premake/util/sdl_check_compile.lua - third_party/sdl - Git at Google

 -- Copyright (C) 1997-2016 Sam Lantinga <slouken@libsdl.org>
 --
 -- This software is provided 'as-is', without any express or implied
 -- warranty.  In no event will the authors be held liable for any damages
 -- arising from the use of this software.
 --
 -- Permission is granted to anyone to use this software for any purpose,
 -- including commercial applications, and to alter it and redistribute it
 -- freely.
 --
 -- Meta-build system using premake created and maintained by
 -- Benjamin Henning <b.henning@digipen.edu>

 --[[
 sdl_check_compile.lua

 	This file provides various utility functions which allow the meta-build
 	system to perform more complex dependency checking than premake initially
 	allows. This is done using the (currently) GCC toolchain to build generated
 	C files which try to import certain headers, link to certain functions, link
 	to certain libraries, or a combination of the above. It supports providing a
 	custom source to try and build, link, and/or run per the implementation's
 	choice, so the possibilities are nearly endless with that this system is
 	capable of, though it could always do with more flexibility.
 ]]


 local cxx = "gcc"
 local cxx_flags = ""
 local cxx_io_flags = "-o premakecheck.o -c premakecheck.c 2> /dev/null"
 local cxx_includes = { }

 local link = "gcc"
 local link_flags = ""
 local link_io_flags = "-o premakecheck.out premakecheck.o"
 local link_end = " 2> /dev/null"

 local run = "./premakecheck.out"
 local run_flags = ""
 local run_io_flags = " > ./premakecheck.stdout"

 local checked_printf = false
 local has_printf = false

 -- Set the application used to compile the generated files.
 function set_cxx(compiler)
 	cxx = compiler
 end

 -- Set custom flags for the compiler.
 function set_cxx_flags(flags)
 	cxx_flags = flags
 end

 -- Include a search directory for libraries.
 local function include_library_dir(dir)
 	link_flags = link_flags .. "-L" .. dir .. " "
 end

 -- Include a library to be linked durnig the link step.
 local function link_library(lib)
 	link_flags = link_flags .. "-l" .. lib .. " "
 end

 -- Reset the link flags.
 local function reset_link_flags()
 	link_flags = ""
 end

 -- Creates the build command line to be executed.
 local function build_compile_line()
 	return cxx .. " " .. cxx_flags .. " " .. cxx_io_flags
 end

 -- Creates the link command line to be executed.
 local function build_link_line()
 	return link .. " " .. link_io_flags .. " " .. link_flags .. link_end
 end

 -- Create the run line to be executed.
 local function build_run_line()
 	return run .. " " .. run_flags .. " " .. run_io_flags
 end

 -- Builds a list of preprocessor include directives for all the include files
 -- successfully found so far by these functions, so as to perform automatic
 -- feature checking for the clientside code.
 local function build_includes()
 	local includes = ""
 	for _,v in ipairs(cxx_includes) do
 		includes = includes .. '#include "' .. v .. '"\n'
 	end
 	return includes
 end

 -- Cleanup the generated build environment.
 local function cleanup_build()
 	os.remove("./premakecheck.c")
 	os.remove("./premakecheck.o")
 	os.remove("./premakecheck.out")
 	os.remove("./premakecheck.stdout")
 end

 local function os_execute(cmd)
 	if _ENV then
 		-- Lua 5.2 or greater
 		local cmdSuccess, textStatus, returnCode = os.execute(cmd)
 		return returnCode
 	else
 		-- Lua 5.1 or lesser
 		local returnCode = os.execute(cmd)
 		return returnCode
 	end
 end

 -- Check if a source builds, links, and or/runs, where running depends on
 -- linking and linking depends on building. The return from this function is
 -- a triple, where the first is a boolean value indicating if it successfully
 -- was built, the second is a boolean value indicating if it successfully
 -- linked, and the third represents nil if it was not run or run correctly, or
 -- the output from the program executed (may be empty for no output).
 local function check_build_source(source, link, run)
 	local file = fileopen("./premakecheck.c", "w")
 	file:write(source)
 	file:close()
 	local result = os_execute(build_compile_line())
 	if not link then
 		cleanup_build()
 		if result == 0 then
 			return true, false, nil -- compile, no link, no run
 		end
 		return false, false, nil -- no compile, no link, no run
 	end
 	-- try linking, too
 	if result ~= 0 then
 		-- can't link if it doesn't compile
 		cleanup_build()
 		return false, false, nil -- no compile, no link, no run
 	end
 	result = os_execute(build_link_line())
 	if not run or result ~= 0 then -- have to link to run
 		cleanup_build()
 		return true, result == 0, nil -- compile, maybe link, no run
 	end
 	result = os_execute(build_run_line())
 	local output = readfile("./premakecheck.stdout", "r")
 	cleanup_build()
 	return true, true, output -- compile, link, ran
 end

 -- Given C source code, determine whether the source code will compile in the
 -- present environment. Returns true if the source was successfully compiled, or
 -- false if otherwise.
 function check_cxx_source_compiles(source)
 	local r1, _, __ = check_build_source(source, false, false)
 	return r1
 end

 -- Given C source code, determine whether the source code can be built into a
 -- working executable. That is, it will check if the code both compiles and
 -- links. Returns true if the code was successfully built (compiled and linked),
 -- or false if otherwise.
 function check_cxx_source_builds(source)
 	local r1, r2, _ = check_build_source(source, true, false)
 	return r1 and r2
 end

 -- Given C source code, attempt to compile, link, and execute the source code.
 -- This function will return two values. The first is a boolean indicating
 -- whether the source code was successfully run (meaning it was compiled, built,
 -- and ran successfully), and the second value returned is the actual output
 -- from running the application, or nil if it did not run correctly or was not
 -- built. The output may be an empty string if the code does not print anything
 -- to stdout.
 function check_cxx_source_runs(source)
 	local r1, r2, r3 = check_build_source(source, true, true)
 	return r1 and r2 and (r3 ~= nil), r3
 end

 -- Given a header file, check whether the header file is visible to the compiler
 -- in the given environment. Returns a boolean indicating thus. If a header file
 -- is found in either of these functions, it will be added to a list of headers
 -- that can be used in subsequent dependency checks.
 function check_include_file(inc)
 	return check_include_files(inc)
 end

 -- Given a variable list of header files, check whether all of the includes are
 -- visible in the given environment. Every file must be included in order for
 -- this function to return true.
 function check_include_files(...)
 	local source = ""
 	for _, v in ipairs{...} do
 		source = source .. '#include "' .. v .. '"\n'
 	end
 	local result = check_cxx_source_compiles(source)
 	if result then
 		for _, v in ipairs{...} do
 			table.insert(cxx_includes, v)
 		end
 	end
 	return result
 end

 -- Given a directory, determine whether the directory contains any header files.
 -- Unfortunately it does assume the extension is .h, but this can be altered in
 -- future versions of this software. The function returns true if the directory
 -- (or any of its subdirectories) contain .h files, or false if otherwise (such
 -- as if the directory does not exist).
 function check_include_directory(incDir)
 	incDir = incDir:gsub("\\", "/"):gsub("//", "/")
 	if incDir:sub(#incDir, #incDir) ~= "/" then
 		incDir = incDir .. "/"
 	end
 	return #os.matchfiles(incDir .. "**.h") > 0
 end

 -- Given a variable list of directories, iteratively check if each one contains
 -- header files, per the functionality of check_include_directory. This function
 -- returns true if and only if every listed directory or its subdirectories
 -- contain .h files.
 function check_include_directories(...)
 	for _, v in ipairs{...} do
 		if not check_include_directory(v) then
 			return false
 		end
 	end
 	return true
 end

 -- Given a function name, attempt to determine whether the function can be found
 -- within all of the known include files. Known include files are derived from
 -- the check_include_file(s) functions.
 function check_function_exists(func)
 	local source = build_includes()
 	source = source .. 'int main(int argc, char **argv) {\n'
 	source = source .. '\tvoid *check = (void *) ' .. func .. ';\n'
 	source = source .. '\treturn 0;\n'
 	return check_cxx_source_builds(source .. '}')
 end

 -- Given a library, a function that must exist within the library, and an
 -- include file prototyping the function, this function determines whether those
 -- three variables are able to build a working executable. That is, if a
 -- function can be properly linked to using a given library, then the library
 -- can be assumed to exist. Returns true if and only if the function was
 -- correctly linked to.
 function check_library_exists(lib, func, inc)
 	local source = build_includes()
 	if inc ~= nil then
 		source = source .. '#include "' .. inc .. '"\n'
 	end
 	source = source .. 'int main(int argc, char **argv) {\n'
 	source = source .. '\tvoid *check = (void *) ' .. func .. ';\n'
 	source = source .. '\treturn 0;\n'
 	if lib ~= nil then
 		link_library(lib)
 	end
 	local result = check_cxx_source_builds(source .. '}')
 	reset_link_flags()
 	return result
 end

 -- This is a merge variable list version of the check_library_exists function.
 -- The thing to note with this function is that it will return true for the
 -- first library found to correctly link to the function. This function is used
 -- to determine whether the function is found in a list of libraries, not if it
 -- is found in every one of the libraries.
 function check_library_exists_multiple(func, inc, ...)
 	for _,v in ipairs{...} do
 		if check_library_exists(v, func, inc) then
 			return true
 		end
 	end
 	return false
 end

 -- This is a wrapper for the check_library_exists function that will also
 -- attempt to locate the library in question, in case it's not in a path the
 -- compiler is already aware of. This function has the same return consequences
 -- as check_library_exists.
 function check_library_exists_lookup(lib, func, inc)
 	local dir = os.findlib(lib)
 	if dir == nil then
 		return false
 	end
 	include_library_dir(dir)
 	return check_library_exists(lib, func, inc)
 end

 -- Given a valid C type name, this function generates a program that will print
 -- the size of the type using the sizeof operator to the console, then parse the
 -- size to indicate the byte size of the type on this platform. The resulting
 -- executable is dependent on stdio and the printf function, which it safely
 -- checks for behind the scenes. If these dependencies are not found for
 -- whatever reason, this function returns 0, otherwise it returns a proper
 -- numerical value representing the size of the specified type.
 function check_type_size(typename)
 	if not checked_printf then
 		checked_printf = true
 		has_printf = check_include_file("stdio.h") and check_function_exists("printf")
 		if not has_printf then
 			print("Warning: cannot check the size of a type without stdio and printf.")
 		end
 	end
 	if not has_printf then
 		return 0
 	end
 	local source = '#include "stdio.h"\n'
 	source = source .. 'int main(int argc, char **argv) {\n'
 	source = source .. '\tprintf("%d", sizeof(' .. typename .. '));\n'
 	source = source .. '\treturn 0;\n'
 	local success, result = check_cxx_source_runs(source .. '}');
 	if not success then
 		print("Warning: could not get the size of type: " .. typename)
 		return 0
 	end
 	return tonumber(result)
 end
	-- Copyright (C) 1997-2016 Sam Lantinga <slouken@libsdl.org>
	--
	-- This software is provided 'as-is', without any express or implied
	-- warranty. In no event will the authors be held liable for any damages
	-- arising from the use of this software.
	--
	-- Permission is granted to anyone to use this software for any purpose,
	-- including commercial applications, and to alter it and redistribute it
	-- freely.
	--
	-- Meta-build system using premake created and maintained by
	-- Benjamin Henning <b.henning@digipen.edu>

	--[[
	sdl_check_compile.lua

	This file provides various utility functions which allow the meta-build
	system to perform more complex dependency checking than premake initially
	allows. This is done using the (currently) GCC toolchain to build generated
	C files which try to import certain headers, link to certain functions, link
	to certain libraries, or a combination of the above. It supports providing a
	custom source to try and build, link, and/or run per the implementation's
	choice, so the possibilities are nearly endless with that this system is
	capable of, though it could always do with more flexibility.
	]]


	local cxx = "gcc"
	local cxx_flags = ""
	local cxx_io_flags = "-o premakecheck.o -c premakecheck.c 2> /dev/null"
	local cxx_includes = { }

	local link = "gcc"
	local link_flags = ""
	local link_io_flags = "-o premakecheck.out premakecheck.o"
	local link_end = " 2> /dev/null"

	local run = "./premakecheck.out"
	local run_flags = ""
	local run_io_flags = " > ./premakecheck.stdout"

	local checked_printf = false
	local has_printf = false

	-- Set the application used to compile the generated files.
	function set_cxx(compiler)
	cxx = compiler
	end

	-- Set custom flags for the compiler.
	function set_cxx_flags(flags)
	cxx_flags = flags
	end

	-- Include a search directory for libraries.
	local function include_library_dir(dir)
	link_flags = link_flags .. "-L" .. dir .. " "
	end

	-- Include a library to be linked durnig the link step.
	local function link_library(lib)
	link_flags = link_flags .. "-l" .. lib .. " "
	end

	-- Reset the link flags.
	local function reset_link_flags()
	link_flags = ""
	end

	-- Creates the build command line to be executed.
	local function build_compile_line()
	return cxx .. " " .. cxx_flags .. " " .. cxx_io_flags
	end

	-- Creates the link command line to be executed.
	local function build_link_line()
	return link .. " " .. link_io_flags .. " " .. link_flags .. link_end
	end

	-- Create the run line to be executed.
	local function build_run_line()
	return run .. " " .. run_flags .. " " .. run_io_flags
	end

	-- Builds a list of preprocessor include directives for all the include files
	-- successfully found so far by these functions, so as to perform automatic
	-- feature checking for the clientside code.
	local function build_includes()
	local includes = ""
	for _,v in ipairs(cxx_includes) do
	includes = includes .. '#include "' .. v .. '"\n'
	end
	return includes
	end

	-- Cleanup the generated build environment.
	local function cleanup_build()
	os.remove("./premakecheck.c")
	os.remove("./premakecheck.o")
	os.remove("./premakecheck.out")
	os.remove("./premakecheck.stdout")
	end

	local function os_execute(cmd)
	if _ENV then
	-- Lua 5.2 or greater
	local cmdSuccess, textStatus, returnCode = os.execute(cmd)
	return returnCode
	else
	-- Lua 5.1 or lesser
	local returnCode = os.execute(cmd)
	return returnCode
	end
	end

	-- Check if a source builds, links, and or/runs, where running depends on
	-- linking and linking depends on building. The return from this function is
	-- a triple, where the first is a boolean value indicating if it successfully
	-- was built, the second is a boolean value indicating if it successfully
	-- linked, and the third represents nil if it was not run or run correctly, or
	-- the output from the program executed (may be empty for no output).
	local function check_build_source(source, link, run)
	local file = fileopen("./premakecheck.c", "w")
	file:write(source)
	file:close()
	local result = os_execute(build_compile_line())
	if not link then
	cleanup_build()
	if result == 0 then
	return true, false, nil -- compile, no link, no run
	end
	return false, false, nil -- no compile, no link, no run
	end
	-- try linking, too
	if result ~= 0 then
	-- can't link if it doesn't compile
	cleanup_build()
	return false, false, nil -- no compile, no link, no run
	end
	result = os_execute(build_link_line())
	if not run or result ~= 0 then -- have to link to run
	cleanup_build()
	return true, result == 0, nil -- compile, maybe link, no run
	end
	result = os_execute(build_run_line())
	local output = readfile("./premakecheck.stdout", "r")
	cleanup_build()
	return true, true, output -- compile, link, ran
	end

	-- Given C source code, determine whether the source code will compile in the
	-- present environment. Returns true if the source was successfully compiled, or
	-- false if otherwise.
	function check_cxx_source_compiles(source)
	local r1, _, __ = check_build_source(source, false, false)
	return r1
	end

	-- Given C source code, determine whether the source code can be built into a
	-- working executable. That is, it will check if the code both compiles and
	-- links. Returns true if the code was successfully built (compiled and linked),
	-- or false if otherwise.
	function check_cxx_source_builds(source)
	local r1, r2, _ = check_build_source(source, true, false)
	return r1 and r2
	end

	-- Given C source code, attempt to compile, link, and execute the source code.
	-- This function will return two values. The first is a boolean indicating
	-- whether the source code was successfully run (meaning it was compiled, built,
	-- and ran successfully), and the second value returned is the actual output
	-- from running the application, or nil if it did not run correctly or was not
	-- built. The output may be an empty string if the code does not print anything
	-- to stdout.
	function check_cxx_source_runs(source)
	local r1, r2, r3 = check_build_source(source, true, true)
	return r1 and r2 and (r3 ~= nil), r3
	end

	-- Given a header file, check whether the header file is visible to the compiler
	-- in the given environment. Returns a boolean indicating thus. If a header file
	-- is found in either of these functions, it will be added to a list of headers
	-- that can be used in subsequent dependency checks.
	function check_include_file(inc)
	return check_include_files(inc)
	end

	-- Given a variable list of header files, check whether all of the includes are
	-- visible in the given environment. Every file must be included in order for
	-- this function to return true.
	function check_include_files(...)
	local source = ""
	for _, v in ipairs{...} do
	source = source .. '#include "' .. v .. '"\n'
	end
	local result = check_cxx_source_compiles(source)
	if result then
	for _, v in ipairs{...} do
	table.insert(cxx_includes, v)
	end
	end
	return result
	end

	-- Given a directory, determine whether the directory contains any header files.
	-- Unfortunately it does assume the extension is .h, but this can be altered in
	-- future versions of this software. The function returns true if the directory
	-- (or any of its subdirectories) contain .h files, or false if otherwise (such
	-- as if the directory does not exist).
	function check_include_directory(incDir)
	incDir = incDir:gsub("\\", "/"):gsub("//", "/")
	if incDir:sub(#incDir, #incDir) ~= "/" then
	incDir = incDir .. "/"
	end
	return #os.matchfiles(incDir .. "**.h") > 0
	end

	-- Given a variable list of directories, iteratively check if each one contains
	-- header files, per the functionality of check_include_directory. This function
	-- returns true if and only if every listed directory or its subdirectories
	-- contain .h files.
	function check_include_directories(...)
	for _, v in ipairs{...} do
	if not check_include_directory(v) then
	return false
	end
	end
	return true
	end

	-- Given a function name, attempt to determine whether the function can be found
	-- within all of the known include files. Known include files are derived from
	-- the check_include_file(s) functions.
	function check_function_exists(func)
	local source = build_includes()
	source = source .. 'int main(int argc, char **argv) {\n'
	source = source .. '\tvoid check = (void ) ' .. func .. ';\n'
	source = source .. '\treturn 0;\n'
	return check_cxx_source_builds(source .. '}')
	end

	-- Given a library, a function that must exist within the library, and an
	-- include file prototyping the function, this function determines whether those
	-- three variables are able to build a working executable. That is, if a
	-- function can be properly linked to using a given library, then the library
	-- can be assumed to exist. Returns true if and only if the function was
	-- correctly linked to.
	function check_library_exists(lib, func, inc)
	local source = build_includes()
	if inc ~= nil then
	source = source .. '#include "' .. inc .. '"\n'
	end
	source = source .. 'int main(int argc, char **argv) {\n'
	source = source .. '\tvoid check = (void ) ' .. func .. ';\n'
	source = source .. '\treturn 0;\n'
	if lib ~= nil then
	link_library(lib)
	end
	local result = check_cxx_source_builds(source .. '}')
	reset_link_flags()
	return result
	end

	-- This is a merge variable list version of the check_library_exists function.
	-- The thing to note with this function is that it will return true for the
	-- first library found to correctly link to the function. This function is used
	-- to determine whether the function is found in a list of libraries, not if it
	-- is found in every one of the libraries.
	function check_library_exists_multiple(func, inc, ...)
	for _,v in ipairs{...} do
	if check_library_exists(v, func, inc) then
	return true
	end
	end
	return false
	end

	-- This is a wrapper for the check_library_exists function that will also
	-- attempt to locate the library in question, in case it's not in a path the
	-- compiler is already aware of. This function has the same return consequences
	-- as check_library_exists.
	function check_library_exists_lookup(lib, func, inc)
	local dir = os.findlib(lib)
	if dir == nil then
	return false
	end
	include_library_dir(dir)
	return check_library_exists(lib, func, inc)
	end

	-- Given a valid C type name, this function generates a program that will print
	-- the size of the type using the sizeof operator to the console, then parse the
	-- size to indicate the byte size of the type on this platform. The resulting
	-- executable is dependent on stdio and the printf function, which it safely
	-- checks for behind the scenes. If these dependencies are not found for
	-- whatever reason, this function returns 0, otherwise it returns a proper
	-- numerical value representing the size of the specified type.
	function check_type_size(typename)
	if not checked_printf then
	checked_printf = true
	has_printf = check_include_file("stdio.h") and check_function_exists("printf")
	if not has_printf then
	print("Warning: cannot check the size of a type without stdio and printf.")
	end
	end
	if not has_printf then
	return 0
	end
	local source = '#include "stdio.h"\n'
	source = source .. 'int main(int argc, char **argv) {\n'
	source = source .. '\tprintf("%d", sizeof(' .. typename .. '));\n'
	source = source .. '\treturn 0;\n'
	local success, result = check_cxx_source_runs(source .. '}');
	if not success then
	print("Warning: could not get the size of type: " .. typename)
	return 0
	end
	return tonumber(result)
	end