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@ -1,100 +1,470 @@
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#lang scribble/manual
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#lang scribble/manual
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@(require scribble/eval (for-label pollen/world pollen/tag racket/base pollen/template txexpr))
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@(require scribble/eval racket/date (for-label racket/file racket/system pollen/decode plot pollen/world pollen/tag racket/base pollen/template txexpr racket/list racket/string))
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@(require "mb-tools.rkt")
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@(require "mb-tools.rkt")
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@(define my-eval (make-base-eval))
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@(define my-eval (make-base-eval))
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@(my-eval `(require pollen pollen/decode pollen/template pollen/tag xml racket/list txexpr))
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@(my-eval `(require pollen pollen/decode pollen/template pollen/tag xml racket/list txexpr))
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@title[#:tag "third-tutorial"]{Fourth tutorial}
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@title[#:tag "fourth-tutorial"]{Fourth tutorial}
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In previous tutorial projects, we've maintained a one-to-one relationship between source files and output files. In this tutorial, however, you'll learn how to generate output in multiple formats from a single Pollen source file. You'll learn about:
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@itemlist[
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@itemlist[
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@item{You can use any function in any kind of source file}
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@item{Setting up & using @tt{poly} source files}
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@item{Decoding}
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@item{The @tt{config} submodule}
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@item{Metas}
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@item{Branching tag functions}
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@item{Hierarchical pagetrees}
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@item{Using Pollen to generate binary data}
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@item{Forcing unbound-identifier errors}
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]
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@item{Embedding HTML or XML}
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If you want the shortest possible introduction to Pollen, try the @secref["quick-tour"].
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]
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@section[#:tag-prefix "tutorial-4"]{Prerequisites}
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@section{Sharing data between preprocessor files}
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I'll assume you've completed the @secref["third-tutorial"] and that you understand the principles of Pollen markup mode — creating source files, converting them to X-expressions, and then combining them with templates to make output files.
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The preprocessor is useful for inserting variables that hold values. But variables are only useful when they can be shared among multiple files. Let's look at one way to do that.
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I'll also assume that you're comfortable with @seclink["Attaching_behavior_to_tags"] with tag functions, and that you can read and write basic Racket functions. Most of this tutorial is programming — easy programming, but programming nonetheless.
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Any value in a Pollen file that's set up using @racket[define] can be pulled into another Pollen file using the @racket[require] function. For instance, let's set up another preprocessor file in the same directory as @racketvalfont["brennan.md.pp"], called @racketvalfont["dale.md.pp"]:
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@section{Multiple-output publishing and its discontents}
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@filebox["dale.md.pp"]{@verbatim{
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Publishing documents in multiple output formats is a common need. A common solution is to write or render your document in one output format, and then convert to others as needed. And, for simple documents, this can work well enough.
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#lang pollen
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My name is _Dale_, and I enjoy:
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But in general, writing your document directly in an output format, like Markdown or HTML, is a bad idea. Why? Because output formats are just that — output formats. They're optimized to store the kind of information that the output device needs, not the information that the writer might want. Thus, using them as input formats means losing a huge amount of expressivity. I discussed this issue in @seclink["The_case_against_Markdown"]. Markdown is (too) often valorized as an authoring format, but it's not expressive or semantic. It's just a way of notating HTML, which is merely a boring and limited output format.
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+ super-duper boring sauce
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Converting a document from one input format to another is better — at least you get the benefit of using a more expressive input format. The problem is that richness doesn't necessarily carry through as you convert between formats, which involves simplifying assumptions about how certain entities map to each other. Again, that's not a knock on document converters like @link["http://pandoc.org"]{Pandoc} — if your document is simple enough, and you're satisfied with the assumptions made during the conversion process, great.
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+ at least 3 fish nuggets}}
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But if you're not, you're stuck.
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In the project server, this will produce the expected output:
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@nested[#:style 'code-inset]{@verbatim{
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@subsection{And let's not leave out programmability}
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My name is _Dale_, and I enjoy:
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+ super-duper boring sauce
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@secref["the-book-is-a-program"], right? Even if you love your input format, it's probably not programmable. For instance, casting my eye across the @link["http://pandoc.org"]{input formats supported} by Pandoc, I don't see any that are natively programmable in a general-purpose language. So pick your favorite. If you like the expressiveness and efficiency that programming can provide, then you're still stuck.
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+ at least 3 fish nuggets}}
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Now, let's update the content using values defined in @racketvalfont{brennan.md.pp}. We do this by adding the @racket[require] command to the top of our file:
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@subsection{One source, multiple outputs}
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@filebox["dale.md.pp"]{@verbatim{
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Instead, what if we rendered multiple document output formats from one programmable source file?
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#lang pollen
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The software-development analogy is the problem of compiling code for multiple platforms. In that case, you would never take compiled code for one platform and try to ``convert'' it for use on another platform. And you would do everything possible to avoid maintaining separate sources for each platform. Rather, the ideal solution is to have one master source that can be compiled to each platform.
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Before we go further, let's be honest: though this has always been the ideal solution, it's always been a difficult problem. Creating common source often means giving up some of the optimizations that might be available on a specific platform. The result is that cross-platform apps are often not as fast or sleek as their native-platform counterparts. (For proof, see every Java desktop app ever made.)
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With documents, however, the good news is that we're not creating software code, exactly — we're creating data files. So as a technical matter, the problem is simpler.
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Moreover, document output formats may be different in technical details, but there's a lot of overlap between the ideas they encode — for instance, there's always a way of specifying the font and point size, of specifying the page margins, and so forth. So it should, in principle, be possible to encode these entities in a high-level way in our source, abstracted from the output-level details.
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@subsection{Scribble vs. Pollen}
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By the way, I'm not claiming here that I've discovered the document-processing equivalent of the Higgs boson. Many tools offer multiple-output publishing, including @other-doc['(lib "scribblings/scribble/scribble.scrbl")], which is the foundation of Pollen.
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Let me be clear: Scribble does a great job with this. If you have a project that fits with Scribble's document model and rendering model, then it may be a better option than Pollen. Scribble can do lots of things that Pollen cannot.
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So why prefer Pollen? Pollen is more open-ended. Though Pollen adopts Scribble's syntax, it omits a lot of the heavy lifting that Scribble does on the back end. In one sense, this creates more work for the Pollen user, because certain things need to be recreated. But in another sense, it creates an opportunity, because it also removes the restrictions that Scribble needs to impose. You have maximum control from start to finish. Complex things are possible, but simple things remain simple.
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@section{Making a multiple-output project}
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◊(require "brennan.md.pp")
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A multiple-output project works pretty much the same way as a single-output project. The main difference is that you need to name your source files differently, update your @filepath{pollen.rkt} file to identify the output types you want to target, and alter your tag functions to handle those types.
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My name is _Dale_, and I enjoy:
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+ super-duper boring sauce
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@subsection{The @tt{poly} output type}
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+ at least 3 fish nuggets}}
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In the previous tutorials, you saw how Pollen source files correspond to certain output file types by use of a double file extension: the first extension identifies the output-file type, and the second extension identifies the source-file type. So to end up with an output file called @filepath{document.html}, using Pollen markup (indicated by the extension @filepath{pm}), you'd create a source file called @filepath{document.html.pm}.
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The three values that we defined in @racketvalfont{brennan.md.pp} — @racketvalfont{sauce-type}, @racketvalfont{nugget-type}, and @racketvalfont{nugget-quantity} — will now be available in @racketvalfont{dale.md.pp} under the same names, so we can insert them into the Markdown in the same way:
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In a multiple-output project, a source file no longer has a one-to-one correspondence with a specific output type. To indicate this, we'll instead use the special @tt{poly} extension. So our @filepath{document.html.pm} will become @filepath{document.poly.pm}.
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@filebox["dale.md.pp"]{@verbatim{
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@margin-note{The @tt{poly} extension is the default, but can be changed for a project by using the @racket[world:current-poly-source-ext] setting.}
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Let's set up a new multi-output project for a résumé. Find a convenient directory and create a new @tt{poly} source file as follows:
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@fileblock["cv.poly.pm" @codeblock{
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#lang pollen
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#lang pollen
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◊(require "brennan.md.pp")
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◊heading{Brennan Huff}
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Today is ◊(get-date). I ◊emph{really} want this job.
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}]
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Yes, this is the worst résumé ever. Yours, I'm certain, would be better.
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Other than the new @tt{poly} extension, this file is no different than ones we've seen before. It starts with @code{#lang pollen}. It has some text and tags. And the @tt{pm} extension indicates that we're using Pollen markup.
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You can, of course, use any Pollen source dialect you like for a @tt{poly} source. I like Pollen markup best, of course, so we'll use that here.
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@subsection{Poly sources in the project server}
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Start the project server in your tutorial directory. In your browser, you should see something like this:
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@image/rp["poly-ps-html.png" #:scale 0.45]
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``Why does it say @filepath{cv.html}? I thought we had a multi-output source file.'' You do. But since we haven't yet identified any render formats for a poly source file, Pollen assumes HTML. This also allows you to click through to see a result right away:
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@browser{Brennan Huff Today is . I really want this job.}
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This proves that our source file is working. It looks dumb, however, because we haven't defined any sensible tag functions. So let's add a @filepath{pollen.rkt} file to our project directory as follows:
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@fileblock["pollen.rkt" @codeblock|{
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#lang racket/base
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(require racket/date)
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(provide (all-defined-out))
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(define (get-date)
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(date->string (current-date)))
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(define (heading . xs)
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`(h2 ,@xs))
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(define (emph . xs)
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`(strong ,@xs))
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}|]
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The @racket[get-date] tag function will insert the current date as a string. The @racket[heading] and @racket[emph] tag functions will become typical HTML @racket[h2] and @racket[strong] tags respectively. (If it's unclear why this is so, this would be a good time to review @seclink["Using_Racket_s_function_libraries"] and @seclink["Returning_an_X-expression"].)
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When we refresh the file in the project server, we'll see something more reasonable:
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@browser{
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@bold{@larger{Brennan Huff}}
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Today is @(date->string (current-date)). I @bold{really} want this job.
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}
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@subsection{Adding output targets for @tt{poly} sources}
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Though Pollen imputes HTML as a target for poly sources by default, if you only wanted HTML, you wouldn't be using a poly source. So our next step will be to explicitly define the output targets that we want to associate with poly sources.
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@subsubsection{Using the @tt{config} submodule}
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We'll do this by setting the @racket[world:current-poly-targets] value in our @filepath{pollen.rkt}. If you haven't investigated it yet, the @racket[pollen/world] module offers @seclink["settable-values"] that allow you to configure certain Pollen characteristics from within a @filepath{pollen.rkt} file. The example on that page, for instance, shows how to change the markup source extension and the Pollen command character.
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The idea is that you add a @racket[config] submodule to your @filepath{pollen.rkt} file with a @racket[define] statement for the value. Because we're defining the local value, we drop the @racket[world:current-] prefix and just call it @racket[poly-targets]. Our value will be a list of file extensions denoting the targets. To start, let's set our output formats to HTML and plain text, which we'll denote with the list of extensions @racket['(html txt)].
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@margin-note{I'm glossing over the details of @seclink["submodules" #:doc '(lib "scribblings/guide/guide.scrbl")], but they're one of the best-considered features of the Racket language. What makes submodules so handy is that they are truly independent: you can load a submodule from a source file without running the main body of the file. Thus, tasks like this — setting configuration values — that might require separate files in other languages can be handled as submodules in Racket.}
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@fileblock["pollen.rkt" @codeblock|{
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#lang racket/base
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(require racket/date)
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(provide (all-defined-out))
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(module config racket/base
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(provide (all-defined-out))
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(define poly-targets '(html txt)))
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(define (get-date)
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(date->string (current-date)))
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(define (heading . xs)
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`(h2 ,@xs))
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(define (emph . xs)
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`(strong ,@xs))
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}|]
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Though you ordinarily don't have to restart the project server to see changes in @filepath{pollen.rkt}, you do for @racket[config] values, because they're stashed in a submodule. On restart, the project server will look like this:
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@image/rp["poly-ps-html-txt.png" #:scale 0.45]
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What's happened is that @racket[world:current-poly-targets] now reflects the settings in @filepath{pollen.rkt}. The project server sees that we want to associate poly files with HTML and plain-text targets, and accordingly shows us two entries in the project-server listing: @filepath{cv.html.pm} and @filepath{cv.txt.pm}. As the adjacent message indicates, these are not new source files on disk, but rather implied by @filepath{cv.poly.pm}.
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If you click on @filepath{cv.html.pm}, you'll see the same HTML output that you saw before. If you click on @filepath{cv.txt.pm}, however, you'll see this:
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@terminal{
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(root (h2 Brennan Huff)
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Today is Monday, August 31st, 2015 . I (strong really) want this job.
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)}
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Don't panic. What we're seeing is the X-expression generated from the @filepath{cv.poly.pm} file, but formatted as plain text rather than HTML. It looks wrong because we haven't updated our project to handle plain-text output.
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@subsection{Adding support for another output format}
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The goal of this whole endeavor is to derive multiple output files from one source file. Thus, to make our résumé look right in plain text, we won't change anything in the source file. But we will add a template and update our tag functions.
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@subsubsection{Adding a template for @tt{.txt}}
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@seclink["Templates" #:tag-prefixes '("tutorial-2")] should be familiar to you by now. As usual, the name of the template is @tt{template} plus the relevant file extension, so in this case @filepath{template.txt}. Add the file as follows:
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@fileblock["template.txt" @codeblock|{
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◊(local-require racket/list)
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◊(apply string-append (filter string? (flatten doc)))
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}|]
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What we're doing here is converting the X-expression to text in a smarter way. We use @racket[local-require] to bring in @racket[racket/list] so we can use the @racket[flatten] function. Then, to understand what the next line does, just read it from the inside out: ``Take the @racket[doc] export from the source file (which is an X-expression), @racket[flatten] it into a list, @racket[filter] out everything that's not a @racket[string?] (creating a list that's only strings) and @racket[apply] the @racket[string-append] function to these, resulting in one big string.'' Which is exactly what we need for a plain-text file.
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When you return to the project server and click on @filepath{cv.txt.pm}, you'll see the result:
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@terminal{
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Brennan Huff
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Today is Monday, August 31st, 2015. I really want this job.}
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So far, so good. We've got legible plain text. But we've completely lost our formatting. Let's fix that.
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@subsubsection{Branching tag functions}
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The other half of supporting a new output format is making the tag functions mean something sensible. For HTML, we used tag functions to map our @racket[heading] markup tag to HTML's @racket[h2] tag, and our @racket[emph] tag to @racket[strong].
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But plain text doesn't have @racket[h2] or @racket[strong]. So how about this: when we're rendering to plain text, let's make our @racket[heading] tag mean @tt{UPPERCASE TEXT}, and our @racket[emph] tag will mean adding @tt{**surrounding asterisks**}.
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``So how do we make our tags mean one thing for HTML and a different thing for plain text?'' We make @italic{branching tag functions} that do different things depending on what the current rendering target for poly sources is.
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That value, in fact, is stored in a Pollen @seclink["parameterize" #:doc '(lib "scribblings/guide/guide.scrbl")]{parameter} called @racket[(world:current-poly-target)]. What we're going to do is rewrite our tag functions to behave differently based on the value of this parameter. Update your @filepath{pollen.rkt} as follows:
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@fileblock["pollen.rkt" @codeblock|{
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#lang racket/base
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(require racket/date pollen/world)
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(provide (all-defined-out))
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(module config racket/base
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(provide (all-defined-out))
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(define poly-targets '(html txt)))
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(define (get-date)
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(date->string (current-date)))
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(define (heading . xs)
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(case (world:current-poly-target)
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[(txt) (map string-upcase xs)]
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[else `(h2 ,@xs)]))
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(define (emph . xs)
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(case (world:current-poly-target)
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[(txt) `("**" ,@xs "**")]
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[else `(strong ,@xs)]))
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}|]
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Here, I've chosen to use @racket[case] because it's compact. But you can use any conditional structure you want (@racket[cond] would be another obvious choice). You can see that in the tag functions for @racket[heading] and @racket[emph], we've added a branch for the @racket[txt] output format. As promised, for @racket[heading] we're capitalizing the text, and in @racket[emph] we're adding double asterisks.
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@margin-note{Could you use @racket[(html)] rather than @racket[else] for the second case? Sure. Should you? It's good practice to write conditionals with an @racket[else] because it guarantees that there's always a result. If @racket[case] (or @racket[cond]) doesn't find a matching clause, it returns @racket[void], which can be surprising or annoying. But do what you like. I'm not the @racket[else] police.}
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Now when we return to the project server and refresh @filepath{cv.txt.pm}, we see our groovy plain-text formatting:
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@terminal{
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BRENNAN HUFF
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Today is Monday, August 31st, 2015. I **really** want this job.}
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By the way, the reason I included @racket[get-date] in this tutorial is to illustrate that not every function in a multi-output project necessarily needs to branch. (Static variables probably wouldn't either, though they could.) It produces a string, which is usable in either HTML or plain text. We just need to add branching to the tag functions that need context-specific behavior.
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@subsection{Adding support for LaTeX output}
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To add more output formats, we just repeat the same tasks: add a rendering target to our @racket[config] submodule, update any branching tag functions, and add a template for the new format.
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Let's see how fast we can add support for LaTeX output. Here's the updated @filepath{pollen.rkt}:
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@fileblock["pollen.rkt" @codeblock|{
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#lang racket/base
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(require racket/date pollen/world)
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(provide (all-defined-out))
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(module config racket/base
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(provide (all-defined-out))
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(define poly-targets '(html txt ltx)))
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(define (get-date)
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(date->string (current-date)))
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(define (heading . xs)
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(case (world:current-poly-target)
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[(ltx) (apply string-append `("{\\huge " ,@xs "}"))]
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[(txt) (map string-upcase xs)]
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[else `(h2 ,@xs)]))
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(define (emph . xs)
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(case (world:current-poly-target)
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[(ltx) (apply string-append `("{\\bf " ,@xs "}"))]
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[(txt) `("**" ,@xs "**")]
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[else `(strong ,@xs)]))
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}|]
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Notice that we added a @racket[ltx] extension to the list of @racket[poly-targets]. We also updated @racket[heading] and @racket[emph] to use comparable LaTeX commands.
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Then a @filepath{template.ltx}:
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@fileblock["template.ltx" @codeblock|{
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\documentclass[a4paper,12pt]{letter}
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\begin{document}
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◊(local-require racket/list)
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◊(apply string-append (filter string? (flatten doc)))
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\end{document}
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}|]
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Notice that all we did here was take our @filepath{template.txt} (which turned an X-expression into a string) and wrap it in the bare minimum LaTeX boilerplate. (Confidential to LaTeX fans: please don't write to complain about my rudimentary LaTeX. It's a tutorial. I trust you to do better.)
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Restart the project server to reify the changes to @racket[poly-targets]. When you restart, you'll see a link for @filepath{cv.ltx.pm}. Click it and you'll get this:
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@terminal{
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\documentclass[a4paper,12pt]{letter}
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\begin{document}
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{\huge Brennan Huff}
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Today is Monday, August 31st, 2015. I {\bf really} want this job.
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\end{document}}
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That's it. LaTeX achieved.
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@subsection{Adding support for PDF output}
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Still not satisfied? Still want to see one more cute Pollen trick?
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OK, you win. Let's not stop at LaTeX — let's go all the way to PDF using the LaTeX PDF converter, known as @exec{pdflatex}. (This is a command-line program that must be installed on your machine for this trick to work.)
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How do we do this? We'll follow the pattern we've already established, but with one wrinkle. To make a PDF, we need to generate LaTeX output first. So we actually don't need to add new branches to our tag functions — we'll just let PDF piggyback on our LaTeX branches. The big difference will be in the template, where instead of returning a LaTeX source file, we'll send it through @exec{pdflatex} and get the binary PDF file that results.
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First, we update @filepath{pollen.rkt}:
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@fileblock["pollen.rkt" @codeblock|{
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#lang racket/base
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(require racket/date pollen/world)
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(provide (all-defined-out))
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(module config racket/base
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(provide (all-defined-out))
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(define poly-targets '(html txt ltx pdf)))
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(define (get-date)
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(date->string (current-date)))
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(define (heading . xs)
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(case (world:current-poly-target)
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[(ltx pdf) (apply string-append `("{\\huge " ,@xs "}"))]
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[(txt) (map string-upcase xs)]
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[else `(h2 ,@xs)]))
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(define (emph . xs)
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(case (world:current-poly-target)
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[(ltx pdf) (apply string-append `("{\\bf " ,@xs "}"))]
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[(txt) `("**" ,@xs "**")]
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[else `(strong ,@xs)]))
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}|]
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You can see that we've simply added the @racket[pdf] extension in three places: in the list of @racket[poly-targets], and to the @racket[ltx] branches of our tag functions. (In a @racket[case] statement, putting multiple values in a branch means ``match any of these values.'') Easy.
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Not as easy: the template —
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@fileblock["template.pdf.p" @codeblock|{
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◊(local-require racket/file racket/system)
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◊(define latex-source ◊string-append{
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\documentclass[a4paper,12pt]{letter}
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\begin{document}
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◊(apply string-append (cdr doc))
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\end{document}})
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◊(define working-directory
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(build-path (current-directory) "pollen-latex-work"))
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◊(unless (directory-exists? working-directory)
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(make-directory working-directory))
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◊(define temp-ltx-path (build-path working-directory "temp.ltx"))
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◊(display-to-file latex-source temp-ltx-path #:exists 'replace)
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◊(define command (format "pdflatex '~a'" temp-ltx-path))
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◊(if (system command)
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(file->bytes (build-path working-directory "temp.pdf"))
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(error "pdflatex: rendering error"))
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}|]
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I know that only the serious nerds are still with me, but let's quickly narrate what's happening here.
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First, we use @filepath{template.pdf.p} rather than @filepath{template.pdf} for our template name. This is the @seclink["Null___p_extension_"] in use. Operating systems assume that files with a @racket[pdf] extension contain binary data, not text. The @racket[p] extension just shields the file from this assumption. It will simply be converted to @filepath{template.pdf} on render.
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A quick narrative of the rest:
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@codeblock|{
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◊(local-require racket/file racket/system)
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}|
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We need @racket[racket/file] for @racket[display-to-file] and @racket[file->bytes]; we need @racket[racket/system] for @racket[system] (to use the command line).
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@codeblock|{
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◊(define latex-source ◊string-append{
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\documentclass[a4paper,12pt]{letter}
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\begin{document}
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◊(apply string-append (cdr doc))
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\end{document}})
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This is the same as our @filepath{template.ltx} from before, but stored in a variable. The @racket[string-append] is needed here because the curly braces create a list of strings, and we want a single string.
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@codeblock|{
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◊(define working-directory
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(build-path (current-directory) "pollen-latex-work"))
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◊(unless (directory-exists? working-directory)
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(make-directory working-directory))
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◊(define temp-ltx-path (build-path working-directory "temp.ltx"))
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◊(display-to-file latex-source temp-ltx-path #:exists 'replace)
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Create a temporary working directory (because @exec{pdflatex} creates a bunch of ancillary log files) and write our LaTeX source to a @filepath{temp.ltx} file.
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@codeblock|{
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◊(define command (format "pdflatex '~a'" temp-ltx-path))
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◊(if (system command)
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(file->bytes (build-path working-directory "temp.pdf"))
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(error "pdflatex: rendering error"))
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Issue the @exec{pdflatex} command, using our newly created @filepath{temp.ltx} as the source. Finally, pick up the PDF that was created and return it as a byte string (= binary data).
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Restart the project server and click on @filepath{cv.pdf.pm}, and you'll see the rendered PDF right in the browser:
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@image/rp["poly-ps-pdf.png" #:scale 0.45]
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My name is _Dale_, and I enjoy:
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``Why didn't you just write to @filepath{cv.pdf}?'' Because when Pollen is running this render, it expects to end up with the data that it will write to @filepath{cv.pdf}. In previous examples, the templates provided text-based data for Pollen to write into a destination file. In this case, we're providing binary data (which Pollen will handle correctly.) If the template wrote to @filepath{cv.pdf} directly and returned @racket[void], it would be treated as an error.
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+ super-duper ◊sauce-type sauce
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In fact, because Pollen handles binary files equally well, you could use it to make, say, an audio rendering of a source file. But that will be left as an exercise to you, dear reader.
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+ at least ◊nugget-quantity ◊nugget-type nuggets}}
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@section[#:tag "raco-pollen-render-poly"]{Using @exec{raco pollen render} with @tt{poly} sources}
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Reload the file in the project server, and you'll see the imported values:
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Poly source files work as usual with @exec{@seclink["raco_pollen_render"]}.
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@nested[#:style 'code-inset]{@verbatim{
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You can give it the name of an output file, and it will figure out that a poly source file should be used:
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My name is _Dale_, and I enjoy:
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+ super-duper fancy sauce
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@terminal{
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> raco pollen render cv.pdf
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rendering: /cv.poly.pm as /cv.pdf}
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+ at least 12 chicken nuggets}}
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@terminal{
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> raco pollen render cv.txt
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rendering: /cv.poly.pm as /cv.txt}
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If you give it the name of a poly source file without further specification, it will generate output using the first format on your list of @racket[poly-targets] (in this case HTML):
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@margin-note{Those familiar with Racket know that Racket makes you explicitly @racket[provide] any variables you want to export. To make life simpler, Pollen inverts this behavior and automatically exports all defined symbols using @racket[(provide (all-defined-out))]. For more about the differences in behavior between Racket and Pollen, see @secref["File_formats" #:doc '(lib "pollen/scribblings/pollen.scrbl")].}
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@terminal{
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> raco pollen render cv.poly.pm
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rendering: /cv.poly.pm as /cv.html}
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To generate output from a poly source for a particular target, use the @exec{-t} or @exec{--target} flag to specify:
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@terminal{
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> raco pollen render -t txt cv.poly.pm
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rendering: /cv.poly.pm as /cv.txt}
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@terminal{
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> raco pollen render --target pdf cv.poly.pm
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rendering: /cv.poly.pm as /cv.pdf}
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@section{Fourth tutorial complete}
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True, I originally designed Pollen with HTML output in mind. But this tutorial gives you a sense of how its model for converting source files to output files is flexible and open-ended. If you're not afraid of a little programming — made easier by having all the facilities of Racket available within your project — you can generate any text or binary output from a Pollen source file.
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