qt5base-lts/util/cmake/pro2cmake.py

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#!/usr/bin/env python3
#############################################################################
##
## Copyright (C) 2018 The Qt Company Ltd.
## Contact: https://www.qt.io/licensing/
##
## This file is part of the plugins of the Qt Toolkit.
##
## $QT_BEGIN_LICENSE:GPL-EXCEPT$
## Commercial License Usage
## Licensees holding valid commercial Qt licenses may use this file in
## accordance with the commercial license agreement provided with the
## Software or, alternatively, in accordance with the terms contained in
## a written agreement between you and The Qt Company. For licensing terms
## and conditions see https://www.qt.io/terms-conditions. For further
## information use the contact form at https://www.qt.io/contact-us.
##
## GNU General Public License Usage
## Alternatively, this file may be used under the terms of the GNU
## General Public License version 3 as published by the Free Software
## Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT
## included in the packaging of this file. Please review the following
## information to ensure the GNU General Public License requirements will
## be met: https://www.gnu.org/licenses/gpl-3.0.html.
##
## $QT_END_LICENSE$
##
#############################################################################
from __future__ import annotations
import copy
import os.path
import posixpath
import sys
import re
import io
import glob
import collections
try:
collectionsAbc = collections.abc
except AttributeError:
collectionsAbc = collections
import pyparsing as pp
import xml.etree.ElementTree as ET
from argparse import ArgumentParser
from textwrap import dedent
from textwrap import indent as textwrap_indent
from itertools import chain
from functools import lru_cache
from shutil import copyfile
from sympy.logic import simplify_logic, And, Or, Not
from sympy.core.sympify import SympifyError
from typing import (
List,
Optional,
Dict,
Set,
IO,
Union,
Mapping,
Any,
Callable,
FrozenSet,
Tuple,
Match,
)
from special_case_helper import SpecialCaseHandler
from helper import (
map_qt_library,
map_3rd_party_library,
is_known_3rd_party_library,
featureName,
map_platform,
find_library_info_for_target,
generate_find_package_info,
LibraryMapping,
)
from helper import _set_up_py_parsing_nicer_debug_output
_set_up_py_parsing_nicer_debug_output(pp)
cmake_version_string = "3.15.0"
def _parse_commandline():
parser = ArgumentParser(
description="Generate CMakeLists.txt files from ." "pro files.",
epilog="Requirements: pip install sympy pyparsing",
)
parser.add_argument(
"--debug", dest="debug", action="store_true", help="Turn on all debug output"
)
parser.add_argument(
"--debug-parser",
dest="debug_parser",
action="store_true",
help="Print debug output from qmake parser.",
)
parser.add_argument(
"--debug-parse-result",
dest="debug_parse_result",
action="store_true",
help="Dump the qmake parser result.",
)
parser.add_argument(
"--debug-parse-dictionary",
dest="debug_parse_dictionary",
action="store_true",
help="Dump the qmake parser result as dictionary.",
)
parser.add_argument(
"--debug-pro-structure",
dest="debug_pro_structure",
action="store_true",
help="Dump the structure of the qmake .pro-file.",
)
parser.add_argument(
"--debug-full-pro-structure",
dest="debug_full_pro_structure",
action="store_true",
help="Dump the full structure of the qmake .pro-file " "(with includes).",
)
parser.add_argument(
"--debug-special-case-preservation",
dest="debug_special_case_preservation",
action="store_true",
help="Show all git commands and file copies.",
)
parser.add_argument(
"--is-example",
action="store_true",
dest="is_example",
help="Treat the input .pro file as an example.",
)
parser.add_argument(
"-s",
"--skip-special-case-preservation",
dest="skip_special_case_preservation",
action="store_true",
help="Skips behavior to reapply " "special case modifications (requires git in PATH)",
)
parser.add_argument(
"-k",
"--keep-temporary-files",
dest="keep_temporary_files",
action="store_true",
help="Don't automatically remove CMakeLists.gen.txt and other " "intermediate files.",
)
parser.add_argument(
"files",
metavar="<.pro/.pri file>",
type=str,
nargs="+",
help="The .pro/.pri file to process",
)
return parser.parse_args()
def is_top_level_repo_project(project_file_path: str = "") -> bool:
qmake_conf_path = find_qmake_conf(project_file_path)
qmake_conf_dir_path = os.path.dirname(qmake_conf_path)
project_dir_path = os.path.dirname(project_file_path)
return qmake_conf_dir_path == project_dir_path
def is_top_level_repo_tests_project(project_file_path: str = "") -> bool:
qmake_conf_path = find_qmake_conf(project_file_path)
qmake_conf_dir_path = os.path.dirname(qmake_conf_path)
project_dir_path = os.path.dirname(project_file_path)
project_dir_name = os.path.basename(project_dir_path)
maybe_same_level_dir_path = os.path.join(project_dir_path, "..")
normalized_maybe_same_level_dir_path = os.path.normpath(maybe_same_level_dir_path)
return (
qmake_conf_dir_path == normalized_maybe_same_level_dir_path and project_dir_name == "tests"
)
def is_top_level_repo_examples_project(project_file_path: str = "") -> bool:
qmake_conf_path = find_qmake_conf(project_file_path)
qmake_conf_dir_path = os.path.dirname(qmake_conf_path)
project_dir_path = os.path.dirname(project_file_path)
project_dir_name = os.path.basename(project_dir_path)
maybe_same_level_dir_path = os.path.join(project_dir_path, "..")
normalized_maybe_same_level_dir_path = os.path.normpath(maybe_same_level_dir_path)
return (
qmake_conf_dir_path == normalized_maybe_same_level_dir_path
and project_dir_name == "examples"
)
def is_example_project(project_file_path: str = "") -> bool:
qmake_conf_path = find_qmake_conf(project_file_path)
qmake_conf_dir_path = os.path.dirname(qmake_conf_path)
project_relative_path = os.path.relpath(project_file_path, qmake_conf_dir_path)
# If the project file is found in a subdir called 'examples'
# relative to the repo source dir, then it must be an example, but
# some examples contain 3rdparty libraries that do not need to be
# built as examples.
return project_relative_path.startswith("examples") and "3rdparty" not in project_relative_path
def is_config_test_project(project_file_path: str = "") -> bool:
qmake_conf_path = find_qmake_conf(project_file_path)
qmake_conf_dir_path = os.path.dirname(qmake_conf_path)
dir_name_with_qmake_confg = os.path.basename(qmake_conf_dir_path)
project_relative_path = os.path.relpath(project_file_path, qmake_conf_dir_path)
# If the project file is found in a subdir called 'config.tests'
# relative to the repo source dir, then it's probably a config test.
# Also if the .qmake.conf is found within config.tests dir (like in qtbase)
# then the project is probably a config .test
return (
project_relative_path.startswith("config.tests")
or dir_name_with_qmake_confg == "config.tests"
)
@lru_cache(maxsize=None)
def find_qmake_conf(project_file_path: str = "") -> Optional[str]:
Ugly fix for handling QT_SOURCE_TREE QT_SOURCE_TREE is a variable that is set in qtbase/.qmake.conf. In qtbase, it's used throughout various projects to find cpp sources when building standalone tests (among other things). Everything works fine with qmake, because even if qmake is invoked on the tests subfolder, qmake searches up the source directory tree until it finds a .qmake.conf file, and uses that. When building qttools with qmake, the qdoc project expects to have a QT_SOURCE_TREE value, but it's not actually set in the qttools/.qmake.conf file, so the generated include paths that use that value are incorrect. Curiously the build still succeeds. Now in CMake land we replaced QT_SOURCE_TREE with CMAKE_SOURCE_DIR, but that does not work properly when doing a standalone tests build, because the project in that case is the tests one, and not the qtbase one, so configuration fails in a developer build when trying to configure some private tests. So far I've found that only qtbase actively uses this value. A temporary fix is to save the qtbase source directory into a QT_SOURCE_TREE variable inside the generated BuildInternalsExtra.cmake file. The pro2cmake script is changed to handle presence of QT_SOURCE_TREE in a qrc file path. This is handled by finding the location of a .qmake.conf file starting from the project file absolute path. This is needed to stop the script from crashing when handling the mimedatabase test projects for example. The change also regenerates the relevant failing test projects, and thus standalone tests (when doing developer builds aka private_tests enabled) now configure and build successfully. Change-Id: I15adc6f4ab6e3056c43ed850196204e2229c4d98 Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-07-26 16:59:53 +00:00
if not os.path.isabs(project_file_path):
print(
f"Warning: could not find .qmake.conf file, given path is not an "
f"absolute path: {project_file_path}"
)
Ugly fix for handling QT_SOURCE_TREE QT_SOURCE_TREE is a variable that is set in qtbase/.qmake.conf. In qtbase, it's used throughout various projects to find cpp sources when building standalone tests (among other things). Everything works fine with qmake, because even if qmake is invoked on the tests subfolder, qmake searches up the source directory tree until it finds a .qmake.conf file, and uses that. When building qttools with qmake, the qdoc project expects to have a QT_SOURCE_TREE value, but it's not actually set in the qttools/.qmake.conf file, so the generated include paths that use that value are incorrect. Curiously the build still succeeds. Now in CMake land we replaced QT_SOURCE_TREE with CMAKE_SOURCE_DIR, but that does not work properly when doing a standalone tests build, because the project in that case is the tests one, and not the qtbase one, so configuration fails in a developer build when trying to configure some private tests. So far I've found that only qtbase actively uses this value. A temporary fix is to save the qtbase source directory into a QT_SOURCE_TREE variable inside the generated BuildInternalsExtra.cmake file. The pro2cmake script is changed to handle presence of QT_SOURCE_TREE in a qrc file path. This is handled by finding the location of a .qmake.conf file starting from the project file absolute path. This is needed to stop the script from crashing when handling the mimedatabase test projects for example. The change also regenerates the relevant failing test projects, and thus standalone tests (when doing developer builds aka private_tests enabled) now configure and build successfully. Change-Id: I15adc6f4ab6e3056c43ed850196204e2229c4d98 Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-07-26 16:59:53 +00:00
return None
cwd = os.path.dirname(project_file_path)
file_name = ".qmake.conf"
Ugly fix for handling QT_SOURCE_TREE QT_SOURCE_TREE is a variable that is set in qtbase/.qmake.conf. In qtbase, it's used throughout various projects to find cpp sources when building standalone tests (among other things). Everything works fine with qmake, because even if qmake is invoked on the tests subfolder, qmake searches up the source directory tree until it finds a .qmake.conf file, and uses that. When building qttools with qmake, the qdoc project expects to have a QT_SOURCE_TREE value, but it's not actually set in the qttools/.qmake.conf file, so the generated include paths that use that value are incorrect. Curiously the build still succeeds. Now in CMake land we replaced QT_SOURCE_TREE with CMAKE_SOURCE_DIR, but that does not work properly when doing a standalone tests build, because the project in that case is the tests one, and not the qtbase one, so configuration fails in a developer build when trying to configure some private tests. So far I've found that only qtbase actively uses this value. A temporary fix is to save the qtbase source directory into a QT_SOURCE_TREE variable inside the generated BuildInternalsExtra.cmake file. The pro2cmake script is changed to handle presence of QT_SOURCE_TREE in a qrc file path. This is handled by finding the location of a .qmake.conf file starting from the project file absolute path. This is needed to stop the script from crashing when handling the mimedatabase test projects for example. The change also regenerates the relevant failing test projects, and thus standalone tests (when doing developer builds aka private_tests enabled) now configure and build successfully. Change-Id: I15adc6f4ab6e3056c43ed850196204e2229c4d98 Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-07-26 16:59:53 +00:00
while os.path.isdir(cwd):
maybe_file = posixpath.join(cwd, file_name)
Ugly fix for handling QT_SOURCE_TREE QT_SOURCE_TREE is a variable that is set in qtbase/.qmake.conf. In qtbase, it's used throughout various projects to find cpp sources when building standalone tests (among other things). Everything works fine with qmake, because even if qmake is invoked on the tests subfolder, qmake searches up the source directory tree until it finds a .qmake.conf file, and uses that. When building qttools with qmake, the qdoc project expects to have a QT_SOURCE_TREE value, but it's not actually set in the qttools/.qmake.conf file, so the generated include paths that use that value are incorrect. Curiously the build still succeeds. Now in CMake land we replaced QT_SOURCE_TREE with CMAKE_SOURCE_DIR, but that does not work properly when doing a standalone tests build, because the project in that case is the tests one, and not the qtbase one, so configuration fails in a developer build when trying to configure some private tests. So far I've found that only qtbase actively uses this value. A temporary fix is to save the qtbase source directory into a QT_SOURCE_TREE variable inside the generated BuildInternalsExtra.cmake file. The pro2cmake script is changed to handle presence of QT_SOURCE_TREE in a qrc file path. This is handled by finding the location of a .qmake.conf file starting from the project file absolute path. This is needed to stop the script from crashing when handling the mimedatabase test projects for example. The change also regenerates the relevant failing test projects, and thus standalone tests (when doing developer builds aka private_tests enabled) now configure and build successfully. Change-Id: I15adc6f4ab6e3056c43ed850196204e2229c4d98 Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-07-26 16:59:53 +00:00
if os.path.isfile(maybe_file):
return maybe_file
else:
cwd = os.path.dirname(cwd)
return None
def process_qrc_file(
target: str,
filepath: str,
base_dir: str = "",
project_file_path: str = "",
skip_qtquick_compiler: bool = False,
retain_qtquick_compiler: bool = False,
is_example: bool = False,
) -> str:
assert target
Ugly fix for handling QT_SOURCE_TREE QT_SOURCE_TREE is a variable that is set in qtbase/.qmake.conf. In qtbase, it's used throughout various projects to find cpp sources when building standalone tests (among other things). Everything works fine with qmake, because even if qmake is invoked on the tests subfolder, qmake searches up the source directory tree until it finds a .qmake.conf file, and uses that. When building qttools with qmake, the qdoc project expects to have a QT_SOURCE_TREE value, but it's not actually set in the qttools/.qmake.conf file, so the generated include paths that use that value are incorrect. Curiously the build still succeeds. Now in CMake land we replaced QT_SOURCE_TREE with CMAKE_SOURCE_DIR, but that does not work properly when doing a standalone tests build, because the project in that case is the tests one, and not the qtbase one, so configuration fails in a developer build when trying to configure some private tests. So far I've found that only qtbase actively uses this value. A temporary fix is to save the qtbase source directory into a QT_SOURCE_TREE variable inside the generated BuildInternalsExtra.cmake file. The pro2cmake script is changed to handle presence of QT_SOURCE_TREE in a qrc file path. This is handled by finding the location of a .qmake.conf file starting from the project file absolute path. This is needed to stop the script from crashing when handling the mimedatabase test projects for example. The change also regenerates the relevant failing test projects, and thus standalone tests (when doing developer builds aka private_tests enabled) now configure and build successfully. Change-Id: I15adc6f4ab6e3056c43ed850196204e2229c4d98 Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-07-26 16:59:53 +00:00
# Hack to handle QT_SOURCE_TREE. Assume currently that it's the same
# as the qtbase source path.
qt_source_tree_literal = "${QT_SOURCE_TREE}"
Ugly fix for handling QT_SOURCE_TREE QT_SOURCE_TREE is a variable that is set in qtbase/.qmake.conf. In qtbase, it's used throughout various projects to find cpp sources when building standalone tests (among other things). Everything works fine with qmake, because even if qmake is invoked on the tests subfolder, qmake searches up the source directory tree until it finds a .qmake.conf file, and uses that. When building qttools with qmake, the qdoc project expects to have a QT_SOURCE_TREE value, but it's not actually set in the qttools/.qmake.conf file, so the generated include paths that use that value are incorrect. Curiously the build still succeeds. Now in CMake land we replaced QT_SOURCE_TREE with CMAKE_SOURCE_DIR, but that does not work properly when doing a standalone tests build, because the project in that case is the tests one, and not the qtbase one, so configuration fails in a developer build when trying to configure some private tests. So far I've found that only qtbase actively uses this value. A temporary fix is to save the qtbase source directory into a QT_SOURCE_TREE variable inside the generated BuildInternalsExtra.cmake file. The pro2cmake script is changed to handle presence of QT_SOURCE_TREE in a qrc file path. This is handled by finding the location of a .qmake.conf file starting from the project file absolute path. This is needed to stop the script from crashing when handling the mimedatabase test projects for example. The change also regenerates the relevant failing test projects, and thus standalone tests (when doing developer builds aka private_tests enabled) now configure and build successfully. Change-Id: I15adc6f4ab6e3056c43ed850196204e2229c4d98 Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-07-26 16:59:53 +00:00
if qt_source_tree_literal in filepath:
qmake_conf = find_qmake_conf(project_file_path)
if qmake_conf:
qt_source_tree = os.path.dirname(qmake_conf)
filepath = filepath.replace(qt_source_tree_literal, qt_source_tree)
else:
print(
f"Warning, could not determine QT_SOURCE_TREE location while trying "
f"to find: {filepath}"
)
Ugly fix for handling QT_SOURCE_TREE QT_SOURCE_TREE is a variable that is set in qtbase/.qmake.conf. In qtbase, it's used throughout various projects to find cpp sources when building standalone tests (among other things). Everything works fine with qmake, because even if qmake is invoked on the tests subfolder, qmake searches up the source directory tree until it finds a .qmake.conf file, and uses that. When building qttools with qmake, the qdoc project expects to have a QT_SOURCE_TREE value, but it's not actually set in the qttools/.qmake.conf file, so the generated include paths that use that value are incorrect. Curiously the build still succeeds. Now in CMake land we replaced QT_SOURCE_TREE with CMAKE_SOURCE_DIR, but that does not work properly when doing a standalone tests build, because the project in that case is the tests one, and not the qtbase one, so configuration fails in a developer build when trying to configure some private tests. So far I've found that only qtbase actively uses this value. A temporary fix is to save the qtbase source directory into a QT_SOURCE_TREE variable inside the generated BuildInternalsExtra.cmake file. The pro2cmake script is changed to handle presence of QT_SOURCE_TREE in a qrc file path. This is handled by finding the location of a .qmake.conf file starting from the project file absolute path. This is needed to stop the script from crashing when handling the mimedatabase test projects for example. The change also regenerates the relevant failing test projects, and thus standalone tests (when doing developer builds aka private_tests enabled) now configure and build successfully. Change-Id: I15adc6f4ab6e3056c43ed850196204e2229c4d98 Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-07-26 16:59:53 +00:00
resource_name = os.path.splitext(os.path.basename(filepath))[0]
dir_name = os.path.dirname(filepath)
base_dir = posixpath.join("" if base_dir == "." else base_dir, dir_name)
# Small not very thorough check to see if this a shared qrc resource
# pattern is mostly used by the tests.
is_parent_path = dir_name.startswith("..")
Ugly fix for handling QT_SOURCE_TREE QT_SOURCE_TREE is a variable that is set in qtbase/.qmake.conf. In qtbase, it's used throughout various projects to find cpp sources when building standalone tests (among other things). Everything works fine with qmake, because even if qmake is invoked on the tests subfolder, qmake searches up the source directory tree until it finds a .qmake.conf file, and uses that. When building qttools with qmake, the qdoc project expects to have a QT_SOURCE_TREE value, but it's not actually set in the qttools/.qmake.conf file, so the generated include paths that use that value are incorrect. Curiously the build still succeeds. Now in CMake land we replaced QT_SOURCE_TREE with CMAKE_SOURCE_DIR, but that does not work properly when doing a standalone tests build, because the project in that case is the tests one, and not the qtbase one, so configuration fails in a developer build when trying to configure some private tests. So far I've found that only qtbase actively uses this value. A temporary fix is to save the qtbase source directory into a QT_SOURCE_TREE variable inside the generated BuildInternalsExtra.cmake file. The pro2cmake script is changed to handle presence of QT_SOURCE_TREE in a qrc file path. This is handled by finding the location of a .qmake.conf file starting from the project file absolute path. This is needed to stop the script from crashing when handling the mimedatabase test projects for example. The change also regenerates the relevant failing test projects, and thus standalone tests (when doing developer builds aka private_tests enabled) now configure and build successfully. Change-Id: I15adc6f4ab6e3056c43ed850196204e2229c4d98 Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-07-26 16:59:53 +00:00
if not os.path.isfile(filepath):
raise RuntimeError(f"Invalid file path given to process_qrc_file: {filepath}")
Ugly fix for handling QT_SOURCE_TREE QT_SOURCE_TREE is a variable that is set in qtbase/.qmake.conf. In qtbase, it's used throughout various projects to find cpp sources when building standalone tests (among other things). Everything works fine with qmake, because even if qmake is invoked on the tests subfolder, qmake searches up the source directory tree until it finds a .qmake.conf file, and uses that. When building qttools with qmake, the qdoc project expects to have a QT_SOURCE_TREE value, but it's not actually set in the qttools/.qmake.conf file, so the generated include paths that use that value are incorrect. Curiously the build still succeeds. Now in CMake land we replaced QT_SOURCE_TREE with CMAKE_SOURCE_DIR, but that does not work properly when doing a standalone tests build, because the project in that case is the tests one, and not the qtbase one, so configuration fails in a developer build when trying to configure some private tests. So far I've found that only qtbase actively uses this value. A temporary fix is to save the qtbase source directory into a QT_SOURCE_TREE variable inside the generated BuildInternalsExtra.cmake file. The pro2cmake script is changed to handle presence of QT_SOURCE_TREE in a qrc file path. This is handled by finding the location of a .qmake.conf file starting from the project file absolute path. This is needed to stop the script from crashing when handling the mimedatabase test projects for example. The change also regenerates the relevant failing test projects, and thus standalone tests (when doing developer builds aka private_tests enabled) now configure and build successfully. Change-Id: I15adc6f4ab6e3056c43ed850196204e2229c4d98 Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-07-26 16:59:53 +00:00
tree = ET.parse(filepath)
root = tree.getroot()
assert root.tag == "RCC"
output = ""
resource_count = 0
for resource in root:
assert resource.tag == "qresource"
lang = resource.get("lang", "")
prefix = resource.get("prefix", "/")
if not prefix.startswith("/"):
prefix = f"/{prefix}"
full_resource_name = resource_name + (str(resource_count) if resource_count > 0 else "")
files: Dict[str, str] = {}
for file in resource:
path = file.text
assert path
# Get alias:
alias = file.get("alias", "")
# In cases where examples use shared resources, we set the alias
# too the same name of the file, or the applications won't be
# be able to locate the resource
if not alias and is_parent_path:
alias = path
files[path] = alias
output += write_add_qt_resource_call(
target,
full_resource_name,
prefix,
base_dir,
lang,
files,
skip_qtquick_compiler,
retain_qtquick_compiler,
is_example,
)
resource_count += 1
return output
def write_add_qt_resource_call(
target: str,
resource_name: str,
prefix: Optional[str],
base_dir: Optional[str],
lang: Optional[str],
files: Dict[str, str],
skip_qtquick_compiler: bool,
retain_qtquick_compiler: bool,
is_example: bool,
) -> str:
output = ""
sorted_files = sorted(files.keys())
assert sorted_files
for source in sorted_files:
alias = files[source]
if alias:
full_source = posixpath.join(base_dir, source)
output += dedent(
f"""\
set_source_files_properties("{full_source}"
PROPERTIES QT_RESOURCE_ALIAS "{alias}"
)
"""
)
# Quote file paths in case there are spaces.
sorted_files_backup = sorted_files
sorted_files = []
for source in sorted_files_backup:
if source.startswith("${"):
sorted_files.append(source)
else:
sorted_files.append(f'"{source}"')
file_list = "\n ".join(sorted_files)
output += dedent(
f"""\
set({resource_name}_resource_files
{file_list}
)\n
"""
)
file_list = f"${{{resource_name}_resource_files}}"
if skip_qtquick_compiler:
output += (
f"set_source_files_properties(${{{resource_name}_resource_files}}"
" PROPERTIES QT_SKIP_QUICKCOMPILER 1)\n\n"
)
if retain_qtquick_compiler:
output += (
f"set_source_files_properties(${{{resource_name}_resource_files}}"
"PROPERTIES QT_RETAIN_QUICKCOMPILER 1)\n\n"
)
params = ""
if lang:
params += f'{spaces(1)}LANG\n{spaces(2)}"{lang}"\n'
params += f'{spaces(1)}PREFIX\n{spaces(2)}"{prefix}"\n'
if base_dir:
params += f'{spaces(1)}BASE\n{spaces(2)}"{base_dir}"\n'
add_resource_command = ""
if is_example:
add_resource_command = "qt6_add_resources"
else:
add_resource_command = "add_qt_resource"
output += (
f'{add_resource_command}({target} "{resource_name}"\n{params}{spaces(1)}FILES\n'
f"{spaces(2)}{file_list}\n)\n"
)
return output
class QmlDirFileInfo:
def __init__(self, file_path: str, type_name: str):
self.file_path = file_path
self.version = ""
self.type_name = type_name
self.internal = False
self.singleton = False
class QmlDir:
def __init__(self):
self.module = ""
self.plugin_name = ""
self.plugin_path = ""
self.classname = ""
self.imports = [] # typing.List[str]
self.type_names = {} # typing.Dict[str, QmlDirFileInfo]
self.type_infos = [] # typing.List[str]
self.depends = [] # typing.List[[str,str]]
self.designer_supported = False
def __str__(self):
type_infos_line = " \n".join(self.type_infos)
imports_line = " \n".join(self.imports)
string = f"""\
module: {self.module}
plugin: {self.plugin_name} {self.plugin_path}
classname: {self.classname}
type_infos:{type_infos_line}
imports:{imports_line}
dependends:
"""
for dep in self.depends:
string += f" {dep[0]} {dep[1]}\n"
string += f"designer supported: {self.designer_supported}\n"
string += "type_names:\n"
for key in self.type_names:
file_info = self.type_names[key]
string += (
f" type:{file_info.type_name} "
f"version:{file_info.version} "
f"path:{file_info.file_path} "
f"internal:{file_info.internal} "
f"singleton:{file_info.singleton}\n"
)
return string
def get_or_create_file_info(self, path: str, type_name: str) -> QmlDirFileInfo:
if path not in self.type_names:
self.type_names[path] = QmlDirFileInfo(path, type_name)
qmldir_file = self.type_names[path]
if qmldir_file.type_name != type_name:
raise RuntimeError("Registered qmldir file type_name does not match.")
return qmldir_file
def handle_file_internal(self, type_name: str, path: str):
qmldir_file = self.get_or_create_file_info(path, type_name)
qmldir_file.internal = True
def handle_file_singleton(self, type_name: str, version: str, path: str):
qmldir_file = self.handle_file(type_name, version, path)
qmldir_file.singleton = True
def handle_file(self, type_name: str, version: str, path: str) -> QmlDirFileInfo:
qmldir_file = self.get_or_create_file_info(path, type_name)
qmldir_file.version = version
qmldir_file.type_name = type_name
qmldir_file.path = path
return qmldir_file
def from_file(self, path: str):
f = open(path, "r")
if not f:
raise RuntimeError(f"Failed to open qmldir file at: {path}")
for line in f:
if line.startswith("#"):
continue
line = line.strip().replace("\n", "")
if len(line) == 0:
continue
entries = line.split(" ")
if len(entries) == 0:
raise RuntimeError("Unexpected QmlDir file line entry")
if entries[0] == "module":
self.module = entries[1]
elif entries[0] == "[singleton]":
self.handle_file_singleton(entries[1], entries[2], entries[3])
elif entries[0] == "internal":
self.handle_file_internal(entries[1], entries[2])
elif entries[0] == "plugin":
self.plugin_name = entries[1]
if len(entries) > 2:
self.plugin_path = entries[2]
elif entries[0] == "classname":
self.classname = entries[1]
elif entries[0] == "typeinfo":
self.type_infos.append(entries[1])
elif entries[0] == "depends":
self.depends.append((entries[1], entries[2]))
elif entries[0] == "designersupported":
self.designer_supported = True
elif entries[0] == "import":
self.imports.append(entries[1])
elif len(entries) == 3:
self.handle_file(entries[0], entries[1], entries[2])
else:
raise RuntimeError(f"Uhandled qmldir entry {line}")
def fixup_linecontinuation(contents: str) -> str:
# Remove all line continuations, aka a backslash followed by
# a newline character with an arbitrary amount of whitespace
# between the backslash and the newline.
# This greatly simplifies the qmake parsing grammar.
contents = re.sub(r"([^\t ])\\[ \t]*\n", "\\1 ", contents)
contents = re.sub(r"\\[ \t]*\n", "", contents)
return contents
def fixup_comments(contents: str) -> str:
# Get rid of completely commented out lines.
# So any line which starts with a '#' char and ends with a new line
# will be replaced by a single new line.
#
# This is needed because qmake syntax is weird. In a multi line
# assignment (separated by backslashes and newlines aka
# # \\\n ), if any of the lines are completely commented out, in
# principle the assignment should fail.
#
# It should fail because you would have a new line separating
# the previous value from the next value, and the next value would
# not be interpreted as a value, but as a new token / operation.
# qmake is lenient though, and accepts that, so we need to take
# care of it as well, as if the commented line didn't exist in the
# first place.
contents = re.sub(r"\n#[^\n]*?\n", "\n", contents, re.DOTALL)
return contents
def spaces(indent: int) -> str:
return " " * indent
def trim_leading_dot(file: str) -> str:
while file.startswith("./"):
file = file[2:]
return file
def map_to_file(f: str, scope: Scope, *, is_include: bool = False) -> str:
assert "$$" not in f
if f.startswith("${"): # Some cmake variable is prepended
return f
base_dir = scope.currentdir if is_include else scope.basedir
f = posixpath.join(base_dir, f)
return trim_leading_dot(f)
def handle_vpath(source: str, base_dir: str, vpath: List[str]) -> str:
assert "$$" not in source
if not source:
return ""
if not vpath:
return source
if os.path.exists(os.path.join(base_dir, source)):
return source
variable_pattern = re.compile(r"\$\{[A-Za-z0-9_]+\}")
match = re.match(variable_pattern, source)
if match:
# a complex, variable based path, skipping validation
# or resolving
return source
for v in vpath:
fullpath = posixpath.join(v, source)
if os.path.exists(fullpath):
return trim_leading_dot(posixpath.relpath(fullpath, base_dir))
print(f" XXXX: Source {source}: Not found.")
return f"{source}-NOTFOUND"
def flatten_list(l):
""" Flattens an irregular nested list into a simple list."""
for el in l:
if isinstance(el, collectionsAbc.Iterable) and not isinstance(el, (str, bytes)):
yield from flatten_list(el)
else:
yield el
def handle_function_value(group: pp.ParseResults):
function_name = group[0]
function_args = group[1]
if function_name == "qtLibraryTarget":
if len(function_args) > 1:
raise RuntimeError(
"Don't know what to with more than one function argument "
"for $$qtLibraryTarget()."
)
return str(function_args[0])
if function_name == "quote":
# Do nothing, just return a string result
return str(group)
if function_name == "files":
if len(function_args) > 1:
raise RuntimeError(
"Don't know what to with more than one function argument for $$files()."
)
return str(function_args[0])
if isinstance(function_args, pp.ParseResults):
function_args = list(flatten_list(function_args.asList()))
# For other functions, return the whole expression as a string.
return f"$${function_name}({' '.join(function_args)})"
class Operation:
def __init__(self, value: Union[List[str], str]):
if isinstance(value, list):
self._value = value
else:
self._value = [str(value)]
def process(
self, key: str, input: List[str], transformer: Callable[[List[str]], List[str]]
) -> List[str]:
assert False
def __repr__(self):
assert False
def _dump(self):
if not self._value:
return "<NOTHING>"
if not isinstance(self._value, list):
return "<NOT A LIST>"
result = []
for i in self._value:
if not i:
result.append("<NONE>")
else:
result.append(str(i))
return '"' + '", "'.join(result) + '"'
class AddOperation(Operation):
def process(
self, key: str, sinput: List[str], transformer: Callable[[List[str]], List[str]]
) -> List[str]:
return sinput + transformer(self._value)
def __repr__(self):
return f"+({self._dump()})"
class UniqueAddOperation(Operation):
def process(
self, key: str, sinput: List[str], transformer: Callable[[List[str]], List[str]]
) -> List[str]:
result = sinput
for v in transformer(self._value):
if v not in result:
result.append(v)
return result
def __repr__(self):
return f"*({self._dump()})"
class ReplaceOperation(Operation):
def process(
self, key: str, sinput: List[str], transformer: Callable[[List[str]], List[str]]
) -> List[str]:
result = []
for s in sinput:
for v in transformer(self._value):
pattern, replacement = self.split_rex(v)
result.append(re.sub(pattern, replacement, s))
return result
def split_rex(self, s):
pattern = ""
replacement = ""
if len(s) < 4:
return pattern, replacement
sep = s[1]
s = s[2:]
rex = re.compile(f"[^\\\\]{sep}")
m = rex.search(s)
if not m:
return pattern, replacement
pattern = s[:m.start() + 1]
replacement = s[m.end():]
m = rex.search(replacement)
if m:
replacement = replacement[:m.start() + 1]
return pattern, replacement
def __repr__(self):
return f"*({self._dump()})"
class SetOperation(Operation):
def process(
self, key: str, sinput: List[str], transformer: Callable[[List[str]], List[str]]
) -> List[str]:
values = [] # List[str]
for v in self._value:
if v != f"$${key}":
values.append(v)
else:
values += sinput
if transformer:
return list(transformer(values))
else:
return values
def __repr__(self):
return f"=({self._dump()})"
class RemoveOperation(Operation):
def __init__(self, value):
super().__init__(value)
def process(
self, key: str, sinput: List[str], transformer: Callable[[List[str]], List[str]]
) -> List[str]:
sinput_set = set(sinput)
value_set = set(self._value)
result: List[str] = []
# Add everything that is not going to get removed:
for v in sinput:
if v not in value_set:
result += [v]
# Add everything else with removal marker:
for v in transformer(self._value):
if v not in sinput_set:
result += [f"-{v}"]
return result
def __repr__(self):
return f"-({self._dump()})"
class Scope(object):
SCOPE_ID: int = 1
def __init__(
self,
*,
parent_scope: Optional[Scope],
file: Optional[str] = None,
condition: str = "",
base_dir: str = "",
operations: Union[Mapping[str, List[Operation]], None] = None,
) -> None:
if operations is None:
operations = {
"QT_SOURCE_TREE": [SetOperation(["${QT_SOURCE_TREE}"])],
"QT_BUILD_TREE": [SetOperation(["${PROJECT_BUILD_DIR}"])],
}
self._operations = copy.deepcopy(operations)
if parent_scope:
parent_scope._add_child(self)
else:
self._parent = None # type: Optional[Scope]
# Only add the "QT = core gui" Set operation once, on the
# very top-level .pro scope, aka it's basedir is empty.
if not base_dir:
self._operations["QT"] = [SetOperation(["core", "gui"])]
self._basedir = base_dir
if file:
self._currentdir = os.path.dirname(file)
if not self._currentdir:
self._currentdir = "."
if not self._basedir:
self._basedir = self._currentdir
self._scope_id = Scope.SCOPE_ID
Scope.SCOPE_ID += 1
self._file = file
Ugly fix for handling QT_SOURCE_TREE QT_SOURCE_TREE is a variable that is set in qtbase/.qmake.conf. In qtbase, it's used throughout various projects to find cpp sources when building standalone tests (among other things). Everything works fine with qmake, because even if qmake is invoked on the tests subfolder, qmake searches up the source directory tree until it finds a .qmake.conf file, and uses that. When building qttools with qmake, the qdoc project expects to have a QT_SOURCE_TREE value, but it's not actually set in the qttools/.qmake.conf file, so the generated include paths that use that value are incorrect. Curiously the build still succeeds. Now in CMake land we replaced QT_SOURCE_TREE with CMAKE_SOURCE_DIR, but that does not work properly when doing a standalone tests build, because the project in that case is the tests one, and not the qtbase one, so configuration fails in a developer build when trying to configure some private tests. So far I've found that only qtbase actively uses this value. A temporary fix is to save the qtbase source directory into a QT_SOURCE_TREE variable inside the generated BuildInternalsExtra.cmake file. The pro2cmake script is changed to handle presence of QT_SOURCE_TREE in a qrc file path. This is handled by finding the location of a .qmake.conf file starting from the project file absolute path. This is needed to stop the script from crashing when handling the mimedatabase test projects for example. The change also regenerates the relevant failing test projects, and thus standalone tests (when doing developer builds aka private_tests enabled) now configure and build successfully. Change-Id: I15adc6f4ab6e3056c43ed850196204e2229c4d98 Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-07-26 16:59:53 +00:00
self._file_absolute_path = os.path.abspath(file)
self._condition = map_condition(condition)
self._children = [] # type: List[Scope]
self._included_children = [] # type: List[Scope]
self._visited_keys = set() # type: Set[str]
self._total_condition = None # type: Optional[str]
def __repr__(self):
return (
f"{self._scope_id}:{self._basedir}:{self._currentdir}:{self._file}:"
f"{self._condition or '<TRUE>'}"
)
def reset_visited_keys(self):
self._visited_keys = set()
def merge(self, other: "Scope") -> None:
assert self != other
self._included_children.append(other)
@property
def scope_debug(self) -> bool:
merge = self.get_string("PRO2CMAKE_SCOPE_DEBUG").lower()
return merge == "1" or merge == "on" or merge == "yes" or merge == "true"
@property
def parent(self) -> Optional[Scope]:
return self._parent
@property
def basedir(self) -> str:
return self._basedir
@property
def currentdir(self) -> str:
return self._currentdir
def can_merge_condition(self):
if self._condition == "else":
return False
if self._operations:
return False
child_count = len(self._children)
if child_count == 0 or child_count > 2:
return False
assert child_count != 1 or self._children[0]._condition != "else"
return child_count == 1 or self._children[1]._condition == "else"
def settle_condition(self):
new_children: List[Scope] = []
for c in self._children:
c.settle_condition()
if c.can_merge_condition():
child = c._children[0]
child._condition = "({c._condition}) AND ({child._condition})"
new_children += c._children
else:
new_children.append(c)
self._children = new_children
@staticmethod
def FromDict(
parent_scope: Optional["Scope"], file: str, statements, cond: str = "", base_dir: str = ""
) -> Scope:
scope = Scope(parent_scope=parent_scope, file=file, condition=cond, base_dir=base_dir)
for statement in statements:
if isinstance(statement, list): # Handle skipped parts...
assert not statement
continue
operation = statement.get("operation", None)
if operation:
key = statement.get("key", "")
value = statement.get("value", [])
assert key != ""
if operation == "=":
scope._append_operation(key, SetOperation(value))
elif operation == "-=":
scope._append_operation(key, RemoveOperation(value))
elif operation == "+=":
scope._append_operation(key, AddOperation(value))
elif operation == "*=":
scope._append_operation(key, UniqueAddOperation(value))
elif operation == "~=":
scope._append_operation(key, ReplaceOperation(value))
else:
print(f'Unexpected operation "{operation}" in scope "{scope}".')
assert False
continue
condition = statement.get("condition", None)
if condition:
Scope.FromDict(scope, file, statement.get("statements"), condition, scope.basedir)
else_statements = statement.get("else_statements")
if else_statements:
Scope.FromDict(scope, file, else_statements, "else", scope.basedir)
continue
loaded = statement.get("loaded")
if loaded:
scope._append_operation("_LOADED", UniqueAddOperation(loaded))
continue
option = statement.get("option", None)
if option:
scope._append_operation("_OPTION", UniqueAddOperation(option))
continue
included = statement.get("included", None)
if included:
scope._append_operation("_INCLUDED", UniqueAddOperation(included))
continue
project_required_condition = statement.get("project_required_condition")
if project_required_condition:
scope._append_operation("_REQUIREMENTS", AddOperation(project_required_condition))
scope.settle_condition()
if scope.scope_debug:
print(f"..... [SCOPE_DEBUG]: Created scope {scope}:")
scope.dump(indent=1)
print("..... [SCOPE_DEBUG]: <<END OF SCOPE>>")
return scope
def _append_operation(self, key: str, op: Operation) -> None:
if key in self._operations:
self._operations[key].append(op)
else:
self._operations[key] = [op]
@property
def file(self) -> str:
return self._file or ""
Ugly fix for handling QT_SOURCE_TREE QT_SOURCE_TREE is a variable that is set in qtbase/.qmake.conf. In qtbase, it's used throughout various projects to find cpp sources when building standalone tests (among other things). Everything works fine with qmake, because even if qmake is invoked on the tests subfolder, qmake searches up the source directory tree until it finds a .qmake.conf file, and uses that. When building qttools with qmake, the qdoc project expects to have a QT_SOURCE_TREE value, but it's not actually set in the qttools/.qmake.conf file, so the generated include paths that use that value are incorrect. Curiously the build still succeeds. Now in CMake land we replaced QT_SOURCE_TREE with CMAKE_SOURCE_DIR, but that does not work properly when doing a standalone tests build, because the project in that case is the tests one, and not the qtbase one, so configuration fails in a developer build when trying to configure some private tests. So far I've found that only qtbase actively uses this value. A temporary fix is to save the qtbase source directory into a QT_SOURCE_TREE variable inside the generated BuildInternalsExtra.cmake file. The pro2cmake script is changed to handle presence of QT_SOURCE_TREE in a qrc file path. This is handled by finding the location of a .qmake.conf file starting from the project file absolute path. This is needed to stop the script from crashing when handling the mimedatabase test projects for example. The change also regenerates the relevant failing test projects, and thus standalone tests (when doing developer builds aka private_tests enabled) now configure and build successfully. Change-Id: I15adc6f4ab6e3056c43ed850196204e2229c4d98 Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-07-26 16:59:53 +00:00
@property
def file_absolute_path(self) -> str:
return self._file_absolute_path or ""
Ugly fix for handling QT_SOURCE_TREE QT_SOURCE_TREE is a variable that is set in qtbase/.qmake.conf. In qtbase, it's used throughout various projects to find cpp sources when building standalone tests (among other things). Everything works fine with qmake, because even if qmake is invoked on the tests subfolder, qmake searches up the source directory tree until it finds a .qmake.conf file, and uses that. When building qttools with qmake, the qdoc project expects to have a QT_SOURCE_TREE value, but it's not actually set in the qttools/.qmake.conf file, so the generated include paths that use that value are incorrect. Curiously the build still succeeds. Now in CMake land we replaced QT_SOURCE_TREE with CMAKE_SOURCE_DIR, but that does not work properly when doing a standalone tests build, because the project in that case is the tests one, and not the qtbase one, so configuration fails in a developer build when trying to configure some private tests. So far I've found that only qtbase actively uses this value. A temporary fix is to save the qtbase source directory into a QT_SOURCE_TREE variable inside the generated BuildInternalsExtra.cmake file. The pro2cmake script is changed to handle presence of QT_SOURCE_TREE in a qrc file path. This is handled by finding the location of a .qmake.conf file starting from the project file absolute path. This is needed to stop the script from crashing when handling the mimedatabase test projects for example. The change also regenerates the relevant failing test projects, and thus standalone tests (when doing developer builds aka private_tests enabled) now configure and build successfully. Change-Id: I15adc6f4ab6e3056c43ed850196204e2229c4d98 Reviewed-by: Simon Hausmann <simon.hausmann@qt.io>
2019-07-26 16:59:53 +00:00
@property
def generated_cmake_lists_path(self) -> str:
assert self.basedir
return os.path.join(self.basedir, "CMakeLists.gen.txt")
@property
def original_cmake_lists_path(self) -> str:
assert self.basedir
return os.path.join(self.basedir, "CMakeLists.txt")
@property
def condition(self) -> str:
return self._condition
@property
def total_condition(self) -> Optional[str]:
return self._total_condition
@total_condition.setter
def total_condition(self, condition: str) -> None:
self._total_condition = condition
def _add_child(self, scope: "Scope") -> None:
scope._parent = self
self._children.append(scope)
@property
def children(self) -> List["Scope"]:
result = list(self._children)
for include_scope in self._included_children:
result += include_scope.children
return result
def dump(self, *, indent: int = 0) -> None:
ind = spaces(indent)
print(f'{ind}Scope "{self}":')
if self.total_condition:
print(f"{ind} Total condition = {self.total_condition}")
print(f"{ind} Keys:")
keys = self._operations.keys()
if not keys:
print(f"{ind} -- NONE --")
else:
for k in sorted(keys):
print(f'{ind} {k} = "{self._operations.get(k, [])}"')
print(f"{ind} Children:")
if not self._children:
print(f"{ind} -- NONE --")
else:
for c in self._children:
c.dump(indent=indent + 1)
print(f"{ind} Includes:")
if not self._included_children:
print(f"{ind} -- NONE --")
else:
for c in self._included_children:
c.dump(indent=indent + 1)
def dump_structure(self, *, type: str = "ROOT", indent: int = 0) -> None:
print(f"{spaces(indent)}{type}: {self}")
for i in self._included_children:
i.dump_structure(type="INCL", indent=indent + 1)
for i in self._children:
i.dump_structure(type="CHLD", indent=indent + 1)
@property
def keys(self):
return self._operations.keys()
@property
def visited_keys(self):
return self._visited_keys
def _evalOps(
self,
key: str,
transformer: Optional[Callable[[Scope, List[str]], List[str]]],
result: List[str],
*,
inherit: bool = False,
) -> List[str]:
self._visited_keys.add(key)
# Inherrit values from above:
if self._parent and inherit:
result = self._parent._evalOps(key, transformer, result)
if transformer:
def op_transformer(files):
return transformer(self, files)
else:
def op_transformer(files):
return files
for op in self._operations.get(key, []):
result = op.process(key, result, op_transformer)
for ic in self._included_children:
result = list(ic._evalOps(key, transformer, result))
return result
def get(self, key: str, *, ignore_includes: bool = False, inherit: bool = False) -> List[str]:
is_same_path = self.currentdir == self.basedir
if not is_same_path:
relative_path = os.path.relpath(self.currentdir, self.basedir)
if key == "_PRO_FILE_PWD_":
return ["${CMAKE_CURRENT_SOURCE_DIR}"]
if key == "PWD":
if is_same_path:
return ["${CMAKE_CURRENT_SOURCE_DIR}"]
else:
return [f"${{CMAKE_CURRENT_SOURCE_DIR}}/{relative_path}"]
if key == "OUT_PWD":
if is_same_path:
return ["${CMAKE_CURRENT_BINARY_DIR}"]
else:
return [f"${{CMAKE_CURRENT_BINARY_DIR}}/{relative_path}"]
return self._evalOps(key, None, [], inherit=inherit)
def get_string(self, key: str, default: str = "", inherit: bool = False) -> str:
v = self.get(key, inherit=inherit)
if len(v) == 0:
return default
assert len(v) == 1
return v[0]
def _map_files(
self, files: List[str], *, use_vpath: bool = True, is_include: bool = False
) -> List[str]:
expanded_files = [] # type: List[str]
for f in files:
r = self._expand_value(f)
expanded_files += r
mapped_files = list(
map(lambda f: map_to_file(f, self, is_include=is_include), expanded_files)
)
if use_vpath:
result = list(
map(
lambda f: handle_vpath(f, self.basedir, self.get("VPATH", inherit=True)),
mapped_files,
)
)
else:
result = mapped_files
# strip ${CMAKE_CURRENT_SOURCE_DIR}:
result = list(
map(lambda f: f[28:] if f.startswith("${CMAKE_CURRENT_SOURCE_DIR}/") else f, result)
)
# strip leading ./:
result = list(map(lambda f: trim_leading_dot(f), result))
return result
def get_files(
self, key: str, *, use_vpath: bool = False, is_include: bool = False
) -> List[str]:
def transformer(scope, files):
return scope._map_files(files, use_vpath=use_vpath, is_include=is_include)
return list(self._evalOps(key, transformer, []))
@staticmethod
def _replace_env_var_value(value: Any) -> Any:
if not isinstance(value, str):
return value
pattern = re.compile(r"\$\$\(([A-Za-z_][A-Za-z0-9_]*)\)")
match = re.search(pattern, value)
if match:
value = re.sub(pattern, r"$ENV{\1}", value)
return value
def _expand_value(self, value: str) -> List[str]:
result = value
pattern = re.compile(r"\$\$\{?([A-Za-z_][A-Za-z0-9_]*)\}?")
match = re.search(pattern, result)
while match:
old_result = result
match_group_0 = match.group(0)
if match_group_0 == value:
get_result = self.get(match.group(1), inherit=True)
if len(get_result) == 1:
result = get_result[0]
result = self._replace_env_var_value(result)
else:
# Recursively expand each value from the result list
# returned from self.get().
result_list = []
for entry_value in get_result:
result_list += self._expand_value(self._replace_env_var_value(entry_value))
return result_list
else:
replacement = self.get(match.group(1), inherit=True)
replacement_str = replacement[0] if replacement else ""
result = result[: match.start()] + replacement_str + result[match.end() :]
result = self._replace_env_var_value(result)
if result == old_result:
return [result] # Do not go into infinite loop
match = re.search(pattern, result)
result = self._replace_env_var_value(result)
return [result]
def expand(self, key: str) -> List[str]:
value = self.get(key)
result: List[str] = []
assert isinstance(value, list)
for v in value:
result += self._expand_value(v)
return result
def expandString(self, key: str) -> str:
result = self._expand_value(self.get_string(key))
assert len(result) == 1
return result[0]
@property
def TEMPLATE(self) -> str:
return self.get_string("TEMPLATE", "app")
def _rawTemplate(self) -> str:
return self.get_string("TEMPLATE")
@property
def TARGET(self) -> str:
target = self.expandString("TARGET") or os.path.splitext(os.path.basename(self.file))[0]
return re.sub(r"\.\./", "", target)
@property
def _INCLUDED(self) -> List[str]:
return self.get("_INCLUDED")
class QmakeParser:
def __init__(self, *, debug: bool = False) -> None:
self.debug = debug
self._Grammar = self._generate_grammar()
def _generate_grammar(self):
# Define grammar:
pp.ParserElement.setDefaultWhitespaceChars(" \t")
def add_element(name: str, value: pp.ParserElement):
nonlocal self
if self.debug:
value.setName(name)
value.setDebug()
return value
EOL = add_element("EOL", pp.Suppress(pp.LineEnd()))
Else = add_element("Else", pp.Keyword("else"))
Identifier = add_element(
"Identifier", pp.Word(f"{pp.alphas}_", bodyChars=pp.alphanums + "_-./")
)
BracedValue = add_element(
"BracedValue",
pp.nestedExpr(
ignoreExpr=pp.quotedString
| pp.QuotedString(
quoteChar="$(", endQuoteChar=")", escQuote="\\", unquoteResults=False
)
).setParseAction(lambda s, l, t: ["(", *t[0], ")"]),
)
Substitution = add_element(
"Substitution",
pp.Combine(
pp.Literal("$")
+ (
(
(pp.Literal("$") + Identifier + pp.Optional(pp.nestedExpr()))
| (pp.Literal("(") + Identifier + pp.Literal(")"))
| (pp.Literal("{") + Identifier + pp.Literal("}"))
| (
pp.Literal("$")
+ pp.Literal("{")
+ Identifier
+ pp.Optional(pp.nestedExpr())
+ pp.Literal("}")
)
| (pp.Literal("$") + pp.Literal("[") + Identifier + pp.Literal("]"))
)
)
),
)
LiteralValuePart = add_element(
"LiteralValuePart", pp.Word(pp.printables, excludeChars="$#{}()")
)
SubstitutionValue = add_element(
"SubstitutionValue",
pp.Combine(pp.OneOrMore(Substitution | LiteralValuePart | pp.Literal("$"))),
)
FunctionValue = add_element(
"FunctionValue",
pp.Group(
pp.Suppress(pp.Literal("$") + pp.Literal("$"))
+ Identifier
+ pp.nestedExpr() # .setParseAction(lambda s, l, t: ['(', *t[0], ')'])
).setParseAction(lambda s, l, t: handle_function_value(*t)),
)
Value = add_element(
"Value",
pp.NotAny(Else | pp.Literal("}") | EOL)
+ (
pp.QuotedString(quoteChar='"', escChar="\\")
| FunctionValue
| SubstitutionValue
| BracedValue
),
)
Values = add_element("Values", pp.ZeroOrMore(Value)("value"))
Op = add_element(
"OP", pp.Literal("=") | pp.Literal("-=") | pp.Literal("+=") | pp.Literal("*=") | pp.Literal("~=")
)
Key = add_element("Key", Identifier)
Operation = add_element("Operation", Key("key") + Op("operation") + Values("value"))
CallArgs = add_element("CallArgs", pp.nestedExpr())
def parse_call_args(results):
out = ""
for item in chain(*results):
if isinstance(item, str):
out += item
else:
out += "(" + parse_call_args(item) + ")"
return out
CallArgs.setParseAction(parse_call_args)
Load = add_element("Load", pp.Keyword("load") + CallArgs("loaded"))
Include = add_element("Include", pp.Keyword("include") + CallArgs("included"))
Option = add_element("Option", pp.Keyword("option") + CallArgs("option"))
RequiresCondition = add_element("RequiresCondition", pp.originalTextFor(pp.nestedExpr()))
def parse_requires_condition(s, l, t):
# The following expression unwraps the condition via the additional info
# set by originalTextFor.
condition_without_parentheses = s[t._original_start + 1 : t._original_end - 1]
# And this replaces the colons with '&&' similar how it's done for 'Condition'.
condition_without_parentheses = (
condition_without_parentheses.strip().replace(":", " && ").strip(" && ")
)
return condition_without_parentheses
RequiresCondition.setParseAction(parse_requires_condition)
Requires = add_element(
"Requires", pp.Keyword("requires") + RequiresCondition("project_required_condition")
)
# ignore the whole thing...
DefineTestDefinition = add_element(
"DefineTestDefinition",
pp.Suppress(
pp.Keyword("defineTest")
+ CallArgs
+ pp.nestedExpr(opener="{", closer="}", ignoreExpr=pp.LineEnd())
),
)
# ignore the whole thing...
ForLoop = add_element(
"ForLoop",
pp.Suppress(
pp.Keyword("for")
+ CallArgs
+ pp.nestedExpr(opener="{", closer="}", ignoreExpr=pp.LineEnd())
),
)
# ignore the whole thing...
ForLoopSingleLine = add_element(
"ForLoopSingleLine",
pp.Suppress(pp.Keyword("for") + CallArgs + pp.Literal(":") + pp.SkipTo(EOL)),
)
# ignore the whole thing...
FunctionCall = add_element("FunctionCall", pp.Suppress(Identifier + pp.nestedExpr()))
Scope = add_element("Scope", pp.Forward())
Statement = add_element(
"Statement",
pp.Group(
Load
| Include
| Option
| Requires
| ForLoop
| ForLoopSingleLine
| DefineTestDefinition
| FunctionCall
| Operation
),
)
StatementLine = add_element("StatementLine", Statement + (EOL | pp.FollowedBy("}")))
StatementGroup = add_element(
"StatementGroup", pp.ZeroOrMore(StatementLine | Scope | pp.Suppress(EOL))
)
Block = add_element(
"Block",
pp.Suppress("{")
+ pp.Optional(EOL)
+ StatementGroup
+ pp.Optional(EOL)
+ pp.Suppress("}")
+ pp.Optional(EOL),
)
ConditionEnd = add_element(
"ConditionEnd",
pp.FollowedBy(
(pp.Optional(pp.White()) + (pp.Literal(":") | pp.Literal("{") | pp.Literal("|")))
),
)
ConditionPart1 = add_element(
"ConditionPart1", (pp.Optional("!") + Identifier + pp.Optional(BracedValue))
)
ConditionPart2 = add_element("ConditionPart2", pp.CharsNotIn("#{}|:=\\\n"))
ConditionPart = add_element(
"ConditionPart", (ConditionPart1 ^ ConditionPart2) + ConditionEnd
)
ConditionOp = add_element("ConditionOp", pp.Literal("|") ^ pp.Literal(":"))
ConditionWhiteSpace = add_element(
"ConditionWhiteSpace", pp.Suppress(pp.Optional(pp.White(" ")))
)
ConditionRepeated = add_element(
"ConditionRepeated", pp.ZeroOrMore(ConditionOp + ConditionWhiteSpace + ConditionPart)
)
Condition = add_element("Condition", pp.Combine(ConditionPart + ConditionRepeated))
Condition.setParseAction(lambda x: " ".join(x).strip().replace(":", " && ").strip(" && "))
# Weird thing like write_file(a)|error() where error() is the alternative condition
# which happens to be a function call. In this case there is no scope, but our code expects
# a scope with a list of statements, so create a fake empty statement.
ConditionEndingInFunctionCall = add_element(
"ConditionEndingInFunctionCall",
pp.Suppress(ConditionOp)
+ FunctionCall
+ pp.Empty().setParseAction(lambda x: [[]]).setResultsName("statements"),
)
SingleLineScope = add_element(
"SingleLineScope",
pp.Suppress(pp.Literal(":")) + pp.Group(Block | (Statement + EOL))("statements"),
)
MultiLineScope = add_element("MultiLineScope", Block("statements"))
SingleLineElse = add_element(
"SingleLineElse",
pp.Suppress(pp.Literal(":")) + (Scope | Block | (Statement + pp.Optional(EOL))),
)
MultiLineElse = add_element("MultiLineElse", Block)
ElseBranch = add_element("ElseBranch", pp.Suppress(Else) + (SingleLineElse | MultiLineElse))
# Scope is already add_element'ed in the forward declaration above.
Scope <<= pp.Group(
Condition("condition")
+ (SingleLineScope | MultiLineScope | ConditionEndingInFunctionCall)
+ pp.Optional(ElseBranch)("else_statements")
)
Grammar = StatementGroup("statements")
Grammar.ignore(pp.pythonStyleComment())
return Grammar
def parseFile(self, file: str):
print(f'Parsing "{file}"...')
try:
with open(file, "r") as file_fd:
contents = file_fd.read()
# old_contents = contents
contents = fixup_comments(contents)
contents = fixup_linecontinuation(contents)
result = self._Grammar.parseString(contents, parseAll=True)
except pp.ParseException as pe:
print(pe.line)
print(f"{' ' * (pe.col-1)}^")
print(pe)
raise pe
return result
def parseProFile(file: str, *, debug=False):
parser = QmakeParser(debug=debug)
return parser.parseFile(file)
# Given "if(a|b):c" returns "(a|b):c". Uses pyparsing to keep the parentheses
# balanced.
def unwrap_if(input_string):
# Compute the grammar only once.
if not hasattr(unwrap_if, "if_grammar"):
expr_with_parentheses = pp.originalTextFor(pp.nestedExpr())
if_keyword = pp.Suppress(pp.Keyword("if"))
unwrap_if.if_grammar = if_keyword + expr_with_parentheses
output_string = unwrap_if.if_grammar.transformString(input_string)
return output_string
def map_condition(condition: str) -> str:
# Some hardcoded cases that are too bothersome to generalize.
condition = re.sub(
r"qtConfig\(opengl\(es1\|es2\)\?\)",
r"QT_FEATURE_opengl OR QT_FEATURE_opengles2 OR QT_FEATURE_opengles3",
condition,
)
condition = re.sub(r"qtConfig\(opengl\.\*\)", r"QT_FEATURE_opengl", condition)
condition = re.sub(r"^win\*$", r"win", condition)
condition = re.sub(r"^no-png$", r"NOT QT_FEATURE_png", condition)
condition = re.sub(r"contains\(CONFIG, static\)", r"NOT QT_BUILD_SHARED_LIBS", condition)
condition = re.sub(r"contains\(QT_CONFIG,\w*shared\)", r"QT_BUILD_SHARED_LIBS", condition)
def gcc_version_handler(match_obj: Match):
operator = match_obj.group(1)
version_type = match_obj.group(2)
if operator == "equals":
operator = "STREQUAL"
elif operator == "greaterThan":
operator = "STRGREATER"
elif operator == "lessThan":
operator = "STRLESS"
version = match_obj.group(3)
return f"(QT_COMPILER_VERSION_{version_type} {operator} {version})"
# TODO: Possibly fix for other compilers.
pattern = r"(equals|greaterThan|lessThan)\(QT_GCC_([A-Z]+)_VERSION,[ ]*([0-9]+)\)"
condition = re.sub(pattern, gcc_version_handler, condition)
# Handle if(...) conditions.
condition = unwrap_if(condition)
condition = re.sub(r"\bisEmpty\s*\((.*?)\)", r"\1_ISEMPTY", condition)
condition = re.sub(r'\bcontains\s*\((.*?),\s*"?(.*?)"?\)', r"\1___contains___\2", condition)
condition = re.sub(r'\bequals\s*\((.*?),\s*"?(.*?)"?\)', r"\1___equals___\2", condition)
condition = re.sub(r'\bisEqual\s*\((.*?),\s*"?(.*?)"?\)', r"\1___equals___\2", condition)
condition = re.sub(r"\s*==\s*", "___STREQUAL___", condition)
condition = re.sub(r"\bexists\s*\((.*?)\)", r"EXISTS \1", condition)
pattern = r"CONFIG\((debug|release),debug\|release\)"
match_result = re.match(pattern, condition)
if match_result:
build_type = match_result.group(1)
if build_type == "debug":
build_type = "Debug"
elif build_type == "release":
build_type = "Release"
condition = re.sub(pattern, f"(CMAKE_BUILD_TYPE STREQUAL {build_type})", condition)
condition = condition.replace("*", "_x_")
condition = condition.replace(".$$", "__ss_")
condition = condition.replace("$$", "_ss_")
condition = condition.replace("!", "NOT ")
condition = condition.replace("&&", " AND ")
condition = condition.replace("|", " OR ")
cmake_condition = ""
for part in condition.split():
# some features contain e.g. linux, that should not be
# turned upper case
feature = re.match(r"(qtConfig|qtHaveModule)\(([a-zA-Z0-9_-]+)\)", part)
if feature:
if feature.group(1) == "qtHaveModule":
part = f"TARGET {map_qt_library(feature.group(2))}"
else:
feature_name = featureName(feature.group(2))
if feature_name.startswith("system_") and is_known_3rd_party_library(
feature_name[7:]
):
part = "ON"
elif feature == "dlopen":
part = "ON"
else:
part = "QT_FEATURE_" + feature_name
else:
part = map_platform(part)
part = part.replace("true", "ON")
part = part.replace("false", "OFF")
cmake_condition += " " + part
return cmake_condition.strip()
def handle_subdir(
scope: Scope, cm_fh: IO[str], *, indent: int = 0, is_example: bool = False
) -> None:
# Global nested dictionary that will contain sub_dir assignments and their conditions.
# Declared as a global in order not to pollute the nested function signatures with giant
# type hints.
sub_dirs: Dict[str, Dict[str, Set[FrozenSet[str]]]] = {}
# Collects assignment conditions into global sub_dirs dict.
def collect_subdir_info(sub_dir_assignment: str, *, current_conditions: FrozenSet[str] = None):
subtraction = sub_dir_assignment.startswith("-")
if subtraction:
subdir_name = sub_dir_assignment[1:]
else:
subdir_name = sub_dir_assignment
if subdir_name not in sub_dirs:
sub_dirs[subdir_name] = {}
additions = sub_dirs[subdir_name].get("additions", set())
subtractions = sub_dirs[subdir_name].get("subtractions", set())
if current_conditions:
if subtraction:
subtractions.add(current_conditions)
else:
additions.add(current_conditions)
if additions:
sub_dirs[subdir_name]["additions"] = additions
if subtractions:
sub_dirs[subdir_name]["subtractions"] = subtractions
# Recursive helper that collects subdir info for given scope,
# and the children of the given scope.
def handle_subdir_helper(
scope: Scope,
cm_fh: IO[str],
*,
indent: int = 0,
current_conditions: FrozenSet[str] = None,
is_example: bool = False,
):
for sd in scope.get_files("SUBDIRS"):
# Collect info about conditions and SUBDIR assignments in the
# current scope.
if os.path.isdir(sd) or sd.startswith("-"):
collect_subdir_info(sd, current_conditions=current_conditions)
# For the file case, directly write into the file handle.
elif os.path.isfile(sd):
# Handle cases with SUBDIRS += Foo/bar/z.pro. We want to be able
# to generate add_subdirectory(Foo/bar) instead of parsing the full
# .pro file in the current CMakeLists.txt. This causes issues
# with relative paths in certain projects otherwise.
dirname = os.path.dirname(sd)
if dirname:
collect_subdir_info(dirname, current_conditions=current_conditions)
else:
subdir_result = parseProFile(sd, debug=False)
subdir_scope = Scope.FromDict(
scope, sd, subdir_result.asDict().get("statements"), "", scope.basedir
)
do_include(subdir_scope)
cmakeify_scope(subdir_scope, cm_fh, indent=indent, is_example=is_example)
else:
print(f" XXXX: SUBDIR {sd} in {scope}: Not found.")
# Collect info about conditions and SUBDIR assignments in child
# scopes, aka recursively call the same function, but with an
# updated current_conditions frozen set.
for c in scope.children:
# Use total_condition for 'else' conditions, otherwise just use the regular value to
# simplify the logic.
child_condition = c.total_condition if c.condition == "else" else c.condition
handle_subdir_helper(
c,
cm_fh,
indent=indent + 1,
is_example=is_example,
current_conditions=frozenset((*current_conditions, child_condition)),
)
def group_and_print_sub_dirs(scope: Scope, indent: int = 0):
# Simplify conditions, and group
# subdirectories with the same conditions.
grouped_sub_dirs = {}
# Wraps each element in the given interable with parentheses,
# to make sure boolean simplification happens correctly.
def wrap_in_parenthesis(iterable):
return [f"({c})" for c in iterable]
def join_all_conditions(set_of_alternatives):
# Elements within one frozen set represent one single
# alternative whose pieces are ANDed together.
# This is repeated for each alternative that would
# enable a subdir, and are thus ORed together.
final_str = ""
if set_of_alternatives:
wrapped_set_of_alternatives = [
wrap_in_parenthesis(alternative) for alternative in set_of_alternatives
]
alternatives = [
f'({" AND ".join(alternative)})' for alternative in wrapped_set_of_alternatives
]
final_str = " OR ".join(sorted(alternatives))
return final_str
for subdir_name in sub_dirs:
additions = sub_dirs[subdir_name].get("additions", set())
subtractions = sub_dirs[subdir_name].get("subtractions", set())
# An empty condition key represents the group of sub dirs
# that should be added unconditionally.
condition_key = ""
if additions or subtractions:
addition_str = join_all_conditions(additions)
if addition_str:
addition_str = f"({addition_str})"
subtraction_str = join_all_conditions(subtractions)
if subtraction_str:
subtraction_str = f"NOT ({subtraction_str})"
condition_str = addition_str
if condition_str and subtraction_str:
condition_str += " AND "
condition_str += subtraction_str
if not condition_str.rstrip("()").strip():
continue
condition_simplified = simplify_condition(condition_str)
condition_key = condition_simplified
sub_dir_list_by_key = grouped_sub_dirs.get(condition_key, [])
sub_dir_list_by_key.append(subdir_name)
grouped_sub_dirs[condition_key] = sub_dir_list_by_key
# Print any requires() blocks.
cm_fh.write(expand_project_requirements(scope))
# Print the groups.
ind = spaces(indent)
for condition_key in grouped_sub_dirs:
cond_ind = ind
if condition_key:
cm_fh.write(f"{ind}if({condition_key})\n")
cond_ind += " "
sub_dir_list_by_key = grouped_sub_dirs.get(condition_key, [])
for subdir_name in sub_dir_list_by_key:
cm_fh.write(f"{cond_ind}add_subdirectory({subdir_name})\n")
if condition_key:
cm_fh.write(f"{ind}endif()\n")
# A set of conditions which will be ANDed together. The set is recreated with more conditions
# as the scope deepens.
current_conditions = frozenset()
# Compute the total condition for scopes. Needed for scopes that
# have 'else' as a condition.
recursive_evaluate_scope(scope)
# Do the work.
handle_subdir_helper(
scope, cm_fh, indent=indent, current_conditions=current_conditions, is_example=is_example
)
group_and_print_sub_dirs(scope, indent=indent)
def sort_sources(sources: List[str]) -> List[str]:
to_sort = {} # type: Dict[str, List[str]]
for s in sources:
if s is None:
continue
dir = os.path.dirname(s)
base = os.path.splitext(os.path.basename(s))[0]
if base.endswith("_p"):
base = base[:-2]
sort_name = posixpath.join(dir, base)
array = to_sort.get(sort_name, [])
array.append(s)
to_sort[sort_name] = array
lines = []
for k in sorted(to_sort.keys()):
lines.append(" ".join(sorted(to_sort[k])))
return lines
def _map_libraries_to_cmake(libraries: List[str], known_libraries: Set[str]) -> List[str]:
result = [] # type: List[str]
is_framework = False
for lib in libraries:
if lib == "-framework":
is_framework = True
continue
if is_framework:
lib = f"${{FW{lib}}}"
if lib.startswith("-l"):
lib = lib[2:]
if lib.startswith("-"):
lib = f"# Remove: {lib[1:]}"
else:
lib = map_3rd_party_library(lib)
if not lib or lib in result or lib in known_libraries:
continue
result.append(lib)
is_framework = False
return result
def extract_cmake_libraries(
scope: Scope, *, known_libraries: Optional[Set[str]] = None
) -> Tuple[List[str], List[str]]:
if known_libraries is None:
known_libraries = set()
public_dependencies = [] # type: List[str]
private_dependencies = [] # type: List[str]
for key in ["QMAKE_USE", "LIBS"]:
public_dependencies += scope.expand(key)
for key in ["QMAKE_USE_PRIVATE", "QMAKE_USE_FOR_PRIVATE", "LIBS_PRIVATE"]:
private_dependencies += scope.expand(key)
for key in ["QT_FOR_PRIVATE", "QT_PRIVATE"]:
private_dependencies += [map_qt_library(q) for q in scope.expand(key)]
for key in ["QT"]:
# Qt public libs: These may include FooPrivate in which case we get
# a private dependency on FooPrivate as well as a public dependency on Foo
for lib in scope.expand(key):
mapped_lib = map_qt_library(lib)
if mapped_lib.endswith("Private"):
private_dependencies.append(mapped_lib)
public_dependencies.append(mapped_lib[:-7])
else:
public_dependencies.append(mapped_lib)
return (
_map_libraries_to_cmake(public_dependencies, known_libraries),
_map_libraries_to_cmake(private_dependencies, known_libraries),
)
def write_header(cm_fh: IO[str], name: str, typename: str, *, indent: int = 0):
ind = spaces(indent)
comment_line = "#" * 69
cm_fh.write(f"{ind}{comment_line}\n")
cm_fh.write(f"{ind}## {name} {typename}:\n")
cm_fh.write(f"{ind}{comment_line}\n\n")
def write_scope_header(cm_fh: IO[str], *, indent: int = 0):
ind = spaces(indent)
comment_line = "#" * 69
cm_fh.write(f"\n{ind}## Scopes:\n")
cm_fh.write(f"{ind}{comment_line}\n")
def write_list(
cm_fh: IO[str],
entries: List[str],
cmake_parameter: str,
indent: int = 0,
*,
header: str = "",
footer: str = "",
prefix: str = "",
):
if not entries:
return
ind = spaces(indent)
extra_indent = ""
if header:
cm_fh.write(f"{ind}{header}")
extra_indent += " "
if cmake_parameter:
cm_fh.write(f"{ind}{extra_indent}{cmake_parameter}\n")
extra_indent += " "
for s in sort_sources(entries):
cm_fh.write(f"{ind}{extra_indent}{prefix}{s}\n")
if footer:
cm_fh.write(f"{ind}{footer}\n")
def write_source_file_list(
cm_fh: IO[str],
scope,
cmake_parameter: str,
keys: List[str],
indent: int = 0,
*,
header: str = "",
footer: str = "",
):
# collect sources
sources: List[str] = []
for key in keys:
sources += scope.get_files(key, use_vpath=True)
write_list(cm_fh, sources, cmake_parameter, indent, header=header, footer=footer)
def write_all_source_file_lists(
cm_fh: IO[str],
scope: Scope,
header: str,
*,
indent: int = 0,
footer: str = "",
extra_keys: Optional[List[str]] = None,
):
if extra_keys is None:
extra_keys = []
write_source_file_list(
cm_fh,
scope,
header,
["SOURCES", "HEADERS", "OBJECTIVE_SOURCES", "OBJECTIVE_HEADERS", "NO_PCH_SOURCES", "FORMS"]
+ extra_keys,
indent,
footer=footer,
)
def write_defines(
cm_fh: IO[str], scope: Scope, cmake_parameter: str, *, indent: int = 0, footer: str = ""
):
defines = scope.expand("DEFINES")
defines += [d[2:] for d in scope.expand("QMAKE_CXXFLAGS") if d.startswith("-D")]
defines = [
d.replace('=\\\\\\"$$PWD/\\\\\\"', '="${CMAKE_CURRENT_SOURCE_DIR}/"') for d in defines
]
if "qml_debug" in scope.get("CONFIG"):
defines.append("QT_QML_DEBUG")
write_list(cm_fh, defines, cmake_parameter, indent, footer=footer)
def write_include_paths(
cm_fh: IO[str], scope: Scope, cmake_parameter: str, *, indent: int = 0, footer: str = ""
):
includes = [i.rstrip("/") or ("/") for i in scope.get_files("INCLUDEPATH")]
write_list(cm_fh, includes, cmake_parameter, indent, footer=footer)
def write_compile_options(
cm_fh: IO[str], scope: Scope, cmake_parameter: str, *, indent: int = 0, footer: str = ""
):
compile_options = [d for d in scope.expand("QMAKE_CXXFLAGS") if not d.startswith("-D")]
write_list(cm_fh, compile_options, cmake_parameter, indent, footer=footer)
def write_library_section(
cm_fh: IO[str], scope: Scope, *, indent: int = 0, known_libraries: Optional[Set[str]] = None
):
if known_libraries is None:
known_libraries = set()
public_dependencies, private_dependencies = extract_cmake_libraries(
scope, known_libraries=known_libraries
)
write_list(cm_fh, private_dependencies, "LIBRARIES", indent + 1)
write_list(cm_fh, public_dependencies, "PUBLIC_LIBRARIES", indent + 1)
def write_autogen_section(cm_fh: IO[str], scope: Scope, *, indent: int = 0):
forms = scope.get_files("FORMS")
if forms:
write_list(cm_fh, ["uic"], "ENABLE_AUTOGEN_TOOLS", indent)
def write_sources_section(
cm_fh: IO[str], scope: Scope, *, indent: int = 0, known_libraries: Optional[Set[str]] = None
):
if known_libraries is None:
known_libraries = set()
ind = spaces(indent)
# mark RESOURCES as visited:
scope.get("RESOURCES")
write_all_source_file_lists(cm_fh, scope, "SOURCES", indent=indent + 1)
write_source_file_list(cm_fh, scope, "DBUS_ADAPTOR_SOURCES", ["DBUS_ADAPTORS"], indent + 1)
dbus_adaptor_flags = scope.expand("QDBUSXML2CPP_ADAPTOR_HEADER_FLAGS")
if dbus_adaptor_flags:
dbus_adaptor_flags_line = '" "'.join(dbus_adaptor_flags)
cm_fh.write(f"{ind} DBUS_ADAPTOR_FLAGS\n")
cm_fh.write(f'{ind} "{dbus_adaptor_flags_line}"\n')
write_source_file_list(cm_fh, scope, "DBUS_INTERFACE_SOURCES", ["DBUS_INTERFACES"], indent + 1)
dbus_interface_flags = scope.expand("QDBUSXML2CPP_INTERFACE_HEADER_FLAGS")
if dbus_interface_flags:
dbus_interface_flags_line = '" "'.join(dbus_interface_flags)
cm_fh.write(f"{ind} DBUS_INTERFACE_FLAGS\n")
cm_fh.write(f'{ind} "{dbus_interface_flags_line}"\n')
write_defines(cm_fh, scope, "DEFINES", indent=indent + 1)
write_include_paths(cm_fh, scope, "INCLUDE_DIRECTORIES", indent=indent + 1)
write_library_section(cm_fh, scope, indent=indent, known_libraries=known_libraries)
write_compile_options(cm_fh, scope, "COMPILE_OPTIONS", indent=indent + 1)
write_autogen_section(cm_fh, scope, indent=indent + 1)
link_options = scope.get("QMAKE_LFLAGS")
if link_options:
cm_fh.write(f"{ind} LINK_OPTIONS\n")
for lo in link_options:
cm_fh.write(f'{ind} "{lo}"\n')
moc_options = scope.get("QMAKE_MOC_OPTIONS")
if moc_options:
cm_fh.write(f"{ind} MOC_OPTIONS\n")
for mo in moc_options:
cm_fh.write(f'{ind} "{mo}"\n')
precompiled_header = scope.get("PRECOMPILED_HEADER")
if precompiled_header:
cm_fh.write(f"{ind} PRECOMPILED_HEADER\n")
for header in precompiled_header:
cm_fh.write(f'{ind} "{header}"\n')
no_pch_sources = scope.get("NO_PCH_SOURCES")
if no_pch_sources:
cm_fh.write(f"{ind} NO_PCH_SOURCES\n")
for source in no_pch_sources:
cm_fh.write(f'{ind} "{source}"\n')
def is_simple_condition(condition: str) -> bool:
return " " not in condition or (condition.startswith("NOT ") and " " not in condition[4:])
def write_ignored_keys(scope: Scope, indent: str) -> str:
result = ""
ignored_keys = scope.keys - scope.visited_keys
for k in sorted(ignored_keys):
if k in {
"_INCLUDED",
"TARGET",
"QMAKE_DOCS",
"QT_SOURCE_TREE",
"QT_BUILD_TREE",
"TRACEPOINT_PROVIDER",
"PLUGIN_TYPE",
"PLUGIN_CLASS_NAME",
"CLASS_NAME",
"MODULE_PLUGIN_TYPES",
}:
# All these keys are actually reported already
continue
values = scope.get(k)
value_string = "<EMPTY>" if not values else '"' + '" "'.join(scope.get(k)) + '"'
result += f"{indent}# {k} = {value_string}\n"
if result:
result = f"\n#### Keys ignored in scope {scope}:\n{result}"
return result
def _iterate_expr_tree(expr, op, matches):
assert expr.func == op
keepers = ()
for arg in expr.args:
if arg in matches:
matches = tuple(x for x in matches if x != arg)
elif arg == op:
(matches, extra_keepers) = _iterate_expr_tree(arg, op, matches)
keepers = (*keepers, *extra_keepers)
else:
keepers = (*keepers, arg)
return matches, keepers
def _simplify_expressions(expr, op, matches, replacement):
for arg in expr.args:
expr = expr.subs(arg, _simplify_expressions(arg, op, matches, replacement))
if expr.func == op:
(to_match, keepers) = tuple(_iterate_expr_tree(expr, op, matches))
if len(to_match) == 0:
# build expression with keepers and replacement:
if keepers:
start = replacement
current_expr = None
last_expr = keepers[-1]
for repl_arg in keepers[:-1]:
current_expr = op(start, repl_arg)
start = current_expr
top_expr = op(start, last_expr)
else:
top_expr = replacement
expr = expr.subs(expr, top_expr)
return expr
def _simplify_flavors_in_condition(base: str, flavors, expr):
""" Simplify conditions based on the knownledge of which flavors
belong to which OS. """
base_expr = simplify_logic(base)
false_expr = simplify_logic("false")
for flavor in flavors:
flavor_expr = simplify_logic(flavor)
expr = _simplify_expressions(expr, And, (base_expr, flavor_expr), flavor_expr)
expr = _simplify_expressions(expr, Or, (base_expr, flavor_expr), base_expr)
expr = _simplify_expressions(expr, And, (Not(base_expr), flavor_expr), false_expr)
return expr
def _simplify_os_families(expr, family_members, other_family_members):
for family in family_members:
for other in other_family_members:
if other in family_members:
continue # skip those in the sub-family
f_expr = simplify_logic(family)
o_expr = simplify_logic(other)
expr = _simplify_expressions(expr, And, (f_expr, Not(o_expr)), f_expr)
expr = _simplify_expressions(expr, And, (Not(f_expr), o_expr), o_expr)
expr = _simplify_expressions(expr, And, (f_expr, o_expr), simplify_logic("false"))
return expr
def _recursive_simplify(expr):
""" Simplify the expression as much as possible based on
domain knowledge. """
input_expr = expr
# Simplify even further, based on domain knowledge:
# windowses = ('WIN32', 'WINRT')
apples = ("APPLE_OSX", "APPLE_UIKIT", "APPLE_IOS", "APPLE_TVOS", "APPLE_WATCHOS")
bsds = ("FREEBSD", "OPENBSD", "NETBSD")
androids = ("ANDROID", "ANDROID_EMBEDDED")
unixes = (
"APPLE",
*apples,
"BSD",
*bsds,
"LINUX",
*androids,
"HAIKU",
"INTEGRITY",
"VXWORKS",
"QNX",
"WASM",
)
unix_expr = simplify_logic("UNIX")
win_expr = simplify_logic("WIN32")
false_expr = simplify_logic("false")
true_expr = simplify_logic("true")
expr = expr.subs(Not(unix_expr), win_expr) # NOT UNIX -> WIN32
expr = expr.subs(Not(win_expr), unix_expr) # NOT WIN32 -> UNIX
# UNIX [OR foo ]OR WIN32 -> ON [OR foo]
expr = _simplify_expressions(expr, Or, (unix_expr, win_expr), true_expr)
# UNIX [AND foo ]AND WIN32 -> OFF [AND foo]
expr = _simplify_expressions(expr, And, (unix_expr, win_expr), false_expr)
expr = _simplify_flavors_in_condition("WIN32", ("WINRT",), expr)
expr = _simplify_flavors_in_condition("APPLE", apples, expr)
expr = _simplify_flavors_in_condition("BSD", bsds, expr)
expr = _simplify_flavors_in_condition("UNIX", unixes, expr)
expr = _simplify_flavors_in_condition("ANDROID", ("ANDROID_EMBEDDED",), expr)
# Simplify families of OSes against other families:
expr = _simplify_os_families(expr, ("WIN32", "WINRT"), unixes)
expr = _simplify_os_families(expr, androids, unixes)
expr = _simplify_os_families(expr, ("BSD", *bsds), unixes)
for family in ("HAIKU", "QNX", "INTEGRITY", "LINUX", "VXWORKS"):
expr = _simplify_os_families(expr, (family,), unixes)
# Now simplify further:
expr = simplify_logic(expr)
while expr != input_expr:
input_expr = expr
expr = _recursive_simplify(expr)
return expr
def simplify_condition(condition: str) -> str:
input_condition = condition.strip()
# Map to sympy syntax:
condition = " " + input_condition + " "
condition = condition.replace("(", " ( ")
condition = condition.replace(")", " ) ")
tmp = ""
while tmp != condition:
tmp = condition
condition = condition.replace(" NOT ", " ~ ")
condition = condition.replace(" AND ", " & ")
condition = condition.replace(" OR ", " | ")
condition = condition.replace(" ON ", " true ")
condition = condition.replace(" OFF ", " false ")
# Replace dashes with a token
condition = condition.replace("-", "_dash_")
# SymPy chokes on expressions that contain two tokens one next to
# the other delimited by a space, which are not an operation.
# So a CMake condition like "TARGET Foo::Bar" fails the whole
# expression simplifying process.
# Turn these conditions into a single token so that SymPy can parse
# the expression, and thus simplify it.
# Do this by replacing and keeping a map of conditions to single
# token symbols.
# Support both target names without double colons, and with double
# colons.
pattern = re.compile(r"(TARGET [a-zA-Z]+(?:::[a-zA-Z]+)?)")
target_symbol_mapping = {}
all_target_conditions = re.findall(pattern, condition)
for target_condition in all_target_conditions:
# Replace spaces and colons with underscores.
target_condition_symbol_name = re.sub("[ :]", "_", target_condition)
target_symbol_mapping[target_condition_symbol_name] = target_condition
condition = re.sub(target_condition, target_condition_symbol_name, condition)
try:
# Generate and simplify condition using sympy:
condition_expr = simplify_logic(condition)
condition = str(_recursive_simplify(condition_expr))
# Restore the target conditions.
for symbol_name in target_symbol_mapping:
condition = re.sub(symbol_name, target_symbol_mapping[symbol_name], condition)
# Map back to CMake syntax:
condition = condition.replace("~", "NOT ")
condition = condition.replace("&", "AND")
condition = condition.replace("|", "OR")
condition = condition.replace("True", "ON")
condition = condition.replace("False", "OFF")
condition = condition.replace("_dash_", "-")
except (SympifyError, TypeError, AttributeError):
# sympy did not like our input, so leave this condition alone:
condition = input_condition
return condition or "ON"
def recursive_evaluate_scope(
scope: Scope, parent_condition: str = "", previous_condition: str = ""
) -> str:
current_condition = scope.condition
total_condition = current_condition
if total_condition == "else":
assert previous_condition, f"Else branch without previous condition in: {scope.file}"
total_condition = f"NOT ({previous_condition})"
if parent_condition:
if not total_condition:
total_condition = parent_condition
else:
total_condition = f"({parent_condition}) AND ({total_condition})"
scope.total_condition = simplify_condition(total_condition)
prev_condition = ""
for c in scope.children:
prev_condition = recursive_evaluate_scope(c, total_condition, prev_condition)
return current_condition
def map_to_cmake_condition(condition: str = "") -> str:
condition = condition.replace("QTDIR_build", "QT_BUILDING_QT")
condition = re.sub(
r"\bQT_ARCH___equals___([a-zA-Z_0-9]*)",
r'(TEST_architecture_arch STREQUAL "\1")',
condition or "",
)
condition = re.sub(
r"\bQT_ARCH___contains___([a-zA-Z_0-9]*)",
r'(TEST_architecture_arch STREQUAL "\1")',
condition or "",
)
return condition
resource_file_expansion_counter = 0
def expand_resource_glob(cm_fh: IO[str], expression: str) -> str:
global resource_file_expansion_counter
r = expression.replace('"', "")
cm_fh.write(
dedent(
f"""
file(GLOB resource_glob_{resource_file_expansion_counter} RELATIVE "${{CMAKE_CURRENT_SOURCE_DIR}}" "{r}")
foreach(file IN LISTS resource_glob_{resource_file_expansion_counter})
set_source_files_properties("${{CMAKE_CURRENT_SOURCE_DIR}}/${{file}}" PROPERTIES QT_RESOURCE_ALIAS "${{file}}")
endforeach()
"""
)
)
expanded_var = f"${{resource_glob_{resource_file_expansion_counter}}}"
resource_file_expansion_counter += 1
return expanded_var
def write_resources(cm_fh: IO[str], target: str, scope: Scope, indent: int = 0, is_example=False):
# vpath = scope.expand('VPATH')
# Handle QRC files by turning them into add_qt_resource:
resources = scope.get_files("RESOURCES")
qtquickcompiler_skipped = scope.get_files("QTQUICK_COMPILER_SKIPPED_RESOURCES")
qtquickcompiler_retained = scope.get_files("QTQUICK_COMPILER_RETAINED_RESOURCES")
qrc_output = ""
if resources:
standalone_files: List[str] = []
for r in resources:
skip_qtquick_compiler = r in qtquickcompiler_skipped
retain_qtquick_compiler = r in qtquickcompiler_retained
if r.endswith(".qrc"):
if "${CMAKE_CURRENT_BINARY_DIR}" in r:
cm_fh.write(f"#### Ignored generated resource: {r}")
continue
qrc_output += process_qrc_file(
target,
r,
scope.basedir,
scope.file_absolute_path,
skip_qtquick_compiler,
retain_qtquick_compiler,
is_example,
)
else:
immediate_files = {f: "" for f in scope.get_files(f"{r}.files")}
if immediate_files:
immediate_files_filtered = []
for f in immediate_files:
if "*" in f:
immediate_files_filtered.append(expand_resource_glob(cm_fh, f))
else:
immediate_files_filtered.append(f)
immediate_files = {f: "" for f in immediate_files_filtered}
immediate_prefix = scope.get(f"{r}.prefix")
if immediate_prefix:
immediate_prefix = immediate_prefix[0]
else:
immediate_prefix = "/"
immediate_base = scope.get(f"{r}.base")
immediate_lang = None
immediate_name = f"qmake_{r}"
qrc_output += write_add_qt_resource_call(
target,
immediate_name,
immediate_prefix,
immediate_base,
immediate_lang,
immediate_files,
skip_qtquick_compiler,
retain_qtquick_compiler,
is_example,
)
else:
if "*" in r:
standalone_files.append(expand_resource_glob(cm_fh, r))
else:
# stadalone source file properties need to be set as they
# are parsed.
if skip_qtquick_compiler:
qrc_output += (
f'set_source_files_properties("{r}" PROPERTIES '
f"QT_SKIP_QUICKCOMPILER 1)\n\n"
)
if retain_qtquick_compiler:
qrc_output += (
f'set_source_files_properties("{r}" PROPERTIES '
f"QT_RETAIN_QUICKCOMPILER 1)\n\n"
)
standalone_files.append(r)
if standalone_files:
name = "qmake_immediate"
prefix = "/"
base = None
lang = None
files = {f: "" for f in standalone_files}
skip_qtquick_compiler = False
qrc_output += write_add_qt_resource_call(
target,
name,
prefix,
base,
lang,
files,
skip_qtquick_compiler=False,
retain_qtquick_compiler=False,
is_example=is_example,
)
if qrc_output:
cm_fh.write("\n# Resources:\n")
for line in qrc_output.split("\n"):
cm_fh.write(f"{' ' * indent}{line}\n")
def write_statecharts(cm_fh: IO[str], target: str, scope: Scope, indent: int = 0, is_example=False):
sources = scope.get("STATECHARTS")
if not sources:
return
cm_fh.write("\n# Statecharts:\n")
if is_example:
cm_fh.write(f"qt6_add_statecharts({target}\n")
else:
cm_fh.write(f"add_qt_statecharts({target} FILES\n")
indent += 1
for f in sources:
cm_fh.write(f"{spaces(indent)}{f}\n")
cm_fh.write(")\n")
def expand_project_requirements(scope: Scope, skip_message: bool = False) -> str:
requirements = ""
for requirement in scope.get("_REQUIREMENTS"):
original_condition = simplify_condition(map_condition(requirement))
inverted_requirement = simplify_condition(f"NOT ({map_condition(requirement)})")
if not skip_message:
message = f"""
{spaces(7)}message(NOTICE "Skipping the build as the condition \\"{original_condition}\\" is not met.")"""
else:
message = ""
requirements += dedent(
f"""\
if({inverted_requirement}){message}
return()
endif()
"""
)
return requirements
def write_extend_target(cm_fh: IO[str], target: str, scope: Scope, indent: int = 0):
ind = spaces(indent)
extend_qt_io_string = io.StringIO()
write_sources_section(extend_qt_io_string, scope)
extend_qt_string = extend_qt_io_string.getvalue()
extend_scope = (
f"\n{ind}extend_target({target} CONDITION"
f" {map_to_cmake_condition(scope.total_condition)}\n"
f"{extend_qt_string}{ind})\n"
)
if not extend_qt_string:
extend_scope = "" # Nothing to report, so don't!
cm_fh.write(extend_scope)
write_resources(cm_fh, target, scope, indent)
def flatten_scopes(scope: Scope) -> List[Scope]:
result = [scope] # type: List[Scope]
for c in scope.children:
result += flatten_scopes(c)
return result
def merge_scopes(scopes: List[Scope]) -> List[Scope]:
result = [] # type: List[Scope]
# Merge scopes with their parents:
known_scopes = {} # type: Mapping[str, Scope]
for scope in scopes:
total_condition = scope.total_condition
assert total_condition
if total_condition == "OFF":
# ignore this scope entirely!
pass
elif total_condition in known_scopes:
known_scopes[total_condition].merge(scope)
else:
# Keep everything else:
result.append(scope)
known_scopes[total_condition] = scope
return result
def write_simd_part(cm_fh: IO[str], target: str, scope: Scope, indent: int = 0):
simd_options = [
"sse2",
"sse3",
"ssse3",
"sse4_1",
"sse4_2",
"aesni",
"shani",
"avx",
"avx2",
"avx512f",
"avx512cd",
"avx512er",
"avx512pf",
"avx512dq",
"avx512bw",
"avx512vl",
"avx512ifma",
"avx512vbmi",
"f16c",
"rdrnd",
"neon",
"mips_dsp",
"mips_dspr2",
"arch_haswell",
"avx512common",
"avx512core",
]
for simd in simd_options:
SIMD = simd.upper()
write_source_file_list(
cm_fh,
scope,
"SOURCES",
[f"{SIMD}_HEADERS", f"{SIMD}_SOURCES", f"{SIMD}_C_SOURCES", f"{SIMD}_ASM"],
indent,
header=f"add_qt_simd_part({target} SIMD {simd}\n",
footer=")\n\n",
)
def write_android_part(cm_fh: IO[str], target: str, scope: Scope, indent: int = 0):
keys = [
"ANDROID_BUNDLED_JAR_DEPENDENCIES",
"ANDROID_LIB_DEPENDENCIES",
"ANDROID_JAR_DEPENDENCIES",
"ANDROID_LIB_DEPENDENCY_REPLACEMENTS",
"ANDROID_BUNDLED_FILES",
"ANDROID_PERMISSIONS",
]
has_no_values = True
for key in keys:
value = scope.get(key)
if len(value) != 0:
if has_no_values:
if scope.condition:
cm_fh.write(f"\n{spaces(indent)}if(ANDROID AND ({scope.condition}))\n")
else:
cm_fh.write(f"\n{spaces(indent)}if(ANDROID)\n")
indent += 1
has_no_values = False
cm_fh.write(f"{spaces(indent)}set_property(TARGET {target} APPEND PROPERTY QT_{key}\n")
write_list(cm_fh, value, "", indent + 1)
cm_fh.write(f"{spaces(indent)})\n")
indent -= 1
if not has_no_values:
cm_fh.write(f"{spaces(indent)}endif()\n")
def write_wayland_part(cm_fh: typing.IO[str], target: str, scope:Scope, indent: int = 0):
client_sources = scope.get_files('WAYLANDCLIENTSOURCES', use_vpath=True)
server_sources = scope.get_files('WAYLANDSERVERSOURCES', use_vpath=True)
if len(client_sources) == 0 and len(server_sources) == 0:
return
condition = map_to_cmake_condition(scope.total_condition)
if condition != "ON":
cm_fh.write(f"\n{spaces(indent)}if({condition})\n")
indent += 1
if len(client_sources) != 0:
cm_fh.write(f"\n{spaces(indent)}qt6_generate_wayland_protocol_client_sources({target}\n")
write_list(cm_fh, client_sources, 'FILES', indent + 1, prefix='${CMAKE_CURRENT_SOURCE_DIR}/')
cm_fh.write(f"{spaces(indent)})\n")
if len(server_sources) != 0:
cm_fh.write(f"\n{spaces(indent)}qt6_generate_wayland_protocol_server_sources({target}\n")
write_list(cm_fh, server_sources, 'FILES', indent + 1, prefix='${CMAKE_CURRENT_SOURCE_DIR}/')
cm_fh.write(f"{spaces(indent)})\n")
if condition != "ON":
indent -= 1
cm_fh.write(f"\n{spaces(indent)}endif()\n")
def write_main_part(
cm_fh: IO[str],
name: str,
typename: str,
cmake_function: str,
scope: Scope,
*,
extra_lines: Optional[List[str]] = None,
indent: int = 0,
extra_keys: List[str],
**kwargs: Any,
):
# Evaluate total condition of all scopes:
if extra_lines is None:
extra_lines = []
recursive_evaluate_scope(scope)
if "exceptions" in scope.get("CONFIG"):
extra_lines.append("EXCEPTIONS")
# Get a flat list of all scopes but the main one:
scopes = flatten_scopes(scope)
# total_scopes = len(scopes)
# Merge scopes based on their conditions:
scopes = merge_scopes(scopes)
assert len(scopes)
assert scopes[0].total_condition == "ON"
scopes[0].reset_visited_keys()
for k in extra_keys:
scopes[0].get(k)
# Now write out the scopes:
write_header(cm_fh, name, typename, indent=indent)
# collect all testdata and insert globbing commands
has_test_data = False
if typename == "Test":
test_data = scope.expand("TESTDATA")
if test_data:
has_test_data = True
cm_fh.write("# Collect test data\n")
for data in test_data:
if "*" in data:
cm_fh.write(
dedent(
f"""\
{spaces(indent)}file(GLOB_RECURSE test_data_glob
{spaces(indent+1)}RELATIVE ${{CMAKE_CURRENT_SOURCE_DIR}}
{spaces(indent+1)}{data})
"""
)
)
cm_fh.write(f"{spaces(indent)}list(APPEND test_data ${{test_data_glob}})\n")
else:
cm_fh.write(f'{spaces(indent)}list(APPEND test_data "{data}")\n')
cm_fh.write("\n")
# Check for DESTDIR override
destdir = scope.get_string("DESTDIR")
if destdir:
if destdir.startswith("./") or destdir.startswith("../"):
destdir = f"${{CMAKE_CURRENT_BINARY_DIR}}/{destdir}"
extra_lines.append(f'OUTPUT_DIRECTORY "{destdir}"')
cm_fh.write(f"{spaces(indent)}{cmake_function}({name}\n")
for extra_line in extra_lines:
cm_fh.write(f"{spaces(indent)} {extra_line}\n")
write_sources_section(cm_fh, scopes[0], indent=indent, **kwargs)
if has_test_data:
cm_fh.write(f"{spaces(indent)} TESTDATA ${{test_data}}\n")
# Footer:
cm_fh.write(f"{spaces(indent)})\n")
write_resources(cm_fh, name, scope, indent)
write_statecharts(cm_fh, name, scope, indent)
write_simd_part(cm_fh, name, scope, indent)
write_android_part(cm_fh, name, scopes[0], indent)
write_wayland_part(cm_fh, name, scopes[0], indent)
ignored_keys_report = write_ignored_keys(scopes[0], spaces(indent))
if ignored_keys_report:
cm_fh.write(ignored_keys_report)
# Scopes:
if len(scopes) == 1:
return
write_scope_header(cm_fh, indent=indent)
for c in scopes[1:]:
c.reset_visited_keys()
write_android_part(cm_fh, name, c, indent=indent)
write_wayland_part(cm_fh, name, c, indent=indent)
write_extend_target(cm_fh, name, c, indent=indent)
ignored_keys_report = write_ignored_keys(c, spaces(indent))
if ignored_keys_report:
cm_fh.write(ignored_keys_report)
def write_module(cm_fh: IO[str], scope: Scope, *, indent: int = 0) -> str:
module_name = scope.TARGET
if not module_name.startswith("Qt"):
print(f"XXXXXX Module name {module_name} does not start with Qt!")
extra = []
# A module should be static when 'static' is in CONFIG
# or when option(host_build) is used, as described in qt_module.prf.
is_static = "static" in scope.get("CONFIG") or "host_build" in scope.get("_OPTION")
if is_static:
extra.append("STATIC")
if "internal_module" in scope.get("CONFIG"):
extra.append("INTERNAL_MODULE")
if "no_module_headers" in scope.get("CONFIG"):
extra.append("NO_MODULE_HEADERS")
if "minimal_syncqt" in scope.get("CONFIG"):
extra.append("NO_SYNC_QT")
if "no_private_module" in scope.get("CONFIG"):
extra.append("NO_PRIVATE_MODULE")
if "header_module" in scope.get("CONFIG"):
extra.append("HEADER_MODULE")
module_config = scope.get("MODULE_CONFIG")
if len(module_config):
extra.append(f'QMAKE_MODULE_CONFIG {" ".join(module_config)}')
module_plugin_types = scope.get_files("MODULE_PLUGIN_TYPES")
if module_plugin_types:
extra.append(f"PLUGIN_TYPES {' '.join(module_plugin_types)}")
target_name = module_name[2:]
write_main_part(
cm_fh,
target_name,
"Module",
"add_qt_module",
scope,
extra_lines=extra,
indent=indent,
known_libraries={},
extra_keys=[],
)
if "qt_tracepoints" in scope.get("CONFIG"):
tracepoints = scope.get_files("TRACEPOINT_PROVIDER")
cm_fh.write(
f"\n\n{spaces(indent)}qt_create_tracepoints({module_name[2:]} {' '.join(tracepoints)})\n"
)
return target_name
def write_tool(cm_fh: IO[str], scope: Scope, *, indent: int = 0) -> str:
tool_name = scope.TARGET
extra = ["BOOTSTRAP"] if "force_bootstrap" in scope.get("CONFIG") else []
write_main_part(
cm_fh,
tool_name,
"Tool",
"add_qt_tool",
scope,
indent=indent,
known_libraries={"Qt::Core"},
extra_lines=extra,
extra_keys=["CONFIG"],
)
return tool_name
def write_test(cm_fh: IO[str], scope: Scope, gui: bool = False, *, indent: int = 0) -> str:
test_name = scope.TARGET
assert test_name
extra = ["GUI"] if gui else []
libraries = {"Qt::Core", "Qt::Test"}
if "qmltestcase" in scope.get("CONFIG"):
libraries.add("Qt::QmlTest")
extra.append("QMLTEST")
importpath = scope.expand("IMPORTPATH")
if importpath:
extra.append("QML_IMPORTPATH")
for path in importpath:
extra.append(f' "{path}"')
requires_content = expand_project_requirements(scope, skip_message=True)
if requires_content:
requires_content += "\n"
cm_fh.write(requires_content)
write_main_part(
cm_fh,
test_name,
"Test",
"add_qt_test",
scope,
indent=indent,
known_libraries=libraries,
extra_lines=extra,
extra_keys=[],
)
return test_name
def write_binary(cm_fh: IO[str], scope: Scope, gui: bool = False, *, indent: int = 0) -> str:
binary_name = scope.TARGET
assert binary_name
is_qt_test_helper = "qt_test_helper" in scope.get("_LOADED")
extra = ["GUI"] if gui and not is_qt_test_helper else []
cmake_function_call = "add_qt_executable"
if is_qt_test_helper:
binary_name += "_helper"
cmake_function_call = "add_qt_test_helper"
target_path = scope.get_string("target.path")
if target_path:
target_path = target_path.replace("$$[QT_INSTALL_EXAMPLES]", "${INSTALL_EXAMPLESDIR}")
extra.append(f'OUTPUT_DIRECTORY "{target_path}"')
if "target" in scope.get("INSTALLS"):
extra.append(f'INSTALL_DIRECTORY "{target_path}"')
write_main_part(
cm_fh,
binary_name,
"Binary",
cmake_function_call,
scope,
extra_lines=extra,
indent=indent,
known_libraries={"Qt::Core"},
extra_keys=["target.path", "INSTALLS"],
)
return binary_name
def write_find_package_section(
cm_fh: IO[str], public_libs: List[str], private_libs: List[str], *, indent: int = 0
):
packages = [] # type: List[LibraryMapping]
all_libs = public_libs + private_libs
for l in all_libs:
info = find_library_info_for_target(l)
if info and info not in packages:
packages.append(info)
# ind = spaces(indent)
for p in packages:
cm_fh.write(generate_find_package_info(p, use_qt_find_package=False, indent=indent))
if packages:
cm_fh.write("\n")
def write_example(
cm_fh: IO[str], scope: Scope, gui: bool = False, *, indent: int = 0, is_plugin: bool = False
) -> str:
binary_name = scope.TARGET
assert binary_name
cm_fh.write(
"cmake_minimum_required(VERSION 3.14)\n"
f"project({binary_name} LANGUAGES CXX)\n\n"
"set(CMAKE_INCLUDE_CURRENT_DIR ON)\n\n"
"set(CMAKE_AUTOMOC ON)\n"
"set(CMAKE_AUTORCC ON)\n"
"set(CMAKE_AUTOUIC ON)\n\n"
'set(INSTALL_EXAMPLEDIR "examples")\n\n'
)
(public_libs, private_libs) = extract_cmake_libraries(scope)
write_find_package_section(cm_fh, public_libs, private_libs, indent=indent)
add_target = ""
qmldir = None
if is_plugin:
if "qml" in scope.get("QT"):
# Get the uri from the destination directory
dest_dir = scope.expandString("DESTDIR")
if not dest_dir:
dest_dir = "${CMAKE_CURRENT_BINARY_DIR}"
else:
uri = os.path.basename(dest_dir)
dest_dir = f"${{CMAKE_CURRENT_BINARY_DIR}}/{dest_dir}"
add_target = dedent(
f"""\
qt6_add_qml_module({binary_name}
OUTPUT_DIRECTORY "{dest_dir}"
VERSION 1.0
URI "{uri}"
"""
)
qmldir_file_path = scope.get_files("qmldir.files")
if qmldir_file_path:
qmldir_file_path = os.path.join(os.getcwd(), qmldir_file_path[0])
else:
qmldir_file_path = os.path.join(os.getcwd(), "qmldir")
if os.path.exists(qmldir_file_path):
qml_dir = QmlDir()
qml_dir.from_file(qmldir_file_path)
if qml_dir.designer_supported:
add_target += " DESIGNER_SUPPORTED\n"
if len(qml_dir.classname) != 0:
add_target += f" CLASSNAME {qml_dir.classname}\n"
if len(qml_dir.imports) != 0:
qml_dir_imports_line = " \n".join(qml_dir.imports)
add_target += f" IMPORTS\n{qml_dir_imports_line}"
if len(qml_dir.depends) != 0:
add_target += " DEPENDENCIES\n"
for dep in qml_dir.depends:
add_target += f" {dep[0]}/{dep[1]}\n"
add_target += " INSTALL_LOCATION ${INSTALL_EXAMPLEDIR}\n)\n\n"
add_target += f"target_sources({binary_name} PRIVATE"
else:
add_target = f"add_library({binary_name} MODULE"
else:
add_target = f'add_{"qt_gui_" if gui else ""}executable({binary_name}'
write_all_source_file_lists(cm_fh, scope, add_target, indent=0)
cm_fh.write(")\n")
write_include_paths(
cm_fh, scope, f"target_include_directories({binary_name} PUBLIC", indent=0, footer=")"
)
write_defines(
cm_fh, scope, f"target_compile_definitions({binary_name} PUBLIC", indent=0, footer=")"
)
write_list(
cm_fh,
private_libs,
"",
indent=indent,
header=f"target_link_libraries({binary_name} PRIVATE\n",
footer=")",
)
write_list(
cm_fh,
public_libs,
"",
indent=indent,
header=f"target_link_libraries({binary_name} PUBLIC\n",
footer=")",
)
write_compile_options(
cm_fh, scope, f"target_compile_options({binary_name}", indent=0, footer=")"
)
write_resources(cm_fh, binary_name, scope, indent=indent, is_example=True)
write_statecharts(cm_fh, binary_name, scope, indent=indent)
if qmldir:
write_qml_plugin_epilogue(cm_fh, binary_name, scope, qmldir, indent)
cm_fh.write(
f"\ninstall(TARGETS {binary_name}\n"
f' RUNTIME DESTINATION "${{INSTALL_EXAMPLEDIR}}"\n'
f' BUNDLE DESTINATION "${{INSTALL_EXAMPLEDIR}}"\n'
f' LIBRARY DESTINATION "${{INSTALL_EXAMPLEDIR}}"\n'
f")\n"
)
return binary_name
def write_plugin(cm_fh, scope, *, indent: int = 0) -> str:
plugin_name = scope.TARGET
assert plugin_name
extra = []
qmldir = None
plugin_type = scope.get_string("PLUGIN_TYPE")
is_qml_plugin = any("qml_plugin" == s for s in scope.get("_LOADED"))
plugin_function_name = "add_qt_plugin"
if plugin_type:
extra.append(f"TYPE {plugin_type}")
elif is_qml_plugin:
plugin_function_name = "add_qml_module"
qmldir = write_qml_plugin(cm_fh, plugin_name, scope, indent=indent, extra_lines=extra)
plugin_class_name = scope.get_string("PLUGIN_CLASS_NAME")
if plugin_class_name:
extra.append(f"CLASS_NAME {plugin_class_name}")
write_main_part(
cm_fh,
plugin_name,
"Plugin",
plugin_function_name,
scope,
indent=indent,
extra_lines=extra,
known_libraries={},
extra_keys=[],
)
if qmldir:
write_qml_plugin_epilogue(cm_fh, plugin_name, scope, qmldir, indent)
return plugin_name
def write_qml_plugin(
cm_fh: IO[str],
target: str,
scope: Scope,
*,
extra_lines: Optional[List[str]] = None,
indent: int = 0,
**kwargs: Any,
) -> Optional[QmlDir]:
# Collect other args if available
if extra_lines is None:
extra_lines = []
indent += 2
target_path = scope.get_string("TARGETPATH")
if target_path:
uri = target_path.replace("/", ".")
import_name = scope.get_string("IMPORT_NAME")
# Catch special cases such as foo.QtQuick.2.bar, which when converted
# into a target path via cmake will result in foo/QtQuick/2/bar, which is
# not what we want. So we supply the target path override.
target_path_from_uri = uri.replace(".", "/")
if target_path != target_path_from_uri:
extra_lines.append(f'TARGET_PATH "{target_path}"')
if import_name:
extra_lines.append(f'URI "{import_name}"')
else:
uri = re.sub("\\.\\d+", "", uri)
extra_lines.append(f'URI "{uri}"')
import_version = scope.get_string("IMPORT_VERSION")
if import_version:
import_version = import_version.replace(
"$$QT_MINOR_VERSION", "${CMAKE_PROJECT_VERSION_MINOR}"
)
extra_lines.append(f'VERSION "{import_version}"')
plugindump_dep = scope.get_string("QML_PLUGINDUMP_DEPENDENCIES")
if plugindump_dep:
extra_lines.append(f'QML_PLUGINDUMP_DEPENDENCIES "{plugindump_dep}"')
qmldir_file_path = os.path.join(os.getcwd(), "qmldir")
if os.path.exists(qmldir_file_path):
qml_dir = QmlDir()
qml_dir.from_file(qmldir_file_path)
if qml_dir.designer_supported:
extra_lines.append("DESIGNER_SUPPORTED")
if len(qml_dir.classname) != 0:
extra_lines.append(f"CLASSNAME {qml_dir.classname}")
if len(qml_dir.imports) != 0:
qml_dir_imports_line = "\n ".join(qml_dir.imports)
extra_lines.append("IMPORTS\n " f"{qml_dir_imports_line}")
if len(qml_dir.depends) != 0:
extra_lines.append("DEPENDENCIES")
for dep in qml_dir.depends:
extra_lines.append(f" {dep[0]}/{dep[1]}")
return qml_dir
return None
def write_qml_plugin_epilogue(
cm_fh: IO[str], target: str, scope: Scope, qmldir: QmlDir, indent: int = 0
):
qml_files = scope.get_files("QML_FILES", use_vpath=True)
if qml_files:
indent_0 = spaces(indent)
indent_1 = spaces(indent + 1)
# Quote file paths in case there are spaces.
qml_files_quoted = [f'"{qf}"' for qf in qml_files]
indented_qml_files = f"\n{indent_1}".join(qml_files_quoted)
cm_fh.write(f"\n{indent_0}set(qml_files\n{indent_1}" f"{indented_qml_files}\n)\n")
for qml_file in qml_files:
if qml_file in qmldir.type_names:
qmldir_file_info = qmldir.type_names[qml_file]
cm_fh.write(f"{indent_0}set_source_files_properties({qml_file} PROPERTIES\n")
cm_fh.write(f'{indent_1}QT_QML_SOURCE_VERSION "{qmldir_file_info.version}"\n')
# Only write typename if they are different, CMake will infer
# the name by default
if (
os.path.splitext(os.path.basename(qmldir_file_info.path))[0]
!= qmldir_file_info.type_name
):
cm_fh.write(f"{indent_1}QT_QML_SOURCE_TYPENAME {qmldir_file_info.type_name}\n")
cm_fh.write(f"{indent_1}QT_QML_SOURCE_INSTALL TRUE\n")
if qmldir_file_info.singleton:
cm_fh.write(f"{indent_1}QT_QML_SINGLETON_TYPE TRUE\n")
if qmldir_file_info.internal:
cm_fh.write(f"{indent_1}QT_QML_INTERNAL_TYPE TRUE\n")
cm_fh.write(f"{indent_0})\n")
cm_fh.write(
f"\n{indent_0}qt6_target_qml_files({target}\n{indent_1}FILES\n"
f"{spaces(indent+2)}${{qml_files}}\n)\n"
)
def handle_app_or_lib(
scope: Scope, cm_fh: IO[str], *, indent: int = 0, is_example: bool = False
) -> None:
assert scope.TEMPLATE in ("app", "lib")
config = scope.get("CONFIG")
is_lib = scope.TEMPLATE == "lib"
is_qml_plugin = any("qml_plugin" == s for s in scope.get("_LOADED"))
is_plugin = (
any("qt_plugin" == s for s in scope.get("_LOADED")) or is_qml_plugin or "plugin" in config
)
target = ""
gui = all(
val not in config for val in ["console", "cmdline"]
) and "testlib" not in scope.expand("QT")
if is_example:
target = write_example(cm_fh, scope, gui, indent=indent, is_plugin=is_plugin)
elif is_plugin:
assert not is_example
target = write_plugin(cm_fh, scope, indent=indent)
elif is_lib or "qt_module" in scope.get("_LOADED"):
assert not is_example
target = write_module(cm_fh, scope, indent=indent)
elif "qt_tool" in scope.get("_LOADED"):
assert not is_example
target = write_tool(cm_fh, scope, indent=indent)
else:
if "testcase" in config or "testlib" in config or "qmltestcase" in config:
assert not is_example
target = write_test(cm_fh, scope, gui, indent=indent)
else:
target = write_binary(cm_fh, scope, gui, indent=indent)
# ind = spaces(indent)
write_source_file_list(
cm_fh, scope, "", ["QMAKE_DOCS"], indent, header=f"add_qt_docs({target}\n", footer=")\n"
)
def handle_top_level_repo_project(scope: Scope, cm_fh: IO[str]):
# qtdeclarative
project_file_name = os.path.splitext(os.path.basename(scope.file_absolute_path))[0]
# declarative
file_name_without_qt_prefix = project_file_name[2:]
# Qt::Declarative
qt_lib = map_qt_library(file_name_without_qt_prefix)
# Found a mapping, adjust name.
if qt_lib != file_name_without_qt_prefix:
# QtDeclarative
qt_lib = re.sub(r":", r"", qt_lib)
# Declarative
qt_lib_no_prefix = qt_lib[2:]
else:
qt_lib += "_FIXME"
qt_lib_no_prefix = qt_lib
header = dedent(
f"""\
cmake_minimum_required(VERSION {cmake_version_string})
project({qt_lib}
VERSION 6.0.0
DESCRIPTION "Qt {qt_lib_no_prefix} Libraries"
HOMEPAGE_URL "https://qt.io/"
LANGUAGES CXX C
)
find_package(Qt6 ${{PROJECT_VERSION}} CONFIG REQUIRED COMPONENTS BuildInternals Core SET_ME_TO_SOMETHING_USEFUL)
find_package(Qt6 ${{PROJECT_VERSION}} CONFIG OPTIONAL_COMPONENTS SET_ME_TO_SOMETHING_USEFUL)
"""
)
build_repo = dedent(
f"""\
qt_build_repo()
"""
)
cm_fh.write(f"{header}{expand_project_requirements(scope)}{build_repo}")
def find_top_level_repo_project_file(project_file_path: str = "") -> Optional[str]:
qmake_conf_path = find_qmake_conf(project_file_path)
qmake_dir = os.path.dirname(qmake_conf_path)
# Hope to a programming god that there's only one .pro file at the
# top level directory of repository.
glob_result = glob.glob(os.path.join(qmake_dir, "*.pro"))
if len(glob_result) > 0:
return glob_result[0]
return None
def handle_top_level_repo_tests_project(scope: Scope, cm_fh: IO[str]):
top_level_project_path = find_top_level_repo_project_file(scope.file_absolute_path)
if top_level_project_path:
# qtdeclarative
file_name = os.path.splitext(os.path.basename(top_level_project_path))[0]
# declarative
file_name_without_qt = file_name[2:]
# Qt::Declarative
qt_lib = map_qt_library(file_name_without_qt)
# Found a mapping, adjust name.
if qt_lib != file_name_without_qt:
# QtDeclarative
qt_lib = f'{re.sub(r":", r"", qt_lib)}{"Tests"}'
else:
qt_lib += "Tests_FIXME"
else:
qt_lib = "Tests_FIXME"
requires_content = expand_project_requirements(scope, skip_message=True)
if requires_content:
requires_content = f"\n\n{textwrap_indent(requires_content, spaces(3))}"
content = dedent(
f"""\
if(NOT TARGET Qt::Test)
cmake_minimum_required(VERSION {cmake_version_string})
project({qt_lib} VERSION 6.0.0 LANGUAGES C CXX)
find_package(Qt6 ${{PROJECT_VERSION}} REQUIRED COMPONENTS BuildInternals Core SET_ME_TO_SOMETHING_USEFUL)
find_package(Qt6 ${{PROJECT_VERSION}} OPTIONAL_COMPONENTS SET_ME_TO_SOMETHING_USEFUL){requires_content}
qt_set_up_standalone_tests_build()
endif()
qt_build_tests()
"""
)
cm_fh.write(f"{content}")
def write_regular_cmake_target_scope_section(
scope: Scope, cm_fh: IO[str], indent: int = 0, skip_sources: bool = False
):
if not skip_sources:
target_sources = "target_sources(${PROJECT_NAME} PUBLIC"
write_all_source_file_lists(cm_fh, scope, target_sources, indent=indent, footer=")")
write_include_paths(
cm_fh,
scope,
f"target_include_directories(${{PROJECT_NAME}} PUBLIC",
indent=indent,
footer=")",
)
write_defines(
cm_fh,
scope,
f"target_compile_definitions(${{PROJECT_NAME}} PUBLIC",
indent=indent,
footer=")",
)
(public_libs, private_libs) = extract_cmake_libraries(scope)
write_list(
cm_fh,
private_libs,
"",
indent=indent,
header=f"target_link_libraries(${{PROJECT_NAME}} PRIVATE\n",
footer=")",
)
write_list(
cm_fh,
public_libs,
"",
indent=indent,
header=f"target_link_libraries(${{PROJECT_NAME}} PUBLIC\n",
footer=")",
)
write_compile_options(
cm_fh, scope, f"target_compile_options(${{PROJECT_NAME}}", indent=indent, footer=")"
)
def handle_config_test_project(scope: Scope, cm_fh: IO[str]):
project_name = os.path.splitext(os.path.basename(scope.file_absolute_path))[0]
content = (
f"cmake_minimum_required(VERSION 3.14.0)\n"
f"project(config_test_{project_name} LANGUAGES CXX)\n"
)
cm_fh.write(f"{content}\n")
# Remove default QT libs.
scope._append_operation("QT", RemoveOperation(["core", "gui"]))
config = scope.get("CONFIG")
gui = all(val not in config for val in ["console", "cmdline"])
add_target = f"add_executable(${{PROJECT_NAME}}"
if gui:
add_target += " WIN32 MACOSX_BUNDLE"
temp_buffer = io.StringIO()
write_all_source_file_lists(temp_buffer, scope, add_target, indent=0)
buffer_value = temp_buffer.getvalue()
if buffer_value:
cm_fh.write(buffer_value)
else:
cm_fh.write(add_target)
cm_fh.write(")\n")
indent = 0
write_regular_cmake_target_scope_section(scope, cm_fh, indent, skip_sources=True)
recursive_evaluate_scope(scope)
scopes = flatten_scopes(scope)
scopes = merge_scopes(scopes)
assert len(scopes)
assert scopes[0].total_condition == "ON"
for c in scopes[1:]:
extend_scope_io_string = io.StringIO()
write_regular_cmake_target_scope_section(c, extend_scope_io_string, indent=indent + 1)
extend_string = extend_scope_io_string.getvalue()
if extend_string:
extend_scope = (
f"\nif({map_to_cmake_condition(c.total_condition)})\n"
f"{extend_string}"
f"endif()\n"
)
cm_fh.write(extend_scope)
def cmakeify_scope(
scope: Scope, cm_fh: IO[str], *, indent: int = 0, is_example: bool = False
) -> None:
template = scope.TEMPLATE
temp_buffer = io.StringIO()
# Handle top level repo project in a special way.
if is_top_level_repo_project(scope.file_absolute_path):
handle_top_level_repo_project(scope, temp_buffer)
# Same for top-level tests.
elif is_top_level_repo_tests_project(scope.file_absolute_path):
handle_top_level_repo_tests_project(scope, temp_buffer)
elif is_config_test_project(scope.file_absolute_path):
handle_config_test_project(scope, temp_buffer)
elif template == "subdirs":
handle_subdir(scope, temp_buffer, indent=indent, is_example=is_example)
elif template in ("app", "lib"):
handle_app_or_lib(scope, temp_buffer, indent=indent, is_example=is_example)
else:
print(f" XXXX: {scope.file}: Template type {template} not yet supported.")
buffer_value = temp_buffer.getvalue()
if is_top_level_repo_examples_project(scope.file_absolute_path):
# Wrap top level examples project with some commands which
# are necessary to build examples as part of the overall
# build.
buffer_value = f"qt_examples_build_begin()\n\n{buffer_value}\nqt_examples_build_end()\n"
cm_fh.write(buffer_value)
def generate_new_cmakelists(scope: Scope, *, is_example: bool = False) -> None:
print("Generating CMakeLists.gen.txt")
with open(scope.generated_cmake_lists_path, "w") as cm_fh:
assert scope.file
cm_fh.write(f"# Generated from {os.path.basename(scope.file)}.\n\n")
is_example_heuristic = is_example_project(scope.file_absolute_path)
final_is_example_decision = is_example or is_example_heuristic
cmakeify_scope(scope, cm_fh, is_example=final_is_example_decision)
def do_include(scope: Scope, *, debug: bool = False) -> None:
for c in scope.children:
do_include(c)
for include_file in scope.get_files("_INCLUDED", is_include=True):
if not include_file:
continue
if not os.path.isfile(include_file):
print(f" XXXX: Failed to include {include_file}.")
continue
include_result = parseProFile(include_file, debug=debug)
include_scope = Scope.FromDict(
None, include_file, include_result.asDict().get("statements"), "", scope.basedir
) # This scope will be merged into scope!
do_include(include_scope)
scope.merge(include_scope)
def copy_generated_file_to_final_location(scope: Scope, keep_temporary_files=False) -> None:
print(f"Copying {scope.generated_cmake_lists_path} to {scope.original_cmake_lists_path}")
copyfile(scope.generated_cmake_lists_path, scope.original_cmake_lists_path)
if not keep_temporary_files:
os.remove(scope.generated_cmake_lists_path)
def should_convert_project(project_file_path: str = "") -> bool:
qmake_conf_path = find_qmake_conf(project_file_path)
qmake_conf_dir_path = os.path.dirname(qmake_conf_path)
project_relative_path = os.path.relpath(project_file_path, qmake_conf_dir_path)
# Skip cmake auto tests, they should not be converted.
if project_relative_path.startswith("tests/auto/cmake"):
return False
if project_relative_path.startswith("tests/auto/installed_cmake"):
return False
# Skip qmake testdata projects.
if project_relative_path.startswith("tests/auto/tools/qmake/testdata"):
return False
# Skip certain config tests.
config_tests = [
# Relative to qtbase/config.tests
"arch/arch.pro",
"avx512/avx512.pro",
"stl/stl.pro",
"verifyspec/verifyspec.pro",
"x86_simd/x86_simd.pro",
# Relative to repo src dir
"config.tests/hostcompiler/hostcompiler.pro",
]
skip_certain_tests = any(project_relative_path.startswith(c) for c in config_tests)
if skip_certain_tests:
return False
return True
def main() -> None:
# Be sure of proper Python version
assert sys.version_info >= (3, 7)
args = _parse_commandline()
debug_parsing = args.debug_parser or args.debug
backup_current_dir = os.getcwd()
for file in args.files:
new_current_dir = os.path.dirname(file)
file_relative_path = os.path.basename(file)
if new_current_dir:
os.chdir(new_current_dir)
project_file_absolute_path = os.path.abspath(file_relative_path)
if not should_convert_project(project_file_absolute_path):
print(f'Skipping conversion of project: "{project_file_absolute_path}"')
continue
parseresult = parseProFile(file_relative_path, debug=debug_parsing)
if args.debug_parse_result or args.debug:
print("\n\n#### Parser result:")
print(parseresult)
print("\n#### End of parser result.\n")
if args.debug_parse_dictionary or args.debug:
print("\n\n####Parser result dictionary:")
print(parseresult.asDict())
print("\n#### End of parser result dictionary.\n")
file_scope = Scope.FromDict(
None, file_relative_path, parseresult.asDict().get("statements")
)
if args.debug_pro_structure or args.debug:
print("\n\n#### .pro/.pri file structure:")
file_scope.dump()
print("\n#### End of .pro/.pri file structure.\n")
do_include(file_scope, debug=debug_parsing)
if args.debug_full_pro_structure or args.debug:
print("\n\n#### Full .pro/.pri file structure:")
file_scope.dump()
print("\n#### End of full .pro/.pri file structure.\n")
generate_new_cmakelists(file_scope, is_example=args.is_example)
copy_generated_file = True
if not args.skip_special_case_preservation:
debug_special_case = args.debug_special_case_preservation or args.debug
handler = SpecialCaseHandler(
file_scope.original_cmake_lists_path,
file_scope.generated_cmake_lists_path,
file_scope.basedir,
keep_temporary_files=args.keep_temporary_files,
debug=debug_special_case,
)
copy_generated_file = handler.handle_special_cases()
if copy_generated_file:
copy_generated_file_to_final_location(
file_scope, keep_temporary_files=args.keep_temporary_files
)
os.chdir(backup_current_dir)
if __name__ == "__main__":
main()