281 lines
11 KiB
Plaintext
281 lines
11 KiB
Plaintext
# Quarto formats {#sec-quarto-formats}
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```{r}
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#| results: "asis"
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#| echo: false
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source("_common.R")
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status("complete")
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```
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## Introduction
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So far, you've seen Quarto used to produce HTML documents.
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This chapter gives a brief overview of some of the many other types of output you can produce with Quarto.
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There are two ways to set the output of a document:
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1. Permanently, by modifying the YAML header:
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``` yaml
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title: "Diamond sizes"
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format: html
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```
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2. Transiently, by calling `quarto::quarto_render()` by hand:
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```{r}
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#| eval: false
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quarto::quarto_render("diamond-sizes.qmd", output_format = "docx")
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```
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This is useful if you want to programmatically produce multiple types of output since the `output_format` argument can also take a list of values.
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```{r}
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#| eval: false
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quarto::quarto_render("diamond-sizes.qmd", output_format = c("docx", "pdf"))
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```
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## Output options
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Quarto offers a wide range of output formats.
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You can find the complete list at <https://quarto.org/docs/output-formats/all-formats.html>.
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Many formats share some output options (e.g., `toc: true` for including a table of contents), but others have options that are format specific (e.g., `code-fold: true` collapses code chunks into a `<details>` tag for HTML output so the user can display it on demand, it's not applicable in a PDF or Word document).
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To override the default options, you need to use an expanded `format` field.
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For example, if you wanted to render an `html` with a floating table of contents, you'd use:
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``` yaml
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format:
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html:
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toc: true
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toc_float: true
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```
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You can even render to multiple outputs by supplying a list of formats:
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``` yaml
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format:
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html:
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toc: true
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toc_float: true
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pdf: default
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docx: default
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```
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Note the special syntax (`pdf: default`) if you don't want to override any default options.
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To render to all formats specified in the YAML of a document, you can use `output_format = "all"`.
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```{r}
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#| eval: false
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quarto::quarto_render("diamond-sizes.qmd", output_format = "all")
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```
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## Documents
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The previous chapter focused on the default `html` output.
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There are several basic variations on that theme, generating different types of documents.
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For example:
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- `pdf` makes a PDF with LaTeX (an open-source document layout system), which you'll need to install.
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RStudio will prompt you if you don't already have it.
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- `docx` for Microsoft Word (`.docx`) documents.
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- `odt` for OpenDocument Text (`.odt`) documents.
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- `rtf` for Rich Text Format (`.rtf`) documents.
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- `gfm` for a GitHub Flavored Markdown (`.md`) document.
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- `ipynb` for Jupyter Notebooks (`.ipynb`).
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Remember, when generating a document to share with decision-makers, you can turn off the default display of code by setting global options in document YAML:
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``` yaml
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execute:
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echo: false
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```
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For `html` documents another option is to make the code chunks hidden by default, but visible with a click:
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``` yaml
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format:
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html:
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code: true
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```
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## Presentations
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You can also use Quarto to produce presentations.
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You get less visual control than with a tool like Keynote or PowerPoint, but automatically inserting the results of your R code into a presentation can save a huge amount of time.
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Presentations work by dividing your content into slides, with a new slide beginning at each second (`##`) level header.
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Additionally, first (`#`) level headers indicate the beginning of a new section with a section title slide that is, by default, centered in the middle.
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Quarto supports a variety of presentation formats, including:
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1. `revealjs` - HTML presentation with revealjs
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2. `pptx` - PowerPoint presentation
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3. `beamer` - PDF presentation with LaTeX Beamer.
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You can read more about creating presentations with Quarto at [https://quarto.org/docs/presentations](https://quarto.org/docs/presentations/).
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## Interactivity
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Just like any HTML document, HTML documents created with Quarto can contain interactive components as well.
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Here we introduce two options for including interactivity in your Quarto documents: htmlwidgets and Shiny.
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### htmlwidgets
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HTML is an interactive format, and you can take advantage of that interactivity with **htmlwidgets**, R functions that produce interactive HTML visualizations.
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For example, take the **leaflet** map below.
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If you're viewing this page on the web, you can drag the map around, zoom in and out, etc.
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You obviously can't do that in a book, so Quarto automatically inserts a static screenshot for you.
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```{r}
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library(leaflet)
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leaflet() |>
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setView(174.764, -36.877, zoom = 16) |>
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addTiles() |>
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addMarkers(174.764, -36.877, popup = "Maungawhau")
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```
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The great thing about htmlwidgets is that you don't need to know anything about HTML or JavaScript to use them.
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All the details are wrapped inside the package, so you don't need to worry about it.
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There are many packages that provide htmlwidgets, including:
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- [**dygraphs**](https://rstudio.github.io/dygraphs) for interactive time series visualizations.
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- [**DT**](https://rstudio.github.io/DT/) for interactive tables.
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- [**threejs**](https://bwlewis.github.io/rthreejs) for interactive 3d plots.
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- [**DiagrammeR**](https://rich-iannone.github.io/DiagrammeR) for diagrams (like flow charts and simple node-link diagrams).
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To learn more about htmlwidgets and see a complete list of packages that provide them visit <https://www.htmlwidgets.org>.
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### Shiny
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htmlwidgets provide **client-side** interactivity --- all the interactivity happens in the browser, independently of R.
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On the one hand, that's great because you can distribute the HTML file without any connection to R.
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However, that fundamentally limits what you can do to things that have been implemented in HTML and JavaScript.
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An alternative approach is to use **shiny**, a package that allows you to create interactivity using R code, not JavaScript.
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To call Shiny code from a Quarto document, add `server: shiny` to the YAML header:
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``` yaml
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title: "Shiny Web App"
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format: html
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server: shiny
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```
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Then you can use the "input" functions to add interactive components to the document:
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```{r}
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#| eval: false
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library(shiny)
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textInput("name", "What is your name?")
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numericInput("age", "How old are you?", NA, min = 0, max = 150)
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```
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And you also need a code chunk with chunk option `context: server` which contains the code that needs to run in a Shiny server.
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```{r}
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#| echo: false
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#| out-width: null
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#| fig-alt: |
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#| Two input boxes on top of each other. Top one says, "What is your
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#| name?", the bottom, "How old are you?".
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knitr::include_graphics("quarto/quarto-shiny.png")
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```
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You can then refer to the values with `input$name` and `input$age`, and the code that uses them will be automatically re-run whenever they change.
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We can't show you a live shiny app here because shiny interactions occur on the **server-side**.
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This means that you can write interactive apps without knowing JavaScript, but you need a server to run them on.
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This introduces a logistical issue: Shiny apps need a Shiny server to be run online.
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When you run Shiny apps on your own computer, Shiny automatically sets up a Shiny server for you, but you need a public-facing Shiny server if you want to publish this sort of interactivity online.
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That's the fundamental trade-off of shiny: you can do anything in a shiny document that you can do in R, but it requires someone to be running R.
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For learning more about Shiny, we recommend reading Mastering Shiny by Hadley Wickham, [https://mastering-shiny.org](https://mastering-shiny.org/).
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## Websites and books
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With a bit of additional infrastructure, you can use Quarto to generate a complete website or book:
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- Put your `.qmd` files in a single directory.
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`index.qmd` will become the home page.
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- Add a YAML file named `_quarto.yml` that provides the navigation for the site.
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In this file, set the `project` type to either `book` or `website`, e.g.:
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``` yaml
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project:
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type: book
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```
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For example, the following `_quarto.yml` file creates a website from three source files: `index.qmd` (the home page), `viridis-colors.qmd`, and `terrain-colors.qmd`.
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```{r}
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#| echo: false
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#| comment: ""
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cat(readr::read_file("quarto/example-site.yml"))
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```
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The `_quarto.yml` file you need for a book is very similarly structured.
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The following example shows how you can create a book with four chapters that renders to three different outputs (`html`, `pdf`, and `epub`).
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Once again, the source files are `.qmd` files.
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```{r}
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#| echo: false
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#| comment: ""
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cat(readr::read_file("quarto/example-book.yml"))
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```
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We recommend that you use an RStudio project for your websites and books.
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Based on the `_quarto.yml` file, RStudio will recognize the type of project you're working on, and add a Built tab to the IDE that you can use to render and preview your websites and books.
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Both websites and books can also be rendered using `quarto::render()`.
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Read more at <https://quarto.org/docs/websites> about Quarto websites and <https://quarto.org/docs/books> about books.
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## Other formats
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Quarto offers even more output formats:
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- You can write journal articles using Quarto Journal Templates: <https://quarto.org/docs/journals/templates.html>.
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- You can output Quarto documents to Jupyter Notebooks with `format: ipynb`: <https://quarto.org/docs/reference/formats/ipynb.html>.
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See <https://quarto.org/docs/output-formats/all-formats.html> for a list of even more formats.
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## Summary
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In this chapter we presented you a variety of options for communicating your results with Quarto, from static and interactive documents to presentations to websites and books.
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To learn more about effective communication in these different formats, we recommend the following resources:
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- To improve your presentation skills, try [*Presentation Patterns*](https://presentationpatterns.com/) by Neal Ford, Matthew McCollough, and Nathaniel Schutta.
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It provides a set of effective patterns (both low- and high-level) that you can apply to improve your presentations.
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- If you give academic talks, you might like the [*Leek group guide to giving talks*](https://github.com/jtleek/talkguide).
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- We haven't taken it ourselves, but we've heard good things about Matt McGarrity's online course on public speaking: <https://www.coursera.org/learn/public-speaking>.
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- If you are creating many dashboards, make sure to read Stephen Few's [*Information Dashboard Design: The Effective Visual Communication of Data*](https://www.amazon.com/Information-Dashboard-Design-Effective-Communication/dp/0596100167).
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It will help you create dashboards that are truly useful, not just pretty to look at.
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- Effectively communicating your ideas often benefits from some knowledge of graphic design.
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Robin Williams' [*The Non-Designer's Design Book*](https://www.amazon.com/Non-Designers-Design-Book-4th/dp/0133966151) is a great place to start.
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