zdoom-macos-deps/aedi/target/base.py

#
#    Helper module to build macOS version of various source ports
#    Copyright (C) 2020-2021 Alexey Lysiuk
#
#    This program is free software: you can redistribute it and/or modify
#    it under the terms of the GNU General Public License as published by
#    the Free Software Foundation, either version 3 of the License, or
#    (at your option) any later version.
#
#    This program is distributed in the hope that it will be useful,
#    but WITHOUT ANY WARRANTY; without even the implied warranty of
#    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
#    GNU General Public License for more details.
#
#    You should have received a copy of the GNU General Public License
#    along with this program.  If not, see <http://www.gnu.org/licenses/>.
#

import copy
import os
import re
import shutil
import subprocess
import typing
from distutils.version import StrictVersion
from pathlib import Path
from platform import machine

from ..state import BuildState
from ..utility import (
    OS_VERSION_ARM64,
    OS_VERSION_X86_64,
    CommandLineOptions,
    symlink_directory,
)


class Target:
    DESTINATION_DEPS = 0
    DESTINATION_OUTPUT = 1

    def __init__(self, name=None):
        self.name = name
        self.destination = self.DESTINATION_DEPS

        self.multi_platform = False
        self.unsupported_architectures = ()

    def prepare_source(self, state: BuildState):
        pass

    def detect(self, state: BuildState) -> bool:
        return False

    def configure(self, state: BuildState):
        pass

    def build(self, state: BuildState):
        pass

    def post_build(self, state: BuildState):
        pass


class BuildTarget(Target):
    def __init__(self, name=None):
        super().__init__(name)

        self.src_root = ''
        self.multi_platform = True

        self.os_version = dict()
        self.os_version['x86_64'] = OS_VERSION_X86_64
        self.os_version['arm64'] = OS_VERSION_ARM64

        self.sdk_version = dict()
        self.sdk_version['x86_64'] = OS_VERSION_X86_64
        self.sdk_version['arm64'] = OS_VERSION_ARM64

    def configure(self, state: BuildState):
        os_version = state.os_version()
        if os_version and os_version < self.os_version[state.architecture()]:
            raise RuntimeError('Minimum OS version requirement is not met')

        sdk_path = state.sdk_path()
        if sdk_path:
            match = re.search(r'/MacOSX(\d+.\d+).sdk', str(sdk_path), re.IGNORECASE)
            if match and StrictVersion(match[1]) < self.sdk_version[state.architecture()]:
                raise RuntimeError('Minimum SDK version requirement is not met')

        os.makedirs(state.build_path, exist_ok=True)

        env = state.environment
        env['PATH'] = os.pathsep.join([
            str(state.bin_path),
            env['PATH'],
        ])

        if state.xcode:
            return

        if c_compiler := state.c_compiler():
            env['CC'] = str(c_compiler)
        if cxx_compiler := state.cxx_compiler():
            env['CXX'] = str(cxx_compiler)

        for prefix in ('CPP', 'C', 'CXX', 'OBJC', 'OBJCXX'):
            var_name = f'{prefix}FLAGS'

            state.update_environment(var_name, f'-I{state.include_path}')
            state.set_sdk(var_name)
            state.set_os_version(var_name)

        ldflags = 'LDFLAGS'

        state.update_environment(ldflags, f'-L{state.lib_path}')
        state.set_sdk(ldflags)
        state.set_os_version(ldflags)

    def install(self, state: BuildState, options: CommandLineOptions = None, tool: str = 'gmake'):
        if state.xcode:
            return

        if state.install_path.exists():
            shutil.rmtree(state.install_path)

        args = [tool, 'install']
        args += options and options.to_list() or []

        subprocess.check_call(args, cwd=state.build_path, env=state.environment)

        self.update_pc_files(state)

    @staticmethod
    def update_text_file(path: Path, processor: typing.Callable = None):
        with open(path, 'r') as f:
            content = f.readlines()

        patched_content = []

        for line in content:
            patched_line = processor(line) if processor else line

            if patched_line:
                patched_content.append(patched_line)

        with open(path, 'w') as f:
            f.writelines(patched_content)

    @staticmethod
    def _update_variables_file(path: Path, prefix_value: str, processor: typing.Callable = None, quotes: bool = True):
        prefix = 'prefix='
        exec_prefix = 'exec_prefix='
        includedir = 'includedir='
        libdir = 'libdir='

        def quote(value: str) -> str:
            return f'"{value}"' if quotes else value

        def patch_proc(line: str) -> str:
            patched_line = line

            if line.startswith(prefix):
                patched_line = prefix + quote(prefix_value) + os.linesep
            elif line.startswith(exec_prefix):
                patched_line = exec_prefix + quote('${prefix}') + os.linesep
            elif line.startswith(includedir):
                patched_line = includedir + quote('${prefix}/include') + os.linesep
            elif line.startswith(libdir):
                patched_line = libdir + quote('${exec_prefix}/lib') + os.linesep

            if processor:
                patched_line = processor(path, patched_line)

            return patched_line

        BuildTarget.update_text_file(path, patch_proc)

    @staticmethod
    def update_config_script(path: Path, processor: typing.Callable = None):
        BuildTarget._update_variables_file(path, r'$(cd "${0%/*}/.."; pwd)', processor)

    @staticmethod
    def update_pc_file(path: Path, processor: typing.Callable = None):
        BuildTarget._update_variables_file(path, '', processor, quotes=False)

    def update_pc_files(self, state: BuildState):
        for root, _, files in os.walk(state.install_path, followlinks=True):
            for filename in files:
                if filename.endswith('.pc'):
                    file_path = Path(root) / filename
                    BuildTarget.update_pc_file(file_path, self._process_pkg_config)

    @staticmethod
    def _process_pkg_config(pcfile: Path, line: str) -> str:
        assert pcfile
        return line

    def write_pc_file(self, state: BuildState,
                      filename=None, name=None, description=None, version='',
                      requires='', requires_private='', libs='', libs_private='', cflags=''):
        pkgconfig_path = state.install_path / 'lib/pkgconfig'
        os.makedirs(pkgconfig_path, exist_ok=True)

        if not filename:
            filename = self.name + '.pc'
        if not name:
            name = self.name
        if not description:
            description = self.name
        if not libs:
            libs = '-l' + self.name

        pc_content = f'''prefix=
exec_prefix=${{prefix}}
libdir=${{exec_prefix}}/lib
includedir=${{prefix}}/include

Name: {name}
Description: {description}
Version: {version}
Requires: {requires}
Requires.private: {requires_private}
Libs: -L${{libdir}} {libs}
Libs.private: {libs_private}
Cflags: -I${{includedir}} {cflags}
'''
        with open(pkgconfig_path / filename, 'w') as f:
            f.write(pc_content)

    @staticmethod
    def make_platform_header(state: BuildState, header: str):
        include_path = state.install_path / 'include'
        header_parts = header.rsplit(os.sep, 1)

        if len(header_parts) == 1:
            header_parts.insert(0, '')

        common_header = include_path / header
        platform_header = include_path / header_parts[0] / f'_aedi_{state.architecture()}_{header_parts[1]}'
        shutil.move(common_header, platform_header)

        with open(common_header, 'w') as f:
            f.write(f'''
#pragma once

#if defined(__x86_64__)
#   include "_aedi_x86_64_{header_parts[1]}"
#elif defined(__aarch64__)
#   include "_aedi_arm64_{header_parts[1]}"
#else
#   error Unknown architecture
#endif
''')

    def copy_to_bin(self, state: BuildState, filename: str = None, new_filename: str = None):
        bin_path = state.install_path / 'bin'
        os.makedirs(bin_path, exist_ok=True)

        if not filename:
            filename = self.name
        if not new_filename:
            new_filename = filename

        src_path = state.build_path / filename
        dst_path = bin_path / new_filename
        shutil.copy(src_path, dst_path)


class MakeTarget(BuildTarget):
    def __init__(self, name=None):
        super().__init__(name)
        self.tool = 'gmake'

    def configure(self, state: BuildState):
        super().configure(state)

        symlink_directory(state.source, state.build_path)

    def build(self, state: BuildState):
        assert not state.xcode

        args = [
            self.tool,
            '-j', state.jobs,
        ]

        if c_compiler := state.c_compiler():
            args.append(f'CC={c_compiler}')
        if cxx_compiler := state.cxx_compiler():
            args.append(f'CXX={cxx_compiler}')

        args += state.options.to_list()

        work_path = state.build_path / self.src_root
        subprocess.check_call(args, cwd=work_path, env=state.environment)


class ConfigureMakeTarget(MakeTarget):
    def __init__(self, name=None):
        super().__init__(name)

    def configure(self, state: BuildState):
        super().configure(state)

        work_path = state.build_path / self.src_root
        configure_path = work_path / 'configure'

        common_args = [
            configure_path,
            f'--prefix={state.install_path}',
        ]
        common_args += state.options.to_list()

        disable_dependency_tracking = '--disable-dependency-tracking'
        host = '--host=' + state.host()

        args = copy.copy(common_args)
        args.append(host)
        args.append(disable_dependency_tracking)

        try:
            # Try with host and disabled dependency tracking first
            subprocess.check_call(args, cwd=work_path, env=state.environment)
        except subprocess.CalledProcessError:
            # If it fails, try with disabled dependency tracking only
            args = copy.copy(common_args)
            args.append(disable_dependency_tracking)

            try:
                subprocess.check_call(args, cwd=work_path, env=state.environment)
            except subprocess.CalledProcessError:
                # Use only common command line arguments
                subprocess.check_call(common_args, cwd=work_path, env=state.environment)

    def build(self, state: BuildState):
        # Clear configure script options
        state.options = CommandLineOptions()

        super().build(state)


class CMakeTarget(BuildTarget):
    cached_project_name = None

    def __init__(self, name=None):
        super().__init__(name)

    def detect(self, state: BuildState) -> bool:
        if CMakeTarget.cached_project_name:
            project_name = CMakeTarget.cached_project_name
        else:
            cmakelists_path = state.source / self.src_root / 'CMakeLists.txt'

            if not cmakelists_path.exists():
                return False

            for line in open(cmakelists_path).readlines():
                project_name = CMakeTarget._extract_project_name(line)
                if project_name:
                    project_name = project_name.lower()
                    project_name = project_name.replace(' ', '-')
                    break
            else:
                return False

            if project_name.startswith('lib'):
                project_name = project_name[3:]

            CMakeTarget.cached_project_name = project_name

        return project_name == self.name

    @staticmethod
    def _extract_project_name(line: str):
        project_name = None

        # Try to get project name without whitespaces in it
        match = re.search(r'^\s*project\s*\(\s*(\w[\w-]+)', line, re.IGNORECASE)

        if not match:
            # Try to get project name that contains whitespaces
            match = re.search(r'^\s*project\s*\(\s*"?(\w[\s\w-]+)"?', line, re.IGNORECASE)

        if match:
            project_name = match.group(1)

        return project_name

    def configure(self, state: BuildState):
        super().configure(state)

        args = [
            'cmake',
            '-DCMAKE_BUILD_TYPE=Release',
            f'-DCMAKE_C_FLAGS="-ffile-prefix-map={state.source}/="',
            f'-DCMAKE_CXX_FLAGS="-ffile-prefix-map={state.source}/="',
            f'-DCMAKE_INSTALL_PREFIX={state.install_path}',
            f'-DCMAKE_PREFIX_PATH={state.prefix_path}',
        ]

        if state.xcode:
            args.append('-GXcode')
        else:
            args.append('-GUnix Makefiles')

            if c_compiler := state.c_compiler():
                args.append(f'-DCMAKE_C_COMPILER={c_compiler}')
            if cxx_compiler := state.cxx_compiler():
                args.append(f'-DCMAKE_CXX_COMPILER={cxx_compiler}')

            architecture = state.architecture()
            if architecture != machine():
                args.append('-DCMAKE_SYSTEM_NAME=Darwin')
                args.append('-DCMAKE_SYSTEM_PROCESSOR=' + 'aarch64' if architecture == 'arm64' else architecture)

        os_version = state.os_version()
        if os_version:
            args.append('-DCMAKE_OSX_DEPLOYMENT_TARGET=' + str(os_version))

        sdk_path = state.sdk_path()
        if sdk_path:
            args.append(f'-DCMAKE_OSX_SYSROOT={sdk_path}')

        args += state.options.to_list(CommandLineOptions.CMAKE_RULES)
        args.append(state.source / self.src_root)

        subprocess.check_call(args, cwd=state.build_path, env=state.environment)

    def build(self, state: BuildState):
        if state.xcode:
            args = ['cmake', '--open', '.']
        else:
            args = ['gmake', '-j', state.jobs]

            if state.verbose:
                args.append('VERBOSE=1')

        subprocess.check_call(args, cwd=state.build_path, env=state.environment)


class ConfigureMakeDependencyTarget(ConfigureMakeTarget):
    def __init__(self, name=None):
        super().__init__(name)

    def post_build(self, state: BuildState):
        self.install(state)


class ConfigureMakeStaticDependencyTarget(ConfigureMakeDependencyTarget):
    def __init__(self, name=None):
        super().__init__(name)

    def configure(self, state: BuildState):
        state.options['--enable-shared'] = 'no'
        super().configure(state)


class CMakeStaticDependencyTarget(CMakeTarget):
    def __init__(self, name=None):
        super().__init__(name)

    def configure(self, state: BuildState):
        state.options['BUILD_SHARED_LIBS'] = 'NO'
        super().configure(state)

    def post_build(self, state: BuildState):
        self.install(state)

    def keep_module_target(self, state: BuildState, target: str):
        import_patterns = (
            r'list\s*\(APPEND\s+_IMPORT_CHECK_TARGETS\s+(?P<target>\w+::[\w-]+)[\s)]',
            r'list\s*\(APPEND\s+_IMPORT_CHECK_FILES_FOR_(?P<target>\w+::[\w-]+)\s',
        )
        import_regexes = [re.compile(regex, re.IGNORECASE) for regex in import_patterns]

        def _keep_target(line: str):
            for regex in import_regexes:
                match = regex.match(line)

                if match and match.group('target') != target:
                    return None

            return line

        module = 'targets-release.cmake'

        for probe_module in (module, self.name + module):
            module_path = state.install_path / 'lib' / 'cmake' / self.name / probe_module

            if module_path.exists():
                self.update_text_file(module_path, _keep_target)