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dkjson/cmake/lua.cmake

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CMake
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2013-03-05 14:17:48 +00:00
# LuaDist CMake utility library for Lua.
#
# Copyright (C) 2007-2012 LuaDist.
# by David Manura, Peter Drahos
# Redistribution and use of this file is allowed according to the terms of the MIT license.
# For details see the COPYRIGHT file distributed with LuaDist.
# Please note that the package source code is licensed under its own license.
set ( INSTALL_LMOD ${INSTALL_LIB}/lua
CACHE PATH "Directory to install Lua modules." )
set ( INSTALL_CMOD ${INSTALL_LIB}/lua
CACHE PATH "Directory to install Lua binary modules." )
option ( SKIP_LUA_WRAPPER
"Do not build and install Lua executable wrappers." OFF)
# List of (Lua module name, file path) pairs.
# Used internally by add_lua_test. Built by add_lua_module.
set ( _lua_modules )
# utility function: appends path `path` to path `basepath`, properly
# handling cases when `path` may be relative or absolute.
macro ( _append_path basepath path result )
if ( IS_ABSOLUTE "${path}" )
set ( ${result} "${path}" )
else ()
set ( ${result} "${basepath}/${path}" )
endif ()
endmacro ()
# install_lua_executable ( target source )
# Automatically generate a binary wrapper for lua application and install it
# The wrapper and the source of the application will be placed into /bin
# If the application source did not have .lua suffix then it will be added
# USE: lua_executable ( sputnik src/sputnik.lua )
macro ( install_lua_executable _name _source )
get_filename_component ( _source_name ${_source} NAME_WE )
if ( NOT SKIP_LUA_WRAPPER )
enable_language ( C )
find_package ( Lua REQUIRED )
include_directories ( ${LUA_INCLUDE_DIR} )
set ( _wrapper ${CMAKE_CURRENT_BINARY_DIR}/${_name}.c )
set ( _code
"// Not so simple executable wrapper for Lua apps
#include <stdio.h>
#include <signal.h>
#include <lua.h>
#include <lauxlib.h>
#include <lualib.h>
lua_State *L\;
static int getargs (lua_State *L, char **argv, int n) {
int narg\;
int i\;
int argc = 0\;
while (argv[argc]) argc++\;
narg = argc - (n + 1)\;
luaL_checkstack(L, narg + 3, \"too many arguments to script\")\;
for (i=n+1\; i < argc\; i++)
lua_pushstring(L, argv[i])\;
lua_createtable(L, narg, n + 1)\;
for (i=0\; i < argc\; i++) {
lua_pushstring(L, argv[i])\;
lua_rawseti(L, -2, i - n)\;
}
return narg\;
}
static void lstop (lua_State *L, lua_Debug *ar) {
(void)ar\;
lua_sethook(L, NULL, 0, 0)\;
luaL_error(L, \"interrupted!\")\;
}
static void laction (int i) {
signal(i, SIG_DFL)\;
lua_sethook(L, lstop, LUA_MASKCALL | LUA_MASKRET | LUA_MASKCOUNT, 1)\;
}
static void l_message (const char *pname, const char *msg) {
if (pname) fprintf(stderr, \"%s: \", pname)\;
fprintf(stderr, \"%s\\n\", msg)\;
fflush(stderr)\;
}
static int report (lua_State *L, int status) {
if (status && !lua_isnil(L, -1)) {
const char *msg = lua_tostring(L, -1)\;
if (msg == NULL) msg = \"(error object is not a string)\"\;
l_message(\"${_source_name}\", msg)\;
lua_pop(L, 1)\;
}
return status\;
}
static int traceback (lua_State *L) {
if (!lua_isstring(L, 1))
return 1\;
lua_getfield(L, LUA_GLOBALSINDEX, \"debug\")\;
if (!lua_istable(L, -1)) {
lua_pop(L, 1)\;
return 1\;
}
lua_getfield(L, -1, \"traceback\")\;
if (!lua_isfunction(L, -1)) {
lua_pop(L, 2)\;
return 1\;
}
lua_pushvalue(L, 1)\;
lua_pushinteger(L, 2)\;
lua_call(L, 2, 1)\;
return 1\;
}
static int docall (lua_State *L, int narg, int clear) {
int status\;
int base = lua_gettop(L) - narg\;
lua_pushcfunction(L, traceback)\;
lua_insert(L, base)\;
signal(SIGINT, laction)\;
status = lua_pcall(L, narg, (clear ? 0 : LUA_MULTRET), base)\;
signal(SIGINT, SIG_DFL)\;
lua_remove(L, base)\;
if (status != 0) lua_gc(L, LUA_GCCOLLECT, 0)\;
return status\;
}
int main (int argc, char **argv) {
L=lua_open()\;
lua_gc(L, LUA_GCSTOP, 0)\;
luaL_openlibs(L)\;
lua_gc(L, LUA_GCRESTART, 0)\;
int narg = getargs(L, argv, 0)\;
lua_setglobal(L, \"arg\")\;
// Script
char script[500] = \"./${_source_name}.lua\"\;
lua_getglobal(L, \"_PROGDIR\")\;
if (lua_isstring(L, -1)) {
sprintf( script, \"%s/${_source_name}.lua\", lua_tostring(L, -1))\;
}
lua_pop(L, 1)\;
// Run
int status = luaL_loadfile(L, script)\;
lua_insert(L, -(narg+1))\;
if (status == 0)
status = docall(L, narg, 0)\;
else
lua_pop(L, narg)\;
report(L, status)\;
lua_close(L)\;
return status\;
};
")
file ( WRITE ${_wrapper} ${_code} )
add_executable ( ${_name} ${_wrapper} )
target_link_libraries ( ${_name} ${LUA_LIBRARY} )
install ( TARGETS ${_name} DESTINATION ${INSTALL_BIN} )
endif()
install ( PROGRAMS ${_source} DESTINATION ${INSTALL_BIN}
RENAME ${_source_name}.lua )
endmacro ()
macro ( _lua_module_helper is_install _name )
parse_arguments ( _MODULE "LINK;ALL_IN_ONE" "" ${ARGN} )
# _target is CMake-compatible target name for module (e.g. socket_core).
# _module is relative path of target (e.g. socket/core),
# without extension (e.g. .lua/.so/.dll).
# _MODULE_SRC is list of module source files (e.g. .lua and .c files).
# _MODULE_NAMES is list of module names (e.g. socket.core).
if ( _MODULE_ALL_IN_ONE )
string ( REGEX REPLACE "\\..*" "" _target "${_name}" )
string ( REGEX REPLACE "\\..*" "" _module "${_name}" )
set ( _target "${_target}_all_in_one")
set ( _MODULE_SRC ${_MODULE_ALL_IN_ONE} )
set ( _MODULE_NAMES ${_name} ${_MODULE_DEFAULT_ARGS} )
else ()
string ( REPLACE "." "_" _target "${_name}" )
string ( REPLACE "." "/" _module "${_name}" )
set ( _MODULE_SRC ${_MODULE_DEFAULT_ARGS} )
set ( _MODULE_NAMES ${_name} )
endif ()
if ( NOT _MODULE_SRC )
message ( FATAL_ERROR "no module sources specified" )
endif ()
list ( GET _MODULE_SRC 0 _first_source )
get_filename_component ( _ext ${_first_source} EXT )
if ( _ext STREQUAL ".lua" ) # Lua source module
list ( LENGTH _MODULE_SRC _len )
if ( _len GREATER 1 )
message ( FATAL_ERROR "more than one source file specified" )
endif ()
set ( _module "${_module}.lua" )
get_filename_component ( _module_dir ${_module} PATH )
get_filename_component ( _module_filename ${_module} NAME )
_append_path ( "${CMAKE_CURRENT_SOURCE_DIR}" "${_first_source}" _module_path )
list ( APPEND _lua_modules "${_name}" "${_module_path}" )
if ( ${is_install} )
install ( FILES ${_first_source} DESTINATION ${INSTALL_LMOD}/${_module_dir}
RENAME ${_module_filename} )
endif ()
else () # Lua C binary module
enable_language ( C )
find_package ( Lua REQUIRED )
include_directories ( ${LUA_INCLUDE_DIR} )
set ( _module "${_module}${CMAKE_SHARED_MODULE_SUFFIX}" )
get_filename_component ( _module_dir ${_module} PATH )
get_filename_component ( _module_filenamebase ${_module} NAME_WE )
foreach ( _thisname ${_MODULE_NAMES} )
list ( APPEND _lua_modules "${_thisname}"
"${CMAKE_CURRENT_BINARY_DIR}/\${CMAKE_CFG_INTDIR}/${_module}" )
endforeach ()
add_library( ${_target} MODULE ${_MODULE_SRC})
target_link_libraries ( ${_target} ${LUA_LIBRARY} ${_MODULE_LINK} )
set_target_properties ( ${_target} PROPERTIES LIBRARY_OUTPUT_DIRECTORY
"${_module_dir}" PREFIX "" OUTPUT_NAME "${_module_filenamebase}" )
if ( ${is_install} )
install ( TARGETS ${_target} DESTINATION ${INSTALL_CMOD}/${_module_dir})
endif ()
endif ()
endmacro ()
# add_lua_module
# Builds a Lua source module into a destination locatable by Lua
# require syntax.
# Binary modules are also supported where this function takes sources and
# libraries to compile separated by LINK keyword.
# USE: add_lua_module ( socket.http src/http.lua )
# USE2: add_lua_module ( mime.core src/mime.c )
# USE3: add_lua_module ( socket.core ${SRC_SOCKET} LINK ${LIB_SOCKET} )
# USE4: add_lua_module ( ssl.context ssl.core ALL_IN_ONE src/context.c src/ssl.c )
# This form builds an "all-in-one" module (e.g. ssl.so or ssl.dll containing
# both modules ssl.context and ssl.core). The CMake target name will be
# ssl_all_in_one.
# Also sets variable _module_path (relative path where module typically
# would be installed).
macro ( add_lua_module )
_lua_module_helper ( 0 ${ARGN} )
endmacro ()
# install_lua_module
# This is the same as `add_lua_module` but also installs the module.
# USE: install_lua_module ( socket.http src/http.lua )
# USE2: install_lua_module ( mime.core src/mime.c )
# USE3: install_lua_module ( socket.core ${SRC_SOCKET} LINK ${LIB_SOCKET} )
macro ( install_lua_module )
_lua_module_helper ( 1 ${ARGN} )
endmacro ()
# Builds string representing Lua table mapping Lua modules names to file
# paths. Used internally.
macro ( _make_module_table _outvar )
set ( ${_outvar} )
list ( LENGTH _lua_modules _n )
if ( ${_n} GREATER 0 ) # avoids cmake complaint
foreach ( _i RANGE 1 ${_n} 2 )
list ( GET _lua_modules ${_i} _path )
math ( EXPR _ii ${_i}-1 )
list ( GET _lua_modules ${_ii} _name )
set ( ${_outvar} "${_table} ['${_name}'] = '${_path}'\;\n")
endforeach ()
endif ()
set ( ${_outvar}
"local modules = {
${_table}}" )
endmacro ()
# add_lua_test ( _testfile [ WORKING_DIRECTORY _working_dir ] )
# Runs Lua script `_testfile` under CTest tester.
# Optional named argument `WORKING_DIRECTORY` is current working directory to
# run test under (defaults to ${CMAKE_CURRENT_BINARY_DIR}).
# Both paths, if relative, are relative to ${CMAKE_CURRENT_SOURCE_DIR}.
# Any modules previously defined with install_lua_module are automatically
# preloaded (via package.preload) prior to running the test script.
# Under LuaDist, set test=true in config.lua to enable testing.
# USE: add_lua_test ( test/test1.lua [args...] [WORKING_DIRECTORY dir])
macro ( add_lua_test _testfile )
if ( NOT SKIP_TESTING )
parse_arguments ( _ARG "WORKING_DIRECTORY" "" ${ARGN} )
include ( CTest )
find_program ( LUA NAMES lua lua.bat )
get_filename_component ( TESTFILEABS ${_testfile} ABSOLUTE )
get_filename_component ( TESTFILENAME ${_testfile} NAME )
get_filename_component ( TESTFILEBASE ${_testfile} NAME_WE )
# Write wrapper script.
# Note: One simple way to allow the script to find modules is
# to just put them in package.preload.
set ( TESTWRAPPER ${CMAKE_CURRENT_BINARY_DIR}/${TESTFILENAME} )
_make_module_table ( _table )
set ( TESTWRAPPERSOURCE
"local CMAKE_CFG_INTDIR = ... or '.'
${_table}
local function preload_modules(modules)
for name, path in pairs(modules) do
if path:match'%.lua' then
package.preload[name] = assert(loadfile(path))
else
local name = name:gsub('.*%-', '') -- remove any hyphen prefix
local symbol = 'luaopen_' .. name:gsub('%.', '_')
--improve: generalize to support all-in-one loader?
local path = path:gsub('%$%{CMAKE_CFG_INTDIR%}', CMAKE_CFG_INTDIR)
package.preload[name] = assert(package.loadlib(path, symbol))
end
end
end
preload_modules(modules)
arg[0] = '${TESTFILEABS}'
table.remove(arg, 1)
return assert(loadfile '${TESTFILEABS}')(unpack(arg))
" )
if ( _ARG_WORKING_DIRECTORY )
get_filename_component (
TESTCURRENTDIRABS ${_ARG_WORKING_DIRECTORY} ABSOLUTE )
# note: CMake 2.6 (unlike 2.8) lacks WORKING_DIRECTORY parameter.
set ( _pre ${CMAKE_COMMAND} -E chdir "${TESTCURRENTDIRABS}" )
endif ()
file ( WRITE ${TESTWRAPPER} ${TESTWRAPPERSOURCE})
add_test ( NAME ${TESTFILEBASE} COMMAND ${_pre} ${LUA}
${TESTWRAPPER} "${CMAKE_CFG_INTDIR}"
${_ARG_DEFAULT_ARGS} )
endif ()
# see also http://gdcm.svn.sourceforge.net/viewvc/gdcm/Sandbox/CMakeModules/UsePythonTest.cmake
# Note: ${CMAKE_CFG_INTDIR} is a command-line argument to allow proper
# expansion by the native build tool.
endmacro ()
# Converts Lua source file `_source` to binary string embedded in C source
# file `_target`. Optionally compiles Lua source to byte code (not available
# under LuaJIT2, which doesn't have a bytecode loader). Additionally, Lua
# versions of bin2c [1] and luac [2] may be passed respectively as additional
# arguments.
#
# [1] http://lua-users.org/wiki/BinToCee
# [2] http://lua-users.org/wiki/LuaCompilerInLua
function ( add_lua_bin2c _target _source )
find_program ( LUA NAMES lua lua.bat )
execute_process ( COMMAND ${LUA} -e "string.dump(function()end)"
RESULT_VARIABLE _LUA_DUMP_RESULT ERROR_QUIET )
if ( NOT ${_LUA_DUMP_RESULT} )
SET ( HAVE_LUA_DUMP true )
endif ()
message ( "-- string.dump=${HAVE_LUA_DUMP}" )
if ( ARGV2 )
get_filename_component ( BIN2C ${ARGV2} ABSOLUTE )
set ( BIN2C ${LUA} ${BIN2C} )
else ()
find_program ( BIN2C NAMES bin2c bin2c.bat )
endif ()
if ( HAVE_LUA_DUMP )
if ( ARGV3 )
get_filename_component ( LUAC ${ARGV3} ABSOLUTE )
set ( LUAC ${LUA} ${LUAC} )
else ()
find_program ( LUAC NAMES luac luac.bat )
endif ()
endif ( HAVE_LUA_DUMP )
message ( "-- bin2c=${BIN2C}" )
message ( "-- luac=${LUAC}" )
get_filename_component ( SOURCEABS ${_source} ABSOLUTE )
if ( HAVE_LUA_DUMP )
get_filename_component ( SOURCEBASE ${_source} NAME_WE )
add_custom_command (
OUTPUT ${_target} DEPENDS ${_source}
COMMAND ${LUAC} -o ${CMAKE_CURRENT_BINARY_DIR}/${SOURCEBASE}.lo
${SOURCEABS}
COMMAND ${BIN2C} ${CMAKE_CURRENT_BINARY_DIR}/${SOURCEBASE}.lo
">${_target}" )
else ()
add_custom_command (
OUTPUT ${_target} DEPENDS ${SOURCEABS}
COMMAND ${BIN2C} ${_source} ">${_target}" )
endif ()
endfunction()