# Copyright 2019 The Meson development team # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # http://www.apache.org/licenses/LICENSE-2.0 # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. from .. import mesonlib from .common import cmake_is_debug import typing as T if T.TYPE_CHECKING: from .traceparser import CMakeTraceParser, CMakeTarget def parse_generator_expressions( raw: str, trace: 'CMakeTraceParser', *, context_tgt: T.Optional['CMakeTarget'] = None, ) -> str: '''Parse CMake generator expressions Most generator expressions are simply ignored for simplicety, however some are required for some common use cases. ''' # Early abort if no generator expression present if '$<' not in raw: return raw out = '' # type: str i = 0 # type: int def equal(arg: str) -> str: col_pos = arg.find(',') if col_pos < 0: return '0' else: return '1' if arg[:col_pos] == arg[col_pos + 1:] else '0' def vers_comp(op: str, arg: str) -> str: col_pos = arg.find(',') if col_pos < 0: return '0' else: return '1' if mesonlib.version_compare(arg[:col_pos], '{}{}'.format(op, arg[col_pos + 1:])) else '0' def target_property(arg: str) -> str: # We can't really support this since we don't have any context if ',' not in arg: if context_tgt is None: return '' return ';'.join(context_tgt.properties.get(arg, [])) args = arg.split(',') props = trace.targets[args[0]].properties.get(args[1], []) if args[0] in trace.targets else [] return ';'.join(props) def target_file(arg: str) -> str: if arg not in trace.targets: return '' tgt = trace.targets[arg] cfgs = [] cfg = '' if 'IMPORTED_CONFIGURATIONS' in tgt.properties: cfgs = [x for x in tgt.properties['IMPORTED_CONFIGURATIONS'] if x] cfg = cfgs[0] if cmake_is_debug(trace.env): if 'DEBUG' in cfgs: cfg = 'DEBUG' elif 'RELEASE' in cfgs: cfg = 'RELEASE' else: if 'RELEASE' in cfgs: cfg = 'RELEASE' if f'IMPORTED_IMPLIB_{cfg}' in tgt.properties: return ';'.join([x for x in tgt.properties[f'IMPORTED_IMPLIB_{cfg}'] if x]) elif 'IMPORTED_IMPLIB' in tgt.properties: return ';'.join([x for x in tgt.properties['IMPORTED_IMPLIB'] if x]) elif f'IMPORTED_LOCATION_{cfg}' in tgt.properties: return ';'.join([x for x in tgt.properties[f'IMPORTED_LOCATION_{cfg}'] if x]) elif 'IMPORTED_LOCATION' in tgt.properties: return ';'.join([x for x in tgt.properties['IMPORTED_LOCATION'] if x]) return '' supported = { # Boolean functions 'BOOL': lambda x: '0' if x.upper() in ['0', 'FALSE', 'OFF', 'N', 'NO', 'IGNORE', 'NOTFOUND'] or x.endswith('-NOTFOUND') else '1', 'AND': lambda x: '1' if all([y == '1' for y in x.split(',')]) else '0', 'OR': lambda x: '1' if any([y == '1' for y in x.split(',')]) else '0', 'NOT': lambda x: '0' if x == '1' else '1', 'IF': lambda x: x.split(',')[1] if x.split(',')[0] == '1' else x.split(',')[2], '0': lambda x: '', '1': lambda x: x, # String operations 'STREQUAL': equal, 'EQUAL': equal, 'VERSION_LESS': lambda x: vers_comp('<', x), 'VERSION_GREATER': lambda x: vers_comp('>', x), 'VERSION_EQUAL': lambda x: vers_comp('=', x), 'VERSION_LESS_EQUAL': lambda x: vers_comp('<=', x), 'VERSION_GREATER_EQUAL': lambda x: vers_comp('>=', x), # String modification 'LOWER_CASE': lambda x: x.lower(), 'UPPER_CASE': lambda x: x.upper(), # Always assume the BUILD_INTERFACE is valid. # INSTALL_INTERFACE is always invalid for subprojects and # it should also never appear in CMake config files, used # for dependencies 'INSTALL_INTERFACE': lambda x: '', 'BUILD_INTERFACE': lambda x: x, # Constants 'ANGLE-R': lambda x: '>', 'COMMA': lambda x: ',', 'SEMICOLON': lambda x: ';', # Target related expressions 'TARGET_EXISTS': lambda x: '1' if x in trace.targets else '0', 'TARGET_NAME_IF_EXISTS': lambda x: x if x in trace.targets else '', 'TARGET_PROPERTY': target_property, 'TARGET_FILE': target_file, } # type: T.Dict[str, T.Callable[[str], str]] # Recursively evaluate generator expressions def eval_generator_expressions() -> str: nonlocal i i += 2 func = '' # type: str args = '' # type: str res = '' # type: str exp = '' # type: str # Determine the body of the expression while i < len(raw): if raw[i] == '>': # End of the generator expression break elif i < len(raw) - 1 and raw[i] == '$' and raw[i + 1] == '<': # Nested generator expression exp += eval_generator_expressions() else: # Generator expression body exp += raw[i] i += 1 # Split the expression into a function and arguments part col_pos = exp.find(':') if col_pos < 0: func = exp else: func = exp[:col_pos] args = exp[col_pos + 1:] func = func.strip() args = args.strip() # Evaluate the function if func in supported: res = supported[func](args) return res while i < len(raw): if i < len(raw) - 1 and raw[i] == '$' and raw[i + 1] == '<': # Generator expression detected --> try resolving it out += eval_generator_expressions() else: # Normal string, leave unchanged out += raw[i] i += 1 return out