Codebraid Preview for VS Code: Pandoc Markdown Preview with Jupyter Kernels

—Codebraid Preview is a VS Code extension that provides a live preview of Pandoc Markdown documents with optional support for executing embedded code. Unlike typical Markdown previews, all Pandoc features are fully supported because Pandoc itself generates the preview. The Markdown source and the preview are fully integrated with features like bidirectional scroll sync. The preview supports LaTeX math via KaTeX. Code blocks and inline code can be executed with Codebraid, using either its built-in execution system or Jupyter kernels. For executed code, any combination of the code and its output can be displayed in the preview as well as the ﬁnal document. Code execution is non-blocking, so the preview always remains live and up-to-date even while code is still running.


Introduction
Pandoc [JM22] is increasingly a foundational tool for creating scientific and technical documents.It provides Pandoc's Markdown and other Markdown variants that add critical features absent in basic Markdown, such as citations, footnotes, mathematics, and tables.At the same time, Pandoc simplifies document creation by providing conversion from Markdown (and other formats) to formats like LaTeX, HTML, Microsoft Word, and PowerPoint.Pandoc is especially useful for documents with embedded code that is executed during the build process.RStudio's RMarkdown [RSt20] and more recently Quarto [RSt22] leverage Pandoc to convert Markdown documents to other formats, with code execution provided by knitr [YX15].JupyterLab [GP21] centers the writing experience around an interactive, browser-based notebook instead of a Markdown document, but still relies on Pandoc for export to formats other than HTML [Jup22].There are also ways to interact with a Jupyter Notebook as a Markdown document, such as Jupytext [MWtJT20] and Pandoc's own native Jupyter support.
Writing with Pandoc's Markdown or a similar Markdown variant has advantages when multiple output formats are required, since Pandoc provides the conversion capabilities.Pandoc Markdown variants can also serve as a simpler syntax when creating HTML, LaTeX, or similar documents.They allow HTML and LaTeX to be intermixed with Markdown syntax.They also support including raw chunks of text in other formats such as reStructured-Text.When executable code is involved, the RMarkdown-style approach of Markdown with embedded code can sometimes be more convenient than a browser-based Jupyter notebook since the writing process involves more direct interaction with the complete document source.
While using a Pandoc Markdown variant as a source format brings many advantages, the actual writing process itself can be less than ideal, especially when executable code is involved.Pandoc Markdown variants are so powerful precisely because they provide so many extensions to Markdown, but this also means that they can only be fully rendered by Pandoc itself.When text editors such as VS Code provide a built-in Markdown preview, typically only a small subset of Pandoc features is supported, so the representation of the document output will be inaccurate.Some editors provide a visual Markdown editing mode, in which a partially rendered version of the document is displayed in the editor and menus or keyboard shortcuts may replace the direct entry of Markdown syntax.These generally suffer from the same issue.This is only exacerbated when the document embeds code that is executed during the build process, since that goes even further beyond basic Markdown.
An alternative is to use Pandoc itself to generate HTML or PDF output, and then display this as a preview.Depending on the text editor used, the HTML or PDF might be displayed within the text editor in a panel beside the document source, or in a separate browser window or PDF viewer.For example, Quarto offers both possibilities, depending on whether RStudio, VS Code, or another editor is used. 1 While this approach resolves the inaccuracy issues of a basic Markdown preview, it also gives up features such as scroll sync that tightly integrate the Markdown source with the preview.In the case of executable code, there is the additional issue of a time delay in rendering the preview.Pandoc itself can typically convert even a relatively long document in under one second.However, when code is executed as part of the document build process, preview update is blocked until code execution completes.
This paper introduces Codebraid Preview, a VS Code extension that provides a live preview of Pandoc Markdown documents with optional support for executing embedded code.Codebraid Preview provides a Pandoc-based preview while avoiding most of the traditional drawbacks of this approach.The next section 1.The RStudio editor is unique in also offering a Pandoc-based visual editing mode, starting with version 1.4 from January 2021 (https://www.rstudio.com/blog/announcing-rstudio-1-4/).
provides an overview of features.This is followed by sections focusing on scroll sync, LaTeX support, and code execution as examples of solutions and remaining challenges in creating a better Pandoc writing experience.
The preview panel can be opened using the VS Code command palette, or by clicking the Codebraid Preview button that is visible when a Markdown document is open.The preview panel takes the document in its current state, converts it into HTML using Pandoc, and displays the result using a webview.An example is shown in Figure 1.Since the preview is generated by Pandoc, all Pandoc features are fully supported.
By default, the preview updates automatically whenever the Markdown source is changed.There is a short user-configurable minimum update interval.For shorter documents, sub-second updates are typical.
The preview uses the same styling CSS as VS Code's builtin Markdown preview, so it automatically adjusts to the VS Code color theme.For example, changing between light and dark themes changes the background and text colors in the preview.
Codebraid Preview leverages recent Pandoc advances to provide bidirectional scroll sync between the Markdown source and the preview for all CommonMark-based Markdown variants that Pandoc supports (commonmark, gfm, commonmark_x).By default, Codebraid Preview treats Markdown documents as commonmark_x, which is CommonMark with Pandoc extensions for features like math, footnotes, and special list types.The preview still works for other Markdown variants, but scroll sync is disabled.By default, scroll sync is fully bidirectional, so scrolling either the source or the preview will cause the other to scroll to the corresponding location.Scroll sync can instead be configured to be only from source to preview or only from preview to source.As far as I am aware, this is the first time that scroll sync has been implemented in a Pandoc-based preview.
The same underlying features that make scroll sync possible are also used to provide other preview capabilities.Doubleclicking in the preview moves the cursor in the editor to the corresponding line of the Markdown source.
Since many Markdown variants support LaTeX math, the preview includes math support via KaTeX [EA22].
Codebraid Preview can simply be used for writing plain Pandoc documents.Optional execution of embedded code is possible with Codebraid [GMP19], using its built-in code execution system or Jupyter kernels.When Jupyter kernels are used, it is possible to obtain the same output that would be present in a Jupyter notebook, including rich output such as plots and mathematics.It is also possible to specify a custom display so that only a selected combination of code, stdout, stderr, and rich output is shown while the rest are hidden.Code execution is decoupled from the preview process, so the Markdown source can be edited and the preview can update even while code is running in the background.As far as I am aware, no previous software for executing code in Markdown has supported building a document with partial code output before execution has completed.
There is also support for document export with Pandoc, using the VS Code command palette or the export-with-Pandoc button.

Scroll sync
Tight source-preview integration requires a source map, or a mapping from characters in the source to characters in the output.Due to Pandoc's parsing algorithms, tracking source location during parsing is not possible in the general case. 2andoc 2.11.3 was released in December 2020.It added a sourcepos extension for CommonMark and formats based on it, including GitHub-Flavored Markdown (GFM) and commonmark_x (CommonMark plus extensions similar to Pandoc's Markdown).The CommonMark parser uses a different parsing algorithm from the Pandoc's Markdown parser, and this algorithm permits tracking source location.For the first time, it was possible to construct a source map for a Pandoc input format.
Codebraid Preview defaults to commonmark_x as an input format, since it provides the most features of all CommonMarkbased formats.Features continue to be added to commonmark_x and it is gradually nearing feature parity with Pandoc's Markdown.Citations are perhaps the most important feature currently missing. 3odebraid Preview provides full bidirectional scroll sync between source and preview for all CommonMark-based formats, using data provided by sourcepos.In the output HTML, the first image or inline text element created by each Markdown source line is given an id attribute corresponding to the source line number.When the source is scrolled to a given line range, the preview scrolls to the corresponding HTML elements using these id attributes.When the preview is scrolled, the visible HTML elements are detected via the Intersection Observer API. 4hen their id attributes are used to determine the corresponding Markdown line range, and the source scrolls to those lines.
Scroll sync is slightly more complicated when working with output that is generated by executed code.For example, if a code block is executed and creates several plots in the preview, there isn't necessarily a way to trace each individual plot back to a particular line of code in the Markdown source.In such cases, the line range of the executed code is mapped proportionally to the vertical space occupied by its output.
Pandoc supports multi-file documents.It can be given a list of files to combine into a single output document.Codebraid Preview provides scroll sync for multi-file documents.For example, suppose a document is divided into two files in the same directory, chapter_1.mdand chapter_2.md.Treating these as a single document involves creating a YAML configuration file _codebraid_preview.yamlthat lists the files: input-files: -chapter_1.md-chapter_2.mdNow launching a preview from either chapter_1.mdor chapter_2.mdwill display a preview that combines both files.When the preview is scrolled, the editor scrolls to the corresponding source location, automatically switching between The preview still works when the input format is set to a non-CommonMark format, but in that case scroll sync is disabled.If Pandoc adds sourcepos support for additional input formats in the future, scroll sync will work automatically once Codebraid Preview adds those formats to the supported list.It is possible to attempt to reconstruct a source map by performing a parallel string search on Pandoc output and the original source.This can be error-prone due to text manipulation during format conversion, but in the future it may be possible to construct a good enough source map to extend basic scroll sync support to additional input formats.

LaTeX support
Support for mathematics is one of the key features provided by many Markdown variants in Pandoc, including commonmark_x.Math support in the preview panel is supplied by KaTeX [EA22], which is a JavaScript library for rendering LaTeX math in the browser.
One of the disadvantages of using Pandoc to create the preview is that every update of the preview is a complete update.This makes the preview more sensitive to HTML rendering time.In contrast, in a Jupyter notebook, it is common to write Markdown in multiple cells which are rendered separately and independently.
MathJax [Mat22] provides a broader range of LaTeX support than KaTeX, and is used in software such as JupyterLab and Quarto.While MathJax performance has improved significantly since the release of version 3.0 in 2019, KaTeX can still have a speed advantage, so it is currently the default due to the importance of HTML rendering.In the future, optional MathJax support may be needed to provide broader math support.For some applications, it may also be worth considering caching pre-rendered or image versions of equations to improve performance.

Code execution
Optional support for executing code embedded in Markdown documents is provided by Codebraid [GMP19].Codebraid uses Pandoc to convert a document into an abstract syntax tree (AST), then extracts any inline or block code marked with Codebraid attributes from the AST, executes the code, and finally formats the code output so that Pandoc can use it to create the final output document.Code execution is performed with Codebraid's own built-in system or with Jupyter kernels.For example, the code block ```{.python.cb-run}print("Hello * world!* ") ``ẁ ould result in Hello world! after processing by Codebraid and finally Pandoc.The .cb-run is a Codebraid attribute that marks the code block for execution and specifies the default display of code output.Further examples of Codebraid usage are visible in Figure 1.
Mixing a live preview with executable code provides potential usability and security challenges.By default, code only runs when the user selects execution in the VS Code command palette or clicks the Codebraid execute button.When the preview automatically updates as a result of Markdown source changes, it only uses cached code output.Stale cached output is detected by hashing executed code, and then marked in the preview to alert the user.
The standard approach to executing code within Markdown documents blocks the document build process until all code has finished running.Code is extracted from the Markdown source and executed.Then the output is combined with the original source and passed on to Pandoc or another Markdown application for final conversion.This is the approach taken by RMarkdown, Quarto, and similar software, as well as by Codebraid until recently.This design works well for building a document a single time, but blocking until all code has executed is not ideal in the context of a document preview.
Codebraid now offers a new mode of code execution that allows a document to be rebuilt continuously during code execution, with each build including all code output available at that time.This process involves the following steps: 1) The user selects code execution.Codebraid Preview passes the document to Codebraid.Codebraid begins code execution.2) As soon as any code output is available, Codebraid immediately streams this back to Codebraid Preview.The output is in a format compatible with the YAML metadata block at the start of Pandoc Markdown documents.The output includes a hash of the code that was executed, so that code changes can be detected later.3) If the document is modified while code is running or if code output is received, Codebraid Preview rebuilds the preview.It creates a copy of the document with all current Codebraid output inserted into the YAML metadata block at the start of the document.This modified document is then passed to Pandoc.Pandoc runs with a Lua filter 5 that modifies the document AST before final conversion.The filter removes all code marked with Codebraid attributes from the AST, and replaces it with the corresponding code output stored in the AST metadata.If code has been modified since execution began, this is detected with the hash of the code, and an HTML class is added to the output that will mark it visually as stale output.Code that does not yet have output is replaced by a visible placeholder to indicate that code is still running.When the Lua filter finishes AST modifications, Pandoc completes the document build, and the preview updates.4) As long as code is executing, the previous process repeats whenever the preview needs to be rebuilt.5) Once code execution completes, the most recent output is reused for all subsequent preview updates until the next time the user chooses to execute code.Any code changes continue to be detected by hashing the code during the build process, so that the output can be marked visually as stale in the preview.
The overall result of this process is twofold.First, building a document involving executed code is nearly as fast as building a plain Pandoc document.The additional output metadata plus the filter are the only extra elements involved in the document build, and Pandoc Lua filters have excellent performance.Second, the output for each code chunk appears in the preview almost immediately after the chunk finishes execution.
While this build process is significantly more interactive than what has been possible previously, it also suggests additional avenues for future exploration.Codebraid's built-in code execution system is designed to execute a predefined sequence of code chunks and then exit.Jupyter kernels are currently used in the same manner to avoid any potential issues with out-of-order execution.However, Jupyter kernels can receive and execute code indefinitely, which is how they commonly function in Jupyter notebooks.Instead of starting a new Jupyter kernel at the beginning of each code execution cycle, it would be possible to keep the kernel from the previous execution cycle and only pass modified code chunks to it.This would allow the same out-of-order execution issues that are possible in a Jupyter notebook.Yet that would make possible much more rapid code output, particularly in cases where large datasets must be loaded or significant preprocessing is required.

Conclusion
Codebraid Preview represents a significant advance in tools for writing with Pandoc.For the first time, it is possible to preview a Pandoc Markdown document using Pandoc itself while having features like scroll sync between the Markdown source and the preview.When embedded code needs to be executed, it is possible to see code output in the preview and to continue editing the document during code execution, instead of having to wait until code finishes running.
Codebraid Preview or future previewers that follow this approach may be perfectly adequate for shorter and even some longer documents, but at some point a combination of document length, document complexity, and mathematical content will strain what is possible and ultimately decrease preview update frequency.Every update of the preview involves converting the entire document with Pandoc and then rendering the resulting HTML.
On the parsing side, Pandoc's move toward CommonMarkbased Markdown variants may eventually lead to enough standardization that other implementations with the same syntax and features are possible.This in turn might enable entirely new approaches.An ideal scenario would be a Pandoc-compatible JavaScript-based parser that can parse multiple Markdown strings while treating them as having a shared document state for things like labels, references, and numbering.For example, this could allow Pandoc Markdown within a Jupyter notebook, with all Markdown content sharing a single document state, maybe with each Markdown cell being automatically updated based on Markdown changes elsewhere.
Perhaps more practically, on the preview display side, there may be ways to optimize how the HTML generated by Pandoc is loaded in the preview.A related consideration might be alternative preview formats.There is a significant tradition of tight sourcepreview integration in LaTeX (for example, [Lau08]).In principle, Pandoc's sourcepos extension should make possible Markdown to PDF synchronization, using LaTeX as an intermediary.

Fig. 1 :
Fig. 1: Screenshot of a Markdown document with Codebraid Preview in VS Code.This document uses Codebraid to execute code with Jupyter kernels, so all plots and math visible in the preview are generated during document build.