build/config/compiler/BUILD.gn - sdk.git - Git at Google

 # Copyright (c) 2013 The Chromium Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 import("//build/config/android/config.gni")
 if (current_cpu == "arm") {
   import("//build/config/arm.gni")
 }
 if (current_cpu == "mipsel" || current_cpu == "mips64el") {
   import("//build/config/mips.gni")
 }
 if (is_posix) {
   import("//build/config/gcc/gcc_version.gni")
 }
 if (is_win) {
   import("//build/config/win/visual_studio_version.gni")
 }

 import("//build/toolchain/ccache.gni")

 # default_include_dirs ---------------------------------------------------------
 #
 # This is a separate config so that third_party code (which would not use the
 # source root and might have conflicting versions of some headers) can remove
 # this and specify their own include paths.
 config("default_include_dirs") {
   include_dirs = [
     "//",
     root_gen_dir,
   ]
 }

 if (!is_win) {
   using_sanitizer = is_asan || is_lsan || is_tsan || is_msan
 }

 # compiler ---------------------------------------------------------------------
 #
 # Base compiler configuration.
 #
 # See also "runtime_library" below for related stuff and a discussion about
 # where stuff should go. Put warning related stuff in the "warnings" config.

 config("compiler") {
   asmflags = []
   cflags = []
   cflags_c = []
   cflags_cc = []
   cflags_objcc = []
   ldflags = []
   defines = []

   # In general, Windows is totally different, but all the other builds share
   # some common GCC configuration. This section sets up Windows and the common
   # GCC flags, and then we handle the other non-Windows platforms specifically
   # below.
   if (is_win) {
     # Windows compiler flags setup.
     # -----------------------------
     cflags += [
       "/Gy",  # Enable function-level linking.
       "/GS",  # Enable buffer security checking.
       "/FS",  # Preserve previous PDB behavior.
     ]
   } else {
     # Common GCC compiler flags setup.
     # --------------------------------
     common_flags = [
       # Not exporting C++ inline functions can generally be applied anywhere
       # so we do so here. Normal function visibility is controlled by
       # //build/config/gcc:symbol_visibility_hidden.
       "-fvisibility-inlines-hidden",

       # We need the frame pointer for CPU and heap profiling.
       "-fno-omit-frame-pointer",
     ]
     cflags_cc += common_flags
     cflags_objcc += common_flags

     # Linker warnings.
     if (current_cpu != "arm" && !is_mac) {
       # TODO(jochen): Enable this on chromeos on arm. http://crbug.com/356580
       ldflags += [ "-Wl,--fatal-warnings" ]
     }

     # Common options for AddressSanitizer, LeakSanitizer, ThreadSanitizer and
     # MemorySanitizer
     if (using_sanitizer) {
       cflags += [ "-gline-tables-only" ]
     }
     if (is_asan) {
       cflags += [ "-fsanitize=address" ]
       ldflags += [ "-fsanitize=address" ]
     }
     if (is_lsan) {
       cflags += [ "-fsanitize=leak" ]
       ldflags += [ "-fsanitize=leak" ]
     }
     if (is_tsan) {
       cflags += [ "-fsanitize=thread" ]
       ldflags += [ "-fsanitize=thread" ]
     }
     if (is_msan) {
       cflags += [ "-fsanitize=memory" ]
       ldflags += [ "-fsanitize=memory" ]
     }
   }

   if (is_clang && is_debug) {
     # Allow comparing the address of references and 'this' against 0
     # in debug builds. Technically, these can never be null in
     # well-defined C/C++ and Clang can optimize such checks away in
     # release builds, but they may be used in asserts in debug builds.
     extra_flags = [
       "-Wno-undefined-bool-conversion",
       "-Wno-tautological-undefined-compare",
     ]
     cflags_cc += extra_flags
     cflags_objcc += extra_flags
   }

   if (is_clang) {
     # This is here so that all files get recompiled after a clang roll and
     # when turning clang on or off. (defines are passed via the command line,
     # and build system rebuild things when their commandline changes). Nothing
     # should ever read this define.
     defines +=
         [ "CR_CLANG_REVISION=" + exec_script("//tools/clang/scripts/update.py",
                                              [ "--print-revision" ],
                                              "trim string") ]
   }

   # Mac-specific compiler flags setup.
   # ----------------------------------
   if (is_mac) {
     # These flags are shared between the C compiler and linker.
     common_mac_flags = [ "-fno-exceptions" ]

     # CPU architecture.
     if (current_cpu == "x64") {
       common_mac_flags += [
         "-arch",
         "x86_64",
       ]
     } else if (current_cpu == "x86") {
       common_mac_flags += [
         "-arch",
         "i386",
       ]
     } else if (current_cpu == "arm") {
       common_mac_flags += [
         "-arch",
         "armv7",
       ]
     } else if (current_cpu == "arm64") {
       common_mac_flags += [
         "-arch",
         "arm64",
       ]
     }

     cflags += common_mac_flags

     # Without this, the constructors and destructors of a C++ object inside
     # an Objective C struct won't be called, which is very bad.
     cflags_objcc += [ "-fobjc-call-cxx-cdtors" ]

     cflags_c += [ "-std=c99" ]

     ldflags += common_mac_flags
   } else if (is_posix) {
     # CPU architecture. We may or may not be doing a cross compile now, so for
     # simplicity we always explicitly set the architecture.
     if (current_cpu == "x64") {
       cflags += [
         "-m64",
         "-march=x86-64",
         "-msse2",
       ]
       ldflags += [ "-m64" ]
     } else if (current_cpu == "x86") {
       cflags += [
         "-m32",
         "-msse2",
         "-mfpmath=sse",
       ]
       ldflags += [ "-m32" ]
       if (is_clang) {
         cflags += [
           # Else building libyuv gives clang's register allocator issues,
           # see llvm.org/PR15798 / crbug.com/233709
           "-mno-omit-leaf-frame-pointer",

           # Align the stack on 16-byte boundaries, http://crbug.com/418554.
           "-mstack-alignment=16",
           "-mstackrealign",
         ]
       }
     } else if (current_cpu == "arm") {
       cflags += [
         "-march=$arm_arch",
         "-mfloat-abi=$arm_float_abi",
       ]
       if (arm_tune != "") {
         cflags += [ "-mtune=$arm_tune" ]
       }
       if (arm_use_thumb) {
         cflags += [ "-mthumb" ]
         if (is_android && !is_clang) {  # Clang doesn't support this option.
           cflags += [ "-mthumb-interwork" ]
         }
       }
       if (!is_clang) {
         # Clang doesn't support these flags.
         cflags += [
           # The tree-sra optimization (scalar replacement for
           # aggregates enabling subsequent optimizations) leads to
           # invalid code generation when using the Android NDK's
           # compiler (r5-r7). This can be verified using
           # webkit_unit_tests' WTF.Checked_int8_t test.
           "-fno-tree-sra",

           # The following option is disabled to improve binary
           # size and performance in gcc 4.9.
           "-fno-caller-saves",
         ]
       }
     } else if (current_cpu == "mipsel") {
       # We have to explicitly request exceptions to get good heap profiles from
       # tcmalloc.
       if (is_debug || is_release) {
         cflags += [
           "-fexceptions",
           "-funwind-tables",
         ]
       }

       if (mips_arch_variant == "r6") {
         cflags += [
           "-mips32r6",
           "-Wa,-mips32r6",
         ]
         if (is_android) {
           ldflags += [
             "-mips32r6",
             "-Wl,-melf32ltsmip",
           ]
         }
       } else if (mips_arch_variant == "r2") {
         cflags += [
           "-mips32r2",
           "-Wa,-mips32r2",
         ]
         if (mips_float_abi == "hard" && mips_fpu_mode != "") {
           cflags += [ "-m$mips_fpu_mode" ]
         }
       } else if (mips_arch_variant == "r1") {
         cflags += [
           "-mips32",
           "-Wa,-mips32",
         ]
       }

       if (mips_dsp_rev == 1) {
         cflags += [ "-mdsp" ]
       } else if (mips_dsp_rev == 2) {
         cflags += [ "-mdspr2" ]
       }

       cflags += [ "-m${mips_float_abi}-float" ]
     } else if (current_cpu == "mips64el") {
       if (mips_arch_variant == "r6") {
         cflags += [
           "-mips64r6",
           "-Wa,-mips64r6",
         ]
         ldflags += [ "-mips64r6" ]
       } else if (mips_arch_variant == "r2") {
         cflags += [
           "-mips64r2",
           "-Wa,-mips64r2",
         ]
         ldflags += [ "-mips64r2" ]
       }
     }

     if (current_cpu != "mipsel") {
       cflags += [ "-fno-exceptions" ]
     }
   }

   # Linux/Android common flags setup.
   # ---------------------------------
   if (is_linux || is_android) {
     cflags += [ "-fPIC" ]

     ldflags += [
       "-fPIC",
       "-Wl,-z,noexecstack",
       "-Wl,-z,now",
       "-Wl,-z,relro",
     ]
   }

   # Linux-specific compiler flags setup.
   # ------------------------------------
   if (is_linux) {
     cflags += [ "-pthread" ]
     ldflags += [ "-pthread" ]
   }

   # Clang-specific compiler flags setup.
   # ------------------------------------
   if (is_clang) {
     cflags += [ "-fcolor-diagnostics" ]
   }

   # Android-specific flags setup.
   # -----------------------------
   if (is_android) {
     cflags += [
       "-ffunction-sections",
       "-funwind-tables",
       "-fno-short-enums",
     ]
     if (!is_clang) {
       # Clang doesn't support these flags.
       cflags += [ "-finline-limit=64" ]
     }
     if (is_asan) {
       # Android build relies on -Wl,--gc-sections removing unreachable code.
       # ASan instrumentation for globals inhibits this and results in a library
       # with unresolvable relocations.
       # TODO(eugenis): find a way to reenable this.
       cflags += [ "-mllvm -asan-globals=0" ]
     }

     defines += [ "ANDROID" ]

     # The NDK has these things, but doesn't define the constants
     # to say that it does. Define them here instead.
     defines += [ "HAVE_SYS_UIO_H" ]

     # Use gold for Android for most CPU architectures.
     if (current_cpu == "x86" || current_cpu == "x64" || current_cpu == "arm") {
       ldflags += [ "-fuse-ld=gold" ]
       if (is_clang) {
         # Let clang find the ld.gold in the NDK.
         ldflags += [ "--gcc-toolchain=" +
                      rebase_path(android_toolchain_root, root_build_dir) ]
       }
     }

     ldflags += [
       # Don't allow visible symbols from libgcc or libc++ to be
       # re-exported.
       "-Wl,--exclude-libs=libgcc.a",
       "-Wl,--exclude-libs=libc++_static.a",
     ]
     if (current_cpu == "arm") {
       ldflags += [
         # Enable identical code folding to reduce size.
         "-Wl,--icf=safe",
       ]
     }

     if (is_clang) {
       if (current_cpu == "arm") {
         cflags += [ "--target=arm-linux-androideabi" ]
         ldflags += [ "--target=arm-linux-androideabi" ]
       } else if (current_cpu == "x86") {
         cflags += [ "--target=x86-linux-androideabi" ]
         ldflags += [ "--target=x86-linux-androideabi" ]
       }
     }
   }

   # Assign any flags set for the C compiler to asmflags so that they are sent
   # to the assembler. The Windows assembler takes different types of flags
   # so only do so for posix platforms.
   if (is_posix) {
     asmflags += cflags
     asmflags += cflags_c
   }
 }

 config("compiler_arm_fpu") {
   if (current_cpu == "arm") {
     cflags = [ "-mfpu=$arm_fpu" ]
   }
 }

 # runtime_library -------------------------------------------------------------
 #
 # Sets the runtime library and associated options.
 #
 # How do you determine what should go in here vs. "compiler" above? Consider if
 # a target might choose to use a different runtime library (ignore for a moment
 # if this is possible or reasonable on your system). If such a target would
 # want to change or remove your option, put it in the runtime_library config.
 # If a target wants the option regardless, put it in the compiler config.

 config("runtime_library") {
   cflags = []
   defines = []
   ldflags = []
   lib_dirs = []
   libs = []

   # Static CRT.
   if (is_win) {
     if (is_debug) {
       cflags += [ "/MTd" ]
     } else {
       cflags += [ "/MT" ]
     }
     defines += [
       "__STD_C",
       "_CRT_RAND_S",
       "_CRT_SECURE_NO_DEPRECATE",
       "_HAS_EXCEPTIONS=0",
       "_SCL_SECURE_NO_DEPRECATE",
     ]
   }

   # Android standard library setup.
   if (is_android) {
     if (is_clang) {
       # Work around incompatibilities between bionic and clang headers.
       defines += [
         "__compiler_offsetof=__builtin_offsetof",
         "nan=__builtin_nan",
       ]
     }

     defines += [ "__GNU_SOURCE=1" ]  # Necessary for clone().

     # TODO(jdduke) Re-enable on mips after resolving linking
     # issues with libc++ (crbug.com/456380).
     if (current_cpu != "mipsel" && current_cpu != "mips64el") {
       ldflags += [ "-Wl,--warn-shared-textrel" ]
     }
     ldflags += [ "-nostdlib" ]

     # NOTE: The libc++ header include paths below are specified in cflags
     # rather than include_dirs because they need to come after include_dirs.
     # Think of them like system headers, but don't use '-isystem' because the
     # arm-linux-androideabi-4.4.3 toolchain (circa Gingerbread) will exhibit
     # strange errors. The include ordering here is important; change with
     # caution.
     cflags += [
       "-isystem" +
           rebase_path("$android_libcpp_root/libcxx/include", root_build_dir),
       "-isystem" + rebase_path(
               "$android_ndk_root/sources/cxx-stl/llvm-libc++abi/libcxxabi/include",
               root_build_dir),
       "-isystem" +
           rebase_path("$android_ndk_root/sources/android/support/include",
                       root_build_dir),
     ]

     lib_dirs += [ "$android_libcpp_root/libs/$android_app_abi" ]
     libs += [ "$android_libcpp_library" ]

     if (current_cpu == "mipsel") {
       libs += [
         # ld linker is used for mips Android, and ld does not accept library
         # absolute path prefixed by "-l"; Since libgcc does not exist in mips
         # sysroot the proper library will be linked.
         # TODO(gordanac): Remove once gold linker is used for mips Android.
         "gcc",
       ]
     } else {
       libs += [
         # Manually link the libgcc.a that the cross compiler uses. This is
         # absolute because the linker will look inside the sysroot if it's not.
         rebase_path(android_libgcc_file),
       ]
     }

     libs += [
       "c",
       "dl",
       "m",
     ]

     # Clang with libc++ does not require an explicit atomic library reference.
     if (!is_clang) {
       libs += [ "atomic" ]
     }
   }
 }

 # default_warning_flags collects all warning flags that are used by default.
 # This is in a variable instead of a config so that it can be used in
 # both chromium_code and no_chromium_code.  This way these flags are guaranteed
 # to appear on the compile command line after -Wall.

 default_warning_flags = []
 default_warning_flags_cc = []
 if (is_win) {
   if (current_cpu != "x86") {
     default_warning_flags += [ "/WX" ]  # Treat warnings as errors.
   }

   default_warning_flags += [
     # Permanent.
     "/wd4091",  # typedef warning from dbghelp.h

     # Investigate.
     "/wd4312",  # int to pointer of greater size conversion.
     "/wd4838",  # Narrowing conversion required.
     "/wd4172",  # Returning address of local.
     "/wd4005",  # Redefinition of macros for PRId64 etc.
     "/wd4311",  # Pointer truncation from PVOID to DWORD.
     "/wd4477",  # Format string requires wchar_t*
   ]
 } else {
   # Common GCC warning setup.
   default_warning_flags += [
     # Enables.
     "-Wendif-labels",  # Weird old-style text after an #endif.

     # Disables.
     "-Wno-missing-field-initializers",  # "struct foo f = {0};"
     "-Wno-unused-parameter",  # Unused function parameters.
   ]

   if (is_mac) {
     # TODO(abarth): Re-enable once https://github.com/domokit/mojo/issues/728
     #               is fixed.
     # default_warning_flags += [ "-Wnewline-eof" ]

     # When compiling Objective-C, warns if a method is used whose
     # availability is newer than the deployment target. This is not
     # required when compiling Chrome for iOS.
     default_warning_flags += [ "-Wpartial-availability" ]
   }

   # Suppress warnings about ABI changes on ARM (Clang doesn't give this
   # warning).
   if (current_cpu == "arm" && !is_clang) {
     default_warning_flags += [ "-Wno-psabi" ]
   }

   if (is_android) {
     # Disable any additional warnings enabled by the Android build system but
     # which chromium does not build cleanly with (when treating warning as
     # errors).
     default_warning_flags += [
       "-Wno-extra",
       "-Wno-ignored-qualifiers",
       "-Wno-type-limits",
     ]
     default_warning_flags_cc += [
       # Disabling c++0x-compat should be handled in WebKit, but
       # this currently doesn't work because gcc_version is not set
       # correctly when building with the Android build system.
       # TODO(torne): Fix this in WebKit.
       "-Wno-error=c++0x-compat",

       # Other things unrelated to -Wextra:
       "-Wno-non-virtual-dtor",
       "-Wno-sign-promo",
     ]
   }

   if (gcc_version >= 48) {
     # Don't warn about the "typedef 'foo' locally defined but not used"
     # for gcc 4.8.
     # TODO: remove this flag once all builds work. See crbug.com/227506
     default_warning_flags += [ "-Wno-unused-local-typedefs" ]
   }
 }

 # chromium_code ---------------------------------------------------------------
 #
 # Toggles between higher and lower warnings for code that is (or isn't)
 # part of Chromium.

 config("chromium_code") {
   if (is_win) {
     # TODO(zra): Enable higher warning levels.
     # cflags = [ "/W4" ]  # Warning level 4.
     cflags = []
   } else {
     cflags = [
       "-Wall",
       "-Wextra",
       "-Werror",
     ]

     defines = []
     if (!using_sanitizer && (!is_linux || !is_clang)) {
       # _FORTIFY_SOURCE isn't really supported by Clang now, see
       # http://llvm.org/bugs/show_bug.cgi?id=16821.
       # It seems to work fine with Ubuntu 12 headers though, so use it in
       # official builds.
       #
       # Non-chromium code is not guaranteed to compile cleanly with
       # _FORTIFY_SOURCE. Also, fortified build may fail when optimizations are
       # disabled, so only do that for Release build.
       defines += [ "_FORTIFY_SOURCE=2" ]
     }
   }
   cflags += default_warning_flags
   cflags_cc = default_warning_flags_cc
 }
 config("no_chromium_code") {
   cflags = []
   cflags_cc = []
   defines = []

   if (is_win) {
     defines += [
       "_CRT_NONSTDC_NO_WARNINGS",
       "_CRT_NONSTDC_NO_DEPRECATE",
     ]
   }

   cflags += default_warning_flags
   cflags_cc += default_warning_flags_cc
 }

 # rtti ------------------------------------------------------------------------
 #
 # Allows turning Run-Time Type Identification on or off.

 config("rtti") {
   if (is_win) {
     cflags_cc = [ "/GR" ]
   }
 }
 config("no_rtti") {
   if (is_win) {
     cflags_cc = [ "/GR-" ]
   } else {
     rtti_flags = [ "-fno-rtti" ]
     cflags_cc = rtti_flags
     cflags_objcc = rtti_flags
   }
 }

 # Optimization -----------------------------------------------------------------
 #
 # Note that BUILDCONFIG.gn sets up a variable "default_optimization_config"
 # which it will assign to the config it implicitly applies to every target. If
 # you want to override the optimization level for your target, remove this
 # config (which will expand differently for debug or release builds), and then
 # add back the one you want to override it with:
 #
 #   configs -= default_optimization_config
 #   configs += [ ":optimize_max" ]

 # Shared settings.
 # IMPORTANT: On Windows "/O1" and "/O2" must go before the common flags.
 if (is_win) {
   common_optimize_on_cflags = [
     "/Ob2",  # Both explicit and auto inlining.
     "/Oy-",  # Disable omitting frame pointers, must be after /O2.
   ]
   if (!is_asan) {
     common_optimize_on_cflags += [
       # Put data in separate COMDATs. This allows the linker
       # to put bit-identical constants at the same address even if
       # they're unrelated constants, which saves binary size.
       # This optimization can't be used when ASan is enabled because
       # it is not compatible with the ASan ODR checker.
       "/Gw",
     ]
   }
   common_optimize_on_ldflags = [ "/OPT:REF" ]
 } else {
   common_optimize_on_cflags = [
     # Don't emit the GCC version ident directives, they just end up in the
     # .comment section taking up binary size.
     "-fno-ident",

     # Put data and code in their own sections, so that unused symbols
     # can be removed at link time with --gc-sections.
     "-fdata-sections",
     "-ffunction-sections",
   ]
   common_optimize_on_ldflags = []

   if (is_android) {
     common_optimize_on_ldflags += [
       # Warn in case of text relocations.
       "-Wl,--warn-shared-textrel",
     ]
   }

   if (is_mac) {
     # Mac dead code stripping requires symbols.
     common_optimize_on_ldflags += [ "-Wl,-dead_strip" ]
   } else {
     # Non-Mac Posix linker flags.
     common_optimize_on_ldflags += [
       # Specifically tell the linker to perform optimizations.
       # See http://lwn.net/Articles/192624/ .
       "-Wl,-O1",
       "-Wl,--gc-sections",
     ]

     if (!using_sanitizer) {
       # Functions interposed by the sanitizers can make ld think
       # that some libraries aren't needed when they actually are,
       # http://crbug.com/234010. As workaround, disable --as-needed.
       common_optimize_on_ldflags += [ "-Wl,--as-needed" ]
     }
   }
 }

 # Default "optimization on" config. On Windows, this favors size over speed.
 config("optimize") {
   if (is_win) {
     # Favor size over speed, /O1 must be before the common flags. The GYP
     # build also specifies /Os and /GF but these are implied by /O1.
     cflags = [ "/O2" ] + common_optimize_on_cflags + [ "/Oi" ]
   } else if (is_android) {
     cflags = [ "-Os" ] + common_optimize_on_cflags  # Favor size over speed.
   } else {
     cflags = [ "-O3" ] + common_optimize_on_cflags
   }
   ldflags = common_optimize_on_ldflags
 }

 # Turn off optimizations.
 config("no_optimize") {
   if (is_win) {
     # The only difference on windows is that the inlining is less aggressive.
     # (We accept the default level). Otherwise it is very slow.
     cflags = [
       "/O2",  # Do some optimizations.
       "/Oy-",  # Disable omitting frame pointers, must be after /O2.
     ]
   } else if (is_android) {
     # On Android we kind of optimize some things that don't affect debugging
     # much even when optimization is disabled to get the binary size down.
     cflags = [
       "-Os",
       "-fdata-sections",
       "-ffunction-sections",
     ]
     ldflags = common_optimize_on_ldflags
   } else {
     cflags = [
       "-O2",
       "-fdata-sections",
       "-ffunction-sections",
     ]
   }
 }

 # Symbols ----------------------------------------------------------------------

 config("symbols") {
   if (is_win) {
     import("//build/toolchain/goma.gni")
     if (use_goma) {
       cflags = [ "/Z7" ]  # No PDB file
     } else {
       cflags = [ "/Zi" ]  # Produce PDB file, no edit and continue.
     }
     ldflags = [ "/DEBUG" ]
   } else {
     cflags = [
       "-g3",
       "-ggdb3",
     ]
   }
 }
	# Copyright (c) 2013 The Chromium Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	import("//build/config/android/config.gni")
	if (current_cpu == "arm") {
	import("//build/config/arm.gni")
	}
	if (current_cpu == "mipsel" \|\| current_cpu == "mips64el") {
	import("//build/config/mips.gni")
	}
	if (is_posix) {
	import("//build/config/gcc/gcc_version.gni")
	}
	if (is_win) {
	import("//build/config/win/visual_studio_version.gni")
	}

	import("//build/toolchain/ccache.gni")

	# default_include_dirs ---------------------------------------------------------
	#
	# This is a separate config so that third_party code (which would not use the
	# source root and might have conflicting versions of some headers) can remove
	# this and specify their own include paths.
	config("default_include_dirs") {
	include_dirs = [
	"//",
	root_gen_dir,
	]
	}

	if (!is_win) {
	using_sanitizer = is_asan \|\| is_lsan \|\| is_tsan \|\| is_msan
	}

	# compiler ---------------------------------------------------------------------
	#
	# Base compiler configuration.
	#
	# See also "runtime_library" below for related stuff and a discussion about
	# where stuff should go. Put warning related stuff in the "warnings" config.

	config("compiler") {
	asmflags = []
	cflags = []
	cflags_c = []
	cflags_cc = []
	cflags_objcc = []
	ldflags = []
	defines = []

	# In general, Windows is totally different, but all the other builds share
	# some common GCC configuration. This section sets up Windows and the common
	# GCC flags, and then we handle the other non-Windows platforms specifically
	# below.
	if (is_win) {
	# Windows compiler flags setup.
	# -----------------------------
	cflags += [
	"/Gy", # Enable function-level linking.
	"/GS", # Enable buffer security checking.
	"/FS", # Preserve previous PDB behavior.
	]
	} else {
	# Common GCC compiler flags setup.
	# --------------------------------
	common_flags = [
	# Not exporting C++ inline functions can generally be applied anywhere
	# so we do so here. Normal function visibility is controlled by
	# //build/config/gcc:symbol_visibility_hidden.
	"-fvisibility-inlines-hidden",

	# We need the frame pointer for CPU and heap profiling.
	"-fno-omit-frame-pointer",
	]
	cflags_cc += common_flags
	cflags_objcc += common_flags

	# Linker warnings.
	if (current_cpu != "arm" && !is_mac) {
	# TODO(jochen): Enable this on chromeos on arm. http://crbug.com/356580
	ldflags += [ "-Wl,--fatal-warnings" ]
	}

	# Common options for AddressSanitizer, LeakSanitizer, ThreadSanitizer and
	# MemorySanitizer
	if (using_sanitizer) {
	cflags += [ "-gline-tables-only" ]
	}
	if (is_asan) {
	cflags += [ "-fsanitize=address" ]
	ldflags += [ "-fsanitize=address" ]
	}
	if (is_lsan) {
	cflags += [ "-fsanitize=leak" ]
	ldflags += [ "-fsanitize=leak" ]
	}
	if (is_tsan) {
	cflags += [ "-fsanitize=thread" ]
	ldflags += [ "-fsanitize=thread" ]
	}
	if (is_msan) {
	cflags += [ "-fsanitize=memory" ]
	ldflags += [ "-fsanitize=memory" ]
	}
	}

	if (is_clang && is_debug) {
	# Allow comparing the address of references and 'this' against 0
	# in debug builds. Technically, these can never be null in
	# well-defined C/C++ and Clang can optimize such checks away in
	# release builds, but they may be used in asserts in debug builds.
	extra_flags = [
	"-Wno-undefined-bool-conversion",
	"-Wno-tautological-undefined-compare",
	]
	cflags_cc += extra_flags
	cflags_objcc += extra_flags
	}

	if (is_clang) {
	# This is here so that all files get recompiled after a clang roll and
	# when turning clang on or off. (defines are passed via the command line,
	# and build system rebuild things when their commandline changes). Nothing
	# should ever read this define.
	defines +=
	[ "CR_CLANG_REVISION=" + exec_script("//tools/clang/scripts/update.py",
	[ "--print-revision" ],
	"trim string") ]
	}

	# Mac-specific compiler flags setup.
	# ----------------------------------
	if (is_mac) {
	# These flags are shared between the C compiler and linker.
	common_mac_flags = [ "-fno-exceptions" ]

	# CPU architecture.
	if (current_cpu == "x64") {
	common_mac_flags += [
	"-arch",
	"x86_64",
	]
	} else if (current_cpu == "x86") {
	common_mac_flags += [
	"-arch",
	"i386",
	]
	} else if (current_cpu == "arm") {
	common_mac_flags += [
	"-arch",
	"armv7",
	]
	} else if (current_cpu == "arm64") {
	common_mac_flags += [
	"-arch",
	"arm64",
	]
	}

	cflags += common_mac_flags

	# Without this, the constructors and destructors of a C++ object inside
	# an Objective C struct won't be called, which is very bad.
	cflags_objcc += [ "-fobjc-call-cxx-cdtors" ]

	cflags_c += [ "-std=c99" ]

	ldflags += common_mac_flags
	} else if (is_posix) {
	# CPU architecture. We may or may not be doing a cross compile now, so for
	# simplicity we always explicitly set the architecture.
	if (current_cpu == "x64") {
	cflags += [
	"-m64",
	"-march=x86-64",
	"-msse2",
	]
	ldflags += [ "-m64" ]
	} else if (current_cpu == "x86") {
	cflags += [
	"-m32",
	"-msse2",
	"-mfpmath=sse",
	]
	ldflags += [ "-m32" ]
	if (is_clang) {
	cflags += [
	# Else building libyuv gives clang's register allocator issues,
	# see llvm.org/PR15798 / crbug.com/233709
	"-mno-omit-leaf-frame-pointer",

	# Align the stack on 16-byte boundaries, http://crbug.com/418554.
	"-mstack-alignment=16",
	"-mstackrealign",
	]
	}
	} else if (current_cpu == "arm") {
	cflags += [
	"-march=$arm_arch",
	"-mfloat-abi=$arm_float_abi",
	]
	if (arm_tune != "") {
	cflags += [ "-mtune=$arm_tune" ]
	}
	if (arm_use_thumb) {
	cflags += [ "-mthumb" ]
	if (is_android && !is_clang) { # Clang doesn't support this option.
	cflags += [ "-mthumb-interwork" ]
	}
	}
	if (!is_clang) {
	# Clang doesn't support these flags.
	cflags += [
	# The tree-sra optimization (scalar replacement for
	# aggregates enabling subsequent optimizations) leads to
	# invalid code generation when using the Android NDK's
	# compiler (r5-r7). This can be verified using
	# webkit_unit_tests' WTF.Checked_int8_t test.
	"-fno-tree-sra",

	# The following option is disabled to improve binary
	# size and performance in gcc 4.9.
	"-fno-caller-saves",
	]
	}
	} else if (current_cpu == "mipsel") {
	# We have to explicitly request exceptions to get good heap profiles from
	# tcmalloc.
	if (is_debug \|\| is_release) {
	cflags += [
	"-fexceptions",
	"-funwind-tables",
	]
	}

	if (mips_arch_variant == "r6") {
	cflags += [
	"-mips32r6",
	"-Wa,-mips32r6",
	]
	if (is_android) {
	ldflags += [
	"-mips32r6",
	"-Wl,-melf32ltsmip",
	]
	}
	} else if (mips_arch_variant == "r2") {
	cflags += [
	"-mips32r2",
	"-Wa,-mips32r2",
	]
	if (mips_float_abi == "hard" && mips_fpu_mode != "") {
	cflags += [ "-m$mips_fpu_mode" ]
	}
	} else if (mips_arch_variant == "r1") {
	cflags += [
	"-mips32",
	"-Wa,-mips32",
	]
	}

	if (mips_dsp_rev == 1) {
	cflags += [ "-mdsp" ]
	} else if (mips_dsp_rev == 2) {
	cflags += [ "-mdspr2" ]
	}

	cflags += [ "-m${mips_float_abi}-float" ]
	} else if (current_cpu == "mips64el") {
	if (mips_arch_variant == "r6") {
	cflags += [
	"-mips64r6",
	"-Wa,-mips64r6",
	]
	ldflags += [ "-mips64r6" ]
	} else if (mips_arch_variant == "r2") {
	cflags += [
	"-mips64r2",
	"-Wa,-mips64r2",
	]
	ldflags += [ "-mips64r2" ]
	}
	}

	if (current_cpu != "mipsel") {
	cflags += [ "-fno-exceptions" ]
	}
	}

	# Linux/Android common flags setup.
	# ---------------------------------
	if (is_linux \|\| is_android) {
	cflags += [ "-fPIC" ]

	ldflags += [
	"-fPIC",
	"-Wl,-z,noexecstack",
	"-Wl,-z,now",
	"-Wl,-z,relro",
	]
	}

	# Linux-specific compiler flags setup.
	# ------------------------------------
	if (is_linux) {
	cflags += [ "-pthread" ]
	ldflags += [ "-pthread" ]
	}

	# Clang-specific compiler flags setup.
	# ------------------------------------
	if (is_clang) {
	cflags += [ "-fcolor-diagnostics" ]
	}

	# Android-specific flags setup.
	# -----------------------------
	if (is_android) {
	cflags += [
	"-ffunction-sections",
	"-funwind-tables",
	"-fno-short-enums",
	]
	if (!is_clang) {
	# Clang doesn't support these flags.
	cflags += [ "-finline-limit=64" ]
	}
	if (is_asan) {
	# Android build relies on -Wl,--gc-sections removing unreachable code.
	# ASan instrumentation for globals inhibits this and results in a library
	# with unresolvable relocations.
	# TODO(eugenis): find a way to reenable this.
	cflags += [ "-mllvm -asan-globals=0" ]
	}

	defines += [ "ANDROID" ]

	# The NDK has these things, but doesn't define the constants
	# to say that it does. Define them here instead.
	defines += [ "HAVE_SYS_UIO_H" ]

	# Use gold for Android for most CPU architectures.
	if (current_cpu == "x86" \|\| current_cpu == "x64" \|\| current_cpu == "arm") {
	ldflags += [ "-fuse-ld=gold" ]
	if (is_clang) {
	# Let clang find the ld.gold in the NDK.
	ldflags += [ "--gcc-toolchain=" +
	rebase_path(android_toolchain_root, root_build_dir) ]
	}
	}

	ldflags += [
	# Don't allow visible symbols from libgcc or libc++ to be
	# re-exported.
	"-Wl,--exclude-libs=libgcc.a",
	"-Wl,--exclude-libs=libc++_static.a",
	]
	if (current_cpu == "arm") {
	ldflags += [
	# Enable identical code folding to reduce size.
	"-Wl,--icf=safe",
	]
	}

	if (is_clang) {
	if (current_cpu == "arm") {
	cflags += [ "--target=arm-linux-androideabi" ]
	ldflags += [ "--target=arm-linux-androideabi" ]
	} else if (current_cpu == "x86") {
	cflags += [ "--target=x86-linux-androideabi" ]
	ldflags += [ "--target=x86-linux-androideabi" ]
	}
	}
	}

	# Assign any flags set for the C compiler to asmflags so that they are sent
	# to the assembler. The Windows assembler takes different types of flags
	# so only do so for posix platforms.
	if (is_posix) {
	asmflags += cflags
	asmflags += cflags_c
	}
	}

	config("compiler_arm_fpu") {
	if (current_cpu == "arm") {
	cflags = [ "-mfpu=$arm_fpu" ]
	}
	}

	# runtime_library -------------------------------------------------------------
	#
	# Sets the runtime library and associated options.
	#
	# How do you determine what should go in here vs. "compiler" above? Consider if
	# a target might choose to use a different runtime library (ignore for a moment
	# if this is possible or reasonable on your system). If such a target would
	# want to change or remove your option, put it in the runtime_library config.
	# If a target wants the option regardless, put it in the compiler config.

	config("runtime_library") {
	cflags = []
	defines = []
	ldflags = []
	lib_dirs = []
	libs = []

	# Static CRT.
	if (is_win) {
	if (is_debug) {
	cflags += [ "/MTd" ]
	} else {
	cflags += [ "/MT" ]
	}
	defines += [
	"__STD_C",
	"_CRT_RAND_S",
	"_CRT_SECURE_NO_DEPRECATE",
	"_HAS_EXCEPTIONS=0",
	"_SCL_SECURE_NO_DEPRECATE",
	]
	}

	# Android standard library setup.
	if (is_android) {
	if (is_clang) {
	# Work around incompatibilities between bionic and clang headers.
	defines += [
	"__compiler_offsetof=__builtin_offsetof",
	"nan=__builtin_nan",
	]
	}

	defines += [ "__GNU_SOURCE=1" ] # Necessary for clone().

	# TODO(jdduke) Re-enable on mips after resolving linking
	# issues with libc++ (crbug.com/456380).
	if (current_cpu != "mipsel" && current_cpu != "mips64el") {
	ldflags += [ "-Wl,--warn-shared-textrel" ]
	}
	ldflags += [ "-nostdlib" ]

	# NOTE: The libc++ header include paths below are specified in cflags
	# rather than include_dirs because they need to come after include_dirs.
	# Think of them like system headers, but don't use '-isystem' because the
	# arm-linux-androideabi-4.4.3 toolchain (circa Gingerbread) will exhibit
	# strange errors. The include ordering here is important; change with
	# caution.
	cflags += [
	"-isystem" +
	rebase_path("$android_libcpp_root/libcxx/include", root_build_dir),
	"-isystem" + rebase_path(
	"$android_ndk_root/sources/cxx-stl/llvm-libc++abi/libcxxabi/include",
	root_build_dir),
	"-isystem" +
	rebase_path("$android_ndk_root/sources/android/support/include",
	root_build_dir),
	]

	lib_dirs += [ "$android_libcpp_root/libs/$android_app_abi" ]
	libs += [ "$android_libcpp_library" ]

	if (current_cpu == "mipsel") {
	libs += [
	# ld linker is used for mips Android, and ld does not accept library
	# absolute path prefixed by "-l"; Since libgcc does not exist in mips
	# sysroot the proper library will be linked.
	# TODO(gordanac): Remove once gold linker is used for mips Android.
	"gcc",
	]
	} else {
	libs += [
	# Manually link the libgcc.a that the cross compiler uses. This is
	# absolute because the linker will look inside the sysroot if it's not.
	rebase_path(android_libgcc_file),
	]
	}

	libs += [
	"c",
	"dl",
	"m",
	]

	# Clang with libc++ does not require an explicit atomic library reference.
	if (!is_clang) {
	libs += [ "atomic" ]
	}
	}
	}

	# default_warning_flags collects all warning flags that are used by default.
	# This is in a variable instead of a config so that it can be used in
	# both chromium_code and no_chromium_code. This way these flags are guaranteed
	# to appear on the compile command line after -Wall.

	default_warning_flags = []
	default_warning_flags_cc = []
	if (is_win) {
	if (current_cpu != "x86") {
	default_warning_flags += [ "/WX" ] # Treat warnings as errors.
	}

	default_warning_flags += [
	# Permanent.
	"/wd4091", # typedef warning from dbghelp.h

	# Investigate.
	"/wd4312", # int to pointer of greater size conversion.
	"/wd4838", # Narrowing conversion required.
	"/wd4172", # Returning address of local.
	"/wd4005", # Redefinition of macros for PRId64 etc.
	"/wd4311", # Pointer truncation from PVOID to DWORD.
	"/wd4477", # Format string requires wchar_t*
	]
	} else {
	# Common GCC warning setup.
	default_warning_flags += [
	# Enables.
	"-Wendif-labels", # Weird old-style text after an #endif.

	# Disables.
	"-Wno-missing-field-initializers", # "struct foo f = {0};"
	"-Wno-unused-parameter", # Unused function parameters.
	]

	if (is_mac) {
	# TODO(abarth): Re-enable once https://github.com/domokit/mojo/issues/728
	# is fixed.
	# default_warning_flags += [ "-Wnewline-eof" ]

	# When compiling Objective-C, warns if a method is used whose
	# availability is newer than the deployment target. This is not
	# required when compiling Chrome for iOS.
	default_warning_flags += [ "-Wpartial-availability" ]
	}

	# Suppress warnings about ABI changes on ARM (Clang doesn't give this
	# warning).
	if (current_cpu == "arm" && !is_clang) {
	default_warning_flags += [ "-Wno-psabi" ]
	}

	if (is_android) {
	# Disable any additional warnings enabled by the Android build system but
	# which chromium does not build cleanly with (when treating warning as
	# errors).
	default_warning_flags += [
	"-Wno-extra",
	"-Wno-ignored-qualifiers",
	"-Wno-type-limits",
	]
	default_warning_flags_cc += [
	# Disabling c++0x-compat should be handled in WebKit, but
	# this currently doesn't work because gcc_version is not set
	# correctly when building with the Android build system.
	# TODO(torne): Fix this in WebKit.
	"-Wno-error=c++0x-compat",

	# Other things unrelated to -Wextra:
	"-Wno-non-virtual-dtor",
	"-Wno-sign-promo",
	]
	}

	if (gcc_version >= 48) {
	# Don't warn about the "typedef 'foo' locally defined but not used"
	# for gcc 4.8.
	# TODO: remove this flag once all builds work. See crbug.com/227506
	default_warning_flags += [ "-Wno-unused-local-typedefs" ]
	}
	}

	# chromium_code ---------------------------------------------------------------
	#
	# Toggles between higher and lower warnings for code that is (or isn't)
	# part of Chromium.

	config("chromium_code") {
	if (is_win) {
	# TODO(zra): Enable higher warning levels.
	# cflags = [ "/W4" ] # Warning level 4.
	cflags = []
	} else {
	cflags = [
	"-Wall",
	"-Wextra",
	"-Werror",
	]

	defines = []
	if (!using_sanitizer && (!is_linux \|\| !is_clang)) {
	# _FORTIFY_SOURCE isn't really supported by Clang now, see
	# http://llvm.org/bugs/show_bug.cgi?id=16821.
	# It seems to work fine with Ubuntu 12 headers though, so use it in
	# official builds.
	#
	# Non-chromium code is not guaranteed to compile cleanly with
	# _FORTIFY_SOURCE. Also, fortified build may fail when optimizations are
	# disabled, so only do that for Release build.
	defines += [ "_FORTIFY_SOURCE=2" ]
	}
	}
	cflags += default_warning_flags
	cflags_cc = default_warning_flags_cc
	}
	config("no_chromium_code") {
	cflags = []
	cflags_cc = []
	defines = []

	if (is_win) {
	defines += [
	"_CRT_NONSTDC_NO_WARNINGS",
	"_CRT_NONSTDC_NO_DEPRECATE",
	]
	}

	cflags += default_warning_flags
	cflags_cc += default_warning_flags_cc
	}

	# rtti ------------------------------------------------------------------------
	#
	# Allows turning Run-Time Type Identification on or off.

	config("rtti") {
	if (is_win) {
	cflags_cc = [ "/GR" ]
	}
	}
	config("no_rtti") {
	if (is_win) {
	cflags_cc = [ "/GR-" ]
	} else {
	rtti_flags = [ "-fno-rtti" ]
	cflags_cc = rtti_flags
	cflags_objcc = rtti_flags
	}
	}

	# Optimization -----------------------------------------------------------------
	#
	# Note that BUILDCONFIG.gn sets up a variable "default_optimization_config"
	# which it will assign to the config it implicitly applies to every target. If
	# you want to override the optimization level for your target, remove this
	# config (which will expand differently for debug or release builds), and then
	# add back the one you want to override it with:
	#
	# configs -= default_optimization_config
	# configs += [ ":optimize_max" ]

	# Shared settings.
	# IMPORTANT: On Windows "/O1" and "/O2" must go before the common flags.
	if (is_win) {
	common_optimize_on_cflags = [
	"/Ob2", # Both explicit and auto inlining.
	"/Oy-", # Disable omitting frame pointers, must be after /O2.
	]
	if (!is_asan) {
	common_optimize_on_cflags += [
	# Put data in separate COMDATs. This allows the linker
	# to put bit-identical constants at the same address even if
	# they're unrelated constants, which saves binary size.
	# This optimization can't be used when ASan is enabled because
	# it is not compatible with the ASan ODR checker.
	"/Gw",
	]
	}
	common_optimize_on_ldflags = [ "/OPT:REF" ]
	} else {
	common_optimize_on_cflags = [
	# Don't emit the GCC version ident directives, they just end up in the
	# .comment section taking up binary size.
	"-fno-ident",

	# Put data and code in their own sections, so that unused symbols
	# can be removed at link time with --gc-sections.
	"-fdata-sections",
	"-ffunction-sections",
	]
	common_optimize_on_ldflags = []

	if (is_android) {
	common_optimize_on_ldflags += [
	# Warn in case of text relocations.
	"-Wl,--warn-shared-textrel",
	]
	}

	if (is_mac) {
	# Mac dead code stripping requires symbols.
	common_optimize_on_ldflags += [ "-Wl,-dead_strip" ]
	} else {
	# Non-Mac Posix linker flags.
	common_optimize_on_ldflags += [
	# Specifically tell the linker to perform optimizations.
	# See http://lwn.net/Articles/192624/ .
	"-Wl,-O1",
	"-Wl,--gc-sections",
	]

	if (!using_sanitizer) {
	# Functions interposed by the sanitizers can make ld think
	# that some libraries aren't needed when they actually are,
	# http://crbug.com/234010. As workaround, disable --as-needed.
	common_optimize_on_ldflags += [ "-Wl,--as-needed" ]
	}
	}
	}

	# Default "optimization on" config. On Windows, this favors size over speed.
	config("optimize") {
	if (is_win) {
	# Favor size over speed, /O1 must be before the common flags. The GYP
	# build also specifies /Os and /GF but these are implied by /O1.
	cflags = [ "/O2" ] + common_optimize_on_cflags + [ "/Oi" ]
	} else if (is_android) {
	cflags = [ "-Os" ] + common_optimize_on_cflags # Favor size over speed.
	} else {
	cflags = [ "-O3" ] + common_optimize_on_cflags
	}
	ldflags = common_optimize_on_ldflags
	}

	# Turn off optimizations.
	config("no_optimize") {
	if (is_win) {
	# The only difference on windows is that the inlining is less aggressive.
	# (We accept the default level). Otherwise it is very slow.
	cflags = [
	"/O2", # Do some optimizations.
	"/Oy-", # Disable omitting frame pointers, must be after /O2.
	]
	} else if (is_android) {
	# On Android we kind of optimize some things that don't affect debugging
	# much even when optimization is disabled to get the binary size down.
	cflags = [
	"-Os",
	"-fdata-sections",
	"-ffunction-sections",
	]
	ldflags = common_optimize_on_ldflags
	} else {
	cflags = [
	"-O2",
	"-fdata-sections",
	"-ffunction-sections",
	]
	}
	}

	# Symbols ----------------------------------------------------------------------

	config("symbols") {
	if (is_win) {
	import("//build/toolchain/goma.gni")
	if (use_goma) {
	cflags = [ "/Z7" ] # No PDB file
	} else {
	cflags = [ "/Zi" ] # Produce PDB file, no edit and continue.
	}
	ldflags = [ "/DEBUG" ]
	} else {
	cflags = [
	"-g3",
	"-ggdb3",
	]
	}
	}