package cppo
Install
Dune Dependency
Authors
Maintainers
Sources
md5=fed401197d86f9089e89f6cbdf1d660d
sha512=069bbe0ef09c03b0dc4b5795f909c3ef872fe99c6f1e6704a0fa97594b1570b3579226ec67fe11d696ccc349a4585055bbaf07c65eff423aa45af28abf38c858
Description
Cppo is an equivalent of the C preprocessor for OCaml programs. It allows the definition of simple macros and file inclusion.
Cppo is:
- more OCaml-friendly than cpp
- easy to learn without consulting a manual
- reasonably fast
- simple to install and to maintain
Published: 28 Sep 2021
README
README.md
Cppo: cpp for OCaml
Cppo is an equivalent of the C preprocessor for OCaml programs. It allows the definition of simple macros and file inclusion.
Cppo is:
more OCaml-friendly than cpp
easy to learn without consulting a manual
reasonably fast
simple to install and to maintain
User guide
Cppo is a preprocessor for programming languages that follow lexical rules compatible with OCaml including OCaml-style comments (* ... *)
. These include Ocamllex, Ocamlyacc, Menhir, and extensions of OCaml based on Camlp4, Camlp5, or ppx. Cppo should work with Bucklescript as well. It won't work so well with Reason code because Reason uses C-style comment delimiters /*
and */
.
Cppo supports a number of directives. A directive is a #
sign placed at the beginning of a line, possibly preceded by some whitespace, and followed by a valid directive name or by a number:
BLANK* "#" BLANK* ("define"|"undef"
|"if"|"ifdef"|"ifndef"|"else"|"elif"|"endif"
|"include"
|"warning"|"error"
|"ext"|"endext") ...
Directives can be split into multiple lines by placing a backslash \
at the end of the line to be continued. In general, any special character can used as a normal character by preceding it with backslash.
File inclusion
#include "hello.ml"
This is how a source file hello.ml
can be included. Relative paths are searched first in the directory of the current file and then in the search paths added on the command line using -I
, if any.
Macros
This is a simple macro that doesn't take an argument ("object-like macro" in the cpp jargon):
#define Ms Mississippi
match state with
Ms -> true
| _ -> false
After preprocessing by cppo, the code above becomes:
match state with
Mississippi -> true
| _ -> false
If needed, defined macros can be undefined. This is required prior to redefining a macro:
#undef X
An important distinction with cpp is that only previously-defined macros are accessible. Defining, undefining or redefining a macro has no effect on how previous macros will expand.
Macros can take arguments ("function-like macro" in the cpp jargon). Both in the definition (#define
) and in macro application the opening parenthesis must stick to the macro's identifier:
#define debug(args) if !debugging then Printf.eprintf args else ()
debug("Testing %i" (1 + 1))
is expanded into:
if !debugging then Printf.eprintf "Testing %i" (1 + 1) else ()
Here is a multiline macro definition. Newlines occurring between tokens must be protected by a backslash:
#define repeat_until(action,condition) \
action; \
while not (condition) do \
action \
done
All user-definable macros are constant. There are however two predefined variable macros: __FILE__
and __LINE__
which take the value of the position in the source file where the macro is being expanded.
#define loc (Printf.sprintf "File %S, line %i" __FILE__ __LINE__)
Macros can be defined on the command line as follows:
# preprocessing only
cppo -D 'VERSION 1.0' example.ml
# preprocessing and compiling
ocamlopt -c -pp "cppo -D 'VERSION 1.0'" example.ml
Conditionals
Here is a quick reference on conditionals available in cppo. If you are not familiar with #ifdef
, #ifndef
, #if
, #else
and #elif
, please refer to the corresponding section in the cpp manual.
#ifndef VERSION
#warning "VERSION is undefined"
#define VERSION "n/a"
#endif
#ifndef VERSION
#error "VERSION is undefined"
#endif
#if OCAML_MAJOR >= 3 && OCAML_MINOR >= 10
...
#endif
#ifdef X
...
#elif defined Y
...
#else
...
#endif
The boolean expressions following #if
and #elif
may perform arithmetic operations and tests over 64-bit ints.
Boolean expressions:
defined
... followed by an identifier, returns true if such a macro existstrue
false
(
...)
...
&&
......
||
...not
...
Arithmetic comparisons used in boolean expressions:
...
=
......
<
......
>
......
<>
......
<=
......
>=
...
Arithmetic operators over signed 64-bit ints:
(
...)
...
+
......
-
......
*
......
/
......
mod
......
lsl
......
lsr
......
asr
......
land
......
lor
......
lxor
...lnot
...
Macro identifiers can be used in place of ints as long as they expand to an int literal or a tuple of int literals, e.g.:
#define one 1
#if one + one <> 2
#error "Something's wrong."
#endif
#define VERSION (1, 0, 5)
#if VERSION <= (1, 0, 2)
#error "Version 1.0.2 or greater is required."
#endif
Version strings (http://semver.org/) can also be passed to cppo on the command line. This results in multiple variables being defined, all sharing the same prefix. See the output of cppo -help
(copied at the bottom of this page).
$ cppo -V OCAML:`ocamlc -version`
#if OCAML_VERSION >= (4, 0, 0)
(* All is well. *)
#else
#error "This version of OCaml is not supported."
#endif
Output:
# 2 "<stdin>"
(* All is well. *)
Source file location
Location directives are the same as in OCaml and are echoed in the output. They consist of a line number optionally followed by a file name:
# 123
# 456 "source"
Messages
Warnings and error messages can be produced by the preprocessor:
#ifndef X
#warning "Assuming default value for X"
#define X 1
#elif X = 0
#error "X may not be null"
#endif
Calling an external processor
Cppo provides a mechanism for converting sections of a file using and external program. Such a section must be placed between #ext
and #endext
directives.
$ cat foo
ABC
#ext lowercase
DEF
#endext
GHI
#ext lowercase
KLM
NOP
#endext
QRS
$ cppo -x lowercase:'tr "[A-Z]" "[a-z]"' foo
# 1 "foo"
ABC
def
# 5 "foo"
GHI
klm
nop
# 10 "foo"
QRS
In the example above, lowercase
is the name given on the command-line to external command 'tr "[A-Z]" "[a-z]"'
that reads input from stdin and writes its output to stdout.
Escaping
The following characters can be escaped by a backslash when needed:
(
)
,
#
In OCaml #
is used for method calls. It is usually not a problem because in order to be interpreted as a preprocessor directive, it must be the first non-blank character of a line and be a known directive. If an object has a define method and you want #
to appear first on a line, you would have to use \#
instead:
obj
\#define
Line directives in the usual format supported by OCaml are correctly interpreted by cppo.
Comments and string literals constitute single tokens even when they span across multiple lines. Therefore newlines within string literals and comments should remain as-is (no preceding backslash) even in a macro body:
#define welcome \
"**********
*Welcome!*
**********
"
Concatenation
CONCAT()
is a predefined macro that takes two arguments, removes any whitespace between and around them and fuses them into a single identifier. The result of the concatenation must be a valid identifier of the form [A-Za-z_][A-Za-z0-9_]+ or [A-Za-z], or empty.
For example,
#define x 123
CONCAT(z, x)
expands into:
z123
However the following is illegal:
#define x 123
CONCAT(x, z)
because 123z does not form a valid identifier.
CONCAT(a,b)
is roughly equivalent to a##b
in cpp syntax.
CAPITALIZE
CAPITALIZE()
is a predefined macro that takes one argument, removes any leading and trailing whitespace, reduces each internal whitespace sequence to a single space character and produces a valid OCaml identifer with first character.
For example,
#define EVENT(n,ty) external CONCAT(on,CAPITALIZE(n)) : ty = STRINGIFY(n) [@@bs.val]
EVENT(exit, unit -> unit)
is expanded into:
external onExit : unit -> unit = "exit" [@@bs.val]
Stringification
STRINGIFY()
is a predefined macro that takes one argument, removes any leading and trailing whitespace, reduces each internal whitespace sequence to a single space character and produces a valid OCaml string literal.
For example,
#define TRACE(f) Printf.printf ">>> %s\n" STRINGIFY(f); f
TRACE(print_endline) "Hello"
is expanded into:
Printf.printf ">>> %s\n" "print_endline"; print_endline "Hello"
STRINGIFY(x)
is the equivalent of #x
in cpp syntax.
Ocamlbuild plugin
An ocamlbuild plugin is available. To use it, you can call ocamlbuild with the argument -plugin-tag package(cppo_ocamlbuild)
(only since ocaml 4.01 and cppo >= 0.9.4).
Starting from cppo >= 1.6.0, the cppo_ocamlbuild
plugin is in a separate OPAM package (opam install cppo_ocamlbuild
).
With Oasis :
OCamlVersion: >= 4.01
AlphaFeatures: ocamlbuild_more_args
XOCamlbuildPluginTags: package(cppo_ocamlbuild)
After that, you need to add in your myocamlbuild.ml
:
let () =
Ocamlbuild_plugin.dispatch
(fun hook ->
Ocamlbuild_cppo.dispatcher hook ;
)
By default the plugin will apply cppo on all files ending in .cppo.ml
cppo.mli
, and cppo.mlpack
, in order to produce .ml
, .mli
, and.mlpack
files. The following tags are available:
cppo_D(X)
≡-D X
cppo_U(X)
≡-U X
cppo_q
≡-q
cppo_s
≡-s
cppo_n
≡-n
cppo_x(NAME:CMD_TEMPLATE)
≡-x NAME:CMD_TEMPLATE
The tag
cppo_I(foo)
can behave in two way:If
foo
is a directory, it's equivalent to-I foo
.If
foo
is a file, it addsfoo
as a dependency and apply-I parent(foo)
.
cppo_V(NAME:VERSION)
≡-V NAME:VERSION
cppo_V_OCAML
≡-V OCAML:VERSION
, whereVERSION
is the version of OCaml that ocamlbuild uses.
Detailed command-line usage and options
Usage: ./cppo [OPTIONS] [FILE1 [FILE2 ...]]
Options:
-D DEF
Equivalent of interpreting '#define DEF' before processing the
input
-U IDENT
Equivalent of interpreting '#undef IDENT' before processing the
input
-I DIR
Add directory DIR to the search path for included files
-V VAR:MAJOR.MINOR.PATCH-OPTPRERELEASE+OPTBUILD
Define the following variables extracted from a version string
(following the Semantic Versioning syntax http://semver.org/):
VAR_MAJOR must be a non-negative int
VAR_MINOR must be a non-negative int
VAR_PATCH must be a non-negative int
VAR_PRERELEASE if the OPTPRERELEASE part exists
VAR_BUILD if the OPTBUILD part exists
VAR_VERSION is the tuple (MAJOR, MINOR, PATCH)
VAR_VERSION_STRING is the string MAJOR.MINOR.PATCH
VAR_VERSION_FULL is the original string
Example: cppo -V OCAML:4.02.1
-o FILE
Output file
-q
Identify and preserve camlp4 quotations
-s
Output line directives pointing to the exact source location of
each token, including those coming from the body of macro
definitions. This behavior is off by default.
-n
Do not output any line directive other than those found in the
input (overrides -s).
-version
Print the version of the program and exit.
-x NAME:CMD_TEMPLATE
Define a custom preprocessor target section starting with:
#ext "NAME"
and ending with:
#endext
NAME must be a lowercase identifier of the form [a-z][A-Za-z0-9_]*
CMD_TEMPLATE is a command template supporting the following
special sequences:
%F file name (unescaped; beware of potential scripting attacks)
%B number of the first line
%E number of the last line
%% a single percent sign
Filename, first line number and last line number are also
available from the following environment variables:
CPPO_FILE, CPPO_FIRST_LINE, CPPO_LAST_LINE.
The command produced is expected to read the data lines from stdin
and to write its output to stdout.
-help Display this list of options
--help Display this list of options
Contributing
See our contribution guidelines at https://github.com/mjambon/documents/blob/master/how-to-contribute.md
Dev Dependencies
None
-
0install
>= "2.14" & < "2.15.1"
- arg-complete
- asak
- baby
-
bisect_ppx
= "1.2.0"
- bwrap
- bytearray
-
camlimages
>= "5.0.0"
-
camomile
< "1.0.0"
-
caqti
>= "1.2.0" & < "2.0.1"
-
catala
>= "0.5.0"
-
cconv
= "0.4"
- cconv-ppx
- clarity-lang
- commonjs_of_ocaml
-
config-file
>= "1.2.1"
-
containers
>= "0.5" & < "1.5"
-
cppo_ocamlbuild
< "1.6.7"
- curve-sampling
-
decoders
< "0.1.2"
- doc-ock
-
dose
>= "3.4.1"
-
dose3
< "6.1"
-
dryunit
>= "0.4.0"
-
extlib
>= "1.7.0"
-
extlib-compat
>= "1.7.0"
-
fftw3
>= "0.8"
-
freetds
>= "0.6"
-
frenetic
>= "5.0.0" & < "5.0.5"
- General
-
gapi-ocaml
>= "0.4.5"
- gdb
-
genprint
>= "0.2"
-
gettext
>= "0.4.2"
-
goblint-cil
>= "2.0.0"
-
graphql_ppx
>= "0.7.1" & < "1.2.2"
-
hacl-star
>= "0.1.1"
-
hdf5
>= "0.1.2"
- hector
-
integration1d
>= "0.5.1"
-
irmin-watcher
< "0.3.0"
-
js_of_ocaml
>= "2.6" & < "3.0"
-
js_of_ocaml-compiler
< "3.5.0"
-
jupyter
< "2.0.0"
-
lablqml
< "0.6"
-
lbfgs
>= "0.9.3"
-
lilis
>= "0.2.1"
-
lsp
< "1.6.0"
-
lwt
>= "2.7.1"
-
lwt_react
>= "1.2.0"
- malfunction
-
mdx
>= "1.2.0"
-
melange
>= "0.3.0"
- meldep
- merlin-extend
-
mindstorm
>= "0.6"
- mindstorm-lwt
-
monomorphic
>= "2.1.0"
-
notty
>= "0.2.3"
-
ocaml-top
>= "1.2.0"
- ocamlmerlin-mlx
-
ocolor
>= "1.1"
-
ocp-browser
>= "1.2.1"
-
ocp-index
>= "1.2.1"
- ocp-index-top
-
ocplib-endian
>= "0.8"
-
odoc
>= "1.3.0"
- oloop
-
oml
= "0.0.6"
-
opam-core
>= "2.0.0~rc" & < "2.2.0~alpha"
- opam-query
-
opium
= "0.14.0"
-
override
>= "0.2.0" & < "0.3.0"
- p5scm
-
pa_ppx
>= "0.12"
- pa_ppx_parsetree
-
pa_ppx_q_ast
= "0.09"
-
phantom-algebra
< "1.0.1"
-
pla
< "1.2"
- plato
-
ppx_bigarray
>= "0.0.1"
-
ppx_cstruct
>= "5.1.1"
- ppx_cstubs
-
ppx_deriving
>= "3.3"
- ppx_deriving_argparse
-
ppx_deriving_cmdliner
< "0.6.0"
-
ppx_deriving_morphism
= "0.4"
-
ppx_deriving_protobuf
>= "2.4"
-
ppx_deriving_rpc
< "6.0.0"
-
ppx_deriving_yojson
>= "3.0" & < "3.6.0"
- ppx_dryunit
-
ppx_getenv
= "1.2"
-
ppx_import
< "1.5-3-gbd627d5"
-
ppx_include
>= "1.1"
-
ppx_interact
>= "0.1.1"
-
ppx_tools
>= "6.3"
-
reanalyze
>= "2.16.0"
-
reason
>= "3.12.0"
- reed-solomon-erasure
- rotor
-
rtop
>= "3.12.0"
-
sarek
>= "20210823"
- sek
- setr
-
shcaml
>= "0.2.0"
- sibylfs
- slap
-
spoc
>= "20210823"
-
sqlexpr
>= "0.7.1" & < "0.9.0"
-
stdcompat
< "5"
- stdlib-random
-
touist
>= "3.1.0" & < "3.4.0"
-
utop
>= "1.16"
- uwt
-
visitors
>= "20170404" & < "20210127"
-
websocket
>= "2.8" & < "2.10"
-
yojson
< "2.2.0"
Conflicts
None