2004-08-02 Haddock User Guide Simon Marlow
marlowsd@gmail.com
David Waern
david.waern@gmail.com
2010 Simon Marlow, David Waern This document describes Haddock version 2.13.1, a Haskell documentation tool.
Introduction This is Haddock, a tool for automatically generating documentation from annotated Haskell source code. Haddock was designed with several goals in mind: When documenting APIs, it is desirable to keep the documentation close to the actual interface or implementation of the API, preferably in the same file, to reduce the risk that the two become out of sync. Haddock therefore lets you write the documentation for an entity (function, type, or class) next to the definition of the entity in the source code. There is a tremendous amount of useful API documentation that can be extracted from just the bare source code, including types of exported functions, definitions of data types and classes, and so on. Haddock can therefore generate documentation from a set of straight Haskell 98 modules, and the documentation will contain precisely the interface that is available to a programmer using those modules. Documentation annotations in the source code should be easy on the eye when editing the source code itself, so as not to obsure the code and to make reading and writing documentation annotations easy. The easier it is to write documentation, the more likely the programmer is to do it. Haddock therefore uses lightweight markup in its annotations, taking several ideas from IDoc. In fact, Haddock can understand IDoc-annotated source code. The documentation should not expose any of the structure of the implementation, or to put it another way, the implementer of the API should be free to structure the implementation however he or she wishes, without exposing any of that structure to the consumer. In practical terms, this means that while an API may internally consist of several Haskell modules, we often only want to expose a single module to the user of the interface, where this single module just re-exports the relevant parts of the implementation modules. Haddock therefore understands the Haskell module system and can generate documentation which hides not only non-exported entities from the interface, but also the internal module structure of the interface. A documentation annotation can still be placed next to the implementation, and it will be propagated to the external module in the generated documentation. Being able to move around the documentation by following hyperlinks is essential. Documentation generated by Haddock is therefore littered with hyperlinks: every type and class name is a link to the corresponding definition, and user-written documentation annotations can contain identifiers which are linked automatically when the documentation is generated. We might want documentation in multiple formats - online and printed, for example. Haddock comes with HTML, LaTeX, and Hoogle backends, and it is structured in such a way that adding new back-ends is straightforward.
Obtaining Haddock Distributions (source & binary) of Haddock can be obtained from its web site. Up-to-date sources can also be obtained from our public darcs repository. The Haddock sources are at http://code.haskell.org/haddock. See darcs.net for more information on the darcs version control utility.
License The following license covers this documentation, and the Haddock source code, except where otherwise indicated.
Copyright 2002-2010, Simon Marlow. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDERS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
Contributors Haddock was originally written by Simon Marlow. Since it is an open source project, many people have contributed to its development over the years. Below is a list of contributors in alphabetical order that we hope is somewhat complete. If you think you are missing from this list, please contact us. Ashley Yakeley Benjamin Franksen Brett Letner Clemens Fruhwirth Conal Elliott David Waern Duncan Coutts George Pollard George Russel Hal Daume Ian Lynagh Isaac Dupree Joachim Breitner Krasimir Angelov Lennart Augustsson Luke Plant Malcolm Wallace Mark Lentczner Mark Shields Neil Mitchell Mike Thomas Manuel Chakravarty Oliver Brown Roman Cheplyaka Ross Paterson Simon Hengel Simon Marlow Simon Peyton-Jones Sigbjorn Finne Stefan O'Rear Sven Panne Thomas Schilling Wolfgang Jeltsch Yitzchak Gale
Acknowledgements Several documentation systems provided the inspiration for Haddock, most notably: IDoc HDoc Doxygen and probably several others I've forgotten. Thanks to the the members of haskelldoc@haskell.org, haddock@projects.haskell.org and everyone who contributed to the many libraries that Haddock makes use of.
Invoking Haddock Haddock is invoked from the command line, like so: haddock option file Where each file is a filename containing a Haskell source module (.hs) or a Literate Haskell source module (.lhs) or just a module name. All the modules specified on the command line will be processed together. When one module refers to an entity in another module being processed, the documentation will link directly to that entity. Entities that cannot be found, for example because they are in a module that isn't being processed as part of the current batch, simply won't be hyperlinked in the generated documentation. Haddock will emit warnings listing all the indentifiers it couldn't resolve. The modules should not be mutually recursive, as Haddock don't like swimming in circles. You must also specify an option for the output format. Currently only the option for HTML and the option for outputting Hoogle data are functional. The packaging tool Cabal has Haddock support, and is often used instead of invoking Haddock directly. The following options are available: dir Tell GHC that that its lib directory is dir. Can be used to override the default path. dir =dir Generate files into dir instead of the current directory. dir =dir Use Haddock auxiliary files (themes, javascript, etc...) in dir. path,file =path,file Read the interface file in file, which must have been produced by running Haddock with the option. The interface describes a set of modules whose HTML documentation is located in path (which may be a relative pathname). The path is optional, and defaults to .. This option allows Haddock to produce separate sets of documentation with hyperlinks between them. The path is used to direct hyperlinks to point to the right files; so make sure you don't move the HTML files later or these links will break. Using a relative path means that a documentation subtree can still be moved around without breaking links. Multiple options may be given. file =file Produce an interface fileHaddock interface files are not the same as Haskell interface files, I just couldn't think of a better name. in the file file. An interface file contains information Haddock needs to produce more documentation that refers to the modules currently being processed - see the option for more details. The interface file is in a binary format; don't try to read it. Generate documentation in HTML format. Several files will be generated into the current directory (or the specified directory if the option is given), including the following: module.html mini_module.html An HTML page for each module, and a "mini" page for each used when viewing in frames. index.html The top level page of the documentation: lists the modules available, using indentation to represent the hierarchy if the modules are hierarchical. doc-index.html doc-index-X.html The alphabetic index, possibly split into multiple pages if big enough. frames.html The top level document when viewing in frames. some.css etc... Files needed for the themes used. Specify your themes using the option. haddock-util.js Some JavaScript utilities used to implement some of the dynamic features like collapsable sections, and switching to frames view. Generate documentation in LaTeX format. Several files will be generated into the current directory (or the specified directory if the option is given), including the following: package.tex The top-level LaTeX source file; to format the documentation into PDF you might run something like this: $ pdflatex package.tex haddock.sty The default style. The file contains definitions for various macros used in the LaTeX sources generated by Haddock; to change the way the formatted output looks, you might want to override these by specifying your own style with the option. module.tex The LaTeX documentation for each module. This option lets you override the default style used by the LaTeX generated by the option. Normally Haddock puts a standard haddock.sty in the output directory, and includes the command \usepackage{haddock} in the LaTeX source. If this option is given, then haddock.sty is not generated, and the command is instead \usepackage{style}. Reserved for future use (output documentation in DocBook XML format). =URL =URL =URL Include links to the source files in the generated documentation. Use the option to add a source code link in the header bar of the contents and index pages. Use the to add a source code link in the header bar of each module page. Use the option to add a source code link next to the documentation for every value and type in each module. In each case URL is the base URL where the source files can be found. For the per-module and per-entity URLs, the following substitutions are made within the string URL: The string %M or %{MODULE} is replaced by the module name. Note that for the per-entity URLs this is the name of the exporting module. The string %F or %{FILE} is replaced by the original source file name. Note that for the per-entity URLs this is the name of the defining module. The string %N or %{NAME} is replaced by the name of the exported value or type. This is only valid for the option. The string %K or %{KIND} is replaced by a flag indicating whether the exported name is a value 'v' or a type 't'. This is only valid for the option. The string %L or %{LINE} is replaced by the number of the line where the exported value or type is defined. This is only valid for the option. The string %% is replaced by %. For example, if your sources are online under some directory, you would say haddock --source-base=url/ --source-module=url/%F If you have html versions of your sources online with anchors for each type and function name, you would say haddock --source-base=url/ --source-module=url/%M.html --source-entity=url/%M.html#%N For the %{MODULE} substitution you may want to replace the '.' character in the module names with some other character (some web servers are known to get confused by multiple '.' characters in a file name). To replace it with a character c use %{MODULE/./c}. Similarly, for the %{FILE} substitution you may want to replace the '/' character in the file names with some other character (especially for links to colourised entity source code with a shared css file). To replace it with a character c use %{FILE///c}/ One example of a tool that can generate syntax-highlighted HTML from your source code, complete with anchors suitable for use from haddock, is hscolour. URL =URL Deprecated aliases for =URL =URL =URL Include links to pages where readers may comment on the documentation. This feature would typically be used in conjunction with a Wiki system. Use the option to add a user comments link in the header bar of the contents and index pages. Use the to add a user comments link in the header bar of each module page. Use the option to add a comments link next to the documentation for every value and type in each module. In each case URL is the base URL where the corresponding comments page can be found. For the per-module and per-entity URLs the same substitutions are made as with the and options above. For example, if you want to link the contents page to a wiki page, and every module to subpages, you would say haddock --comments-base=url --comments-module=url/%M If your Wiki system doesn't like the '.' character in Haskell module names, you can replace it with a different character. For example to replace the '.' characters with '_' use haddock --comments-base=url --comments-module=url/%{MODULE/./_} Similarly, you can replace the '/' in a file name (may be useful for entity comments, but probably not.) =path Specify a theme to be used for HTML () documentation. If given multiple times then the pages will use the first theme given by default, and have alternate style sheets for the others. The reader can switch between themes with browsers that support alternate style sheets, or with the "Style" menu that gets added when the page is loaded. If no themes are specified, then just the default built-in theme ("Ocean") is used. The path parameter can be one of: A directory: The base name of the directory becomes the name of the theme. The directory must contain exactly one some.css file. Other files, usually image files, will be copied, along with the some.css file, into the generated output directory. A CSS file: The base name of the file becomes the name of the theme. The name of a built-in theme ("Ocean" or "Classic"). Includes the built-in themes ("Ocean" and "Classic"). Can be combined with . Note that order matters: The first specified theme will be the default. file =file Deprecated aliases for file =file Specify a file containing documentation which is placed on the main contents page under the heading “Description”. The file is parsed as a normal Haddock doc comment (but the comment markers are not required). title =title Use title as the page heading for each page in the documentation.This will normally be the name of the library being documented. The title should be a plain string (no markup please!). mode =mode Specify how identifiers are qualified. mode should be one of none (default): don't qualify any identifiers full: always qualify identifiers completely local: only qualify identifiers that are not part of the module relative: like local, but strip name of the module from qualifications of identifiers in submodules Example: If you generate documentation for module A, then the identifiers A.x, A.B.y and C.z are qualified as follows. none: x, y, z full: A.x, A.B.y, C.z local: x, A.B.y, C.z relative: x, B.y, C.z Display help and exit. Output version information and exit. Increase verbosity. Currently this will cause Haddock to emit some extra warnings, in particular about modules which were imported but it had no information about (this is often quite normal; for example when there is no information about the Prelude). When generating HTML, do not generate an index. Instead, redirect the Contents and/or Index link on each page to URL. This option is intended for use in conjuction with and/or for generating a separate contents and/or index covering multiple libraries. Generate an HTML contents and/or index containing entries pulled from all the specified interfaces (interfaces are specified using or ). This is used to generate a single contents and/or index for multiple sets of Haddock documentation. Causes Haddock to behaves as if every module has the ignore-exports attribute (). This might be useful for generating implementation documentation rather than interface documentation, for example.  module Causes Haddock to behaves as if module module has the hide atribute. (). =option Pass option to GHC. Turn off all warnings. Do not use a temporary directory for reading and writing compilation output files (.o, .hi, and stub files). Instead, use the present directory or another directory that you have explicitly told GHC to use via the --optghc flag. This flag can be used to avoid recompilation if compilation files already exist. Compilation files are produced when Haddock has to process modules that make use of Template Haskell, in which case Haddock compiles the modules using the GHC API.
Using literate or pre-processed source Since Haddock uses GHC internally, both plain and literate Haskell sources are accepted without the need for the user to do anything. To use the C pre-processor, however, the user must pass the the option to GHC using .
Documentation and Markup Haddock understands special documentation annotations in the Haskell source file and propagates these into the generated documentation. The annotations are purely optional: if there are no annotations, Haddock will just generate documentation that contains the type signatures, data type declarations, and class declarations exported by each of the modules being processed.
Documenting a top-level declaration The simplest example of a documentation annotation is for documenting any top-level declaration (function type signature, type declaration, or class declaration). For example, if the source file contains the following type signature: square :: Int -> Int square x = x * x Then we can document it like this: -- |The 'square' function squares an integer. square :: Int -> Int square x = x * x The -- | syntax begins a documentation annotation, which applies to the following declaration in the source file. Note that the annotation is just a comment in Haskell — it will be ignored by the Haskell compiler. The declaration following a documentation annotation should be one of the following: A type signature for a top-level function, A data declaration, A newtype declaration, A type declaration, or A class declaration. If the annotation is followed by a different kind of declaration, it will probably be ignored by Haddock. Some people like to write their documentation after the declaration; this is possible in Haddock too: square :: Int -> Int -- ^The 'square' function squares an integer. square x = x * x Note that Haddock doesn't contain a Haskell type system — if you don't write the type signature for a function, then Haddock can't tell what its type is and it won't be included in the documentation. Documentation annotations may span several lines; the annotation continues until the first non-comment line in the source file. For example: -- |The 'square' function squares an integer. -- It takes one argument, of type 'Int'. square :: Int -> Int square x = x * x You can also use Haskell's nested-comment style for documentation annotations, which is sometimes more convenient when using multi-line comments: {-| The 'square' function squares an integer. It takes one argument, of type 'Int'. -} square :: Int -> Int square x = x * x
Documenting parts of a declaration In addition to documenting the whole declaration, in some cases we can also document individual parts of the declaration.
Class methods Class methods are documented in the same way as top level type signatures, by using either the -- | or -- ^ annotations: class C a where -- | This is the documentation for the 'f' method f :: a -> Int -- | This is the documentation for the 'g' method g :: Int -> a
Constructors and record fields Constructors are documented like so: data T a b -- | This is the documentation for the 'C1' constructor = C1 a b -- | This is the documentation for the 'C2' constructor | C2 a b or like this: data T a b = C1 a b -- ^ This is the documentation for the 'C1' constructor | C2 a b -- ^ This is the documentation for the 'C2' constructor Record fields are documented using one of these styles: data R a b = C { -- | This is the documentation for the 'a' field a :: a, -- | This is the documentation for the 'b' field b :: b } data R a b = C { a :: a -- ^ This is the documentation for the 'a' field , b :: b -- ^ This is the documentation for the 'b' field } Alternative layout styles are generally accepted by Haddock - for example doc comments can appear before or after the comma in separated lists such as the list of record fields above.
Function arguments Individual arguments to a function may be documented like this: f :: Int -- ^ The 'Int' argument -> Float -- ^ The 'Float' argument -> IO () -- ^ The return value
The module description A module may contain a documentation comment before the module header, in which case this comment is interpreted by Haddock as an overall description of the module itself, and placed in a section entitled Description in the documentation for the module. For example: -- | This is the description for module "Foo" module Foo where ...
Controlling the documentation structure Haddock produces interface documentation that lists only the entities actually exported by the module. The documentation for a module will include all entities exported by that module, even if they were re-exported by another module. The only exception is when Haddock can't see the declaration for the re-exported entity, perhaps because it isn't part of the batch of modules currently being processed. However, to Haddock the export list has even more significance than just specifying the entities to be included in the documentation. It also specifies the order that entities will be listed in the generated documentation. This leaves the programmer free to implement functions in any order he/she pleases, and indeed in any module he/she pleases, but still specify the order that the functions should be documented in the export list. Indeed, many programmers already do this: the export list is often used as a kind of ad-hoc interface documentation, with headings, groups of functions, type signatures and declarations in comments. You can insert headings and sub-headings in the documentation by including annotations at the appropriate point in the export list. For example: module Foo ( -- * Classes C(..), -- * Types -- ** A data type T, -- ** A record R, -- * Some functions f, g ) where Headings are introduced with the syntax -- *, -- ** and so on, where the number of *s indicates the level of the heading (section, sub-section, sub-sub-section, etc.). If you use section headings, then Haddock will generate a table of contents at the top of the module documentation for you. The alternative style of placing the commas at the beginning of each line is also supported. eg.: module Foo ( -- * Classes , C(..) -- * Types -- ** A data type , T -- ** A record , R -- * Some functions , f , g ) where
Re-exporting an entire module Haskell allows you to re-export the entire contents of a module (or at least, everything currently in scope that was imported from a given module) by listing it in the export list: module A ( module B, module C ) where What will the Haddock-generated documentation for this module look like? Well, it depends on how the modules B and C are imported. If they are imported wholly and without any hiding qualifiers, then the documentation will just contain a cross-reference to the documentation for B and C. However, if the modules are not completely re-exported, for example: module A ( module B, module C ) where import B hiding (f) import C (a, b) then Haddock behaves as if the set of entities re-exported from B and C had been listed explicitly in the export listNOTE: this is not fully implemented at the time of writing (version 0.2). At the moment, Haddock always inserts a cross-reference. . The exception to this rule is when the re-exported module is declared with the hide attribute (), in which case the module is never cross-referenced; the contents are always expanded in place in the re-exporting module.
Omitting the export list If there is no export list in the module, how does Haddock generate documentation? Well, when the export list is omitted, e.g.: module Foo where this is equivalent to an export list which mentions every entity defined at the top level in this module, and Haddock treats it in the same way. Furthermore, the generated documentation will retain the order in which entities are defined in the module. In this special case the module body may also include section headings (normally they would be ignored by Haddock).
Named chunks of documentation Occasionally it is desirable to include a chunk of documentation which is not attached to any particular Haskell declaration. There are two ways to do this: The documentation can be included in the export list directly, e.g.: module Foo ( -- * A section heading -- | Some documentation not attached to a particular Haskell entity ... ) where If the documentation is large and placing it inline in the export list might bloat the export list and obscure the structure, then it can be given a name and placed out of line in the body of the module. This is achieved with a special form of documentation annotation -- $: module Foo ( -- * A section heading -- $doc ... ) where -- $doc -- Here is a large chunk of documentation which may be referred to by -- the name $doc. The documentation chunk is given a name, which is the sequence of alphanumeric characters directly after the -- $, and it may be referred to by the same name in the export list.
Hyperlinking and re-exported entities When Haddock renders a type in the generated documentation, it hyperlinks all the type constructors and class names in that type to their respective definitions. But for a given type constructor or class there may be several modules re-exporting it, and therefore several modules whose documentation contains the definition of that type or class (possibly including the current module!) so which one do we link to? Let's look at an example. Suppose we have three modules A, B and C defined as follows: module A (T) where data T a = C a module B (f) where import A f :: T Int -> Int f (C i) = i module C (T, f) where import A import B Module A exports a datatype T. Module B imports A and exports a function f whose type refers to T. Also, both T and f are re-exported from module C. Haddock takes the view that each entity has a home module; that is, the module that the library designer would most like to direct the user to, to find the documentation for that entity. So, Haddock makes all links to an entity point to the home module. The one exception is when the entity is also exported by the current module: Haddock makes a local link if it can. How is the home module for an entity determined? Haddock uses the following rules: If modules A and B both export the entity, and module A imports (directly or indirectly) module B, then B is preferred. A module with the hide attribute is never chosen as the home. A module with the not-home atribute is only chosen if there are no other modules to choose. If multiple modules fit the criteria, then one is chosen at random. If no modules fit the criteria (because the candidates are all hidden), then Haddock will issue a warning for each reference to an entity without a home. In the example above, module A is chosen as the home for T because it does not import any other module that exports T. The link from f's type in module B will therefore point to A.T. However, C also exports T and f, and the link from f's type in C will therefore point locally to C.T.
Module Attributes Certain attributes may be specified for each module which affects the way that Haddock generates documentation for that module. Attributes are specified in a comma-separated list in an {-# OPTIONS_HADDOCK ... #-} pragma at the top of the module, either before or after the module description. For example: {-# OPTIONS_HADDOCK hide, prune, ignore-exports #-} -- |Module description module A where ... The options and module description can be in either order. The following attributes are currently understood by Haddock: hide hide Omit this module from the generated documentation, but nevertheless propagate definitions and documentation from within this module to modules that re-export those definitions. hide prune Omit definitions that have no documentation annotations from the generated documentation. ignore-exports ignore-exports Ignore the export list. Generate documentation as if the module had no export list - i.e. all the top-level declarations are exported, and section headings may be given in the body of the module. not-home not-home Indicates that the current module should not be considered to be the home module for each entity it exports, unless that entity is not exported from any other module. See for more details.
Markup Haddock understands certain textual cues inside documentation annotations that tell it how to render the documentation. The cues (or markup) have been designed to be simple and mnemonic in ASCII so that the programmer doesn't have to deal with heavyweight annotations when editing documentation comments.
Paragraphs One or more blank lines separates two paragraphs in a documentation comment.
Special characters The following characters have special meanings in documentation comments: \, /, ', `, ", @, <. To insert a literal occurrence of one of these special characters, precede it with a backslash (\). Additionally, the character > has a special meaning at the beginning of a line, and the following characters have special meanings at the beginning of a paragraph: *, -. These characters can also be escaped using \. Furthermore, the character sequence >>> has a special meaning at the beginning of a line. To escape it, just prefix the characters in the sequence with a backslash.
Character references Although Haskell source files may contain any character from the Unicode character set, the encoding of these characters as bytes varies between systems, so that only source files restricted to the ASCII character set are portable. Other characters may be specified in character and string literals using Haskell character escapes. To represent such characters in documentation comments, Haddock supports SGML-style numeric character references of the forms &#D; and &#xH; where D and H are decimal and hexadecimal numbers denoting a code position in Unicode (or ISO 10646). For example, the references &#x3BB;, &#x3bb; and &#955; all represent the lower-case letter lambda.
Code Blocks Displayed blocks of code are indicated by surrounding a paragraph with @...@ or by preceding each line of a paragraph with > (we often call these “bird tracks”). For example: -- | This documentation includes two blocks of code: -- -- @ -- f x = x + x -- @ -- -- > g x = x * 42 There is an important difference between the two forms of code block: in the bird-track form, the text to the right of the ‘>’ is interpreted literally, whereas the @...@ form interprets markup as normal inside the code block.
Examples Haddock has markup support for examples of interaction with a read-eval-print loop (REPL). An example is introduced with >>> followed by an expression followed by zero or more result lines: -- | Two examples are given below: -- -- >>> fib 10 -- 55 -- -- >>> putStrLn "foo\nbar" -- foo -- bar Result lines that only contain the string <BLANKLINE> are rendered as blank lines in the generated documenation.
Properties Haddock provides markup for properties: -- | Addition is commutative: -- -- prop> a + b = b + a This allows third-party applications to extract and verify them.
Hyperlinked Identifiers Referring to a Haskell identifier, whether it be a type, class, constructor, or function, is done by surrounding it with single quotes: -- | This module defines the type 'T'. If there is an entity T in scope in the current module, then the documentation will hyperlink the reference in the text to the definition of T (if the output format supports hyperlinking, of course; in a printed format it might instead insert a page reference to the definition). It is also possible to refer to entities that are not in scope in the current module, by giving the full qualified name of the entity: -- | The identifier 'M.T' is not in scope If M.T is not otherwise in scope, then Haddock will simply emit a link pointing to the entity T exported from module M (without checking to see whether either M or M.T exist). To make life easier for documentation writers, a quoted identifier is only interpreted as such if the quotes surround a lexically valid Haskell identifier. This means, for example, that it normally isn't necessary to escape the single quote when used as an apostrophe: -- | I don't have to escape my apostrophes; great, isn't it? For compatibility with other systems, the following alternative form of markup is accepted We chose not to use this as the primary markup for identifiers because strictly speaking the ` character should not be used as a left quote, it is a grave accent. : `T'.
Emphasis and Monospaced text Emphasis may be added by surrounding text with /.../. Monospaced (or typewriter) text is indicated by surrounding it with @...@. Other markup is valid inside a monospaced span: for example @'f' a b@ will hyperlink the identifier f inside the code fragment.
Linking to modules Linking to a module is done by surrounding the module name with double quotes: -- | This is a reference to the "Foo" module.
Itemized and Enumerated lists A bulleted item is represented by preceding a paragraph with either * or -. A sequence of bulleted paragraphs is rendered as an itemized list in the generated documentation, eg.: -- | This is a bulleted list: -- -- * first item -- -- * second item An enumerated list is similar, except each paragraph must be preceded by either (n) or n. where n is any integer. e.g. -- | This is an enumerated list: -- -- (1) first item -- -- 2. second item
Definition lists Definition lists are written as follows: -- | This is a definition list: -- -- [@foo@] The description of @foo@. -- -- [@bar@] The description of @bar@. To produce output something like this: foo The description of foo. bar The description of bar. Each paragraph should be preceded by the “definition term” enclosed in square brackets. The square bracket characters have no special meaning outside the beginning of a definition paragraph. That is, if a paragraph begins with a [ character, then it is assumed to be a definition paragraph, and the next ] character found will close the definition term. Other markup operators may be used freely within the definition term.
URLs A URL can be included in a documentation comment by surrounding it in angle brackets: <...>. If the output format supports it, the URL will be turned into a hyperlink when rendered. The URL can be followed by an optional label: <http://example.com label> The label is then used as a descriptive text for the hyperlink, if the output format supports it.
Anchors Sometimes it is useful to be able to link to a point in the documentation which doesn't correspond to a particular entity. For that purpose, we allow anchors to be included in a documentation comment. The syntax is #label#, where label is the name of the anchor. An anchor is invisible in the generated documentation. To link to an anchor from elsewhere, use the syntax "module#label" where module is the module name containing the anchor, and label is the anchor label. The module does not have to be local, it can be imported via an interface.