Title: | A Lightweight Version of R Markdown |
---|---|
Description: | Render R Markdown to Markdown (without using 'knitr'), and Markdown to lightweight HTML or 'LaTeX' documents with the 'commonmark' package (instead of 'Pandoc'). Some missing Markdown features in 'commonmark' are also supported, such as raw HTML or 'LaTeX' blocks, 'LaTeX' math, superscripts, subscripts, footnotes, element attributes, and appendices, but not all 'Pandoc' Markdown features are (or will be) supported. With additional JavaScript and CSS, you can also create HTML slides and articles. This package can be viewed as a trimmed-down version of R Markdown and 'knitr'. It does not aim at rich Markdown features or a large variety of output formats (the primary formats are HTML and 'LaTeX'). Book and website projects of multiple input documents are also supported. |
Authors: | Yihui Xie [aut, cre] |
Maintainer: | Yihui Xie <[email protected]> |
License: | MIT + file LICENSE |
Version: | 0.4 |
Built: | 2024-11-07 13:42:38 UTC |
Source: | CRAN |
Markdown is a plain-text format that can be converted to HTML and other formats. This package can render R Markdown to Markdown, and then to an output document format. The main differences between this package and rmarkdown are that it does not use Pandoc or knitr (i.e., fewer dependencies), and it also has fewer Markdown features.
Maintainer: Yihui Xie [email protected] (ORCID)
Useful links:
Parse input into code chunks, inline code expressions, and text fragments:
crack()
is for parsing R Markdown, and sieve()
is for R scripts.
crack(input, text = NULL) sieve(input, text = NULL)
crack(input, text = NULL) sieve(input, text = NULL)
input |
A character vector to provide the input file path or text. If
not provided, the |
text |
A character vector as the text input. By default, it is read from
the |
For R Markdown, a code chunk must start with a fence of the form ```{lang}
, where lang
is the language name, e.g., r
or python
. The
body of a code chunk can start with chunk options written in "pipe comments",
e.g., #| eval = TRUE, echo = FALSE
(the CSV syntax) or #| eval: true
(the
YAML syntax). An inline code fragment is of the form `{lang} source`
embedded in Markdown text.
For R scripts, text blocks are extracted by removing the leading
#'
tokens. All other lines are treated as R code, which can optionally be
separated into chunks by consecutive lines of #|
comments (chunk options
are written in these comments). If no #'
or #|
tokens are found in the
script, the script will be divided into chunks that contain smallest
possible complete R expressions.
A list of code chunks and text blocks:
Code chunks are of the form list(source, type = "code_chunk", options, comments, ...)
: source
is a character vector of the source code of a
code chunk, options
is a list of chunk options, and comments
is a
vector of pipe comments.
Text blocks are of the form list(source, type = "text_block", ...)
. If
the text block does not contain any inline code, source
will be a
character string (lines of text concatenated by line breaks), otherwise it
will be a list with members that are either character strings (normal text
fragments) or lists of the form list(source, options, ...)
(source
is
the inline code, and options
contains its options specified inside `{lang, ...}`
).
Both code chunks and text blocks have a list member named lines
that
stores their starting and ending line numbers in the input.
For simplicity, sieve()
does not support inline code expressions.
Text after #'
is treated as pure Markdown.
It is a pure coincidence that the function names crack()
and sieve()
weakly resemble Carson Sievert's name, but I will consider adding a class
name sievert
to the returned value of sieve()
if Carson becomes the
president of the United States someday, which may make the value
radioactive and introduce a new programming paradigm named Radioactive
Programming (in case Reactive Programming is no longer fun or cool).
library(litedown) # parse R Markdown res = crack(c("```{r}\n1+1\n```", "Hello, `pi` = `{r} pi` and `e` = `{r} exp(1)`!")) str(res) # evaluate inline code and combine results with text fragments txt = lapply(res[[2]]$source, function(x) { if (is.character(x)) x else eval(parse(text = x$source)) }) paste(unlist(txt), collapse = "") # parse R code res = sieve(c("#' This is _doc_.", "", "#| eval=TRUE", "# this is code", "1 + 1")) str(res)
library(litedown) # parse R Markdown res = crack(c("```{r}\n1+1\n```", "Hello, `pi` = `{r} pi` and `e` = `{r} exp(1)`!")) str(res) # evaluate inline code and combine results with text fragments txt = lapply(res[[2]]$source, function(x) { if (is.character(x)) x else eval(parse(text = x$source)) }) paste(unlist(txt), collapse = "") # parse R code res = sieve(c("#' This is _doc_.", "", "#| eval=TRUE", "# this is code", "1 + 1")) str(res)
Get or set language engines for evaluating code chunks and inline code.
engines(...)
engines(...)
... |
Named values (for setting) or unnamed values (for getting). |
An engine function should have three arguments:
x
: An element in the crack()
list (a code chunk or a text block).
inline
: It indicates if x
is from a code chunk or inline code.
...
: Currently unused but recommended for future compatibility (more
arguments might be passed to the function).
The function should return a character value.
The usage is similar to reactor()
: engines('LANG')
returns an
engine function for the language LANG
, and engines(LANG = function(x, inline = FALSE, ...) {})
sets the engine for a language.
litedown::engines() # built-in engines
litedown::engines() # built-in engines
The function fuse()
extracts and runs code from code chunks
and inline code expressions in R Markdown, and interweaves the results with
the rest of text in the input, which is similar to what knitr::knit()
and
rmarkdown::render()
do. It also works on R scripts in a way similar to
knitr::spin()
. The function fiss()
extracts code from the input, and is
similar to knitr::purl()
.
The function mark()
renders Markdown to an output format via the
commonmark package.
fuse(input, output = NULL, text = NULL, envir = parent.frame(), quiet = FALSE) fiss(input, output = ".R", text = NULL) mark(input, output = NULL, text = NULL, options = NULL, meta = list())
fuse(input, output = NULL, text = NULL, envir = parent.frame(), quiet = FALSE) fiss(input, output = ".R", text = NULL) mark(input, output = NULL, text = NULL, options = NULL, meta = list())
input |
A character vector to provide the input file path or text. If
not provided, the |
output |
An output file path or a filename extension (e.g., |
text |
A character vector as the text input. By default, it is read from
the |
envir |
An environment in which the code is to be evaluated. It can be
accessed via |
quiet |
If |
options |
Options to be passed to the renderer. See |
meta |
A named list of metadata. Elements in the metadata will be used
to fill out the template by their names and values, e.g., |
The output file path if output is written to a file, otherwise a
character vector of the rendered output (wrapped in xfun::raw_string()
for clearer printing).
sieve()
, for the syntax of R scripts to be passed to fuse()
.
The spec of GitHub Flavored Markdown: https://github.github.com/gfm/
library(litedown) doc = c("```{r}", "1 + 1", "```", "", "$\\pi$ = `{r} pi`.") fuse(doc) fuse(doc, ".tex") fiss(doc) mark(c("Hello _World_!", "", "Welcome to **litedown**.")) # if input appears to be a file path but should be treated as text, use I() mark(I("This is *not* a file.md")) # that's equivalent to mark(text = "This is *not* a file.md") # output to a file (mark("_Hello_, **World**!", output = tempfile())) # convert to other formats mark("Hello _World_!", ".tex") mark("Hello _**`World`**_!", "xml") mark("Hello _**`World`**_!", "text")
library(litedown) doc = c("```{r}", "1 + 1", "```", "", "$\\pi$ = `{r} pi`.") fuse(doc) fuse(doc, ".tex") fiss(doc) mark(c("Hello _World_!", "", "Welcome to **litedown**.")) # if input appears to be a file path but should be treated as text, use I() mark(I("This is *not* a file.md")) # that's equivalent to mark(text = "This is *not* a file.md") # output to a file (mark("_Hello_, **World**!", output = tempfile())) # convert to other formats mark("Hello _World_!", ".tex") mark("Hello _**`World`**_!", "xml") mark("Hello _**`World`**_!", "text")
This is a helper function to fuse()
.Rmd
files and convert all their
Markdown output to a single output file, which is similar to
bookdown::render_book()
, but one major differences is that all HTML output
is written to one file, instead of one HTML file per chapter.
fuse_book(input = ".", output = NULL, envir = parent.frame())
fuse_book(input = ".", output = NULL, envir = parent.frame())
input |
A directory or a vector of file paths. By default, all
|
output |
An output file path or a filename extension (e.g., |
envir |
An environment in which the code is to be evaluated. It can be
accessed via |
If the output format (html_format()
or latex_format()
) needs to be
customized, the settings should be written in the config file
_litedown.yml
, e.g.,
--- output: litedown::html_format: options: toc: depth: 4 litedown::latex_format: meta: documentclass: "book"
In addition, you can configure the book via the book
field, e.g.,
--- book: new_session: true subdir: false pattern: "[.]R?md$" chapter_before: "Information before a chapter." chapter_after: "This chapter was generated from `$input$`." ---
The option new_session
specifies whether to render each input file in the
current R session or a separate new R session; chapter_before
and
chapter_after
specify text to be added to the beginning and end of each
file, respectively, which accepts some variables (e.g., $input$
is the
current input file path).
An output file path or the output content, depending on the output
argument.
fuse()
environmentGet the environment passed to the envir
argument of fuse()
, i.e., the
environment in which code chunks and inline code are evaluated.
fuse_env()
fuse_env()
When called during fuse()
, it returns the envir
argument value of
fuse()
. When called outside fuse()
, it returns the global environment.
Run fuse()
on R Markdown documents individually to generate a website.
fuse_site(input = ".")
fuse_site(input = ".")
input |
The root directory of the site, or a vector of input file paths. |
If a directory contains a config file _litedown.yml
, which has a YAML field
site
, the directory will be recognized as a site root directory. The YAML
field output
will be applied to all R Markdown files (an individual R
Markdown file can provide its own output
field in YAML to override the
global config). For example:
--- site: rebuild: "outdated" pattern: "[.]R?md$" output: litedown::html_format: meta: css: ["@default"] include_before: "[Home](/) [About](/about.html)" include_after: "© 2024 | [Edit]($input$)" ---
The option rebuild
determines whether to rebuild .Rmd
files. Possible
values are:
newfile
: Build an input file if it does not have a .html
output file.
outdated
: Rebuild an input file if the modification time of its .html
output file is newer than the input.
Output file paths (invisibly).
The primary output formats of litedown are HTML and LaTeX. These output
formats can be configured in the output
field of the YAML metadata of the
Markdown document.
html_format(options = NULL, meta = NULL, template = NULL, keep_md = FALSE) latex_format( options = NULL, meta = NULL, template = NULL, keep_md = FALSE, keep_tex = FALSE, latex_engine = "xelatex", citation_package = "natbib" )
html_format(options = NULL, meta = NULL, template = NULL, keep_md = FALSE) latex_format( options = NULL, meta = NULL, template = NULL, keep_md = FALSE, keep_tex = FALSE, latex_engine = "xelatex", citation_package = "natbib" )
meta , options
|
Arguments to be passed to |
template |
A template file path. |
keep_md , keep_tex
|
Whether to keep the intermediate ‘.md’ and ‘.tex’ files generated from ‘.Rmd’. |
latex_engine |
The LaTeX engine to compile ‘.tex’ to ‘.pdf’. |
citation_package |
The LaTeX package for processing citations. Possible
values are |
The output format functions have two purposes. The main purpose is to make it possible (and easier) to configure the output formats using YAML metadata inside a document, e.g.,
--- output: litedown::html_format: options: toc: true keep_md: true litedown::latex_format: latex_engine: pdflatex ---
The secondary purpose is for rmarkdown users to render R Markdown via
knitr::knit()
and mark()
(instead of Pandoc), and also use the Knit
button in RStudio. Although you can render R Markdown to Markdown via either
knitr::knit()
or fuse()
, please note that the two ways are not 100%
compatible with each other. If you choose to use litedown, we recommend
that you use fuse()
instead. If you want fuse()
to work with the Knit
button in RStudio, you have to add a special field to YAML:
--- knit: litedown:::knit ---
Without this field, RStudio will use knitr to render R Markdown.
An R Markdown output format.
A list of all options to control Markdown rendering. Options that are enabled
by default are marked by a +
prefix, and those disabled by default are
marked by -
.
markdown_options()
markdown_options()
See https://yihui.org/litedown/#sec:markdown-options for the full list of options and their documentation.
A character vector of all available options.
# all available options litedown::markdown_options() library(litedown) # toc example mkd <- c("# Header 1", "p1", "## Header 2", "p2") mark(mkd, options = "+number_sections") mark(mkd, options = "+number_sections+toc") # hard_wrap example mark("foo\nbar\n") mark("foo\nbar\n", options = "+hardbreaks") # latex math example mkd <- c( "`$x$` is inline math $x$!", "", "Display style:", "", "$$x + y$$", "", "\\begin{align} a^{2}+b^{2} & = c^{2}\\\\ \\sin^{2}(x)+\\cos^{2}(x) & = 1 \\end{align}" ) mark(mkd) mark(mkd, options = "-latex_math") # table example mark(" First Header | Second Header ------------- | ------------- Content Cell | Content Cell Content Cell | Content Cell ") # caption mark(" | a | b | |---|--:| | A | 9 | Table: A table _caption_. ") # no table mark(" First Header | Second Header ------------- | ------------- Content Cell | Content Cell Content Cell | Content Cell ", options = '-table') # autolink example mark("https://www.r-project.org/") mark("https://www.r-project.org/", options = "-autolink") # strikethrough example mark("~~awesome~~") mark("~~awesome~~", options = "-strikethrough") # superscript and subscript examples mark("2^10^") mark("2^10^", options = "-superscript") mark("H~2~O") mark("H~2~O", options = "-subscript") # code blocks mark('```r\n1 + 1;\n```') mark('```{.r}\n1 + 1;\n```') mark('```{.r .js}\n1 + 1;\n```') mark('```{.r .js #foo}\n1 + 1;\n```') mark('```{.r .js #foo style="background:lime;"}\n1 + 1;\n```') mark('````\nA _code chunk_:\n\n```{r, echo=TRUE}\n1 + 1;\n```\n````') # raw blocks mark('```{=html}\n<p>raw HTML</p>\n```') mark('```{=latex}\n<p>raw HTML</p>\n```') # filter out HTML tags mkd = '<style>a {}</style><script type="text/javascript">console.log("No!");</script>\n[Hello](#)' mark(mkd) # tagfiler doesn't work: https://github.com/r-lib/commonmark/issues/15 # mark(mkd, options = "tagfilter")
# all available options litedown::markdown_options() library(litedown) # toc example mkd <- c("# Header 1", "p1", "## Header 2", "p2") mark(mkd, options = "+number_sections") mark(mkd, options = "+number_sections+toc") # hard_wrap example mark("foo\nbar\n") mark("foo\nbar\n", options = "+hardbreaks") # latex math example mkd <- c( "`$x$` is inline math $x$!", "", "Display style:", "", "$$x + y$$", "", "\\begin{align} a^{2}+b^{2} & = c^{2}\\\\ \\sin^{2}(x)+\\cos^{2}(x) & = 1 \\end{align}" ) mark(mkd) mark(mkd, options = "-latex_math") # table example mark(" First Header | Second Header ------------- | ------------- Content Cell | Content Cell Content Cell | Content Cell ") # caption mark(" | a | b | |---|--:| | A | 9 | Table: A table _caption_. ") # no table mark(" First Header | Second Header ------------- | ------------- Content Cell | Content Cell Content Cell | Content Cell ", options = '-table') # autolink example mark("https://www.r-project.org/") mark("https://www.r-project.org/", options = "-autolink") # strikethrough example mark("~~awesome~~") mark("~~awesome~~", options = "-strikethrough") # superscript and subscript examples mark("2^10^") mark("2^10^", options = "-superscript") mark("H~2~O") mark("H~2~O", options = "-subscript") # code blocks mark('```r\n1 + 1;\n```') mark('```{.r}\n1 + 1;\n```') mark('```{.r .js}\n1 + 1;\n```') mark('```{.r .js #foo}\n1 + 1;\n```') mark('```{.r .js #foo style="background:lime;"}\n1 + 1;\n```') mark('````\nA _code chunk_:\n\n```{r, echo=TRUE}\n1 + 1;\n```\n````') # raw blocks mark('```{=html}\n<p>raw HTML</p>\n```') mark('```{=latex}\n<p>raw HTML</p>\n```') # filter out HTML tags mkd = '<style>a {}</style><script type="text/javascript">console.log("No!");</script>\n[Hello](#)' mark(mkd) # tagfiler doesn't work: https://github.com/r-lib/commonmark/issues/15 # mark(mkd, options = "tagfilter")
Helper functions to retrieve various types of package information that can be put together as the full package documentation like a pkgdown website. These functions can be called inside any R Markdown document.
pkg_desc(name = detect_pkg()) pkg_news( name = detect_pkg(), path = detect_news(name), recent = 1, toc = TRUE, number_sections = TRUE, ... ) pkg_code( path = attr(detect_pkg(), "path"), pattern = "[.](R|c|h|f|cpp)$", toc = TRUE, number_sections = TRUE ) pkg_citation(name = detect_pkg()) pkg_manual(name = detect_pkg(), toc = TRUE, number_sections = TRUE)
pkg_desc(name = detect_pkg()) pkg_news( name = detect_pkg(), path = detect_news(name), recent = 1, toc = TRUE, number_sections = TRUE, ... ) pkg_code( path = attr(detect_pkg(), "path"), pattern = "[.](R|c|h|f|cpp)$", toc = TRUE, number_sections = TRUE ) pkg_citation(name = detect_pkg()) pkg_manual(name = detect_pkg(), toc = TRUE, number_sections = TRUE)
name |
The package name (by default, it is automatically detected from
the |
path |
For |
recent |
The number of recent versions to show. By default, only the
latest version's news entries are retrieved. To show the full news, set
|
toc |
Whether to add section headings to the document TOC (when TOC has been enabled for the document). |
number_sections |
Whether to number section headings (when sections are numbered in the document). |
... |
Other arguments to be passed to |
pattern |
A regular expression to match filenames that should be treated as source code. |
A character vector (HTML or Markdown) that will be printed as is inside a code chunk of an R Markdown document.
pkg_desc()
returns an HTML table containing the package metadata.
pkg_news()
returns the news entries.
pkg_code()
returns the package source code under the R/
and
src/
directories.
pkg_citation()
returns the package citation in both the plain-text
and BibTeX formats.
pkg_manual()
returns all manual pages of the package in HTML.
litedown::pkg_desc() litedown::pkg_news() litedown::pkg_citation() litedown::pkg_manual()
litedown::pkg_desc() litedown::pkg_news() litedown::pkg_citation() litedown::pkg_manual()
Chunk options are stored in an environment returned by reactor()
. Option
values can be queried by passing their names to reactor()
, and set by
passing named values.
reactor(...)
reactor(...)
... |
Named values (for setting) or unnamed values (for getting). |
With no arguments, reactor()
returns an environment that stores the
options, which can also be used to get or set options. For example, with
opts = reactor()
, opts$name
returns an option value, and opts$name = value
sets an option to a value.
With named arguments, reactor()
sets options and returns a list of their
old values (e.g., reactor(echo = FALSE, fig.width = 8)
). The returned
list can be passed to reactor()
later to restore the options.
With unnamed arguments, reactor()
returns option values after received
option names as input. If one name is received, its value is returned
(e.g., reactor('echo')
). If multiple names are received, a named list of
values is returned (e.g., reactor(c('echo', 'fig.width'))
). A special
case is that if only one unnamed argument is received and it takes a list
of named values, the list will be used to set options, e.g.,
reactor(list(echo = FALSE, fig.width = 8))
, which is equivalent to
reactor(echo = FALSE, fig.width = 8)
.
# get options litedown::reactor("echo") litedown::reactor(c("echo", "fig.width")) # set options old = litedown::reactor(echo = FALSE, fig.width = 8) litedown::reactor(c("echo", "fig.width")) litedown::reactor(old) # restore options # use the environment directly opts = litedown::reactor() opts$echo mget(c("echo", "fig.width"), opts) ls(opts) # built-in options
# get options litedown::reactor("echo") litedown::reactor(c("echo", "fig.width")) # set options old = litedown::reactor(echo = FALSE, fig.width = 8) litedown::reactor(c("echo", "fig.width")) litedown::reactor(old) # restore options # use the environment directly opts = litedown::reactor() opts$echo mget(c("echo", "fig.width"), opts) ls(opts) # built-in options
Launch a web page to list and preview files under a directory.
roam(dir = ".", live = TRUE, ...)
roam(dir = ".", live = TRUE, ...)
dir |
A directory path. |
live |
Whether to enable live preview. If enabled, the browser page will be automatically updated upon modification of local files used by the page (e.g., the Markdown file or external CSS/JS/image files). If disabled, you can manually refresh the page to fully re-render it. |
... |
Other arguments to be passed to |
Markdown files will be converted to HTML and returned to the web browser directly without writing to HTML files, to keep the directory clean during the preview. Clicking on a filename will bring up an HTML preview. To see its raw content, click on the link on its file size instead.
A URL (invisibly) for the preview.
Timing can be enabled via the chunk option time = TRUE
(e.g., set
reactor(time = TRUE)
in the first code chunk). After it is
enabled, the execution time for code chunks and text blocks will be recorded.
This function can be called to retrieve the timing data later in the document
(e.g., in the last code chunk).
timing_data(threshold = 0, sort = TRUE, total = TRUE)
timing_data(threshold = 0, sort = TRUE, total = TRUE)
threshold |
A number (time in seconds) to subset data with. Only rows with time above this threshold are returned. |
sort |
Whether to sort the data by time in the decreasing order. |
total |
Whether to append the total time to the data. |
A data frame containing input file paths, line numbers, chunk labels,
and time. If no timing data is available, NULL
is returned.
By default, the data will be cleared after each call of fuse()
and
will not be available outside fuse()
. To store the data persistently, you
can set the time
option to a file path. This is necessary if you want to
get the timing data for multiple input documents (such as all chapters of a
book). Each document needs to point the time
option to the same path.
When you do not need timing any more, you will need to delete this file by
yourself.