mbed-os
Dependents: cobaLCDJoyMotor_Thread odometry_omni_3roda_v3 odometry_omni_3roda_v1 odometry_omni_3roda_v2 ... more
tools/test/toolchains/api_test.py
- Committer:
- be_bryan
- Date:
- 2017-12-11
- Revision:
- 0:b74591d5ab33
File content as of revision 0:b74591d5ab33:
"""Tests for the toolchain sub-system""" import sys import os from string import printable from copy import deepcopy from mock import MagicMock, patch from hypothesis import given, settings from hypothesis.strategies import text, lists, fixed_dictionaries, booleans ROOT = os.path.abspath(os.path.join(os.path.dirname(__file__), "..", "..", "..")) sys.path.insert(0, ROOT) from tools.toolchains import TOOLCHAIN_CLASSES, LEGACY_TOOLCHAIN_NAMES,\ Resources, TOOLCHAIN_PATHS, mbedToolchain from tools.targets import TARGET_MAP def test_instantiation(): """Test that all exported toolchain may be instantiated""" for name, tc_class in TOOLCHAIN_CLASSES.items(): cls = tc_class(TARGET_MAP["K64F"]) assert name == cls.name or\ name == LEGACY_TOOLCHAIN_NAMES[cls.name] ALPHABET = [char for char in printable if char not in [u'.', u'/']] @given(fixed_dictionaries({ 'common': lists(text()), 'c': lists(text()), 'cxx': lists(text()), 'asm': lists(text()), 'ld': lists(text())}), lists(text(min_size=1, alphabet=ALPHABET), min_size=1)) def test_toolchain_profile_c(profile, source_file): """Test that the appropriate profile parameters are passed to the C compiler""" filename = deepcopy(source_file) filename[-1] += ".c" to_compile = os.path.join(*filename) with patch('os.mkdir') as _mkdir: for _, tc_class in TOOLCHAIN_CLASSES.items(): toolchain = tc_class(TARGET_MAP["K64F"], build_profile=profile) toolchain.inc_md5 = "" toolchain.build_dir = "" toolchain.config = MagicMock(app_config_location=None) for parameter in profile['c'] + profile['common']: assert any(parameter in cmd for cmd in toolchain.cc), \ "Toolchain %s did not propagate arg %s" % (toolchain.name, parameter) compile_command = toolchain.compile_command(to_compile, to_compile + ".o", []) for parameter in profile['c'] + profile['common']: assert any(parameter in cmd for cmd in compile_command), \ "Toolchain %s did not propagate arg %s" % (toolchain.name, parameter) @given(fixed_dictionaries({ 'common': lists(text()), 'c': lists(text()), 'cxx': lists(text()), 'asm': lists(text()), 'ld': lists(text())}), lists(text(min_size=1, alphabet=ALPHABET), min_size=1)) def test_toolchain_profile_cpp(profile, source_file): """Test that the appropriate profile parameters are passed to the C++ compiler""" filename = deepcopy(source_file) filename[-1] += ".cpp" to_compile = os.path.join(*filename) with patch('os.mkdir') as _mkdir: for _, tc_class in TOOLCHAIN_CLASSES.items(): toolchain = tc_class(TARGET_MAP["K64F"], build_profile=profile) toolchain.inc_md5 = "" toolchain.build_dir = "" toolchain.config = MagicMock(app_config_location=None) for parameter in profile['cxx'] + profile['common']: assert any(parameter in cmd for cmd in toolchain.cppc), \ "Toolchain %s did not propagate arg %s" % (toolchain.name, parameter) compile_command = toolchain.compile_command(to_compile, to_compile + ".o", []) for parameter in profile['cxx'] + profile['common']: assert any(parameter in cmd for cmd in compile_command), \ "Toolchain %s did not propagate arg %s" % (toolchain.name, parameter) @given(fixed_dictionaries({ 'common': lists(text()), 'c': lists(text()), 'cxx': lists(text()), 'asm': lists(text()), 'ld': lists(text())}), lists(text(min_size=1, alphabet=ALPHABET), min_size=1)) def test_toolchain_profile_asm(profile, source_file): """Test that the appropriate profile parameters are passed to the Assembler""" filename = deepcopy(source_file) filename[-1] += ".s" to_compile = os.path.join(*filename) with patch('os.mkdir') as _mkdir: for _, tc_class in TOOLCHAIN_CLASSES.items(): toolchain = tc_class(TARGET_MAP["K64F"], build_profile=profile) toolchain.inc_md5 = "" toolchain.build_dir = "" for parameter in profile['asm']: assert any(parameter in cmd for cmd in toolchain.asm), \ "Toolchain %s did not propagate arg %s" % (toolchain.name, parameter) compile_command = toolchain.compile_command(to_compile, to_compile + ".o", []) if not compile_command: assert compile_command, to_compile for parameter in profile['asm']: assert any(parameter in cmd for cmd in compile_command), \ "Toolchain %s did not propagate arg %s" % (toolchain.name, parameter) for name, Class in TOOLCHAIN_CLASSES.items(): CLS = Class(TARGET_MAP["K64F"]) assert name == CLS.name or name == LEGACY_TOOLCHAIN_NAMES[CLS.name] @given(fixed_dictionaries({ 'common': lists(text()), 'c': lists(text()), 'cxx': lists(text()), 'asm': lists(text()), 'ld': lists(text(min_size=1))}), lists(text(min_size=1, alphabet=ALPHABET), min_size=1)) def test_toolchain_profile_ld(profile, source_file): """Test that the appropriate profile parameters are passed to the Linker""" filename = deepcopy(source_file) filename[-1] += ".o" to_compile = os.path.join(*filename) with patch('os.mkdir') as _mkdir,\ patch('tools.toolchains.mbedToolchain.default_cmd') as _dflt_cmd: for _, tc_class in TOOLCHAIN_CLASSES.items(): toolchain = tc_class(TARGET_MAP["K64F"], build_profile=profile) toolchain.RESPONSE_FILES = False toolchain.inc_md5 = "" toolchain.build_dir = "" for parameter in profile['ld']: assert any(parameter in cmd for cmd in toolchain.ld), \ "Toolchain %s did not propagate arg %s" % (toolchain.name, parameter) toolchain.link(to_compile + ".elf", [to_compile], [], [], None) compile_cmd = _dflt_cmd.call_args_list if not compile_cmd: assert compile_cmd, to_compile for parameter in profile['ld']: assert any(parameter in cmd[0][0] for cmd in compile_cmd), \ "Toolchain %s did not propagate arg %s" % (toolchain.name, parameter) for name, Class in TOOLCHAIN_CLASSES.items(): CLS = Class(TARGET_MAP["K64F"]) assert name == CLS.name or name == LEGACY_TOOLCHAIN_NAMES[CLS.name] @given(lists(text(alphabet=ALPHABET, min_size=1), min_size=1)) def test_detect_duplicates(filenames): c_sources = [os.path.join(name, "dupe.c") for name in filenames] s_sources = [os.path.join(name, "dupe.s") for name in filenames] cpp_sources = [os.path.join(name, "dupe.cpp") for name in filenames] with MagicMock() as notify: toolchain = TOOLCHAIN_CLASSES["ARM"](TARGET_MAP["K64F"], notify=notify) res = Resources() res.c_sources = c_sources res.s_sources = s_sources res.cpp_sources = cpp_sources assert res.detect_duplicates(toolchain) == 1,\ "Not Enough duplicates found" _, (notification, _), _ = notify.mock_calls[1] assert "dupe.o" in notification["message"] assert "dupe.s" in notification["message"] assert "dupe.c" in notification["message"] assert "dupe.cpp" in notification["message"] @given(text(alphabet=ALPHABET + ["/"], min_size=1)) @given(booleans()) @given(booleans()) @settings(max_examples=20) def test_path_specified_gcc(gcc_loc, exists_at_loc, exists_in_path): with patch('tools.toolchains.gcc.exists') as _exists: with patch('tools.toolchains.gcc.find_executable') as _find: _exists.return_value = exists_at_loc _find.return_value = exists_in_path TOOLCHAIN_PATHS['GCC_ARM'] = gcc_loc toolchain_class = TOOLCHAIN_CLASSES["GCC_ARM"] found_p = toolchain_class.check_executable() assert found_p == (exists_at_loc or exists_in_path) if exists_at_loc: assert TOOLCHAIN_PATHS['GCC_ARM'] == gcc_loc elif exists_in_path: assert TOOLCHAIN_PATHS['GCC_ARM'] == ''