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dupeguru/cocoa/wscript
2013-12-07 17:23:18 -05:00

79 lines
3.8 KiB
Python

#!/usr/bin/env python
import sys
import os
import os.path as op
top = '.'
out = 'build'
def options(opt):
opt.load('compiler_c python')
opt.add_option('--edition', default='se', help="dupeGuru edition to build (se, me pe)")
def configure(conf):
if conf.options.edition not in ('se', 'me', 'pe'):
conf.options.edition = 'se'
print("Building dupeGuru {}".format(conf.options.edition.upper()))
conf.env.DGEDITION = conf.options.edition
# We use clang to compile our app
conf.env.CC = 'clang'
# WAF has a "pyembed" feature allowing us to automatically find Python and compile by linking
# to it. The problem is that because we made a copy of the Python library to mangle with its
# "install name", we don't actually want to link to our installed python, but to our mangled
# Python. The line below tells the "pyembed" WAF feature to look in ../build for Python.
conf.env.LIBPATH_PYEMBED = op.abspath('../build')
# I did a lot of fiddling-around, but I didn't find how to tell WAF the Python library name
# to look for without making the whole compilation process fail, so I just create a symlink
# with the name WAF is looking for.
versioned_dylib_path = '../build/libpython{}.dylib'.format(sys.version[:3])
if not op.exists(versioned_dylib_path):
os.symlink('../build/Python', versioned_dylib_path)
# The rest is standard WAF code that you can find the the python and macapp demos.
conf.load('compiler_c python')
conf.check_python_version((3,3,0))
conf.check_python_headers()
conf.env.FRAMEWORK_COCOA = 'Cocoa'
conf.env.ARCH_COCOA = ['x86_64']
# Add cocoalib dir to the framework search path so we can find Sparkle.
conf.env.CFLAGS = ['-F'+op.abspath('../cocoalib')]
conf.env.LINKFLAGS = ['-F'+op.abspath('../cocoalib')]
def build(ctx):
# What do we compile?
cocoalib_node = ctx.srcnode.find_dir('..').find_dir('cocoalib')
cocoalib_folders = ['controllers', 'views']
cocoalib_includes = [cocoalib_node] + [cocoalib_node.find_dir(folder) for folder in cocoalib_folders]
cocoalib_uses = ['NSEventAdditions', 'Dialogs', 'HSAboutBox', 'Utils',
'HSPyUtil', 'ProgressController', 'HSRecentFiles', 'HSQuicklook', 'ValueTransformers',
'NSImageAdditions', 'NSNotificationAdditions',
'views/HSTableView', 'views/HSOutlineView', 'views/NSIndexPathAdditions',
'views/NSTableViewAdditions',
'controllers/HSColumns', 'controllers/HSGUIController', 'controllers/HSTable',
'controllers/HSOutline', 'controllers/HSPopUpList', 'controllers/HSSelectableList',
'controllers/HSTextField', 'controllers/HSProgressWindow']
cocoalib_src = [cocoalib_node.find_node(usename + '.m') for usename in cocoalib_uses] + cocoalib_node.ant_glob('autogen/*.m')
project_folders = ['autogen', 'base', ctx.env.DGEDITION]
project_src = sum([ctx.srcnode.ant_glob('%s/*.m' % folder) for folder in project_folders], [])
# Compile
ctx.program(
# "pyembed" takes care of the include and linking stuff to compile an app that embed Python.
features = 'c cprogram pyembed',
target = ctx.bldnode.make_node("dupeGuru"),
source = cocoalib_src + project_src,
includes = project_folders + cocoalib_includes,
use = 'COCOA',
# Because our python lib's install name is "@rpath/Python", we need to set the executable's
# rpath. Fortunately, WAF supports it and we just need to supply the "rpath" argument.
rpath = '@executable_path/../Frameworks',
framework = ['Sparkle', 'Quartz'],
)
from waflib import TaskGen
@TaskGen.extension('.m')
def m_hook(self, node):
"""Alias .m files to be compiled the same as .c files, gcc will do the right thing."""
return self.create_compiled_task('c', node)