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a7d748bbd3
Add a OCAML_INSTALL_PATH variable that can be used to control the install path for OCaml libraries. The new variable defaults to ${OCAML_STDLIB_PATH}, i.e. the OCaml library path obtained from the OCaml compiler. Install libraries into "llvm" subdirectory. This fixes two issues: 1. OCaml library directories differ between systems, and 'lib/ocaml' is incorrect e.g. on amd64 Gentoo where OCaml is installed in 'lib64/ocaml'. Therefore, obtain the library path from the OCaml compiler using 'ocamlc -where' (which is already used to set OCAML_STDLIB_PATH), which is the method used commonly in OCaml packages. 2. The top-level directory is reserved for the standard library, and has precedence over local directory in search path. As a result, OCaml preferred the files installed along with previous LLVM version over the source tree when building a new version, resulting in two versions being mixed during the build. The new layout is used commonly by other OCaml packages, and findlib is able to find the LLVM libraries successfully. Bug: https://bugs.gentoo.org/559134 Bug: https://bugs.gentoo.org/559624 Differential Revision: https://reviews.llvm.org/D24354 git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@282895 91177308-0d34-0410-b5e6-96231b3b80d8
540 lines
20 KiB
Python
540 lines
20 KiB
Python
# -*- Python -*-
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# Configuration file for the 'lit' test runner.
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import os
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import sys
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import re
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import platform
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import lit.util
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import lit.formats
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# name: The name of this test suite.
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config.name = 'LLVM'
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# Tweak PATH for Win32 to decide to use bash.exe or not.
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if sys.platform in ['win32']:
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# Seek sane tools in directories and set to $PATH.
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path = getattr(config, 'lit_tools_dir', None)
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path = lit_config.getToolsPath(path,
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config.environment['PATH'],
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['cmp.exe', 'grep.exe', 'sed.exe'])
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if path is not None:
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path = os.path.pathsep.join((path,
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config.environment['PATH']))
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config.environment['PATH'] = path
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# Choose between lit's internal shell pipeline runner and a real shell. If
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# LIT_USE_INTERNAL_SHELL is in the environment, we use that as an override.
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use_lit_shell = os.environ.get("LIT_USE_INTERNAL_SHELL")
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if use_lit_shell:
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# 0 is external, "" is default, and everything else is internal.
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execute_external = (use_lit_shell == "0")
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else:
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# Otherwise we default to internal on Windows and external elsewhere, as
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# bash on Windows is usually very slow.
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execute_external = (not sys.platform in ['win32'])
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# testFormat: The test format to use to interpret tests.
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config.test_format = lit.formats.ShTest(execute_external)
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# suffixes: A list of file extensions to treat as test files. This is overriden
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# by individual lit.local.cfg files in the test subdirectories.
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config.suffixes = ['.ll', '.c', '.cxx', '.test', '.txt', '.s', '.mir']
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# excludes: A list of directories to exclude from the testsuite. The 'Inputs'
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# subdirectories contain auxiliary inputs for various tests in their parent
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# directories.
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config.excludes = ['Inputs', 'CMakeLists.txt', 'README.txt', 'LICENSE.txt']
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# test_source_root: The root path where tests are located.
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config.test_source_root = os.path.dirname(__file__)
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# test_exec_root: The root path where tests should be run.
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llvm_obj_root = getattr(config, 'llvm_obj_root', None)
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if llvm_obj_root is not None:
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config.test_exec_root = os.path.join(llvm_obj_root, 'test')
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# Tweak the PATH to include the tools dir.
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if llvm_obj_root is not None:
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llvm_tools_dir = getattr(config, 'llvm_tools_dir', None)
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if not llvm_tools_dir:
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lit_config.fatal('No LLVM tools dir set!')
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path = os.path.pathsep.join((llvm_tools_dir, config.environment['PATH']))
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config.environment['PATH'] = path
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# Propagate 'HOME' through the environment.
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if 'HOME' in os.environ:
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config.environment['HOME'] = os.environ['HOME']
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# Propagate 'INCLUDE' through the environment.
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if 'INCLUDE' in os.environ:
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config.environment['INCLUDE'] = os.environ['INCLUDE']
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# Propagate 'LIB' through the environment.
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if 'LIB' in os.environ:
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config.environment['LIB'] = os.environ['LIB']
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# Propagate the temp directory. Windows requires this because it uses \Windows\
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# if none of these are present.
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if 'TMP' in os.environ:
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config.environment['TMP'] = os.environ['TMP']
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if 'TEMP' in os.environ:
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config.environment['TEMP'] = os.environ['TEMP']
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# Propagate LLVM_SRC_ROOT into the environment.
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config.environment['LLVM_SRC_ROOT'] = getattr(config, 'llvm_src_root', '')
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# Propagate PYTHON_EXECUTABLE into the environment
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config.environment['PYTHON_EXECUTABLE'] = getattr(config, 'python_executable',
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'')
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# Propagate path to symbolizer for ASan/MSan.
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for symbolizer in ['ASAN_SYMBOLIZER_PATH', 'MSAN_SYMBOLIZER_PATH']:
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if symbolizer in os.environ:
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config.environment[symbolizer] = os.environ[symbolizer]
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# Set up OCAMLPATH to include newly built OCaml libraries.
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llvm_lib_dir = getattr(config, 'llvm_lib_dir', None)
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if llvm_lib_dir is None:
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if llvm_obj_root is not None:
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llvm_lib_dir = os.path.join(llvm_obj_root, 'lib')
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if llvm_lib_dir is not None:
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top_ocaml_lib = os.path.join(llvm_lib_dir, 'ocaml')
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llvm_ocaml_lib = os.path.join(top_ocaml_lib, 'llvm')
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if llvm_ocaml_lib is not None:
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ocamlpath = os.path.pathsep.join((llvm_ocaml_lib, top_ocaml_lib))
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if 'OCAMLPATH' in os.environ:
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ocamlpath = os.path.pathsep.join((ocamlpath, os.environ['OCAMLPATH']))
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config.environment['OCAMLPATH'] = ocamlpath
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if 'CAML_LD_LIBRARY_PATH' in os.environ:
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caml_ld_library_path = os.path.pathsep.join((llvm_ocaml_lib,
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os.environ['CAML_LD_LIBRARY_PATH']))
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config.environment['CAML_LD_LIBRARY_PATH'] = caml_ld_library_path
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else:
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config.environment['CAML_LD_LIBRARY_PATH'] = llvm_ocaml_lib
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# Set up OCAMLRUNPARAM to enable backtraces in OCaml tests.
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config.environment['OCAMLRUNPARAM'] = 'b'
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###
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import os
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# Check that the object root is known.
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if config.test_exec_root is None:
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# Otherwise, we haven't loaded the site specific configuration (the user is
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# probably trying to run on a test file directly, and either the site
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# configuration hasn't been created by the build system, or we are in an
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# out-of-tree build situation).
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# Check for 'llvm_site_config' user parameter, and use that if available.
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site_cfg = lit_config.params.get('llvm_site_config', None)
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if site_cfg and os.path.exists(site_cfg):
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lit_config.load_config(config, site_cfg)
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raise SystemExit
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# Try to detect the situation where we are using an out-of-tree build by
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# looking for 'llvm-config'.
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#
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# FIXME: I debated (i.e., wrote and threw away) adding logic to
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# automagically generate the lit.site.cfg if we are in some kind of fresh
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# build situation. This means knowing how to invoke the build system
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# though, and I decided it was too much magic.
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llvm_config = lit.util.which('llvm-config', config.environment['PATH'])
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if not llvm_config:
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lit_config.fatal('No site specific configuration available!')
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# Get the source and object roots.
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llvm_src_root = lit.util.capture(['llvm-config', '--src-root']).strip()
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llvm_obj_root = lit.util.capture(['llvm-config', '--obj-root']).strip()
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# Validate that we got a tree which points to here.
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this_src_root = os.path.dirname(config.test_source_root)
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if os.path.realpath(llvm_src_root) != os.path.realpath(this_src_root):
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lit_config.fatal('No site specific configuration available!')
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# Check that the site specific configuration exists.
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site_cfg = os.path.join(llvm_obj_root, 'test', 'lit.site.cfg')
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if not os.path.exists(site_cfg):
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lit_config.fatal('No site specific configuration available!')
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# Okay, that worked. Notify the user of the automagic, and reconfigure.
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lit_config.note('using out-of-tree build at %r' % llvm_obj_root)
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lit_config.load_config(config, site_cfg)
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raise SystemExit
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###
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# Provide the path to asan runtime lib 'libclang_rt.asan_osx_dynamic.dylib' if
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# available. This is darwin specific since it's currently only needed on darwin.
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def get_asan_rtlib():
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if not "Address" in config.llvm_use_sanitizer or \
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not "Darwin" in config.host_os or \
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not "x86" in config.host_triple:
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return ""
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try:
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import glob
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except:
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print("glob module not found, skipping get_asan_rtlib() lookup")
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return ""
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# The libclang_rt.asan_osx_dynamic.dylib path is obtained using the relative
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# path from the host cc.
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host_lib_dir = os.path.join(os.path.dirname(config.host_cc), "../lib")
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asan_dylib_dir_pattern = host_lib_dir + \
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"/clang/*/lib/darwin/libclang_rt.asan_osx_dynamic.dylib"
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found_dylibs = glob.glob(asan_dylib_dir_pattern)
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if len(found_dylibs) != 1:
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return ""
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return found_dylibs[0]
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lli = 'lli'
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# The target triple used by default by lli is the process target triple (some
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# triple appropriate for generating code for the current process) but because
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# we don't support COFF in MCJIT well enough for the tests, force ELF format on
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# Windows. FIXME: the process target triple should be used here, but this is
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# difficult to obtain on Windows.
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if re.search(r'cygwin|mingw32|windows-gnu|windows-msvc|win32', config.host_triple):
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lli += ' -mtriple='+config.host_triple+'-elf'
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config.substitutions.append( ('%lli', lli ) )
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# Similarly, have a macro to use llc with DWARF even when the host is win32.
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llc_dwarf = 'llc'
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if re.search(r'win32', config.target_triple):
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llc_dwarf += ' -mtriple='+config.target_triple.replace('-win32', '-mingw32')
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config.substitutions.append( ('%llc_dwarf', llc_dwarf) )
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# Add site-specific substitutions.
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config.substitutions.append( ('%gold', config.gold_executable) )
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config.substitutions.append( ('%go', config.go_executable) )
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config.substitutions.append( ('%llvmshlibdir', config.llvm_shlib_dir) )
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config.substitutions.append( ('%shlibext', config.llvm_shlib_ext) )
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config.substitutions.append( ('%exeext', config.llvm_exe_ext) )
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config.substitutions.append( ('%python', config.python_executable) )
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config.substitutions.append( ('%host_cc', config.host_cc) )
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# Provide the path to asan runtime lib if available. On darwin, this lib needs
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# to be loaded via DYLD_INSERT_LIBRARIES before libLTO.dylib in case the files
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# to be linked contain instrumented sanitizer code.
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ld64_cmd = config.ld64_executable
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asan_rtlib = get_asan_rtlib()
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if asan_rtlib:
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ld64_cmd = "DYLD_INSERT_LIBRARIES={} {}".format(asan_rtlib, ld64_cmd)
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config.substitutions.append( ('%ld64', ld64_cmd) )
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# OCaml substitutions.
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# Support tests for both native and bytecode builds.
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config.substitutions.append( ('%ocamlc',
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"%s ocamlc -cclib -L%s %s" %
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(config.ocamlfind_executable, llvm_lib_dir, config.ocaml_flags)) )
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if config.have_ocamlopt in ('1', 'TRUE'):
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config.substitutions.append( ('%ocamlopt',
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"%s ocamlopt -cclib -L%s -cclib -Wl,-rpath,%s %s" %
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(config.ocamlfind_executable, llvm_lib_dir, llvm_lib_dir, config.ocaml_flags)) )
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else:
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config.substitutions.append( ('%ocamlopt', "true" ) )
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# For each occurrence of an llvm tool name as its own word, replace it
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# with the full path to the build directory holding that tool. This
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# ensures that we are testing the tools just built and not some random
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# tools that might happen to be in the user's PATH. Thus this list
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# includes every tool placed in $(LLVM_OBJ_ROOT)/$(BuildMode)/bin
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# (llvm_tools_dir in lit parlance).
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# Avoid matching RUN line fragments that are actually part of
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# path names or options or whatever.
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# The regex is a pre-assertion to avoid matching a preceding
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# dot, hyphen, carat, or slash (.foo, -foo, etc.). Some patterns
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# also have a post-assertion to not match a trailing hyphen (foo-).
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NOJUNK = r"(?<!\.|-|\^|/|<)"
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def find_tool_substitution(pattern):
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# Extract the tool name from the pattern. This relies on the tool
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# name being surrounded by \b word match operators. If the
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# pattern starts with "| ", include it in the string to be
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# substituted.
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tool_match = re.match(r"^(\\)?((\| )?)\W+b([0-9A-Za-z-_]+)\\b\W*$",
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pattern)
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tool_pipe = tool_match.group(2)
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tool_name = tool_match.group(4)
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# Did the user specify the tool path + arguments? This allows things like
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# llvm-lit "-Dllc=llc -enable-misched -verify-machineinstrs"
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tool_path = lit_config.params.get(tool_name)
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if tool_path is None:
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tool_path = lit.util.which(tool_name, llvm_tools_dir)
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if tool_path is None:
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return tool_name, tool_path, tool_pipe
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if (tool_name == "llc" and
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'LLVM_ENABLE_MACHINE_VERIFIER' in os.environ and
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os.environ['LLVM_ENABLE_MACHINE_VERIFIER'] == "1"):
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tool_path += " -verify-machineinstrs"
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if (tool_name == "llvm-go"):
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tool_path += " go=" + config.go_executable
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return tool_name, tool_path, tool_pipe
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for pattern in [r"\bbugpoint\b(?!-)",
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NOJUNK + r"\bllc\b",
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r"\blli\b",
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r"\bllvm-ar\b",
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r"\bllvm-as\b",
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r"\bllvm-bcanalyzer\b",
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r"\bllvm-config\b",
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r"\bllvm-cov\b",
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r"\bllvm-cxxdump\b",
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r"\bllvm-diff\b",
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r"\bllvm-dis\b",
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r"\bllvm-dsymutil\b",
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r"\bllvm-dwarfdump\b",
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r"\bllvm-extract\b",
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r"\bllvm-lib\b",
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r"\bllvm-link\b",
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r"\bllvm-lto\b",
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r"\bllvm-lto2\b",
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r"\bllvm-mc\b",
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r"\bllvm-mcmarkup\b",
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r"\bllvm-nm\b",
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r"\bllvm-objdump\b",
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r"\bllvm-pdbdump\b",
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r"\bllvm-profdata\b",
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r"\bllvm-ranlib\b",
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r"\bllvm-readobj\b",
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r"\bllvm-rtdyld\b",
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r"\bllvm-size\b",
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r"\bllvm-split\b",
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r"\bllvm-tblgen\b",
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r"\bllvm-c-test\b",
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r"\bllvm-cxxfilt\b",
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NOJUNK + r"\bllvm-symbolizer\b",
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NOJUNK + r"\bopt\b",
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r"\bFileCheck\b",
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r"\bobj2yaml\b",
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NOJUNK + r"\bsancov\b",
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NOJUNK + r"\bsanstats\b",
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r"\byaml2obj\b",
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r"\byaml-bench\b",
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r"\bverify-uselistorder\b",
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# Handle these specially as they are strings searched
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# for during testing.
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r"\| \bcount\b",
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r"\| \bnot\b"]:
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tool_name, tool_path, tool_pipe = find_tool_substitution(pattern)
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if not tool_path:
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# Warn, but still provide a substitution.
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lit_config.note('Did not find ' + tool_name + ' in ' + llvm_tools_dir)
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tool_path = llvm_tools_dir + '/' + tool_name
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config.substitutions.append((pattern, tool_pipe + tool_path))
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# For tools that are optional depending on the config, we won't warn
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# if they're missing.
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for pattern in [r"\bllvm-go\b",
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r"\bKaleidoscope-Ch3\b",
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r"\bKaleidoscope-Ch4\b",
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r"\bKaleidoscope-Ch5\b",
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r"\bKaleidoscope-Ch6\b",
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r"\bKaleidoscope-Ch7\b",
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r"\bKaleidoscope-Ch8\b"]:
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tool_name, tool_path, tool_pipe = find_tool_substitution(pattern)
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if not tool_path:
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# Provide a substitution anyway, for the sake of consistent errors.
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tool_path = llvm_tools_dir + '/' + tool_name
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config.substitutions.append((pattern, tool_pipe + tool_path))
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### Targets
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config.targets = frozenset(config.targets_to_build.split())
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for arch in config.targets_to_build.split():
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config.available_features.add(arch.lower() + '-registered-target')
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### Features
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# Shell execution
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if execute_external:
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config.available_features.add('shell')
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# Others/can-execute.txt
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if sys.platform not in ['win32']:
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config.available_features.add('can-execute')
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config.available_features.add('not_COFF')
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# Loadable module
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# FIXME: This should be supplied by Makefile or autoconf.
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if sys.platform in ['win32', 'cygwin']:
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loadable_module = (config.enable_shared == 1)
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else:
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loadable_module = True
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if loadable_module:
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config.available_features.add('loadable_module')
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# Sanitizers.
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if 'Address' in config.llvm_use_sanitizer:
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config.available_features.add("asan")
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else:
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config.available_features.add("not_asan")
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if 'Memory' in config.llvm_use_sanitizer:
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config.available_features.add("msan")
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else:
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config.available_features.add("not_msan")
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if 'Undefined' in config.llvm_use_sanitizer:
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config.available_features.add("ubsan")
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else:
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config.available_features.add("not_ubsan")
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# Check if we should run long running tests.
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if lit_config.params.get("run_long_tests", None) == "true":
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config.available_features.add("long_tests")
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# Direct object generation
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if not 'hexagon' in config.target_triple:
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config.available_features.add("object-emission")
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if config.have_zlib == "1":
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config.available_features.add("zlib")
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else:
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config.available_features.add("nozlib")
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# LLVM can be configured with an empty default triple
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# Some tests are "generic" and require a valid default triple
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if config.target_triple:
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config.available_features.add("default_triple")
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if re.match(r'^x86_64.*-linux', config.target_triple):
|
|
config.available_features.add("x86_64-linux")
|
|
|
|
# Native compilation: host arch == default triple arch
|
|
# FIXME: Consider cases that target can be executed
|
|
# even if host_triple were different from target_triple.
|
|
if config.host_triple == config.target_triple:
|
|
config.available_features.add("native")
|
|
|
|
import subprocess
|
|
|
|
def have_ld_plugin_support():
|
|
if not os.path.exists(os.path.join(config.llvm_shlib_dir, 'LLVMgold.so')):
|
|
return False
|
|
|
|
ld_cmd = subprocess.Popen([config.gold_executable, '--help'], stdout = subprocess.PIPE, env={'LANG': 'C'})
|
|
ld_out = ld_cmd.stdout.read().decode()
|
|
ld_cmd.wait()
|
|
|
|
if not '-plugin' in ld_out:
|
|
return False
|
|
|
|
# check that the used emulations are supported.
|
|
emu_line = [l for l in ld_out.split('\n') if 'supported emulations' in l]
|
|
if len(emu_line) != 1:
|
|
return False
|
|
emu_line = emu_line[0]
|
|
fields = emu_line.split(':')
|
|
if len(fields) != 3:
|
|
return False
|
|
emulations = fields[2].split()
|
|
if 'elf_x86_64' not in emulations:
|
|
return False
|
|
if 'elf32ppc' in emulations:
|
|
config.available_features.add('ld_emu_elf32ppc')
|
|
|
|
ld_version = subprocess.Popen([config.gold_executable, '--version'], stdout = subprocess.PIPE, env={'LANG': 'C'})
|
|
if not 'GNU gold' in ld_version.stdout.read().decode():
|
|
return False
|
|
ld_version.wait()
|
|
|
|
return True
|
|
|
|
if have_ld_plugin_support():
|
|
config.available_features.add('ld_plugin')
|
|
|
|
def have_ld64_plugin_support():
|
|
if config.ld64_executable == '':
|
|
return False
|
|
|
|
ld_cmd = subprocess.Popen([config.ld64_executable, '-v'], stderr = subprocess.PIPE)
|
|
ld_out = ld_cmd.stderr.read().decode()
|
|
ld_cmd.wait()
|
|
|
|
if 'ld64' not in ld_out or 'LTO' not in ld_out:
|
|
return False
|
|
|
|
return True
|
|
|
|
if have_ld64_plugin_support():
|
|
config.available_features.add('ld64_plugin')
|
|
|
|
# Ask llvm-config about assertion mode.
|
|
try:
|
|
llvm_config_cmd = subprocess.Popen(
|
|
[os.path.join(llvm_tools_dir, 'llvm-config'), '--assertion-mode'],
|
|
stdout = subprocess.PIPE,
|
|
env=config.environment)
|
|
except OSError:
|
|
print("Could not find llvm-config in " + llvm_tools_dir)
|
|
exit(42)
|
|
|
|
if re.search(r'ON', llvm_config_cmd.stdout.read().decode('ascii')):
|
|
config.available_features.add('asserts')
|
|
llvm_config_cmd.wait()
|
|
|
|
if 'darwin' == sys.platform:
|
|
try:
|
|
sysctl_cmd = subprocess.Popen(['sysctl', 'hw.optional.fma'],
|
|
stdout = subprocess.PIPE)
|
|
except OSError:
|
|
print("Could not exec sysctl")
|
|
result = sysctl_cmd.stdout.read().decode('ascii')
|
|
if -1 != result.find("hw.optional.fma: 1"):
|
|
config.available_features.add('fma3')
|
|
sysctl_cmd.wait()
|
|
|
|
if platform.system() in ['Windows'] and re.match(r'.*-win32$', config.target_triple):
|
|
# For tests that require Windows to run.
|
|
config.available_features.add('system-windows')
|
|
|
|
# .debug_frame is not emitted for targeting Windows x64.
|
|
if not re.match(r'^x86_64.*-(mingw32|windows-gnu|win32)', config.target_triple):
|
|
config.available_features.add('debug_frame')
|
|
|
|
# Check if we should use gmalloc.
|
|
use_gmalloc_str = lit_config.params.get('use_gmalloc', None)
|
|
if use_gmalloc_str is not None:
|
|
if use_gmalloc_str.lower() in ('1', 'true'):
|
|
use_gmalloc = True
|
|
elif use_gmalloc_str.lower() in ('', '0', 'false'):
|
|
use_gmalloc = False
|
|
else:
|
|
lit_config.fatal('user parameter use_gmalloc should be 0 or 1')
|
|
else:
|
|
# Default to not using gmalloc
|
|
use_gmalloc = False
|
|
|
|
# Allow use of an explicit path for gmalloc library.
|
|
# Will default to '/usr/lib/libgmalloc.dylib' if not set.
|
|
gmalloc_path_str = lit_config.params.get('gmalloc_path',
|
|
'/usr/lib/libgmalloc.dylib')
|
|
|
|
if use_gmalloc:
|
|
config.environment.update({'DYLD_INSERT_LIBRARIES' : gmalloc_path_str})
|
|
|
|
# Ask llvm-config about global-isel.
|
|
try:
|
|
llvm_config_cmd = subprocess.Popen(
|
|
[os.path.join(llvm_tools_dir, 'llvm-config'), '--has-global-isel'],
|
|
stdout = subprocess.PIPE,
|
|
env=config.environment)
|
|
except OSError:
|
|
print("Could not find llvm-config in " + llvm_tools_dir)
|
|
exit(42)
|
|
|
|
if re.search(r'ON', llvm_config_cmd.stdout.read().decode('ascii')):
|
|
config.available_features.add('global-isel')
|
|
llvm_config_cmd.wait()
|
|
|
|
if config.have_libxar:
|
|
config.available_features.add('xar')
|