16. Other Haskell utility programs¶
This section describes other program(s) which we distribute, that help with the Great Haskell Programming Task.
16.1. “Yacc for Haskell”: happy
¶
Andy Gill and Simon Marlow have written a parser-generator for Haskell,
called happy
. Happy
is to Haskell what Yacc
is to C.
You can get happy
from the Happy
Homepage.
Happy
is at its shining best when compiled by GHC.
16.2. Writing Haskell interfaces to C code: hsc2hs
¶
The hsc2hs
command can be used to automate some parts of the process
of writing Haskell bindings to C code. It reads an almost-Haskell source
with embedded special constructs, and outputs a real Haskell file with
these constructs processed, based on information taken from some C
headers. The extra constructs deal with accessing C data from Haskell.
It may also output a C file which contains additional C functions to be
linked into the program, together with a C header that gets included
into the C code to which the Haskell module will be compiled (when
compiled via C) and into the C file. These two files are created when
the #def
construct is used (see below).
Actually hsc2hs
does not output the Haskell file directly. It
creates a C program that includes the headers, gets automatically
compiled and run. That program outputs the Haskell code.
In the following, “Haskell file” is the main output (usually a .hs
file), “compiled Haskell file” is the Haskell file after ghc
has
compiled it to C (i.e. a .hc
file), “C program” is the program that
outputs the Haskell file, “C file” is the optionally generated C file,
and “C header” is its header file.
16.2.1. command line syntax¶
hsc2hs
takes input files as arguments, and flags that modify its
behavior:
-o FILE
,--output=FILE
Name of the Haskell file.
-t FILE
,--template=FILE
The template file (see below).
-c PROG
,--cc=PROG
The C compiler to use (default:
gcc
)-l PROG
,--ld=PROG
The linker to use (default:
gcc
).-C FLAG
,--cflag=FLAG
An extra flag to pass to the C compiler.
-I DIR
Passed to the C compiler.
-L FLAG
,--lflag=FLAG
An extra flag to pass to the linker.
-i FILE
,--include=FILE
As if the appropriate
#include
directive was placed in the source.-D NAME[=VALUE]
,--define=NAME[=VALUE]
As if the appropriate
#define
directive was placed in the source.--no-compile
Stop after writing out the intermediate C program to disk. The file name for the intermediate C program is the input file name with
.hsc
replaced with_hsc_make.c
.-k
,--keep-files
Proceed as normal, but do not delete any intermediate files.
-x
,--cross-compile
Activate cross-compilation mode (see Cross-compilation).
--cross-safe
Restrict the .hsc directives to those supported by the
--cross-compile
mode (see Cross-compilation). This should be useful if your.hsc
files must be safely cross-compiled and you wish to keep non-cross-compilable constructs from creeping into them.-?
,--help
Display a summary of the available flags and exit successfully.
-V
,--version
Output version information and exit successfully.
The input file should end with .hsc (it should be plain Haskell source
only; literate Haskell is not supported at the moment). Output files by
default get names with the .hsc
suffix replaced:
|
Haskell file |
|
C header |
|
C file |
The C program is compiled using the Haskell compiler. This provides the
include path to HsFFI.h
which is automatically included into the C
program.
16.2.2. Input syntax¶
All special processing is triggered by the #
operator. To output a
literal #
, write it twice: ##
. Inside string literals and
comments #
characters are not processed.
A #
is followed by optional spaces and tabs, an alphanumeric keyword
that describes the kind of processing, and its arguments. Arguments look
like C expressions separated by commas (they are not written inside
parens). They extend up to the nearest unmatched )
, ]
or }
,
or to the end of line if it occurs outside any () [] {} '' "" /**/
and is not preceded by a backslash. Backslash-newline pairs are
stripped.
In addition #{stuff}
is equivalent to #stuff
except that it’s
self-delimited and thus needs not to be placed at the end of line or in
some brackets.
Meanings of specific keywords:
#include <file.h>
,#include "file.h"
The specified file gets included into the C program, the compiled Haskell file, and the C header.
<HsFFI.h>
is included automatically.#define ⟨name⟩
,#define ⟨name ⟨value⟩
,#undef ⟨name⟩
Similar to
#include
. Note that#includes
and#defines
may be put in the same file twice so they should not assume otherwise.#let ⟨name⟩ ⟨parameters⟩ = "⟨definition⟩"
Defines a macro to be applied to the Haskell source. Parameter names are comma-separated, not inside parens. Such macro is invoked as other
#
-constructs, starting with#name
. The definition will be put in the C program inside parens as arguments ofprintf
. To refer to a parameter, close the quote, put a parameter name and open the quote again, to let C string literals concatenate. Or useprintf
’s format directives. Values of arguments must be given as strings, unless the macro stringifies them itself using the C preprocessor’s#parameter
syntax.#def ⟨C_definition⟩
The definition (of a function, variable, struct or typedef) is written to the C file, and its prototype or extern declaration to the C header. Inline functions are handled correctly. struct definitions and typedefs are written to the C program too. The
inline
,struct
ortypedef
keyword must come just afterdef
.#if ⟨condition⟩
,#ifdef ⟨name⟩
,#ifndef ⟨name⟩
,#elif ⟨condition⟩
,#else
,#endif
,#error ⟨message⟩
,#warning ⟨message⟩
Conditional compilation directives are passed unmodified to the C program, C file, and C header. Putting them in the C program means that appropriate parts of the Haskell file will be skipped.
#const ⟨C_expression⟩
The expression must be convertible to
long
orunsigned long
. Its value (literal or negated literal) will be output.#const_str ⟨C_expression⟩
The expression must be convertible to const char pointer. Its value (string literal) will be output.
#type ⟨C_type⟩
A Haskell equivalent of the C numeric type will be output. It will be one of
{Int,Word}{8,16,32,64}
,Float
,Double
,LDouble
.#peek ⟨struct_type⟩, ⟨field⟩
A function that peeks a field of a C struct will be output. It will have the type
Storable b => Ptr a -> IO b
. The intention is that#peek
and#poke
can be used for implementing the operations of classStorable
for a given C struct (see theForeign.Storable
module in the library documentation).#poke ⟨struct_type⟩, ⟨field⟩
Similarly for poke. It will have the type
Storable b => Ptr a -> b -> IO ()
.#ptr ⟨struct_type⟩, ⟨field⟩
Makes a pointer to a field struct. It will have the type
Ptr a -> Ptr b
.#offset ⟨struct_type⟩, ⟨field⟩
Computes the offset, in bytes, of
field
instruct_type
. It will have typeInt
.#size ⟨struct_type⟩
Computes the size, in bytes, of
struct_type
. It will have typeInt
.#alignment ⟨struct_type⟩
Computes the alignment, in bytes, of
struct_type
. It will have typeInt
.#enum ⟨type⟩, ⟨constructor⟩, ⟨value⟩, ⟨value⟩, ...
A shortcut for multiple definitions which use
#const
. Eachvalue
is a name of a C integer constant, e.g. enumeration value. The name will be translated to Haskell by making each letter following an underscore uppercase, making all the rest lowercase, and removing underscores. You can supply a different translation by writinghs_name = c_value
instead of avalue
, in which casec_value
may be an arbitrary expression. Thehs_name
will be defined as having the specifiedtype
. Its definition is the specifiedconstructor
(which in fact may be an expression or be empty) applied to the appropriate integer value. You can have multiple#enum
definitions with the sametype
; this construct does not emit the type definition itself.
16.2.3. Custom constructs¶
#const
, #type
, #peek
, #poke
and #ptr
are not
hardwired into the hsc2hs
, but are defined in a C template that is
included in the C program: template-hsc.h
. Custom constructs and
templates can be used too. Any #
-construct with unknown key is
expected to be handled by a C template.
A C template should define a macro or function with name prefixed by
hsc_
that handles the construct by emitting the expansion to stdout.
See template-hsc.h
for examples.
Such macros can also be defined directly in the source. They are useful
for making a #let
-like macro whose expansion uses other #let
macros. Plain #let
prepends hsc_
to the macro name and wraps the
definition in a printf
call.
16.2.4. Cross-compilation¶
hsc2hs
normally operates by creating, compiling, and running a C
program. That approach doesn’t work when cross-compiling — in this
case, the C compiler’s generates code for the target machine, not the
host machine. For this situation, there’s a special mode
hsc2hs --cross-compile
which can generate the .hs by extracting
information from compilations only — specifically, whether or not
compilation fails.
Only a subset of .hsc
syntax is supported by --cross-compile
.
The following are unsupported:
#{const_str}
#{let}
#{def}
Custom constructs