skia2/gn/gn_to_bp.py

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#!/usr/bin/env python
#
# Copyright 2016 Google Inc.
#
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
# Generate Android.bp for Skia from GN configuration.
import json
import os
import pprint
import string
import subprocess
import tempfile
tool_cflags = [
'-Wno-unused-parameter',
]
# It's easier to maintain one list instead of separate lists.
tool_shared_libs = [
'liblog',
'libGLESv2',
'libEGL',
'libvulkan',
'libz',
'libjpeg',
'libpng',
'libicuuc',
'libicui18n',
'libexpat',
'libft2',
'libdng_sdk',
'libpiex',
'libcutils',
]
# The ordering here is important: libsfntly needs to come after libskia.
tool_static_libs = [
'libarect',
'libjsoncpp',
'libskia',
'libsfntly',
'libwebp-decode',
'libwebp-encode',
]
# First we start off with a template for Android.bp,
# with holes for source lists and include directories.
bp = string.Template('''// This file is autogenerated by gn_to_bp.py.
cc_library {
name: "libskia",
cflags: [
"-fexceptions",
"-Wno-unused-parameter",
"-U_FORTIFY_SOURCE",
"-D_FORTIFY_SOURCE=1",
"-DSKIA_IMPLEMENTATION=1",
"-DATRACE_TAG=ATRACE_TAG_VIEW",
],
export_include_dirs: [
$export_includes
],
local_include_dirs: [
$local_includes
],
srcs: [
$srcs
],
arch: {
arm: {
srcs: [
$arm_srcs
],
armv7_a_neon: {
srcs: [
$arm_neon_srcs
],
},
},
arm64: {
srcs: [
$arm64_srcs
],
},
mips: {
srcs: [
$none_srcs
],
},
mips64: {
srcs: [
$none_srcs
],
},
x86: {
srcs: [
$x86_srcs
],
},
x86_64: {
srcs: [
$x86_srcs
],
},
},
shared_libs: [
"libEGL",
"libGLESv2",
"libdng_sdk",
"libexpat",
"libft2",
"libicui18n",
"libicuuc",
"libjpeg",
"liblog",
"libpiex",
"libpng",
"libvulkan",
"libz",
"libcutils",
],
static_libs: [
"libarect",
"libsfntly",
"libwebp-decode",
"libwebp-encode",
],
}
cc_test {
name: "skia_dm",
cflags: [
$tool_cflags
],
local_include_dirs: [
$dm_includes
],
srcs: [
$dm_srcs
],
shared_libs: [
$tool_shared_libs
],
static_libs: [
$tool_static_libs
],
}
cc_test {
name: "skia_nanobench",
cflags: [
$tool_cflags
],
local_include_dirs: [
$nanobench_includes
],
srcs: [
$nanobench_srcs
],
shared_libs: [
$tool_shared_libs
],
static_libs: [
$tool_static_libs
],
}''')
# We'll run GN to get the main source lists and include directories for Skia.
gn_args = {
Strengthen is_official_build, update docs. This makes is_official_build turn off all development targets and features in Skia, including building third-party dependencies from source. This will intentionally break some external users, who will find themselves no longer able to find third-party headers or link against third-party libraries. These users have been building with our testing third-party dependencies unknowingly. They'll need to either explicitly turn back on building each dependency from source (skia_use_system_foo=false) or disable that dependency entirely (skia_use_foo=false). is_skia_standalone is now basically !is_official_build, so I've propagated that through, removing is_skia_standalone. In a few places we were using it as a stand-in for defined(ndk), so I've just written defined(ndk) there. Duh. gn_to_bp: is_offical_build's new strength also makes gn_to_bp.py simpler to write. In spirit, Android builds are official Skia builds that also build DM and nanobench. It seems that SkJumper (src/jumper/*) is (unintentionally) enabled on Android. Switching to an is_official_build would have disabled that. But as that accidental launch seems to have gone fine, I've kept it explicitly enabled. In the end, no changes to Android.bp or its SkUserConfig.h. The -Mini builder no longer needs to explicitly disable tools. CQ_INCLUDE_TRYBOTS=skia.primary:Build-Ubuntu-Clang-x86_64-Release-Mini Change-Id: Id06e53268a5caf55c6046ada354a0863c3031c73 Reviewed-on: https://skia-review.googlesource.com/9190 Reviewed-by: Leon Scroggins <scroggo@google.com> Reviewed-by: Brian Salomon <bsalomon@google.com> Commit-Queue: Mike Klein <mtklein@chromium.org>
2017-03-03 14:21:30 +00:00
'is_official_build': 'true',
'skia_enable_tools': 'true',
'skia_use_vulkan': 'true',
'target_cpu': '"none"',
'target_os': '"android"',
}
gn_args = ' '.join(sorted('%s=%s' % (k,v) for (k,v) in gn_args.iteritems()))
tmp = tempfile.mkdtemp()
subprocess.check_call(['gn', 'gen', tmp, '--args=%s' % gn_args, '--ide=json'])
js = json.load(open(os.path.join(tmp, 'project.json')))
def strip_slashes(lst):
return {str(p.lstrip('/')) for p in lst}
srcs = strip_slashes(js['targets']['//:skia']['sources'])
local_includes = strip_slashes(js['targets']['//:skia']['include_dirs'])
export_includes = strip_slashes(js['targets']['//:public']['include_dirs'])
dm_srcs = strip_slashes(js['targets']['//:dm']['sources'])
dm_includes = strip_slashes(js['targets']['//:dm']['include_dirs'])
nanobench_target = js['targets']['//:nanobench']
nanobench_srcs = strip_slashes(nanobench_target['sources'])
nanobench_includes = strip_slashes(nanobench_target['include_dirs'])
def GrabDependentSrcs(name, srcs_to_extend, exclude):
# Grab the sources from other targets that $name depends on (e.g. optional
# Skia components, gms, tests, etc).
for dep in js['targets'][name]['deps']:
if 'third_party' in dep:
continue # We've handled all third-party DEPS as static or shared_libs.
if 'none' in dep:
continue # We'll handle all cpu-specific sources manually later.
if exclude and exclude in dep:
continue
srcs_to_extend.update(strip_slashes(js['targets'][dep].get('sources', [])))
GrabDependentSrcs(dep, srcs_to_extend, exclude)
GrabDependentSrcs('//:skia', srcs, None)
GrabDependentSrcs('//:dm', dm_srcs, 'skia')
GrabDependentSrcs('//:nanobench', nanobench_srcs, 'skia')
# No need to list headers.
srcs = {s for s in srcs if not s.endswith('.h')}
dm_srcs = {s for s in dm_srcs if not s.endswith('.h')}
nanobench_srcs = {s for s in nanobench_srcs if not s.endswith('.h')}
# Most defines go into SkUserConfig.h, where they're seen by Skia and its users.
# Start with the defines :skia uses, minus a couple. We'll add more in a bit.
defines = [str(d) for d in js['targets']['//:skia']['defines']]
Strengthen is_official_build, update docs. This makes is_official_build turn off all development targets and features in Skia, including building third-party dependencies from source. This will intentionally break some external users, who will find themselves no longer able to find third-party headers or link against third-party libraries. These users have been building with our testing third-party dependencies unknowingly. They'll need to either explicitly turn back on building each dependency from source (skia_use_system_foo=false) or disable that dependency entirely (skia_use_foo=false). is_skia_standalone is now basically !is_official_build, so I've propagated that through, removing is_skia_standalone. In a few places we were using it as a stand-in for defined(ndk), so I've just written defined(ndk) there. Duh. gn_to_bp: is_offical_build's new strength also makes gn_to_bp.py simpler to write. In spirit, Android builds are official Skia builds that also build DM and nanobench. It seems that SkJumper (src/jumper/*) is (unintentionally) enabled on Android. Switching to an is_official_build would have disabled that. But as that accidental launch seems to have gone fine, I've kept it explicitly enabled. In the end, no changes to Android.bp or its SkUserConfig.h. The -Mini builder no longer needs to explicitly disable tools. CQ_INCLUDE_TRYBOTS=skia.primary:Build-Ubuntu-Clang-x86_64-Release-Mini Change-Id: Id06e53268a5caf55c6046ada354a0863c3031c73 Reviewed-on: https://skia-review.googlesource.com/9190 Reviewed-by: Leon Scroggins <scroggo@google.com> Reviewed-by: Brian Salomon <bsalomon@google.com> Commit-Queue: Mike Klein <mtklein@chromium.org>
2017-03-03 14:21:30 +00:00
defines.remove('NDEBUG') # Let the Android build control this.
defines.remove('SKIA_IMPLEMENTATION=1') # Only libskia should have this define.
# For architecture specific files, it's easier to just read the same source
# that GN does (opts.gni) rather than re-run GN once for each architecture.
# This .gni file we want to read is close enough to Python syntax
# that we can use execfile() if we supply definitions for GN builtins.
# While we're at it, grab defines specific to Android Framework the same way.
def get_path_info(path, kind):
assert kind == "abspath"
# While we want absolute paths in GN, relative paths work best here.
return path
builtins = { 'get_path_info': get_path_info }
defs = {}
here = os.path.dirname(__file__)
execfile(os.path.join(here, 'opts.gni'), builtins, defs)
execfile(os.path.join(here, 'android_framework_defines.gni'), builtins, defs)
# This should finish off the defines.
defines += defs['android_framework_defines']
defines.extend([
'GR_GL_CUSTOM_SETUP_HEADER "gl/GrGLConfig_chrome.h"',
'SKIA_DLL',
'SK_BUILD_FOR_ANDROID_FRAMEWORK',
'SK_DEFAULT_FONT_CACHE_LIMIT (768 * 1024)',
'SK_DEFAULT_GLOBAL_DISCARDABLE_MEMORY_POOL_SIZE (512 * 1024)',
'SK_IGNORE_ETC1_SUPPORT',
'SK_USE_FREETYPE_EMBOLDEN',
])
# TODO: move these all to android_framework_defines.gni?
# Turn paths from opts.gni into paths relative to external/skia.
def scrub(lst):
# Perform any string substitutions.
for var in defs:
if type(defs[var]) is str:
lst = [ p.replace('$'+var, defs[var]) for p in lst ]
# Relativize paths to top-level skia/ directory.
return [os.path.relpath(p, '..') for p in lst]
# Turn a list of strings into the style bpfmt outputs.
def bpfmt(indent, lst, sort=True):
if sort:
lst = sorted(lst)
return ('\n' + ' '*indent).join('"%s",' % v for v in lst)
# OK! We have everything to fill in Android.bp...
with open('Android.bp', 'w') as f:
print >>f, bp.substitute({
'export_includes': bpfmt(8, export_includes),
'local_includes': bpfmt(8, local_includes),
'srcs': bpfmt(8, srcs),
'arm_srcs': bpfmt(16, scrub(defs['armv7'])),
'arm_neon_srcs': bpfmt(20, scrub(defs['neon'])),
'arm64_srcs': bpfmt(16, scrub(defs['arm64'] +
defs['crc32'])),
'none_srcs': bpfmt(16, scrub(defs['none'])),
'x86_srcs': bpfmt(16, scrub(defs['sse2'] +
defs['ssse3'] +
defs['sse41'] +
defs['sse42'] +
defs['avx' ] +
defs['hsw' ])),
'tool_cflags' : bpfmt(8, tool_cflags),
'tool_shared_libs' : bpfmt(8, tool_shared_libs),
'tool_static_libs' : bpfmt(8, tool_static_libs, False),
'dm_includes' : bpfmt(8, dm_includes),
'dm_srcs' : bpfmt(8, dm_srcs),
'nanobench_includes' : bpfmt(8, nanobench_includes),
'nanobench_srcs' : bpfmt(8, nanobench_srcs),
})
#... and all the #defines we want to put in SkUserConfig.h.
with open('include/config/SkUserConfig.h', 'w') as f:
print >>f, '// This file is autogenerated by gn_to_bp.py.'
print >>f, '#ifndef SkUserConfig_DEFINED'
print >>f, '#define SkUserConfig_DEFINED'
for define in sorted(defines):
print >>f, ' #define', define.replace('=', ' ')
print >>f, '#endif//SkUserConfig_DEFINED'