Pandoc/PDF is a package for the Atom editor that makes it possible to use Pandoc directly from an editor pane to create a PDF, and to view that PDF in another Atom pane.
- Pandoc To Pdf Template
- Doc To Pdf Converter Free Download
- Pandoc To Pdf Images
- Pandoc Pdf To Png
- Pandoc Pdf To Docx
- Pandoc Convert Md To Pdf
- Compile Pandoc Markdown To Pdf
If you need to convert files from one markup format into another, pandoc is your swiss-army knife. Pandoc can convert between the following formats: (← = conversion from; → = conversion to; ↔︎ = conversion from and to) → custom writers can be written in lua. → via pdflatex, lualatex, xelatex, latexmk, tectonic, wkhtmltopdf, weasyprint, prince. Quite the same Wikipedia.
It is not a preview package, because what you see is the final, high-quality PDF output.
Activated by keyboard shortcut (default Alt-P
) or menu item, Pandoc/PDF inserts a toolbar into the active editor, processes the document with Pandoc, and shows the resulting PDF. By default, the document is reprocessed every time it is saved, but that can be deactivated and reprocessing triggered instead with the keyboard shortcut or a toolbar button.
Pandoc/PDF supports all of Pandoc's text-based input formats, including Pandoc's Markdown, reStructuredText, Textile, MediaWiki & DokuWiki markup, and DocBook. It supports PDF generation via Pandoc's latex
, beamer
, context
, html
, and ms
output formats.
Installation and prerequisites
Install from Atom's Settings/Install dialog (search for pandoc-pdf
) or via apm install pandoc-pdf
.
Pandoc needs to be installed. For full functionality, version 2.9.1 or later is necessary.
At least one PDF engine needs to be installed:
- Latexmk with pdfLaTeX, XeLaTeX, or LuaLaTeX (e.g. from TeX Live or MiKTeX)
- ConTeXt with pdfTeX, XeTeX, or LuaTeX (e.g. from TeX Live)
- wkhtmltopdf, WeasyPrint, or Prince
- pdfroff (from GNU troff)
If you choose Latexmk, see the Pandoc documentation for a list of the LaTeX packages needed by the default template.
To view the generated PDF within Atom, the pdfjs-viewer package is recommended, but pdf-view-plus or pdf-view can be used, too.
If the input format is Pandoc's Markdown, using the language-markdown package with a supported syntax theme is recommended for writing, but this does not affect the functionality of Pandoc/PDF.
Settings
Pandoc/PDF has settings to choose the PDF engine, Pandoc template and defaults file, and configure input file extensions. For a detailed explanation, see the package settings dialog after installation.
Toolbar buttons
The toolbar contains the following buttons:
Process with Pandoc into PDF
Triggers reprocessing with Pandoc. Processing occurs in the background, and Pandoc's log messages are shown in the 'Pandoc log messages' dialog.
Toggle Pandoc log messages
Toggles an overlay dialog with shows the Pandoc call including command line arguments, Pandoc's log messages, and its exit code. The icon is animated during processing, and changes color if warning or error messages are found. If Pandoc aborts processing with an error, the dialog opens automatically.
Save generated PDF
Pandoc generates the PDF file in a temporary directory along with other files, and opens it from there. This button allows to save the PDF to a user-chosen directory.
Open local defaults file in Atom
Recent versions of Pandoc allow options to be specified in a YAML-format 'DefaultsFile'. Pandoc/PDF checks whether a file with the same name as the document but the extension .yaml
is present in the document's directory, and if yes, passes it to Pandoc. This button creates/opens such a local defaults file in Atom.
Show intermediate files generated by Pandoc
Opens the temporary directory in the system file browser.
Show Pandoc/PDF settings
Opens the Pandoc/PDF package settings dialog.
Show Pandoc User's Guide
Opens https://pandoc.org/MANUAL.pdf within Atom for quick reference. Note that only a subset of Pandoc's capabilities are relevant for Pandoc/PDF.
This software is copyrighted © 2020 by Carsten Allefeld and released under the terms of the MIT license.
The main aim of the panderR package is to provide a minimal and easy tool for rendering R objects into Pandoc's markdown. The package is also capable of exporting/converting complex Pandoc documents (reports) in various ways. Regarding the difference between pander
and other packages for exporting R objects to different file formats, please refer to this section.
The stable version can be found on CRAN and can be installed easily in the R console like any other package:
On the other hand, I welcome everyone to use the most recent version of the package with quick-fixes, new features and probably new bugs. It's currently hosted on GitHub, and the current build status is:
It can be installed easily with the nifty function of the devtools
package from CRAN:
Or download the sources and build manually. If you're running R on Windows, you need to install Rtools.
Dependencies
Few cool packages from CRAN are needed for installing and/or using pander
:
- digest to compute hashes while caching,
- Rcpp to compile certain functions used by the package.
And there are also a few optional suggested or supported R packages, such as:
- koRpus to use hyphenation when splitting large table cells,
- lattice and ggplot2 for unified plot theme,
- survival, microbenchmark, zoo, nlme, descr, MASS packages includes some supported R classes,
- and pander can be also very useful inside of knitr.
Pandoc
pander heavily builds on Pandoc, which should be pre-installed before trying to convert your reports to different formats. Although main functions work without Pandoc, e.g. you can transform R objects into markdown or generate a markdown formatted report via Pandoc.brew or the custom reference class, but installing that great piece of software is suggested if you want to convert markdown to PDF/docx/HTML or other formats.
Starting v0.98.932 RStudio comes with a bundled Pandoc
binary, so one can save the tedious steps of installing Pandoc.
If you do not have RStudio installed, please refer to the installation process of Pandoc, which is quite straightforward on most-popular operating systems: download and run the binary (a few megabytes), and get a full-blown document converter in a few seconds/minutes. On some Linux distributions, it might be a bit more complicated (as repositories tend to provide out-dated versions of Pandoc, so you would need cabal-install
to install from sources). Please do not forget to restart your R session to update your PATH
after installation!
The package contains numerous helper functions, which render user specified inputs in Pandoc's markdown format or apply some extra formatting on it. All Pandoc-related functions' names are starting with pandoc
. For example pandoc.table
is used for rendering tables in markdown. For a technical documentation, see the HTML help files of the package at Rdocumentation.
All pandoc
functions generally prints to console and do not return anything by default. If you want the opposite, to get markdown in a string, call each function ending in .return
, for example pandoc.table.return
. For more details, please see the official documentation in e.g. ?pandoc.strong
.
The full list of currently available primitive Pandoc-related functions are:
- pandoc.indent
- pandoc.p
- pandoc.strong
- pandoc.emphasis
- pandoc.strikeout
- pandoc.verbatim
- pandoc.link
- pandoc.image
- pandoc.date
- pandoc.formula
- pandoc.footnote
- pandoc.horizontal.rule
- pandoc.header
- pandoc.title
For example there is a helper function rendering R lists into markdown:
Which command produces the following output:
One of the most popular feature in pander is pandoc.table
, rendering most tabular R objects into markdown tables with various options and settings (e.g. style, caption, cell highlighting, cell alignment, width):
Which command produces the following output by default:
Please note that all below features are also supported by the more concise pander
generic S3 method!
Formats
All four Pandoc formats are supported by pander. From those (multiline, simple, grid, pipe/rmarkdown), I'd suggest sticking to the default multiline
format with the most features, although rmarkdown
v1.0 fanatics might better like the pipe
table format. Please see a few examples below:
The default style is the multiline
format as most features (e.g. multi-line cells and alignment) are supported:
While simple
tables are much more compact, but do not support line breaks in cells:
My personal favorite, the grid
format is really handy for emacs users and it does support line breaks inside of cells, but cell alignment is not possible in most parsers:
And the so called rmarkdown
or pipe table format is often used directly with knitr
, since it was supporters by the first versions of the markdown
package:
But once again, you should simply stick to the default multiline table format in most cases. Otherwise, it's wise to update the default table format via panderOptions
.
Caption
It's really easy to add a caption to a table:
For more convenient and flexible usage, you might be interested in the special set.caption
helper function. Call the function at any time, and the next table or plot will catch up the provided caption:
Unless permanent
option is set for TRUE
(by default), caption will be set only for next table. To disable permanently set caption, just call set.caption(NULL)
or call set.caption
with permanent
parameter being set to FALSE
.
Highlighting cells
One of the fanciest features in pander is the ease of highlighting rows, columns or any cells in a table. This is a real markdown feature without custom HTML or LaTeX-only tweaks, so all HTML/PDF/MS Word/OpenOffice etc. formats are supported.
This can be achieved by calling pandoc.table
directly and passing any (or more) of the following arguments or calling the R function with the same names before rendering a table with either the pander
generic S3 method or via pandoc.table
:
- emphasize.rows
- emphasize.cols
- emphasize.cells
- emphasize.strong.rows
- emphasize.strong.cols
- emphasize.strong.cells
The emphasize
helpers would turn the affected cells to italic, while emphasize.strong
would apply a bold style to the cell. Of course a cell can be also italic and strong at the same time.
Those functions and arguments ending in rows
or cols
take a vector (like which columns or rows to emphasize in a table), while the cells
argument take either a vector (for one dimensional 'tables') or an array-like data structure with two columns holding row and column indexes of cells to be emphasized -- just like what which(..., arr.ind = TRUE)
returns. A quick-example:
For more examples, please see our 'Highlight cells in markdown tables' blog post.
Cell alignment
You can specify the alignment of the cells (left, right or center/centre) in a table directly by setting the justify
parameter:
Or pre-define the alignment for (all future) pandoc.table
or the pander
S3 generic method by a helper function:
Just like with captions, you can also specify the permanent
option to be TRUE
to update the default cell alignment for all future tables. And beside using set.alignment
helper function or passing parameters directly to pandoc.table
, you may also set the default alignment styles with panderOptions
.
What's even more fun, you can specify a function that takes the R object as its argument to compute some unique alignment for your table based on e.g. column values or variable types:
Table and cell width
Pandoc To Pdf Template
pandoc.table
can also deal with the problem of really wide tables. Ever had an issue in LaTeX or MS Word when tried to print a correlation matrix of 40 variables? Not a problem any more as you can split up the table with auto-added captions. The split.table
option defaults to 80 characters:
And too wide cells can also be split by line breaks. The maximum number of characters in a cell is specified by split.cells
parameter (default to 30), can be a single value, vector (values for each column separately) and relative vector (percentages of split.tables
parameter):
If the koRpus
package is installed, pandoc.table
can even split the cells with hyphening support:
Minor features
The pandoc.table
helper function turning any tabular R data into markdown table comes with a variety of further options and features. For example, the function automatically omits all line breaks found in each table cell to be able to apply the table.split
functionality. To preserve line breaks inside cells keep.line.breaks
parameter should be used.
Similarly, to print tables in plain ASCII without any markdown markup, set the plain.ascii
parameter to TRUE
, or if you do not like the row names to be highlighted in the tables, simply disable emphasize.rownames
. To see all possible options, please check ?pandoc.table
And please note, that all above mentioned features are also supported by the pander
generic S3 method and defaults can be updated via panderOptions
for permanent settings.
pander
or pandoc
(call as you wish) can deal with a bunch of R object types as being a pandocized S3
generic method with a variety of already supported classes:
If you think that pander
lacks support for any other R class(es), please feel free to leave change request here and we will be happy to extend the package.
Besides the most basic R object types (vectors, matrices, tables or data frames), list-support might be interesting for you:
A nested list can be seen above with a table and all (optional) list names. As a matter of fact, pander.list
is the default method of pander
too, when you call it on an unsupported R object class:
So pander
showed a not known class in an (almost) user-friendly way. And we got some warnings too styled with Pandoc footnote! If that document is exported to e.g. HTML
or pdf
, then the error/warning message could be found on the bottom of the page with a link. Note: there were two warnings in the above call - both captured and returned! Well, this is the feature of Pandoc.brew
, see below.
But the output of different statistical methods are tried to be prettyfied. Some the above call normally returns like:
A few other examples on the supported R classes:
And of course tables are formatted (e.g. auto add of line breaks, splitting up tables, hyphenation support or markdown format) based on the user specified panderOptions
.
The package is also capable of creating complex Pandoc documents (reports) from R objects in multiple ways:
create somehow a markdown text file (e.g. with
brew
,knitr
or any scripts of yours, maybe withPandoc.brew
- see just below) and transform that to other formats (like HTML, odt, PDF, docx etc.) withPandoc.convert
- similarly topandoc
function in knitr. Basically this is a wrapper around a Pandoc call, which has not much to do with R actually.users might write some reports with literate programming (similar to
knitr
) in a forked version of brew syntax resulting. This means that the user can include R code chunks in a document, and brewing that results in a pretty Pandoc's markdown document and also in a bunch of other formats (like HTML, odt, PDF, docx etc.). The great advantage of this function is that you do not have to transform your R objects to markdown manually, it's all handled automagically.Example: this
README.md
is cooked withPandoc.brew
based oninst/README.brew
and also exported to HTML. Details can be found below or head directly to examples.
- and users might create a report in a live R session by adding some R objects and paragraphs to a
Pandoc
reference class object. Details can be found below.
Brew to Pandoc
The brew package, which is a templating framework for report generation, has not been updated since 2011, but it's still used in bunch of R projects based on its simple design and useful features in literate programming. For a quick overview, please see the following documents if you are not familiar with brew
:
In short: a brew
document is a simple text file with some special tags. Pandoc.brew
uses only two of them (as building on a personalized version of Jeff's really great brew
function):
<%= ... %>
stand for running inline R commands as usual,<%= ... %>
does pretty much the same but appliespander
to the returning R object (instead ofcat
like the originalbrew
function does). So putting there any R object, it would return in a nice Pandoc's markdown format with all possible error/warning messages etc.
This latter tries to be smart in some ways:
- A code chunk block (R commands between the tags) can return any number of values at any part of the block.
- Plots and images are grabbed in the document, rendered to a
png
file andpander
method would result in a Pandoc markdown formatted image link. This means that the image would be rendered/shown/included in the exported document. - All warnings/messages and errors are recorded in the blocks and returned in the document as footnotes or inline messages.
- All heavy R commands (e.g. those taking more then 0.1 sec to evaluate) are cached so re
brew
ing a report would not result in a coffee break.
Besides this, the custom brew
function can do more and also less compared to the original brew
package. First of all, the internal caching mechanism of brew
has been removed and rewritten for some extra profits besides improved caching.
For example now multiple R expressions can be passed between the <%= ... %>
tags, and not only the text results, but the evaluated R objects are also (invisibly) returned in a structured list. This can be really useful while post-processing the results of brew
. Quick example:
This document was generated by Pandoc.brew
based on inst/README.brew
so the above examples were generated automatically by running:
The output is set to stdout
by default, which means that the resulting text is written to the R console. But setting the output
to a text file and running Pandoc on that to create a HTML
, odt
, docx
or other document in one go is also possible. To export a brewed file to other then Pandoc's markdown, please use the convert
parameter. For example:
So to brew this README with all R chunks automatically converted to html, please run:
Examples
The package bundles some examples for Pandoc.brew
to let you check its features pretty fast. These are:
To brew
these examples on your machine, try to run the followings commands:
For easier access, I have uploaded some exported documents of the above examples as well:
- minimal.brew: markdownhtmlpdfodtdocx
- short-code-long-report.brew: markdownhtmlpdfodtdocx
- graphs.brew: markdownhtmlpdfodtdocx
Please check out pdf
, docx
, odt
and other formats by changing the above convert
option on your machine, and do not forget to give some feedback!
Live report generation
pander
package has a special reference class called Pandoc
which could collect some blocks in a live R session and export the whole document to Pandoc/PDF/HTML etc. Without any serious further explanations, please check out the below (self-commenting) example:
When working on the rapport package, I really needed some nifty R function that can evaluate R expression along with capturing errors and warnings. Unfortunately the evaluate
package had only limited features at that time, as it could not return the raw R object, but only the standard output with messages. So I wrote my own function, and soon some further feature requests arose, like identifying if an R expression results in a plot etc.
But probably it's easier to explain what evals
can do with a simple example:
So evals
can evaluate a character vector of R expressions, and it returns a list of captured stuff while running those:
src
holds the R expression,result
contains the raw R object as is,output
represents how the R object is printed to the standard output,type
is theclass
of the returned R object,msg
is a list of possible messages captured while running the R expression andstdout
contains if anything was written to the standard output.
Besides capturing this nifty list of important circumstances, evals
can automatically identify if an R expression is returning anything to a graphical device, and can save the resulting image in a variety of file formats along with some extra options, like applying a custom theme on base, lattice
or ggplot2
plots:
So instead of a captured R object (which would be NULL
in this situation by the way), we get the path of the image where the plot was saved:
Well, this is not a standard histogram usually returned by the hist
function, right? As mentioned before, evals
have some extra features like applying the user defined theme on various plots automatically. Please see the graphs.brew
example above for further details, or check the related global options. If you do not like this feature, simply add evalsOptions('graph.unify
, FALSE)to your
.Rprofile`.
Further features are described in the technical docs, and now I'll only give a brief introduction to another important feature of evals
.
Caching
As pander::evals
is using a custom caching algorithm in the means of evaluating R expressions, it might be worthwhile to give a short summary of what is going on in the background when you are running e.g. Pandoc.brew
, the 'live report generation' engine or evals
directly:
- Each passed R chunk is
parse
d to single R expressions. - Each parsed expression's part (let it be a function, variable, constant etc.) is evaluated (as
name
) separately to alist
. This list describes the unique structure and the content of the passed R expressions. This has some really great benefits (see below). - A hash is computed of each list element and cached too in
pander
's local environments. This is useful if you are using large data frames, just imagine: the caching algorithm would have to compute the hash for the same data frame each time it's touched! This way the hash is recomputed only if the R object with the given name is changed. - The list of such R objects is serialized, then an
SHA-1
hash is computed, which is unique and there is no real risk of collision. - If
evals
can find the cached results in an environment ofpander
's namespace (ifcache.mode
set toenviroment
- see below) or in a file named to the computed hash (ifċache.mode
set todisk
), then it is returned on the spot. The objects modified/created by the cached code are also updated. - Otherwise the call is evaluated and the results and the modified R objects of the environment are optionally saved to cache (e.g. if
cache
is active and if theproc.time()
of the evaluation is higher then it is defined incache.time
- see details in evals' options).
As pander
does not cache based on raw sources of chunks and there is no easy way of enabling/disabling caching on a chunk basis, the users have to live with some great advantages and some minor tricky situations - which latter cannot be solved theoretically in my opinion, but I'd love to hear your feedback.
The caching hash is computed based on the structure and content of the R commands instead of the used variable names or R expressions, so let us make some POC example to show the greatest asset:
Doc To Pdf Converter Free Download
It took a while, huh? :)
Let us create some custom functions and variables, which are not identical to the above call:
And now try to run something like:
Yes, it was returned from cache!
Pandoc To Pdf Images
About the kickback:
As pander
(or rather: evals
) does not really deal with what is written in the provided sources but rather checks what is inside that, there might be some tricky situations where you would expect the cache to work, but it would not. Short example: we are computing and saving to a variable something heavy in a chunk (please run these in a clean R session to avoid conflicts):
It is cached, just run again, you will see.
But if you would create x
in your global environment with any value (which has nothing to do with the special environment of the report!) andx
was not defined in the report before this call (and you had no x
value in your global environment before), then the content of x
would result in a new hash for the cache - so caching would not work. E.g.:
I really think this is a minor issue (with very special coincidences) which cannot be addressed cleverly - but could be avoided with some cautions (e.g. run Pandoc.brew
in a clean R session like with Rscript
or littler
- if you are really afraid of this issue). And after all: you loose nothing, just the cache would not work for that only line and only once in most of the cases.
Other cases when the hash of a call will not match cached hashes:
- a number is replaced by a variable holding the number, e.g.:
evals('1:5')
vs.x <- 1:5;evals('x')
- a part of an R object is replaced by a variable holding that, e.g.:
evals('mean(mtcars$hp)')
vs.x <- mtcars$hp;evals('mean(x)')
But the e.g. following do work from cache fine:
The package comes with a variety of globally adjustable options, which have an effect on the result of your reports. You can query and update these options with the panderOptions
function:
digits
: numeric (default:2
) passed toformat
decimal.mark
: string (default:.
) passed toformat
formula.caption.prefix
: string (default:Formula:
) passed topandoc.formula
to be used as caption prefix. Be sure about what you are doing if changing to other thanFormula:
or:
.big.mark
: string (default: `) passed to
format`round
: numeric (default:Inf
) passed toround
keep.trailing.zeros
: boolean (default:FALSE
) show or remove trailing zeros in numbers (e.g. in numeric vectors or in columns of tables with numeric values)keep.line.breaks
: boolean (default:FALSE
) to keep or remove line breaks from cells in a tabledate
: string (default:'%Y/%m/%d %X'
) passed toformat
when printing dates (POSIXct
orPOSIXt
)header.style
:'atx'
or'setext'
passed topandoc.header
list.style
:'bullet'
(default),'ordered'
or'roman'
passed topandoc.list
. Please not that this has no effect onpander
methods.table.style
:'multiline'
,'grid'
or'simple'
passed topandoc.table
table.emphasize.rownames
: boolean (default:TRUE
) if row names should be highlightedtable.split.table
: numeric passed topandoc.table
and also affectspander
methods. This option tellspander
where to split too wide tables. The default value (80
) suggests the conventional number of characters used in a line, feel free to change (e.g. toInf
to disable this feature) if you are not using a VT100 terminal any more :)table.split.cells
: numeric (default: 30) passed topandoc.table
and also affects pander methods. This option tells pander where to split too wide cells with line breaks. Set `Inf`` to disable.table.caption.prefix
: string (default:Table:
) passed topandoc.table
to be used as caption prefix. Be sure about what you are doing if changing to other thanTable:
or:
.table.continues
: string (default:Table continues below
) passed topandoc.table
to be used as caption for long (split) without a use defined captiontable.continues.affix
: string (default:(continued below)
) passed topandoc.table
to be used as an affix concatenated to the user defined caption for long (split) tablestable.alignment.default
: string (default:centre
) that defines the default alignment of cells. Can beleft
,right
orcentre
that latter can be also spelled ascenter
table.alignment.rownames
: string (default:centre
) that defines the alignment of rownames in tables. Can beleft
,right
orcentre
that latter can be also spelled ascenter
use.hyphening
: boolean (default:FALSE
) if try to use hyphening when splitting large cells according to table.split.cells. RequireskoRpus
package.evals.messages
: boolean (default:TRUE
) passed toevals
'pander
method specifying if messages should be renderedp.wrap
: a string (default:'_'
) to wrap vector elements passed top
functionp.sep
: a string (default:', '
) with the main separator passed top
functionp.copula
: a string (default:'and'
) a string with ending separator passed top
functionplain.ascii
: boolean (default: FALSE) to define if output should be in plain ascii or notgraph.nomargin
: boolean (default:TRUE
) if trying to keep plots' margins at minimalgraph.fontfamily
: string (default:'sans'
) specifying the font family to be used in images. Please note, that using a custom font on Windows requiresgrDevices:::windowsFonts
first.graph.fontcolor
: string (default:'black'
) specifying the default font colorgraph.fontsize
: numeric (default:12
) specifying the base font size in pixels. Main title is rendered with1.2
and labels with0.8
multiplier.graph.grid
: boolean (default:TRUE
) if a grid should be added to the plotgraph.grid.minor
: boolean (default:TRUE
) if a miner grid should be also renderedgraph.grid.color
: string (default:'grey'
) specifying the color of the rendered gridgraph.grid.lty
: string (default:'dashed'
) specifying the line type of gridgraph.boxes
: boolean (default:FALSE
) if to render a border around of plot (and e.g. around strip)graph.legend.position
: string (default:'right'
) specifying the position of the legend: 'top', 'right', 'bottom' or 'left'graph.background
: string (default:'white'
) specifying the plots main background's colorgraph.panel.background
: string (default:'transparent'
) specifying the plot's main panel background. Please note, that this option is not supported withbase
graphics.graph.colors
: character vector of default color palette (defaults to a colorblind theme). Please note that this update work withbase
plots by appending thecol
argument to the call if not set.graph.color.rnd
: boolean (default:FALSE
) specifying if the palette should be reordered randomly before rendering each plot to get colorful imagesgraph.axis.angle
: numeric (default:1
) specifying the angle of axes' labels. The available options are based onpar(les)
and sets if the labels should be:1
: parallel to the axis,2
: horizontal,3
: perpendicular to the axis or4
: vertical.
graph.symbol
: numeric (default:1
) specifying a symbol (see thepch
parameter ofpar
)knitr.auto.asis
: boolean (default:TRUE
) if the results ofpander
should be considered asasis
inknitr
. Equals to specifyingresults='asis'
in the R chunk, so thus there is no need to do so if set totTRUE
.
Besides localization of numeric formats or the styles of tables, lists and plots, there are some technical options as well, which would effect e.g. caching or the format of rendered image files. You can query/update those with the evalsOptions
function as the main backend of pander
calls is a custom evaluation function called evals
.
The list of possible options are:
parse
: ifTRUE
the providedtxt
elements would be merged into one string and parsed to logical chunks. This is useful if you would want to get separate results of your code parts - not just the last returned value, but you are passing the whole script in one string. To manually lock lines to each other (e.g. calling aplot
and on next line adding anabline
ortext
to it), use a plus char (+
) at the beginning of each line which should be evaluated with the previous one(s). If set toFALSE
,evals
would not try to parse R code, it would get evaluated in separate runs - as provided. Please see the documentation ofevals
.cache
: caching the result of R calls if set toTRUE
cache.mode
: cached results could be stored in anenvironment
in current R session or let it be permanent ondisk
.cache.dir
: path to a directory holding cache files ifcache.mode
set todisk
. Default set to.cache
in current working directory.cache.time
: number of seconds to limit caching based onproc.time
. If set to0
, all R commands, if set toInf
, none is cached (despite thecache
parameter).cache.copy.images
: copy images to new file names if an image is returned from the disk cache? If set toFALSE
(default), the cached path would be returned.classes
: a vector or list of classes which should be returned. If set toNULL
(by default) all R objects will be returned.hooks
: list of hooks to be run for given classes in the form oflist(class = fn)
. If you would also specify some parameters of the function, a list should be provided in the form oflist(fn, param1, param2=NULL)
etc. So the hooks would becomelist(class1=list(fn, param1, param2=NULL), ...)
. See example ofevals
for more details. A default hook can be specified too by setting the class to'default'
. This can be handy if you do not want to define separate methods/functions to each possible class, but automatically apply the default hook to all classes not mentioned in the list. You may also specify only one element in the list like:hooks=list('default' = pander.return)
. Please note, that nor error/warning messages, nor stdout is captured (so: updated) while running hooks!length
: any R object exceeding the specified length will not be returned. The default value (Inf
) does not filter out any R objects.output
: a character vector of required returned values. This might be useful if you are only interested in theresult
, and do not want to save/see e.g.messages
orprint
edoutput
. See examples ofevals
.graph.unify
: shouldevals
try to unify the style of (base
,lattice
andggplot2
) plots? If set toTRUE
, somepanderOptions()
would apply. By default this is disabled not to freak out useRs :)graph.name
: set the file name of saved plots which is%s
by default. A simple character string might be provided where%d
would be replaced by the index of the generatingtxt
source,%n
with an incremented integer ingraph.dir
with similar file names and%t
by some unique random characters. When used in abrew
file,%i
is also available which would be replaced by the chunk number.graph.dir
: path to a directory where to place generated images. If the directory does not exist,evals
try to create that. Default set toplots
in current working directory.graph.output
: set the required file format of saved plots. Currently it could be any ofgrDevices
:png
,bmp
,jpeg
,jpg
,tiff
,svg
orpdf
. Set toNA
not to save plots at all and tweak that setting withcapture.plot()
on demand.width
: width of generated plot in pixels for even vector formatsheight
: height of generated plot in pixels for even vector formatsres
: nominal resolution inppi
. The height and width of vector images will be calculated based in this.hi.res
: generate high resolution plots also? If set toTRUE
, each R code parts resulting an image would be run twice.hi.res.width
: width of generated high resolution plot in pixels for even vector formats. Theheight
andres
of high resolution image is automatically computed based on the above options to preserve original plot aspect ratio.graph.env
: save the environments in which plots were generated to distinct files (based ongraph.name
) withenv
extension?graph.recordplot
: save the plot viarecordPlot
to distinct files (based ongraph.name
) withrecodplot
extension?graph.RDS
save the raw R object returned (usually withlattice
orggplot2
) while generating the plots to distinct files (based ongraph.name
) withRDS
extension?
How does pander
differ from Sweave, brew, knitr, R2HTML and the other tools of literate programming? First of all pander
can be used as a helper with any other literate programming solution, so you can call pander
inside of knitr
chunks.
But if you stick with pander
's literate programming engine, then there's not much need for calling ascii
, xtable
, Hmisc
, tables
etc. or even pander
in the R command chunks to transform R objects into markdown, HTML, tex etc. as Pandoc.brew
automatically results in Pandoc's markdown, which can be converted to almost any text document format. Conversion can be done automatically after calling pander
reporting functions (Pander.brew or Pandoc).
Based on the fact that pander
transforms R objects into markdown, no 'traditional' R console output is shown in the resulting document (nor in markdown, nor in exported docs), but all R objects are transformed to tables, list etc. Well, there is an option (show.src
) to show the original R commands before the formatted output, and pander
calls can be also easily tweaked to return the printed version of the R objects - if you would need that in some strange situation - like writing an R tutorial. But really think that nor R code, nor raw R results have anything to do with an exported report.
Of course all warnings, messages and errors are captured while evaluating R expressions just like stdout
besides the raw R objects. So the resulting report also includes the raw R objects for further edits if needed - which is a very unique feature.
Graphs and plots are automatically identified in code chunks and saved to disk in a png
file linked in the resulting document. This means that if you create a report (e.g. brew
a text file) and export it to PDF/docx etc. all the plots/images would be there. There are some parameters to specify the resolution of the image and also the type (e.g. jpg
, svg
or pdf
) besides a wide variety of theme options. About the latter, please check the graphs.brew
example above.
And pander
uses its built-in (IMHO quite decent) caching engine. This means that if the evaluation of some R commands takes too long time (which can be set by option/parameter), then the results are saved in a file and returned from there on next similar R code's evaluation. This caching algorithm tries to be smart, as it not only checks the passed R sources, but the content of all variables and functions, and saves the hash of those. This is a quite secure way of caching (see details above), but if you would encounter any issues, just switch off the cache. I've not seen any issues for years :)
Pandoc Pdf To Png
I have created some simple LISP functions which would be handy if you are using the best damn IDE for R. These functions and default key-bindings are shipped with the package, feel free to personalize.
As time passed these small functions grew heavier (with my Emacs knowledge) so I ended up with a small library:
pander-mode
I am currently working on pander-mode
which is a small minor-mode for Emacs. There are a few (but useful) functions with default keybindings:
Pandoc Pdf To Docx
pander-brew
(C-c p b
): RunPandoc.brew
on current buffer or region (if mark is active), show results in ess-output and (optionally) copy results to clipboard while setting working directory totempdir()
temporary.pander-brew-export
(C-c p B
): RunPandoc.brew
on current buffer or region (if mark is active) and export results to specified (auto-complete in minibuffer) format. Also tries to open exported document.pander-eval
(C-c p e
): Runpander
on (automatically evaluated) region or current chunk (if marker is not set), show results (of last returned R object) in*ess-output*
and (optionally) copy those to clipboard while setting working directory totempdir()
temporary.
Few options of pander-mode
: M-x customize-group pander
pander-clipboard
: If non-nil then the result ofpander-*
functions would be copied to clipboard.pander-show-source
: If non-nil then the source of R commands would also show up in generated documents while running 'pander-eval'. This would not affectbrew
functions ATM.
Pandoc Convert Md To Pdf
To use this small lib, just type: M-x pander-mode
on any document. It might be useful to add a hook to markdown-mode
if you find this useful.
Compile Pandoc Markdown To Pdf
This report was generated with R (3.1.1) and pander (0.5.0) in 0.835 sec on x86_64-unknown-linux-gnu platform.