify logical values.
checkboxInput(inputId, label, value = FALSE, width = NULL)
checkboxInput(inputId, label, value = FALSE, width = NULL)
inputId |
The |
label |
Display label for the control, or |
value |
Initial value ( |
width |
The width of the input, e.g. |
A checkbox control that can be added to a UI definition.
TRUE
if checked, FALSE
otherwise.
checkboxGroupInput()
, updateCheckboxInput()
Other input elements:
actionButton()
,
checkboxGroupInput()
,
dateInput()
,
dateRangeInput()
,
fileInput()
,
numericInput()
,
passwordInput()
,
radioButtons()
,
selectInput()
,
sliderInput()
,
submitButton()
,
textAreaInput()
,
textInput()
,
varSelectInput()
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( checkboxInput("somevalue", "Some value", FALSE), verbatimTextOutput("value") ) server <- function(input, output) { output$value <- renderText({ input$somevalue }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( checkboxInput("somevalue", "Some value", FALSE), verbatimTextOutput("value") ) server <- function(input, output) { output$value <- renderText({ input$somevalue }) } shinyApp(ui, server) }
These functions give control over the click
, dblClick
and
hover
events generated by imageOutput()
and plotOutput()
.
clickOpts(id, clip = TRUE) dblclickOpts(id, clip = TRUE, delay = 400) hoverOpts( id, delay = 300, delayType = c("debounce", "throttle"), clip = TRUE, nullOutside = TRUE )
clickOpts(id, clip = TRUE) dblclickOpts(id, clip = TRUE, delay = 400) hoverOpts( id, delay = 300, delayType = c("debounce", "throttle"), clip = TRUE, nullOutside = TRUE )
id |
Input value name. For example, if the value is |
clip |
Should the click area be clipped to the plotting area? If
|
delay |
For For |
delayType |
The type of algorithm for limiting the number of hover
events. Use |
nullOutside |
If |
brushOpts()
for brushing events.
Create a column for use within a fluidRow()
or
fixedRow()
column(width, ..., offset = 0)
column(width, ..., offset = 0)
width |
The grid width of the column (must be between 1 and 12) |
... |
Elements to include within the column |
offset |
The number of columns to offset this column from the end of the previous column. |
A column that can be included within a
fluidRow()
or fixedRow()
.
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( fluidRow( column(4, sliderInput("obs", "Number of observations:", min = 1, max = 1000, value = 500) ), column(8, plotOutput("distPlot") ) ) ) server <- function(input, output) { output$distPlot <- renderPlot({ hist(rnorm(input$obs)) }) } shinyApp(ui, server) ui <- fluidPage( fluidRow( column(width = 4, "4" ), column(width = 3, offset = 2, "3 offset 2" ) ) ) shinyApp(ui, server = function(input, output) { }) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( fluidRow( column(4, sliderInput("obs", "Number of observations:", min = 1, max = 1000, value = 500) ), column(8, plotOutput("distPlot") ) ) ) server <- function(input, output) { output$distPlot <- renderPlot({ hist(rnorm(input$obs)) }) } shinyApp(ui, server) ui <- fluidPage( fluidRow( column(width = 4, "4" ), column(width = 3, offset = 2, "3 offset 2" ) ) ) shinyApp(ui, server = function(input, output) { }) }
Creates a panel that is visible or not, depending on the value of a JavaScript expression. The JS expression is evaluated once at startup and whenever Shiny detects a relevant change in input/output.
conditionalPanel(condition, ..., ns = NS(NULL))
conditionalPanel(condition, ..., ns = NS(NULL))
condition |
A JavaScript expression that will be evaluated repeatedly to determine whether the panel should be displayed. |
... |
Elements to include in the panel. |
ns |
The |
In the JS expression, you can refer to input
and output
JavaScript objects that contain the current values of input and output. For
example, if you have an input with an id of foo
, then you can use
input.foo
to read its value. (Be sure not to modify the input/output
objects, as this may cause unpredictable behavior.)
You are not recommended to use special JavaScript characters such as a
period .
in the input id's, but if you do use them anyway, for
example, inputId = "foo.bar"
, you will have to use
input["foo.bar"]
instead of input.foo.bar
to read the input
value.
## Only run this example in interactive R sessions if (interactive()) { ui <- fluidPage( sidebarPanel( selectInput("plotType", "Plot Type", c(Scatter = "scatter", Histogram = "hist") ), # Only show this panel if the plot type is a histogram conditionalPanel( condition = "input.plotType == 'hist'", selectInput( "breaks", "Breaks", c("Sturges", "Scott", "Freedman-Diaconis", "[Custom]" = "custom") ), # Only show this panel if Custom is selected conditionalPanel( condition = "input.breaks == 'custom'", sliderInput("breakCount", "Break Count", min = 1, max = 50, value = 10) ) ) ), mainPanel( plotOutput("plot") ) ) server <- function(input, output) { x <- rnorm(100) y <- rnorm(100) output$plot <- renderPlot({ if (input$plotType == "scatter") { plot(x, y) } else { breaks <- input$breaks if (breaks == "custom") { breaks <- input$breakCount } hist(x, breaks = breaks) } }) } shinyApp(ui, server) }
## Only run this example in interactive R sessions if (interactive()) { ui <- fluidPage( sidebarPanel( selectInput("plotType", "Plot Type", c(Scatter = "scatter", Histogram = "hist") ), # Only show this panel if the plot type is a histogram conditionalPanel( condition = "input.plotType == 'hist'", selectInput( "breaks", "Breaks", c("Sturges", "Scott", "Freedman-Diaconis", "[Custom]" = "custom") ), # Only show this panel if Custom is selected conditionalPanel( condition = "input.breaks == 'custom'", sliderInput("breakCount", "Break Count", min = 1, max = 50, value = 10) ) ) ), mainPanel( plotOutput("plot") ) ) server <- function(input, output) { x <- rnorm(100) y <- rnorm(100) output$plot <- renderPlot({ if (input$plotType == "scatter") { plot(x, y) } else { breaks <- input$breaks if (breaks == "custom") { breaks <- input$breakCount } hist(x, breaks = breaks) } }) } shinyApp(ui, server) }
Developer-facing utilities for implementing a custom renderXXX()
function.
Before using these utilities directly, consider using the htmlwidgets
package to implement custom
outputs (i.e., custom renderXXX()
/xxxOutput()
functions). That said,
these utilities can be used more directly if a full-blown htmlwidget isn't
needed and/or the user-supplied reactive expression needs to be wrapped in
additional call(s).
createRenderFunction( func, transform = function(value, session, name, ...) value, outputFunc = NULL, outputArgs = NULL, cacheHint = "auto", cacheWriteHook = NULL, cacheReadHook = NULL ) quoToFunction(q, label = sys.call(-1)[[1]], ..stacktraceon = FALSE) installExprFunction( expr, name, eval.env = parent.frame(2), quoted = FALSE, assign.env = parent.frame(1), label = sys.call(-1)[[1]], wrappedWithLabel = TRUE, ..stacktraceon = FALSE )
createRenderFunction( func, transform = function(value, session, name, ...) value, outputFunc = NULL, outputArgs = NULL, cacheHint = "auto", cacheWriteHook = NULL, cacheReadHook = NULL ) quoToFunction(q, label = sys.call(-1)[[1]], ..stacktraceon = FALSE) installExprFunction( expr, name, eval.env = parent.frame(2), quoted = FALSE, assign.env = parent.frame(1), label = sys.call(-1)[[1]], wrappedWithLabel = TRUE, ..stacktraceon = FALSE )
func |
A function without parameters, that returns user data. If the returned value is a promise, then the render function will proceed in async mode. |
transform |
A function that takes four arguments: |
outputFunc |
The UI function that is used (or most commonly used) with this render function. This can be used in R Markdown documents to create complete output widgets out of just the render function. |
outputArgs |
A list of arguments to pass to the |
cacheHint |
One of |
cacheWriteHook |
Used if the render function is passed to |
cacheReadHook |
Used if the render function is passed to |
q |
Quosure of the expression |
label |
A label for the object to be shown in the debugger. Defaults to the name of the calling function. |
expr |
A quoted or unquoted expression, or a quosure. |
name |
The name the function should be given |
eval.env |
The desired environment for the function. Defaults to the calling environment two steps back. |
quoted |
Is the expression quoted? |
assign.env |
The environment in which the function should be assigned. |
wrappedWithLabel , ..stacktraceon
|
Advanced use only. For stack manipulation purposes; see
|
To implement a custom renderXXX()
function, essentially 2 things are needed:
Capture the user's reactive expression as a function.
New renderXXX()
functions can use quoToFunction()
for this, but
already existing renderXXX()
functions that contain env
and quoted
parameters may want to continue using installExprFunction()
for better
legacy support (see examples).
Flag the resulting function (from 1) as a Shiny rendering function and also provide a UI container for displaying the result of the rendering function.
createRenderFunction()
is currently recommended (instead of
markRenderFunction()
) for this step (see examples).
An annotated render function, ready to be assigned to an
output
slot.
quoToFunction()
: convert a quosure to a function.
installExprFunction()
: converts a user's reactive expr
into a
function that's assigned to a name
in the assign.env
.
# A custom render function that repeats the supplied value 3 times renderTriple <- function(expr) { # Wrap user-supplied reactive expression into a function func <- quoToFunction(rlang::enquo0(expr)) createRenderFunction( func, transform = function(value, session, name, ...) { paste(rep(value, 3), collapse=", ") }, outputFunc = textOutput ) } # For better legacy support, consider using installExprFunction() over quoToFunction() renderTripleLegacy <- function(expr, env = parent.frame(), quoted = FALSE) { func <- installExprFunction(expr, "func", env, quoted) createRenderFunction( func, transform = function(value, session, name, ...) { paste(rep(value, 3), collapse=", ") }, outputFunc = textOutput ) } # Test render function from the console reactiveConsole(TRUE) v <- reactiveVal("basic") r <- renderTriple({ v() }) r() #> [1] "basic, basic, basic" # User can supply quoted code via rlang::quo(). Note that evaluation of the # expression happens when r2() is invoked, not when r2 is created. q <- rlang::quo({ v() }) r2 <- rlang::inject(renderTriple(!!q)) v("rlang") r2() #> [1] "rlang, rlang, rlang" # Supplying quoted code without rlang::quo() requires installExprFunction() expr <- quote({ v() }) r3 <- renderTripleLegacy(expr, quoted = TRUE) v("legacy") r3() #> [1] "legacy, legacy, legacy" # The legacy approach also supports with quosures (env is ignored in this case) q <- rlang::quo({ v() }) r4 <- renderTripleLegacy(q, quoted = TRUE) v("legacy-rlang") r4() #> [1] "legacy-rlang, legacy-rlang, legacy-rlang" # Turn off reactivity in the console reactiveConsole(FALSE)
# A custom render function that repeats the supplied value 3 times renderTriple <- function(expr) { # Wrap user-supplied reactive expression into a function func <- quoToFunction(rlang::enquo0(expr)) createRenderFunction( func, transform = function(value, session, name, ...) { paste(rep(value, 3), collapse=", ") }, outputFunc = textOutput ) } # For better legacy support, consider using installExprFunction() over quoToFunction() renderTripleLegacy <- function(expr, env = parent.frame(), quoted = FALSE) { func <- installExprFunction(expr, "func", env, quoted) createRenderFunction( func, transform = function(value, session, name, ...) { paste(rep(value, 3), collapse=", ") }, outputFunc = textOutput ) } # Test render function from the console reactiveConsole(TRUE) v <- reactiveVal("basic") r <- renderTriple({ v() }) r() #> [1] "basic, basic, basic" # User can supply quoted code via rlang::quo(). Note that evaluation of the # expression happens when r2() is invoked, not when r2 is created. q <- rlang::quo({ v() }) r2 <- rlang::inject(renderTriple(!!q)) v("rlang") r2() #> [1] "rlang, rlang, rlang" # Supplying quoted code without rlang::quo() requires installExprFunction() expr <- quote({ v() }) r3 <- renderTripleLegacy(expr, quoted = TRUE) v("legacy") r3() #> [1] "legacy, legacy, legacy" # The legacy approach also supports with quosures (env is ignored in this case) q <- rlang::quo({ v() }) r4 <- renderTripleLegacy(q, quoted = TRUE) v("legacy-rlang") r4() #> [1] "legacy-rlang, legacy-rlang, legacy-rlang" # Turn off reactivity in the console reactiveConsole(FALSE)
Ensure that a file-based HTML dependency (from the htmltools package) can be
served over Shiny's HTTP server. This function works by using
addResourcePath()
to map the HTML dependency's directory to a
URL.
createWebDependency(dependency, scrubFile = TRUE)
createWebDependency(dependency, scrubFile = TRUE)
dependency |
A single HTML dependency object, created using
|
scrubFile |
If TRUE (the default), remove |
A single HTML dependency object that has an href
-named element
in its src
.
Creates a text input which, when clicked on, brings up a calendar that the user can click on to select dates.
dateInput( inputId, label, value = NULL, min = NULL, max = NULL, format = "yyyy-mm-dd", startview = "month", weekstart = 0, language = "en", width = NULL, autoclose = TRUE, datesdisabled = NULL, daysofweekdisabled = NULL )
dateInput( inputId, label, value = NULL, min = NULL, max = NULL, format = "yyyy-mm-dd", startview = "month", weekstart = 0, language = "en", width = NULL, autoclose = TRUE, datesdisabled = NULL, daysofweekdisabled = NULL )
inputId |
The |
label |
Display label for the control, or |
value |
The starting date. Either a Date object, or a string in
|
min |
The minimum allowed date. Either a Date object, or a string in
|
max |
The maximum allowed date. Either a Date object, or a string in
|
format |
The format of the date to display in the browser. Defaults to
|
startview |
The date range shown when the input object is first clicked. Can be "month" (the default), "year", or "decade". |
weekstart |
Which day is the start of the week. Should be an integer from 0 (Sunday) to 6 (Saturday). |
language |
The language used for month and day names. Default is "en". Other valid values include "ar", "az", "bg", "bs", "ca", "cs", "cy", "da", "de", "el", "en-AU", "en-GB", "eo", "es", "et", "eu", "fa", "fi", "fo", "fr-CH", "fr", "gl", "he", "hr", "hu", "hy", "id", "is", "it-CH", "it", "ja", "ka", "kh", "kk", "ko", "kr", "lt", "lv", "me", "mk", "mn", "ms", "nb", "nl-BE", "nl", "no", "pl", "pt-BR", "pt", "ro", "rs-latin", "rs", "ru", "sk", "sl", "sq", "sr-latin", "sr", "sv", "sw", "th", "tr", "uk", "vi", "zh-CN", and "zh-TW". |
width |
The width of the input, e.g. |
autoclose |
Whether or not to close the datepicker immediately when a date is selected. |
datesdisabled |
Which dates should be disabled. Either a Date object,
or a string in |
daysofweekdisabled |
Days of the week that should be disabled. Should be a integer vector with values from 0 (Sunday) to 6 (Saturday). |
The date format
string specifies how the date will be displayed in
the browser. It allows the following values:
yy
Year without century (12)
yyyy
Year with century (2012)
mm
Month number, with leading zero (01-12)
m
Month number, without leading zero (1-12)
M
Abbreviated month name
MM
Full month name
dd
Day of month with leading zero
d
Day of month without leading zero
D
Abbreviated weekday name
DD
Full weekday name
A Date vector of length 1.
dateRangeInput()
, updateDateInput()
Other input elements:
actionButton()
,
checkboxGroupInput()
,
checkboxInput()
,
dateRangeInput()
,
fileInput()
,
numericInput()
,
passwordInput()
,
radioButtons()
,
selectInput()
,
sliderInput()
,
submitButton()
,
textAreaInput()
,
textInput()
,
varSelectInput()
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( dateInput("date1", "Date:", value = "2012-02-29"), # Default value is the date in client's time zone dateInput("date2", "Date:"), # value is always yyyy-mm-dd, even if the display format is different dateInput("date3", "Date:", value = "2012-02-29", format = "mm/dd/yy"), # Pass in a Date object dateInput("date4", "Date:", value = Sys.Date()-10), # Use different language and different first day of week dateInput("date5", "Date:", language = "ru", weekstart = 1), # Start with decade view instead of default month view dateInput("date6", "Date:", startview = "decade"), # Disable Mondays and Tuesdays. dateInput("date7", "Date:", daysofweekdisabled = c(1,2)), # Disable specific dates. dateInput("date8", "Date:", value = "2012-02-29", datesdisabled = c("2012-03-01", "2012-03-02")) ) shinyApp(ui, server = function(input, output) { }) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( dateInput("date1", "Date:", value = "2012-02-29"), # Default value is the date in client's time zone dateInput("date2", "Date:"), # value is always yyyy-mm-dd, even if the display format is different dateInput("date3", "Date:", value = "2012-02-29", format = "mm/dd/yy"), # Pass in a Date object dateInput("date4", "Date:", value = Sys.Date()-10), # Use different language and different first day of week dateInput("date5", "Date:", language = "ru", weekstart = 1), # Start with decade view instead of default month view dateInput("date6", "Date:", startview = "decade"), # Disable Mondays and Tuesdays. dateInput("date7", "Date:", daysofweekdisabled = c(1,2)), # Disable specific dates. dateInput("date8", "Date:", value = "2012-02-29", datesdisabled = c("2012-03-01", "2012-03-02")) ) shinyApp(ui, server = function(input, output) { }) }
Creates a pair of text inputs which, when clicked on, bring up calendars that the user can click on to select dates.
dateRangeInput( inputId, label, start = NULL, end = NULL, min = NULL, max = NULL, format = "yyyy-mm-dd", startview = "month", weekstart = 0, language = "en", separator = " to ", width = NULL, autoclose = TRUE )
dateRangeInput( inputId, label, start = NULL, end = NULL, min = NULL, max = NULL, format = "yyyy-mm-dd", startview = "month", weekstart = 0, language = "en", separator = " to ", width = NULL, autoclose = TRUE )
inputId |
The |
label |
Display label for the control, or |
start |
The initial start date. Either a Date object, or a string in
|
end |
The initial end date. Either a Date object, or a string in
|
min |
The minimum allowed date. Either a Date object, or a string in
|
max |
The maximum allowed date. Either a Date object, or a string in
|
format |
The format of the date to display in the browser. Defaults to
|
startview |
The date range shown when the input object is first clicked. Can be "month" (the default), "year", or "decade". |
weekstart |
Which day is the start of the week. Should be an integer from 0 (Sunday) to 6 (Saturday). |
language |
The language used for month and day names. Default is "en". Other valid values include "ar", "az", "bg", "bs", "ca", "cs", "cy", "da", "de", "el", "en-AU", "en-GB", "eo", "es", "et", "eu", "fa", "fi", "fo", "fr-CH", "fr", "gl", "he", "hr", "hu", "hy", "id", "is", "it-CH", "it", "ja", "ka", "kh", "kk", "ko", "kr", "lt", "lv", "me", "mk", "mn", "ms", "nb", "nl-BE", "nl", "no", "pl", "pt-BR", "pt", "ro", "rs-latin", "rs", "ru", "sk", "sl", "sq", "sr-latin", "sr", "sv", "sw", "th", "tr", "uk", "vi", "zh-CN", and "zh-TW". |
separator |
String to display between the start and end input boxes. |
width |
The width of the input, e.g. |
autoclose |
Whether or not to close the datepicker immediately when a date is selected. |
The date format
string specifies how the date will be displayed in
the browser. It allows the following values:
yy
Year without century (12)
yyyy
Year with century (2012)
mm
Month number, with leading zero (01-12)
m
Month number, without leading zero (1-12)
M
Abbreviated month name
MM
Full month name
dd
Day of month with leading zero
d
Day of month without leading zero
D
Abbreviated weekday name
DD
Full weekday name
A Date vector of length 2.
dateInput()
, updateDateRangeInput()
Other input elements:
actionButton()
,
checkboxGroupInput()
,
checkboxInput()
,
dateInput()
,
fileInput()
,
numericInput()
,
passwordInput()
,
radioButtons()
,
selectInput()
,
sliderInput()
,
submitButton()
,
textAreaInput()
,
textInput()
,
varSelectInput()
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( dateRangeInput("daterange1", "Date range:", start = "2001-01-01", end = "2010-12-31"), # Default start and end is the current date in the client's time zone dateRangeInput("daterange2", "Date range:"), # start and end are always specified in yyyy-mm-dd, even if the display # format is different dateRangeInput("daterange3", "Date range:", start = "2001-01-01", end = "2010-12-31", min = "2001-01-01", max = "2012-12-21", format = "mm/dd/yy", separator = " - "), # Pass in Date objects dateRangeInput("daterange4", "Date range:", start = Sys.Date()-10, end = Sys.Date()+10), # Use different language and different first day of week dateRangeInput("daterange5", "Date range:", language = "de", weekstart = 1), # Start with decade view instead of default month view dateRangeInput("daterange6", "Date range:", startview = "decade") ) shinyApp(ui, server = function(input, output) { }) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( dateRangeInput("daterange1", "Date range:", start = "2001-01-01", end = "2010-12-31"), # Default start and end is the current date in the client's time zone dateRangeInput("daterange2", "Date range:"), # start and end are always specified in yyyy-mm-dd, even if the display # format is different dateRangeInput("daterange3", "Date range:", start = "2001-01-01", end = "2010-12-31", min = "2001-01-01", max = "2012-12-21", format = "mm/dd/yy", separator = " - "), # Pass in Date objects dateRangeInput("daterange4", "Date range:", start = Sys.Date()-10, end = Sys.Date()+10), # Use different language and different first day of week dateRangeInput("daterange5", "Date range:", language = "de", weekstart = 1), # Start with decade view instead of default month view dateRangeInput("daterange6", "Date range:", startview = "decade") ) shinyApp(ui, server = function(input, output) { }) }
Transforms a reactive expression by preventing its invalidation signals from
being sent unnecessarily often. This lets you ignore a very "chatty" reactive
expression until it becomes idle, which is useful when the intermediate
values don't matter as much as the final value, and the downstream
calculations that depend on the reactive expression take a long time.
debounce
and throttle
use different algorithms for slowing down
invalidation signals; see Details.
debounce(r, millis, priority = 100, domain = getDefaultReactiveDomain()) throttle(r, millis, priority = 100, domain = getDefaultReactiveDomain())
debounce(r, millis, priority = 100, domain = getDefaultReactiveDomain()) throttle(r, millis, priority = 100, domain = getDefaultReactiveDomain())
r |
A reactive expression (that invalidates too often). |
millis |
The debounce/throttle time window. You may optionally pass a no-arg function or reactive expression instead, e.g. to let the end-user control the time window. |
priority |
Debounce/throttle is implemented under the hood using observers. Use this parameter to set the priority of these observers. Generally, this should be higher than the priorities of downstream observers and outputs (which default to zero). |
domain |
See domains. |
This is not a true debounce/throttle in that it will not prevent r
from being called many times (in fact it may be called more times than
usual), but rather, the reactive invalidation signal that is produced by
r
is debounced/throttled instead. Therefore, these functions should be
used when r
is cheap but the things it will trigger (downstream
outputs and reactives) are expensive.
Debouncing means that every invalidation from r
will be held for the
specified time window. If r
invalidates again within that time window,
then the timer starts over again. This means that as long as invalidations
continually arrive from r
within the time window, the debounced
reactive will not invalidate at all. Only after the invalidations stop (or
slow down sufficiently) will the downstream invalidation be sent.
ooo-oo-oo---- => -----------o-
(In this graphical depiction, each character represents a unit of time, and the time window is 3 characters.)
Throttling, on the other hand, delays invalidation if the throttled
reactive recently (within the time window) invalidated. New r
invalidations do not reset the time window. This means that if invalidations
continually come from r
within the time window, the throttled reactive
will invalidate regularly, at a rate equal to or slower than the time
window.
ooo-oo-oo---- => o--o--o--o---
Because R is single threaded, we can't come close to guaranteeing that the timing of debounce/throttle (or any other timing-related functions in Shiny) will be consistent or accurate; at the time we want to emit an invalidation signal, R may be performing a different task and we have no way to interrupt it (nor would we necessarily want to if we could). Therefore, it's best to think of the time windows you pass to these functions as minimums.
You may also see undesirable behavior if the amount of time spent doing downstream processing for each change approaches or exceeds the time window: in this case, debounce/throttle may not have any effect, as the time each subsequent event is considered is already after the time window has expired.
## Only run examples in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) library(shiny) library(magrittr) ui <- fluidPage( plotOutput("plot", click = clickOpts("hover")), helpText("Quickly click on the plot above, while watching the result table below:"), tableOutput("result") ) server <- function(input, output, session) { hover <- reactive({ if (is.null(input$hover)) list(x = NA, y = NA) else input$hover }) hover_d <- hover %>% debounce(1000) hover_t <- hover %>% throttle(1000) output$plot <- renderPlot({ plot(cars) }) output$result <- renderTable({ data.frame( mode = c("raw", "throttle", "debounce"), x = c(hover()$x, hover_t()$x, hover_d()$x), y = c(hover()$y, hover_t()$y, hover_d()$y) ) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) library(shiny) library(magrittr) ui <- fluidPage( plotOutput("plot", click = clickOpts("hover")), helpText("Quickly click on the plot above, while watching the result table below:"), tableOutput("result") ) server <- function(input, output, session) { hover <- reactive({ if (is.null(input$hover)) list(x = NA, y = NA) else input$hover }) hover_d <- hover %>% debounce(1000) hover_t <- hover %>% throttle(1000) output$plot <- renderPlot({ plot(cars) }) output$result <- renderTable({ data.frame( mode = c("raw", "throttle", "debounce"), x = c(hover()$x, hover_t()$x, hover_d()$x), y = c(hover()$y, hover_t()$y, hover_d()$y) ) }) } shinyApp(ui, server) }
Developer Mode enables a number of options()
to make a developer's life
easier, like enabling non-minified JS and printing messages about
deprecated functions and options.
Shiny Developer Mode can be enabled by calling devmode(TRUE)
and disabled
by calling devmode(FALSE)
.
Please see the function descriptions for more details.
devmode( devmode = getOption("shiny.devmode", TRUE), verbose = getOption("shiny.devmode.verbose", TRUE) ) in_devmode() with_devmode(devmode, code, verbose = getOption("shiny.devmode.verbose", TRUE)) devmode_inform( message, .frequency = "regularly", .frequency_id = message, .file = stderr(), ... ) register_devmode_option(name, devmode_message = NULL, devmode_default = NULL) get_devmode_option( name, default = NULL, devmode_default = missing_arg(), devmode_message = missing_arg() )
devmode( devmode = getOption("shiny.devmode", TRUE), verbose = getOption("shiny.devmode.verbose", TRUE) ) in_devmode() with_devmode(devmode, code, verbose = getOption("shiny.devmode.verbose", TRUE)) devmode_inform( message, .frequency = "regularly", .frequency_id = message, .file = stderr(), ... ) register_devmode_option(name, devmode_message = NULL, devmode_default = NULL) get_devmode_option( name, default = NULL, devmode_default = missing_arg(), devmode_message = missing_arg() )
devmode |
Logical value which should be set to |
verbose |
Logical value which should be set to |
code |
Code to execute with the temporary Dev Mode options set |
message |
Developer Mode message to be sent to |
.frequency |
Frequency of the Developer Mode message used with
|
.frequency_id |
|
.file |
Output connection for |
... |
Parameters passed to |
name |
Name of option to look for in |
devmode_message |
Message to display once every 8 hours when utilizing
the |
devmode_default |
Default value to return if |
default |
Default value to return if |
devmode()
: Function to set two options to enable/disable Shiny
Developer Mode and Developer messages
in_devmode()
: Determines if Shiny is in Developer Mode. If the
getOption("shiny.devmode")
is set to TRUE
and not in testing inside
testthat
, then Shiny Developer Mode is enabled.
with_devmode()
: Temporarily set Shiny Developer Mode and Developer
message verbosity
devmode_inform()
: If Shiny Developer Mode and verbosity are enabled,
displays a message once every 8 hrs (by default)
register_devmode_option()
: Registers a Shiny Developer Mode option with an updated
value and Developer message. This registration method allows package
authors to write one message in a single location.
For example, the following Shiny Developer Mode options are registered:
# Reload the Shiny app when a sourced R file changes register_devmode_option( "shiny.autoreload", "Turning on shiny autoreload. To disable, call `options(shiny.autoreload = FALSE)`", devmode_default = TRUE ) # Use the unminified Shiny JavaScript file, `shiny.js` register_devmode_option( "shiny.minified", "Using full shiny javascript file. To use the minified version, call `options(shiny.minified = TRUE)`", devmode_default = FALSE ) # Display the full stack trace when errors occur during Shiny app execution register_devmode_option( "shiny.fullstacktrace", "Turning on full stack trace. To disable, call `options(shiny.fullstacktrace = FALSE)`", devmode_default = TRUE )
Other known, non-Shiny Developer Mode options:
Sass:
# Display the full stack trace when errors occur during Shiny app execution register_devmode_option( "sass.cache", "Turning off sass cache. To use default caching, call `options(sass.cache = TRUE)`", devmode_default = FALSE )
get_devmode_option()
: Provides a consistent way to change the expected
getOption()
behavior when Developer Mode is enabled. This method is very
similar to getOption()
where the globally set option takes precedence.
See section "Avoiding direct dependency on shiny" for
get_devmode_option()
implementation details.
Package developers: Register your Dev Mode option using
register_devmode_option()
to avoid supplying the same devmode_default
and devmode_message
values throughout your package. (This requires a
shiny dependency.)
The methods explained in this help file act independently from the rest of
Shiny but are included to provide blue prints for your own packages. If
your package already has (or is willing to take) a dependency on Shiny, we
recommend using the exported Shiny methods for consistent behavior. Note
that if you use exported Shiny methods, it will cause the Shiny package to
load. This may be undesirable if your code will be used in (for example) R
Markdown documents that do not have a Shiny runtime (runtime: shiny
).
If your package can not take a dependency on Shiny, we recommending re-implementing these two functions:
in_devmode()
:
This function should return TRUE
if getOption("shiny.devmode")
is set.
In addition, we strongly recommend that it also checks to make sure
testthat
is not testing.
in_devmode <- function() { isTRUE(getOption("shiny.devmode", FALSE)) && !identical(Sys.getenv("TESTTHAT"), "true") }
get_devmode_option(name, default, devmode_default, devmode_message)
:
This function is similar to getOption(name, default)
, but when the option
is not set, the default value changes depending on the Dev Mode.
get_devmode_option()
should be implemented as follows:
If not in Dev Mode:
Return getOption(name, default)
.
If in Dev Mode:
Get the global option getOption(name)
value.
If the global option value is set:
Return the value.
If the global option value is not set:
Notify the developer that the Dev Mode default value will be used.
Return the Dev Mode default value.
When notifying the developer that the default value has changed, we strongly
recommend displaying a message (devmode_message
) to stderr()
once every 8
hours using rlang::inform()
. This will keep the author up to date as to
which Dev Mode options are being altered. To allow developers a chance to
disable Dev Mode messages, the message should be skipped if
getOption("shiny.devmode.verbose", TRUE)
is not TRUE
.
get_devmode_option <- function(name, default = NULL, devmode_default, devmode_message) { if (!in_devmode()) { # Dev Mode disabled, act like `getOption()` return(getOption(name, default = default)) } # Dev Mode enabled, update the default value for `getOption()` getOption(name, default = { # Notify developer if ( !missing(devmode_message) && !is.null(devmode_message) && getOption("shiny.devmode.verbose", TRUE) ) { rlang::inform( message = devmode_message, .frequency = "regularly", .frequency_id = devmode_message, .file = stderr() ) } # Return Dev Mode default value `devmode_default` devmode_default }) }
The remaining functions in this file are used for author convenience and are not recommended for all reimplementation situations.
# Enable Shiny Developer mode devmode() in_devmode() # TRUE/FALSE? # Execute code in a temporary shiny dev mode with_devmode(TRUE, in_devmode()) # TRUE # Ex: Within shiny, we register the option "shiny.minified" # to default to `FALSE` when in Dev Mode ## Not run: register_devmode_option( "shiny.minified", devmode_message = paste0( "Using full shiny javascript file. ", "To use the minified version, call `options(shiny.minified = TRUE)`" ), devmode_default = FALSE ) ## End(Not run) # Used within `shiny::runApp(launch.browser)` get_devmode_option("shiny.minified", TRUE) # TRUE if Dev mode is off is_minified <- with_devmode(TRUE, { get_devmode_option("shiny.minified", TRUE) }) is_minified # FALSE
# Enable Shiny Developer mode devmode() in_devmode() # TRUE/FALSE? # Execute code in a temporary shiny dev mode with_devmode(TRUE, in_devmode()) # TRUE # Ex: Within shiny, we register the option "shiny.minified" # to default to `FALSE` when in Dev Mode ## Not run: register_devmode_option( "shiny.minified", devmode_message = paste0( "Using full shiny javascript file. ", "To use the minified version, call `options(shiny.minified = TRUE)`" ), devmode_default = FALSE ) ## End(Not run) # Used within `shiny::runApp(launch.browser)` get_devmode_option("shiny.minified", TRUE) # TRUE if Dev mode is off is_minified <- with_devmode(TRUE, { get_devmode_option("shiny.minified", TRUE) }) is_minified # FALSE
Reactive domains are a mechanism for establishing ownership over reactive primitives (like reactive expressions and observers), even if the set of reactive primitives is dynamically created. This is useful for lifetime management (i.e. destroying observers when the Shiny session that created them ends) and error handling.
getDefaultReactiveDomain() withReactiveDomain(domain, expr) onReactiveDomainEnded(domain, callback, failIfNull = FALSE)
getDefaultReactiveDomain() withReactiveDomain(domain, expr) onReactiveDomainEnded(domain, callback, failIfNull = FALSE)
domain |
A valid domain object (for example, a Shiny session), or
|
expr |
An expression to evaluate under |
callback |
A callback function to be invoked |
failIfNull |
If |
At any given time, there can be either a single "default" reactive domain
object, or none (i.e. the reactive domain object is NULL
). You can
access the current default reactive domain by calling
getDefaultReactiveDomain
.
Unless you specify otherwise, newly created observers and reactive
expressions will be assigned to the current default domain (if any). You can
override this assignment by providing an explicit domain
argument to
reactive()
or observe()
.
For advanced usage, it's possible to override the default domain using
withReactiveDomain
. The domain
argument will be made the
default domain while expr
is evaluated.
Implementers of new reactive primitives can use onReactiveDomainEnded
as a convenience function for registering callbacks. If the reactive domain
is NULL
and failIfNull
is FALSE
, then the callback will
never be invoked.
Use these functions to create a download button or link; when clicked, it
will initiate a browser download. The filename and contents are specified by
the corresponding downloadHandler()
defined in the server
function.
downloadButton( outputId, label = "Download", class = NULL, ..., icon = shiny::icon("download") ) downloadLink(outputId, label = "Download", class = NULL, ...)
downloadButton( outputId, label = "Download", class = NULL, ..., icon = shiny::icon("download") ) downloadLink(outputId, label = "Download", class = NULL, ...)
outputId |
The name of the output slot that the |
label |
The label that should appear on the button. |
class |
Additional CSS classes to apply to the tag, if any. |
... |
Other arguments to pass to the container tag function. |
icon |
An |
## Not run: ui <- fluidPage( p("Choose a dataset to download."), selectInput("dataset", "Dataset", choices = c("mtcars", "airquality")), downloadButton("downloadData", "Download") ) server <- function(input, output) { # The requested dataset data <- reactive({ get(input$dataset) }) output$downloadData <- downloadHandler( filename = function() { # Use the selected dataset as the suggested file name paste0(input$dataset, ".csv") }, content = function(file) { # Write the dataset to the `file` that will be downloaded write.csv(data(), file) } ) } shinyApp(ui, server) ## End(Not run)
## Not run: ui <- fluidPage( p("Choose a dataset to download."), selectInput("dataset", "Dataset", choices = c("mtcars", "airquality")), downloadButton("downloadData", "Download") ) server <- function(input, output) { # The requested dataset data <- reactive({ get(input$dataset) }) output$downloadData <- downloadHandler( filename = function() { # Use the selected dataset as the suggested file name paste0(input$dataset, ".csv") }, content = function(file) { # Write the dataset to the `file` that will be downloaded write.csv(data(), file) } ) } shinyApp(ui, server) ## End(Not run)
Allows content from the Shiny application to be made available to the user as
file downloads (for example, downloading the currently visible data as a CSV
file). Both filename and contents can be calculated dynamically at the time
the user initiates the download. Assign the return value to a slot on
output
in your server function, and in the UI use
downloadButton()
or downloadLink()
to make the
download available.
downloadHandler(filename, content, contentType = NULL, outputArgs = list())
downloadHandler(filename, content, contentType = NULL, outputArgs = list())
filename |
A string of the filename, including extension, that the user's web browser should default to when downloading the file; or a function that returns such a string. (Reactive values and functions may be used from this function.) |
content |
A function that takes a single argument |
contentType |
A string of the download's
content type, for
example |
outputArgs |
A list of arguments to be passed through to the implicit
call to |
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( downloadButton("downloadData", "Download") ) server <- function(input, output) { # Our dataset data <- mtcars output$downloadData <- downloadHandler( filename = function() { paste("data-", Sys.Date(), ".csv", sep="") }, content = function(file) { write.csv(data, file) } ) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( downloadButton("downloadData", "Download") ) server <- function(input, output) { # Our dataset data <- mtcars output$downloadData <- downloadHandler( filename = function() { paste("data-", Sys.Date(), ".csv", sep="") }, content = function(file) { write.csv(data, file) } ) } shinyApp(ui, server) }
There are two types of bookmarking: saving an application's state to disk on the server, and encoding the application's state in a URL. For state that has been saved to disk, the state can be restored with the corresponding state ID. For URL-encoded state, the state of the application is encoded in the URL, and no server-side storage is needed.
URL-encoded bookmarking is appropriate for applications where there not many input values that need to be recorded. Some browsers have a length limit for URLs of about 2000 characters, and if there are many inputs, the length of the URL can exceed that limit.
Saved-on-server bookmarking is appropriate when there are many inputs, or when the bookmarked state requires storing files.
enableBookmarking(store = c("url", "server", "disable"))
enableBookmarking(store = c("url", "server", "disable"))
store |
Either |
For restoring state to work properly, the UI must be a function that takes
one argument, request
. In most Shiny applications, the UI is not a
function; it might have the form fluidPage(....)
. Converting it to a
function is as simple as wrapping it in a function, as in
function(request) { fluidPage(....) }
.
By default, all input values will be bookmarked, except for the values of passwordInputs. fileInputs will be saved if the state is saved on a server, but not if the state is encoded in a URL.
When bookmarking state, arbitrary values can be stored, by passing a function
as the onBookmark
argument. That function will be passed a
ShinySaveState
object. The values
field of the object is a list
which can be manipulated to save extra information. Additionally, if the
state is being saved on the server, and the dir
field of that object
can be used to save extra information to files in that directory.
For saved-to-server state, this is how the state directory is chosen:
If running in a hosting environment such as Shiny Server or Connect, the hosting environment will choose the directory.
If running an app in a directory with runApp()
, the
saved states will be saved in a subdirectory of the app called
shiny_bookmarks.
If running a Shiny app object that is generated from code (not run from a directory), the saved states will be saved in a subdirectory of the current working directory called shiny_bookmarks.
When used with shinyApp()
, this function must be called before
shinyApp()
, or in the shinyApp()
's onStart
function. An
alternative to calling the enableBookmarking()
function is to use the
enableBookmarking
argument for shinyApp()
. See examples
below.
onBookmark()
, onBookmarked()
,
onRestore()
, and onRestored()
for registering
callback functions that are invoked when the state is bookmarked or
restored.
Also see updateQueryString()
.
## Only run these examples in interactive R sessions if (interactive()) { # Basic example with state encoded in URL ui <- function(request) { fluidPage( textInput("txt", "Text"), checkboxInput("chk", "Checkbox"), bookmarkButton() ) } server <- function(input, output, session) { } enableBookmarking("url") shinyApp(ui, server) # An alternative to calling enableBookmarking(): use shinyApp's # enableBookmarking argument shinyApp(ui, server, enableBookmarking = "url") # Same basic example with state saved to disk enableBookmarking("server") shinyApp(ui, server) # Save/restore arbitrary values ui <- function(req) { fluidPage( textInput("txt", "Text"), checkboxInput("chk", "Checkbox"), bookmarkButton(), br(), textOutput("lastSaved") ) } server <- function(input, output, session) { vals <- reactiveValues(savedTime = NULL) output$lastSaved <- renderText({ if (!is.null(vals$savedTime)) paste("Last saved at", vals$savedTime) else "" }) onBookmark(function(state) { vals$savedTime <- Sys.time() # state is a mutable reference object, and we can add arbitrary values # to it. state$values$time <- vals$savedTime }) onRestore(function(state) { vals$savedTime <- state$values$time }) } enableBookmarking(store = "url") shinyApp(ui, server) # Usable with dynamic UI (set the slider, then change the text input, # click the bookmark button) ui <- function(request) { fluidPage( sliderInput("slider", "Slider", 1, 100, 50), uiOutput("ui"), bookmarkButton() ) } server <- function(input, output, session) { output$ui <- renderUI({ textInput("txt", "Text", input$slider) }) } enableBookmarking("url") shinyApp(ui, server) # Exclude specific inputs (The only input that will be saved in this # example is chk) ui <- function(request) { fluidPage( passwordInput("pw", "Password"), # Passwords are never saved sliderInput("slider", "Slider", 1, 100, 50), # Manually excluded below checkboxInput("chk", "Checkbox"), bookmarkButton() ) } server <- function(input, output, session) { setBookmarkExclude("slider") } enableBookmarking("url") shinyApp(ui, server) # Update the browser's location bar every time an input changes. This should # not be used with enableBookmarking("server"), because that would create a # new saved state on disk every time the user changes an input. ui <- function(req) { fluidPage( textInput("txt", "Text"), checkboxInput("chk", "Checkbox") ) } server <- function(input, output, session) { observe({ # Trigger this observer every time an input changes reactiveValuesToList(input) session$doBookmark() }) onBookmarked(function(url) { updateQueryString(url) }) } enableBookmarking("url") shinyApp(ui, server) # Save/restore uploaded files ui <- function(request) { fluidPage( sidebarLayout( sidebarPanel( fileInput("file1", "Choose CSV File", multiple = TRUE, accept = c( "text/csv", "text/comma-separated-values,text/plain", ".csv" ) ), tags$hr(), checkboxInput("header", "Header", TRUE), bookmarkButton() ), mainPanel( tableOutput("contents") ) ) ) } server <- function(input, output) { output$contents <- renderTable({ inFile <- input$file1 if (is.null(inFile)) return(NULL) if (nrow(inFile) == 1) { read.csv(inFile$datapath, header = input$header) } else { data.frame(x = "multiple files") } }) } enableBookmarking("server") shinyApp(ui, server) }
## Only run these examples in interactive R sessions if (interactive()) { # Basic example with state encoded in URL ui <- function(request) { fluidPage( textInput("txt", "Text"), checkboxInput("chk", "Checkbox"), bookmarkButton() ) } server <- function(input, output, session) { } enableBookmarking("url") shinyApp(ui, server) # An alternative to calling enableBookmarking(): use shinyApp's # enableBookmarking argument shinyApp(ui, server, enableBookmarking = "url") # Same basic example with state saved to disk enableBookmarking("server") shinyApp(ui, server) # Save/restore arbitrary values ui <- function(req) { fluidPage( textInput("txt", "Text"), checkboxInput("chk", "Checkbox"), bookmarkButton(), br(), textOutput("lastSaved") ) } server <- function(input, output, session) { vals <- reactiveValues(savedTime = NULL) output$lastSaved <- renderText({ if (!is.null(vals$savedTime)) paste("Last saved at", vals$savedTime) else "" }) onBookmark(function(state) { vals$savedTime <- Sys.time() # state is a mutable reference object, and we can add arbitrary values # to it. state$values$time <- vals$savedTime }) onRestore(function(state) { vals$savedTime <- state$values$time }) } enableBookmarking(store = "url") shinyApp(ui, server) # Usable with dynamic UI (set the slider, then change the text input, # click the bookmark button) ui <- function(request) { fluidPage( sliderInput("slider", "Slider", 1, 100, 50), uiOutput("ui"), bookmarkButton() ) } server <- function(input, output, session) { output$ui <- renderUI({ textInput("txt", "Text", input$slider) }) } enableBookmarking("url") shinyApp(ui, server) # Exclude specific inputs (The only input that will be saved in this # example is chk) ui <- function(request) { fluidPage( passwordInput("pw", "Password"), # Passwords are never saved sliderInput("slider", "Slider", 1, 100, 50), # Manually excluded below checkboxInput("chk", "Checkbox"), bookmarkButton() ) } server <- function(input, output, session) { setBookmarkExclude("slider") } enableBookmarking("url") shinyApp(ui, server) # Update the browser's location bar every time an input changes. This should # not be used with enableBookmarking("server"), because that would create a # new saved state on disk every time the user changes an input. ui <- function(req) { fluidPage( textInput("txt", "Text"), checkboxInput("chk", "Checkbox") ) } server <- function(input, output, session) { observe({ # Trigger this observer every time an input changes reactiveValuesToList(input) session$doBookmark() }) onBookmarked(function(url) { updateQueryString(url) }) } enableBookmarking("url") shinyApp(ui, server) # Save/restore uploaded files ui <- function(request) { fluidPage( sidebarLayout( sidebarPanel( fileInput("file1", "Choose CSV File", multiple = TRUE, accept = c( "text/csv", "text/comma-separated-values,text/plain", ".csv" ) ), tags$hr(), checkboxInput("header", "Header", TRUE), bookmarkButton() ), mainPanel( tableOutput("contents") ) ) ) } server <- function(input, output) { output$contents <- renderTable({ inFile <- input$file1 if (is.null(inFile)) return(NULL) if (nrow(inFile) == 1) { read.csv(inFile$datapath, header = input$header) } else { data.frame(x = "multiple files") } }) } enableBookmarking("server") shinyApp(ui, server) }
This function registers expressions that will be evaluated when a test export event occurs. These events are triggered by accessing a snapshot URL.
exportTestValues( ..., quoted_ = FALSE, env_ = parent.frame(), session_ = getDefaultReactiveDomain() )
exportTestValues( ..., quoted_ = FALSE, env_ = parent.frame(), session_ = getDefaultReactiveDomain() )
... |
Named arguments that are quoted or unquoted expressions that will be captured and evaluated when snapshot URL is visited. |
quoted_ |
Are the expression quoted? Default is |
env_ |
The environment in which the expression should be evaluated. |
session_ |
A Shiny session object. |
This function only has an effect if the app is launched in test mode. This is
done by calling runApp()
with test.mode=TRUE
, or by setting the
global option shiny.testmode
to TRUE
.
## Only run this example in interactive R sessions if (interactive()) { options(shiny.testmode = TRUE) # This application shows the test snapshot URL; clicking on it will # fetch the input, output, and exported values in JSON format. shinyApp( ui = basicPage( h4("Snapshot URL: "), uiOutput("url"), h4("Current values:"), verbatimTextOutput("values"), actionButton("inc", "Increment x") ), server = function(input, output, session) { vals <- reactiveValues(x = 1) y <- reactive({ vals$x + 1 }) observeEvent(input$inc, { vals$x <<- vals$x + 1 }) exportTestValues( x = vals$x, y = y() ) output$url <- renderUI({ url <- session$getTestSnapshotUrl(format="json") a(href = url, url) }) output$values <- renderText({ paste0("vals$x: ", vals$x, "\ny: ", y()) }) } ) }
## Only run this example in interactive R sessions if (interactive()) { options(shiny.testmode = TRUE) # This application shows the test snapshot URL; clicking on it will # fetch the input, output, and exported values in JSON format. shinyApp( ui = basicPage( h4("Snapshot URL: "), uiOutput("url"), h4("Current values:"), verbatimTextOutput("values"), actionButton("inc", "Increment x") ), server = function(input, output, session) { vals <- reactiveValues(x = 1) y <- reactive({ vals$x + 1 }) observeEvent(input$inc, { vals$x <<- vals$x + 1 }) exportTestValues( x = vals$x, y = y() ) output$url <- renderUI({ url <- session$getTestSnapshotUrl(format="json") a(href = url, url) }) output$values <- renderText({ paste0("vals$x: ", vals$x, "\ny: ", y()) }) } ) }
In normal Shiny reactive code, whenever an observer, calc, or output is busy computing, it blocks the current session from receiving any inputs or attempting to proceed with any other computation related to that session.
The ExtendedTask
class allows you to have an expensive operation that is
started by a reactive effect, and whose (eventual) results can be accessed
by a regular observer, calc, or output; but during the course of the
operation, the current session is completely unblocked, allowing the user
to continue using the rest of the app while the operation proceeds in the
background.
Note that each ExtendedTask
object does not represent a single
invocation of its long-running function. Rather, it's an object that is
used to invoke the function with different arguments, keeps track of
whether an invocation is in progress, and provides ways to get at the
current status or results of the operation. A single ExtendedTask
object
does not permit overlapping invocations: if the invoke()
method is called
before the previous invoke()
is completed, the new invocation will not
begin until the previous invocation has completed.
ExtendedTask
versus asynchronous reactivesShiny has long supported using {promises} to write asynchronous observers, calcs, or outputs. You may be wondering what the differences are between those techniques and this class.
Asynchronous observers, calcs, and outputs are not–and have never been–designed to let a user start a long-running operation, while keeping that very same (browser) session responsive to other interactions. Instead, they unblock other sessions, so you can take a long-running operation that would normally bring the entire R process to a halt and limit the blocking to just the session that started the operation. (For more details, see the section on "The Flush Cycle".)
ExtendedTask
, on the other hand, invokes an asynchronous function (that
is, a function that quickly returns a promise) and allows even that very
session to immediately unblock and carry on with other user interactions.
new()
Creates a new ExtendedTask
object. ExtendedTask
should generally be
created either at the top of a server function, or at the top of a module
server function.
ExtendedTask$new(func)
func
The long-running operation to execute. This should be an
asynchronous function, meaning, it should use the
{promises} package, most
likely in conjuction with the
{future}
package. (In short, the return value of func
should be a
Future
object, or a promise
, or something else
that promises::as.promise()
understands.)
It's also important that this logic does not read from any
reactive inputs/sources, as inputs may change after the function is
invoked; instead, if the function needs to access reactive inputs, it
should take parameters and the caller of the invoke()
method should
read reactive inputs and pass them as arguments.
invoke()
Starts executing the long-running operation. If this ExtendedTask
is
already running (meaning, a previous call to invoke()
is not yet
complete) then enqueues this invocation until after the current
invocation, and any already-enqueued invocation, completes.
ExtendedTask$invoke(...)
...
Parameters to use for this invocation of the underlying
function. If reactive inputs are needed by the underlying function,
they should be read by the caller of invoke
and passed in as
arguments.
status()
This is a reactive read that invalidates the caller when the task's status changes.
Returns one of the following values:
"initial"
: This ExtendedTask
has not yet been invoked
"running"
: An invocation is currently running
"success"
: An invocation completed successfully, and a value can be
retrieved via the result()
method
"error"
: An invocation completed with an error, which will be
re-thrown if you call the result()
method
ExtendedTask$status()
result()
Attempts to read the results of the most recent invocation. This is a reactive read that invalidates as the task's status changes.
The actual behavior differs greatly depending on the current status of the task:
"initial"
: Throws a silent error (like req(FALSE)
). If
this happens during output rendering, the output will be blanked out.
"running"
: Throws a special silent error that, if it happens during
output rendering, makes the output appear "in progress" until further
notice.
"success"
: Returns the return value of the most recent invocation.
"error"
: Throws whatever error was thrown by the most recent
invocation.
This method is intended to be called fairly naively by any output or
reactive expression that cares about the output–you just have to be
aware that if the result isn't ready for whatever reason, processing will
stop in much the same way as req(FALSE)
does, but when the result is
ready you'll get invalidated, and when you run again the result should be
there.
Note that the result()
method is generally not meant to be used with
observeEvent()
, eventReactive()
, bindEvent()
, or isolate()
as the
invalidation will be ignored.
ExtendedTask$result()
Create a file upload control that can be used to upload one or more files.
fileInput( inputId, label, multiple = FALSE, accept = NULL, width = NULL, buttonLabel = "Browse...", placeholder = "No file selected", capture = NULL )
fileInput( inputId, label, multiple = FALSE, accept = NULL, width = NULL, buttonLabel = "Browse...", placeholder = "No file selected", capture = NULL )
inputId |
The |
label |
Display label for the control, or |
multiple |
Whether the user should be allowed to select and upload multiple files at once. Does not work on older browsers, including Internet Explorer 9 and earlier. |
accept |
A character vector of "unique file type specifiers" which gives the browser a hint as to the type of file the server expects. Many browsers use this prevent the user from selecting an invalid file. A unique file type specifier can be:
|
width |
The width of the input, e.g. |
buttonLabel |
The label used on the button. Can be text or an HTML tag object. |
placeholder |
The text to show before a file has been uploaded. |
capture |
What source to use for capturing image, audio or video data. This attribute facilitates user access to a device's media capture mechanism, such as a camera, or microphone, from within a file upload control. A value of By default on most phones, this will accept still photos or video. For
still photos only, also use |
Whenever a file upload completes, the corresponding input variable is set to
a dataframe. See the Server value
section.
Each time files are uploaded, they are written to a new random subdirectory inside of R's process-level temporary directory. The Shiny user session keeps track of all uploads in the session, and when the session ends, Shiny deletes all of the subdirectories where files where uploaded to.
A data.frame
that contains one row for each selected file, and following
columns:
name
The filename provided by the web browser. This is
not the path to read to get at the actual data that was uploaded
(see
datapath
column).
size
The size of the uploaded data, in bytes.
type
The MIME type reported by the browser (for example,
text/plain
), or empty string if the browser didn't know.
datapath
The path to a temp file that contains the data that was uploaded. This file may be deleted if the user performs another upload operation.
Other input elements:
actionButton()
,
checkboxGroupInput()
,
checkboxInput()
,
dateInput()
,
dateRangeInput()
,
numericInput()
,
passwordInput()
,
radioButtons()
,
selectInput()
,
sliderInput()
,
submitButton()
,
textAreaInput()
,
textInput()
,
varSelectInput()
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sidebarLayout( sidebarPanel( fileInput("file1", "Choose CSV File", accept = ".csv"), checkboxInput("header", "Header", TRUE) ), mainPanel( tableOutput("contents") ) ) ) server <- function(input, output) { output$contents <- renderTable({ file <- input$file1 ext <- tools::file_ext(file$datapath) req(file) validate(need(ext == "csv", "Please upload a csv file")) read.csv(file$datapath, header = input$header) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sidebarLayout( sidebarPanel( fileInput("file1", "Choose CSV File", accept = ".csv"), checkboxInput("header", "Header", TRUE) ), mainPanel( tableOutput("contents") ) ) ) server <- function(input, output) { output$contents <- renderTable({ file <- input$file1 ext <- tools::file_ext(file$datapath) req(file) validate(need(ext == "csv", "Please upload a csv file")) read.csv(file$datapath, header = input$header) }) } shinyApp(ui, server) }
fillPage
creates a page whose height and width always fill the
available area of the browser window.
fillPage( ..., padding = 0, title = NULL, bootstrap = TRUE, theme = NULL, lang = NULL )
fillPage( ..., padding = 0, title = NULL, bootstrap = TRUE, theme = NULL, lang = NULL )
... |
Elements to include within the page. |
padding |
Padding to use for the body. This can be a numeric vector (which will be interpreted as pixels) or a character vector with valid CSS lengths. The length can be between one and four. If one, then that value will be used for all four sides. If two, then the first value will be used for the top and bottom, while the second value will be used for left and right. If three, then the first will be used for top, the second will be left and right, and the third will be bottom. If four, then the values will be interpreted as top, right, bottom, and left respectively. |
title |
The title to use for the browser window/tab (it will not be shown in the document). |
bootstrap |
If |
theme |
One of the following:
|
lang |
ISO 639-1 language code for the HTML page, such as "en" or "ko".
This will be used as the lang in the |
The fluidPage()
and fixedPage()
functions are used
for creating web pages that are laid out from the top down, leaving
whitespace at the bottom if the page content's height is smaller than the
browser window, and scrolling if the content is larger than the window.
fillPage
is designed to latch the document body's size to the size of
the window. This makes it possible to fill it with content that also scales
to the size of the window.
For example, fluidPage(plotOutput("plot", height = "100%"))
will not
work as expected; the plot element's effective height will be 0
,
because the plot's containing elements (<div>
and <body>
) have
automatic height; that is, they determine their own height based on
the height of their contained elements. However,
fillPage(plotOutput("plot", height = "100%"))
will work because
fillPage
fixes the <body>
height at 100% of the window height.
Note that fillPage(plotOutput("plot"))
will not cause the plot to fill
the page. Like most Shiny output widgets, plotOutput
's default height
is a fixed number of pixels. You must explicitly set height = "100%"
if you want a plot (or htmlwidget, say) to fill its container.
One must be careful what layouts/panels/elements come between the
fillPage
and the plots/widgets. Any container that has an automatic
height will cause children with height = "100%"
to misbehave. Stick
to functions that are designed for fill layouts, such as the ones in this
package.
Other layout functions:
fixedPage()
,
flowLayout()
,
fluidPage()
,
navbarPage()
,
sidebarLayout()
,
splitLayout()
,
verticalLayout()
fillPage( tags$style(type = "text/css", ".half-fill { width: 50%; height: 100%; }", "#one { float: left; background-color: #ddddff; }", "#two { float: right; background-color: #ccffcc; }" ), div(id = "one", class = "half-fill", "Left half" ), div(id = "two", class = "half-fill", "Right half" ), padding = 10 ) fillPage( fillRow( div(style = "background-color: red; width: 100%; height: 100%;"), div(style = "background-color: blue; width: 100%; height: 100%;") ) )
fillPage( tags$style(type = "text/css", ".half-fill { width: 50%; height: 100%; }", "#one { float: left; background-color: #ddddff; }", "#two { float: right; background-color: #ccffcc; }" ), div(id = "one", class = "half-fill", "Left half" ), div(id = "two", class = "half-fill", "Right half" ), padding = 10 ) fillPage( fillRow( div(style = "background-color: red; width: 100%; height: 100%;"), div(style = "background-color: blue; width: 100%; height: 100%;") ) )
Creates row and column layouts with proportionally-sized cells, using the Flex Box layout model of CSS3. These can be nested to create arbitrary proportional-grid layouts. Warning: Flex Box is not well supported by Internet Explorer, so these functions should only be used where modern browsers can be assumed.
fillRow(..., flex = 1, width = "100%", height = "100%") fillCol(..., flex = 1, width = "100%", height = "100%")
fillRow(..., flex = 1, width = "100%", height = "100%") fillCol(..., flex = 1, width = "100%", height = "100%")
... |
UI objects to put in each row/column cell; each argument will
occupy a single cell. (To put multiple items in a single cell, you can use
|
flex |
Determines how space should be distributed to the cells. Can be a
single value like |
width , height
|
The total amount of width and height to use for the
entire row/column. For the default height of |
If you try to use fillRow
and fillCol
inside of other
Shiny containers, such as sidebarLayout()
,
navbarPage()
, or even tags$div
, you will probably find
that they will not appear. This is due to fillRow
and fillCol
defaulting to height="100%"
, which will only work inside of
containers that have determined their own size (rather than shrinking to
the size of their contents, as is usually the case in HTML).
To avoid this problem, you have two options:
only use fillRow
/fillCol
inside of fillPage
,
fillRow
, or fillCol
provide an explicit height
argument to
fillRow
/fillCol
# Only run this example in interactive R sessions. if (interactive()) { ui <- fillPage(fillRow( plotOutput("plotLeft", height = "100%"), fillCol( plotOutput("plotTopRight", height = "100%"), plotOutput("plotBottomRight", height = "100%") ) )) server <- function(input, output, session) { output$plotLeft <- renderPlot(plot(cars)) output$plotTopRight <- renderPlot(plot(pressure)) output$plotBottomRight <- renderPlot(plot(AirPassengers)) } shinyApp(ui, server) }
# Only run this example in interactive R sessions. if (interactive()) { ui <- fillPage(fillRow( plotOutput("plotLeft", height = "100%"), fillCol( plotOutput("plotTopRight", height = "100%"), plotOutput("plotBottomRight", height = "100%") ) )) server <- function(input, output, session) { output$plotLeft <- renderPlot(plot(cars)) output$plotTopRight <- renderPlot(plot(pressure)) output$plotBottomRight <- renderPlot(plot(AirPassengers)) } shinyApp(ui, server) }
Functions for creating fixed page layouts. A fixed page layout consists of rows which in turn include columns. Rows exist for the purpose of making sure their elements appear on the same line (if the browser has adequate width). Columns exist for the purpose of defining how much horizontal space within a 12-unit wide grid it's elements should occupy. Fixed pages limit their width to 940 pixels on a typical display, and 724px or 1170px on smaller and larger displays respectively.
fixedPage(..., title = NULL, theme = NULL, lang = NULL) fixedRow(...)
fixedPage(..., title = NULL, theme = NULL, lang = NULL) fixedRow(...)
... |
Elements to include within the container |
title |
The browser window title (defaults to the host URL of the page) |
theme |
One of the following:
|
lang |
ISO 639-1 language code for the HTML page, such as "en" or "ko".
This will be used as the lang in the |
To create a fixed page use the fixedPage
function and include
instances of fixedRow
and column()
within it. Note that
unlike fluidPage()
, fixed pages cannot make use of higher-level
layout functions like sidebarLayout
, rather, all layout must be done
with fixedRow
and column
.
A UI definition that can be passed to the shinyUI function.
See the Shiny Application Layout Guide for additional details on laying out fixed pages.
Other layout functions:
fillPage()
,
flowLayout()
,
fluidPage()
,
navbarPage()
,
sidebarLayout()
,
splitLayout()
,
verticalLayout()
## Only run examples in interactive R sessions if (interactive()) { ui <- fixedPage( title = "Hello, Shiny!", fixedRow( column(width = 4, "4" ), column(width = 3, offset = 2, "3 offset 2" ) ) ) shinyApp(ui, server = function(input, output) { }) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fixedPage( title = "Hello, Shiny!", fixedRow( column(width = 4, "4" ), column(width = 3, offset = 2, "3 offset 2" ) ) ) shinyApp(ui, server = function(input, output) { }) }
Lays out elements in a left-to-right, top-to-bottom arrangement. The elements
on a given row will be top-aligned with each other. This layout will not work
well with elements that have a percentage-based width (e.g.
plotOutput()
at its default setting of width = "100%"
).
flowLayout(..., cellArgs = list())
flowLayout(..., cellArgs = list())
... |
Unnamed arguments will become child elements of the layout. Named arguments will become HTML attributes on the outermost tag. |
cellArgs |
Any additional attributes that should be used for each cell of the layout. |
Other layout functions:
fillPage()
,
fixedPage()
,
fluidPage()
,
navbarPage()
,
sidebarLayout()
,
splitLayout()
,
verticalLayout()
## Only run examples in interactive R sessions if (interactive()) { ui <- flowLayout( numericInput("rows", "How many rows?", 5), selectInput("letter", "Which letter?", LETTERS), sliderInput("value", "What value?", 0, 100, 50) ) shinyApp(ui, server = function(input, output) { }) }
## Only run examples in interactive R sessions if (interactive()) { ui <- flowLayout( numericInput("rows", "How many rows?", 5), selectInput("letter", "Which letter?", LETTERS), sliderInput("value", "What value?", 0, 100, 50) ) shinyApp(ui, server = function(input, output) { }) }
Functions for creating fluid page layouts. A fluid page layout consists of rows which in turn include columns. Rows exist for the purpose of making sure their elements appear on the same line (if the browser has adequate width). Columns exist for the purpose of defining how much horizontal space within a 12-unit wide grid it's elements should occupy. Fluid pages scale their components in realtime to fill all available browser width.
fluidPage(..., title = NULL, theme = NULL, lang = NULL) fluidRow(...)
fluidPage(..., title = NULL, theme = NULL, lang = NULL) fluidRow(...)
... |
Elements to include within the page |
title |
The browser window title (defaults to the host URL of the page).
Can also be set as a side effect of the |
theme |
One of the following:
|
lang |
ISO 639-1 language code for the HTML page, such as "en" or "ko".
This will be used as the lang in the |
To create a fluid page use the fluidPage
function and include
instances of fluidRow
and column()
within it. As an
alternative to low-level row and column functions you can also use
higher-level layout functions like sidebarLayout()
.
A UI definition that can be passed to the shinyUI function.
See the Shiny-Application-Layout-Guide for additional details on laying out fluid pages.
Other layout functions:
fillPage()
,
fixedPage()
,
flowLayout()
,
navbarPage()
,
sidebarLayout()
,
splitLayout()
,
verticalLayout()
## Only run examples in interactive R sessions if (interactive()) { # Example of UI with fluidPage ui <- fluidPage( # Application title titlePanel("Hello Shiny!"), sidebarLayout( # Sidebar with a slider input sidebarPanel( sliderInput("obs", "Number of observations:", min = 0, max = 1000, value = 500) ), # Show a plot of the generated distribution mainPanel( plotOutput("distPlot") ) ) ) # Server logic server <- function(input, output) { output$distPlot <- renderPlot({ hist(rnorm(input$obs)) }) } # Complete app with UI and server components shinyApp(ui, server) # UI demonstrating column layouts ui <- fluidPage( title = "Hello Shiny!", fluidRow( column(width = 4, "4" ), column(width = 3, offset = 2, "3 offset 2" ) ) ) shinyApp(ui, server = function(input, output) { }) }
## Only run examples in interactive R sessions if (interactive()) { # Example of UI with fluidPage ui <- fluidPage( # Application title titlePanel("Hello Shiny!"), sidebarLayout( # Sidebar with a slider input sidebarPanel( sliderInput("obs", "Number of observations:", min = 0, max = 1000, value = 500) ), # Show a plot of the generated distribution mainPanel( plotOutput("distPlot") ) ) ) # Server logic server <- function(input, output) { output$distPlot <- renderPlot({ hist(rnorm(input$obs)) }) } # Complete app with UI and server components shinyApp(ui, server) # UI demonstrating column layouts ui <- fluidPage( title = "Hello Shiny!", fluidRow( column(width = 4, "4" ), column(width = 3, offset = 2, "3 offset 2" ) ) ) shinyApp(ui, server = function(input, output) { }) }
These functions freeze a reactiveVal()
, or an element of a
reactiveValues()
. If the value is accessed while frozen, a
"silent" exception is raised and the operation is stopped. This is the same
thing that happens if req(FALSE)
is called. The value is thawed
(un-frozen; accessing it will no longer raise an exception) when the current
reactive domain is flushed. In a Shiny application, this occurs after all of
the observers are executed. NOTE: We are considering deprecating
freezeReactiveVal
, and freezeReactiveValue
except when x
is input
.
If this affects your app, please let us know by leaving a comment on
this GitHub issue.
freezeReactiveVal(x) freezeReactiveValue(x, name)
freezeReactiveVal(x) freezeReactiveValue(x, name)
x |
For |
name |
The name of a value in the |
## Only run this examples in interactive R sessions if (interactive()) { ui <- fluidPage( selectInput("data", "Data Set", c("mtcars", "pressure")), checkboxGroupInput("cols", "Columns (select 2)", character(0)), plotOutput("plot") ) server <- function(input, output, session) { observe({ data <- get(input$data) # Sets a flag on input$cols to essentially do req(FALSE) if input$cols # is accessed. Without this, an error will momentarily show whenever a # new data set is selected. freezeReactiveValue(input, "cols") updateCheckboxGroupInput(session, "cols", choices = names(data)) }) output$plot <- renderPlot({ # When a new data set is selected, input$cols will have been invalidated # above, and this will essentially do the same as req(FALSE), causing # this observer to stop and raise a silent exception. cols <- input$cols data <- get(input$data) if (length(cols) == 2) { plot(data[[ cols[1] ]], data[[ cols[2] ]]) } }) } shinyApp(ui, server) }
## Only run this examples in interactive R sessions if (interactive()) { ui <- fluidPage( selectInput("data", "Data Set", c("mtcars", "pressure")), checkboxGroupInput("cols", "Columns (select 2)", character(0)), plotOutput("plot") ) server <- function(input, output, session) { observe({ data <- get(input$data) # Sets a flag on input$cols to essentially do req(FALSE) if input$cols # is accessed. Without this, an error will momentarily show whenever a # new data set is selected. freezeReactiveValue(input, "cols") updateCheckboxGroupInput(session, "cols", choices = names(data)) }) output$plot <- renderPlot({ # When a new data set is selected, input$cols will have been invalidated # above, and this will essentially do the same as req(FALSE), causing # this observer to stop and raise a silent exception. cols <- input$cols data <- get(input$data) if (length(cols) == 2) { plot(data[[ cols[1] ]], data[[ cols[2] ]]) } }) } shinyApp(ui, server) }
Returns information about the currently executing output, including its name
(i.e., outputId
);
and in some cases, relevant sizing and styling information.
getCurrentOutputInfo(session = getDefaultReactiveDomain())
getCurrentOutputInfo(session = getDefaultReactiveDomain())
session |
The current Shiny session. |
NULL
if called outside of an output context; otherwise,
a list which includes:
The name
of the output (reported for any output).
If the output is a plotOutput()
or imageOutput()
, then:
height
: a reactive expression which returns the height in pixels.
width
: a reactive expression which returns the width in pixels.
If the output is a plotOutput()
, imageOutput()
, or contains a shiny-report-theme
class, then:
bg
: a reactive expression which returns the background color.
fg
: a reactive expression which returns the foreground color.
accent
: a reactive expression which returns the hyperlink color.
font
: a reactive expression which returns a list of font information, including:
families
: a character vector containing the CSS font-family
property.
size
: a character string containing the CSS font-size
property
if (interactive()) { shinyApp( fluidPage( tags$style(HTML("body {background-color: black; color: white; }")), tags$style(HTML("body a {color: purple}")), tags$style(HTML("#info {background-color: teal; color: orange; }")), plotOutput("p"), "Computed CSS styles for the output named info:", tagAppendAttributes( textOutput("info"), class = "shiny-report-theme" ) ), function(input, output) { output$p <- renderPlot({ info <- getCurrentOutputInfo() par(bg = info$bg(), fg = info$fg(), col.axis = info$fg(), col.main = info$fg()) plot(1:10, col = info$accent(), pch = 19) title("A simple R plot that uses its CSS styling") }) output$info <- renderText({ info <- getCurrentOutputInfo() jsonlite::toJSON( list( bg = info$bg(), fg = info$fg(), accent = info$accent(), font = info$font() ), auto_unbox = TRUE ) }) } ) }
if (interactive()) { shinyApp( fluidPage( tags$style(HTML("body {background-color: black; color: white; }")), tags$style(HTML("body a {color: purple}")), tags$style(HTML("#info {background-color: teal; color: orange; }")), plotOutput("p"), "Computed CSS styles for the output named info:", tagAppendAttributes( textOutput("info"), class = "shiny-report-theme" ) ), function(input, output) { output$p <- renderPlot({ info <- getCurrentOutputInfo() par(bg = info$bg(), fg = info$fg(), col.axis = info$fg(), col.main = info$fg()) plot(1:10, col = info$accent(), pch = 19) title("A simple R plot that uses its CSS styling") }) output$info <- renderText({ info <- getCurrentOutputInfo() jsonlite::toJSON( list( bg = info$bg(), fg = info$fg(), accent = info$accent(), font = info$font() ), auto_unbox = TRUE ) }) } ) }
Two user friendly wrappers for getting the query string and the hash component from the app's URL.
getQueryString(session = getDefaultReactiveDomain()) getUrlHash(session = getDefaultReactiveDomain())
getQueryString(session = getDefaultReactiveDomain()) getUrlHash(session = getDefaultReactiveDomain())
session |
A Shiny session object. |
These can be particularly useful if you want to display different content
depending on the values in the query string / hash (e.g. instead of basing
the conditional on an input or a calculated reactive, you can base it on the
query string). However, note that, if you're changing the query string / hash
programmatically from within the server code, you must use
updateQueryString(_yourNewQueryString_, mode = "push")
. The default
mode
for updateQueryString
is "replace"
, which doesn't
raise any events, so any observers or reactives that depend on it will
not get triggered. However, if you're changing the query string / hash
directly by typing directly in the browser and hitting enter, you don't have
to worry about this.
For getQueryString
, a named list. For example, the query
string ?param1=value1¶m2=value2
becomes list(param1 = value1, param2 = value2)
. For getUrlHash
, a character vector with
the hash (including the leading #
symbol).
## Only run this example in interactive R sessions if (interactive()) { ## App 1: getQueryString ## Printing the value of the query string ## (Use the back and forward buttons to see how the browser ## keeps a record of each state) shinyApp( ui = fluidPage( textInput("txt", "Enter new query string"), helpText("Format: ?param1=val1¶m2=val2"), actionButton("go", "Update"), hr(), verbatimTextOutput("query") ), server = function(input, output, session) { observeEvent(input$go, { updateQueryString(input$txt, mode = "push") }) output$query <- renderText({ query <- getQueryString() queryText <- paste(names(query), query, sep = "=", collapse=", ") paste("Your query string is:\n", queryText) }) } ) ## App 2: getUrlHash ## Printing the value of the URL hash ## (Use the back and forward buttons to see how the browser ## keeps a record of each state) shinyApp( ui = fluidPage( textInput("txt", "Enter new hash"), helpText("Format: #hash"), actionButton("go", "Update"), hr(), verbatimTextOutput("hash") ), server = function(input, output, session) { observeEvent(input$go, { updateQueryString(input$txt, mode = "push") }) output$hash <- renderText({ hash <- getUrlHash() paste("Your hash is:\n", hash) }) } ) }
## Only run this example in interactive R sessions if (interactive()) { ## App 1: getQueryString ## Printing the value of the query string ## (Use the back and forward buttons to see how the browser ## keeps a record of each state) shinyApp( ui = fluidPage( textInput("txt", "Enter new query string"), helpText("Format: ?param1=val1¶m2=val2"), actionButton("go", "Update"), hr(), verbatimTextOutput("query") ), server = function(input, output, session) { observeEvent(input$go, { updateQueryString(input$txt, mode = "push") }) output$query <- renderText({ query <- getQueryString() queryText <- paste(names(query), query, sep = "=", collapse=", ") paste("Your query string is:\n", queryText) }) } ) ## App 2: getUrlHash ## Printing the value of the URL hash ## (Use the back and forward buttons to see how the browser ## keeps a record of each state) shinyApp( ui = fluidPage( textInput("txt", "Enter new hash"), helpText("Format: #hash"), actionButton("go", "Update"), hr(), verbatimTextOutput("hash") ), server = function(input, output, session) { observeEvent(input$go, { updateQueryString(input$txt, mode = "push") }) output$hash <- renderText({ hash <- getUrlHash() paste("Your hash is:\n", hash) }) } ) }
There are two mechanisms for working with options for Shiny. One is the
options()
function, which is part of base R, and the other is the
shinyOptions()
function, which is in the Shiny package. The reason for
these two mechanisms is has to do with legacy code and scoping.
The options()
function sets options globally, for the duration of the R
process. The getOption()
function retrieves the value of an option. All
shiny related options of this type are prefixed with "shiny."
.
The shinyOptions()
function sets the value of a shiny option, but unlike
options()
, it is not always global in scope; the options may be scoped
globally, to an application, or to a user session in an application,
depending on the context. The getShinyOption()
function retrieves a value
of a shiny option. Currently, the options set via shinyOptions
are for
internal use only.
getShinyOption(name, default = NULL) shinyOptions(...)
getShinyOption(name, default = NULL) shinyOptions(...)
name |
Name of an option to get. |
default |
Value to be returned if the option is not currently set. |
... |
Options to set, with the form |
options()
FALSE
)If TRUE
when a Shiny app is launched, the
app directory will be continually monitored for changes to files that
have the extensions: r, htm, html, js, css, png, jpg, jpeg, gif. If any
changes are detected, all connected Shiny sessions are reloaded. This
allows for fast feedback loops when tweaking Shiny UI.
Since monitoring for changes is expensive (we simply poll for last modified times), this feature is intended only for development.
You can customize the file patterns Shiny will monitor by setting the
shiny.autoreload.pattern option. For example, to monitor only ui.R:
options(shiny.autoreload.pattern = glob2rx("ui.R"))
The default polling interval is 500 milliseconds. You can change this
by setting e.g. options(shiny.autoreload.interval = 2000)
(every
two seconds).
TRUE
)This controls whether messages for
deprecated functions in Shiny will be printed. See
shinyDeprecated()
for more information.
NULL
)This can be a function which is called when an error
occurs. For example, options(shiny.error=recover)
will result a
the debugger prompt when an error occurs.
FALSE
)Controls whether "pretty" (FALSE
) or full
stack traces (TRUE
) are dumped to the console when errors occur during Shiny app execution.
Pretty stack traces attempt to only show user-supplied code, but this pruning can't always
be done 100% correctly.
"127.0.0.1"
)The IP address that Shiny should listen on. See
runApp()
for more information.
3
)The major version of jQuery to use.
Currently only values of 3
or 1
are supported. If 1
, then jQuery 1.12.4 is used. If 3
,
then jQuery 3.6.0 is used.
I(16)
)Max number of digits to use when converting
numbers to JSON format to send to the client web browser. Use I()
to specify significant digits.
Use NA
for max precision.
interactive()
)A boolean which controls the default behavior
when an app is run. See runApp()
for more information.
"https://mathjax.rstudio.com/latest/MathJax.js"
)The URL that should be used to load MathJax, via withMathJax()
.
"config=TeX-AMS-MML_HTMLorMML"
)The querystring
used to load MathJax, via withMathJax()
.
This is a number which specifies the maximum web request size, which serves as a size limit for file uploads.
TRUE
)By default
Whether or not to include Shiny's JavaScript as a minified (shiny.min.js
)
or un-minified (shiny.js
) file. The un-minified version is larger,
but can be helpful for development and debugging.
A port number that Shiny will listen on. See
runApp()
for more information.
FALSE
)If TRUE
, enable logging of reactive events,
which can be viewed later with the reactlogShow()
function.
This incurs a substantial performance penalty and should not be used in
production.
FALSE
)If TRUE
, then normal errors (i.e.
errors not wrapped in safeError
) won't show up in the app; a simple
generic error message is printed instead (the error and stack trace printed
to the console remain unchanged). If you want to sanitize errors in general, but you DO want a
particular error e
to get displayed to the user, then set this option
to TRUE
and use stop(safeError(e))
for errors you want the
user to see.
TRUE
)If TRUE
, then Shiny's printed stack
traces will display srcrefs one line above their usual location. This is
an arguably more intuitive arrangement for casual R users, as the name
of a function appears next to the srcref where it is defined, rather than
where it is currently being called from.
FALSE
)Normally, invoking a reactive
outside of a reactive context (or isolate()
) results in
an error. If this is TRUE
, don't error in these cases. This
should only be used for debugging or demonstrations of reactivity at the
console.
FALSE
)If TRUE
, then various features for testing Shiny
applications are enabled.
FALSE
)If TRUE
, test snapshot keys
for shinytest will be sorted consistently using the C locale. Snapshots
retrieved by shinytest2 will always sort using the C locale.
FALSE
)Print messages sent between the R server and the web
browser client to the R console. This is useful for debugging. Possible
values are "send"
(only print messages sent to the client),
"recv"
(only print messages received by the server), TRUE
(print all messages), or FALSE
(default; don't print any of these
messages).
TRUE
)If TRUE
, then the R/
of a shiny app will automatically be sourced.
TRUE
)Set to FALSE
to prevent PNG rendering via the
ragg package. See plotPNG()
for more information.
TRUE
)Set to FALSE
to prevent PNG rendering via the
Cairo package. See plotPNG()
for more information.
NULL
)Option to enable Shiny Developer Mode. When set,
different default getOption(key)
values will be returned. See devmode()
for more details.
shinyOptions()
There are three levels of scoping for shinyOptions()
: global,
application, and session.
The global option set is available by default. Any calls to
shinyOptions()
and getShinyOption()
outside of an app will access the
global option set.
When a Shiny application is run with runApp()
, the global option set is
duplicated and the new option set is available at the application level. If
options are set from global.R
, app.R
, ui.R
, or server.R
(but
outside of the server function), then the application-level options will be
modified.
Each time a user session is started, the application-level option set is duplicated, for that session. If the options are set from inside the server function, then they will be scoped to the session.
shinyOptions()
There are a number of global options that affect Shiny's behavior. These
can be set globally with options()
or locally (for a single app) with
shinyOptions()
.
A caching object that will be used by
renderCachedPlot()
. If not specified, a cachem::cache_mem()
will be
used.
Create help text which can be added to an input form to provide additional explanation or context.
helpText(...)
helpText(...)
... |
One or more help text strings (or other inline HTML elements) |
A help text element that can be added to a UI definition.
helpText("Note: while the data view will show only", "the specified number of observations, the", "summary will be based on the full dataset.")
helpText("Note: while the data view will show only", "the specified number of observations, the", "summary will be based on the full dataset.")
Render a reactive output variable as HTML within an application page. The
text will be included within an HTML div
tag, and is presumed to contain
HTML content which should not be escaped.
htmlOutput( outputId, inline = FALSE, container = if (inline) span else div, fill = FALSE, ... ) uiOutput( outputId, inline = FALSE, container = if (inline) span else div, fill = FALSE, ... )
htmlOutput( outputId, inline = FALSE, container = if (inline) span else div, fill = FALSE, ... ) uiOutput( outputId, inline = FALSE, container = if (inline) span else div, fill = FALSE, ... )
outputId |
output variable to read the value from |
inline |
use an inline ( |
container |
a function to generate an HTML element to contain the text |
fill |
If |
... |
Other arguments to pass to the container tag function. This is useful for providing additional classes for the tag. |
uiOutput
is intended to be used with renderUI
on the server side. It is
currently just an alias for htmlOutput
.
An HTML output element that can be included in a panel
htmlOutput("summary") # Using a custom container and class tags$ul( htmlOutput("summary", container = tags$li, class = "custom-li-output") )
htmlOutput("summary") # Using a custom container and class tags$ul( htmlOutput("summary", container = tags$li, class = "custom-li-output") )
Create an icon for use within a page. Icons can appear on their own, inside
of a button, and/or used with tabPanel()
and navbarMenu()
.
icon(name, class = NULL, lib = "font-awesome", ...)
icon(name, class = NULL, lib = "font-awesome", ...)
name |
The name of the icon. A name from either Font Awesome (when |
class |
Additional classes to customize the style of an icon (see the usage examples for details on supported styles). |
lib |
The icon library to use. Either |
... |
Arguments passed to the |
An <i>
(icon) HTML tag.
For lists of available icons, see https://fontawesome.com/icons and https://getbootstrap.com/docs/3.3/components/#glyphicons
# add an icon to a submit button submitButton("Update View", icon = icon("redo")) navbarPage("App Title", tabPanel("Plot", icon = icon("bar-chart-o")), tabPanel("Summary", icon = icon("list-alt")), tabPanel("Table", icon = icon("table")) )
# add an icon to a submit button submitButton("Update View", icon = icon("redo")) navbarPage("App Title", tabPanel("Plot", icon = icon("bar-chart-o")), tabPanel("Summary", icon = icon("list-alt")), tabPanel("Table", icon = icon("table")) )
A flowLayout()
with a grey border and light grey background,
suitable for wrapping inputs.
inputPanel(...)
inputPanel(...)
... |
Input controls or other HTML elements. |
Dynamically insert or remove a tabPanel()
(or a
navbarMenu()
) from an existing tabsetPanel()
,
navlistPanel()
or navbarPage()
.
insertTab( inputId, tab, target = NULL, position = c("after", "before"), select = FALSE, session = getDefaultReactiveDomain() ) prependTab( inputId, tab, select = FALSE, menuName = NULL, session = getDefaultReactiveDomain() ) appendTab( inputId, tab, select = FALSE, menuName = NULL, session = getDefaultReactiveDomain() ) removeTab(inputId, target, session = getDefaultReactiveDomain())
insertTab( inputId, tab, target = NULL, position = c("after", "before"), select = FALSE, session = getDefaultReactiveDomain() ) prependTab( inputId, tab, select = FALSE, menuName = NULL, session = getDefaultReactiveDomain() ) appendTab( inputId, tab, select = FALSE, menuName = NULL, session = getDefaultReactiveDomain() ) removeTab(inputId, target, session = getDefaultReactiveDomain())
inputId |
The |
tab |
The item to be added (must be created with |
target |
If inserting: the |
position |
Should |
select |
Should |
session |
The shiny session within which to call this function. |
menuName |
This argument should only be used when you want to
prepend (or append) |
When you want to insert a new tab before or after an existing tab, you
should use insertTab
. When you want to prepend a tab (i.e. add a
tab to the beginning of the tabsetPanel
), use prependTab
.
When you want to append a tab (i.e. add a tab to the end of the
tabsetPanel
), use appendTab
.
For navbarPage
, you can insert/remove conventional
tabPanel
s (whether at the top level or nested inside a
navbarMenu
), as well as an entire navbarMenu()
.
For the latter case, target
should be the menuName
that
you gave your navbarMenu
when you first created it (by default,
this is equal to the value of the title
argument).
## Only run this example in interactive R sessions if (interactive()) { # example app for inserting/removing a tab ui <- fluidPage( sidebarLayout( sidebarPanel( actionButton("add", "Add 'Dynamic' tab"), actionButton("remove", "Remove 'Foo' tab") ), mainPanel( tabsetPanel(id = "tabs", tabPanel("Hello", "This is the hello tab"), tabPanel("Foo", "This is the foo tab"), tabPanel("Bar", "This is the bar tab") ) ) ) ) server <- function(input, output, session) { observeEvent(input$add, { insertTab(inputId = "tabs", tabPanel("Dynamic", "This a dynamically-added tab"), target = "Bar" ) }) observeEvent(input$remove, { removeTab(inputId = "tabs", target = "Foo") }) } shinyApp(ui, server) # example app for prepending/appending a navbarMenu ui <- navbarPage("Navbar page", id = "tabs", tabPanel("Home", actionButton("prepend", "Prepend a navbarMenu"), actionButton("append", "Append a navbarMenu") ) ) server <- function(input, output, session) { observeEvent(input$prepend, { id <- paste0("Dropdown", input$prepend, "p") prependTab(inputId = "tabs", navbarMenu(id, tabPanel("Drop1", paste("Drop1 page from", id)), tabPanel("Drop2", paste("Drop2 page from", id)), "------", "Header", tabPanel("Drop3", paste("Drop3 page from", id)) ) ) }) observeEvent(input$append, { id <- paste0("Dropdown", input$append, "a") appendTab(inputId = "tabs", navbarMenu(id, tabPanel("Drop1", paste("Drop1 page from", id)), tabPanel("Drop2", paste("Drop2 page from", id)), "------", "Header", tabPanel("Drop3", paste("Drop3 page from", id)) ) ) }) } shinyApp(ui, server) }
## Only run this example in interactive R sessions if (interactive()) { # example app for inserting/removing a tab ui <- fluidPage( sidebarLayout( sidebarPanel( actionButton("add", "Add 'Dynamic' tab"), actionButton("remove", "Remove 'Foo' tab") ), mainPanel( tabsetPanel(id = "tabs", tabPanel("Hello", "This is the hello tab"), tabPanel("Foo", "This is the foo tab"), tabPanel("Bar", "This is the bar tab") ) ) ) ) server <- function(input, output, session) { observeEvent(input$add, { insertTab(inputId = "tabs", tabPanel("Dynamic", "This a dynamically-added tab"), target = "Bar" ) }) observeEvent(input$remove, { removeTab(inputId = "tabs", target = "Foo") }) } shinyApp(ui, server) # example app for prepending/appending a navbarMenu ui <- navbarPage("Navbar page", id = "tabs", tabPanel("Home", actionButton("prepend", "Prepend a navbarMenu"), actionButton("append", "Append a navbarMenu") ) ) server <- function(input, output, session) { observeEvent(input$prepend, { id <- paste0("Dropdown", input$prepend, "p") prependTab(inputId = "tabs", navbarMenu(id, tabPanel("Drop1", paste("Drop1 page from", id)), tabPanel("Drop2", paste("Drop2 page from", id)), "------", "Header", tabPanel("Drop3", paste("Drop3 page from", id)) ) ) }) observeEvent(input$append, { id <- paste0("Dropdown", input$append, "a") appendTab(inputId = "tabs", navbarMenu(id, tabPanel("Drop1", paste("Drop1 page from", id)), tabPanel("Drop2", paste("Drop2 page from", id)), "------", "Header", tabPanel("Drop3", paste("Drop3 page from", id)) ) ) }) } shinyApp(ui, server) }
These functions allow you to dynamically add and remove arbitrary UI
into your app, whenever you want, as many times as you want.
Unlike renderUI()
, the UI generated with insertUI()
is persistent:
once it's created, it stays there until removed by removeUI()
. Each
new call to insertUI()
creates more UI objects, in addition to
the ones already there (all independent from one another). To
update a part of the UI (ex: an input object), you must use the
appropriate render
function or a customized reactive
function.
insertUI( selector, where = c("beforeBegin", "afterBegin", "beforeEnd", "afterEnd"), ui, multiple = FALSE, immediate = FALSE, session = getDefaultReactiveDomain() ) removeUI( selector, multiple = FALSE, immediate = FALSE, session = getDefaultReactiveDomain() )
insertUI( selector, where = c("beforeBegin", "afterBegin", "beforeEnd", "afterEnd"), ui, multiple = FALSE, immediate = FALSE, session = getDefaultReactiveDomain() ) removeUI( selector, multiple = FALSE, immediate = FALSE, session = getDefaultReactiveDomain() )
selector |
A string that is accepted by jQuery's selector
(i.e. the string For |
where |
Where your UI object should go relative to the selector:
Adapted from https://developer.mozilla.org/en-US/docs/Web/API/Element/insertAdjacentHTML. |
ui |
The UI object you want to insert. This can be anything that
you usually put inside your apps's |
multiple |
In case your selector matches more than one element,
|
immediate |
Whether the UI object should be immediately inserted or removed, or whether Shiny should wait until all outputs have been updated and all observers have been run (default). |
session |
The shiny session. Advanced use only. |
It's particularly useful to pair removeUI
with insertUI()
, but there is
no restriction on what you can use it on. Any element that can be selected
through a jQuery selector can be removed through this function.
## Only run this example in interactive R sessions if (interactive()) { # Define UI ui <- fluidPage( actionButton("add", "Add UI") ) # Server logic server <- function(input, output, session) { observeEvent(input$add, { insertUI( selector = "#add", where = "afterEnd", ui = textInput(paste0("txt", input$add), "Insert some text") ) }) } # Complete app with UI and server components shinyApp(ui, server) } if (interactive()) { # Define UI ui <- fluidPage( actionButton("rmv", "Remove UI"), textInput("txt", "This is no longer useful") ) # Server logic server <- function(input, output, session) { observeEvent(input$rmv, { removeUI( selector = "div:has(> #txt)" ) }) } # Complete app with UI and server components shinyApp(ui, server) }
## Only run this example in interactive R sessions if (interactive()) { # Define UI ui <- fluidPage( actionButton("add", "Add UI") ) # Server logic server <- function(input, output, session) { observeEvent(input$add, { insertUI( selector = "#add", where = "afterEnd", ui = textInput(paste0("txt", input$add), "Insert some text") ) }) } # Complete app with UI and server components shinyApp(ui, server) } if (interactive()) { # Define UI ui <- fluidPage( actionButton("rmv", "Remove UI"), textInput("txt", "This is no longer useful") ) # Server logic server <- function(input, output, session) { observeEvent(input$rmv, { removeUI( selector = "div:has(> #txt)" ) }) } # Complete app with UI and server components shinyApp(ui, server) }
Schedules the current reactive context to be invalidated in the given number of milliseconds.
invalidateLater(millis, session = getDefaultReactiveDomain())
invalidateLater(millis, session = getDefaultReactiveDomain())
millis |
Approximate milliseconds to wait before invalidating the current reactive context. |
session |
A session object. This is needed to cancel any scheduled
invalidations after a user has ended the session. If |
If this is placed within an observer or reactive expression, that object will
be invalidated (and re-execute) after the interval has passed. The
re-execution will reset the invalidation flag, so in a typical use case, the
object will keep re-executing and waiting for the specified interval. It's
possible to stop this cycle by adding conditional logic that prevents the
invalidateLater
from being run.
reactiveTimer()
is a slightly less safe alternative.
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("n", "Number of observations", 2, 1000, 500), plotOutput("plot") ) server <- function(input, output, session) { observe({ # Re-execute this reactive expression after 1000 milliseconds invalidateLater(1000, session) # Do something each time this is invalidated. # The isolate() makes this observer _not_ get invalidated and re-executed # when input$n changes. print(paste("The value of input$n is", isolate(input$n))) }) # Generate a new histogram at timed intervals, but not when # input$n changes. output$plot <- renderPlot({ # Re-execute this reactive expression after 2000 milliseconds invalidateLater(2000) hist(rnorm(isolate(input$n))) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("n", "Number of observations", 2, 1000, 500), plotOutput("plot") ) server <- function(input, output, session) { observe({ # Re-execute this reactive expression after 1000 milliseconds invalidateLater(1000, session) # Do something each time this is invalidated. # The isolate() makes this observer _not_ get invalidated and re-executed # when input$n changes. print(paste("The value of input$n is", isolate(input$n))) }) # Generate a new histogram at timed intervals, but not when # input$n changes. output$plot <- renderPlot({ # Re-execute this reactive expression after 2000 milliseconds invalidateLater(2000) hist(rnorm(isolate(input$n))) }) } shinyApp(ui, server) }
Checks whether its argument is a reactivevalues object.
is.reactivevalues(x)
is.reactivevalues(x)
x |
The object to test. |
Executes the given expression in a scope where reactive values or expression can be read, but they cannot cause the reactive scope of the caller to be re-evaluated when they change.
isolate(expr)
isolate(expr)
expr |
An expression that can access reactive values or expressions. |
Ordinarily, the simple act of reading a reactive value causes a relationship
to be established between the caller and the reactive value, where a change
to the reactive value will cause the caller to re-execute. (The same applies
for the act of getting a reactive expression's value.) The isolate
function lets you read a reactive value or expression without establishing this
relationship.
The expression given to isolate()
is evaluated in the calling
environment. This means that if you assign a variable inside the
isolate()
, its value will be visible outside of the isolate()
.
If you want to avoid this, you can use base::local()
inside the
isolate()
.
This function can also be useful for calling reactive expression at the
console, which can be useful for debugging. To do so, simply wrap the
calls to the reactive expression with isolate()
.
## Not run: observe({ input$saveButton # Do take a dependency on input$saveButton # isolate a simple expression data <- get(isolate(input$dataset)) # No dependency on input$dataset writeToDatabase(data) }) observe({ input$saveButton # Do take a dependency on input$saveButton # isolate a whole block data <- isolate({ a <- input$valueA # No dependency on input$valueA or input$valueB b <- input$valueB c(a=a, b=b) }) writeToDatabase(data) }) observe({ x <- 1 # x outside of isolate() is affected isolate(x <- 2) print(x) # 2 y <- 1 # Use local() to avoid affecting calling environment isolate(local(y <- 2)) print(y) # 1 }) ## End(Not run) # Can also use isolate to call reactive expressions from the R console values <- reactiveValues(A=1) fun <- reactive({ as.character(values$A) }) isolate(fun()) # "1" # isolate also works if the reactive expression accesses values from the # input object, like input$x
## Not run: observe({ input$saveButton # Do take a dependency on input$saveButton # isolate a simple expression data <- get(isolate(input$dataset)) # No dependency on input$dataset writeToDatabase(data) }) observe({ input$saveButton # Do take a dependency on input$saveButton # isolate a whole block data <- isolate({ a <- input$valueA # No dependency on input$valueA or input$valueB b <- input$valueB c(a=a, b=b) }) writeToDatabase(data) }) observe({ x <- 1 # x outside of isolate() is affected isolate(x <- 2) print(x) # 2 y <- 1 # Use local() to avoid affecting calling environment isolate(local(y <- 2)) print(y) # 1 }) ## End(Not run) # Can also use isolate to call reactive expressions from the R console values <- reactiveValues(A=1) fun <- reactive({ as.character(values$A) }) isolate(fun()) # "1" # isolate also works if the reactive expression accesses values from the # input object, like input$x
This function tests whether a Shiny application is currently running.
isRunning()
isRunning()
TRUE
if a Shiny application is currently running. Otherwise,
FALSE
.
The terms "truthy" and "falsy" generally indicate whether a value, when
coerced to a base::logical()
, is TRUE
or FALSE
. We use
the term a little loosely here; our usage tries to match the intuitive
notions of "Is this value missing or available?", or "Has the user provided
an answer?", or in the case of action buttons, "Has the button been
clicked?".
isTruthy(x)
isTruthy(x)
x |
An expression whose truthiness value we want to determine |
For example, a textInput
that has not been filled out by the user has
a value of ""
, so that is considered a falsy value.
To be precise, a value is truthy unless it is one of:
FALSE
NULL
""
An empty atomic vector
An atomic vector that contains only missing values
A logical vector that contains all FALSE
or missing values
An object of class "try-error"
A value that represents an unclicked actionButton()
Note in particular that the value 0
is considered truthy, even though
as.logical(0)
is FALSE
.
Loads all of the supporting R files of a Shiny application. Specifically,
this function loads any top-level supporting .R
files in the R/
directory
adjacent to the app.R
/server.R
/ui.R
files.
loadSupport( appDir = NULL, renv = new.env(parent = globalenv()), globalrenv = globalenv() )
loadSupport( appDir = NULL, renv = new.env(parent = globalenv()), globalrenv = globalenv() )
appDir |
The application directory. If |
renv |
The environment in which the files in the |
globalrenv |
The environment in which |
Since Shiny 1.5.0, this function is called by default when running an
application. If it causes problems, there are two ways to opt out. You can
either place a file named _disable_autoload.R
in your R/ directory, or
set options(shiny.autoload.r=FALSE)
. If you set this option, it will
affect any application that runs later in the same R session, potentially
breaking it, so after running your application, you should unset option with
options(shiny.autoload.r=NULL)
The files are sourced in alphabetical order (as determined by
list.files). global.R
is evaluated before the supporting R files in the
R/
directory.
This function accepts Markdown-syntax text and returns HTML that may be included in Shiny UIs.
markdown(mds, extensions = TRUE, .noWS = NULL, ...)
markdown(mds, extensions = TRUE, .noWS = NULL, ...)
mds |
A character vector of Markdown source to convert to HTML. If the vector has more than one element, a single-element character vector of concatenated HTML is returned. |
extensions |
Enable Github syntax extensions; defaults to |
.noWS |
Character vector used to omit some of the whitespace that would
normally be written around generated HTML. Valid options include |
... |
Additional arguments to pass to |
Leading whitespace is trimmed from Markdown text with glue::trim()
.
Whitespace trimming ensures Markdown is processed correctly even when the
call to markdown()
is indented within surrounding R code.
By default, Github extensions are enabled, but this
can be disabled by passing extensions = FALSE
.
Markdown rendering is performed by commonmark::markdown_html()
. Additional
arguments to markdown()
are passed as arguments to markdown_html()
a character vector marked as HTML.
ui <- fluidPage( markdown(" # Markdown Example This is a markdown paragraph, and will be contained within a `<p>` tag in the UI. The following is an unordered list, which will be represented in the UI as a `<ul>` with `<li>` children: * a bullet * another [Links](https://developer.mozilla.org/en-US/docs/Web/HTML/Element/a) work; so does *emphasis*. To see more of what's possible, check out [commonmark.org/help](https://commonmark.org/help). ") )
ui <- fluidPage( markdown(" # Markdown Example This is a markdown paragraph, and will be contained within a `<p>` tag in the UI. The following is an unordered list, which will be represented in the UI as a `<ul>` with `<li>` children: * a bullet * another [Links](https://developer.mozilla.org/en-US/docs/Web/HTML/Element/a) work; so does *emphasis*. To see more of what's possible, check out [commonmark.org/help](https://commonmark.org/help). ") )
Please use createRenderFunction()
to
support async execution. (Shiny 1.1.0)
markRenderFunction( uiFunc, renderFunc, outputArgs = list(), cacheHint = "auto", cacheWriteHook = NULL, cacheReadHook = NULL )
markRenderFunction( uiFunc, renderFunc, outputArgs = list(), cacheHint = "auto", cacheWriteHook = NULL, cacheReadHook = NULL )
uiFunc |
A function that renders Shiny UI. Must take a single argument: an output ID. |
renderFunc |
A function that is suitable for assigning to a Shiny output slot. |
outputArgs |
A list of arguments to pass to the |
cacheHint |
One of |
cacheWriteHook |
Used if the render function is passed to |
cacheReadHook |
Used if the render function is passed to |
Should be called by implementers of renderXXX
functions in order to mark
their return values as Shiny render functions, and to provide a hint to Shiny
regarding what UI function is most commonly used with this type of render
function. This can be used in R Markdown documents to create complete output
widgets out of just the render function.
Note that it is generally preferable to use createRenderFunction()
instead
of markRenderFunction()
. It essentially wraps up the user-provided
expression in the transform
function passed to it, then passes the resulting
function to markRenderFunction()
. It also provides a simpler calling
interface. There may be cases where markRenderFunction()
must be used instead of
createRenderFunction()
– for example, when the transform
parameter of
createRenderFunction()
is not flexible enough for your needs.
The renderFunc
function, with annotations.
Temporarily blocks the current reactive context and evaluates the given
expression. Any attempt to directly access reactive values or expressions in
expr
will give the same results as doing it at the top-level (by
default, an error).
maskReactiveContext(expr)
maskReactiveContext(expr)
expr |
An expression to evaluate. |
The value of expr
.
An R6 class suitable for testing purposes. Simulates, to the
extent possible, the behavior of the ShinySession
class. The session
parameter provided to Shiny server functions and modules is an instance of
a ShinySession
in normal operation.
Most kinds of module and server testing do not require this class be
instantiated manually. See instead testServer()
.
In order to support advanced usage, instances of MockShinySession
are
unlocked so that public methods and fields of instances may be
modified. For example, in order to test authentication workflows, the
user
or groups
fields may be overridden. Modified instances of
MockShinySession
may then be passed explicitly as the session
argument
of testServer()
.
env
The environment associated with the session.
returned
The value returned by the module under test.
singletons
Hardcoded as empty. Needed for rendering HTML (i.e. renderUI).
clientData
Mock client data that always returns a size for plots.
output
The shinyoutputs associated with the session.
input
The reactive inputs associated with the session.
userData
An environment initialized as empty.
progressStack
A stack of progress objects.
token
On a real ShinySession
, used to identify this instance in URLs.
cache
The session cache object.
appcache
The app cache object.
restoreContext
Part of bookmarking support in a real
ShinySession
but always NULL
for a MockShinySession
.
groups
Character vector of groups associated with an authenticated
user. Always NULL
for a MockShinySesion
.
user
The username of an authenticated user. Always NULL
for a
MockShinySession
.
options
A list containing session-level shinyOptions.
files
For internal use only.
downloads
For internal use only.
closed
Deprecated in ShinySession
and signals an error.
session
Deprecated in ShinySession and signals an error.
request
An empty environment where the request should be. The request isn't meaningfully mocked currently.
new()
Create a new MockShinySession.
MockShinySession$new()
onFlush()
Define a callback to be invoked before a reactive flush
MockShinySession$onFlush(fun, once = TRUE)
fun
The function to invoke
once
If TRUE
, will only run once. Otherwise, will run every time reactives are flushed.
onFlushed()
Define a callback to be invoked after a reactive flush
MockShinySession$onFlushed(fun, once = TRUE)
fun
The function to invoke
once
If TRUE
, will only run once. Otherwise, will run every time reactives are flushed.
onEnded()
Define a callback to be invoked when the session ends
MockShinySession$onEnded(sessionEndedCallback)
sessionEndedCallback
The callback to invoke when the session has ended.
isEnded()
Returns FALSE
if the session has not yet been closed
MockShinySession$isEnded()
isClosed()
Returns FALSE
if the session has not yet been closed
MockShinySession$isClosed()
close()
Closes the session
MockShinySession$close()
cycleStartAction()
Unsophisticated mock implementation that merely invokes
MockShinySession$cycleStartAction(callback)
callback
The callback to be invoked.
fileUrl()
Base64-encode the given file. Needed for image rendering.
MockShinySession$fileUrl(name, file, contentType = "application/octet-stream")
name
Not used
file
The file to be encoded
contentType
The content type of the base64-encoded string
setInputs()
Sets reactive values associated with the session$inputs
object and flushes the reactives.
MockShinySession$setInputs(...)
...
The inputs to set. These arguments are processed with
rlang::list2()
and so are dynamic. Input names
may not be duplicated.
\dontrun{ session$setInputs(x=1, y=2) }
.scheduleTask()
An internal method which shouldn't be used by others.
Schedules callback
for execution after some number of millis
milliseconds.
MockShinySession$.scheduleTask(millis, callback)
millis
The number of milliseconds on which to schedule a callback
callback
The function to schedule.
elapse()
Simulate the passing of time by the given number of milliseconds.
MockShinySession$elapse(millis)
millis
The number of milliseconds to advance time.
.now()
An internal method which shouldn't be used by others.
MockShinySession$.now()
Elapsed time in milliseconds.
defineOutput()
An internal method which shouldn't be used by others. Defines an output in a way that sets private$currentOutputName appropriately.
MockShinySession$defineOutput(name, func, label)
name
The name of the output.
func
The render definition.
label
Not used.
getOutput()
An internal method which shouldn't be used by others. Forces evaluation of any reactive dependencies of the output function.
MockShinySession$getOutput(name)
name
The name of the output.
The return value of the function responsible for rendering the output.
ns()
Returns the given id prefixed by this namespace's id.
MockShinySession$ns(id)
id
The id to prefix with a namespace id.
The id with a namespace prefix.
flushReact()
Trigger a reactive flush right now.
MockShinySession$flushReact()
makeScope()
Create and return a namespace-specific session proxy.
MockShinySession$makeScope(namespace)
namespace
Character vector indicating a namespace.
A new session proxy.
setEnv()
Set the environment associated with a testServer() call, but only if it has not previously been set. This ensures that only the environment of the outermost module under test is the one retained. In other words, the first assignment wins.
MockShinySession$setEnv(env)
env
The environment to retain.
The provided env
.
setReturned()
Set the value returned by the module call and proactively flush. Note that this method may be called multiple times if modules are nested. The last assignment, corresponding to an invocation of setReturned() in the outermost module, wins.
MockShinySession$setReturned(value)
value
The value returned from the module
The provided value
.
getReturned()
Get the value returned by the module call.
MockShinySession$getReturned()
The value returned by the module call
genId()
Generate a distinct character identifier for use as a proxy namespace.
MockShinySession$genId()
A character identifier unique to the current session.
rootScope()
Provides a way to access the root MockShinySession
from
any descendant proxy.
MockShinySession$rootScope()
The root MockShinySession
.
onUnhandledError()
Add an unhandled error callback.
MockShinySession$onUnhandledError(callback)
callback
The callback to add, which should accept an error object as its first argument.
A deregistration function.
unhandledError()
Called by observers when a reactive expression errors.
MockShinySession$unhandledError(e, close = TRUE)
e
An error object.
close
If TRUE
, the session will be closed after the error is
handled, defaults to FALSE
.
freezeValue()
Freeze a value until the flush cycle completes.
MockShinySession$freezeValue(x, name)
x
A ReactiveValues
object.
name
The name of a reactive value within x
.
onSessionEnded()
Registers the given callback to be invoked when the session is closed (i.e. the connection to the client has been severed). The return value is a function which unregisters the callback. If multiple callbacks are registered, the order in which they are invoked is not guaranteed.
MockShinySession$onSessionEnded(sessionEndedCallback)
sessionEndedCallback
Function to call when the session ends.
registerDownload()
Associated a downloadable file with the session.
MockShinySession$registerDownload(name, filename, contentType, content)
name
The un-namespaced output name to associate with the downloadable file.
filename
A string or function designating the name of the file.
contentType
A string of the content type of the file. Not used by
MockShinySession
.
content
A function that takes a single argument file that is a file path (string) of a nonexistent temp file, and writes the content to that file path. (Reactive values and functions may be used from this function.)
getCurrentOutputInfo()
Get information about the output that is currently being executed.
MockShinySession$getCurrentOutputInfo()
A list with with the name
of the output. If no output is
currently being executed, this will return NULL
.
output, or NULL
if no output is currently executing.
clone()
The objects of this class are cloneable with this method.
MockShinySession$clone(deep = FALSE)
deep
Whether to make a deep clone.
## ------------------------------------------------ ## Method `MockShinySession$setInputs` ## ------------------------------------------------ ## Not run: session$setInputs(x=1, y=2) ## End(Not run)
## ------------------------------------------------ ## Method `MockShinySession$setInputs` ## ------------------------------------------------ ## Not run: session$setInputs(x=1, y=2) ## End(Not run)
modalDialog()
creates the UI for a modal dialog, using Bootstrap's modal
class. Modals are typically used for showing important messages, or for
presenting UI that requires input from the user, such as a user name and
password input.
modalButton()
creates a button that will dismiss the dialog when clicked,
typically used when customising the footer
.
modalDialog( ..., title = NULL, footer = modalButton("Dismiss"), size = c("m", "s", "l", "xl"), easyClose = FALSE, fade = TRUE ) modalButton(label, icon = NULL)
modalDialog( ..., title = NULL, footer = modalButton("Dismiss"), size = c("m", "s", "l", "xl"), easyClose = FALSE, fade = TRUE ) modalButton(label, icon = NULL)
... |
UI elements for the body of the modal dialog box. |
title |
An optional title for the dialog. |
footer |
UI for footer. Use |
size |
One of |
easyClose |
If |
fade |
If |
label |
The contents of the button or link–usually a text label, but you could also use any other HTML, like an image. |
icon |
An optional |
if (interactive()) { # Display an important message that can be dismissed only by clicking the # dismiss button. shinyApp( ui = basicPage( actionButton("show", "Show modal dialog") ), server = function(input, output) { observeEvent(input$show, { showModal(modalDialog( title = "Important message", "This is an important message!" )) }) } ) # Display a message that can be dismissed by clicking outside the modal dialog, # or by pressing Esc. shinyApp( ui = basicPage( actionButton("show", "Show modal dialog") ), server = function(input, output) { observeEvent(input$show, { showModal(modalDialog( title = "Somewhat important message", "This is a somewhat important message.", easyClose = TRUE, footer = NULL )) }) } ) # Display a modal that requires valid input before continuing. shinyApp( ui = basicPage( actionButton("show", "Show modal dialog"), verbatimTextOutput("dataInfo") ), server = function(input, output) { # reactiveValues object for storing current data set. vals <- reactiveValues(data = NULL) # Return the UI for a modal dialog with data selection input. If 'failed' is # TRUE, then display a message that the previous value was invalid. dataModal <- function(failed = FALSE) { modalDialog( textInput("dataset", "Choose data set", placeholder = 'Try "mtcars" or "abc"' ), span('(Try the name of a valid data object like "mtcars", ', 'then a name of a non-existent object like "abc")'), if (failed) div(tags$b("Invalid name of data object", style = "color: red;")), footer = tagList( modalButton("Cancel"), actionButton("ok", "OK") ) ) } # Show modal when button is clicked. observeEvent(input$show, { showModal(dataModal()) }) # When OK button is pressed, attempt to load the data set. If successful, # remove the modal. If not show another modal, but this time with a failure # message. observeEvent(input$ok, { # Check that data object exists and is data frame. if (!is.null(input$dataset) && nzchar(input$dataset) && exists(input$dataset) && is.data.frame(get(input$dataset))) { vals$data <- get(input$dataset) removeModal() } else { showModal(dataModal(failed = TRUE)) } }) # Display information about selected data output$dataInfo <- renderPrint({ if (is.null(vals$data)) "No data selected" else summary(vals$data) }) } ) }
if (interactive()) { # Display an important message that can be dismissed only by clicking the # dismiss button. shinyApp( ui = basicPage( actionButton("show", "Show modal dialog") ), server = function(input, output) { observeEvent(input$show, { showModal(modalDialog( title = "Important message", "This is an important message!" )) }) } ) # Display a message that can be dismissed by clicking outside the modal dialog, # or by pressing Esc. shinyApp( ui = basicPage( actionButton("show", "Show modal dialog") ), server = function(input, output) { observeEvent(input$show, { showModal(modalDialog( title = "Somewhat important message", "This is a somewhat important message.", easyClose = TRUE, footer = NULL )) }) } ) # Display a modal that requires valid input before continuing. shinyApp( ui = basicPage( actionButton("show", "Show modal dialog"), verbatimTextOutput("dataInfo") ), server = function(input, output) { # reactiveValues object for storing current data set. vals <- reactiveValues(data = NULL) # Return the UI for a modal dialog with data selection input. If 'failed' is # TRUE, then display a message that the previous value was invalid. dataModal <- function(failed = FALSE) { modalDialog( textInput("dataset", "Choose data set", placeholder = 'Try "mtcars" or "abc"' ), span('(Try the name of a valid data object like "mtcars", ', 'then a name of a non-existent object like "abc")'), if (failed) div(tags$b("Invalid name of data object", style = "color: red;")), footer = tagList( modalButton("Cancel"), actionButton("ok", "OK") ) ) } # Show modal when button is clicked. observeEvent(input$show, { showModal(dataModal()) }) # When OK button is pressed, attempt to load the data set. If successful, # remove the modal. If not show another modal, but this time with a failure # message. observeEvent(input$ok, { # Check that data object exists and is data frame. if (!is.null(input$dataset) && nzchar(input$dataset) && exists(input$dataset) && is.data.frame(get(input$dataset))) { vals$data <- get(input$dataset) removeModal() } else { showModal(dataModal(failed = TRUE)) } }) # Display information about selected data output$dataInfo <- renderPrint({ if (is.null(vals$data)) "No data selected" else summary(vals$data) }) } ) }
Shiny's module feature lets you break complicated UI and server logic into smaller, self-contained pieces. Compared to large monolithic Shiny apps, modules are easier to reuse and easier to reason about. See the article at https://shiny.rstudio.com/articles/modules.html to learn more.
moduleServer(id, module, session = getDefaultReactiveDomain())
moduleServer(id, module, session = getDefaultReactiveDomain())
id |
An ID string that corresponds with the ID used to call the module's UI function. |
module |
A Shiny module server function. |
session |
Session from which to make a child scope (the default should almost always be used). |
Starting in Shiny 1.5.0, we recommend using moduleServer
instead of
callModule()
, because the syntax is a little easier
to understand, and modules created with moduleServer
can be tested with
testServer()
.
The return value, if any, from executing the module server function
https://shiny.rstudio.com/articles/modules.html
# Define the UI for a module counterUI <- function(id, label = "Counter") { ns <- NS(id) tagList( actionButton(ns("button"), label = label), verbatimTextOutput(ns("out")) ) } # Define the server logic for a module counterServer <- function(id) { moduleServer( id, function(input, output, session) { count <- reactiveVal(0) observeEvent(input$button, { count(count() + 1) }) output$out <- renderText({ count() }) count } ) } # Use the module in an app ui <- fluidPage( counterUI("counter1", "Counter #1"), counterUI("counter2", "Counter #2") ) server <- function(input, output, session) { counterServer("counter1") counterServer("counter2") } if (interactive()) { shinyApp(ui, server) } # If you want to pass extra parameters to the module's server logic, you can # add them to your function. In this case `prefix` is text that will be # printed before the count. counterServer2 <- function(id, prefix = NULL) { moduleServer( id, function(input, output, session) { count <- reactiveVal(0) observeEvent(input$button, { count(count() + 1) }) output$out <- renderText({ paste0(prefix, count()) }) count } ) } ui <- fluidPage( counterUI("counter", "Counter"), ) server <- function(input, output, session) { counterServer2("counter", "The current count is: ") } if (interactive()) { shinyApp(ui, server) }
# Define the UI for a module counterUI <- function(id, label = "Counter") { ns <- NS(id) tagList( actionButton(ns("button"), label = label), verbatimTextOutput(ns("out")) ) } # Define the server logic for a module counterServer <- function(id) { moduleServer( id, function(input, output, session) { count <- reactiveVal(0) observeEvent(input$button, { count(count() + 1) }) output$out <- renderText({ count() }) count } ) } # Use the module in an app ui <- fluidPage( counterUI("counter1", "Counter #1"), counterUI("counter2", "Counter #2") ) server <- function(input, output, session) { counterServer("counter1") counterServer("counter2") } if (interactive()) { shinyApp(ui, server) } # If you want to pass extra parameters to the module's server logic, you can # add them to your function. In this case `prefix` is text that will be # printed before the count. counterServer2 <- function(id, prefix = NULL) { moduleServer( id, function(input, output, session) { count <- reactiveVal(0) observeEvent(input$button, { count(count() + 1) }) output$out <- renderText({ paste0(prefix, count()) }) count } ) } ui <- fluidPage( counterUI("counter", "Counter"), ) server <- function(input, output, session) { counterServer2("counter", "The current count is: ") } if (interactive()) { shinyApp(ui, server) }
The NS
function creates namespaced IDs out of bare IDs, by joining
them using ns.sep
as the delimiter. It is intended for use in Shiny
modules. See https://shiny.rstudio.com/articles/modules.html.
NS(namespace, id = NULL) ns.sep
NS(namespace, id = NULL) ns.sep
namespace |
The character vector to use for the namespace. This can have
any length, though a single element is most common. Length 0 will cause the
|
id |
The id string to be namespaced (optional). |
An object of class character
of length 1.
Shiny applications use IDs to identify inputs and outputs. These IDs must be
unique within an application, as accidentally using the same input/output ID
more than once will result in unexpected behavior. The traditional solution
for preventing name collisions is namespaces; a namespace is to an ID
as a directory is to a file. Use the NS
function to turn a bare ID
into a namespaced one, by combining them with ns.sep
in between.
If id
is missing, returns a function that expects an id string
as its only argument and returns that id with the namespace prepended.
https://shiny.rstudio.com/articles/modules.html
Create an input control for entry of numeric values
numericInput( inputId, label, value, min = NA, max = NA, step = NA, width = NULL )
numericInput( inputId, label, value, min = NA, max = NA, step = NA, width = NULL )
inputId |
The |
label |
Display label for the control, or |
value |
Initial value. |
min |
Minimum allowed value |
max |
Maximum allowed value |
step |
Interval to use when stepping between min and max |
width |
The width of the input, e.g. |
A numeric input control that can be added to a UI definition.
A numeric vector of length 1.
Other input elements:
actionButton()
,
checkboxGroupInput()
,
checkboxInput()
,
dateInput()
,
dateRangeInput()
,
fileInput()
,
passwordInput()
,
radioButtons()
,
selectInput()
,
sliderInput()
,
submitButton()
,
textAreaInput()
,
textInput()
,
varSelectInput()
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( numericInput("obs", "Observations:", 10, min = 1, max = 100), verbatimTextOutput("value") ) server <- function(input, output) { output$value <- renderText({ input$obs }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( numericInput("obs", "Observations:", 10, min = 1, max = 100), verbatimTextOutput("value") ) server <- function(input, output) { output$value <- renderText({ input$obs }) } shinyApp(ui, server) }
Creates an observer from the given expression.
observe( x, env = parent.frame(), quoted = FALSE, ..., label = NULL, suspended = FALSE, priority = 0, domain = getDefaultReactiveDomain(), autoDestroy = TRUE, ..stacktraceon = TRUE )
observe( x, env = parent.frame(), quoted = FALSE, ..., label = NULL, suspended = FALSE, priority = 0, domain = getDefaultReactiveDomain(), autoDestroy = TRUE, ..stacktraceon = TRUE )
x |
An expression (quoted or unquoted). Any return value will be ignored. |
env |
The parent environment for the reactive expression. By default,
this is the calling environment, the same as when defining an ordinary
non-reactive expression. If |
quoted |
If it is |
... |
Not used. |
label |
A label for the observer, useful for debugging. |
suspended |
If |
priority |
An integer or numeric that controls the priority with which this observer should be executed. A higher value means higher priority: an observer with a higher priority value will execute before all observers with lower priority values. Positive, negative, and zero values are allowed. |
domain |
See domains. |
autoDestroy |
If |
..stacktraceon |
Advanced use only. For stack manipulation purposes; see
|
An observer is like a reactive expression in that it can read reactive values and call reactive expressions, and will automatically re-execute when those dependencies change. But unlike reactive expressions, it doesn't yield a result and can't be used as an input to other reactive expressions. Thus, observers are only useful for their side effects (for example, performing I/O).
Another contrast between reactive expressions and observers is their execution strategy. Reactive expressions use lazy evaluation; that is, when their dependencies change, they don't re-execute right away but rather wait until they are called by someone else. Indeed, if they are not called then they will never re-execute. In contrast, observers use eager evaluation; as soon as their dependencies change, they schedule themselves to re-execute.
Starting with Shiny 0.10.0, observers are automatically destroyed by default when the domain that owns them ends (e.g. when a Shiny session ends).
An observer reference class object. This object has the following methods:
suspend()
Causes this observer to stop scheduling flushes (re-executions) in response to invalidations. If the observer was invalidated prior to this call but it has not re-executed yet then that re-execution will still occur, because the flush is already scheduled.
resume()
Causes this observer to start re-executing in response to invalidations. If the observer was invalidated while suspended, then it will schedule itself for re-execution.
destroy()
Stops the observer from executing ever again, even if it is currently scheduled for re-execution.
setPriority(priority = 0)
Change this observer's priority. Note that if the observer is currently invalidated, then the change in priority will not take effect until the next invalidation–unless the observer is also currently suspended, in which case the priority change will be effective upon resume.
setAutoDestroy(autoDestroy)
Sets whether this observer should be automatically destroyed when its domain (if any) ends. If autoDestroy is TRUE and the domain already ended, then destroy() is called immediately."
onInvalidate(callback)
Register a callback function to run when this observer is invalidated. No arguments will be provided to the callback function when it is invoked.
values <- reactiveValues(A=1) obsB <- observe({ print(values$A + 1) }) # To store expressions for later conversion to observe, use rlang::quo() myquo <- rlang::quo({ print(values$A + 3) }) obsC <- rlang::inject(observe(!!myquo)) # (Legacy) Can use quoted expressions obsD <- observe(quote({ print(values$A + 2) }), quoted = TRUE) # In a normal Shiny app, the web client will trigger flush events. If you # are at the console, you can force a flush with flushReact() shiny:::flushReact()
values <- reactiveValues(A=1) obsB <- observe({ print(values$A + 1) }) # To store expressions for later conversion to observe, use rlang::quo() myquo <- rlang::quo({ print(values$A + 3) }) obsC <- rlang::inject(observe(!!myquo)) # (Legacy) Can use quoted expressions obsD <- observe(quote({ print(values$A + 2) }), quoted = TRUE) # In a normal Shiny app, the web client will trigger flush events. If you # are at the console, you can force a flush with flushReact() shiny:::flushReact()
Respond to "event-like" reactive inputs, values, and expressions. As of Shiny
1.6.0, we recommend using bindEvent()
instead of eventReactive()
and
observeEvent()
. This is because bindEvent()
can be composed with
bindCache()
, and because it can also be used with render
functions (like
renderText()
and renderPlot()
).
observeEvent( eventExpr, handlerExpr, event.env = parent.frame(), event.quoted = FALSE, handler.env = parent.frame(), handler.quoted = FALSE, ..., label = NULL, suspended = FALSE, priority = 0, domain = getDefaultReactiveDomain(), autoDestroy = TRUE, ignoreNULL = TRUE, ignoreInit = FALSE, once = FALSE ) eventReactive( eventExpr, valueExpr, event.env = parent.frame(), event.quoted = FALSE, value.env = parent.frame(), value.quoted = FALSE, ..., label = NULL, domain = getDefaultReactiveDomain(), ignoreNULL = TRUE, ignoreInit = FALSE )
observeEvent( eventExpr, handlerExpr, event.env = parent.frame(), event.quoted = FALSE, handler.env = parent.frame(), handler.quoted = FALSE, ..., label = NULL, suspended = FALSE, priority = 0, domain = getDefaultReactiveDomain(), autoDestroy = TRUE, ignoreNULL = TRUE, ignoreInit = FALSE, once = FALSE ) eventReactive( eventExpr, valueExpr, event.env = parent.frame(), event.quoted = FALSE, value.env = parent.frame(), value.quoted = FALSE, ..., label = NULL, domain = getDefaultReactiveDomain(), ignoreNULL = TRUE, ignoreInit = FALSE )
eventExpr |
A (quoted or unquoted) expression that represents the event;
this can be a simple reactive value like |
handlerExpr |
The expression to call whenever |
event.env |
The parent environment for the reactive expression. By default,
this is the calling environment, the same as when defining an ordinary
non-reactive expression. If |
event.quoted |
If it is |
handler.env |
The parent environment for the reactive expression. By default,
this is the calling environment, the same as when defining an ordinary
non-reactive expression. If |
handler.quoted |
If it is |
... |
Currently not used. |
label |
A label for the observer or reactive, useful for debugging. |
suspended |
If |
priority |
An integer or numeric that controls the priority with which this observer should be executed. An observer with a given priority level will always execute sooner than all observers with a lower priority level. Positive, negative, and zero values are allowed. |
domain |
See domains. |
autoDestroy |
If |
ignoreNULL |
Whether the action should be triggered (or value
calculated, in the case of |
ignoreInit |
If |
once |
Whether this |
valueExpr |
The expression that produces the return value of the
|
value.env |
The parent environment for the reactive expression. By default,
this is the calling environment, the same as when defining an ordinary
non-reactive expression. If |
value.quoted |
If it is |
Shiny's reactive programming framework is primarily designed for calculated
values (reactive expressions) and side-effect-causing actions (observers)
that respond to any of their inputs changing. That's often what is
desired in Shiny apps, but not always: sometimes you want to wait for a
specific action to be taken from the user, like clicking an
actionButton()
, before calculating an expression or taking an
action. A reactive value or expression that is used to trigger other
calculations in this way is called an event.
These situations demand a more imperative, "event handling" style of
programming that is possible–but not particularly intuitive–using the
reactive programming primitives observe()
and
isolate()
. observeEvent
and eventReactive
provide
straightforward APIs for event handling that wrap observe
and
isolate
.
Use observeEvent
whenever you want to perform an action in
response to an event. (Note that "recalculate a value" does not generally
count as performing an action–see eventReactive
for that.) The first
argument is the event you want to respond to, and the second argument is a
function that should be called whenever the event occurs. Note that
observeEvent()
is equivalent to using observe() %>% bindEvent()
and as of
Shiny 1.6.0, we recommend the latter.
Use eventReactive
to create a calculated value that only
updates in response to an event. This is just like a normal
reactive expression except it ignores all the usual
invalidations that come from its reactive dependencies; it only invalidates
in response to the given event. Note that
eventReactive()
is equivalent to using reactive() %>% bindEvent()
and as of
Shiny 1.6.0, we recommend the latter.
observeEvent
returns an observer reference class object (see
observe()
). eventReactive
returns a reactive expression
object (see reactive()
).
Both observeEvent
and eventReactive
take an ignoreNULL
parameter that affects behavior when the eventExpr
evaluates to
NULL
(or in the special case of an actionButton()
,
0
). In these cases, if ignoreNULL
is TRUE
, then an
observeEvent
will not execute and an eventReactive
will raise a
silent validation error. This is useful behavior if you
don't want to do the action or calculation when your app first starts, but
wait for the user to initiate the action first (like a "Submit" button);
whereas ignoreNULL=FALSE
is desirable if you want to initially perform
the action/calculation and just let the user re-initiate it (like a
"Recalculate" button).
Likewise, both observeEvent
and eventReactive
also take in an
ignoreInit
argument. By default, both of these will run right when they
are created (except if, at that moment, eventExpr
evaluates to NULL
and ignoreNULL
is TRUE
). But when responding to a click of an action
button, it may often be useful to set ignoreInit
to TRUE
. For
example, if you're setting up an observeEvent
for a dynamically created
button, then ignoreInit = TRUE
will guarantee that the action (in
handlerExpr
) will only be triggered when the button is actually clicked,
instead of also being triggered when it is created/initialized. Similarly,
if you're setting up an eventReactive
that responds to a dynamically
created button used to refresh some data (then returned by that eventReactive
),
then you should use eventReactive([...], ignoreInit = TRUE)
if you want
to let the user decide if/when they want to refresh the data (since, depending
on the app, this may be a computationally expensive operation).
Even though ignoreNULL
and ignoreInit
can be used for similar
purposes they are independent from one another. Here's the result of combining
these:
ignoreNULL = TRUE
and ignoreInit = FALSE
This is the default. This combination means that handlerExpr
/
valueExpr
will run every time that eventExpr
is not
NULL
. If, at the time of the creation of the
observeEvent
/eventReactive
, eventExpr
happens
to not be NULL
, then the code runs.
ignoreNULL = FALSE
and ignoreInit = FALSE
This combination means that handlerExpr
/valueExpr
will
run every time no matter what.
ignoreNULL = FALSE
and ignoreInit = TRUE
This combination means that handlerExpr
/valueExpr
will
not run when the observeEvent
/eventReactive
is
created (because ignoreInit = TRUE
), but it will run every
other time.
ignoreNULL = TRUE
and ignoreInit = TRUE
This combination means that handlerExpr
/valueExpr
will
not run when the observeEvent
/eventReactive
is
created (because ignoreInit = TRUE
). After that,
handlerExpr
/valueExpr
will run every time that
eventExpr
is not NULL
.
## Only run examples in interactive R sessions if (interactive()) { ## App 1: Sample usage shinyApp( ui = fluidPage( column(4, numericInput("x", "Value", 5), br(), actionButton("button", "Show") ), column(8, tableOutput("table")) ), server = function(input, output) { # Take an action every time button is pressed; # here, we just print a message to the console observeEvent(input$button, { cat("Showing", input$x, "rows\n") }) # The observeEvent() above is equivalent to: # observe({ # cat("Showing", input$x, "rows\n") # }) %>% # bindEvent(input$button) # Take a reactive dependency on input$button, but # not on any of the stuff inside the function df <- eventReactive(input$button, { head(cars, input$x) }) output$table <- renderTable({ df() }) } ) ## App 2: Using `once` shinyApp( ui = basicPage( actionButton("go", "Go")), server = function(input, output, session) { observeEvent(input$go, { print(paste("This will only be printed once; all", "subsequent button clicks won't do anything")) }, once = TRUE) # The observeEvent() above is equivalent to: # observe({ # print(paste("This will only be printed once; all", # "subsequent button clicks won't do anything")) # }) %>% # bindEvent(input$go, once = TRUE) } ) ## App 3: Using `ignoreInit` and `once` shinyApp( ui = basicPage(actionButton("go", "Go")), server = function(input, output, session) { observeEvent(input$go, { insertUI("#go", "afterEnd", actionButton("dynamic", "click to remove")) # set up an observer that depends on the dynamic # input, so that it doesn't run when the input is # created, and only runs once after that (since # the side effect is remove the input from the DOM) observeEvent(input$dynamic, { removeUI("#dynamic") }, ignoreInit = TRUE, once = TRUE) }) } ) }
## Only run examples in interactive R sessions if (interactive()) { ## App 1: Sample usage shinyApp( ui = fluidPage( column(4, numericInput("x", "Value", 5), br(), actionButton("button", "Show") ), column(8, tableOutput("table")) ), server = function(input, output) { # Take an action every time button is pressed; # here, we just print a message to the console observeEvent(input$button, { cat("Showing", input$x, "rows\n") }) # The observeEvent() above is equivalent to: # observe({ # cat("Showing", input$x, "rows\n") # }) %>% # bindEvent(input$button) # Take a reactive dependency on input$button, but # not on any of the stuff inside the function df <- eventReactive(input$button, { head(cars, input$x) }) output$table <- renderTable({ df() }) } ) ## App 2: Using `once` shinyApp( ui = basicPage( actionButton("go", "Go")), server = function(input, output, session) { observeEvent(input$go, { print(paste("This will only be printed once; all", "subsequent button clicks won't do anything")) }, once = TRUE) # The observeEvent() above is equivalent to: # observe({ # print(paste("This will only be printed once; all", # "subsequent button clicks won't do anything")) # }) %>% # bindEvent(input$go, once = TRUE) } ) ## App 3: Using `ignoreInit` and `once` shinyApp( ui = basicPage(actionButton("go", "Go")), server = function(input, output, session) { observeEvent(input$go, { insertUI("#go", "afterEnd", actionButton("dynamic", "click to remove")) # set up an observer that depends on the dynamic # input, so that it doesn't run when the input is # created, and only runs once after that (since # the side effect is remove the input from the DOM) observeEvent(input$dynamic, { removeUI("#dynamic") }, ignoreInit = TRUE, once = TRUE) }) } ) }
These functions are for registering callbacks on Shiny session events. They should be called within an application's server function.
onBookmark
registers a function that will be called just
before Shiny bookmarks state.
onBookmarked
registers a function that will be called just
after Shiny bookmarks state.
onRestore
registers a function that will be called when a
session is restored, after the server function executes, but before all
other reactives, observers and render functions are run.
onRestored
registers a function that will be called after a
session is restored. This is similar to onRestore
, but it will be
called after all reactives, observers, and render functions run, and
after results are sent to the client browser. onRestored
callbacks can be useful for sending update messages to the client
browser.
onBookmark(fun, session = getDefaultReactiveDomain()) onBookmarked(fun, session = getDefaultReactiveDomain()) onRestore(fun, session = getDefaultReactiveDomain()) onRestored(fun, session = getDefaultReactiveDomain())
onBookmark(fun, session = getDefaultReactiveDomain()) onBookmarked(fun, session = getDefaultReactiveDomain()) onRestore(fun, session = getDefaultReactiveDomain()) onRestored(fun, session = getDefaultReactiveDomain())
fun |
A callback function which takes one argument. |
session |
A shiny session object. |
All of these functions return a function which can be called with no arguments to cancel the registration.
The callback function that is passed to these functions should take one
argument, typically named "state" (for onBookmark
, onRestore
,
and onRestored
) or "url" (for onBookmarked
).
For onBookmark
, the state object has three relevant fields. The
values
field is an environment which can be used to save arbitrary
values (see examples). If the state is being saved to disk (as opposed to
being encoded in a URL), the dir
field contains the name of a
directory which can be used to store extra files. Finally, the state object
has an input
field, which is simply the application's input
object. It can be read, but not modified.
For onRestore
and onRestored
, the state object is a list. This
list contains input
, which is a named list of input values to restore,
values
, which is an environment containing arbitrary values that were
saved in onBookmark
, and dir
, the name of the directory that
the state is being restored from, and which could have been used to save
extra files.
For onBookmarked
, the callback function receives a string with the
bookmark URL. This callback function should be used to display UI in the
client browser with the bookmark URL. If no callback function is registered,
then Shiny will by default display a modal dialog with the bookmark URL.
These callbacks may also be used in Shiny modules. When used this way, the inputs and values will automatically be namespaced for the module, and the callback functions registered for the module will only be able to see the module's inputs and values.
enableBookmarking for general information on bookmarking.
## Only run these examples in interactive sessions if (interactive()) { # Basic use of onBookmark and onRestore: This app saves the time in its # arbitrary values, and restores that time when the app is restored. ui <- function(req) { fluidPage( textInput("txt", "Input text"), bookmarkButton() ) } server <- function(input, output) { onBookmark(function(state) { savedTime <- as.character(Sys.time()) cat("Last saved at", savedTime, "\n") # state is a mutable reference object, and we can add arbitrary values to # it. state$values$time <- savedTime }) onRestore(function(state) { cat("Restoring from state bookmarked at", state$values$time, "\n") }) } enableBookmarking("url") shinyApp(ui, server) ui <- function(req) { fluidPage( textInput("txt", "Input text"), bookmarkButton() ) } server <- function(input, output, session) { lastUpdateTime <- NULL observeEvent(input$txt, { updateTextInput(session, "txt", label = paste0("Input text (Changed ", as.character(Sys.time()), ")") ) }) onBookmark(function(state) { # Save content to a file messageFile <- file.path(state$dir, "message.txt") cat(as.character(Sys.time()), file = messageFile) }) onRestored(function(state) { # Read the file messageFile <- file.path(state$dir, "message.txt") timeText <- readChar(messageFile, 1000) # updateTextInput must be called in onRestored, as opposed to onRestore, # because onRestored happens after the client browser is ready. updateTextInput(session, "txt", label = paste0("Input text (Changed ", timeText, ")") ) }) } # "server" bookmarking is needed for writing to disk. enableBookmarking("server") shinyApp(ui, server) # This app has a module, and both the module and the main app code have # onBookmark and onRestore functions which write and read state$values$hash. The # module's version of state$values$hash does not conflict with the app's version # of state$values$hash. # # A basic module that captializes text. capitalizerUI <- function(id) { ns <- NS(id) wellPanel( h4("Text captializer module"), textInput(ns("text"), "Enter text:"), verbatimTextOutput(ns("out")) ) } capitalizerServer <- function(input, output, session) { output$out <- renderText({ toupper(input$text) }) onBookmark(function(state) { state$values$hash <- rlang::hash(input$text) }) onRestore(function(state) { if (identical(rlang::hash(input$text), state$values$hash)) { message("Module's input text matches hash ", state$values$hash) } else { message("Module's input text does not match hash ", state$values$hash) } }) } # Main app code ui <- function(request) { fluidPage( sidebarLayout( sidebarPanel( capitalizerUI("tc"), textInput("text", "Enter text (not in module):"), bookmarkButton() ), mainPanel() ) ) } server <- function(input, output, session) { callModule(capitalizerServer, "tc") onBookmark(function(state) { state$values$hash <- rlang::hash(input$text) }) onRestore(function(state) { if (identical(rlang::hash(input$text), state$values$hash)) { message("App's input text matches hash ", state$values$hash) } else { message("App's input text does not match hash ", state$values$hash) } }) } enableBookmarking(store = "url") shinyApp(ui, server) }
## Only run these examples in interactive sessions if (interactive()) { # Basic use of onBookmark and onRestore: This app saves the time in its # arbitrary values, and restores that time when the app is restored. ui <- function(req) { fluidPage( textInput("txt", "Input text"), bookmarkButton() ) } server <- function(input, output) { onBookmark(function(state) { savedTime <- as.character(Sys.time()) cat("Last saved at", savedTime, "\n") # state is a mutable reference object, and we can add arbitrary values to # it. state$values$time <- savedTime }) onRestore(function(state) { cat("Restoring from state bookmarked at", state$values$time, "\n") }) } enableBookmarking("url") shinyApp(ui, server) ui <- function(req) { fluidPage( textInput("txt", "Input text"), bookmarkButton() ) } server <- function(input, output, session) { lastUpdateTime <- NULL observeEvent(input$txt, { updateTextInput(session, "txt", label = paste0("Input text (Changed ", as.character(Sys.time()), ")") ) }) onBookmark(function(state) { # Save content to a file messageFile <- file.path(state$dir, "message.txt") cat(as.character(Sys.time()), file = messageFile) }) onRestored(function(state) { # Read the file messageFile <- file.path(state$dir, "message.txt") timeText <- readChar(messageFile, 1000) # updateTextInput must be called in onRestored, as opposed to onRestore, # because onRestored happens after the client browser is ready. updateTextInput(session, "txt", label = paste0("Input text (Changed ", timeText, ")") ) }) } # "server" bookmarking is needed for writing to disk. enableBookmarking("server") shinyApp(ui, server) # This app has a module, and both the module and the main app code have # onBookmark and onRestore functions which write and read state$values$hash. The # module's version of state$values$hash does not conflict with the app's version # of state$values$hash. # # A basic module that captializes text. capitalizerUI <- function(id) { ns <- NS(id) wellPanel( h4("Text captializer module"), textInput(ns("text"), "Enter text:"), verbatimTextOutput(ns("out")) ) } capitalizerServer <- function(input, output, session) { output$out <- renderText({ toupper(input$text) }) onBookmark(function(state) { state$values$hash <- rlang::hash(input$text) }) onRestore(function(state) { if (identical(rlang::hash(input$text), state$values$hash)) { message("Module's input text matches hash ", state$values$hash) } else { message("Module's input text does not match hash ", state$values$hash) } }) } # Main app code ui <- function(request) { fluidPage( sidebarLayout( sidebarPanel( capitalizerUI("tc"), textInput("text", "Enter text (not in module):"), bookmarkButton() ), mainPanel() ) ) } server <- function(input, output, session) { callModule(capitalizerServer, "tc") onBookmark(function(state) { state$values$hash <- rlang::hash(input$text) }) onRestore(function(state) { if (identical(rlang::hash(input$text), state$values$hash)) { message("App's input text matches hash ", state$values$hash) } else { message("App's input text does not match hash ", state$values$hash) } }) } enableBookmarking(store = "url") shinyApp(ui, server) }
These functions are for registering callbacks on Shiny session events.
onFlush
registers a function that will be called before Shiny flushes the
reactive system. onFlushed
registers a function that will be called after
Shiny flushes the reactive system. onUnhandledError
registers a function to
be called when an unhandled error occurs before the session is closed.
onSessionEnded
registers a function to be called after the client has
disconnected.
These functions should be called within the application's server function.
All of these functions return a function which can be called with no arguments to cancel the registration.
onFlush(fun, once = TRUE, session = getDefaultReactiveDomain()) onFlushed(fun, once = TRUE, session = getDefaultReactiveDomain()) onSessionEnded(fun, session = getDefaultReactiveDomain()) onUnhandledError(fun, session = getDefaultReactiveDomain())
onFlush(fun, once = TRUE, session = getDefaultReactiveDomain()) onFlushed(fun, once = TRUE, session = getDefaultReactiveDomain()) onSessionEnded(fun, session = getDefaultReactiveDomain()) onUnhandledError(fun, session = getDefaultReactiveDomain())
fun |
A callback function. |
once |
Should the function be run once, and then cleared, or should it
re-run each time the event occurs. (Only for |
session |
A shiny session object. |
Unhandled errors are errors that aren't otherwise handled by Shiny or by the application logic. In other words, they are errors that will either cause the application to crash or will result in "Error" output in the UI.
You can use onUnhandledError()
to register a function that will be called
when an unhandled error occurs. This function will be called with the error
object as its first argument. If the error is fatal and will result in the
session closing, the error condition will have the shiny.error.fatal
class.
Note that the onUnhandledError()
callbacks cannot be used to prevent the
app from closing or to modify the error condition. Instead, they are intended
to give you an opportunity to log the error or perform other cleanup
operations.
onStop()
for registering callbacks that will be
invoked when the application exits, or when a session ends.
library(shiny) ui <- fixedPage( markdown(c( "Set the number to 8 or higher to cause an error", "in the `renderText()` output." )), sliderInput("number", "Number", 0, 10, 4), textOutput("text"), hr(), markdown(c( "Click the button below to crash the app with an unhandled error", "in an `observe()` block." )), actionButton("crash", "Crash the app!") ) log_event <- function(level, ...) { ts <- strftime(Sys.time(), " [%F %T] ") message(level, ts, ...) } server <- function(input, output, session) { log_event("INFO", "Session started") onUnhandledError(function(err) { # log the unhandled error level <- if (inherits(err, "shiny.error.fatal")) "FATAL" else "ERROR" log_event(level, conditionMessage(err)) }) onStop(function() { log_event("INFO", "Session ended") }) observeEvent(input$crash, stop("Oops, an unhandled error happened!")) output$text <- renderText({ if (input$number > 7) { stop("that's too high!") } sprintf("You picked number %d.", input$number) }) } shinyApp(ui, server)
library(shiny) ui <- fixedPage( markdown(c( "Set the number to 8 or higher to cause an error", "in the `renderText()` output." )), sliderInput("number", "Number", 0, 10, 4), textOutput("text"), hr(), markdown(c( "Click the button below to crash the app with an unhandled error", "in an `observe()` block." )), actionButton("crash", "Crash the app!") ) log_event <- function(level, ...) { ts <- strftime(Sys.time(), " [%F %T] ") message(level, ts, ...) } server <- function(input, output, session) { log_event("INFO", "Session started") onUnhandledError(function(err) { # log the unhandled error level <- if (inherits(err, "shiny.error.fatal")) "FATAL" else "ERROR" log_event(level, conditionMessage(err)) }) onStop(function() { log_event("INFO", "Session ended") }) observeEvent(input$crash, stop("Oops, an unhandled error happened!")) output$text <- renderText({ if (input$number > 7) { stop("that's too high!") } sprintf("You picked number %d.", input$number) }) } shinyApp(ui, server)
This function registers callback functions that are invoked when the
application exits (when runApp()
exits), or after each user
session ends (when a client disconnects).
onStop(fun, session = getDefaultReactiveDomain())
onStop(fun, session = getDefaultReactiveDomain())
fun |
A function that will be called after the app has finished running. |
session |
A scope for when the callback will run. If |
A function which, if invoked, will cancel the callback.
onSessionEnded()
for the same functionality, but at
the session level only.
## Only run this example in interactive R sessions if (interactive()) { # Open this application in multiple browsers, then close the browsers. shinyApp( ui = basicPage("onStop demo"), server = function(input, output, session) { onStop(function() cat("Session stopped\n")) }, onStart = function() { cat("Doing application setup\n") onStop(function() { cat("Doing application cleanup\n") }) } ) } # In the example above, onStop() is called inside of onStart(). This is # the pattern that should be used when creating a shinyApp() object from # a function, or at the console. If instead you are writing an app.R which # will be invoked with runApp(), you can do it that way, or put the onStop() # before the shinyApp() call, as shown below. ## Not run: # ==== app.R ==== cat("Doing application setup\n") onStop(function() { cat("Doing application cleanup\n") }) shinyApp( ui = basicPage("onStop demo"), server = function(input, output, session) { onStop(function() cat("Session stopped\n")) } ) # ==== end app.R ==== # Similarly, if you have a global.R, you can call onStop() from there. # ==== global.R ==== cat("Doing application setup\n") onStop(function() { cat("Doing application cleanup\n") }) # ==== end global.R ==== ## End(Not run)
## Only run this example in interactive R sessions if (interactive()) { # Open this application in multiple browsers, then close the browsers. shinyApp( ui = basicPage("onStop demo"), server = function(input, output, session) { onStop(function() cat("Session stopped\n")) }, onStart = function() { cat("Doing application setup\n") onStop(function() { cat("Doing application cleanup\n") }) } ) } # In the example above, onStop() is called inside of onStart(). This is # the pattern that should be used when creating a shinyApp() object from # a function, or at the console. If instead you are writing an app.R which # will be invoked with runApp(), you can do it that way, or put the onStop() # before the shinyApp() call, as shown below. ## Not run: # ==== app.R ==== cat("Doing application setup\n") onStop(function() { cat("Doing application cleanup\n") }) shinyApp( ui = basicPage("onStop demo"), server = function(input, output, session) { onStop(function() cat("Session stopped\n")) } ) # ==== end app.R ==== # Similarly, if you have a global.R, you can call onStop() from there. # ==== global.R ==== cat("Doing application setup\n") onStop(function() { cat("Doing application cleanup\n") }) # ==== end global.R ==== ## End(Not run)
These are the available options for an output object:
suspendWhenHidden. When TRUE
(the default), the output object
will be suspended (not execute) when it is hidden on the web page. When
FALSE
, the output object will not suspend when hidden, and if it
was already hidden and suspended, then it will resume immediately.
priority. The priority level of the output object. Queued outputs with higher priority values will execute before those with lower values.
outputOptions(x, name, ...)
outputOptions(x, name, ...)
x |
A shinyoutput object (typically |
name |
The name of an output observer in the shinyoutput object. |
... |
Options to set for the output observer. |
## Not run: # Get the list of options for all observers within output outputOptions(output) # Disable suspend for output$myplot outputOptions(output, "myplot", suspendWhenHidden = FALSE) # Change priority for output$myplot outputOptions(output, "myplot", priority = 10) # Get the list of options for output$myplot outputOptions(output, "myplot") ## End(Not run)
## Not run: # Get the list of options for all observers within output outputOptions(output) # Disable suspend for output$myplot outputOptions(output, "myplot", suspendWhenHidden = FALSE) # Change priority for output$myplot outputOptions(output, "myplot", priority = 10) # Get the list of options for output$myplot outputOptions(output, "myplot") ## End(Not run)
Returns a named list of key-value pairs.
parseQueryString(str, nested = FALSE)
parseQueryString(str, nested = FALSE)
str |
The query string. It can have a leading |
nested |
Whether to parse the query string of as a nested list when it
contains pairs of square brackets |
parseQueryString("?foo=1&bar=b%20a%20r") ## Not run: # Example of usage within a Shiny app function(input, output, session) { output$queryText <- renderText({ query <- parseQueryString(session$clientData$url_search) # Ways of accessing the values if (as.numeric(query$foo) == 1) { # Do something } if (query[["bar"]] == "targetstring") { # Do something else } # Return a string with key-value pairs paste(names(query), query, sep = "=", collapse=", ") }) } ## End(Not run)
parseQueryString("?foo=1&bar=b%20a%20r") ## Not run: # Example of usage within a Shiny app function(input, output, session) { output$queryText <- renderText({ query <- parseQueryString(session$clientData$url_search) # Ways of accessing the values if (as.numeric(query$foo) == 1) { # Do something } if (query[["bar"]] == "targetstring") { # Do something else } # Return a string with key-value pairs paste(names(query), query, sep = "=", collapse=", ") }) } ## End(Not run)
Create an password control for entry of passwords.
passwordInput(inputId, label, value = "", width = NULL, placeholder = NULL)
passwordInput(inputId, label, value = "", width = NULL, placeholder = NULL)
inputId |
The |
label |
Display label for the control, or |
value |
Initial value. |
width |
The width of the input, e.g. |
placeholder |
A character string giving the user a hint as to what can be entered into the control. Internet Explorer 8 and 9 do not support this option. |
A text input control that can be added to a UI definition.
A character string of the password input. The default value is ""
unless value
is provided.
Other input elements:
actionButton()
,
checkboxGroupInput()
,
checkboxInput()
,
dateInput()
,
dateRangeInput()
,
fileInput()
,
numericInput()
,
radioButtons()
,
selectInput()
,
sliderInput()
,
submitButton()
,
textAreaInput()
,
textInput()
,
varSelectInput()
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( passwordInput("password", "Password:"), actionButton("go", "Go"), verbatimTextOutput("value") ) server <- function(input, output) { output$value <- renderText({ req(input$go) isolate(input$password) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( passwordInput("password", "Password:"), actionButton("go", "Go"), verbatimTextOutput("value") ) server <- function(input, output) { output$value <- renderText({ req(input$go) isolate(input$password) }) } shinyApp(ui, server) }
Render a renderPlot()
or renderImage()
within an
application page.
imageOutput( outputId, width = "100%", height = "400px", click = NULL, dblclick = NULL, hover = NULL, brush = NULL, inline = FALSE, fill = FALSE ) plotOutput( outputId, width = "100%", height = "400px", click = NULL, dblclick = NULL, hover = NULL, brush = NULL, inline = FALSE, fill = !inline )
imageOutput( outputId, width = "100%", height = "400px", click = NULL, dblclick = NULL, hover = NULL, brush = NULL, inline = FALSE, fill = FALSE ) plotOutput( outputId, width = "100%", height = "400px", click = NULL, dblclick = NULL, hover = NULL, brush = NULL, inline = FALSE, fill = !inline )
outputId |
output variable to read the plot/image from. |
width , height
|
Image width/height. Must be a valid CSS unit (like
|
click |
This can be |
dblclick |
This is just like the |
hover |
Similar to the |
brush |
Similar to the |
inline |
use an inline ( |
fill |
Whether or not the returned tag should be treated as a fill item,
meaning that its |
A plot or image output element that can be included in a panel.
Plots and images in Shiny support mouse-based interaction, via clicking,
double-clicking, hovering, and brushing. When these interaction events
occur, the mouse coordinates will be sent to the server as input$
variables, as specified by click
, dblclick
, hover
, or
brush
.
For plotOutput
, the coordinates will be sent scaled to the data
space, if possible. (At the moment, plots generated by base graphics and
ggplot2 support this scaling, although plots generated by lattice and
others do not.) If scaling is not possible, the raw pixel coordinates will
be sent. For imageOutput
, the coordinates will be sent in raw pixel
coordinates.
With ggplot2 graphics, the code in renderPlot
should return a ggplot
object; if instead the code prints the ggplot2 object with something like
print(p)
, then the coordinates for interactive graphics will not be
properly scaled to the data space.
The arguments clickId
and hoverId
only work for R base graphics
(see the graphics package). They do
not work for grid-based graphics, such as
ggplot2, lattice, and so on.
For the corresponding server-side functions, see renderPlot()
and
renderImage()
.
# Only run these examples in interactive R sessions if (interactive()) { # A basic shiny app with a plotOutput shinyApp( ui = fluidPage( sidebarLayout( sidebarPanel( actionButton("newplot", "New plot") ), mainPanel( plotOutput("plot") ) ) ), server = function(input, output) { output$plot <- renderPlot({ input$newplot # Add a little noise to the cars data cars2 <- cars + rnorm(nrow(cars)) plot(cars2) }) } ) # A demonstration of clicking, hovering, and brushing shinyApp( ui = basicPage( fluidRow( column(width = 4, plotOutput("plot", height=300, click = "plot_click", # Equiv, to click=clickOpts(id="plot_click") hover = hoverOpts(id = "plot_hover", delayType = "throttle"), brush = brushOpts(id = "plot_brush") ), h4("Clicked points"), tableOutput("plot_clickedpoints"), h4("Brushed points"), tableOutput("plot_brushedpoints") ), column(width = 4, verbatimTextOutput("plot_clickinfo"), verbatimTextOutput("plot_hoverinfo") ), column(width = 4, wellPanel(actionButton("newplot", "New plot")), verbatimTextOutput("plot_brushinfo") ) ) ), server = function(input, output, session) { data <- reactive({ input$newplot # Add a little noise to the cars data so the points move cars + rnorm(nrow(cars)) }) output$plot <- renderPlot({ d <- data() plot(d$speed, d$dist) }) output$plot_clickinfo <- renderPrint({ cat("Click:\n") str(input$plot_click) }) output$plot_hoverinfo <- renderPrint({ cat("Hover (throttled):\n") str(input$plot_hover) }) output$plot_brushinfo <- renderPrint({ cat("Brush (debounced):\n") str(input$plot_brush) }) output$plot_clickedpoints <- renderTable({ # For base graphics, we need to specify columns, though for ggplot2, # it's usually not necessary. res <- nearPoints(data(), input$plot_click, "speed", "dist") if (nrow(res) == 0) return() res }) output$plot_brushedpoints <- renderTable({ res <- brushedPoints(data(), input$plot_brush, "speed", "dist") if (nrow(res) == 0) return() res }) } ) # Demo of clicking, hovering, brushing with imageOutput # Note that coordinates are in pixels shinyApp( ui = basicPage( fluidRow( column(width = 4, imageOutput("image", height=300, click = "image_click", hover = hoverOpts( id = "image_hover", delay = 500, delayType = "throttle" ), brush = brushOpts(id = "image_brush") ) ), column(width = 4, verbatimTextOutput("image_clickinfo"), verbatimTextOutput("image_hoverinfo") ), column(width = 4, wellPanel(actionButton("newimage", "New image")), verbatimTextOutput("image_brushinfo") ) ) ), server = function(input, output, session) { output$image <- renderImage({ input$newimage # Get width and height of image output width <- session$clientData$output_image_width height <- session$clientData$output_image_height # Write to a temporary PNG file outfile <- tempfile(fileext = ".png") png(outfile, width=width, height=height) plot(rnorm(200), rnorm(200)) dev.off() # Return a list containing information about the image list( src = outfile, contentType = "image/png", width = width, height = height, alt = "This is alternate text" ) }) output$image_clickinfo <- renderPrint({ cat("Click:\n") str(input$image_click) }) output$image_hoverinfo <- renderPrint({ cat("Hover (throttled):\n") str(input$image_hover) }) output$image_brushinfo <- renderPrint({ cat("Brush (debounced):\n") str(input$image_brush) }) } ) }
# Only run these examples in interactive R sessions if (interactive()) { # A basic shiny app with a plotOutput shinyApp( ui = fluidPage( sidebarLayout( sidebarPanel( actionButton("newplot", "New plot") ), mainPanel( plotOutput("plot") ) ) ), server = function(input, output) { output$plot <- renderPlot({ input$newplot # Add a little noise to the cars data cars2 <- cars + rnorm(nrow(cars)) plot(cars2) }) } ) # A demonstration of clicking, hovering, and brushing shinyApp( ui = basicPage( fluidRow( column(width = 4, plotOutput("plot", height=300, click = "plot_click", # Equiv, to click=clickOpts(id="plot_click") hover = hoverOpts(id = "plot_hover", delayType = "throttle"), brush = brushOpts(id = "plot_brush") ), h4("Clicked points"), tableOutput("plot_clickedpoints"), h4("Brushed points"), tableOutput("plot_brushedpoints") ), column(width = 4, verbatimTextOutput("plot_clickinfo"), verbatimTextOutput("plot_hoverinfo") ), column(width = 4, wellPanel(actionButton("newplot", "New plot")), verbatimTextOutput("plot_brushinfo") ) ) ), server = function(input, output, session) { data <- reactive({ input$newplot # Add a little noise to the cars data so the points move cars + rnorm(nrow(cars)) }) output$plot <- renderPlot({ d <- data() plot(d$speed, d$dist) }) output$plot_clickinfo <- renderPrint({ cat("Click:\n") str(input$plot_click) }) output$plot_hoverinfo <- renderPrint({ cat("Hover (throttled):\n") str(input$plot_hover) }) output$plot_brushinfo <- renderPrint({ cat("Brush (debounced):\n") str(input$plot_brush) }) output$plot_clickedpoints <- renderTable({ # For base graphics, we need to specify columns, though for ggplot2, # it's usually not necessary. res <- nearPoints(data(), input$plot_click, "speed", "dist") if (nrow(res) == 0) return() res }) output$plot_brushedpoints <- renderTable({ res <- brushedPoints(data(), input$plot_brush, "speed", "dist") if (nrow(res) == 0) return() res }) } ) # Demo of clicking, hovering, brushing with imageOutput # Note that coordinates are in pixels shinyApp( ui = basicPage( fluidRow( column(width = 4, imageOutput("image", height=300, click = "image_click", hover = hoverOpts( id = "image_hover", delay = 500, delayType = "throttle" ), brush = brushOpts(id = "image_brush") ) ), column(width = 4, verbatimTextOutput("image_clickinfo"), verbatimTextOutput("image_hoverinfo") ), column(width = 4, wellPanel(actionButton("newimage", "New image")), verbatimTextOutput("image_brushinfo") ) ) ), server = function(input, output, session) { output$image <- renderImage({ input$newimage # Get width and height of image output width <- session$clientData$output_image_width height <- session$clientData$output_image_height # Write to a temporary PNG file outfile <- tempfile(fileext = ".png") png(outfile, width=width, height=height) plot(rnorm(200), rnorm(200)) dev.off() # Return a list containing information about the image list( src = outfile, contentType = "image/png", width = width, height = height, alt = "This is alternate text" ) }) output$image_clickinfo <- renderPrint({ cat("Click:\n") str(input$image_click) }) output$image_hoverinfo <- renderPrint({ cat("Hover (throttled):\n") str(input$image_hover) }) output$image_brushinfo <- renderPrint({ cat("Brush (debounced):\n") str(input$image_brush) }) } ) }
The PNG graphics device used is determined in the following order:
If the ragg package is installed (and the shiny.useragg
is not
set to FALSE
), then use ragg::agg_png()
.
If a quartz device is available (i.e., capabilities("aqua")
is
TRUE
), then use png(type = "quartz")
.
If the Cairo package is installed (and the shiny.usecairo
option
is not set to FALSE
), then use Cairo::CairoPNG()
.
Otherwise, use grDevices::png()
. In this case, Linux and Windows
may not antialias some point shapes, resulting in poor quality output.
plotPNG( func, filename = tempfile(fileext = ".png"), width = 400, height = 400, res = 72, ... )
plotPNG( func, filename = tempfile(fileext = ".png"), width = 400, height = 400, res = 72, ... )
func |
A function that generates a plot. |
filename |
The name of the output file. Defaults to a temp file with
extension |
width |
Width in pixels. |
height |
Height in pixels. |
res |
Resolution in pixels per inch. This value is passed to the graphics device. Note that this affects the resolution of PNG rendering in R; it won't change the actual ppi of the browser. |
... |
Arguments to be passed through to the graphics device. These can be used to set the width, height, background color, etc. |
A NULL
value provided to width
or height
is ignored (i.e., the
default width
or height
of the graphics device is used).
A path to the newly generated PNG file.
Reporting progress (object-oriented API)
Reporting progress (object-oriented API)
Reports progress to the user during long-running operations.
This package exposes two distinct programming APIs for working with
progress. withProgress()
and setProgress()
together provide a simple function-based interface, while the
Progress
reference class provides an object-oriented API.
Instantiating a Progress
object causes a progress panel to be
created, and it will be displayed the first time the set
method is called. Calling close
will cause the progress panel
to be removed.
As of version 0.14, the progress indicators use Shiny's new notification API.
If you want to use the old styling (for example, you may have used customized
CSS), you can use style="old"
each time you call
Progress$new()
. If you don't want to set the style each time
Progress$new
is called, you can instead call
shinyOptions(progress.style="old")
just once, inside the server
function.
new()
Creates a new progress panel (but does not display it).
Progress$new( session = getDefaultReactiveDomain(), min = 0, max = 1, style = getShinyOption("progress.style", default = "notification") )
session
The Shiny session object, as provided by shinyServer
to
the server function.
min
The value that represents the starting point of the progress
bar. Must be less than max
.
max
The value that represents the end of the progress bar. Must be
greater than min
.
style
Progress display style. If "notification"
(the default),
the progress indicator will show using Shiny's notification API. If
"old"
, use the same HTML and CSS used in Shiny 0.13.2 and below (this
is for backward-compatibility).
set()
Updates the progress panel. When called the first time, the progress panel is displayed.
Progress$set(value = NULL, message = NULL, detail = NULL)
value
Single-element numeric vector; the value at which to set the
progress bar, relative to min
and max
. NULL
hides the progress
bar, if it is currently visible.
message
A single-element character vector; the message to be
displayed to the user, or NULL
to hide the current message (if any).
detail
A single-element character vector; the detail message to be
displayed to the user, or NULL
to hide the current detail message (if
any). The detail message will be shown with a de-emphasized appearance
relative to message
.
inc()
Like set
, this updates the progress panel. The difference
is that inc
increases the progress bar by amount
, instead of
setting it to a specific value.
Progress$inc(amount = 0.1, message = NULL, detail = NULL)
amount
For the inc()
method, a numeric value to increment the
progress bar.
message
A single-element character vector; the message to be
displayed to the user, or NULL
to hide the current message (if any).
detail
A single-element character vector; the detail message to be
displayed to the user, or NULL
to hide the current detail message (if
any). The detail message will be shown with a de-emphasized appearance
relative to message
.
getMin()
Returns the minimum value.
Progress$getMin()
getMax()
Returns the maximum value.
Progress$getMax()
getValue()
Returns the current value.
Progress$getValue()
close()
Removes the progress panel. Future calls to set
and
close
will be ignored.
Progress$close()
clone()
The objects of this class are cloneable with this method.
Progress$clone(deep = FALSE)
deep
Whether to make a deep clone.
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( plotOutput("plot") ) server <- function(input, output, session) { output$plot <- renderPlot({ progress <- Progress$new(session, min=1, max=15) on.exit(progress$close()) progress$set(message = 'Calculation in progress', detail = 'This may take a while...') for (i in 1:15) { progress$set(value = i) Sys.sleep(0.5) } plot(cars) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( plotOutput("plot") ) server <- function(input, output, session) { output$plot <- renderPlot({ progress <- Progress$new(session, min=1, max=15) on.exit(progress$close()) progress$set(message = 'Calculation in progress', detail = 'This may take a while...') for (i in 1:15) { progress$set(value = i) Sys.sleep(0.5) } plot(cars) }) } shinyApp(ui, server) }
Create a set of radio buttons used to select an item from a list.
radioButtons( inputId, label, choices = NULL, selected = NULL, inline = FALSE, width = NULL, choiceNames = NULL, choiceValues = NULL )
radioButtons( inputId, label, choices = NULL, selected = NULL, inline = FALSE, width = NULL, choiceNames = NULL, choiceValues = NULL )
inputId |
The |
label |
Display label for the control, or |
choices |
List of values to select from (if elements of the list are
named then that name rather than the value is displayed to the user). If
this argument is provided, then |
selected |
The initially selected value. If not specified, then it
defaults to the first item in |
inline |
If |
width |
The width of the input, e.g. |
choiceNames , choiceValues
|
List of names and values, respectively, that
are displayed to the user in the app and correspond to the each choice (for
this reason, |
If you need to represent a "None selected" state, it's possible to default
the radio buttons to have no options selected by using selected = character(0)
. However, this is not recommended, as it gives the user no way
to return to that state once they've made a selection. Instead, consider
having the first of your choices be c("None selected" = "")
.
A set of radio buttons that can be added to a UI definition.
A character string containing the value of the selected button.
Other input elements:
actionButton()
,
checkboxGroupInput()
,
checkboxInput()
,
dateInput()
,
dateRangeInput()
,
fileInput()
,
numericInput()
,
passwordInput()
,
selectInput()
,
sliderInput()
,
submitButton()
,
textAreaInput()
,
textInput()
,
varSelectInput()
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( radioButtons("dist", "Distribution type:", c("Normal" = "norm", "Uniform" = "unif", "Log-normal" = "lnorm", "Exponential" = "exp")), plotOutput("distPlot") ) server <- function(input, output) { output$distPlot <- renderPlot({ dist <- switch(input$dist, norm = rnorm, unif = runif, lnorm = rlnorm, exp = rexp, rnorm) hist(dist(500)) }) } shinyApp(ui, server) ui <- fluidPage( radioButtons("rb", "Choose one:", choiceNames = list( icon("calendar"), HTML("<p style='color:red;'>Red Text</p>"), "Normal text" ), choiceValues = list( "icon", "html", "text" )), textOutput("txt") ) server <- function(input, output) { output$txt <- renderText({ paste("You chose", input$rb) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( radioButtons("dist", "Distribution type:", c("Normal" = "norm", "Uniform" = "unif", "Log-normal" = "lnorm", "Exponential" = "exp")), plotOutput("distPlot") ) server <- function(input, output) { output$distPlot <- renderPlot({ dist <- switch(input$dist, norm = rnorm, unif = runif, lnorm = rlnorm, exp = rexp, rnorm) hist(dist(500)) }) } shinyApp(ui, server) ui <- fluidPage( radioButtons("rb", "Choose one:", choiceNames = list( icon("calendar"), HTML("<p style='color:red;'>Red Text</p>"), "Normal text" ), choiceValues = list( "icon", "html", "text" )), textOutput("txt") ) server <- function(input, output) { output$txt <- renderText({ paste("You chose", input$rb) }) } shinyApp(ui, server) }
Wraps a normal expression to create a reactive expression. Conceptually, a reactive expression is a expression whose result will change over time.
reactive( x, env = parent.frame(), quoted = FALSE, ..., label = NULL, domain = getDefaultReactiveDomain(), ..stacktraceon = TRUE ) is.reactive(x)
reactive( x, env = parent.frame(), quoted = FALSE, ..., label = NULL, domain = getDefaultReactiveDomain(), ..stacktraceon = TRUE ) is.reactive(x)
x |
For |
env |
The parent environment for the reactive expression. By default,
this is the calling environment, the same as when defining an ordinary
non-reactive expression. If |
quoted |
If it is |
... |
Not used. |
label |
A label for the reactive expression, useful for debugging. |
domain |
See domains. |
..stacktraceon |
Advanced use only. For stack manipulation purposes; see
|
Reactive expressions are expressions that can read reactive values and call other reactive expressions. Whenever a reactive value changes, any reactive expressions that depended on it are marked as "invalidated" and will automatically re-execute if necessary. If a reactive expression is marked as invalidated, any other reactive expressions that recently called it are also marked as invalidated. In this way, invalidations ripple through the expressions that depend on each other.
See the Shiny tutorial for more information about reactive expressions.
a function, wrapped in a S3 class "reactive"
library(rlang) values <- reactiveValues(A=1) reactiveB <- reactive({ values$A + 1 }) # View the values from the R console with isolate() isolate(reactiveB()) # 2 # To store expressions for later conversion to reactive, use quote() myquo <- rlang::quo(values$A + 2) # Unexpected value! Sending a quosure directly will not work as expected. reactiveC <- reactive(myquo) # We'd hope for `3`, but instead we get the quosure that was supplied. isolate(reactiveC()) # Instead, the quosure should be `rlang::inject()`ed reactiveD <- rlang::inject(reactive(!!myquo)) isolate(reactiveD()) # 3 # (Legacy) Can use quoted expressions expr <- quote({ values$A + 3 }) reactiveE <- reactive(expr, quoted = TRUE) isolate(reactiveE()) # 4
library(rlang) values <- reactiveValues(A=1) reactiveB <- reactive({ values$A + 1 }) # View the values from the R console with isolate() isolate(reactiveB()) # 2 # To store expressions for later conversion to reactive, use quote() myquo <- rlang::quo(values$A + 2) # Unexpected value! Sending a quosure directly will not work as expected. reactiveC <- reactive(myquo) # We'd hope for `3`, but instead we get the quosure that was supplied. isolate(reactiveC()) # Instead, the quosure should be `rlang::inject()`ed reactiveD <- rlang::inject(reactive(!!myquo)) isolate(reactiveD()) # 3 # (Legacy) Can use quoted expressions expr <- quote({ values$A + 3 }) reactiveE <- reactive(expr, quoted = TRUE) isolate(reactiveE()) # 4
Given a file path and read function, returns a reactive data source for the contents of the file.
reactiveFileReader(intervalMillis, session, filePath, readFunc, ...)
reactiveFileReader(intervalMillis, session, filePath, readFunc, ...)
intervalMillis |
Approximate number of milliseconds to wait between checks of the file's last modified time. This can be a numeric value, or a function that returns a numeric value. |
session |
The user session to associate this file reader with, or
|
filePath |
The file path to poll against and to pass to |
readFunc |
The function to use to read the file; must expect the first argument to be the file path to read. The return value of this function is used as the value of the reactive file reader. |
... |
Any additional arguments to pass to |
reactiveFileReader
works by periodically checking the file's last
modified time; if it has changed, then the file is re-read and any reactive
dependents are invalidated.
The intervalMillis
, filePath
, and readFunc
functions
will each be executed in a reactive context; therefore, they may read
reactive values and reactive expressions.
A reactive expression that returns the contents of the file, and automatically invalidates when the file changes on disk (as determined by last modified time).
## Not run: # Per-session reactive file reader function(input, output, session) { fileData <- reactiveFileReader(1000, session, 'data.csv', read.csv) output$data <- renderTable({ fileData() }) } # Cross-session reactive file reader. In this example, all sessions share # the same reader, so read.csv only gets executed once no matter how many # user sessions are connected. fileData <- reactiveFileReader(1000, NULL, 'data.csv', read.csv) function(input, output, session) { output$data <- renderTable({ fileData() }) } ## End(Not run)
## Not run: # Per-session reactive file reader function(input, output, session) { fileData <- reactiveFileReader(1000, session, 'data.csv', read.csv) output$data <- renderTable({ fileData() }) } # Cross-session reactive file reader. In this example, all sessions share # the same reader, so read.csv only gets executed once no matter how many # user sessions are connected. fileData <- reactiveFileReader(1000, NULL, 'data.csv', read.csv) function(input, output, session) { output$data <- renderTable({ fileData() }) } ## End(Not run)
Used to create a reactive data source, which works by periodically polling a non-reactive data source.
reactivePoll(intervalMillis, session, checkFunc, valueFunc)
reactivePoll(intervalMillis, session, checkFunc, valueFunc)
intervalMillis |
Approximate number of milliseconds to wait between
calls to |
session |
The user session to associate this file reader with, or
|
checkFunc |
A relatively cheap function whose values over time will be
tested for equality; inequality indicates that the underlying value has
changed and needs to be invalidated and re-read using |
valueFunc |
A function that calculates the underlying value. See Details. |
reactivePoll
works by pairing a relatively cheap "check" function with
a more expensive value retrieval function. The check function will be
executed periodically and should always return a consistent value until the
data changes. When the check function returns a different value, then the
value retrieval function will be used to re-populate the data.
Note that the check function doesn't return TRUE
or FALSE
to
indicate whether the underlying data has changed. Rather, the check function
indicates change by returning a different value from the previous time it was
called.
For example, reactivePoll
is used to implement
reactiveFileReader
by pairing a check function that simply returns the
last modified timestamp of a file, and a value retrieval function that
actually reads the contents of the file.
As another example, one might read a relational database table reactively by
using a check function that does SELECT MAX(timestamp) FROM table
and
a value retrieval function that does SELECT * FROM table
.
The intervalMillis
, checkFunc
, and valueFunc
functions
will be executed in a reactive context; therefore, they may read reactive
values and reactive expressions.
A reactive expression that returns the result of valueFunc
,
and invalidates when checkFunc
changes.
function(input, output, session) { data <- reactivePoll(1000, session, # This function returns the time that log_file was last modified checkFunc = function() { if (file.exists(log_file)) file.info(log_file)$mtime[1] else "" }, # This function returns the content of log_file valueFunc = function() { read.csv(log_file) } ) output$dataTable <- renderTable({ data() }) }
function(input, output, session) { data <- reactivePoll(1000, session, # This function returns the time that log_file was last modified checkFunc = function() { if (file.exists(log_file)) file.info(log_file)$mtime[1] else "" }, # This function returns the content of log_file valueFunc = function() { read.csv(log_file) } ) output$dataTable <- renderTable({ data() }) }
Creates a reactive timer with the given interval. A reactive timer is like a reactive value, except reactive values are triggered when they are set, while reactive timers are triggered simply by the passage of time.
reactiveTimer(intervalMs = 1000, session = getDefaultReactiveDomain())
reactiveTimer(intervalMs = 1000, session = getDefaultReactiveDomain())
intervalMs |
How often to fire, in milliseconds |
session |
A session object. This is needed to cancel any scheduled
invalidations after a user has ended the session. If |
Reactive expressions and observers that want to be
invalidated by the timer need to call the timer function that
reactiveTimer
returns, even if the current time value is not actually
needed.
See invalidateLater()
as a safer and simpler alternative.
A no-parameter function that can be called from a reactive context,
in order to cause that context to be invalidated the next time the timer
interval elapses. Calling the returned function also happens to yield the
current time (as in base::Sys.time()
).
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("n", "Number of observations", 2, 1000, 500), plotOutput("plot") ) server <- function(input, output) { # Anything that calls autoInvalidate will automatically invalidate # every 2 seconds. autoInvalidate <- reactiveTimer(2000) observe({ # Invalidate and re-execute this reactive expression every time the # timer fires. autoInvalidate() # Do something each time this is invalidated. # The isolate() makes this observer _not_ get invalidated and re-executed # when input$n changes. print(paste("The value of input$n is", isolate(input$n))) }) # Generate a new histogram each time the timer fires, but not when # input$n changes. output$plot <- renderPlot({ autoInvalidate() hist(rnorm(isolate(input$n))) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("n", "Number of observations", 2, 1000, 500), plotOutput("plot") ) server <- function(input, output) { # Anything that calls autoInvalidate will automatically invalidate # every 2 seconds. autoInvalidate <- reactiveTimer(2000) observe({ # Invalidate and re-execute this reactive expression every time the # timer fires. autoInvalidate() # Do something each time this is invalidated. # The isolate() makes this observer _not_ get invalidated and re-executed # when input$n changes. print(paste("The value of input$n is", isolate(input$n))) }) # Generate a new histogram each time the timer fires, but not when # input$n changes. output$plot <- renderPlot({ autoInvalidate() hist(rnorm(isolate(input$n))) }) } shinyApp(ui, server) }
The reactiveVal
function is used to construct a "reactive value"
object. This is an object used for reading and writing a value, like a
variable, but with special capabilities for reactive programming. When you
read the value out of a reactiveVal object, the calling reactive expression
takes a dependency, and when you change the value, it notifies any reactives
that previously depended on that value.
reactiveVal(value = NULL, label = NULL)
reactiveVal(value = NULL, label = NULL)
value |
An optional initial value. |
label |
An optional label, for debugging purposes (see
|
reactiveVal
is very similar to reactiveValues()
, except
that the former is for a single reactive value (like a variable), whereas the
latter lets you conveniently use multiple reactive values by name (like a
named list of variables). For a one-off reactive value, it's more natural to
use reactiveVal
. See the Examples section for an illustration.
A function. Call the function with no arguments to (reactively) read the value; call the function with a single argument to set the value.
## Not run: # Create the object by calling reactiveVal r <- reactiveVal() # Set the value by calling with an argument r(10) # Read the value by calling without arguments r() ## End(Not run) ## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( actionButton("minus", "-1"), actionButton("plus", "+1"), br(), textOutput("value") ) # The comments below show the equivalent logic using reactiveValues() server <- function(input, output, session) { value <- reactiveVal(0) # rv <- reactiveValues(value = 0) observeEvent(input$minus, { newValue <- value() - 1 # newValue <- rv$value - 1 value(newValue) # rv$value <- newValue }) observeEvent(input$plus, { newValue <- value() + 1 # newValue <- rv$value + 1 value(newValue) # rv$value <- newValue }) output$value <- renderText({ value() # rv$value }) } shinyApp(ui, server) }
## Not run: # Create the object by calling reactiveVal r <- reactiveVal() # Set the value by calling with an argument r(10) # Read the value by calling without arguments r() ## End(Not run) ## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( actionButton("minus", "-1"), actionButton("plus", "+1"), br(), textOutput("value") ) # The comments below show the equivalent logic using reactiveValues() server <- function(input, output, session) { value <- reactiveVal(0) # rv <- reactiveValues(value = 0) observeEvent(input$minus, { newValue <- value() - 1 # newValue <- rv$value - 1 value(newValue) # rv$value <- newValue }) observeEvent(input$plus, { newValue <- value() + 1 # newValue <- rv$value + 1 value(newValue) # rv$value <- newValue }) output$value <- renderText({ value() # rv$value }) } shinyApp(ui, server) }
This function returns an object for storing reactive values. It is similar to a list, but with special capabilities for reactive programming. When you read a value from it, the calling reactive expression takes a reactive dependency on that value, and when you write to it, it notifies any reactive functions that depend on that value. Note that values taken from the reactiveValues object are reactive, but the reactiveValues object itself is not.
reactiveValues(...)
reactiveValues(...)
... |
Objects that will be added to the reactivevalues object. All of these objects must be named. |
isolate()
and is.reactivevalues()
.
# Create the object with no values values <- reactiveValues() # Assign values to 'a' and 'b' values$a <- 3 values[['b']] <- 4 ## Not run: # From within a reactive context, you can access values with: values$a values[['a']] ## End(Not run) # If not in a reactive context (e.g., at the console), you can use isolate() # to retrieve the value: isolate(values$a) isolate(values[['a']]) # Set values upon creation values <- reactiveValues(a = 1, b = 2) isolate(values$a)
# Create the object with no values values <- reactiveValues() # Assign values to 'a' and 'b' values$a <- 3 values[['b']] <- 4 ## Not run: # From within a reactive context, you can access values with: values$a values[['a']] ## End(Not run) # If not in a reactive context (e.g., at the console), you can use isolate() # to retrieve the value: isolate(values$a) isolate(values[['a']]) # Set values upon creation values <- reactiveValues(a = 1, b = 2) isolate(values$a)
This function does something similar to what you might want or expect
base::as.list()
to do. The difference is that the calling context will take
dependencies on every object in the reactivevalue
s object. To avoid taking
dependencies on all the objects, you can wrap the call with isolate()
.
reactiveValuesToList(x, all.names = FALSE)
reactiveValuesToList(x, all.names = FALSE)
x |
A |
all.names |
If |
values <- reactiveValues(a = 1) ## Not run: reactiveValuesToList(values) ## End(Not run) # To get the objects without taking dependencies on them, use isolate(). # isolate() can also be used when calling from outside a reactive context (e.g. # at the console) isolate(reactiveValuesToList(values))
values <- reactiveValues(a = 1) ## Not run: reactiveValuesToList(values) ## End(Not run) # To get the objects without taking dependencies on them, use isolate(). # isolate() can also be used when calling from outside a reactive context (e.g. # at the console) isolate(reactiveValuesToList(values))
Provides an interactive browser-based tool for visualizing reactive dependencies and execution in your application.
reactlog() reactlogShow(time = TRUE) reactlogReset() reactlogAddMark(session = getDefaultReactiveDomain())
reactlog() reactlogShow(time = TRUE) reactlogReset() reactlogAddMark(session = getDefaultReactiveDomain())
time |
A boolean that specifies whether or not to display the time that each reactive takes to calculate a result. |
session |
The Shiny session to assign the mark to. Defaults to the current session. |
To use the reactive log visualizer, start with a fresh R session and
run the command reactlog::reactlog_enable()
; then launch your
application in the usual way (e.g. using runApp()
). At
any time you can hit Ctrl+F3 (or for Mac users, Command+F3) in your
web browser to launch the reactive log visualization.
The reactive log visualization only includes reactive activity up until the time the report was loaded. If you want to see more recent activity, refresh the browser.
Note that Shiny does not distinguish between reactive dependencies that "belong" to one Shiny user session versus another, so the visualization will include all reactive activity that has taken place in the process, not just for a particular application or session.
As an alternative to pressing Ctrl/Command+F3–for example, if you
are using reactives outside of the context of a Shiny
application–you can run the reactlogShow
function, which will
generate the reactive log visualization as a static HTML file and
launch it in your default browser. In this case, refreshing your
browser will not load new activity into the report; you will need to
call reactlogShow()
explicitly.
For security and performance reasons, do not enable
options(shiny.reactlog=TRUE)
(or reactlog::reactlog_enable()
) in
production environments. When the option is enabled, it's possible
for any user of your app to see at least some of the source code of
your reactive expressions and observers. In addition, reactlog
should be considered a memory leak as it will constantly grow and
will never reset until the R session is restarted.
reactlog()
: Return a list of reactive information. Can be used in
conjunction with reactlog::reactlog_show to later display the reactlog
graph.
reactlogShow()
: Display a full reactlog graph for all sessions.
reactlogReset()
: Resets the entire reactlog stack. Useful for debugging
and removing all prior reactive history.
reactlogAddMark()
: Adds "mark" entry into the reactlog stack. This is
useful for programmatically adding a marked entry in the reactlog, rather
than using your keyboard's key combination.
For example, we can mark the reactlog at the beginning of an
observeEvent
's calculation:
observeEvent(input$my_event_trigger, { # Add a mark in the reactlog reactlogAddMark() # Run your regular event reaction code here... .... })
Adds an input handler for data of this type. When called, Shiny will use the
function provided to refine the data passed back from the client (after being
deserialized by jsonlite) before making it available in the input
variable
of the server.R
file.
registerInputHandler(type, fun, force = FALSE)
registerInputHandler(type, fun, force = FALSE)
type |
The type for which the handler should be added — should be a single-element character vector. |
fun |
The handler function. This is the function that will be used to
parse the data delivered from the client before it is available in the
|
force |
If |
This function will register the handler for the duration of the R process
(unless Shiny is explicitly reloaded). For that reason, the type
used
should be very specific to this package to minimize the risk of colliding
with another Shiny package which might use this data type name. We recommend
the format of "packageName.widgetName". It should be called from the
package's .onLoad()
function.
Currently Shiny registers the following handlers: shiny.matrix
,
shiny.number
, and shiny.date
.
The type
of a custom Shiny Input widget will be deduced using the
getType()
JavaScript function on the registered Shiny inputBinding.
removeInputHandler()
applyInputHandlers()
## Not run: # Register an input handler which rounds a input number to the nearest integer # In a package, this should be called from the .onLoad function. registerInputHandler("mypackage.validint", function(x, shinysession, name) { if (is.null(x)) return(NA) round(x) }) ## On the Javascript side, the associated input binding must have a corresponding getType method: # getType: function(el) { # return "mypackage.validint"; # } ## End(Not run)
## Not run: # Register an input handler which rounds a input number to the nearest integer # In a package, this should be called from the .onLoad function. registerInputHandler("mypackage.validint", function(x, shinysession, name) { if (is.null(x)) return(NA) round(x) }) ## On the Javascript side, the associated input binding must have a corresponding getType method: # getType: function(el) { # return "mypackage.validint"; # } ## End(Not run)
Removes an Input Handler. Rather than using the previously specified handler for data of this type, the default jsonlite serialization will be used.
removeInputHandler(type)
removeInputHandler(type)
type |
The type for which handlers should be removed. |
The handler previously associated with this type
, if one
existed. Otherwise, NULL
.
Renders a reactive plot, with plot images cached to disk. As of Shiny 1.6.0,
this is a shortcut for using bindCache()
with renderPlot()
.
renderCachedPlot( expr, cacheKeyExpr, sizePolicy = sizeGrowthRatio(width = 400, height = 400, growthRate = 1.2), res = 72, cache = "app", ..., alt = "Plot object", outputArgs = list(), width = NULL, height = NULL )
renderCachedPlot( expr, cacheKeyExpr, sizePolicy = sizeGrowthRatio(width = 400, height = 400, growthRate = 1.2), res = 72, cache = "app", ..., alt = "Plot object", outputArgs = list(), width = NULL, height = NULL )
expr |
An expression that generates a plot. |
cacheKeyExpr |
An expression that returns a cache key. This key should be a unique identifier for a plot: the assumption is that if the cache key is the same, then the plot will be the same. |
sizePolicy |
A function that takes two arguments, |
res |
The resolution of the PNG, in pixels per inch. |
cache |
The scope of the cache, or a cache object. This can be |
... |
Arguments to be passed through to |
alt |
Alternate text for the HTML |
outputArgs |
A list of arguments to be passed through to the implicit
call to |
width , height
|
not used. They are specified via the argument
|
expr
is an expression that generates a plot, similar to that in
renderPlot
. Unlike with renderPlot
, this expression does not
take reactive dependencies. It is re-executed only when the cache key
changes.
cacheKeyExpr
is an expression which, when evaluated, returns an object
which will be serialized and hashed using the rlang::hash()
function to generate a string that will be used as a cache key. This key is
used to identify the contents of the plot: if the cache key is the same as a
previous time, it assumes that the plot is the same and can be retrieved from
the cache.
This cacheKeyExpr
is reactive, and so it will be re-evaluated when any
upstream reactives are invalidated. This will also trigger re-execution of
the plotting expression, expr
.
The key should consist of "normal" R objects, like vectors and lists. Lists should in turn contain other normal R objects. If the key contains environments, external pointers, or reference objects — or even if it has such objects attached as attributes — then it is possible that it will change unpredictably even when you do not expect it to. Additionally, because the entire key is serialized and hashed, if it contains a very large object — a large data set, for example — there may be a noticeable performance penalty.
If you face these issues with the cache key, you can work around them by
extracting out the important parts of the objects, and/or by converting them
to normal R objects before returning them. Your expression could even
serialize and hash that information in an efficient way and return a string,
which will in turn be hashed (very quickly) by the
rlang::hash()
function.
Internally, the result from cacheKeyExpr
is combined with the name of
the output (if you assign it to output$plot1
, it will be combined
with "plot1"
) to form the actual key that is used. As a result, even
if there are multiple plots that have the same cacheKeyExpr
, they
will not have cache key collisions.
renderCachedPlot
can be used to create interactive plots. See
plotOutput()
for more information and examples.
See renderPlot()
for the regular, non-cached version of this
function. It can be used with bindCache()
to get the same effect as
renderCachedPlot()
. For more about configuring caches, see
cachem::cache_mem()
and cachem::cache_disk()
.
## Only run examples in interactive R sessions if (interactive()) { # A basic example that uses the default app-scoped memory cache. # The cache will be shared among all simultaneous users of the application. shinyApp( fluidPage( sidebarLayout( sidebarPanel( sliderInput("n", "Number of points", 4, 32, value = 8, step = 4) ), mainPanel(plotOutput("plot")) ) ), function(input, output, session) { output$plot <- renderCachedPlot({ Sys.sleep(2) # Add an artificial delay seqn <- seq_len(input$n) plot(mtcars$wt[seqn], mtcars$mpg[seqn], xlim = range(mtcars$wt), ylim = range(mtcars$mpg)) }, cacheKeyExpr = { list(input$n) } ) } ) # An example uses a data object shared across sessions. mydata() is part of # the cache key, so when its value changes, plots that were previously # stored in the cache will no longer be used (unless mydata() changes back # to its previous value). mydata <- reactiveVal(data.frame(x = rnorm(400), y = rnorm(400))) ui <- fluidPage( sidebarLayout( sidebarPanel( sliderInput("n", "Number of points", 50, 400, 100, step = 50), actionButton("newdata", "New data") ), mainPanel( plotOutput("plot") ) ) ) server <- function(input, output, session) { observeEvent(input$newdata, { mydata(data.frame(x = rnorm(400), y = rnorm(400))) }) output$plot <- renderCachedPlot( { Sys.sleep(2) d <- mydata() seqn <- seq_len(input$n) plot(d$x[seqn], d$y[seqn], xlim = range(d$x), ylim = range(d$y)) }, cacheKeyExpr = { list(input$n, mydata()) }, ) } shinyApp(ui, server) # A basic application with two plots, where each plot in each session has # a separate cache. shinyApp( fluidPage( sidebarLayout( sidebarPanel( sliderInput("n", "Number of points", 4, 32, value = 8, step = 4) ), mainPanel( plotOutput("plot1"), plotOutput("plot2") ) ) ), function(input, output, session) { output$plot1 <- renderCachedPlot({ Sys.sleep(2) # Add an artificial delay seqn <- seq_len(input$n) plot(mtcars$wt[seqn], mtcars$mpg[seqn], xlim = range(mtcars$wt), ylim = range(mtcars$mpg)) }, cacheKeyExpr = { list(input$n) }, cache = cachem::cache_mem() ) output$plot2 <- renderCachedPlot({ Sys.sleep(2) # Add an artificial delay seqn <- seq_len(input$n) plot(mtcars$wt[seqn], mtcars$mpg[seqn], xlim = range(mtcars$wt), ylim = range(mtcars$mpg)) }, cacheKeyExpr = { list(input$n) }, cache = cachem::cache_mem() ) } ) } ## Not run: # At the top of app.R, this set the application-scoped cache to be a memory # cache that is 20 MB in size, and where cached objects expire after one # hour. shinyOptions(cache = cachem::cache_mem(max_size = 20e6, max_age = 3600)) # At the top of app.R, this set the application-scoped cache to be a disk # cache that can be shared among multiple concurrent R processes, and is # deleted when the system reboots. shinyOptions(cache = cachem::cache_disk(file.path(dirname(tempdir()), "myapp-cache"))) # At the top of app.R, this set the application-scoped cache to be a disk # cache that can be shared among multiple concurrent R processes, and # persists on disk across reboots. shinyOptions(cache = cachem::cache_disk("./myapp-cache")) # At the top of the server function, this set the session-scoped cache to be # a memory cache that is 5 MB in size. server <- function(input, output, session) { shinyOptions(cache = cachem::cache_mem(max_size = 5e6)) output$plot <- renderCachedPlot( ..., cache = "session" ) } ## End(Not run)
## Only run examples in interactive R sessions if (interactive()) { # A basic example that uses the default app-scoped memory cache. # The cache will be shared among all simultaneous users of the application. shinyApp( fluidPage( sidebarLayout( sidebarPanel( sliderInput("n", "Number of points", 4, 32, value = 8, step = 4) ), mainPanel(plotOutput("plot")) ) ), function(input, output, session) { output$plot <- renderCachedPlot({ Sys.sleep(2) # Add an artificial delay seqn <- seq_len(input$n) plot(mtcars$wt[seqn], mtcars$mpg[seqn], xlim = range(mtcars$wt), ylim = range(mtcars$mpg)) }, cacheKeyExpr = { list(input$n) } ) } ) # An example uses a data object shared across sessions. mydata() is part of # the cache key, so when its value changes, plots that were previously # stored in the cache will no longer be used (unless mydata() changes back # to its previous value). mydata <- reactiveVal(data.frame(x = rnorm(400), y = rnorm(400))) ui <- fluidPage( sidebarLayout( sidebarPanel( sliderInput("n", "Number of points", 50, 400, 100, step = 50), actionButton("newdata", "New data") ), mainPanel( plotOutput("plot") ) ) ) server <- function(input, output, session) { observeEvent(input$newdata, { mydata(data.frame(x = rnorm(400), y = rnorm(400))) }) output$plot <- renderCachedPlot( { Sys.sleep(2) d <- mydata() seqn <- seq_len(input$n) plot(d$x[seqn], d$y[seqn], xlim = range(d$x), ylim = range(d$y)) }, cacheKeyExpr = { list(input$n, mydata()) }, ) } shinyApp(ui, server) # A basic application with two plots, where each plot in each session has # a separate cache. shinyApp( fluidPage( sidebarLayout( sidebarPanel( sliderInput("n", "Number of points", 4, 32, value = 8, step = 4) ), mainPanel( plotOutput("plot1"), plotOutput("plot2") ) ) ), function(input, output, session) { output$plot1 <- renderCachedPlot({ Sys.sleep(2) # Add an artificial delay seqn <- seq_len(input$n) plot(mtcars$wt[seqn], mtcars$mpg[seqn], xlim = range(mtcars$wt), ylim = range(mtcars$mpg)) }, cacheKeyExpr = { list(input$n) }, cache = cachem::cache_mem() ) output$plot2 <- renderCachedPlot({ Sys.sleep(2) # Add an artificial delay seqn <- seq_len(input$n) plot(mtcars$wt[seqn], mtcars$mpg[seqn], xlim = range(mtcars$wt), ylim = range(mtcars$mpg)) }, cacheKeyExpr = { list(input$n) }, cache = cachem::cache_mem() ) } ) } ## Not run: # At the top of app.R, this set the application-scoped cache to be a memory # cache that is 20 MB in size, and where cached objects expire after one # hour. shinyOptions(cache = cachem::cache_mem(max_size = 20e6, max_age = 3600)) # At the top of app.R, this set the application-scoped cache to be a disk # cache that can be shared among multiple concurrent R processes, and is # deleted when the system reboots. shinyOptions(cache = cachem::cache_disk(file.path(dirname(tempdir()), "myapp-cache"))) # At the top of app.R, this set the application-scoped cache to be a disk # cache that can be shared among multiple concurrent R processes, and # persists on disk across reboots. shinyOptions(cache = cachem::cache_disk("./myapp-cache")) # At the top of the server function, this set the session-scoped cache to be # a memory cache that is 5 MB in size. server <- function(input, output, session) { shinyOptions(cache = cachem::cache_mem(max_size = 5e6)) output$plot <- renderCachedPlot( ..., cache = "session" ) } ## End(Not run)
Renders a reactive image that is suitable for assigning to an output
slot.
renderImage( expr, env = parent.frame(), quoted = FALSE, deleteFile, outputArgs = list() )
renderImage( expr, env = parent.frame(), quoted = FALSE, deleteFile, outputArgs = list() )
expr |
An expression that returns a list. |
env |
The parent environment for the reactive expression. By default,
this is the calling environment, the same as when defining an ordinary
non-reactive expression. If |
quoted |
If it is |
deleteFile |
Should the file in |
outputArgs |
A list of arguments to be passed through to the implicit
call to |
The expression expr
must return a list containing the attributes for
the img
object on the client web page. For the image to display,
properly, the list must have at least one entry, src
, which is the
path to the image file. It may also useful to have a contentType
entry specifying the MIME type of the image. If one is not provided,
renderImage
will try to autodetect the type, based on the file
extension.
Other elements such as width
, height
, class
, and
alt
, can also be added to the list, and they will be used as
attributes in the img
object.
The corresponding HTML output tag should be div
or img
and have
the CSS class name shiny-image-output
.
For more details on how the images are generated, and how to control
the output, see plotPNG()
.
## Only run examples in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) ui <- fluidPage( sliderInput("n", "Number of observations", 2, 1000, 500), plotOutput("plot1"), plotOutput("plot2"), plotOutput("plot3") ) server <- function(input, output, session) { # A plot of fixed size output$plot1 <- renderImage({ # A temp file to save the output. It will be deleted after renderImage # sends it, because deleteFile=TRUE. outfile <- tempfile(fileext='.png') # Generate a png png(outfile, width=400, height=400) hist(rnorm(input$n)) dev.off() # Return a list list(src = outfile, alt = "This is alternate text") }, deleteFile = TRUE) # A dynamically-sized plot output$plot2 <- renderImage({ # Read plot2's width and height. These are reactive values, so this # expression will re-run whenever these values change. width <- session$clientData$output_plot2_width height <- session$clientData$output_plot2_height # A temp file to save the output. outfile <- tempfile(fileext='.png') png(outfile, width=width, height=height) hist(rnorm(input$n)) dev.off() # Return a list containing the filename list(src = outfile, width = width, height = height, alt = "This is alternate text") }, deleteFile = TRUE) # Send a pre-rendered image, and don't delete the image after sending it # NOTE: For this example to work, it would require files in a subdirectory # named images/ output$plot3 <- renderImage({ # When input$n is 1, filename is ./images/image1.jpeg filename <- normalizePath(file.path('./images', paste('image', input$n, '.jpeg', sep=''))) # Return a list containing the filename list(src = filename) }, deleteFile = FALSE) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) ui <- fluidPage( sliderInput("n", "Number of observations", 2, 1000, 500), plotOutput("plot1"), plotOutput("plot2"), plotOutput("plot3") ) server <- function(input, output, session) { # A plot of fixed size output$plot1 <- renderImage({ # A temp file to save the output. It will be deleted after renderImage # sends it, because deleteFile=TRUE. outfile <- tempfile(fileext='.png') # Generate a png png(outfile, width=400, height=400) hist(rnorm(input$n)) dev.off() # Return a list list(src = outfile, alt = "This is alternate text") }, deleteFile = TRUE) # A dynamically-sized plot output$plot2 <- renderImage({ # Read plot2's width and height. These are reactive values, so this # expression will re-run whenever these values change. width <- session$clientData$output_plot2_width height <- session$clientData$output_plot2_height # A temp file to save the output. outfile <- tempfile(fileext='.png') png(outfile, width=width, height=height) hist(rnorm(input$n)) dev.off() # Return a list containing the filename list(src = outfile, width = width, height = height, alt = "This is alternate text") }, deleteFile = TRUE) # Send a pre-rendered image, and don't delete the image after sending it # NOTE: For this example to work, it would require files in a subdirectory # named images/ output$plot3 <- renderImage({ # When input$n is 1, filename is ./images/image1.jpeg filename <- normalizePath(file.path('./images', paste('image', input$n, '.jpeg', sep=''))) # Return a list containing the filename list(src = filename) }, deleteFile = FALSE) } shinyApp(ui, server) }
Renders a reactive plot that is suitable for assigning to an output
slot.
renderPlot( expr, width = "auto", height = "auto", res = 72, ..., alt = NA, env = parent.frame(), quoted = FALSE, execOnResize = FALSE, outputArgs = list() )
renderPlot( expr, width = "auto", height = "auto", res = 72, ..., alt = NA, env = parent.frame(), quoted = FALSE, execOnResize = FALSE, outputArgs = list() )
expr |
An expression that generates a plot. |
width , height
|
Height and width can be specified in three ways:
When rendering an inline plot, you must provide numeric values (in pixels)
to both |
res |
Resolution of resulting plot, in pixels per inch. This value is
passed to |
... |
Arguments to be passed through to |
alt |
Alternate text for the HTML |
env |
The parent environment for the reactive expression. By default,
this is the calling environment, the same as when defining an ordinary
non-reactive expression. If |
quoted |
If it is |
execOnResize |
If |
outputArgs |
A list of arguments to be passed through to the implicit
call to |
The corresponding HTML output tag should be div
or img
and have
the CSS class name shiny-plot-output
.
With ggplot2 graphics, the code in renderPlot
should return a ggplot
object; if instead the code prints the ggplot2 object with something like
print(p)
, then the coordinates for interactive graphics will not be
properly scaled to the data space.
See plotOutput()
for more information about interactive plots.
For the corresponding client-side output function, and example
usage, see plotOutput()
. For more details on how the plots are
generated, and how to control the output, see plotPNG()
.
renderCachedPlot()
offers a way to cache generated plots to
expedite the rendering of identical plots.
renderPrint()
prints the result of expr
, while renderText()
pastes it
together into a single string. renderPrint()
is equivalent to print()
;
renderText()
is equivalent to cat()
. Both functions capture all other
printed output generated while evaluating expr
.
renderPrint()
is usually paired with verbatimTextOutput()
;
renderText()
is usually paired with textOutput()
.
renderPrint( expr, env = parent.frame(), quoted = FALSE, width = getOption("width"), outputArgs = list() ) renderText( expr, env = parent.frame(), quoted = FALSE, outputArgs = list(), sep = " " )
renderPrint( expr, env = parent.frame(), quoted = FALSE, width = getOption("width"), outputArgs = list() ) renderText( expr, env = parent.frame(), quoted = FALSE, outputArgs = list(), sep = " " )
expr |
An expression to evaluate. |
env |
The parent environment for the reactive expression. By default,
this is the calling environment, the same as when defining an ordinary
non-reactive expression. If |
quoted |
If it is |
width |
Width of printed output. |
outputArgs |
A list of arguments to be passed through to the implicit
call to |
sep |
A separator passed to |
The corresponding HTML output tag can be anything (though pre
is
recommended if you need a monospace font and whitespace preserved) and should
have the CSS class name shiny-text-output
.
For renderPrint()
, note the given expression returns NULL
then NULL
will actually be visible in the output. To display nothing, make your
function return invisible()
.
isolate({ # renderPrint captures any print output, converts it to a string, and # returns it visFun <- renderPrint({ "foo" }) visFun() # '[1] "foo"' invisFun <- renderPrint({ invisible("foo") }) invisFun() # '' multiprintFun <- renderPrint({ print("foo"); "bar" }) multiprintFun() # '[1] "foo"\n[1] "bar"' nullFun <- renderPrint({ NULL }) nullFun() # 'NULL' invisNullFun <- renderPrint({ invisible(NULL) }) invisNullFun() # '' vecFun <- renderPrint({ 1:5 }) vecFun() # '[1] 1 2 3 4 5' # Contrast with renderText, which takes the value returned from the function # and uses cat() to convert it to a string visFun <- renderText({ "foo" }) visFun() # 'foo' invisFun <- renderText({ invisible("foo") }) invisFun() # 'foo' multiprintFun <- renderText({ print("foo"); "bar" }) multiprintFun() # 'bar' nullFun <- renderText({ NULL }) nullFun() # '' invisNullFun <- renderText({ invisible(NULL) }) invisNullFun() # '' vecFun <- renderText({ 1:5 }) vecFun() # '1 2 3 4 5' })
isolate({ # renderPrint captures any print output, converts it to a string, and # returns it visFun <- renderPrint({ "foo" }) visFun() # '[1] "foo"' invisFun <- renderPrint({ invisible("foo") }) invisFun() # '' multiprintFun <- renderPrint({ print("foo"); "bar" }) multiprintFun() # '[1] "foo"\n[1] "bar"' nullFun <- renderPrint({ NULL }) nullFun() # 'NULL' invisNullFun <- renderPrint({ invisible(NULL) }) invisNullFun() # '' vecFun <- renderPrint({ 1:5 }) vecFun() # '[1] 1 2 3 4 5' # Contrast with renderText, which takes the value returned from the function # and uses cat() to convert it to a string visFun <- renderText({ "foo" }) visFun() # 'foo' invisFun <- renderText({ invisible("foo") }) invisFun() # 'foo' multiprintFun <- renderText({ print("foo"); "bar" }) multiprintFun() # 'bar' nullFun <- renderText({ NULL }) nullFun() # '' invisNullFun <- renderText({ invisible(NULL) }) invisNullFun() # '' vecFun <- renderText({ 1:5 }) vecFun() # '1 2 3 4 5' })
Renders reactive HTML using the Shiny UI library.
renderUI(expr, env = parent.frame(), quoted = FALSE, outputArgs = list())
renderUI(expr, env = parent.frame(), quoted = FALSE, outputArgs = list())
expr |
An expression that returns a Shiny tag object, |
env |
The parent environment for the reactive expression. By default,
this is the calling environment, the same as when defining an ordinary
non-reactive expression. If |
quoted |
If it is |
outputArgs |
A list of arguments to be passed through to the implicit
call to |
The corresponding HTML output tag should be div
and have the CSS class
name shiny-html-output
(or use uiOutput()
).
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( uiOutput("moreControls") ) server <- function(input, output) { output$moreControls <- renderUI({ tagList( sliderInput("n", "N", 1, 1000, 500), textInput("label", "Label") ) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( uiOutput("moreControls") ) server <- function(input, output) { output$moreControls <- renderUI({ tagList( sliderInput("n", "N", 1, 1000, 500), textInput("label", "Label") ) }) } shinyApp(ui, server) }
Given a function that generates random data, returns a wrapped version of that function that always uses the same seed when called. The seed to use can be passed in explicitly if desired; otherwise, a random number is used.
repeatable(rngfunc, seed = stats::runif(1, 0, .Machine$integer.max))
repeatable(rngfunc, seed = stats::runif(1, 0, .Machine$integer.max))
rngfunc |
The function that is affected by the R session's seed. |
seed |
The seed to set every time the resulting function is called. |
A repeatable version of the function that was passed in.
When called, the returned function attempts to preserve the R session's
current seed by snapshotting and restoring
base::.Random.seed()
.
rnormA <- repeatable(rnorm) rnormB <- repeatable(rnorm) rnormA(3) # [1] 1.8285879 -0.7468041 -0.4639111 rnormA(3) # [1] 1.8285879 -0.7468041 -0.4639111 rnormA(5) # [1] 1.8285879 -0.7468041 -0.4639111 -1.6510126 -1.4686924 rnormB(5) # [1] -0.7946034 0.2568374 -0.6567597 1.2451387 -0.8375699
rnormA <- repeatable(rnorm) rnormB <- repeatable(rnorm) rnormA(3) # [1] 1.8285879 -0.7468041 -0.4639111 rnormA(3) # [1] 1.8285879 -0.7468041 -0.4639111 rnormA(5) # [1] 1.8285879 -0.7468041 -0.4639111 -1.6510126 -1.4686924 rnormB(5) # [1] -0.7946034 0.2568374 -0.6567597 1.2451387 -0.8375699
Ensure that values are available ("truthy") before proceeding with a calculation or action. If any of the given values is not truthy, the operation is stopped by raising a "silent" exception (not logged by Shiny, nor displayed in the Shiny app's UI).
req(..., cancelOutput = FALSE)
req(..., cancelOutput = FALSE)
... |
Values to check for truthiness. |
cancelOutput |
If |
The req
function was designed to be used in one of two ways. The first
is to call it like a statement (ignoring its return value) before attempting
operations using the required values:
rv <- reactiveValues(state = FALSE) r <- reactive({ req(input$a, input$b, rv$state) # Code that uses input$a, input$b, and/or rv$state... })
In this example, if r()
is called and any of input$a
,
input$b
, and rv$state
are NULL
, FALSE
, ""
,
etc., then the req
call will trigger an error that propagates all the
way up to whatever render block or observer is executing.
The second is to use it to wrap an expression that must be truthy:
output$plot <- renderPlot({ if (req(input$plotType) == "histogram") { hist(dataset()) } else if (input$plotType == "scatter") { qplot(dataset(), aes(x = x, y = y)) } })
In this example, req(input$plotType)
first checks that
input$plotType
is truthy, and if so, returns it. This is a convenient
way to check for a value "inline" with its first use.
The first value that was passed in.
req(FALSE)
You can use req(FALSE)
(i.e. no condition) if you've already performed
all the checks you needed to by that point and just want to stop the reactive
chain now. There is no advantage to this, except perhaps ease of readability
if you have a complicated condition to check for (or perhaps if you'd like to
divide your condition into nested if
statements).
cancelOutput = TRUE
When req(..., cancelOutput = TRUE)
is used, the "silent" exception is
also raised, but it is treated slightly differently if one or more outputs are
currently being evaluated. In those cases, the reactive chain does not proceed
or update, but the output(s) are left is whatever state they happen to be in
(whatever was their last valid state).
Note that this is always going to be the case if
this is used inside an output context (e.g. output$txt <- ...
). It may
or may not be the case if it is used inside a non-output context (e.g.
reactive()
, observe()
or observeEvent()
)
— depending on whether or not there is an output$...
that is triggered
as a result of those calls. See the examples below for concrete scenarios.
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( textInput('data', 'Enter a dataset from the "datasets" package', 'cars'), p('(E.g. "cars", "mtcars", "pressure", "faithful")'), hr(), tableOutput('tbl') ) server <- function(input, output) { output$tbl <- renderTable({ ## to require that the user types something, use: `req(input$data)` ## but better: require that input$data is valid and leave the last ## valid table up req(exists(input$data, "package:datasets", inherits = FALSE), cancelOutput = TRUE) head(get(input$data, "package:datasets", inherits = FALSE)) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( textInput('data', 'Enter a dataset from the "datasets" package', 'cars'), p('(E.g. "cars", "mtcars", "pressure", "faithful")'), hr(), tableOutput('tbl') ) server <- function(input, output) { output$tbl <- renderTable({ ## to require that the user types something, use: `req(input$data)` ## but better: require that input$data is valid and leave the last ## valid table up req(exists(input$data, "package:datasets", inherits = FALSE), cancelOutput = TRUE) head(get(input$data, "package:datasets", inherits = FALSE)) }) } shinyApp(ui, server) }
This restores an input value from the current restore context. It should be
called early on inside of input functions (like textInput()
).
restoreInput(id, default)
restoreInput(id, default)
id |
Name of the input value to restore. |
default |
A default value to use, if there's no value to restore. |
Runs a Shiny application. This function normally does not return; interrupt R to stop the application (usually by pressing Ctrl+C or Esc).
runApp( appDir = getwd(), port = getOption("shiny.port"), launch.browser = getOption("shiny.launch.browser", interactive()), host = getOption("shiny.host", "127.0.0.1"), workerId = "", quiet = FALSE, display.mode = c("auto", "normal", "showcase"), test.mode = getOption("shiny.testmode", FALSE) )
runApp( appDir = getwd(), port = getOption("shiny.port"), launch.browser = getOption("shiny.launch.browser", interactive()), host = getOption("shiny.host", "127.0.0.1"), workerId = "", quiet = FALSE, display.mode = c("auto", "normal", "showcase"), test.mode = getOption("shiny.testmode", FALSE) )
appDir |
The application to run. Should be one of the following:
|
port |
The TCP port that the application should listen on. If the
|
launch.browser |
If true, the system's default web browser will be launched automatically after the app is started. Defaults to true in interactive sessions only. The value of this parameter can also be a function to call with the application's URL. |
host |
The IPv4 address that the application should listen on. Defaults
to the |
workerId |
Can generally be ignored. Exists to help some editions of Shiny Server Pro route requests to the correct process. |
quiet |
Should Shiny status messages be shown? Defaults to FALSE. |
display.mode |
The mode in which to display the application. If set to
the value |
test.mode |
Should the application be launched in test mode? This is
only used for recording or running automated tests. Defaults to the
|
The host parameter was introduced in Shiny 0.9.0. Its default value of
"127.0.0.1"
means that, contrary to previous versions of Shiny, only
the current machine can access locally hosted Shiny apps. To allow other
clients to connect, use the value "0.0.0.0"
instead (which was the
value that was hard-coded into Shiny in 0.8.0 and earlier).
## Not run: # Start app in the current working directory runApp() # Start app in a subdirectory called myapp runApp("myapp") ## End(Not run) ## Only run this example in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) # Apps can be run without a server.r and ui.r file runApp(list( ui = bootstrapPage( numericInput('n', 'Number of obs', 100), plotOutput('plot') ), server = function(input, output) { output$plot <- renderPlot({ hist(runif(input$n)) }) } )) # Running a Shiny app object app <- shinyApp( ui = bootstrapPage( numericInput('n', 'Number of obs', 100), plotOutput('plot') ), server = function(input, output) { output$plot <- renderPlot({ hist(runif(input$n)) }) } ) runApp(app) }
## Not run: # Start app in the current working directory runApp() # Start app in a subdirectory called myapp runApp("myapp") ## End(Not run) ## Only run this example in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) # Apps can be run without a server.r and ui.r file runApp(list( ui = bootstrapPage( numericInput('n', 'Number of obs', 100), plotOutput('plot') ), server = function(input, output) { output$plot <- renderPlot({ hist(runif(input$n)) }) } )) # Running a Shiny app object app <- shinyApp( ui = bootstrapPage( numericInput('n', 'Number of obs', 100), plotOutput('plot') ), server = function(input, output) { output$plot <- renderPlot({ hist(runif(input$n)) }) } ) runApp(app) }
Launch Shiny example applications, and optionally, your system's web browser.
runExample( example = NA, port = getOption("shiny.port"), launch.browser = getOption("shiny.launch.browser", interactive()), host = getOption("shiny.host", "127.0.0.1"), display.mode = c("auto", "normal", "showcase"), package = "shiny" )
runExample( example = NA, port = getOption("shiny.port"), launch.browser = getOption("shiny.launch.browser", interactive()), host = getOption("shiny.host", "127.0.0.1"), display.mode = c("auto", "normal", "showcase"), package = "shiny" )
example |
The name of the example to run, or |
port |
The TCP port that the application should listen on. If the
|
launch.browser |
If true, the system's default web browser will be launched automatically after the app is started. Defaults to true in interactive sessions only. |
host |
The IPv4 address that the application should listen on. Defaults
to the |
display.mode |
The mode in which to display the example. Defaults to
|
package |
The package in which to find the example (defaults to
To provide examples in your package, store examples in the
|
## Only run this example in interactive R sessions if (interactive()) { # List all available examples runExample() # Run one of the examples runExample("01_hello") # Print the directory containing the code for all examples system.file("examples", package="shiny") }
## Only run this example in interactive R sessions if (interactive()) { # List all available examples runExample() # Run one of the examples runExample("01_hello") # Print the directory containing the code for all examples system.file("examples", package="shiny") }
Similar to runApp
, but handles input$cancel
automatically, and
if running in RStudio, defaults to viewing the app in the Viewer pane.
runGadget( app, server = NULL, port = getOption("shiny.port"), viewer = paneViewer(), stopOnCancel = TRUE )
runGadget( app, server = NULL, port = getOption("shiny.port"), viewer = paneViewer(), stopOnCancel = TRUE )
app |
Either a Shiny app object as created by
|
server |
Ignored if |
port |
See |
viewer |
Specify where the gadget should be displayed–viewer pane,
dialog window, or external browser–by passing in a call to one of the
|
stopOnCancel |
If |
The value returned by the gadget.
## Not run: library(shiny) ui <- fillPage(...) server <- function(input, output, session) { ... } # Either pass ui/server as separate arguments... runGadget(ui, server) # ...or as a single app object runGadget(shinyApp(ui, server)) ## End(Not run)
## Not run: library(shiny) ui <- fillPage(...) server <- function(input, output, session) { ... } # Either pass ui/server as separate arguments... runGadget(ui, server) # ...or as a single app object runGadget(shinyApp(ui, server)) ## End(Not run)
Sources the .R
files in the top-level of tests/
much like R CMD check
.
These files are typically simple runners for tests nested in other
directories under tests/
.
runTests(appDir = ".", filter = NULL, assert = TRUE, envir = globalenv())
runTests(appDir = ".", filter = NULL, assert = TRUE, envir = globalenv())
appDir |
The base directory for the application. |
filter |
If not |
assert |
Logical value which determines if an error should be thrown if any error is captured. |
envir |
Parent testing environment in which to base the individual testing environments. |
Historically, shinytest
recommended placing tests at the top-level of the tests/
directory.
This older folder structure is not supported by runTests.
Please see shinyAppTemplate()
for more details.
A data frame classed with the supplemental class "shiny_runtests"
.
The data frame has the following columns:
Name | Type | Meaning |
file |
character(1) |
File name of the runner script in tests/ that was sourced. |
pass |
logical(1) |
Whether or not the runner script signaled an error when sourced. |
result |
any or NA |
The return value of the runner |
runUrl()
downloads and launches a Shiny application that is hosted at
a downloadable URL. The Shiny application must be saved in a .zip, .tar, or
.tar.gz file. The Shiny application files must be contained in the root
directory or a subdirectory in the archive. For example, the files might be
myapp/server.r
and myapp/ui.r
. The functions runGitHub()
and runGist()
are based on runUrl()
, using URL's from GitHub
(https://github.com) and GitHub gists (https://gist.github.com),
respectively.
runUrl(url, filetype = NULL, subdir = NULL, destdir = NULL, ...) runGist(gist, destdir = NULL, ...) runGitHub( repo, username = getOption("github.user"), ref = "HEAD", subdir = NULL, destdir = NULL, ... )
runUrl(url, filetype = NULL, subdir = NULL, destdir = NULL, ...) runGist(gist, destdir = NULL, ...) runGitHub( repo, username = getOption("github.user"), ref = "HEAD", subdir = NULL, destdir = NULL, ... )
url |
URL of the application. |
filetype |
The file type ( |
subdir |
A subdirectory in the repository that contains the app. By
default, this function will run an app from the top level of the repo, but
you can use a path such as |
destdir |
Directory to store the downloaded application files. If |
... |
Other arguments to be passed to |
gist |
The identifier of the gist. For example, if the gist is
https://gist.github.com/jcheng5/3239667, then |
repo |
Name of the repository. |
username |
GitHub username. If |
ref |
Desired git reference. Could be a commit, tag, or branch name.
Defaults to |
## Only run this example in interactive R sessions if (interactive()) { runUrl('https://github.com/rstudio/shiny_example/archive/main.tar.gz') # Can run an app from a subdirectory in the archive runUrl("https://github.com/rstudio/shiny_example/archive/main.zip", subdir = "inst/shinyapp/") } ## Only run this example in interactive R sessions if (interactive()) { runGist(3239667) runGist("https://gist.github.com/jcheng5/3239667") # Old URL format without username runGist("https://gist.github.com/3239667") } ## Only run this example in interactive R sessions if (interactive()) { runGitHub("shiny_example", "rstudio") # or runGitHub("rstudio/shiny_example") # Can run an app from a subdirectory in the repo runGitHub("shiny_example", "rstudio", subdir = "inst/shinyapp/") }
## Only run this example in interactive R sessions if (interactive()) { runUrl('https://github.com/rstudio/shiny_example/archive/main.tar.gz') # Can run an app from a subdirectory in the archive runUrl("https://github.com/rstudio/shiny_example/archive/main.zip", subdir = "inst/shinyapp/") } ## Only run this example in interactive R sessions if (interactive()) { runGist(3239667) runGist("https://gist.github.com/jcheng5/3239667") # Old URL format without username runGist("https://gist.github.com/3239667") } ## Only run this example in interactive R sessions if (interactive()) { runGitHub("shiny_example", "rstudio") # or runGitHub("rstudio/shiny_example") # Can run an app from a subdirectory in the repo runGitHub("shiny_example", "rstudio", subdir = "inst/shinyapp/") }
This should be used when you want to let the user see an error
message even if the default is to sanitize all errors. If you have an
error e
and call stop(safeError(e))
, then Shiny will
ignore the value of getOption("shiny.sanitize.errors")
and always
display the error in the app itself.
safeError(error)
safeError(error)
error |
Either an "error" object or a "character" object (string).
In the latter case, the string will become the message of the error
returned by |
An error generated by safeError
has priority over all
other Shiny errors. This can be dangerous. For example, if you have set
options(shiny.sanitize.errors = TRUE)
, then by default all error
messages are omitted in the app, and replaced by a generic error message.
However, this does not apply to safeError
: whatever you pass
through error
will be displayed to the user. So, this should only
be used when you are sure that your error message does not contain any
sensitive information. In those situations, safeError
can make
your users' lives much easier by giving them a hint as to where the
error occurred.
An "error" object
## Only run examples in interactive R sessions if (interactive()) { # uncomment the desired line to experiment with shiny.sanitize.errors # options(shiny.sanitize.errors = TRUE) # options(shiny.sanitize.errors = FALSE) # Define UI ui <- fluidPage( textInput('number', 'Enter your favorite number from 1 to 10', '5'), textOutput('normalError'), textOutput('safeError') ) # Server logic server <- function(input, output) { output$normalError <- renderText({ number <- input$number if (number %in% 1:10) { return(paste('You chose', number, '!')) } else { stop( paste(number, 'is not a number between 1 and 10') ) } }) output$safeError <- renderText({ number <- input$number if (number %in% 1:10) { return(paste('You chose', number, '!')) } else { stop(safeError( paste(number, 'is not a number between 1 and 10') )) } }) } # Complete app with UI and server components shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { # uncomment the desired line to experiment with shiny.sanitize.errors # options(shiny.sanitize.errors = TRUE) # options(shiny.sanitize.errors = FALSE) # Define UI ui <- fluidPage( textInput('number', 'Enter your favorite number from 1 to 10', '5'), textOutput('normalError'), textOutput('safeError') ) # Server logic server <- function(input, output) { output$normalError <- renderText({ number <- input$number if (number %in% 1:10) { return(paste('You chose', number, '!')) } else { stop( paste(number, 'is not a number between 1 and 10') ) } }) output$safeError <- renderText({ number <- input$number if (number %in% 1:10) { return(paste('You chose', number, '!')) } else { stop(safeError( paste(number, 'is not a number between 1 and 10') )) } }) } # Complete app with UI and server components shinyApp(ui, server) }
Create a select list that can be used to choose a single or multiple items from a list of values.
selectInput( inputId, label, choices, selected = NULL, multiple = FALSE, selectize = TRUE, width = NULL, size = NULL ) selectizeInput(inputId, ..., options = NULL, width = NULL)
selectInput( inputId, label, choices, selected = NULL, multiple = FALSE, selectize = TRUE, width = NULL, size = NULL ) selectizeInput(inputId, ..., options = NULL, width = NULL)
inputId |
The |
label |
Display label for the control, or |
choices |
List of values to select from. If elements of the list are
named, then that name — rather than the value — is displayed to the
user. It's also possible to group related inputs by providing a named list
whose elements are (either named or unnamed) lists, vectors, or factors. In
this case, the outermost names will be used as the group labels (leveraging
the |
selected |
The initially selected value (or multiple values if |
multiple |
Is selection of multiple items allowed? |
selectize |
Whether to use selectize.js or not. |
width |
The width of the input, e.g. |
size |
Number of items to show in the selection box; a larger number
will result in a taller box. Not compatible with |
... |
Arguments passed to |
options |
A list of options. See the documentation of selectize.js(https://selectize.dev/docs/usage)
for possible options (character option values inside |
By default, selectInput()
and selectizeInput()
use the JavaScript library
selectize.js (https://selectize.dev/) instead of
the basic select input element. To use the standard HTML select input
element, use selectInput()
with selectize=FALSE
.
In selectize mode, if the first element in choices
has a value of ""
, its
name will be treated as a placeholder prompt. For example:
selectInput("letter", "Letter", c("Choose one" = "", LETTERS))
Performance note: selectInput()
and selectizeInput()
can slow down
significantly when thousands of choices are used; with legacy browsers like
Internet Explorer, the user interface may hang for many seconds. For large
numbers of choices, Shiny offers a "server-side selectize" option that
massively improves performance and efficiency; see
this selectize article
on the Shiny Dev Center for details.
A select list control that can be added to a UI definition.
A vector of character strings, usually of length
1, with the value of the selected items. When multiple=TRUE
and
nothing is selected, this value will be NULL
.
The selectize input created from selectizeInput()
allows
deletion of the selected option even in a single select input, which will
return an empty string as its value. This is the default behavior of
selectize.js. However, the selectize input created from
selectInput(..., selectize = TRUE)
will ignore the empty string
value when it is a single choice input and the empty string is not in the
choices
argument. This is to keep compatibility with
selectInput(..., selectize = FALSE)
.
updateSelectInput()
varSelectInput()
Other input elements:
actionButton()
,
checkboxGroupInput()
,
checkboxInput()
,
dateInput()
,
dateRangeInput()
,
fileInput()
,
numericInput()
,
passwordInput()
,
radioButtons()
,
sliderInput()
,
submitButton()
,
textAreaInput()
,
textInput()
,
varSelectInput()
## Only run examples in interactive R sessions if (interactive()) { # basic example shinyApp( ui = fluidPage( selectInput("variable", "Variable:", c("Cylinders" = "cyl", "Transmission" = "am", "Gears" = "gear")), tableOutput("data") ), server = function(input, output) { output$data <- renderTable({ mtcars[, c("mpg", input$variable), drop = FALSE] }, rownames = TRUE) } ) # demoing group support in the `choices` arg shinyApp( ui = fluidPage( selectInput("state", "Choose a state:", list(`East Coast` = list("NY", "NJ", "CT"), `West Coast` = list("WA", "OR", "CA"), `Midwest` = list("MN", "WI", "IA")) ), textOutput("result") ), server = function(input, output) { output$result <- renderText({ paste("You chose", input$state) }) } ) }
## Only run examples in interactive R sessions if (interactive()) { # basic example shinyApp( ui = fluidPage( selectInput("variable", "Variable:", c("Cylinders" = "cyl", "Transmission" = "am", "Gears" = "gear")), tableOutput("data") ), server = function(input, output) { output$data <- renderTable({ mtcars[, c("mpg", input$variable), drop = FALSE] }, rownames = TRUE) } ) # demoing group support in the `choices` arg shinyApp( ui = fluidPage( selectInput("state", "Choose a state:", list(`East Coast` = list("NY", "NJ", "CT"), `West Coast` = list("WA", "OR", "CA"), `Midwest` = list("MN", "WI", "IA")) ), textOutput("result") ), server = function(input, output) { output$result <- renderText({ paste("You chose", input$state) }) } ) }
This function returns the information about the current Shiny Server, such as
its version, and whether it is the open source edition or professional
edition. If the app is not served through the Shiny Server, this function
just returns list(shinyServer = FALSE)
.
serverInfo()
serverInfo()
This function will only return meaningful data when using Shiny Server version 1.2.2 or later.
A list of the Shiny Server information.
Shiny server functions can optionally include session
as a parameter
(e.g. function(input, output, session)
). The session object is an
environment that can be used to access information and functionality
relating to the session. The following list describes the items available
in the environment; they can be accessed using the $
operator (for
example, session$clientData$url_search
).
allowReconnect(value) |
If |
clientData |
A
|
input |
The session's |
isClosed() |
A function that returns |
ns(id) |
Server-side version of |
onEnded(callback) |
Synonym for |
onFlush(func , once=TRUE)
|
Registers a function to be called before the next time (if |
onFlushed(func , once=TRUE)
|
Registers a function to be called after the next time (if |
onSessionEnded(callback) |
Registers a function to be called after the client has disconnected. Returns a function that can be called with no arguments to cancel the registration. |
output |
The session's |
reactlog |
For internal use. |
registerDataObj(name , data , filterFunc)
|
Publishes any R object as a URL endpoint that is unique to this session.
|
reload() |
The equivalent of hitting the browser's Reload button. Only works if the session is actually connected. |
request |
An environment that implements the Rook specification for HTTP requests. This is the request that was used to initiate the websocket connection (as opposed to the request that downloaded the web page for the app). |
userData |
An environment for app authors and module/package authors to store whatever session-specific data they want. |
user |
User's log-in information. Useful for identifying users on hosted platforms such as RStudio Connect and Shiny Server. |
groups |
The |
resetBrush(brushId) |
Resets/clears the brush with the given |
sendCustomMessage(type , message)
|
Sends a custom message to the web page. |
sendBinaryMessage(type , message)
|
Similar to |
sendInputMessage(inputId , message)
|
Sends a message to an input on the session's client web page; if the input
is present and bound on the page at the time the message is received, then
the input binding object's |
setBookmarkExclude(names) |
Set input names to be excluded from bookmarking. |
getBookmarkExclude() |
Returns the set of input names to be excluded from bookmarking. |
onBookmark(fun) |
Registers a function that will be called just before bookmarking state. |
onBookmarked(fun) |
Registers a function that will be called just after bookmarking state. |
onRestore(fun) |
Registers a function that will be called when a session is restored, before all other reactives, observers, and render functions are run. |
onRestored(fun) |
Registers a function that will be called when a session is restored, after all other reactives, observers, and render functions are run. |
doBookmark() |
Do bookmarking and invoke the onBookmark and onBookmarked callback functions. |
exportTestValues() |
Registers expressions for export in test mode, available at the test snapshot URL. |
getTestSnapshotUrl(input=TRUE , output=TRUE , export=TRUE , format="json")
|
Returns a URL for the test snapshots. Only has an effect when the
|
setCurrentTheme(theme) |
Sets the current |
getCurrentTheme() |
A reactive read of the current |
This function tells Shiny which inputs should be excluded from bookmarking. It should be called from inside the application's server function.
setBookmarkExclude(names = character(0), session = getDefaultReactiveDomain())
setBookmarkExclude(names = character(0), session = getDefaultReactiveDomain())
names |
A character vector containing names of inputs to exclude from bookmarking. |
session |
A shiny session object. |
This function can also be called from a module's server function, in which case it will exclude inputs with the specified names, from that module. It will not affect inputs from other modules or from the top level of the Shiny application.
enableBookmarking()
for examples.
Add a function for serializing an input before bookmarking application state
setSerializer(inputId, fun, session = getDefaultReactiveDomain())
setSerializer(inputId, fun, session = getDefaultReactiveDomain())
inputId |
Name of the input value. |
fun |
A function that takes the input value and returns a modified value. The returned value will be used for the test snapshot. |
session |
A Shiny session object. |
These functions create Shiny app objects from either an explicit UI/server
pair (shinyApp
), or by passing the path of a directory that contains a
Shiny app (shinyAppDir
).
shinyApp( ui, server, onStart = NULL, options = list(), uiPattern = "/", enableBookmarking = NULL ) shinyAppDir(appDir, options = list()) shinyAppFile(appFile, options = list())
shinyApp( ui, server, onStart = NULL, options = list(), uiPattern = "/", enableBookmarking = NULL ) shinyAppDir(appDir, options = list()) shinyAppFile(appFile, options = list())
ui |
The UI definition of the app (for example, a call to
If bookmarking is enabled (see |
server |
A function with three parameters: |
onStart |
A function that will be called before the app is actually run.
This is only needed for |
options |
Named options that should be passed to the |
uiPattern |
A regular expression that will be applied to each |
enableBookmarking |
Can be one of |
appDir |
Path to directory that contains a Shiny app (i.e. a server.R file and either ui.R or www/index.html) |
appFile |
Path to a .R file containing a Shiny application |
Normally when this function is used at the R console, the Shiny app object is
automatically passed to the print()
function, which runs the app. If
this is called in the middle of a function, the value will not be passed to
print()
and the app will not be run. To make the app run, pass the app
object to print()
or runApp()
.
An object that represents the app. Printing the object or passing it
to runApp()
will run the app.
## Only run this example in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) shinyApp( ui = fluidPage( numericInput("n", "n", 1), plotOutput("plot") ), server = function(input, output) { output$plot <- renderPlot( plot(head(cars, input$n)) ) } ) shinyAppDir(system.file("examples/01_hello", package="shiny")) # The object can be passed to runApp() app <- shinyApp( ui = fluidPage( numericInput("n", "n", 1), plotOutput("plot") ), server = function(input, output) { output$plot <- renderPlot( plot(head(cars, input$n)) ) } ) runApp(app) }
## Only run this example in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) shinyApp( ui = fluidPage( numericInput("n", "n", 1), plotOutput("plot") ), server = function(input, output) { output$plot <- renderPlot( plot(head(cars, input$n)) ) } ) shinyAppDir(system.file("examples/01_hello", package="shiny")) # The object can be passed to runApp() app <- shinyApp( ui = fluidPage( numericInput("n", "n", 1), plotOutput("plot") ), server = function(input, output) { output$plot <- renderPlot( plot(head(cars, input$n)) ) } ) runApp(app) }
This function populates a directory with files for a Shiny application.
shinyAppTemplate(path = NULL, examples = "default", dryrun = FALSE)
shinyAppTemplate(path = NULL, examples = "default", dryrun = FALSE)
path |
Path to create new shiny application template. |
examples |
Either one of "default", "ask", "all", or any combination of "app", "rdir", "module", and "tests". In an interactive session, "default" falls back to "ask"; in a non-interactive session, "default" falls back to "all". With "ask", this function will prompt the user to select which template items will be added to the new app directory. With "all", all template items will be added to the app directory. |
dryrun |
If |
In an interactive R session, this function will, by default, prompt the user to select which components to add to the application. Choices are
1: All 2: app.R : Main application file 3: R/example.R : Helper file with R code 4: R/example-module.R : Example module 5: tests/testthat/ : Tests using the testthat and shinytest2 package
If option 1 is selected, the full example application including the following files and directories is created:
appdir/ |- app.R |- R | |- example-module.R | `- example.R `- tests |- testthat.R `- testthat |- setup-shinytest2.R |- test-examplemodule.R |- test-server.R |- test-shinytest2.R `- test-sort.R
Some notes about these files:
app.R
is the main application file.
All files in the R/
subdirectory are automatically sourced when the
application is run.
R/example.R
and R/example-module.R
are automatically sourced when
the application is run. The first contains a function lexical_sort()
,
and the second contains code for module created by the
moduleServer()
function, which is used in the application.
tests/
contains various tests for the application. You may
choose to use or remove any of them. They can be executed by the
runTests()
function.
tests/testthat.R
is a test runner for test files in the
tests/testthat/
directory using the
shinytest2
package.
tests/testthat/setup-shinytest2.R
is setup file to source your ./R
folder into the testing environment.
tests/testthat/test-examplemodule.R
is a test for an application's module server function.
tests/testthat/test-server.R
is a test for the application's server code
tests/testthat/test-shinytest2.R
is a test that uses the
shinytest2 package to do
snapshot-based testing.
tests/testthat/test-sort.R
is a test for a supporting function in the R/
directory.
This is a wrapper function for urlModal()
that is automatically
called if an application is bookmarked but no other onBookmark()
callback was set. It displays a modal dialog with the bookmark URL, along
with a subtitle that is appropriate for the type of bookmarking used ("url"
or "server").
showBookmarkUrlModal(url)
showBookmarkUrlModal(url)
url |
A URL to show in the modal dialog. |
This causes a modal dialog to be displayed in the client browser, and is
typically used with modalDialog()
.
showModal(ui, session = getDefaultReactiveDomain()) removeModal(session = getDefaultReactiveDomain())
showModal(ui, session = getDefaultReactiveDomain()) removeModal(session = getDefaultReactiveDomain())
ui |
UI content to show in the modal. |
session |
The |
modalDialog()
for examples.
These functions show and remove notifications in a Shiny application.
showNotification( ui, action = NULL, duration = 5, closeButton = TRUE, id = NULL, type = c("default", "message", "warning", "error"), session = getDefaultReactiveDomain() ) removeNotification(id, session = getDefaultReactiveDomain())
showNotification( ui, action = NULL, duration = 5, closeButton = TRUE, id = NULL, type = c("default", "message", "warning", "error"), session = getDefaultReactiveDomain() ) removeNotification(id, session = getDefaultReactiveDomain())
ui |
Content of message. |
action |
Message content that represents an action. For example, this
could be a link that the user can click on. This is separate from |
duration |
Number of seconds to display the message before it
disappears. Use |
closeButton |
If |
id |
A unique identifier for the notification.
|
type |
A string which controls the color of the notification. One of "default" (gray), "message" (blue), "warning" (yellow), or "error" (red). |
session |
Session object to send notification to. |
An ID for the notification.
## Only run examples in interactive R sessions if (interactive()) { # Show a message when button is clicked shinyApp( ui = fluidPage( actionButton("show", "Show") ), server = function(input, output) { observeEvent(input$show, { showNotification("Message text", action = a(href = "javascript:location.reload();", "Reload page") ) }) } ) # App with show and remove buttons shinyApp( ui = fluidPage( actionButton("show", "Show"), actionButton("remove", "Remove") ), server = function(input, output) { # A queue of notification IDs ids <- character(0) # A counter n <- 0 observeEvent(input$show, { # Save the ID for removal later id <- showNotification(paste("Message", n), duration = NULL) ids <<- c(ids, id) n <<- n + 1 }) observeEvent(input$remove, { if (length(ids) > 0) removeNotification(ids[1]) ids <<- ids[-1] }) } ) }
## Only run examples in interactive R sessions if (interactive()) { # Show a message when button is clicked shinyApp( ui = fluidPage( actionButton("show", "Show") ), server = function(input, output) { observeEvent(input$show, { showNotification("Message text", action = a(href = "javascript:location.reload();", "Reload page") ) }) } ) # App with show and remove buttons shinyApp( ui = fluidPage( actionButton("show", "Show"), actionButton("remove", "Remove") ), server = function(input, output) { # A queue of notification IDs ids <- character(0) # A counter n <- 0 observeEvent(input$show, { # Save the ID for removal later id <- showNotification(paste("Message", n), duration = NULL) ids <<- c(ids, id) n <<- n + 1 }) observeEvent(input$remove, { if (length(ids) > 0) removeNotification(ids[1]) ids <<- ids[-1] }) } ) }
Dynamically hide or show a tabPanel()
(or a
navbarMenu()
)from an existing tabsetPanel()
,
navlistPanel()
or navbarPage()
.
showTab(inputId, target, select = FALSE, session = getDefaultReactiveDomain()) hideTab(inputId, target, session = getDefaultReactiveDomain())
showTab(inputId, target, select = FALSE, session = getDefaultReactiveDomain()) hideTab(inputId, target, session = getDefaultReactiveDomain())
inputId |
The |
target |
The |
select |
Should |
session |
The shiny session within which to call this function. |
For navbarPage
, you can hide/show conventional
tabPanel
s (whether at the top level or nested inside a
navbarMenu
), as well as an entire navbarMenu()
.
For the latter case, target
should be the menuName
that
you gave your navbarMenu
when you first created it (by default,
this is equal to the value of the title
argument).
## Only run this example in interactive R sessions if (interactive()) { ui <- navbarPage("Navbar page", id = "tabs", tabPanel("Home", actionButton("hideTab", "Hide 'Foo' tab"), actionButton("showTab", "Show 'Foo' tab"), actionButton("hideMenu", "Hide 'More' navbarMenu"), actionButton("showMenu", "Show 'More' navbarMenu") ), tabPanel("Foo", "This is the foo tab"), tabPanel("Bar", "This is the bar tab"), navbarMenu("More", tabPanel("Table", "Table page"), tabPanel("About", "About page"), "------", "Even more!", tabPanel("Email", "Email page") ) ) server <- function(input, output, session) { observeEvent(input$hideTab, { hideTab(inputId = "tabs", target = "Foo") }) observeEvent(input$showTab, { showTab(inputId = "tabs", target = "Foo") }) observeEvent(input$hideMenu, { hideTab(inputId = "tabs", target = "More") }) observeEvent(input$showMenu, { showTab(inputId = "tabs", target = "More") }) } shinyApp(ui, server) }
## Only run this example in interactive R sessions if (interactive()) { ui <- navbarPage("Navbar page", id = "tabs", tabPanel("Home", actionButton("hideTab", "Hide 'Foo' tab"), actionButton("showTab", "Show 'Foo' tab"), actionButton("hideMenu", "Hide 'More' navbarMenu"), actionButton("showMenu", "Show 'More' navbarMenu") ), tabPanel("Foo", "This is the foo tab"), tabPanel("Bar", "This is the bar tab"), navbarMenu("More", tabPanel("Table", "Table page"), tabPanel("About", "About page"), "------", "Even more!", tabPanel("Email", "Email page") ) ) server <- function(input, output, session) { observeEvent(input$hideTab, { hideTab(inputId = "tabs", target = "Foo") }) observeEvent(input$showTab, { showTab(inputId = "tabs", target = "Foo") }) observeEvent(input$hideMenu, { hideTab(inputId = "tabs", target = "More") }) observeEvent(input$showMenu, { showTab(inputId = "tabs", target = "More") }) } shinyApp(ui, server) }
Create a layout (sidebarLayout()
) with a sidebar (sidebarPanel()
) and
main area (mainPanel()
). The sidebar is displayed with a distinct
background color and typically contains input controls. The main
area occupies 2/3 of the horizontal width and typically contains outputs.
sidebarLayout( sidebarPanel, mainPanel, position = c("left", "right"), fluid = TRUE ) sidebarPanel(..., width = 4) mainPanel(..., width = 8)
sidebarLayout( sidebarPanel, mainPanel, position = c("left", "right"), fluid = TRUE ) sidebarPanel(..., width = 4) mainPanel(..., width = 8)
sidebarPanel |
The |
mainPanel |
The |
position |
The position of the sidebar relative to the main area ("left" or "right"). |
fluid |
|
... |
Output elements to include in the sidebar/main panel. |
width |
The width of the sidebar and main panel. By default, the sidebar takes up 1/3 of the width, and the main panel 2/3. The total width must be 12 or less. |
Other layout functions:
fillPage()
,
fixedPage()
,
flowLayout()
,
fluidPage()
,
navbarPage()
,
splitLayout()
,
verticalLayout()
## Only run examples in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) # Define UI ui <- fluidPage( # Application title titlePanel("Hello Shiny!"), sidebarLayout( # Sidebar with a slider input sidebarPanel( sliderInput("obs", "Number of observations:", min = 0, max = 1000, value = 500) ), # Show a plot of the generated distribution mainPanel( plotOutput("distPlot") ) ) ) # Server logic server <- function(input, output) { output$distPlot <- renderPlot({ hist(rnorm(input$obs)) }) } # Complete app with UI and server components shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) # Define UI ui <- fluidPage( # Application title titlePanel("Hello Shiny!"), sidebarLayout( # Sidebar with a slider input sidebarPanel( sliderInput("obs", "Number of observations:", min = 0, max = 1000, value = 500) ), # Show a plot of the generated distribution mainPanel( plotOutput("distPlot") ) ) ) # Server logic server <- function(input, output) { output$distPlot <- renderPlot({ hist(rnorm(input$obs)) }) } # Complete app with UI and server components shinyApp(ui, server) }
Returns a function which takes a two-element vector representing an input width and height, and returns a two-element vector of width and height. The possible widths are the base width times the growthRate to any integer power. For example, with a base width of 500 and growth rate of 1.25, the possible widths include 320, 400, 500, 625, 782, and so on, both smaller and larger. Sizes are rounded up to the next pixel. Heights are computed the same way as widths.
sizeGrowthRatio(width = 400, height = 400, growthRate = 1.2)
sizeGrowthRatio(width = 400, height = 400, growthRate = 1.2)
width , height
|
Base width and height. |
growthRate |
Growth rate multiplier. |
This is to be used with renderCachedPlot()
.
f <- sizeGrowthRatio(500, 500, 1.25) f(c(400, 400)) f(c(500, 500)) f(c(530, 550)) f(c(625, 700))
f <- sizeGrowthRatio(500, 500, 1.25) f(c(400, 400)) f(c(500, 500)) f(c(530, 550)) f(c(625, 700))
Constructs a slider widget to select a number, date, or date-time from a range.
sliderInput( inputId, label, min, max, value, step = NULL, round = FALSE, ticks = TRUE, animate = FALSE, width = NULL, sep = ",", pre = NULL, post = NULL, timeFormat = NULL, timezone = NULL, dragRange = TRUE ) animationOptions( interval = 1000, loop = FALSE, playButton = NULL, pauseButton = NULL )
sliderInput( inputId, label, min, max, value, step = NULL, round = FALSE, ticks = TRUE, animate = FALSE, width = NULL, sep = ",", pre = NULL, post = NULL, timeFormat = NULL, timezone = NULL, dragRange = TRUE ) animationOptions( interval = 1000, loop = FALSE, playButton = NULL, pauseButton = NULL )
inputId |
The |
label |
Display label for the control, or |
min , max
|
The minimum and maximum values (inclusive) that can be selected. |
value |
The initial value of the slider, either a number, a date
(class Date), or a date-time (class POSIXt). A length one vector will
create a regular slider; a length two vector will create a double-ended
range slider. Must lie between |
step |
Specifies the interval between each selectable value on the
slider. Either |
round |
|
ticks |
|
animate |
|
width |
The width of the input, e.g. |
sep |
Separator between thousands places in numbers. |
pre |
A prefix string to put in front of the value. |
post |
A suffix string to put after the value. |
timeFormat |
Only used if the values are Date or POSIXt objects. A time
format string, to be passed to the Javascript strftime library. See
https://github.com/samsonjs/strftime for more details. The allowed
format specifications are very similar, but not identical, to those for R's
|
timezone |
Only used if the values are POSIXt objects. A string
specifying the time zone offset for the displayed times, in the format
|
dragRange |
This option is used only if it is a range slider (with two
values). If |
interval |
The interval, in milliseconds, between each animation step. |
loop |
|
playButton |
Specifies the appearance of the play button. Valid values
are a one-element character vector (for a simple text label), an HTML tag
or list of tags (using |
pauseButton |
Similar to |
A number, date, or date-time (depending on the class of value
), or
in the case of slider range, a vector of two numbers/dates/date-times.
Other input elements:
actionButton()
,
checkboxGroupInput()
,
checkboxInput()
,
dateInput()
,
dateRangeInput()
,
fileInput()
,
numericInput()
,
passwordInput()
,
radioButtons()
,
selectInput()
,
submitButton()
,
textAreaInput()
,
textInput()
,
varSelectInput()
## Only run examples in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) ui <- fluidPage( sliderInput("obs", "Number of observations:", min = 0, max = 1000, value = 500 ), plotOutput("distPlot") ) # Server logic server <- function(input, output) { output$distPlot <- renderPlot({ hist(rnorm(input$obs)) }) } # Complete app with UI and server components shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) ui <- fluidPage( sliderInput("obs", "Number of observations:", min = 0, max = 1000, value = 500 ), plotOutput("distPlot") ) # Server logic server <- function(input, output) { output$distPlot <- renderPlot({ hist(rnorm(input$obs)) }) } # Complete app with UI and server components shinyApp(ui, server) }
Mark an output to be excluded from test snapshots
snapshotExclude(x)
snapshotExclude(x)
x |
A reactive which will be assigned to an output. |
Add a function for preprocessing an input before taking a test snapshot
snapshotPreprocessInput(inputId, fun, session = getDefaultReactiveDomain())
snapshotPreprocessInput(inputId, fun, session = getDefaultReactiveDomain())
inputId |
Name of the input value. |
fun |
A function that takes the input value and returns a modified value. The returned value will be used for the test snapshot. |
session |
A Shiny session object. |
Add a function for preprocessing an output before taking a test snapshot
snapshotPreprocessOutput(x, fun)
snapshotPreprocessOutput(x, fun)
x |
A reactive which will be assigned to an output. |
fun |
A function that takes the output value as an input and returns a modified value. The returned value will be used for the test snapshot. |
Lays out elements horizontally, dividing the available horizontal space into equal parts (by default).
splitLayout(..., cellWidths = NULL, cellArgs = list())
splitLayout(..., cellWidths = NULL, cellArgs = list())
... |
Unnamed arguments will become child elements of the layout. Named arguments will become HTML attributes on the outermost tag. |
cellWidths |
Character or numeric vector indicating the widths of the
individual cells. Recycling will be used if needed. Character values will
be interpreted as CSS lengths (see |
cellArgs |
Any additional attributes that should be used for each cell of the layout. |
Other layout functions:
fillPage()
,
fixedPage()
,
flowLayout()
,
fluidPage()
,
navbarPage()
,
sidebarLayout()
,
verticalLayout()
## Only run examples in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) # Server code used for all examples server <- function(input, output) { output$plot1 <- renderPlot(plot(cars)) output$plot2 <- renderPlot(plot(pressure)) output$plot3 <- renderPlot(plot(AirPassengers)) } # Equal sizing ui <- splitLayout( plotOutput("plot1"), plotOutput("plot2") ) shinyApp(ui, server) # Custom widths ui <- splitLayout(cellWidths = c("25%", "75%"), plotOutput("plot1"), plotOutput("plot2") ) shinyApp(ui, server) # All cells at 300 pixels wide, with cell padding # and a border around everything ui <- splitLayout( style = "border: 1px solid silver;", cellWidths = 300, cellArgs = list(style = "padding: 6px"), plotOutput("plot1"), plotOutput("plot2"), plotOutput("plot3") ) shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) # Server code used for all examples server <- function(input, output) { output$plot1 <- renderPlot(plot(cars)) output$plot2 <- renderPlot(plot(pressure)) output$plot3 <- renderPlot(plot(AirPassengers)) } # Equal sizing ui <- splitLayout( plotOutput("plot1"), plotOutput("plot2") ) shinyApp(ui, server) # Custom widths ui <- splitLayout(cellWidths = c("25%", "75%"), plotOutput("plot1"), plotOutput("plot2") ) shinyApp(ui, server) # All cells at 300 pixels wide, with cell padding # and a border around everything ui <- splitLayout( style = "border: 1px solid silver;", cellWidths = 300, cellArgs = list(style = "padding: 6px"), plotOutput("plot1"), plotOutput("plot2"), plotOutput("plot3") ) shinyApp(ui, server) }
Stops the currently running Shiny app, returning control to the caller of
runApp()
.
stopApp(returnValue = invisible())
stopApp(returnValue = invisible())
returnValue |
The value that should be returned from
|
Create a submit button for an app. Apps that include a submit
button do not automatically update their outputs when inputs change,
rather they wait until the user explicitly clicks the submit button.
The use of submitButton
is generally discouraged in favor of
the more versatile actionButton()
(see details below).
submitButton(text = "Apply Changes", icon = NULL, width = NULL)
submitButton(text = "Apply Changes", icon = NULL, width = NULL)
text |
Button caption |
icon |
Optional |
width |
The width of the button, e.g. |
Submit buttons are unusual Shiny inputs, and we recommend using
actionButton()
instead of submitButton
when you
want to delay a reaction.
See this article for more information (including a demo of how to "translate"
code using a submitButton
to code using an actionButton
).
In essence, the presence of a submit button stops all inputs from
sending their values automatically to the server. This means, for
instance, that if there are two submit buttons in the same app,
clicking either one will cause all inputs in the app to send their
values to the server. This is probably not what you'd want, which is
why submit button are unwieldy for all but the simplest apps. There
are other problems with submit buttons: for example, dynamically
created submit buttons (for example, with renderUI()
or insertUI()
) will not work.
A submit button that can be added to a UI definition.
Other input elements:
actionButton()
,
checkboxGroupInput()
,
checkboxInput()
,
dateInput()
,
dateRangeInput()
,
fileInput()
,
numericInput()
,
passwordInput()
,
radioButtons()
,
selectInput()
,
sliderInput()
,
textAreaInput()
,
textInput()
,
varSelectInput()
if (interactive()) { shinyApp( ui = basicPage( numericInput("num", label = "Make changes", value = 1), submitButton("Update View", icon("refresh")), helpText("When you click the button above, you should see", "the output below update to reflect the value you", "entered at the top:"), verbatimTextOutput("value") ), server = function(input, output) { # submit buttons do not have a value of their own, # they control when the app accesses values of other widgets. # input$num is the value of the number widget. output$value <- renderPrint({ input$num }) } ) }
if (interactive()) { shinyApp( ui = basicPage( numericInput("num", label = "Make changes", value = 1), submitButton("Update View", icon("refresh")), helpText("When you click the button above, you should see", "the output below update to reflect the value you", "entered at the top:"), verbatimTextOutput("value") ), server = function(input, output) { # submit buttons do not have a value of their own, # they control when the app accesses values of other widgets. # input$num is the value of the number widget. output$value <- renderPrint({ input$num }) } ) }
The tableOuptut()
/renderTable()
pair creates a reactive table that is
suitable for display small matrices and data frames. The columns are
formatted with xtable::xtable()
.
See renderDataTable()
for data frames that are too big to fit on a single
page.
tableOutput(outputId) renderTable( expr, striped = FALSE, hover = FALSE, bordered = FALSE, spacing = c("s", "xs", "m", "l"), width = "auto", align = NULL, rownames = FALSE, colnames = TRUE, digits = NULL, na = "NA", ..., env = parent.frame(), quoted = FALSE, outputArgs = list() )
tableOutput(outputId) renderTable( expr, striped = FALSE, hover = FALSE, bordered = FALSE, spacing = c("s", "xs", "m", "l"), width = "auto", align = NULL, rownames = FALSE, colnames = TRUE, digits = NULL, na = "NA", ..., env = parent.frame(), quoted = FALSE, outputArgs = list() )
outputId |
output variable to read the table from |
expr |
An expression that returns an R object that can be used with
|
striped , hover , bordered
|
Logicals: if |
spacing |
The spacing between the rows of the table ( |
width |
Table width. Must be a valid CSS unit (like "100%", "400px", "auto") or a number, which will be coerced to a string and have "px" appended. |
align |
A string that specifies the column alignment. If equal to
|
rownames , colnames
|
Logicals: include rownames? include colnames (column headers)? |
digits |
An integer specifying the number of decimal places for
the numeric columns (this will not apply to columns with an integer
class). If |
na |
The string to use in the table cells whose values are missing
(i.e. they either evaluate to |
... |
Arguments to be passed through to |
env |
The parent environment for the reactive expression. By default,
this is the calling environment, the same as when defining an ordinary
non-reactive expression. If |
quoted |
If it is |
outputArgs |
A list of arguments to be passed through to the
implicit call to |
## Only run this example in interactive R sessions if (interactive()) { # table example shinyApp( ui = fluidPage( fluidRow( column(12, tableOutput('table') ) ) ), server = function(input, output) { output$table <- renderTable(iris) } ) }
## Only run this example in interactive R sessions if (interactive()) { # table example shinyApp( ui = fluidPage( fluidRow( column(12, tableOutput('table') ) ) ), server = function(input, output) { output$table <- renderTable(iris) } ) }
Create a tab panel
tabPanel(title, ..., value = title, icon = NULL) tabPanelBody(value, ..., icon = NULL)
tabPanel(title, ..., value = title, icon = NULL) tabPanelBody(value, ..., icon = NULL)
title |
Display title for tab |
... |
UI elements to include within the tab |
value |
The value that should be sent when |
icon |
Optional icon to appear on the tab. This attribute is only
valid when using a |
A tab that can be passed to tabsetPanel()
tabPanel()
: Create a tab panel that can be included within a tabsetPanel()
or a navbarPage()
.
tabPanelBody()
: Create a tab panel that drops the title argument.
This function should be used within tabsetPanel(type = "hidden")
. See tabsetPanel()
for example usage.
# Show a tabset that includes a plot, summary, and # table view of the generated distribution mainPanel( tabsetPanel( tabPanel("Plot", plotOutput("plot")), tabPanel("Summary", verbatimTextOutput("summary")), tabPanel("Table", tableOutput("table")) ) )
# Show a tabset that includes a plot, summary, and # table view of the generated distribution mainPanel( tabsetPanel( tabPanel("Plot", plotOutput("plot")), tabPanel("Summary", verbatimTextOutput("summary")), tabPanel("Table", tableOutput("table")) ) )
Create a tabset that contains tabPanel()
elements. Tabsets are
useful for dividing output into multiple independently viewable sections.
tabsetPanel( ..., id = NULL, selected = NULL, type = c("tabs", "pills", "hidden"), header = NULL, footer = NULL )
tabsetPanel( ..., id = NULL, selected = NULL, type = c("tabs", "pills", "hidden"), header = NULL, footer = NULL )
... |
|
id |
If provided, you can use |
selected |
The |
type |
|
header |
Tag or list of tags to display as a common header above all tabPanels. |
footer |
Tag or list of tags to display as a common footer below all tabPanels |
A tabset that can be passed to mainPanel()
tabPanel()
, updateTabsetPanel()
,
insertTab()
, showTab()
# Show a tabset that includes a plot, summary, and # table view of the generated distribution mainPanel( tabsetPanel( tabPanel("Plot", plotOutput("plot")), tabPanel("Summary", verbatimTextOutput("summary")), tabPanel("Table", tableOutput("table")) ) ) ui <- fluidPage( sidebarLayout( sidebarPanel( radioButtons("controller", "Controller", 1:3, 1) ), mainPanel( tabsetPanel( id = "hidden_tabs", # Hide the tab values. # Can only switch tabs by using `updateTabsetPanel()` type = "hidden", tabPanelBody("panel1", "Panel 1 content"), tabPanelBody("panel2", "Panel 2 content"), tabPanelBody("panel3", "Panel 3 content") ) ) ) ) server <- function(input, output, session) { observeEvent(input$controller, { updateTabsetPanel(session, "hidden_tabs", selected = paste0("panel", input$controller)) }) } if (interactive()) { shinyApp(ui, server) }
# Show a tabset that includes a plot, summary, and # table view of the generated distribution mainPanel( tabsetPanel( tabPanel("Plot", plotOutput("plot")), tabPanel("Summary", verbatimTextOutput("summary")), tabPanel("Table", tableOutput("table")) ) ) ui <- fluidPage( sidebarLayout( sidebarPanel( radioButtons("controller", "Controller", 1:3, 1) ), mainPanel( tabsetPanel( id = "hidden_tabs", # Hide the tab values. # Can only switch tabs by using `updateTabsetPanel()` type = "hidden", tabPanelBody("panel1", "Panel 1 content"), tabPanelBody("panel2", "Panel 2 content"), tabPanelBody("panel3", "Panel 3 content") ) ) ) ) server <- function(input, output, session) { observeEvent(input$controller, { updateTabsetPanel(session, "hidden_tabs", selected = paste0("panel", input$controller)) }) } if (interactive()) { shinyApp(ui, server) }
A way to test the reactive interactions in Shiny applications. Reactive interactions are defined in the server function of applications and in modules.
testServer(app = NULL, expr, args = list(), session = MockShinySession$new())
testServer(app = NULL, expr, args = list(), session = MockShinySession$new())
app |
A server function (i.e. a function with You can also provide an app, a path an app, or anything that
|
expr |
Test code containing expectations. The objects from inside the
server function environment will be made available in the environment of
the test expression (this is done using a data mask with
|
args |
Additional arguments to pass to the module function. If |
session |
The |
# Testing a server function ---------------------------------------------- server <- function(input, output, session) { x <- reactive(input$a * input$b) } testServer(server, { session$setInputs(a = 2, b = 3) stopifnot(x() == 6) }) # Testing a module -------------------------------------------------------- myModuleServer <- function(id, multiplier = 2, prefix = "I am ") { moduleServer(id, function(input, output, session) { myreactive <- reactive({ input$x * multiplier }) output$txt <- renderText({ paste0(prefix, myreactive()) }) }) } testServer(myModuleServer, args = list(multiplier = 2), { session$setInputs(x = 1) # You're also free to use third-party # testing packages like testthat: # expect_equal(myreactive(), 2) stopifnot(myreactive() == 2) stopifnot(output$txt == "I am 2") session$setInputs(x = 2) stopifnot(myreactive() == 4) stopifnot(output$txt == "I am 4") # Any additional arguments, below, are passed along to the module. })
# Testing a server function ---------------------------------------------- server <- function(input, output, session) { x <- reactive(input$a * input$b) } testServer(server, { session$setInputs(a = 2, b = 3) stopifnot(x() == 6) }) # Testing a module -------------------------------------------------------- myModuleServer <- function(id, multiplier = 2, prefix = "I am ") { moduleServer(id, function(input, output, session) { myreactive <- reactive({ input$x * multiplier }) output$txt <- renderText({ paste0(prefix, myreactive()) }) }) } testServer(myModuleServer, args = list(multiplier = 2), { session$setInputs(x = 1) # You're also free to use third-party # testing packages like testthat: # expect_equal(myreactive(), 2) stopifnot(myreactive() == 2) stopifnot(output$txt == "I am 2") session$setInputs(x = 2) stopifnot(myreactive() == 4) stopifnot(output$txt == "I am 4") # Any additional arguments, below, are passed along to the module. })
Create a textarea input control for entry of unstructured text values.
textAreaInput( inputId, label, value = "", width = NULL, height = NULL, cols = NULL, rows = NULL, placeholder = NULL, resize = NULL )
textAreaInput( inputId, label, value = "", width = NULL, height = NULL, cols = NULL, rows = NULL, placeholder = NULL, resize = NULL )
inputId |
The |
label |
Display label for the control, or |
value |
Initial value. |
width |
The width of the input, e.g. |
height |
The height of the input, e.g. |
cols |
Value of the visible character columns of the input, e.g. |
rows |
The value of the visible character rows of the input, e.g. |
placeholder |
A character string giving the user a hint as to what can be entered into the control. Internet Explorer 8 and 9 do not support this option. |
resize |
Which directions the textarea box can be resized. Can be one of
|
A textarea input control that can be added to a UI definition.
A character string of the text input. The default value is ""
unless value
is provided.
Other input elements:
actionButton()
,
checkboxGroupInput()
,
checkboxInput()
,
dateInput()
,
dateRangeInput()
,
fileInput()
,
numericInput()
,
passwordInput()
,
radioButtons()
,
selectInput()
,
sliderInput()
,
submitButton()
,
textInput()
,
varSelectInput()
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( textAreaInput("caption", "Caption", "Data Summary", width = "1000px"), verbatimTextOutput("value") ) server <- function(input, output) { output$value <- renderText({ input$caption }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( textAreaInput("caption", "Caption", "Data Summary", width = "1000px"), verbatimTextOutput("value") ) server <- function(input, output) { output$value <- renderText({ input$caption }) } shinyApp(ui, server) }
Create an input control for entry of unstructured text values
textInput(inputId, label, value = "", width = NULL, placeholder = NULL)
textInput(inputId, label, value = "", width = NULL, placeholder = NULL)
inputId |
The |
label |
Display label for the control, or |
value |
Initial value. |
width |
The width of the input, e.g. |
placeholder |
A character string giving the user a hint as to what can be entered into the control. Internet Explorer 8 and 9 do not support this option. |
A text input control that can be added to a UI definition.
A character string of the text input. The default value is ""
unless value
is provided.
Other input elements:
actionButton()
,
checkboxGroupInput()
,
checkboxInput()
,
dateInput()
,
dateRangeInput()
,
fileInput()
,
numericInput()
,
passwordInput()
,
radioButtons()
,
selectInput()
,
sliderInput()
,
submitButton()
,
textAreaInput()
,
varSelectInput()
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( textInput("caption", "Caption", "Data Summary"), verbatimTextOutput("value") ) server <- function(input, output) { output$value <- renderText({ input$caption }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( textInput("caption", "Caption", "Data Summary"), verbatimTextOutput("value") ) server <- function(input, output) { output$value <- renderText({ input$caption }) } shinyApp(ui, server) }
Render a reactive output variable as text within an application page.
textOutput()
is usually paired with renderText()
and puts regular text
in <div>
or <span>
; verbatimTextOutput()
is usually paired with
renderPrint()
and provides fixed-width text in a <pre>
.
textOutput(outputId, container = if (inline) span else div, inline = FALSE) verbatimTextOutput(outputId, placeholder = FALSE)
textOutput(outputId, container = if (inline) span else div, inline = FALSE) verbatimTextOutput(outputId, placeholder = FALSE)
outputId |
output variable to read the value from |
container |
a function to generate an HTML element to contain the text |
inline |
use an inline ( |
placeholder |
if the output is empty or |
In both functions, text is HTML-escaped prior to rendering.
An output element for use in UI.
## Only run this example in interactive R sessions if (interactive()) { shinyApp( ui = basicPage( textInput("txt", "Enter the text to display below:"), textOutput("text"), verbatimTextOutput("verb") ), server = function(input, output) { output$text <- renderText({ input$txt }) output$verb <- renderText({ input$txt }) } ) }
## Only run this example in interactive R sessions if (interactive()) { shinyApp( ui = basicPage( textInput("txt", "Enter the text to display below:"), textOutput("text"), verbatimTextOutput("verb") ), server = function(input, output) { output$text <- renderText({ input$txt }) output$verb <- renderText({ input$txt }) } ) }
Create a panel containing an application title.
titlePanel(title, windowTitle = title)
titlePanel(title, windowTitle = title)
title |
An application title to display |
windowTitle |
The title that should be displayed by the browser window. |
Calling this function has the side effect of including a
title
tag within the head. You can also specify a page title
explicitly using the title
parameter of the top-level page function.
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( titlePanel("Hello Shiny!") ) shinyApp(ui, server = function(input, output) { }) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( titlePanel("Hello Shiny!") ) shinyApp(ui, server = function(input, output) { }) }
Change the label or icon of an action button on the client
updateActionButton( session = getDefaultReactiveDomain(), inputId, label = NULL, icon = NULL, disabled = NULL ) updateActionLink( session = getDefaultReactiveDomain(), inputId, label = NULL, icon = NULL )
updateActionButton( session = getDefaultReactiveDomain(), inputId, label = NULL, icon = NULL, disabled = NULL ) updateActionLink( session = getDefaultReactiveDomain(), inputId, label = NULL, icon = NULL )
session |
The |
inputId |
The id of the input object. |
label |
The label to set for the input object. |
icon |
An optional |
disabled |
If |
The input updater functions send a message to the client, telling it to change the settings of an input object. The messages are collected and sent after all the observers (including outputs) have finished running.
The syntax of these functions is similar to the functions that created the
inputs in the first place. For example, numericInput()
and
updateNumericInput()
take a similar set of arguments.
Any arguments with NULL values will be ignored; they will not result in any changes to the input object on the client.
For radioButtons()
, checkboxGroupInput()
and
selectInput()
, the set of choices can be cleared by using
choices=character(0)
. Similarly, for these inputs, the selected item
can be cleared by using selected=character(0)
.
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( actionButton("update", "Update other buttons and link"), br(), actionButton("goButton", "Go"), br(), actionButton("goButton2", "Go 2", icon = icon("area-chart")), br(), actionButton("goButton3", "Go 3"), br(), actionLink("goLink", "Go Link") ) server <- function(input, output, session) { observe({ req(input$update) # Updates goButton's label and icon updateActionButton(session, "goButton", label = "New label", icon = icon("calendar")) # Leaves goButton2's label unchanged and # removes its icon updateActionButton(session, "goButton2", icon = character(0)) # Leaves goButton3's icon, if it exists, # unchanged and changes its label updateActionButton(session, "goButton3", label = "New label 3") # Updates goLink's label and icon updateActionButton(session, "goLink", label = "New link label", icon = icon("link")) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( actionButton("update", "Update other buttons and link"), br(), actionButton("goButton", "Go"), br(), actionButton("goButton2", "Go 2", icon = icon("area-chart")), br(), actionButton("goButton3", "Go 3"), br(), actionLink("goLink", "Go Link") ) server <- function(input, output, session) { observe({ req(input$update) # Updates goButton's label and icon updateActionButton(session, "goButton", label = "New label", icon = icon("calendar")) # Leaves goButton2's label unchanged and # removes its icon updateActionButton(session, "goButton2", icon = character(0)) # Leaves goButton3's icon, if it exists, # unchanged and changes its label updateActionButton(session, "goButton3", label = "New label 3") # Updates goLink's label and icon updateActionButton(session, "goLink", label = "New link label", icon = icon("link")) }) } shinyApp(ui, server) }
Change the value of a checkbox group input on the client
updateCheckboxGroupInput( session = getDefaultReactiveDomain(), inputId, label = NULL, choices = NULL, selected = NULL, inline = FALSE, choiceNames = NULL, choiceValues = NULL )
updateCheckboxGroupInput( session = getDefaultReactiveDomain(), inputId, label = NULL, choices = NULL, selected = NULL, inline = FALSE, choiceNames = NULL, choiceValues = NULL )
session |
The |
inputId |
The id of the input object. |
label |
The label to set for the input object. |
choices |
List of values to show checkboxes for. If elements of the list
are named then that name rather than the value is displayed to the user. If
this argument is provided, then |
selected |
The values that should be initially selected, if any. |
inline |
If |
choiceNames , choiceValues
|
List of names and values, respectively,
that are displayed to the user in the app and correspond to the each
choice (for this reason, |
The input updater functions send a message to the client, telling it to change the settings of an input object. The messages are collected and sent after all the observers (including outputs) have finished running.
The syntax of these functions is similar to the functions that created the
inputs in the first place. For example, numericInput()
and
updateNumericInput()
take a similar set of arguments.
Any arguments with NULL values will be ignored; they will not result in any changes to the input object on the client.
For radioButtons()
, checkboxGroupInput()
and
selectInput()
, the set of choices can be cleared by using
choices=character(0)
. Similarly, for these inputs, the selected item
can be cleared by using selected=character(0)
.
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( p("The first checkbox group controls the second"), checkboxGroupInput("inCheckboxGroup", "Input checkbox", c("Item A", "Item B", "Item C")), checkboxGroupInput("inCheckboxGroup2", "Input checkbox 2", c("Item A", "Item B", "Item C")) ) server <- function(input, output, session) { observe({ x <- input$inCheckboxGroup # Can use character(0) to remove all choices if (is.null(x)) x <- character(0) # Can also set the label and select items updateCheckboxGroupInput(session, "inCheckboxGroup2", label = paste("Checkboxgroup label", length(x)), choices = x, selected = x ) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( p("The first checkbox group controls the second"), checkboxGroupInput("inCheckboxGroup", "Input checkbox", c("Item A", "Item B", "Item C")), checkboxGroupInput("inCheckboxGroup2", "Input checkbox 2", c("Item A", "Item B", "Item C")) ) server <- function(input, output, session) { observe({ x <- input$inCheckboxGroup # Can use character(0) to remove all choices if (is.null(x)) x <- character(0) # Can also set the label and select items updateCheckboxGroupInput(session, "inCheckboxGroup2", label = paste("Checkboxgroup label", length(x)), choices = x, selected = x ) }) } shinyApp(ui, server) }
Change the value of a checkbox input on the client
updateCheckboxInput( session = getDefaultReactiveDomain(), inputId, label = NULL, value = NULL )
updateCheckboxInput( session = getDefaultReactiveDomain(), inputId, label = NULL, value = NULL )
session |
The |
inputId |
The id of the input object. |
label |
The label to set for the input object. |
value |
Initial value ( |
The input updater functions send a message to the client, telling it to change the settings of an input object. The messages are collected and sent after all the observers (including outputs) have finished running.
The syntax of these functions is similar to the functions that created the
inputs in the first place. For example, numericInput()
and
updateNumericInput()
take a similar set of arguments.
Any arguments with NULL values will be ignored; they will not result in any changes to the input object on the client.
For radioButtons()
, checkboxGroupInput()
and
selectInput()
, the set of choices can be cleared by using
choices=character(0)
. Similarly, for these inputs, the selected item
can be cleared by using selected=character(0)
.
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("controller", "Controller", 0, 1, 0, step = 1), checkboxInput("inCheckbox", "Input checkbox") ) server <- function(input, output, session) { observe({ # TRUE if input$controller is odd, FALSE if even. x_even <- input$controller %% 2 == 1 updateCheckboxInput(session, "inCheckbox", value = x_even) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("controller", "Controller", 0, 1, 0, step = 1), checkboxInput("inCheckbox", "Input checkbox") ) server <- function(input, output, session) { observe({ # TRUE if input$controller is odd, FALSE if even. x_even <- input$controller %% 2 == 1 updateCheckboxInput(session, "inCheckbox", value = x_even) }) } shinyApp(ui, server) }
Change the value of a date input on the client
updateDateInput( session = getDefaultReactiveDomain(), inputId, label = NULL, value = NULL, min = NULL, max = NULL )
updateDateInput( session = getDefaultReactiveDomain(), inputId, label = NULL, value = NULL, min = NULL, max = NULL )
session |
The |
inputId |
The id of the input object. |
label |
The label to set for the input object. |
value |
The starting date. Either a Date object, or a string in
|
min |
The minimum allowed date. Either a Date object, or a string in
|
max |
The maximum allowed date. Either a Date object, or a string in
|
The input updater functions send a message to the client, telling it to change the settings of an input object. The messages are collected and sent after all the observers (including outputs) have finished running.
The syntax of these functions is similar to the functions that created the
inputs in the first place. For example, numericInput()
and
updateNumericInput()
take a similar set of arguments.
Any arguments with NULL values will be ignored; they will not result in any changes to the input object on the client.
For radioButtons()
, checkboxGroupInput()
and
selectInput()
, the set of choices can be cleared by using
choices=character(0)
. Similarly, for these inputs, the selected item
can be cleared by using selected=character(0)
.
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("n", "Day of month", 1, 30, 10), dateInput("inDate", "Input date") ) server <- function(input, output, session) { observe({ date <- as.Date(paste0("2013-04-", input$n)) updateDateInput(session, "inDate", label = paste("Date label", input$n), value = date, min = date - 3, max = date + 3 ) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("n", "Day of month", 1, 30, 10), dateInput("inDate", "Input date") ) server <- function(input, output, session) { observe({ date <- as.Date(paste0("2013-04-", input$n)) updateDateInput(session, "inDate", label = paste("Date label", input$n), value = date, min = date - 3, max = date + 3 ) }) } shinyApp(ui, server) }
Change the start and end values of a date range input on the client
updateDateRangeInput( session = getDefaultReactiveDomain(), inputId, label = NULL, start = NULL, end = NULL, min = NULL, max = NULL )
updateDateRangeInput( session = getDefaultReactiveDomain(), inputId, label = NULL, start = NULL, end = NULL, min = NULL, max = NULL )
session |
The |
inputId |
The id of the input object. |
label |
The label to set for the input object. |
start |
The initial start date. Either a Date object, or a string in
|
end |
The initial end date. Either a Date object, or a string in
|
min |
The minimum allowed date. Either a Date object, or a string in
|
max |
The maximum allowed date. Either a Date object, or a string in
|
The input updater functions send a message to the client, telling it to change the settings of an input object. The messages are collected and sent after all the observers (including outputs) have finished running.
The syntax of these functions is similar to the functions that created the
inputs in the first place. For example, numericInput()
and
updateNumericInput()
take a similar set of arguments.
Any arguments with NULL values will be ignored; they will not result in any changes to the input object on the client.
For radioButtons()
, checkboxGroupInput()
and
selectInput()
, the set of choices can be cleared by using
choices=character(0)
. Similarly, for these inputs, the selected item
can be cleared by using selected=character(0)
.
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("n", "Day of month", 1, 30, 10), dateRangeInput("inDateRange", "Input date range") ) server <- function(input, output, session) { observe({ date <- as.Date(paste0("2013-04-", input$n)) updateDateRangeInput(session, "inDateRange", label = paste("Date range label", input$n), start = date - 1, end = date + 1, min = date - 5, max = date + 5 ) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("n", "Day of month", 1, 30, 10), dateRangeInput("inDateRange", "Input date range") ) server <- function(input, output, session) { observe({ date <- as.Date(paste0("2013-04-", input$n)) updateDateRangeInput(session, "inDateRange", label = paste("Date range label", input$n), start = date - 1, end = date + 1, min = date - 5, max = date + 5 ) }) } shinyApp(ui, server) }
Change the value of a number input on the client
updateNumericInput( session = getDefaultReactiveDomain(), inputId, label = NULL, value = NULL, min = NULL, max = NULL, step = NULL )
updateNumericInput( session = getDefaultReactiveDomain(), inputId, label = NULL, value = NULL, min = NULL, max = NULL, step = NULL )
session |
The |
inputId |
The id of the input object. |
label |
The label to set for the input object. |
value |
Initial value. |
min |
Minimum allowed value |
max |
Maximum allowed value |
step |
Interval to use when stepping between min and max |
The input updater functions send a message to the client, telling it to change the settings of an input object. The messages are collected and sent after all the observers (including outputs) have finished running.
The syntax of these functions is similar to the functions that created the
inputs in the first place. For example, numericInput()
and
updateNumericInput()
take a similar set of arguments.
Any arguments with NULL values will be ignored; they will not result in any changes to the input object on the client.
For radioButtons()
, checkboxGroupInput()
and
selectInput()
, the set of choices can be cleared by using
choices=character(0)
. Similarly, for these inputs, the selected item
can be cleared by using selected=character(0)
.
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("controller", "Controller", 0, 20, 10), numericInput("inNumber", "Input number", 0), numericInput("inNumber2", "Input number 2", 0) ) server <- function(input, output, session) { observeEvent(input$controller, { # We'll use the input$controller variable multiple times, so save it as x # for convenience. x <- input$controller updateNumericInput(session, "inNumber", value = x) updateNumericInput(session, "inNumber2", label = paste("Number label ", x), value = x, min = x-10, max = x+10, step = 5) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("controller", "Controller", 0, 20, 10), numericInput("inNumber", "Input number", 0), numericInput("inNumber2", "Input number 2", 0) ) server <- function(input, output, session) { observeEvent(input$controller, { # We'll use the input$controller variable multiple times, so save it as x # for convenience. x <- input$controller updateNumericInput(session, "inNumber", value = x) updateNumericInput(session, "inNumber2", label = paste("Number label ", x), value = x, min = x-10, max = x+10, step = 5) }) } shinyApp(ui, server) }
This function updates the client browser's query string in the location bar. It typically is called from an observer. Note that this will not work in Internet Explorer 9 and below.
updateQueryString( queryString, mode = c("replace", "push"), session = getDefaultReactiveDomain() )
updateQueryString( queryString, mode = c("replace", "push"), session = getDefaultReactiveDomain() )
queryString |
The new query string to show in the location bar. |
mode |
When the query string is updated, should the current history entry be replaced (default), or should a new history entry be pushed onto the history stack? The former should only be used in a live bookmarking context. The latter is useful if you want to navigate between states using the browser's back and forward buttons. See Examples. |
session |
A Shiny session object. |
For mode = "push"
, only three updates are currently allowed:
the query string (format: ?param1=val1¶m2=val2
)
the hash (format: #hash
)
both the query string and the hash
(format: ?param1=val1¶m2=val2#hash
)
In other words, if mode = "push"
, the queryString
must start
with either ?
or with #
.
A technical curiosity: under the hood, this function is calling the HTML5
history API (which is where the names for the mode
argument come from).
When mode = "replace"
, the function called is
window.history.replaceState(null, null, queryString)
.
When mode = "push"
, the function called is
window.history.pushState(null, null, queryString)
.
enableBookmarking()
, getQueryString()
## Only run these examples in interactive sessions if (interactive()) { ## App 1: Doing "live" bookmarking ## Update the browser's location bar every time an input changes. ## This should not be used with enableBookmarking("server"), ## because that would create a new saved state on disk every time ## the user changes an input. enableBookmarking("url") shinyApp( ui = function(req) { fluidPage( textInput("txt", "Text"), checkboxInput("chk", "Checkbox") ) }, server = function(input, output, session) { observe({ # Trigger this observer every time an input changes reactiveValuesToList(input) session$doBookmark() }) onBookmarked(function(url) { updateQueryString(url) }) } ) ## App 2: Printing the value of the query string ## (Use the back and forward buttons to see how the browser ## keeps a record of each state) shinyApp( ui = fluidPage( textInput("txt", "Enter new query string"), helpText("Format: ?param1=val1¶m2=val2"), actionButton("go", "Update"), hr(), verbatimTextOutput("query") ), server = function(input, output, session) { observeEvent(input$go, { updateQueryString(input$txt, mode = "push") }) output$query <- renderText({ query <- getQueryString() queryText <- paste(names(query), query, sep = "=", collapse=", ") paste("Your query string is:\n", queryText) }) } ) }
## Only run these examples in interactive sessions if (interactive()) { ## App 1: Doing "live" bookmarking ## Update the browser's location bar every time an input changes. ## This should not be used with enableBookmarking("server"), ## because that would create a new saved state on disk every time ## the user changes an input. enableBookmarking("url") shinyApp( ui = function(req) { fluidPage( textInput("txt", "Text"), checkboxInput("chk", "Checkbox") ) }, server = function(input, output, session) { observe({ # Trigger this observer every time an input changes reactiveValuesToList(input) session$doBookmark() }) onBookmarked(function(url) { updateQueryString(url) }) } ) ## App 2: Printing the value of the query string ## (Use the back and forward buttons to see how the browser ## keeps a record of each state) shinyApp( ui = fluidPage( textInput("txt", "Enter new query string"), helpText("Format: ?param1=val1¶m2=val2"), actionButton("go", "Update"), hr(), verbatimTextOutput("query") ), server = function(input, output, session) { observeEvent(input$go, { updateQueryString(input$txt, mode = "push") }) output$query <- renderText({ query <- getQueryString() queryText <- paste(names(query), query, sep = "=", collapse=", ") paste("Your query string is:\n", queryText) }) } ) }
Change the value of a radio input on the client
updateRadioButtons( session = getDefaultReactiveDomain(), inputId, label = NULL, choices = NULL, selected = NULL, inline = FALSE, choiceNames = NULL, choiceValues = NULL )
updateRadioButtons( session = getDefaultReactiveDomain(), inputId, label = NULL, choices = NULL, selected = NULL, inline = FALSE, choiceNames = NULL, choiceValues = NULL )
session |
The |
inputId |
The id of the input object. |
label |
The label to set for the input object. |
choices |
List of values to select from (if elements of the list are
named then that name rather than the value is displayed to the user). If
this argument is provided, then |
selected |
The initially selected value. If not specified, then it
defaults to the first item in |
inline |
If |
choiceNames , choiceValues
|
List of names and values, respectively, that
are displayed to the user in the app and correspond to the each choice (for
this reason, |
The input updater functions send a message to the client, telling it to change the settings of an input object. The messages are collected and sent after all the observers (including outputs) have finished running.
The syntax of these functions is similar to the functions that created the
inputs in the first place. For example, numericInput()
and
updateNumericInput()
take a similar set of arguments.
Any arguments with NULL values will be ignored; they will not result in any changes to the input object on the client.
For radioButtons()
, checkboxGroupInput()
and
selectInput()
, the set of choices can be cleared by using
choices=character(0)
. Similarly, for these inputs, the selected item
can be cleared by using selected=character(0)
.
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( p("The first radio button group controls the second"), radioButtons("inRadioButtons", "Input radio buttons", c("Item A", "Item B", "Item C")), radioButtons("inRadioButtons2", "Input radio buttons 2", c("Item A", "Item B", "Item C")) ) server <- function(input, output, session) { observe({ x <- input$inRadioButtons # Can also set the label and select items updateRadioButtons(session, "inRadioButtons2", label = paste("radioButtons label", x), choices = x, selected = x ) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( p("The first radio button group controls the second"), radioButtons("inRadioButtons", "Input radio buttons", c("Item A", "Item B", "Item C")), radioButtons("inRadioButtons2", "Input radio buttons 2", c("Item A", "Item B", "Item C")) ) server <- function(input, output, session) { observe({ x <- input$inRadioButtons # Can also set the label and select items updateRadioButtons(session, "inRadioButtons2", label = paste("radioButtons label", x), choices = x, selected = x ) }) } shinyApp(ui, server) }
Change the value of a select input on the client
updateSelectInput( session = getDefaultReactiveDomain(), inputId, label = NULL, choices = NULL, selected = NULL ) updateSelectizeInput( session = getDefaultReactiveDomain(), inputId, label = NULL, choices = NULL, selected = NULL, options = list(), server = FALSE ) updateVarSelectInput( session = getDefaultReactiveDomain(), inputId, label = NULL, data = NULL, selected = NULL ) updateVarSelectizeInput( session = getDefaultReactiveDomain(), inputId, label = NULL, data = NULL, selected = NULL, options = list(), server = FALSE )
updateSelectInput( session = getDefaultReactiveDomain(), inputId, label = NULL, choices = NULL, selected = NULL ) updateSelectizeInput( session = getDefaultReactiveDomain(), inputId, label = NULL, choices = NULL, selected = NULL, options = list(), server = FALSE ) updateVarSelectInput( session = getDefaultReactiveDomain(), inputId, label = NULL, data = NULL, selected = NULL ) updateVarSelectizeInput( session = getDefaultReactiveDomain(), inputId, label = NULL, data = NULL, selected = NULL, options = list(), server = FALSE )
session |
The |
inputId |
The id of the input object. |
label |
The label to set for the input object. |
choices |
List of values to select from. If elements of the list are
named, then that name — rather than the value — is displayed to the
user. It's also possible to group related inputs by providing a named list
whose elements are (either named or unnamed) lists, vectors, or factors. In
this case, the outermost names will be used as the group labels (leveraging
the |
selected |
The initially selected value (or multiple values if |
options |
A list of options. See the documentation of selectize.js(https://selectize.dev/docs/usage)
for possible options (character option values inside |
server |
whether to store |
data |
A data frame. Used to retrieve the column names as choices for a |
The input updater functions send a message to the client, telling it to change the settings of an input object. The messages are collected and sent after all the observers (including outputs) have finished running.
The syntax of these functions is similar to the functions that created the
inputs in the first place. For example, numericInput()
and
updateNumericInput()
take a similar set of arguments.
Any arguments with NULL values will be ignored; they will not result in any changes to the input object on the client.
For radioButtons()
, checkboxGroupInput()
and
selectInput()
, the set of choices can be cleared by using
choices=character(0)
. Similarly, for these inputs, the selected item
can be cleared by using selected=character(0)
.
selectInput()
varSelectInput()
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( p("The checkbox group controls the select input"), checkboxGroupInput("inCheckboxGroup", "Input checkbox", c("Item A", "Item B", "Item C")), selectInput("inSelect", "Select input", c("Item A", "Item B", "Item C")) ) server <- function(input, output, session) { observe({ x <- input$inCheckboxGroup # Can use character(0) to remove all choices if (is.null(x)) x <- character(0) # Can also set the label and select items updateSelectInput(session, "inSelect", label = paste("Select input label", length(x)), choices = x, selected = tail(x, 1) ) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( p("The checkbox group controls the select input"), checkboxGroupInput("inCheckboxGroup", "Input checkbox", c("Item A", "Item B", "Item C")), selectInput("inSelect", "Select input", c("Item A", "Item B", "Item C")) ) server <- function(input, output, session) { observe({ x <- input$inCheckboxGroup # Can use character(0) to remove all choices if (is.null(x)) x <- character(0) # Can also set the label and select items updateSelectInput(session, "inSelect", label = paste("Select input label", length(x)), choices = x, selected = tail(x, 1) ) }) } shinyApp(ui, server) }
Change the value of a slider input on the client.
updateSliderInput( session = getDefaultReactiveDomain(), inputId, label = NULL, value = NULL, min = NULL, max = NULL, step = NULL, timeFormat = NULL, timezone = NULL )
updateSliderInput( session = getDefaultReactiveDomain(), inputId, label = NULL, value = NULL, min = NULL, max = NULL, step = NULL, timeFormat = NULL, timezone = NULL )
session |
The |
inputId |
The id of the input object. |
label |
The label to set for the input object. |
value |
The initial value of the slider, either a number, a date
(class Date), or a date-time (class POSIXt). A length one vector will
create a regular slider; a length two vector will create a double-ended
range slider. Must lie between |
min , max
|
The minimum and maximum values (inclusive) that can be selected. |
step |
Specifies the interval between each selectable value on the
slider. Either |
timeFormat |
Only used if the values are Date or POSIXt objects. A time
format string, to be passed to the Javascript strftime library. See
https://github.com/samsonjs/strftime for more details. The allowed
format specifications are very similar, but not identical, to those for R's
|
timezone |
Only used if the values are POSIXt objects. A string
specifying the time zone offset for the displayed times, in the format
|
The input updater functions send a message to the client, telling it to change the settings of an input object. The messages are collected and sent after all the observers (including outputs) have finished running.
The syntax of these functions is similar to the functions that created the
inputs in the first place. For example, numericInput()
and
updateNumericInput()
take a similar set of arguments.
Any arguments with NULL values will be ignored; they will not result in any changes to the input object on the client.
For radioButtons()
, checkboxGroupInput()
and
selectInput()
, the set of choices can be cleared by using
choices=character(0)
. Similarly, for these inputs, the selected item
can be cleared by using selected=character(0)
.
## Only run this example in interactive R sessions if (interactive()) { shinyApp( ui = fluidPage( sidebarLayout( sidebarPanel( p("The first slider controls the second"), sliderInput("control", "Controller:", min=0, max=20, value=10, step=1), sliderInput("receive", "Receiver:", min=0, max=20, value=10, step=1) ), mainPanel() ) ), server = function(input, output, session) { observe({ val <- input$control # Control the value, min, max, and step. # Step size is 2 when input value is even; 1 when value is odd. updateSliderInput(session, "receive", value = val, min = floor(val/2), max = val+4, step = (val+1)%%2 + 1) }) } ) }
## Only run this example in interactive R sessions if (interactive()) { shinyApp( ui = fluidPage( sidebarLayout( sidebarPanel( p("The first slider controls the second"), sliderInput("control", "Controller:", min=0, max=20, value=10, step=1), sliderInput("receive", "Receiver:", min=0, max=20, value=10, step=1) ), mainPanel() ) ), server = function(input, output, session) { observe({ val <- input$control # Control the value, min, max, and step. # Step size is 2 when input value is even; 1 when value is odd. updateSliderInput(session, "receive", value = val, min = floor(val/2), max = val+4, step = (val+1)%%2 + 1) }) } ) }
Change the selected tab on the client
updateTabsetPanel( session = getDefaultReactiveDomain(), inputId, selected = NULL ) updateNavbarPage( session = getDefaultReactiveDomain(), inputId, selected = NULL ) updateNavlistPanel( session = getDefaultReactiveDomain(), inputId, selected = NULL )
updateTabsetPanel( session = getDefaultReactiveDomain(), inputId, selected = NULL ) updateNavbarPage( session = getDefaultReactiveDomain(), inputId, selected = NULL ) updateNavlistPanel( session = getDefaultReactiveDomain(), inputId, selected = NULL )
session |
The |
inputId |
The id of the |
selected |
The |
tabsetPanel()
, navlistPanel()
,
navbarPage()
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage(sidebarLayout( sidebarPanel( sliderInput("controller", "Controller", 1, 3, 1) ), mainPanel( tabsetPanel(id = "inTabset", tabPanel(title = "Panel 1", value = "panel1", "Panel 1 content"), tabPanel(title = "Panel 2", value = "panel2", "Panel 2 content"), tabPanel(title = "Panel 3", value = "panel3", "Panel 3 content") ) ) )) server <- function(input, output, session) { observeEvent(input$controller, { updateTabsetPanel(session, "inTabset", selected = paste0("panel", input$controller) ) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage(sidebarLayout( sidebarPanel( sliderInput("controller", "Controller", 1, 3, 1) ), mainPanel( tabsetPanel(id = "inTabset", tabPanel(title = "Panel 1", value = "panel1", "Panel 1 content"), tabPanel(title = "Panel 2", value = "panel2", "Panel 2 content"), tabPanel(title = "Panel 3", value = "panel3", "Panel 3 content") ) ) )) server <- function(input, output, session) { observeEvent(input$controller, { updateTabsetPanel(session, "inTabset", selected = paste0("panel", input$controller) ) }) } shinyApp(ui, server) }
Change the value of a textarea input on the client
updateTextAreaInput( session = getDefaultReactiveDomain(), inputId, label = NULL, value = NULL, placeholder = NULL )
updateTextAreaInput( session = getDefaultReactiveDomain(), inputId, label = NULL, value = NULL, placeholder = NULL )
session |
The |
inputId |
The id of the input object. |
label |
The label to set for the input object. |
value |
Initial value. |
placeholder |
A character string giving the user a hint as to what can be entered into the control. Internet Explorer 8 and 9 do not support this option. |
The input updater functions send a message to the client, telling it to change the settings of an input object. The messages are collected and sent after all the observers (including outputs) have finished running.
The syntax of these functions is similar to the functions that created the
inputs in the first place. For example, numericInput()
and
updateNumericInput()
take a similar set of arguments.
Any arguments with NULL values will be ignored; they will not result in any changes to the input object on the client.
For radioButtons()
, checkboxGroupInput()
and
selectInput()
, the set of choices can be cleared by using
choices=character(0)
. Similarly, for these inputs, the selected item
can be cleared by using selected=character(0)
.
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("controller", "Controller", 0, 20, 10), textAreaInput("inText", "Input textarea"), textAreaInput("inText2", "Input textarea 2") ) server <- function(input, output, session) { observe({ # We'll use the input$controller variable multiple times, so save it as x # for convenience. x <- input$controller # This will change the value of input$inText, based on x updateTextAreaInput(session, "inText", value = paste("New text", x)) # Can also set the label, this time for input$inText2 updateTextAreaInput(session, "inText2", label = paste("New label", x), value = paste("New text", x)) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("controller", "Controller", 0, 20, 10), textAreaInput("inText", "Input textarea"), textAreaInput("inText2", "Input textarea 2") ) server <- function(input, output, session) { observe({ # We'll use the input$controller variable multiple times, so save it as x # for convenience. x <- input$controller # This will change the value of input$inText, based on x updateTextAreaInput(session, "inText", value = paste("New text", x)) # Can also set the label, this time for input$inText2 updateTextAreaInput(session, "inText2", label = paste("New label", x), value = paste("New text", x)) }) } shinyApp(ui, server) }
Change the value of a text input on the client
updateTextInput( session = getDefaultReactiveDomain(), inputId, label = NULL, value = NULL, placeholder = NULL )
updateTextInput( session = getDefaultReactiveDomain(), inputId, label = NULL, value = NULL, placeholder = NULL )
session |
The |
inputId |
The id of the input object. |
label |
The label to set for the input object. |
value |
Initial value. |
placeholder |
A character string giving the user a hint as to what can be entered into the control. Internet Explorer 8 and 9 do not support this option. |
The input updater functions send a message to the client, telling it to change the settings of an input object. The messages are collected and sent after all the observers (including outputs) have finished running.
The syntax of these functions is similar to the functions that created the
inputs in the first place. For example, numericInput()
and
updateNumericInput()
take a similar set of arguments.
Any arguments with NULL values will be ignored; they will not result in any changes to the input object on the client.
For radioButtons()
, checkboxGroupInput()
and
selectInput()
, the set of choices can be cleared by using
choices=character(0)
. Similarly, for these inputs, the selected item
can be cleared by using selected=character(0)
.
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("controller", "Controller", 0, 20, 10), textInput("inText", "Input text"), textInput("inText2", "Input text 2") ) server <- function(input, output, session) { observe({ # We'll use the input$controller variable multiple times, so save it as x # for convenience. x <- input$controller # This will change the value of input$inText, based on x updateTextInput(session, "inText", value = paste("New text", x)) # Can also set the label, this time for input$inText2 updateTextInput(session, "inText2", label = paste("New label", x), value = paste("New text", x)) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( sliderInput("controller", "Controller", 0, 20, 10), textInput("inText", "Input text"), textInput("inText2", "Input text 2") ) server <- function(input, output, session) { observe({ # We'll use the input$controller variable multiple times, so save it as x # for convenience. x <- input$controller # This will change the value of input$inText, based on x updateTextInput(session, "inText", value = paste("New text", x)) # Can also set the label, this time for input$inText2 updateTextInput(session, "inText2", label = paste("New label", x), value = paste("New text", x)) }) } shinyApp(ui, server) }
The modal dialog generated by urlModal
will display the URL in a
textarea input, and the URL text will be selected so that it can be easily
copied. The result from urlModal
should be passed to the
showModal()
function to display it in the browser.
urlModal(url, title = "Bookmarked application link", subtitle = NULL)
urlModal(url, title = "Bookmarked application link", subtitle = NULL)
url |
A URL to display in the dialog box. |
title |
A title for the dialog box. |
subtitle |
Text to display underneath URL. |
Busy indicators provide a visual cue to users when the server is busy calculating outputs or otherwise performing tasks (e.g., producing downloads). When enabled, a spinner is shown on each calculating/recalculating output, and a pulsing banner is shown at the top of the page when the app is otherwise busy. Busy indication is enabled by default for UI created with bslib, but must be enabled otherwise. To enable/disable, include the result of this function in anywhere in the app's UI.
useBusyIndicators(..., spinners = TRUE, pulse = TRUE, fade = TRUE)
useBusyIndicators(..., spinners = TRUE, pulse = TRUE, fade = TRUE)
... |
Currently ignored. |
spinners |
Whether to show a spinner on each calculating/recalculating output. |
pulse |
Whether to show a pulsing banner at the top of the page when the app is busy. |
fade |
Whether to fade recalculating outputs. A value of |
When both spinners
and pulse
are set to TRUE
, the pulse is
automatically disabled when spinner(s) are active. When both spinners
and
pulse
are set to FALSE
, no busy indication is shown (other than the
graying out of recalculating outputs).
busyIndicatorOptions()
for customizing the appearance of the busy
indicators.
library(bslib) ui <- page_fillable( useBusyIndicators(), card( card_header( "A plot", input_task_button("simulate", "Simulate"), class = "d-flex justify-content-between align-items-center" ), plotOutput("p"), ) ) server <- function(input, output) { output$p <- renderPlot({ input$simulate Sys.sleep(4) plot(x = rnorm(100), y = rnorm(100)) }) } shinyApp(ui, server)
library(bslib) ui <- page_fillable( useBusyIndicators(), card( card_header( "A plot", input_task_button("simulate", "Simulate"), class = "d-flex justify-content-between align-items-center" ), plotOutput("p"), ) ) server <- function(input, output) { output$p <- renderPlot({ input$simulate Sys.sleep(4) plot(x = rnorm(100), y = rnorm(100)) }) } shinyApp(ui, server)
validate()
provides convenient mechanism for validating that an output
has all the inputs necessary for successful rendering. It takes any number
of (unnamed) arguments, each representing a condition to test. If any
of condition fails (i.e. is not "truthy"), a special type of
error is signaled to stop execution. If this error is not handled by
application-specific code, it is displayed to the user by Shiny.
If you use validate()
in a reactive()
validation failures will
automatically propagate to outputs that use the reactive.
validate(..., errorClass = character(0)) need(expr, message = paste(label, "must be provided"), label)
validate(..., errorClass = character(0)) need(expr, message = paste(label, "must be provided"), label)
... |
A list of tests. Each test should equal |
errorClass |
A CSS class to apply. The actual CSS string will have
|
expr |
An expression to test. The condition will pass if the expression meets the conditions spelled out in Details. |
message |
A message to convey to the user if the validation condition is
not met. If no message is provided, one will be created using |
label |
A human-readable name for the field that may be missing. This
parameter is not needed if |
need()
An easy way to provide arguments to validate()
is to use need()
, which
takes an expression and a string. If the expression is not
"truthy" then the string will be used as the error message.
If "truthiness" is flexible for your use case, you'll need to explicitly
generate a logical values. For example, if you want allow NA
but not
NULL
, you can !is.null(input$foo)
.
If you need validation logic that differs significantly from need()
, you
can create your own validation test functions. A passing test should return
NULL
. A failing test should return either a string providing the error
to display to the user, or if the failure should happen silently, FALSE
.
Alternatively you can use validate()
within an if
statement, which is
particularly useful for more complex conditions:
if (input$x < 0 && input$choice == "positive") { validate("If choice is positive then x must be greater than 0") }
## Only run examples in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) ui <- fluidPage( checkboxGroupInput('in1', 'Check some letters', choices = head(LETTERS)), selectizeInput('in2', 'Select a state', choices = c("", state.name)), plotOutput('plot') ) server <- function(input, output) { output$plot <- renderPlot({ validate( need(input$in1, 'Check at least one letter!'), need(input$in2 != '', 'Please choose a state.') ) plot(1:10, main = paste(c(input$in1, input$in2), collapse = ', ')) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) ui <- fluidPage( checkboxGroupInput('in1', 'Check some letters', choices = head(LETTERS)), selectizeInput('in2', 'Select a state', choices = c("", state.name)), plotOutput('plot') ) server <- function(input, output) { output$plot <- renderPlot({ validate( need(input$in1, 'Check at least one letter!'), need(input$in2 != '', 'Please choose a state.') ) plot(1:10, main = paste(c(input$in1, input$in2), collapse = ', ')) }) } shinyApp(ui, server) }
Create a select list that can be used to choose a single or multiple items from the column names of a data frame.
varSelectInput( inputId, label, data, selected = NULL, multiple = FALSE, selectize = TRUE, width = NULL, size = NULL ) varSelectizeInput(inputId, ..., options = NULL, width = NULL)
varSelectInput( inputId, label, data, selected = NULL, multiple = FALSE, selectize = TRUE, width = NULL, size = NULL ) varSelectizeInput(inputId, ..., options = NULL, width = NULL)
inputId |
The |
label |
Display label for the control, or |
data |
A data frame. Used to retrieve the column names as choices for a |
selected |
The initially selected value (or multiple values if |
multiple |
Is selection of multiple items allowed? |
selectize |
Whether to use selectize.js or not. |
width |
The width of the input, e.g. |
size |
Number of items to show in the selection box; a larger number
will result in a taller box. Not compatible with |
... |
Arguments passed to |
options |
A list of options. See the documentation of selectize.js(https://selectize.dev/docs/usage)
for possible options (character option values inside |
By default, varSelectInput()
and selectizeInput()
use the
JavaScript library selectize.js
(https://selectize.dev/) to instead of the basic
select input element. To use the standard HTML select input element, use
selectInput()
with selectize=FALSE
.
A variable select list control that can be added to a UI definition.
The resulting server input
value will be returned as:
A symbol if multiple = FALSE
. The input
value should be
used with rlang's rlang::!!()
. For example,
ggplot2::aes(!!input$variable)
.
A list of symbols if multiple = TRUE
. The input
value
should be used with rlang's rlang::!!!()
to expand
the symbol list as individual arguments. For example,
dplyr::select(mtcars, !!!input$variabls)
which is
equivalent to dplyr::select(mtcars, !!input$variabls[[1]], !!input$variabls[[2]], ..., !!input$variabls[[length(input$variabls)]])
.
The variable selectize input created from varSelectizeInput()
allows
deletion of the selected option even in a single select input, which will
return an empty string as its value. This is the default behavior of
selectize.js. However, the selectize input created from
selectInput(..., selectize = TRUE)
will ignore the empty string
value when it is a single choice input and the empty string is not in the
choices
argument. This is to keep compatibility with
selectInput(..., selectize = FALSE)
.
Other input elements:
actionButton()
,
checkboxGroupInput()
,
checkboxInput()
,
dateInput()
,
dateRangeInput()
,
fileInput()
,
numericInput()
,
passwordInput()
,
radioButtons()
,
selectInput()
,
sliderInput()
,
submitButton()
,
textAreaInput()
,
textInput()
## Only run examples in interactive R sessions if (interactive()) { library(ggplot2) # single selection shinyApp( ui = fluidPage( varSelectInput("variable", "Variable:", mtcars), plotOutput("data") ), server = function(input, output) { output$data <- renderPlot({ ggplot(mtcars, aes(!!input$variable)) + geom_histogram() }) } ) # multiple selections ## Not run: shinyApp( ui = fluidPage( varSelectInput("variables", "Variable:", mtcars, multiple = TRUE), tableOutput("data") ), server = function(input, output) { output$data <- renderTable({ if (length(input$variables) == 0) return(mtcars) mtcars %>% dplyr::select(!!!input$variables) }, rownames = TRUE) } ) ## End(Not run) }
## Only run examples in interactive R sessions if (interactive()) { library(ggplot2) # single selection shinyApp( ui = fluidPage( varSelectInput("variable", "Variable:", mtcars), plotOutput("data") ), server = function(input, output) { output$data <- renderPlot({ ggplot(mtcars, aes(!!input$variable)) + geom_histogram() }) } ) # multiple selections ## Not run: shinyApp( ui = fluidPage( varSelectInput("variables", "Variable:", mtcars, multiple = TRUE), tableOutput("data") ), server = function(input, output) { output$data <- renderTable({ if (length(input$variables) == 0) return(mtcars) mtcars %>% dplyr::select(!!!input$variables) }, rownames = TRUE) } ) ## End(Not run) }
Create a container that includes one or more rows of content (each element passed to the container will appear on it's own line in the UI)
verticalLayout(..., fluid = TRUE)
verticalLayout(..., fluid = TRUE)
... |
Elements to include within the container |
fluid |
|
Other layout functions:
fillPage()
,
fixedPage()
,
flowLayout()
,
fluidPage()
,
navbarPage()
,
sidebarLayout()
,
splitLayout()
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( verticalLayout( a(href="http://example.com/link1", "Link One"), a(href="http://example.com/link2", "Link Two"), a(href="http://example.com/link3", "Link Three") ) ) shinyApp(ui, server = function(input, output) { }) }
## Only run examples in interactive R sessions if (interactive()) { ui <- fluidPage( verticalLayout( a(href="http://example.com/link1", "Link One"), a(href="http://example.com/link2", "Link Two"), a(href="http://example.com/link3", "Link Three") ) ) shinyApp(ui, server = function(input, output) { }) }
Use these functions to control where the gadget is displayed in RStudio (or
other R environments that emulate RStudio's viewer pane/dialog APIs). If
viewer APIs are not available in the current R environment, then the gadget
will be displayed in the system's default web browser (see
utils::browseURL()
).
paneViewer(minHeight = NULL) dialogViewer(dialogName, width = 600, height = 600) browserViewer(browser = getOption("browser"))
paneViewer(minHeight = NULL) dialogViewer(dialogName, width = 600, height = 600) browserViewer(browser = getOption("browser"))
minHeight |
The minimum height (in pixels) desired to show the gadget in
the viewer pane. If a positive number, resize the pane if necessary to show
at least that many pixels. If |
dialogName |
The window title to display for the dialog. |
width , height
|
The desired dialog width/height, in pixels. |
browser |
See |
A function that takes a single url
parameter, suitable for
passing as the viewer
argument of runGadget()
.
Creates a panel with a slightly inset border and grey background. Equivalent
to Bootstrap's well
CSS class.
wellPanel(...)
wellPanel(...)
... |
UI elements to include inside the panel. |
The newly created panel.
This function adds MathJax to the page and typeset the math expressions (if
found) in the content ...
. It only needs to be called once in an app
unless the content is rendered after the page is loaded, e.g. via
renderUI()
, in which case we have to call it explicitly every
time we write math expressions to the output.
withMathJax(...)
withMathJax(...)
... |
any HTML elements to apply MathJax to |
withMathJax(helpText("Some math here $$\\alpha+\\beta$$")) # now we can just write "static" content without withMathJax() div("more math here $$\\sqrt{2}$$")
withMathJax(helpText("Some math here $$\\alpha+\\beta$$")) # now we can just write "static" content without withMathJax() div("more math here $$\\sqrt{2}$$")
Reports progress to the user during long-running operations.
withProgress( expr, min = 0, max = 1, value = min + (max - min) * 0.1, message = NULL, detail = NULL, style = getShinyOption("progress.style", default = "notification"), session = getDefaultReactiveDomain(), env = parent.frame(), quoted = FALSE ) setProgress( value = NULL, message = NULL, detail = NULL, session = getDefaultReactiveDomain() ) incProgress( amount = 0.1, message = NULL, detail = NULL, session = getDefaultReactiveDomain() )
withProgress( expr, min = 0, max = 1, value = min + (max - min) * 0.1, message = NULL, detail = NULL, style = getShinyOption("progress.style", default = "notification"), session = getDefaultReactiveDomain(), env = parent.frame(), quoted = FALSE ) setProgress( value = NULL, message = NULL, detail = NULL, session = getDefaultReactiveDomain() ) incProgress( amount = 0.1, message = NULL, detail = NULL, session = getDefaultReactiveDomain() )
expr |
The work to be done. This expression should contain calls to
|
min |
The value that represents the starting point of the progress bar.
Must be less tham |
max |
The value that represents the end of the progress bar. Must be
greater than |
value |
Single-element numeric vector; the value at which to set the
progress bar, relative to |
message |
A single-element character vector; the message to be displayed
to the user, or |
detail |
A single-element character vector; the detail message to be
displayed to the user, or |
style |
Progress display style. If |
session |
The Shiny session object, as provided by |
env |
The environment in which |
quoted |
Whether |
amount |
For |
This package exposes two distinct programming APIs for working with progress.
Using withProgress
with incProgress
or setProgress
provide a simple function-based interface, while the Progress()
reference class provides an object-oriented API.
Use withProgress
to wrap the scope of your work; doing so will cause a
new progress panel to be created, and it will be displayed the first time
incProgress
or setProgress
are called. When withProgress
exits, the corresponding progress panel will be removed.
The incProgress
function increments the status bar by a specified
amount, whereas the setProgress
function sets it to a specific value,
and can also set the text displayed.
Generally, withProgress
/incProgress
/setProgress
should
be sufficient; the exception is if the work to be done is asynchronous (this
is not common) or otherwise cannot be encapsulated by a single scope. In that
case, you can use the Progress
reference class.
As of version 0.14, the progress indicators use Shiny's new notification API.
If you want to use the old styling (for example, you may have used customized
CSS), you can use style="old"
each time you call
withProgress()
. If you don't want to set the style each time
withProgress
is called, you can instead call
shinyOptions(progress.style="old")
just once, inside the server
function.
The result of expr
.
## Only run examples in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) ui <- fluidPage( plotOutput("plot") ) server <- function(input, output) { output$plot <- renderPlot({ withProgress(message = 'Calculation in progress', detail = 'This may take a while...', value = 0, { for (i in 1:15) { incProgress(1/15) Sys.sleep(0.25) } }) plot(cars) }) } shinyApp(ui, server) }
## Only run examples in interactive R sessions if (interactive()) { options(device.ask.default = FALSE) ui <- fluidPage( plotOutput("plot") ) server <- function(input, output) { output$plot <- renderPlot({ withProgress(message = 'Calculation in progress', detail = 'This may take a while...', value = 0, { for (i in 1:15) { incProgress(1/15) Sys.sleep(0.25) } }) plot(cars) }) } shinyApp(ui, server) }