tophat: Template-to-Haskell preprocessor, and templating language

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Versions [RSS] 1.0.0.0, 1.0.1.0, 1.0.3.0, 1.0.4.0, 1.0.5.0, 1.0.5.1, 1.0.6.0, 1.0.6.1, 1.0.7.0, 1.0.8.0
Change log ChangeLog.md
Dependencies base (>=4.7 && <5), filepath (>=1.4.2 && <1.5), profunctors (>=5.2.2 && <6), text (>=1.2.3 && <1.3), tophat [details]
License GPL-3.0-only
Copyright 2020-21 James Cranch
Author James Cranch
Maintainer j.d.cranch@sheffield.ac.uk
Category Web
Home page https://github.com/jcranch/tophat
Uploaded by jcranch at 2021-08-08T13:51:07Z
Distributions LTSHaskell:1.0.8.0, NixOS:1.0.8.0, Stackage:1.0.8.0
Executables tophat
Downloads 1175 total (35 in the last 30 days)
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Status Docs available [build log]
Last success reported on 2021-08-08 [all 1 reports]

Readme for tophat-1.0.4.0

[back to package description]

Tophat

Tophat is a template engine for Haskell. It has two components:

  • a preprocessor for Haskell code (source) which embeds templates directly into it, and

  • a small, fairly self-contained library (webpage, source) of template combinators, intended for use with it containing all the usual imperative control structures (if, for, and so on).

An example

Here's a short example. The Haskell source code is as follows (in the examples directory of the repository):

{-# LANGUAGE OverloadedStrings #-}

module Main where

import Data.Text (Text)
import qualified Data.Text as T
import qualified Data.Text.IO as T
import Tophat

aliceTheCamel :: Template Int Text
aliceTheCamel = {{alicethecamel.tpt.txt}}

main :: IO ()
main = T.putStr $ runTemplate aliceTheCamel 3

Meanwhile, in the file alicethecamel.tpt.txt, we put the following:

$forH (\ n -> reverse [0..n])$
  $forH (replicate 3)$
    Alice the camel has $embedShow id$ humps,
  $endfor$
  $ifH (> 0)$
    So go, Alice, go!
  $endif$
  $ifH (== 0)$
    Because Alice is a horse.
  $endif$
$endfor$

This outputs a version of a classic nursery rhyme. The spacing is idiosyncratic: the template above was formatted to make it easy to read. If we were writing HTML or another language where whitespace is insignificant, it would be fine, but the proper formatting of nursery rhymes is important. Adjusting the spacing makes it more correct but less pleasant.

$forH (\ n -> reverse [0..n]) >>> forH (replicate 3)$
Alice the camel has $embedShow id$ humps,$endfor$
$ifH (> 0)$So go, Alice, go!$endif$$ifH (== 0)$Because Alice is a horse.$endif$
$endfor$

Alternatively we can take charge of newlines, and whitespace around newlines, for ourselves, by adding a postprocessor:

$procH (T.replace ("\\n" "\n") . T.concat . fmap T.strip . T.lines)$
  $forH (\ n -> reverse [0..n])$
    $forH (replicate 3)$
      Alice the camel has $embedShow id$ humps,\n
    $endfor$
    $ifH (> 0)$
      So go, Alice, go!
    $endif$
    $ifH (== 0)$
      Because Alice is a horse.
    $endif$\n\n
  $endfor$
$endproc$

This replacement of whitespace is useful enough that we've placed it in Tophat.Text.

Comparisons with other templating engines

Advantages

Interoperability

The code in Tophat templates is just Haskell, and so can be mixed freely with the other code in the project.

As a rule of thumb, template logic should be kept fairly simple. But it is certainly pleasant to be able to do straightforward computations in templates, and for those calculations to have exactly the same syntax as if they were done elsewhere.

Power and extensibility

Relatedly, the power of Haskell means that the control structures provided are unusually powerful. For example, the "for" command works over any instance of the Foldable typeclass.

However, the framework is fairly simple, and it is easy to define new control structures if desired.

Flexibility

Any type which is an instance of IsString (from Data.String) can be used: Tophat templates can generate any of the main string types, or more exotic ones, with equal ease.

Disadvantages

Novelty

Since other template languages are not Haskell, templates written for other engines will need some converting to work with Tophat.

New syntax

Since the templates are used directly from Haskell source code, the {{ and }} brackets which introduce a template are new syntax. This may mess up editor syntax highlighting, hlint, and other tools which depend on analysing the lexical structure of Haskell source code.

Benchmarking

I don't have any good data.

Alternatives

I don't know of any package that takes the same approach to templating, but the following are all entirely legitimate alternatives:

Forcing recompilation

Since the code that will be compiled depends on templates, it is necessary to recompile whenever the templates change, and not just when the source file changes. There are various ways of going about this.

GHC options

GHC can be asked to always recompile the file:

{-# OPTIONS_GHC -fforce-recomp #-}

Stack

Stack has options that allow extra source files to be declared

Template Haskell

Template Haskell also has options for declaring dependent files.

Why the name?

It stands for "thunks of pure Haskell as templates", but let's not worry about that.