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Code Editor : make.py
# Copyright (c) 2013 Google Inc. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. # Notes: # # This is all roughly based on the Makefile system used by the Linux # kernel, but is a non-recursive make -- we put the entire dependency # graph in front of make and let it figure it out. # # The code below generates a separate .mk file for each target, but # all are sourced by the top-level Makefile. This means that all # variables in .mk-files clobber one another. Be careful to use := # where appropriate for immediate evaluation, and similarly to watch # that you're not relying on a variable value to last between different # .mk files. # # TODOs: # # Global settings and utility functions are currently stuffed in the # toplevel Makefile. It may make sense to generate some .mk files on # the side to keep the files readable. import os import re import subprocess import gyp import gyp.common import gyp.xcode_emulation from gyp.common import GetEnvironFallback import hashlib generator_default_variables = { "EXECUTABLE_PREFIX": "", "EXECUTABLE_SUFFIX": "", "STATIC_LIB_PREFIX": "lib", "SHARED_LIB_PREFIX": "lib", "STATIC_LIB_SUFFIX": ".a", "INTERMEDIATE_DIR": "$(obj).$(TOOLSET)/$(TARGET)/geni", "SHARED_INTERMEDIATE_DIR": "$(obj)/gen", "PRODUCT_DIR": "$(builddir)", "RULE_INPUT_ROOT": "%(INPUT_ROOT)s", # This gets expanded by Python. "RULE_INPUT_DIRNAME": "%(INPUT_DIRNAME)s", # This gets expanded by Python. "RULE_INPUT_PATH": "$(abspath $<)", "RULE_INPUT_EXT": "$(suffix $<)", "RULE_INPUT_NAME": "$(notdir $<)", "CONFIGURATION_NAME": "$(BUILDTYPE)", } # Make supports multiple toolsets generator_supports_multiple_toolsets = True # Request sorted dependencies in the order from dependents to dependencies. generator_wants_sorted_dependencies = False # Placates pylint. generator_additional_non_configuration_keys = [] generator_additional_path_sections = [] generator_extra_sources_for_rules = [] generator_filelist_paths = None def CalculateVariables(default_variables, params): """Calculate additional variables for use in the build (called by gyp).""" flavor = gyp.common.GetFlavor(params) if flavor == "mac": default_variables.setdefault("OS", "mac") default_variables.setdefault("SHARED_LIB_SUFFIX", ".dylib") default_variables.setdefault( "SHARED_LIB_DIR", generator_default_variables["PRODUCT_DIR"] ) default_variables.setdefault( "LIB_DIR", generator_default_variables["PRODUCT_DIR"] ) # Copy additional generator configuration data from Xcode, which is shared # by the Mac Make generator. import gyp.generator.xcode as xcode_generator global generator_additional_non_configuration_keys generator_additional_non_configuration_keys = getattr( xcode_generator, "generator_additional_non_configuration_keys", [] ) global generator_additional_path_sections generator_additional_path_sections = getattr( xcode_generator, "generator_additional_path_sections", [] ) global generator_extra_sources_for_rules generator_extra_sources_for_rules = getattr( xcode_generator, "generator_extra_sources_for_rules", [] ) COMPILABLE_EXTENSIONS.update({".m": "objc", ".mm": "objcxx"}) else: operating_system = flavor if flavor == "android": operating_system = "linux" # Keep this legacy behavior for now. default_variables.setdefault("OS", operating_system) if flavor == "aix": default_variables.setdefault("SHARED_LIB_SUFFIX", ".a") else: default_variables.setdefault("SHARED_LIB_SUFFIX", ".so") default_variables.setdefault("SHARED_LIB_DIR", "$(builddir)/lib.$(TOOLSET)") default_variables.setdefault("LIB_DIR", "$(obj).$(TOOLSET)") def CalculateGeneratorInputInfo(params): """Calculate the generator specific info that gets fed to input (called by gyp).""" generator_flags = params.get("generator_flags", {}) android_ndk_version = generator_flags.get("android_ndk_version", None) # Android NDK requires a strict link order. if android_ndk_version: global generator_wants_sorted_dependencies generator_wants_sorted_dependencies = True output_dir = params["options"].generator_output or params["options"].toplevel_dir builddir_name = generator_flags.get("output_dir", "out") qualified_out_dir = os.path.normpath( os.path.join(output_dir, builddir_name, "gypfiles") ) global generator_filelist_paths generator_filelist_paths = { "toplevel": params["options"].toplevel_dir, "qualified_out_dir": qualified_out_dir, } # The .d checking code below uses these functions: # wildcard, sort, foreach, shell, wordlist # wildcard can handle spaces, the rest can't. # Since I could find no way to make foreach work with spaces in filenames # correctly, the .d files have spaces replaced with another character. The .d # file for # Chromium\ Framework.framework/foo # is for example # out/Release/.deps/out/Release/Chromium?Framework.framework/foo # This is the replacement character. SPACE_REPLACEMENT = "?" LINK_COMMANDS_LINUX = """\ quiet_cmd_alink = AR($(TOOLSET)) $@ cmd_alink = rm -f $@ && $(AR.$(TOOLSET)) crs $@ $(filter %.o,$^) quiet_cmd_alink_thin = AR($(TOOLSET)) $@ cmd_alink_thin = rm -f $@ && $(AR.$(TOOLSET)) crsT $@ $(filter %.o,$^) # Due to circular dependencies between libraries :(, we wrap the # special "figure out circular dependencies" flags around the entire # input list during linking. quiet_cmd_link = LINK($(TOOLSET)) $@ cmd_link = $(LINK.$(TOOLSET)) -o $@ $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -Wl,--start-group $(LD_INPUTS) $(LIBS) -Wl,--end-group # We support two kinds of shared objects (.so): # 1) shared_library, which is just bundling together many dependent libraries # into a link line. # 2) loadable_module, which is generating a module intended for dlopen(). # # They differ only slightly: # In the former case, we want to package all dependent code into the .so. # In the latter case, we want to package just the API exposed by the # outermost module. # This means shared_library uses --whole-archive, while loadable_module doesn't. # (Note that --whole-archive is incompatible with the --start-group used in # normal linking.) # Other shared-object link notes: # - Set SONAME to the library filename so our binaries don't reference # the local, absolute paths used on the link command-line. quiet_cmd_solink = SOLINK($(TOOLSET)) $@ cmd_solink = $(LINK.$(TOOLSET)) -o $@ -shared $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -Wl,-soname=$(@F) -Wl,--whole-archive $(LD_INPUTS) -Wl,--no-whole-archive $(LIBS) quiet_cmd_solink_module = SOLINK_MODULE($(TOOLSET)) $@ cmd_solink_module = $(LINK.$(TOOLSET)) -o $@ -shared $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -Wl,-soname=$(@F) -Wl,--start-group $(filter-out FORCE_DO_CMD, $^) -Wl,--end-group $(LIBS) """ # noqa: E501 LINK_COMMANDS_MAC = """\ quiet_cmd_alink = LIBTOOL-STATIC $@ cmd_alink = rm -f $@ && ./gyp-mac-tool filter-libtool libtool $(GYP_LIBTOOLFLAGS) -static -o $@ $(filter %.o,$^) quiet_cmd_link = LINK($(TOOLSET)) $@ cmd_link = $(LINK.$(TOOLSET)) $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o "$@" $(LD_INPUTS) $(LIBS) quiet_cmd_solink = SOLINK($(TOOLSET)) $@ cmd_solink = $(LINK.$(TOOLSET)) -shared $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o "$@" $(LD_INPUTS) $(LIBS) quiet_cmd_solink_module = SOLINK_MODULE($(TOOLSET)) $@ cmd_solink_module = $(LINK.$(TOOLSET)) -bundle $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o $@ $(filter-out FORCE_DO_CMD, $^) $(LIBS) """ # noqa: E501 LINK_COMMANDS_ANDROID = """\ quiet_cmd_alink = AR($(TOOLSET)) $@ cmd_alink = rm -f $@ && $(AR.$(TOOLSET)) crs $@ $(filter %.o,$^) quiet_cmd_alink_thin = AR($(TOOLSET)) $@ cmd_alink_thin = rm -f $@ && $(AR.$(TOOLSET)) crsT $@ $(filter %.o,$^) # Due to circular dependencies between libraries :(, we wrap the # special "figure out circular dependencies" flags around the entire # input list during linking. quiet_cmd_link = LINK($(TOOLSET)) $@ quiet_cmd_link_host = LINK($(TOOLSET)) $@ cmd_link = $(LINK.$(TOOLSET)) $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o $@ -Wl,--start-group $(LD_INPUTS) -Wl,--end-group $(LIBS) cmd_link_host = $(LINK.$(TOOLSET)) $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o $@ -Wl,--start-group $(LD_INPUTS) -Wl,--end-group $(LIBS) # Other shared-object link notes: # - Set SONAME to the library filename so our binaries don't reference # the local, absolute paths used on the link command-line. quiet_cmd_solink = SOLINK($(TOOLSET)) $@ cmd_solink = $(LINK.$(TOOLSET)) -shared $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -Wl,-soname=$(@F) -o $@ -Wl,--whole-archive $(LD_INPUTS) -Wl,--no-whole-archive $(LIBS) quiet_cmd_solink_module = SOLINK_MODULE($(TOOLSET)) $@ cmd_solink_module = $(LINK.$(TOOLSET)) -shared $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -Wl,-soname=$(@F) -o $@ -Wl,--start-group $(filter-out FORCE_DO_CMD, $^) -Wl,--end-group $(LIBS) quiet_cmd_solink_module_host = SOLINK_MODULE($(TOOLSET)) $@ cmd_solink_module_host = $(LINK.$(TOOLSET)) -shared $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -Wl,-soname=$(@F) -o $@ $(filter-out FORCE_DO_CMD, $^) $(LIBS) """ # noqa: E501 LINK_COMMANDS_AIX = """\ quiet_cmd_alink = AR($(TOOLSET)) $@ cmd_alink = rm -f $@ && $(AR.$(TOOLSET)) -X32_64 crs $@ $(filter %.o,$^) quiet_cmd_alink_thin = AR($(TOOLSET)) $@ cmd_alink_thin = rm -f $@ && $(AR.$(TOOLSET)) -X32_64 crs $@ $(filter %.o,$^) quiet_cmd_link = LINK($(TOOLSET)) $@ cmd_link = $(LINK.$(TOOLSET)) $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o $@ $(LD_INPUTS) $(LIBS) quiet_cmd_solink = SOLINK($(TOOLSET)) $@ cmd_solink = $(LINK.$(TOOLSET)) -shared $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o $@ $(LD_INPUTS) $(LIBS) quiet_cmd_solink_module = SOLINK_MODULE($(TOOLSET)) $@ cmd_solink_module = $(LINK.$(TOOLSET)) -shared $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o $@ $(filter-out FORCE_DO_CMD, $^) $(LIBS) """ # noqa: E501 LINK_COMMANDS_OS390 = """\ quiet_cmd_alink = AR($(TOOLSET)) $@ cmd_alink = rm -f $@ && $(AR.$(TOOLSET)) crs $@ $(filter %.o,$^) quiet_cmd_alink_thin = AR($(TOOLSET)) $@ cmd_alink_thin = rm -f $@ && $(AR.$(TOOLSET)) crsT $@ $(filter %.o,$^) quiet_cmd_link = LINK($(TOOLSET)) $@ cmd_link = $(LINK.$(TOOLSET)) $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o $@ $(LD_INPUTS) $(LIBS) quiet_cmd_solink = SOLINK($(TOOLSET)) $@ cmd_solink = $(LINK.$(TOOLSET)) $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o $@ $(LD_INPUTS) $(LIBS) -Wl,DLL quiet_cmd_solink_module = SOLINK_MODULE($(TOOLSET)) $@ cmd_solink_module = $(LINK.$(TOOLSET)) $(GYP_LDFLAGS) $(LDFLAGS.$(TOOLSET)) -o $@ $(filter-out FORCE_DO_CMD, $^) $(LIBS) -Wl,DLL """ # noqa: E501 # Header of toplevel Makefile. # This should go into the build tree, but it's easier to keep it here for now. SHARED_HEADER = ( """\ # We borrow heavily from the kernel build setup, though we are simpler since # we don't have Kconfig tweaking settings on us. # The implicit make rules have it looking for RCS files, among other things. # We instead explicitly write all the rules we care about. # It's even quicker (saves ~200ms) to pass -r on the command line. MAKEFLAGS=-r # The source directory tree. srcdir := %(srcdir)s abs_srcdir := $(abspath $(srcdir)) # The name of the builddir. builddir_name ?= %(builddir)s # The V=1 flag on command line makes us verbosely print command lines. ifdef V quiet= else quiet=quiet_ endif # Specify BUILDTYPE=Release on the command line for a release build. BUILDTYPE ?= %(default_configuration)s # Directory all our build output goes into. # Note that this must be two directories beneath src/ for unit tests to pass, # as they reach into the src/ directory for data with relative paths. builddir ?= $(builddir_name)/$(BUILDTYPE) abs_builddir := $(abspath $(builddir)) depsdir := $(builddir)/.deps # Object output directory. obj := $(builddir)/obj abs_obj := $(abspath $(obj)) # We build up a list of every single one of the targets so we can slurp in the # generated dependency rule Makefiles in one pass. all_deps := %(make_global_settings)s CC.target ?= %(CC.target)s CFLAGS.target ?= $(CPPFLAGS) $(CFLAGS) CXX.target ?= %(CXX.target)s CXXFLAGS.target ?= $(CPPFLAGS) $(CXXFLAGS) LINK.target ?= %(LINK.target)s LDFLAGS.target ?= $(LDFLAGS) AR.target ?= $(AR) # C++ apps need to be linked with g++. LINK ?= $(CXX.target) # TODO(evan): move all cross-compilation logic to gyp-time so we don't need # to replicate this environment fallback in make as well. CC.host ?= %(CC.host)s CFLAGS.host ?= $(CPPFLAGS_host) $(CFLAGS_host) CXX.host ?= %(CXX.host)s CXXFLAGS.host ?= $(CPPFLAGS_host) $(CXXFLAGS_host) LINK.host ?= %(LINK.host)s LDFLAGS.host ?= $(LDFLAGS_host) AR.host ?= %(AR.host)s # Define a dir function that can handle spaces. # http://www.gnu.org/software/make/manual/make.html#Syntax-of-Functions # "leading spaces cannot appear in the text of the first argument as written. # These characters can be put into the argument value by variable substitution." empty := space := $(empty) $(empty) # http://stackoverflow.com/questions/1189781/using-make-dir-or-notdir-on-a-path-with-spaces replace_spaces = $(subst $(space),""" + SPACE_REPLACEMENT + """,$1) unreplace_spaces = $(subst """ + SPACE_REPLACEMENT + """,$(space),$1) dirx = $(call unreplace_spaces,$(dir $(call replace_spaces,$1))) # Flags to make gcc output dependency info. Note that you need to be # careful here to use the flags that ccache and distcc can understand. # We write to a dep file on the side first and then rename at the end # so we can't end up with a broken dep file. depfile = $(depsdir)/$(call replace_spaces,$@).d DEPFLAGS = %(makedep_args)s -MF $(depfile).raw # We have to fixup the deps output in a few ways. # (1) the file output should mention the proper .o file. # ccache or distcc lose the path to the target, so we convert a rule of # the form: # foobar.o: DEP1 DEP2 # into # path/to/foobar.o: DEP1 DEP2 # (2) we want missing files not to cause us to fail to build. # We want to rewrite # foobar.o: DEP1 DEP2 \\ # DEP3 # to # DEP1: # DEP2: # DEP3: # so if the files are missing, they're just considered phony rules. # We have to do some pretty insane escaping to get those backslashes # and dollar signs past make, the shell, and sed at the same time. # Doesn't work with spaces, but that's fine: .d files have spaces in # their names replaced with other characters.""" r""" define fixup_dep # The depfile may not exist if the input file didn't have any #includes. touch $(depfile).raw # Fixup path as in (1). sed -e "s|^$(notdir $@)|$@|" $(depfile).raw >> $(depfile) # Add extra rules as in (2). # We remove slashes and replace spaces with new lines; # remove blank lines; # delete the first line and append a colon to the remaining lines. sed -e 's|\\||' -e 'y| |\n|' $(depfile).raw |\ grep -v '^$$' |\ sed -e 1d -e 's|$$|:|' \ >> $(depfile) rm $(depfile).raw endef """ """ # Command definitions: # - cmd_foo is the actual command to run; # - quiet_cmd_foo is the brief-output summary of the command. quiet_cmd_cc = CC($(TOOLSET)) $@ cmd_cc = $(CC.$(TOOLSET)) -o $@ $< $(GYP_CFLAGS) $(DEPFLAGS) $(CFLAGS.$(TOOLSET)) -c quiet_cmd_cxx = CXX($(TOOLSET)) $@ cmd_cxx = $(CXX.$(TOOLSET)) -o $@ $< $(GYP_CXXFLAGS) $(DEPFLAGS) $(CXXFLAGS.$(TOOLSET)) -c %(extra_commands)s quiet_cmd_touch = TOUCH $@ cmd_touch = touch $@ quiet_cmd_copy = COPY $@ # send stderr to /dev/null to ignore messages when linking directories. cmd_copy = ln -f "$<" "$@" 2>/dev/null || (rm -rf "$@" && cp %(copy_archive_args)s "$<" "$@") %(link_commands)s """ # noqa: E501 r""" # Define an escape_quotes function to escape single quotes. # This allows us to handle quotes properly as long as we always use # use single quotes and escape_quotes. escape_quotes = $(subst ','\'',$(1)) # This comment is here just to include a ' to unconfuse syntax highlighting. # Define an escape_vars function to escape '$' variable syntax. # This allows us to read/write command lines with shell variables (e.g. # $LD_LIBRARY_PATH), without triggering make substitution. escape_vars = $(subst $$,$$$$,$(1)) # Helper that expands to a shell command to echo a string exactly as it is in # make. This uses printf instead of echo because printf's behaviour with respect # to escape sequences is more portable than echo's across different shells # (e.g., dash, bash). exact_echo = printf '%%s\n' '$(call escape_quotes,$(1))' """ """ # Helper to compare the command we're about to run against the command # we logged the last time we ran the command. Produces an empty # string (false) when the commands match. # Tricky point: Make has no string-equality test function. # The kernel uses the following, but it seems like it would have false # positives, where one string reordered its arguments. # arg_check = $(strip $(filter-out $(cmd_$(1)), $(cmd_$@)) \\ # $(filter-out $(cmd_$@), $(cmd_$(1)))) # We instead substitute each for the empty string into the other, and # say they're equal if both substitutions produce the empty string. # .d files contain """ + SPACE_REPLACEMENT + """ instead of spaces, take that into account. command_changed = $(or $(subst $(cmd_$(1)),,$(cmd_$(call replace_spaces,$@))),\\ $(subst $(cmd_$(call replace_spaces,$@)),,$(cmd_$(1)))) # Helper that is non-empty when a prerequisite changes. # Normally make does this implicitly, but we force rules to always run # so we can check their command lines. # $? -- new prerequisites # $| -- order-only dependencies prereq_changed = $(filter-out FORCE_DO_CMD,$(filter-out $|,$?)) # Helper that executes all postbuilds until one fails. define do_postbuilds @E=0;\\ for p in $(POSTBUILDS); do\\ eval $$p;\\ E=$$?;\\ if [ $$E -ne 0 ]; then\\ break;\\ fi;\\ done;\\ if [ $$E -ne 0 ]; then\\ rm -rf "$@";\\ exit $$E;\\ fi endef # do_cmd: run a command via the above cmd_foo names, if necessary. # Should always run for a given target to handle command-line changes. # Second argument, if non-zero, makes it do asm/C/C++ dependency munging. # Third argument, if non-zero, makes it do POSTBUILDS processing. # Note: We intentionally do NOT call dirx for depfile, since it contains """ + SPACE_REPLACEMENT + """ for # spaces already and dirx strips the """ + SPACE_REPLACEMENT + """ characters. define do_cmd $(if $(or $(command_changed),$(prereq_changed)), @$(call exact_echo, $($(quiet)cmd_$(1))) @mkdir -p "$(call dirx,$@)" "$(dir $(depfile))" $(if $(findstring flock,$(word %(flock_index)d,$(cmd_$1))), @$(cmd_$(1)) @echo " $(quiet_cmd_$(1)): Finished", @$(cmd_$(1)) ) @$(call exact_echo,$(call escape_vars,cmd_$(call replace_spaces,$@) := $(cmd_$(1)))) > $(depfile) @$(if $(2),$(fixup_dep)) $(if $(and $(3), $(POSTBUILDS)), $(call do_postbuilds) ) ) endef # Declare the "%(default_target)s" target first so it is the default, # even though we don't have the deps yet. .PHONY: %(default_target)s %(default_target)s: # make looks for ways to re-generate included makefiles, but in our case, we # don't have a direct way. Explicitly telling make that it has nothing to do # for them makes it go faster. %%.d: ; # Use FORCE_DO_CMD to force a target to run. Should be coupled with # do_cmd. .PHONY: FORCE_DO_CMD FORCE_DO_CMD: """ # noqa: E501 ) SHARED_HEADER_MAC_COMMANDS = """ quiet_cmd_objc = CXX($(TOOLSET)) $@ cmd_objc = $(CC.$(TOOLSET)) $(GYP_OBJCFLAGS) $(DEPFLAGS) -c -o $@ $< quiet_cmd_objcxx = CXX($(TOOLSET)) $@ cmd_objcxx = $(CXX.$(TOOLSET)) $(GYP_OBJCXXFLAGS) $(DEPFLAGS) -c -o $@ $< # Commands for precompiled header files. quiet_cmd_pch_c = CXX($(TOOLSET)) $@ cmd_pch_c = $(CC.$(TOOLSET)) $(GYP_PCH_CFLAGS) $(DEPFLAGS) $(CXXFLAGS.$(TOOLSET)) -c -o $@ $< quiet_cmd_pch_cc = CXX($(TOOLSET)) $@ cmd_pch_cc = $(CC.$(TOOLSET)) $(GYP_PCH_CXXFLAGS) $(DEPFLAGS) $(CXXFLAGS.$(TOOLSET)) -c -o $@ $< quiet_cmd_pch_m = CXX($(TOOLSET)) $@ cmd_pch_m = $(CC.$(TOOLSET)) $(GYP_PCH_OBJCFLAGS) $(DEPFLAGS) -c -o $@ $< quiet_cmd_pch_mm = CXX($(TOOLSET)) $@ cmd_pch_mm = $(CC.$(TOOLSET)) $(GYP_PCH_OBJCXXFLAGS) $(DEPFLAGS) -c -o $@ $< # gyp-mac-tool is written next to the root Makefile by gyp. # Use $(4) for the command, since $(2) and $(3) are used as flag by do_cmd # already. quiet_cmd_mac_tool = MACTOOL $(4) $< cmd_mac_tool = ./gyp-mac-tool $(4) $< "$@" quiet_cmd_mac_package_framework = PACKAGE FRAMEWORK $@ cmd_mac_package_framework = ./gyp-mac-tool package-framework "$@" $(4) quiet_cmd_infoplist = INFOPLIST $@ cmd_infoplist = $(CC.$(TOOLSET)) -E -P -Wno-trigraphs -x c $(INFOPLIST_DEFINES) "$<" -o "$@" """ # noqa: E501 def WriteRootHeaderSuffixRules(writer): extensions = sorted(COMPILABLE_EXTENSIONS.keys(), key=str.lower) writer.write("# Suffix rules, putting all outputs into $(obj).\n") for ext in extensions: writer.write("$(obj).$(TOOLSET)/%%.o: $(srcdir)/%%%s FORCE_DO_CMD\n" % ext) writer.write("\t@$(call do_cmd,%s,1)\n" % COMPILABLE_EXTENSIONS[ext]) writer.write("\n# Try building from generated source, too.\n") for ext in extensions: writer.write( "$(obj).$(TOOLSET)/%%.o: $(obj).$(TOOLSET)/%%%s FORCE_DO_CMD\n" % ext ) writer.write("\t@$(call do_cmd,%s,1)\n" % COMPILABLE_EXTENSIONS[ext]) writer.write("\n") for ext in extensions: writer.write("$(obj).$(TOOLSET)/%%.o: $(obj)/%%%s FORCE_DO_CMD\n" % ext) writer.write("\t@$(call do_cmd,%s,1)\n" % COMPILABLE_EXTENSIONS[ext]) writer.write("\n") SHARED_HEADER_SUFFIX_RULES_COMMENT1 = """\ # Suffix rules, putting all outputs into $(obj). """ SHARED_HEADER_SUFFIX_RULES_COMMENT2 = """\ # Try building from generated source, too. """ SHARED_FOOTER = """\ # "all" is a concatenation of the "all" targets from all the included # sub-makefiles. This is just here to clarify. all: # Add in dependency-tracking rules. $(all_deps) is the list of every single # target in our tree. Only consider the ones with .d (dependency) info: d_files := $(wildcard $(foreach f,$(all_deps),$(depsdir)/$(f).d)) ifneq ($(d_files),) include $(d_files) endif """ header = """\ # This file is generated by gyp; do not edit. """ # Maps every compilable file extension to the do_cmd that compiles it. COMPILABLE_EXTENSIONS = { ".c": "cc", ".cc": "cxx", ".cpp": "cxx", ".cxx": "cxx", ".s": "cc", ".S": "cc", } def Compilable(filename): """Return true if the file is compilable (should be in OBJS).""" for res in (filename.endswith(e) for e in COMPILABLE_EXTENSIONS): if res: return True return False def Linkable(filename): """Return true if the file is linkable (should be on the link line).""" return filename.endswith(".o") def Target(filename): """Translate a compilable filename to its .o target.""" return os.path.splitext(filename)[0] + ".o" def EscapeShellArgument(s): """Quotes an argument so that it will be interpreted literally by a POSIX shell. Taken from http://stackoverflow.com/questions/35817/whats-the-best-way-to-escape-ossystem-calls-in-python """ return "'" + s.replace("'", "'\\''") + "'" def EscapeMakeVariableExpansion(s): """Make has its own variable expansion syntax using $. We must escape it for string to be interpreted literally.""" return s.replace("$", "$$") def EscapeCppDefine(s): """Escapes a CPP define so that it will reach the compiler unaltered.""" s = EscapeShellArgument(s) s = EscapeMakeVariableExpansion(s) # '#' characters must be escaped even embedded in a string, else Make will # treat it as the start of a comment. return s.replace("#", r"\#") def QuoteIfNecessary(string): """TODO: Should this ideally be replaced with one or more of the above functions?""" if '"' in string: string = '"' + string.replace('"', '\\"') + '"' return string def StringToMakefileVariable(string): """Convert a string to a value that is acceptable as a make variable name.""" return re.sub("[^a-zA-Z0-9_]", "_", string) srcdir_prefix = "" def Sourceify(path): """Convert a path to its source directory form.""" if "$(" in path: return path if os.path.isabs(path): return path return srcdir_prefix + path def QuoteSpaces(s, quote=r"\ "): return s.replace(" ", quote) def SourceifyAndQuoteSpaces(path): """Convert a path to its source directory form and quote spaces.""" return QuoteSpaces(Sourceify(path)) # Map from qualified target to path to output. target_outputs = {} # Map from qualified target to any linkable output. A subset # of target_outputs. E.g. when mybinary depends on liba, we want to # include liba in the linker line; when otherbinary depends on # mybinary, we just want to build mybinary first. target_link_deps = {} class MakefileWriter: """MakefileWriter packages up the writing of one target-specific foobar.mk. Its only real entry point is Write(), and is mostly used for namespacing. """ def __init__(self, generator_flags, flavor): self.generator_flags = generator_flags self.flavor = flavor self.suffix_rules_srcdir = {} self.suffix_rules_objdir1 = {} self.suffix_rules_objdir2 = {} # Generate suffix rules for all compilable extensions. for ext in COMPILABLE_EXTENSIONS.keys(): # Suffix rules for source folder. self.suffix_rules_srcdir.update( { ext: ( """\ $(obj).$(TOOLSET)/$(TARGET)/%%.o: $(srcdir)/%%%s FORCE_DO_CMD \t@$(call do_cmd,%s,1) """ % (ext, COMPILABLE_EXTENSIONS[ext]) ) } ) # Suffix rules for generated source files. self.suffix_rules_objdir1.update( { ext: ( """\ $(obj).$(TOOLSET)/$(TARGET)/%%.o: $(obj).$(TOOLSET)/%%%s FORCE_DO_CMD \t@$(call do_cmd,%s,1) """ % (ext, COMPILABLE_EXTENSIONS[ext]) ) } ) self.suffix_rules_objdir2.update( { ext: ( """\ $(obj).$(TOOLSET)/$(TARGET)/%%.o: $(obj)/%%%s FORCE_DO_CMD \t@$(call do_cmd,%s,1) """ % (ext, COMPILABLE_EXTENSIONS[ext]) ) } ) def Write( self, qualified_target, base_path, output_filename, spec, configs, part_of_all ): """The main entry point: writes a .mk file for a single target. Arguments: qualified_target: target we're generating base_path: path relative to source root we're building in, used to resolve target-relative paths output_filename: output .mk file name to write spec, configs: gyp info part_of_all: flag indicating this target is part of 'all' """ gyp.common.EnsureDirExists(output_filename) self.fp = open(output_filename, "w") self.fp.write(header) self.qualified_target = qualified_target self.path = base_path self.target = spec["target_name"] self.type = spec["type"] self.toolset = spec["toolset"] self.is_mac_bundle = gyp.xcode_emulation.IsMacBundle(self.flavor, spec) if self.flavor == "mac": self.xcode_settings = gyp.xcode_emulation.XcodeSettings(spec) else: self.xcode_settings = None deps, link_deps = self.ComputeDeps(spec) # Some of the generation below can add extra output, sources, or # link dependencies. All of the out params of the functions that # follow use names like extra_foo. extra_outputs = [] extra_sources = [] extra_link_deps = [] extra_mac_bundle_resources = [] mac_bundle_deps = [] if self.is_mac_bundle: self.output = self.ComputeMacBundleOutput(spec) self.output_binary = self.ComputeMacBundleBinaryOutput(spec) else: self.output = self.output_binary = self.ComputeOutput(spec) self.is_standalone_static_library = bool( spec.get("standalone_static_library", 0) ) self._INSTALLABLE_TARGETS = ("executable", "loadable_module", "shared_library") if self.is_standalone_static_library or self.type in self._INSTALLABLE_TARGETS: self.alias = os.path.basename(self.output) install_path = self._InstallableTargetInstallPath() else: self.alias = self.output install_path = self.output self.WriteLn("TOOLSET := " + self.toolset) self.WriteLn("TARGET := " + self.target) # Actions must come first, since they can generate more OBJs for use below. if "actions" in spec: self.WriteActions( spec["actions"], extra_sources, extra_outputs, extra_mac_bundle_resources, part_of_all, ) # Rules must be early like actions. if "rules" in spec: self.WriteRules( spec["rules"], extra_sources, extra_outputs, extra_mac_bundle_resources, part_of_all, ) if "copies" in spec: self.WriteCopies(spec["copies"], extra_outputs, part_of_all) # Bundle resources. if self.is_mac_bundle: all_mac_bundle_resources = ( spec.get("mac_bundle_resources", []) + extra_mac_bundle_resources ) self.WriteMacBundleResources(all_mac_bundle_resources, mac_bundle_deps) self.WriteMacInfoPlist(mac_bundle_deps) # Sources. all_sources = spec.get("sources", []) + extra_sources if all_sources: self.WriteSources( configs, deps, all_sources, extra_outputs, extra_link_deps, part_of_all, gyp.xcode_emulation.MacPrefixHeader( self.xcode_settings, lambda p: Sourceify(self.Absolutify(p)), self.Pchify, ), ) sources = [x for x in all_sources if Compilable(x)] if sources: self.WriteLn(SHARED_HEADER_SUFFIX_RULES_COMMENT1) extensions = {os.path.splitext(s)[1] for s in sources} for ext in extensions: if ext in self.suffix_rules_srcdir: self.WriteLn(self.suffix_rules_srcdir[ext]) self.WriteLn(SHARED_HEADER_SUFFIX_RULES_COMMENT2) for ext in extensions: if ext in self.suffix_rules_objdir1: self.WriteLn(self.suffix_rules_objdir1[ext]) for ext in extensions: if ext in self.suffix_rules_objdir2: self.WriteLn(self.suffix_rules_objdir2[ext]) self.WriteLn("# End of this set of suffix rules") # Add dependency from bundle to bundle binary. if self.is_mac_bundle: mac_bundle_deps.append(self.output_binary) self.WriteTarget( spec, configs, deps, extra_link_deps + link_deps, mac_bundle_deps, extra_outputs, part_of_all, ) # Update global list of target outputs, used in dependency tracking. target_outputs[qualified_target] = install_path # Update global list of link dependencies. if self.type in ("static_library", "shared_library"): target_link_deps[qualified_target] = self.output_binary # Currently any versions have the same effect, but in future the behavior # could be different. if self.generator_flags.get("android_ndk_version", None): self.WriteAndroidNdkModuleRule(self.target, all_sources, link_deps) self.fp.close() def WriteSubMake(self, output_filename, makefile_path, targets, build_dir): """Write a "sub-project" Makefile. This is a small, wrapper Makefile that calls the top-level Makefile to build the targets from a single gyp file (i.e. a sub-project). Arguments: output_filename: sub-project Makefile name to write makefile_path: path to the top-level Makefile targets: list of "all" targets for this sub-project build_dir: build output directory, relative to the sub-project """ gyp.common.EnsureDirExists(output_filename) self.fp = open(output_filename, "w") self.fp.write(header) # For consistency with other builders, put sub-project build output in the # sub-project dir (see test/subdirectory/gyptest-subdir-all.py). self.WriteLn( "export builddir_name ?= %s" % os.path.join(os.path.dirname(output_filename), build_dir) ) self.WriteLn(".PHONY: all") self.WriteLn("all:") if makefile_path: makefile_path = " -C " + makefile_path self.WriteLn("\t$(MAKE){} {}".format(makefile_path, " ".join(targets))) self.fp.close() def WriteActions( self, actions, extra_sources, extra_outputs, extra_mac_bundle_resources, part_of_all, ): """Write Makefile code for any 'actions' from the gyp input. extra_sources: a list that will be filled in with newly generated source files, if any extra_outputs: a list that will be filled in with any outputs of these actions (used to make other pieces dependent on these actions) part_of_all: flag indicating this target is part of 'all' """ env = self.GetSortedXcodeEnv() for action in actions: name = StringToMakefileVariable( "{}_{}".format(self.qualified_target, action["action_name"]) ) self.WriteLn('### Rules for action "%s":' % action["action_name"]) inputs = action["inputs"] outputs = action["outputs"] # Build up a list of outputs. # Collect the output dirs we'll need. dirs = set() for out in outputs: dir = os.path.split(out)[0] if dir: dirs.add(dir) if int(action.get("process_outputs_as_sources", False)): extra_sources += outputs if int(action.get("process_outputs_as_mac_bundle_resources", False)): extra_mac_bundle_resources += outputs # Write the actual command. action_commands = action["action"] if self.flavor == "mac": action_commands = [ gyp.xcode_emulation.ExpandEnvVars(command, env) for command in action_commands ] command = gyp.common.EncodePOSIXShellList(action_commands) if "message" in action: self.WriteLn( "quiet_cmd_{} = ACTION {} $@".format(name, action["message"]) ) else: self.WriteLn(f"quiet_cmd_{name} = ACTION {name} $@") if len(dirs) > 0: command = "mkdir -p %s" % " ".join(dirs) + "; " + command cd_action = "cd %s; " % Sourceify(self.path or ".") # command and cd_action get written to a toplevel variable called # cmd_foo. Toplevel variables can't handle things that change per # makefile like $(TARGET), so hardcode the target. command = command.replace("$(TARGET)", self.target) cd_action = cd_action.replace("$(TARGET)", self.target) # Set LD_LIBRARY_PATH in case the action runs an executable from this # build which links to shared libs from this build. # actions run on the host, so they should in theory only use host # libraries, but until everything is made cross-compile safe, also use # target libraries. # TODO(piman): when everything is cross-compile safe, remove lib.target self.WriteLn( "cmd_%s = LD_LIBRARY_PATH=$(builddir)/lib.host:" "$(builddir)/lib.target:$$LD_LIBRARY_PATH; " "export LD_LIBRARY_PATH; " "%s%s" % (name, cd_action, command) ) self.WriteLn() outputs = [self.Absolutify(o) for o in outputs] # The makefile rules are all relative to the top dir, but the gyp actions # are defined relative to their containing dir. This replaces the obj # variable for the action rule with an absolute version so that the output # goes in the right place. # Only write the 'obj' and 'builddir' rules for the "primary" output (:1); # it's superfluous for the "extra outputs", and this avoids accidentally # writing duplicate dummy rules for those outputs. # Same for environment. self.WriteLn("%s: obj := $(abs_obj)" % QuoteSpaces(outputs[0])) self.WriteLn("%s: builddir := $(abs_builddir)" % QuoteSpaces(outputs[0])) self.WriteSortedXcodeEnv(outputs[0], self.GetSortedXcodeEnv()) for input in inputs: assert " " not in input, ( "Spaces in action input filenames not supported (%s)" % input ) for output in outputs: assert " " not in output, ( "Spaces in action output filenames not supported (%s)" % output ) # See the comment in WriteCopies about expanding env vars. outputs = [gyp.xcode_emulation.ExpandEnvVars(o, env) for o in outputs] inputs = [gyp.xcode_emulation.ExpandEnvVars(i, env) for i in inputs] self.WriteDoCmd( outputs, [Sourceify(self.Absolutify(i)) for i in inputs], part_of_all=part_of_all, command=name, ) # Stuff the outputs in a variable so we can refer to them later. outputs_variable = "action_%s_outputs" % name self.WriteLn("{} := {}".format(outputs_variable, " ".join(outputs))) extra_outputs.append("$(%s)" % outputs_variable) self.WriteLn() self.WriteLn() def WriteRules( self, rules, extra_sources, extra_outputs, extra_mac_bundle_resources, part_of_all, ): """Write Makefile code for any 'rules' from the gyp input. extra_sources: a list that will be filled in with newly generated source files, if any extra_outputs: a list that will be filled in with any outputs of these rules (used to make other pieces dependent on these rules) part_of_all: flag indicating this target is part of 'all' """ env = self.GetSortedXcodeEnv() for rule in rules: name = StringToMakefileVariable( "{}_{}".format(self.qualified_target, rule["rule_name"]) ) count = 0 self.WriteLn("### Generated for rule %s:" % name) all_outputs = [] for rule_source in rule.get("rule_sources", []): dirs = set() (rule_source_dirname, rule_source_basename) = os.path.split(rule_source) (rule_source_root, rule_source_ext) = os.path.splitext( rule_source_basename ) outputs = [ self.ExpandInputRoot(out, rule_source_root, rule_source_dirname) for out in rule["outputs"] ] for out in outputs: dir = os.path.dirname(out) if dir: dirs.add(dir) if int(rule.get("process_outputs_as_sources", False)): extra_sources += outputs if int(rule.get("process_outputs_as_mac_bundle_resources", False)): extra_mac_bundle_resources += outputs inputs = [ Sourceify(self.Absolutify(i)) for i in [rule_source] + rule.get("inputs", []) ] actions = ["$(call do_cmd,%s_%d)" % (name, count)] if name == "resources_grit": # HACK: This is ugly. Grit intentionally doesn't touch the # timestamp of its output file when the file doesn't change, # which is fine in hash-based dependency systems like scons # and forge, but not kosher in the make world. After some # discussion, hacking around it here seems like the least # amount of pain. actions += ["@touch --no-create $@"] # See the comment in WriteCopies about expanding env vars. outputs = [gyp.xcode_emulation.ExpandEnvVars(o, env) for o in outputs] inputs = [gyp.xcode_emulation.ExpandEnvVars(i, env) for i in inputs] outputs = [self.Absolutify(o) for o in outputs] all_outputs += outputs # Only write the 'obj' and 'builddir' rules for the "primary" output # (:1); it's superfluous for the "extra outputs", and this avoids # accidentally writing duplicate dummy rules for those outputs. self.WriteLn("%s: obj := $(abs_obj)" % outputs[0]) self.WriteLn("%s: builddir := $(abs_builddir)" % outputs[0]) self.WriteMakeRule( outputs, inputs, actions, command="%s_%d" % (name, count) ) # Spaces in rule filenames are not supported, but rule variables have # spaces in them (e.g. RULE_INPUT_PATH expands to '$(abspath $<)'). # The spaces within the variables are valid, so remove the variables # before checking. variables_with_spaces = re.compile(r"\$\([^ ]* \$<\)") for output in outputs: output = re.sub(variables_with_spaces, "", output) assert " " not in output, ( "Spaces in rule filenames not yet supported (%s)" % output ) self.WriteLn("all_deps += %s" % " ".join(outputs)) action = [ self.ExpandInputRoot(ac, rule_source_root, rule_source_dirname) for ac in rule["action"] ] mkdirs = "" if len(dirs) > 0: mkdirs = "mkdir -p %s; " % " ".join(dirs) cd_action = "cd %s; " % Sourceify(self.path or ".") # action, cd_action, and mkdirs get written to a toplevel variable # called cmd_foo. Toplevel variables can't handle things that change # per makefile like $(TARGET), so hardcode the target. if self.flavor == "mac": action = [ gyp.xcode_emulation.ExpandEnvVars(command, env) for command in action ] action = gyp.common.EncodePOSIXShellList(action) action = action.replace("$(TARGET)", self.target) cd_action = cd_action.replace("$(TARGET)", self.target) mkdirs = mkdirs.replace("$(TARGET)", self.target) # Set LD_LIBRARY_PATH in case the rule runs an executable from this # build which links to shared libs from this build. # rules run on the host, so they should in theory only use host # libraries, but until everything is made cross-compile safe, also use # target libraries. # TODO(piman): when everything is cross-compile safe, remove lib.target self.WriteLn( "cmd_%(name)s_%(count)d = LD_LIBRARY_PATH=" "$(builddir)/lib.host:$(builddir)/lib.target:$$LD_LIBRARY_PATH; " "export LD_LIBRARY_PATH; " "%(cd_action)s%(mkdirs)s%(action)s" % { "action": action, "cd_action": cd_action, "count": count, "mkdirs": mkdirs, "name": name, } ) self.WriteLn( "quiet_cmd_%(name)s_%(count)d = RULE %(name)s_%(count)d $@" % {"count": count, "name": name} ) self.WriteLn() count += 1 outputs_variable = "rule_%s_outputs" % name self.WriteList(all_outputs, outputs_variable) extra_outputs.append("$(%s)" % outputs_variable) self.WriteLn("### Finished generating for rule: %s" % name) self.WriteLn() self.WriteLn("### Finished generating for all rules") self.WriteLn("") def WriteCopies(self, copies, extra_outputs, part_of_all): """Write Makefile code for any 'copies' from the gyp input. extra_outputs: a list that will be filled in with any outputs of this action (used to make other pieces dependent on this action) part_of_all: flag indicating this target is part of 'all' """ self.WriteLn("### Generated for copy rule.") variable = StringToMakefileVariable(self.qualified_target + "_copies") outputs = [] for copy in copies: for path in copy["files"]: # Absolutify() may call normpath, and will strip trailing slashes. path = Sourceify(self.Absolutify(path)) filename = os.path.split(path)[1] output = Sourceify( self.Absolutify(os.path.join(copy["destination"], filename)) ) # If the output path has variables in it, which happens in practice for # 'copies', writing the environment as target-local doesn't work, # because the variables are already needed for the target name. # Copying the environment variables into global make variables doesn't # work either, because then the .d files will potentially contain spaces # after variable expansion, and .d file handling cannot handle spaces. # As a workaround, manually expand variables at gyp time. Since 'copies' # can't run scripts, there's no need to write the env then. # WriteDoCmd() will escape spaces for .d files. env = self.GetSortedXcodeEnv() output = gyp.xcode_emulation.ExpandEnvVars(output, env) path = gyp.xcode_emulation.ExpandEnvVars(path, env) self.WriteDoCmd([output], [path], "copy", part_of_all) outputs.append(output) self.WriteLn( "{} = {}".format(variable, " ".join(QuoteSpaces(o) for o in outputs)) ) extra_outputs.append("$(%s)" % variable) self.WriteLn() def WriteMacBundleResources(self, resources, bundle_deps): """Writes Makefile code for 'mac_bundle_resources'.""" self.WriteLn("### Generated for mac_bundle_resources") for output, res in gyp.xcode_emulation.GetMacBundleResources( generator_default_variables["PRODUCT_DIR"], self.xcode_settings, [Sourceify(self.Absolutify(r)) for r in resources], ): _, ext = os.path.splitext(output) if ext != ".xcassets": # Make does not supports '.xcassets' emulation. self.WriteDoCmd( [output], [res], "mac_tool,,,copy-bundle-resource", part_of_all=True ) bundle_deps.append(output) def WriteMacInfoPlist(self, bundle_deps): """Write Makefile code for bundle Info.plist files.""" info_plist, out, defines, extra_env = gyp.xcode_emulation.GetMacInfoPlist( generator_default_variables["PRODUCT_DIR"], self.xcode_settings, lambda p: Sourceify(self.Absolutify(p)), ) if not info_plist: return if defines: # Create an intermediate file to store preprocessed results. intermediate_plist = "$(obj).$(TOOLSET)/$(TARGET)/" + os.path.basename( info_plist ) self.WriteList( defines, intermediate_plist + ": INFOPLIST_DEFINES", "-D", quoter=EscapeCppDefine, ) self.WriteMakeRule( [intermediate_plist], [info_plist], [ "$(call do_cmd,infoplist)", # "Convert" the plist so that any weird whitespace changes from the # preprocessor do not affect the XML parser in mac_tool. "@plutil -convert xml1 $@ $@", ], ) info_plist = intermediate_plist # plists can contain envvars and substitute them into the file. self.WriteSortedXcodeEnv( out, self.GetSortedXcodeEnv(additional_settings=extra_env) ) self.WriteDoCmd( [out], [info_plist], "mac_tool,,,copy-info-plist", part_of_all=True ) bundle_deps.append(out) def WriteSources( self, configs, deps, sources, extra_outputs, extra_link_deps, part_of_all, precompiled_header, ): """Write Makefile code for any 'sources' from the gyp input. These are source files necessary to build the current target. configs, deps, sources: input from gyp. extra_outputs: a list of extra outputs this action should be dependent on; used to serialize action/rules before compilation extra_link_deps: a list that will be filled in with any outputs of compilation (to be used in link lines) part_of_all: flag indicating this target is part of 'all' """ # Write configuration-specific variables for CFLAGS, etc. for configname in sorted(configs.keys()): config = configs[configname] self.WriteList( config.get("defines"), "DEFS_%s" % configname, prefix="-D", quoter=EscapeCppDefine, ) if self.flavor == "mac": cflags = self.xcode_settings.GetCflags( configname, arch=config.get("xcode_configuration_platform") ) cflags_c = self.xcode_settings.GetCflagsC(configname) cflags_cc = self.xcode_settings.GetCflagsCC(configname) cflags_objc = self.xcode_settings.GetCflagsObjC(configname) cflags_objcc = self.xcode_settings.GetCflagsObjCC(configname) else: cflags = config.get("cflags") cflags_c = config.get("cflags_c") cflags_cc = config.get("cflags_cc") self.WriteLn("# Flags passed to all source files.") self.WriteList(cflags, "CFLAGS_%s" % configname) self.WriteLn("# Flags passed to only C files.") self.WriteList(cflags_c, "CFLAGS_C_%s" % configname) self.WriteLn("# Flags passed to only C++ files.") self.WriteList(cflags_cc, "CFLAGS_CC_%s" % configname) if self.flavor == "mac": self.WriteLn("# Flags passed to only ObjC files.") self.WriteList(cflags_objc, "CFLAGS_OBJC_%s" % configname) self.WriteLn("# Flags passed to only ObjC++ files.") self.WriteList(cflags_objcc, "CFLAGS_OBJCC_%s" % configname) includes = config.get("include_dirs") if includes: includes = [Sourceify(self.Absolutify(i)) for i in includes] self.WriteList(includes, "INCS_%s" % configname, prefix="-I") compilable = list(filter(Compilable, sources)) objs = [self.Objectify(self.Absolutify(Target(c))) for c in compilable] self.WriteList(objs, "OBJS") for obj in objs: assert " " not in obj, "Spaces in object filenames not supported (%s)" % obj self.WriteLn( "# Add to the list of files we specially track " "dependencies for." ) self.WriteLn("all_deps += $(OBJS)") self.WriteLn() # Make sure our dependencies are built first. if deps: self.WriteMakeRule( ["$(OBJS)"], deps, comment="Make sure our dependencies are built " "before any of us.", order_only=True, ) # Make sure the actions and rules run first. # If they generate any extra headers etc., the per-.o file dep tracking # will catch the proper rebuilds, so order only is still ok here. if extra_outputs: self.WriteMakeRule( ["$(OBJS)"], extra_outputs, comment="Make sure our actions/rules run " "before any of us.", order_only=True, ) pchdeps = precompiled_header.GetObjDependencies(compilable, objs) if pchdeps: self.WriteLn("# Dependencies from obj files to their precompiled headers") for source, obj, gch in pchdeps: self.WriteLn(f"{obj}: {gch}") self.WriteLn("# End precompiled header dependencies") if objs: extra_link_deps.append("$(OBJS)") self.WriteLn( """\ # CFLAGS et al overrides must be target-local. # See "Target-specific Variable Values" in the GNU Make manual.""" ) self.WriteLn("$(OBJS): TOOLSET := $(TOOLSET)") self.WriteLn( "$(OBJS): GYP_CFLAGS := " "$(DEFS_$(BUILDTYPE)) " "$(INCS_$(BUILDTYPE)) " "%s " % precompiled_header.GetInclude("c") + "$(CFLAGS_$(BUILDTYPE)) " "$(CFLAGS_C_$(BUILDTYPE))" ) self.WriteLn( "$(OBJS): GYP_CXXFLAGS := " "$(DEFS_$(BUILDTYPE)) " "$(INCS_$(BUILDTYPE)) " "%s " % precompiled_header.GetInclude("cc") + "$(CFLAGS_$(BUILDTYPE)) " "$(CFLAGS_CC_$(BUILDTYPE))" ) if self.flavor == "mac": self.WriteLn( "$(OBJS): GYP_OBJCFLAGS := " "$(DEFS_$(BUILDTYPE)) " "$(INCS_$(BUILDTYPE)) " "%s " % precompiled_header.GetInclude("m") + "$(CFLAGS_$(BUILDTYPE)) " "$(CFLAGS_C_$(BUILDTYPE)) " "$(CFLAGS_OBJC_$(BUILDTYPE))" ) self.WriteLn( "$(OBJS): GYP_OBJCXXFLAGS := " "$(DEFS_$(BUILDTYPE)) " "$(INCS_$(BUILDTYPE)) " "%s " % precompiled_header.GetInclude("mm") + "$(CFLAGS_$(BUILDTYPE)) " "$(CFLAGS_CC_$(BUILDTYPE)) " "$(CFLAGS_OBJCC_$(BUILDTYPE))" ) self.WritePchTargets(precompiled_header.GetPchBuildCommands()) # If there are any object files in our input file list, link them into our # output. extra_link_deps += [source for source in sources if Linkable(source)] self.WriteLn() def WritePchTargets(self, pch_commands): """Writes make rules to compile prefix headers.""" if not pch_commands: return for gch, lang_flag, lang, input in pch_commands: extra_flags = { "c": "$(CFLAGS_C_$(BUILDTYPE))", "cc": "$(CFLAGS_CC_$(BUILDTYPE))", "m": "$(CFLAGS_C_$(BUILDTYPE)) $(CFLAGS_OBJC_$(BUILDTYPE))", "mm": "$(CFLAGS_CC_$(BUILDTYPE)) $(CFLAGS_OBJCC_$(BUILDTYPE))", }[lang] var_name = { "c": "GYP_PCH_CFLAGS", "cc": "GYP_PCH_CXXFLAGS", "m": "GYP_PCH_OBJCFLAGS", "mm": "GYP_PCH_OBJCXXFLAGS", }[lang] self.WriteLn( f"{gch}: {var_name} := {lang_flag} " + "$(DEFS_$(BUILDTYPE)) " "$(INCS_$(BUILDTYPE)) " "$(CFLAGS_$(BUILDTYPE)) " + extra_flags ) self.WriteLn(f"{gch}: {input} FORCE_DO_CMD") self.WriteLn("\t@$(call do_cmd,pch_%s,1)" % lang) self.WriteLn("") assert " " not in gch, "Spaces in gch filenames not supported (%s)" % gch self.WriteLn("all_deps += %s" % gch) self.WriteLn("") def ComputeOutputBasename(self, spec): """Return the 'output basename' of a gyp spec. E.g., the loadable module 'foobar' in directory 'baz' will produce 'libfoobar.so' """ assert not self.is_mac_bundle if self.flavor == "mac" and self.type in ( "static_library", "executable", "shared_library", "loadable_module", ): return self.xcode_settings.GetExecutablePath() target = spec["target_name"] target_prefix = "" target_ext = "" if self.type == "static_library": if target[:3] == "lib": target = target[3:] target_prefix = "lib" target_ext = ".a" elif self.type in ("loadable_module", "shared_library"): if target[:3] == "lib": target = target[3:] target_prefix = "lib" if self.flavor == "aix": target_ext = ".a" else: target_ext = ".so" elif self.type == "none": target = "%s.stamp" % target elif self.type != "executable": print( "ERROR: What output file should be generated?", "type", self.type, "target", target, ) target_prefix = spec.get("product_prefix", target_prefix) target = spec.get("product_name", target) product_ext = spec.get("product_extension") if product_ext: target_ext = "." + product_ext return target_prefix + target + target_ext def _InstallImmediately(self): return ( self.toolset == "target" and self.flavor == "mac" and self.type in ("static_library", "executable", "shared_library", "loadable_module") ) def ComputeOutput(self, spec): """Return the 'output' (full output path) of a gyp spec. E.g., the loadable module 'foobar' in directory 'baz' will produce '$(obj)/baz/libfoobar.so' """ assert not self.is_mac_bundle path = os.path.join("$(obj)." + self.toolset, self.path) if self.type == "executable" or self._InstallImmediately(): path = "$(builddir)" path = spec.get("product_dir", path) return os.path.join(path, self.ComputeOutputBasename(spec)) def ComputeMacBundleOutput(self, spec): """Return the 'output' (full output path) to a bundle output directory.""" assert self.is_mac_bundle path = generator_default_variables["PRODUCT_DIR"] return os.path.join(path, self.xcode_settings.GetWrapperName()) def ComputeMacBundleBinaryOutput(self, spec): """Return the 'output' (full output path) to the binary in a bundle.""" path = generator_default_variables["PRODUCT_DIR"] return os.path.join(path, self.xcode_settings.GetExecutablePath()) def ComputeDeps(self, spec): """Compute the dependencies of a gyp spec. Returns a tuple (deps, link_deps), where each is a list of filenames that will need to be put in front of make for either building (deps) or linking (link_deps). """ deps = [] link_deps = [] if "dependencies" in spec: deps.extend( [ target_outputs[dep] for dep in spec["dependencies"] if target_outputs[dep] ] ) for dep in spec["dependencies"]: if dep in target_link_deps: link_deps.append(target_link_deps[dep]) deps.extend(link_deps) # TODO: It seems we need to transitively link in libraries (e.g. -lfoo)? # This hack makes it work: # link_deps.extend(spec.get('libraries', [])) return (gyp.common.uniquer(deps), gyp.common.uniquer(link_deps)) def WriteDependencyOnExtraOutputs(self, target, extra_outputs): self.WriteMakeRule( [self.output_binary], extra_outputs, comment="Build our special outputs first.", order_only=True, ) def WriteTarget( self, spec, configs, deps, link_deps, bundle_deps, extra_outputs, part_of_all ): """Write Makefile code to produce the final target of the gyp spec. spec, configs: input from gyp. deps, link_deps: dependency lists; see ComputeDeps() extra_outputs: any extra outputs that our target should depend on part_of_all: flag indicating this target is part of 'all' """ self.WriteLn("### Rules for final target.") if extra_outputs: self.WriteDependencyOnExtraOutputs(self.output_binary, extra_outputs) self.WriteMakeRule( extra_outputs, deps, comment=("Preserve order dependency of " "special output on deps."), order_only=True, ) target_postbuilds = {} if self.type != "none": for configname in sorted(configs.keys()): config = configs[configname] if self.flavor == "mac": ldflags = self.xcode_settings.GetLdflags( configname, generator_default_variables["PRODUCT_DIR"], lambda p: Sourceify(self.Absolutify(p)), arch=config.get("xcode_configuration_platform"), ) # TARGET_POSTBUILDS_$(BUILDTYPE) is added to postbuilds later on. gyp_to_build = gyp.common.InvertRelativePath(self.path) target_postbuild = self.xcode_settings.AddImplicitPostbuilds( configname, QuoteSpaces( os.path.normpath(os.path.join(gyp_to_build, self.output)) ), QuoteSpaces( os.path.normpath( os.path.join(gyp_to_build, self.output_binary) ) ), ) if target_postbuild: target_postbuilds[configname] = target_postbuild else: ldflags = config.get("ldflags", []) # Compute an rpath for this output if needed. if any(dep.endswith(".so") or ".so." in dep for dep in deps): # We want to get the literal string "$ORIGIN" # into the link command, so we need lots of escaping. ldflags.append(r"-Wl,-rpath=\$$ORIGIN/") ldflags.append(r"-Wl,-rpath-link=\$(builddir)/") library_dirs = config.get("library_dirs", []) ldflags += [("-L%s" % library_dir) for library_dir in library_dirs] self.WriteList(ldflags, "LDFLAGS_%s" % configname) if self.flavor == "mac": self.WriteList( self.xcode_settings.GetLibtoolflags(configname), "LIBTOOLFLAGS_%s" % configname, ) libraries = spec.get("libraries") if libraries: # Remove duplicate entries libraries = gyp.common.uniquer(libraries) if self.flavor == "mac": libraries = self.xcode_settings.AdjustLibraries(libraries) self.WriteList(libraries, "LIBS") self.WriteLn( "%s: GYP_LDFLAGS := $(LDFLAGS_$(BUILDTYPE))" % QuoteSpaces(self.output_binary) ) self.WriteLn("%s: LIBS := $(LIBS)" % QuoteSpaces(self.output_binary)) if self.flavor == "mac": self.WriteLn( "%s: GYP_LIBTOOLFLAGS := $(LIBTOOLFLAGS_$(BUILDTYPE))" % QuoteSpaces(self.output_binary) ) # Postbuild actions. Like actions, but implicitly depend on the target's # output. postbuilds = [] if self.flavor == "mac": if target_postbuilds: postbuilds.append("$(TARGET_POSTBUILDS_$(BUILDTYPE))") postbuilds.extend(gyp.xcode_emulation.GetSpecPostbuildCommands(spec)) if postbuilds: # Envvars may be referenced by TARGET_POSTBUILDS_$(BUILDTYPE), # so we must output its definition first, since we declare variables # using ":=". self.WriteSortedXcodeEnv(self.output, self.GetSortedXcodePostbuildEnv()) for configname in target_postbuilds: self.WriteLn( "%s: TARGET_POSTBUILDS_%s := %s" % ( QuoteSpaces(self.output), configname, gyp.common.EncodePOSIXShellList(target_postbuilds[configname]), ) ) # Postbuilds expect to be run in the gyp file's directory, so insert an # implicit postbuild to cd to there. postbuilds.insert(0, gyp.common.EncodePOSIXShellList(["cd", self.path])) for i, postbuild in enumerate(postbuilds): if not postbuild.startswith("$"): postbuilds[i] = EscapeShellArgument(postbuild) self.WriteLn("%s: builddir := $(abs_builddir)" % QuoteSpaces(self.output)) self.WriteLn( "%s: POSTBUILDS := %s" % (QuoteSpaces(self.output), " ".join(postbuilds)) ) # A bundle directory depends on its dependencies such as bundle resources # and bundle binary. When all dependencies have been built, the bundle # needs to be packaged. if self.is_mac_bundle: # If the framework doesn't contain a binary, then nothing depends # on the actions -- make the framework depend on them directly too. self.WriteDependencyOnExtraOutputs(self.output, extra_outputs) # Bundle dependencies. Note that the code below adds actions to this # target, so if you move these two lines, move the lines below as well. self.WriteList([QuoteSpaces(dep) for dep in bundle_deps], "BUNDLE_DEPS") self.WriteLn("%s: $(BUNDLE_DEPS)" % QuoteSpaces(self.output)) # After the framework is built, package it. Needs to happen before # postbuilds, since postbuilds depend on this. if self.type in ("shared_library", "loadable_module"): self.WriteLn( "\t@$(call do_cmd,mac_package_framework,,,%s)" % self.xcode_settings.GetFrameworkVersion() ) # Bundle postbuilds can depend on the whole bundle, so run them after # the bundle is packaged, not already after the bundle binary is done. if postbuilds: self.WriteLn("\t@$(call do_postbuilds)") postbuilds = [] # Don't write postbuilds for target's output. # Needed by test/mac/gyptest-rebuild.py. self.WriteLn("\t@true # No-op, used by tests") # Since this target depends on binary and resources which are in # nested subfolders, the framework directory will be older than # its dependencies usually. To prevent this rule from executing # on every build (expensive, especially with postbuilds), expliclity # update the time on the framework directory. self.WriteLn("\t@touch -c %s" % QuoteSpaces(self.output)) if postbuilds: assert not self.is_mac_bundle, ( "Postbuilds for bundles should be done " "on the bundle, not the binary (target '%s')" % self.target ) assert "product_dir" not in spec, ( "Postbuilds do not work with " "custom product_dir" ) if self.type == "executable": self.WriteLn( "%s: LD_INPUTS := %s" % ( QuoteSpaces(self.output_binary), " ".join(QuoteSpaces(dep) for dep in link_deps), ) ) if self.toolset == "host" and self.flavor == "android": self.WriteDoCmd( [self.output_binary], link_deps, "link_host", part_of_all, postbuilds=postbuilds, ) else: self.WriteDoCmd( [self.output_binary], link_deps, "link", part_of_all, postbuilds=postbuilds, ) elif self.type == "static_library": for link_dep in link_deps: assert " " not in link_dep, ( "Spaces in alink input filenames not supported (%s)" % link_dep ) if ( self.flavor not in ("mac", "openbsd", "netbsd", "win") and not self.is_standalone_static_library ): self.WriteDoCmd( [self.output_binary], link_deps, "alink_thin", part_of_all, postbuilds=postbuilds, ) else: self.WriteDoCmd( [self.output_binary], link_deps, "alink", part_of_all, postbuilds=postbuilds, ) elif self.type == "shared_library": self.WriteLn( "%s: LD_INPUTS := %s" % ( QuoteSpaces(self.output_binary), " ".join(QuoteSpaces(dep) for dep in link_deps), ) ) self.WriteDoCmd( [self.output_binary], link_deps, "solink", part_of_all, postbuilds=postbuilds, ) elif self.type == "loadable_module": for link_dep in link_deps: assert " " not in link_dep, ( "Spaces in module input filenames not supported (%s)" % link_dep ) if self.toolset == "host" and self.flavor == "android": self.WriteDoCmd( [self.output_binary], link_deps, "solink_module_host", part_of_all, postbuilds=postbuilds, ) else: self.WriteDoCmd( [self.output_binary], link_deps, "solink_module", part_of_all, postbuilds=postbuilds, ) elif self.type == "none": # Write a stamp line. self.WriteDoCmd( [self.output_binary], deps, "touch", part_of_all, postbuilds=postbuilds ) else: print("WARNING: no output for", self.type, self.target) # Add an alias for each target (if there are any outputs). # Installable target aliases are created below. if (self.output and self.output != self.target) and ( self.type not in self._INSTALLABLE_TARGETS ): self.WriteMakeRule( [self.target], [self.output], comment="Add target alias", phony=True ) if part_of_all: self.WriteMakeRule( ["all"], [self.target], comment='Add target alias to "all" target.', phony=True, ) # Add special-case rules for our installable targets. # 1) They need to install to the build dir or "product" dir. # 2) They get shortcuts for building (e.g. "make chrome"). # 3) They are part of "make all". if self.type in self._INSTALLABLE_TARGETS or self.is_standalone_static_library: if self.type == "shared_library": file_desc = "shared library" elif self.type == "static_library": file_desc = "static library" else: file_desc = "executable" install_path = self._InstallableTargetInstallPath() installable_deps = [self.output] if ( self.flavor == "mac" and "product_dir" not in spec and self.toolset == "target" ): # On mac, products are created in install_path immediately. assert install_path == self.output, "{} != {}".format( install_path, self.output, ) # Point the target alias to the final binary output. self.WriteMakeRule( [self.target], [install_path], comment="Add target alias", phony=True ) if install_path != self.output: assert not self.is_mac_bundle # See comment a few lines above. self.WriteDoCmd( [install_path], [self.output], "copy", comment="Copy this to the %s output path." % file_desc, part_of_all=part_of_all, ) installable_deps.append(install_path) if self.output != self.alias and self.alias != self.target: self.WriteMakeRule( [self.alias], installable_deps, comment="Short alias for building this %s." % file_desc, phony=True, ) if part_of_all: self.WriteMakeRule( ["all"], [install_path], comment='Add %s to "all" target.' % file_desc, phony=True, ) def WriteList(self, value_list, variable=None, prefix="", quoter=QuoteIfNecessary): """Write a variable definition that is a list of values. E.g. WriteList(['a','b'], 'foo', prefix='blah') writes out foo = blaha blahb but in a pretty-printed style. """ values = "" if value_list: value_list = [quoter(prefix + value) for value in value_list] values = " \\\n\t" + " \\\n\t".join(value_list) self.fp.write(f"{variable} :={values}\n\n") def WriteDoCmd( self, outputs, inputs, command, part_of_all, comment=None, postbuilds=False ): """Write a Makefile rule that uses do_cmd. This makes the outputs dependent on the command line that was run, as well as support the V= make command line flag. """ suffix = "" if postbuilds: assert "," not in command suffix = ",,1" # Tell do_cmd to honor $POSTBUILDS self.WriteMakeRule( outputs, inputs, actions=[f"$(call do_cmd,{command}{suffix})"], comment=comment, command=command, force=True, ) # Add our outputs to the list of targets we read depfiles from. # all_deps is only used for deps file reading, and for deps files we replace # spaces with ? because escaping doesn't work with make's $(sort) and # other functions. outputs = [QuoteSpaces(o, SPACE_REPLACEMENT) for o in outputs] self.WriteLn("all_deps += %s" % " ".join(outputs)) def WriteMakeRule( self, outputs, inputs, actions=None, comment=None, order_only=False, force=False, phony=False, command=None, ): """Write a Makefile rule, with some extra tricks. outputs: a list of outputs for the rule (note: this is not directly supported by make; see comments below) inputs: a list of inputs for the rule actions: a list of shell commands to run for the rule comment: a comment to put in the Makefile above the rule (also useful for making this Python script's code self-documenting) order_only: if true, makes the dependency order-only force: if true, include FORCE_DO_CMD as an order-only dep phony: if true, the rule does not actually generate the named output, the output is just a name to run the rule command: (optional) command name to generate unambiguous labels """ outputs = [QuoteSpaces(o) for o in outputs] inputs = [QuoteSpaces(i) for i in inputs] if comment: self.WriteLn("# " + comment) if phony: self.WriteLn(".PHONY: " + " ".join(outputs)) if actions: self.WriteLn("%s: TOOLSET := $(TOOLSET)" % outputs[0]) force_append = " FORCE_DO_CMD" if force else "" if order_only: # Order only rule: Just write a simple rule. # TODO(evanm): just make order_only a list of deps instead of this hack. self.WriteLn( "{}: | {}{}".format(" ".join(outputs), " ".join(inputs), force_append) ) elif len(outputs) == 1: # Regular rule, one output: Just write a simple rule. self.WriteLn("{}: {}{}".format(outputs[0], " ".join(inputs), force_append)) else: # Regular rule, more than one output: Multiple outputs are tricky in # make. We will write three rules: # - All outputs depend on an intermediate file. # - Make .INTERMEDIATE depend on the intermediate. # - The intermediate file depends on the inputs and executes the # actual command. # - The intermediate recipe will 'touch' the intermediate file. # - The multi-output rule will have an do-nothing recipe. # Hash the target name to avoid generating overlong filenames. cmddigest = hashlib.sha1( (command or self.target).encode("utf-8") ).hexdigest() intermediate = "%s.intermediate" % cmddigest self.WriteLn("{}: {}".format(" ".join(outputs), intermediate)) self.WriteLn("\t%s" % "@:") self.WriteLn("{}: {}".format(".INTERMEDIATE", intermediate)) self.WriteLn( "{}: {}{}".format(intermediate, " ".join(inputs), force_append) ) actions.insert(0, "$(call do_cmd,touch)") if actions: for action in actions: self.WriteLn("\t%s" % action) self.WriteLn() def WriteAndroidNdkModuleRule(self, module_name, all_sources, link_deps): """Write a set of LOCAL_XXX definitions for Android NDK. These variable definitions will be used by Android NDK but do nothing for non-Android applications. Arguments: module_name: Android NDK module name, which must be unique among all module names. all_sources: A list of source files (will be filtered by Compilable). link_deps: A list of link dependencies, which must be sorted in the order from dependencies to dependents. """ if self.type not in ("executable", "shared_library", "static_library"): return self.WriteLn("# Variable definitions for Android applications") self.WriteLn("include $(CLEAR_VARS)") self.WriteLn("LOCAL_MODULE := " + module_name) self.WriteLn( "LOCAL_CFLAGS := $(CFLAGS_$(BUILDTYPE)) " "$(DEFS_$(BUILDTYPE)) " # LOCAL_CFLAGS is applied to both of C and C++. There is # no way to specify $(CFLAGS_C_$(BUILDTYPE)) only for C # sources. "$(CFLAGS_C_$(BUILDTYPE)) " # $(INCS_$(BUILDTYPE)) includes the prefix '-I' while # LOCAL_C_INCLUDES does not expect it. So put it in # LOCAL_CFLAGS. "$(INCS_$(BUILDTYPE))" ) # LOCAL_CXXFLAGS is obsolete and LOCAL_CPPFLAGS is preferred. self.WriteLn("LOCAL_CPPFLAGS := $(CFLAGS_CC_$(BUILDTYPE))") self.WriteLn("LOCAL_C_INCLUDES :=") self.WriteLn("LOCAL_LDLIBS := $(LDFLAGS_$(BUILDTYPE)) $(LIBS)") # Detect the C++ extension. cpp_ext = {".cc": 0, ".cpp": 0, ".cxx": 0} default_cpp_ext = ".cpp" for filename in all_sources: ext = os.path.splitext(filename)[1] if ext in cpp_ext: cpp_ext[ext] += 1 if cpp_ext[ext] > cpp_ext[default_cpp_ext]: default_cpp_ext = ext self.WriteLn("LOCAL_CPP_EXTENSION := " + default_cpp_ext) self.WriteList( list(map(self.Absolutify, filter(Compilable, all_sources))), "LOCAL_SRC_FILES", ) # Filter out those which do not match prefix and suffix and produce # the resulting list without prefix and suffix. def DepsToModules(deps, prefix, suffix): modules = [] for filepath in deps: filename = os.path.basename(filepath) if filename.startswith(prefix) and filename.endswith(suffix): modules.append(filename[len(prefix) : -len(suffix)]) return modules # Retrieve the default value of 'SHARED_LIB_SUFFIX' params = {"flavor": "linux"} default_variables = {} CalculateVariables(default_variables, params) self.WriteList( DepsToModules( link_deps, generator_default_variables["SHARED_LIB_PREFIX"], default_variables["SHARED_LIB_SUFFIX"], ), "LOCAL_SHARED_LIBRARIES", ) self.WriteList( DepsToModules( link_deps, generator_default_variables["STATIC_LIB_PREFIX"], generator_default_variables["STATIC_LIB_SUFFIX"], ), "LOCAL_STATIC_LIBRARIES", ) if self.type == "executable": self.WriteLn("include $(BUILD_EXECUTABLE)") elif self.type == "shared_library": self.WriteLn("include $(BUILD_SHARED_LIBRARY)") elif self.type == "static_library": self.WriteLn("include $(BUILD_STATIC_LIBRARY)") self.WriteLn() def WriteLn(self, text=""): self.fp.write(text + "\n") def GetSortedXcodeEnv(self, additional_settings=None): return gyp.xcode_emulation.GetSortedXcodeEnv( self.xcode_settings, "$(abs_builddir)", os.path.join("$(abs_srcdir)", self.path), "$(BUILDTYPE)", additional_settings, ) def GetSortedXcodePostbuildEnv(self): # CHROMIUM_STRIP_SAVE_FILE is a chromium-specific hack. # TODO(thakis): It would be nice to have some general mechanism instead. strip_save_file = self.xcode_settings.GetPerTargetSetting( "CHROMIUM_STRIP_SAVE_FILE", "" ) # Even if strip_save_file is empty, explicitly write it. Else a postbuild # might pick up an export from an earlier target. return self.GetSortedXcodeEnv( additional_settings={"CHROMIUM_STRIP_SAVE_FILE": strip_save_file} ) def WriteSortedXcodeEnv(self, target, env): for k, v in env: # For # foo := a\ b # the escaped space does the right thing. For # export foo := a\ b # it does not -- the backslash is written to the env as literal character. # So don't escape spaces in |env[k]|. self.WriteLn(f"{QuoteSpaces(target)}: export {k} := {v}") def Objectify(self, path): """Convert a path to its output directory form.""" if "$(" in path: path = path.replace("$(obj)/", "$(obj).%s/$(TARGET)/" % self.toolset) if "$(obj)" not in path: path = f"$(obj).{self.toolset}/$(TARGET)/{path}" return path def Pchify(self, path, lang): """Convert a prefix header path to its output directory form.""" path = self.Absolutify(path) if "$(" in path: path = path.replace( "$(obj)/", f"$(obj).{self.toolset}/$(TARGET)/pch-{lang}" ) return path return f"$(obj).{self.toolset}/$(TARGET)/pch-{lang}/{path}" def Absolutify(self, path): """Convert a subdirectory-relative path into a base-relative path. Skips over paths that contain variables.""" if "$(" in path: # Don't call normpath in this case, as it might collapse the # path too aggressively if it features '..'. However it's still # important to strip trailing slashes. return path.rstrip("/") return os.path.normpath(os.path.join(self.path, path)) def ExpandInputRoot(self, template, expansion, dirname): if "%(INPUT_ROOT)s" not in template and "%(INPUT_DIRNAME)s" not in template: return template path = template % { "INPUT_ROOT": expansion, "INPUT_DIRNAME": dirname, } return path def _InstallableTargetInstallPath(self): """Returns the location of the final output for an installable target.""" # Functionality removed for all platforms to match Xcode and hoist # shared libraries into PRODUCT_DIR for users: # Xcode puts shared_library results into PRODUCT_DIR, and some gyp files # rely on this. Emulate this behavior for mac. # if self.type == "shared_library" and ( # self.flavor != "mac" or self.toolset != "target" # ): # # Install all shared libs into a common directory (per toolset) for # # convenient access with LD_LIBRARY_PATH. # return "$(builddir)/lib.%s/%s" % (self.toolset, self.alias) return "$(builddir)/" + self.alias def WriteAutoRegenerationRule(params, root_makefile, makefile_name, build_files): """Write the target to regenerate the Makefile.""" options = params["options"] build_files_args = [ gyp.common.RelativePath(filename, options.toplevel_dir) for filename in params["build_files_arg"] ] gyp_binary = gyp.common.FixIfRelativePath( params["gyp_binary"], options.toplevel_dir ) if not gyp_binary.startswith(os.sep): gyp_binary = os.path.join(".", gyp_binary) root_makefile.write( "quiet_cmd_regen_makefile = ACTION Regenerating $@\n" "cmd_regen_makefile = cd $(srcdir); %(cmd)s\n" "%(makefile_name)s: %(deps)s\n" "\t$(call do_cmd,regen_makefile)\n\n" % { "makefile_name": makefile_name, "deps": " ".join(SourceifyAndQuoteSpaces(bf) for bf in build_files), "cmd": gyp.common.EncodePOSIXShellList( [gyp_binary, "-fmake"] + gyp.RegenerateFlags(options) + build_files_args ), } ) def PerformBuild(data, configurations, params): options = params["options"] for config in configurations: arguments = ["make"] if options.toplevel_dir and options.toplevel_dir != ".": arguments += "-C", options.toplevel_dir arguments.append("BUILDTYPE=" + config) print(f"Building [{config}]: {arguments}") subprocess.check_call(arguments) def GenerateOutput(target_list, target_dicts, data, params): options = params["options"] flavor = gyp.common.GetFlavor(params) generator_flags = params.get("generator_flags", {}) builddir_name = generator_flags.get("output_dir", "out") android_ndk_version = generator_flags.get("android_ndk_version", None) default_target = generator_flags.get("default_target", "all") def CalculateMakefilePath(build_file, base_name): """Determine where to write a Makefile for a given gyp file.""" # Paths in gyp files are relative to the .gyp file, but we want # paths relative to the source root for the master makefile. Grab # the path of the .gyp file as the base to relativize against. # E.g. "foo/bar" when we're constructing targets for "foo/bar/baz.gyp". base_path = gyp.common.RelativePath(os.path.dirname(build_file), options.depth) # We write the file in the base_path directory. output_file = os.path.join(options.depth, base_path, base_name) if options.generator_output: output_file = os.path.join( options.depth, options.generator_output, base_path, base_name ) base_path = gyp.common.RelativePath( os.path.dirname(build_file), options.toplevel_dir ) return base_path, output_file # TODO: search for the first non-'Default' target. This can go # away when we add verification that all targets have the # necessary configurations. default_configuration = None toolsets = {target_dicts[target]["toolset"] for target in target_list} for target in target_list: spec = target_dicts[target] if spec["default_configuration"] != "Default": default_configuration = spec["default_configuration"] break if not default_configuration: default_configuration = "Default" srcdir = "." makefile_name = "Makefile" + options.suffix makefile_path = os.path.join(options.toplevel_dir, makefile_name) if options.generator_output: global srcdir_prefix makefile_path = os.path.join( options.toplevel_dir, options.generator_output, makefile_name ) srcdir = gyp.common.RelativePath(srcdir, options.generator_output) srcdir_prefix = "$(srcdir)/" flock_command = "flock" copy_archive_arguments = "-af" makedep_arguments = "-MMD" header_params = { "default_target": default_target, "builddir": builddir_name, "default_configuration": default_configuration, "flock": flock_command, "flock_index": 1, "link_commands": LINK_COMMANDS_LINUX, "extra_commands": "", "srcdir": srcdir, "copy_archive_args": copy_archive_arguments, "makedep_args": makedep_arguments, "CC.target": GetEnvironFallback(("CC_target", "CC"), "$(CC)"), "AR.target": GetEnvironFallback(("AR_target", "AR"), "$(AR)"), "CXX.target": GetEnvironFallback(("CXX_target", "CXX"), "$(CXX)"), "LINK.target": GetEnvironFallback(("LINK_target", "LINK"), "$(LINK)"), "CC.host": GetEnvironFallback(("CC_host", "CC"), "gcc"), "AR.host": GetEnvironFallback(("AR_host", "AR"), "ar"), "CXX.host": GetEnvironFallback(("CXX_host", "CXX"), "g++"), "LINK.host": GetEnvironFallback(("LINK_host", "LINK"), "$(CXX.host)"), } if flavor == "mac": flock_command = "./gyp-mac-tool flock" header_params.update( { "flock": flock_command, "flock_index": 2, "link_commands": LINK_COMMANDS_MAC, "extra_commands": SHARED_HEADER_MAC_COMMANDS, } ) elif flavor == "android": header_params.update({"link_commands": LINK_COMMANDS_ANDROID}) elif flavor == "zos": copy_archive_arguments = "-fPR" makedep_arguments = "-qmakedep=gcc" header_params.update( { "copy_archive_args": copy_archive_arguments, "makedep_args": makedep_arguments, "link_commands": LINK_COMMANDS_OS390, "CC.target": GetEnvironFallback(("CC_target", "CC"), "njsc"), "CXX.target": GetEnvironFallback(("CXX_target", "CXX"), "njsc++"), "CC.host": GetEnvironFallback(("CC_host", "CC"), "njsc"), "CXX.host": GetEnvironFallback(("CXX_host", "CXX"), "njsc++"), } ) elif flavor == "solaris": copy_archive_arguments = "-pPRf@" header_params.update( { "copy_archive_args": copy_archive_arguments, "flock": "./gyp-flock-tool flock", "flock_index": 2, } ) elif flavor == "freebsd": # Note: OpenBSD has sysutils/flock. lockf seems to be FreeBSD specific. header_params.update({"flock": "lockf"}) elif flavor == "openbsd": copy_archive_arguments = "-pPRf" header_params.update({"copy_archive_args": copy_archive_arguments}) elif flavor == "aix": copy_archive_arguments = "-pPRf" header_params.update( { "copy_archive_args": copy_archive_arguments, "link_commands": LINK_COMMANDS_AIX, "flock": "./gyp-flock-tool flock", "flock_index": 2, } ) build_file, _, _ = gyp.common.ParseQualifiedTarget(target_list[0]) make_global_settings_array = data[build_file].get("make_global_settings", []) wrappers = {} for key, value in make_global_settings_array: if key.endswith("_wrapper"): wrappers[key[: -len("_wrapper")]] = "$(abspath %s)" % value make_global_settings = "" for key, value in make_global_settings_array: if re.match(".*_wrapper", key): continue if value[0] != "$": value = "$(abspath %s)" % value wrapper = wrappers.get(key) if wrapper: value = f"{wrapper} {value}" del wrappers[key] if key in ("CC", "CC.host", "CXX", "CXX.host"): make_global_settings += ( "ifneq (,$(filter $(origin %s), undefined default))\n" % key ) # Let gyp-time envvars win over global settings. env_key = key.replace(".", "_") # CC.host -> CC_host if env_key in os.environ: value = os.environ[env_key] make_global_settings += f" {key} = {value}\n" make_global_settings += "endif\n" else: make_global_settings += f"{key} ?= {value}\n" # TODO(ukai): define cmd when only wrapper is specified in # make_global_settings. header_params["make_global_settings"] = make_global_settings gyp.common.EnsureDirExists(makefile_path) root_makefile = open(makefile_path, "w") root_makefile.write(SHARED_HEADER % header_params) # Currently any versions have the same effect, but in future the behavior # could be different. if android_ndk_version: root_makefile.write( "# Define LOCAL_PATH for build of Android applications.\n" "LOCAL_PATH := $(call my-dir)\n" "\n" ) for toolset in toolsets: root_makefile.write("TOOLSET := %s\n" % toolset) WriteRootHeaderSuffixRules(root_makefile) # Put build-time support tools next to the root Makefile. dest_path = os.path.dirname(makefile_path) gyp.common.CopyTool(flavor, dest_path) # Find the list of targets that derive from the gyp file(s) being built. needed_targets = set() for build_file in params["build_files"]: for target in gyp.common.AllTargets(target_list, target_dicts, build_file): needed_targets.add(target) build_files = set() include_list = set() for qualified_target in target_list: build_file, target, toolset = gyp.common.ParseQualifiedTarget(qualified_target) this_make_global_settings = data[build_file].get("make_global_settings", []) assert make_global_settings_array == this_make_global_settings, ( "make_global_settings needs to be the same for all targets " f"{this_make_global_settings} vs. {make_global_settings}" ) build_files.add(gyp.common.RelativePath(build_file, options.toplevel_dir)) included_files = data[build_file]["included_files"] for included_file in included_files: # The included_files entries are relative to the dir of the build file # that included them, so we have to undo that and then make them relative # to the root dir. relative_include_file = gyp.common.RelativePath( gyp.common.UnrelativePath(included_file, build_file), options.toplevel_dir, ) abs_include_file = os.path.abspath(relative_include_file) # If the include file is from the ~/.gyp dir, we should use absolute path # so that relocating the src dir doesn't break the path. if params["home_dot_gyp"] and abs_include_file.startswith( params["home_dot_gyp"] ): build_files.add(abs_include_file) else: build_files.add(relative_include_file) base_path, output_file = CalculateMakefilePath( build_file, target + "." + toolset + options.suffix + ".mk" ) spec = target_dicts[qualified_target] configs = spec["configurations"] if flavor == "mac": gyp.xcode_emulation.MergeGlobalXcodeSettingsToSpec(data[build_file], spec) writer = MakefileWriter(generator_flags, flavor) writer.Write( qualified_target, base_path, output_file, spec, configs, part_of_all=qualified_target in needed_targets, ) # Our root_makefile lives at the source root. Compute the relative path # from there to the output_file for including. mkfile_rel_path = gyp.common.RelativePath( output_file, os.path.dirname(makefile_path) ) include_list.add(mkfile_rel_path) # Write out per-gyp (sub-project) Makefiles. depth_rel_path = gyp.common.RelativePath(options.depth, os.getcwd()) for build_file in build_files: # The paths in build_files were relativized above, so undo that before # testing against the non-relativized items in target_list and before # calculating the Makefile path. build_file = os.path.join(depth_rel_path, build_file) gyp_targets = [ target_dicts[qualified_target]["target_name"] for qualified_target in target_list if qualified_target.startswith(build_file) and qualified_target in needed_targets ] # Only generate Makefiles for gyp files with targets. if not gyp_targets: continue base_path, output_file = CalculateMakefilePath( build_file, os.path.splitext(os.path.basename(build_file))[0] + ".Makefile" ) makefile_rel_path = gyp.common.RelativePath( os.path.dirname(makefile_path), os.path.dirname(output_file) ) writer.WriteSubMake(output_file, makefile_rel_path, gyp_targets, builddir_name) # Write out the sorted list of includes. root_makefile.write("\n") for include_file in sorted(include_list): # We wrap each .mk include in an if statement so users can tell make to # not load a file by setting NO_LOAD. The below make code says, only # load the .mk file if the .mk filename doesn't start with a token in # NO_LOAD. root_makefile.write( "ifeq ($(strip $(foreach prefix,$(NO_LOAD),\\\n" " $(findstring $(join ^,$(prefix)),\\\n" " $(join ^," + include_file + ")))),)\n" ) root_makefile.write(" include " + include_file + "\n") root_makefile.write("endif\n") root_makefile.write("\n") if not generator_flags.get("standalone") and generator_flags.get( "auto_regeneration", True ): WriteAutoRegenerationRule(params, root_makefile, makefile_name, build_files) root_makefile.write(SHARED_FOOTER) root_makefile.close()
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