# Copyright 2012-2017 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 __future__ import annotations import enum import os.path import string import typing as T from .. import coredata from .. import mlog from ..mesonlib import ( EnvironmentException, Popen_safe, OptionOverrideProxy, is_windows, LibType, OptionKey, version_compare, ) from .compilers import (Compiler, cuda_buildtype_args, cuda_optimization_args, cuda_debug_args) if T.TYPE_CHECKING: from .compilers import CompileCheckMode from ..build import BuildTarget from ..coredata import MutableKeyedOptionDictType, KeyedOptionDictType from ..dependencies import Dependency from ..environment import Environment # noqa: F401 from ..envconfig import MachineInfo from ..linkers import DynamicLinker from ..mesonlib import MachineChoice from ..programs import ExternalProgram class _Phase(enum.Enum): COMPILER = 'compiler' LINKER = 'linker' class CudaCompiler(Compiler): LINKER_PREFIX = '-Xlinker=' language = 'cuda' # NVCC flags taking no arguments. _FLAG_PASSTHRU_NOARGS = { # NVCC --long-option, NVCC -short-option CUDA Toolkit 11.2.1 Reference '--objdir-as-tempdir', '-objtemp', # 4.2.1.2 '--generate-dependency-targets', '-MP', # 4.2.1.12 '--allow-unsupported-compiler', '-allow-unsupported-compiler', # 4.2.1.14 '--link', # 4.2.2.1 '--lib', '-lib', # 4.2.2.2 '--device-link', '-dlink', # 4.2.2.3 '--device-c', '-dc', # 4.2.2.4 '--device-w', '-dw', # 4.2.2.5 '--cuda', '-cuda', # 4.2.2.6 '--compile', '-c', # 4.2.2.7 '--fatbin', '-fatbin', # 4.2.2.8 '--cubin', '-cubin', # 4.2.2.9 '--ptx', '-ptx', # 4.2.2.10 '--preprocess', '-E', # 4.2.2.11 '--generate-dependencies', '-M', # 4.2.2.12 '--generate-nonsystem-dependencies', '-MM', # 4.2.2.13 '--generate-dependencies-with-compile', '-MD', # 4.2.2.14 '--generate-nonsystem-dependencies-with-compile', '-MMD', # 4.2.2.15 '--run', # 4.2.2.16 '--profile', '-pg', # 4.2.3.1 '--debug', '-g', # 4.2.3.2 '--device-debug', '-G', # 4.2.3.3 '--extensible-whole-program', '-ewp', # 4.2.3.4 '--generate-line-info', '-lineinfo', # 4.2.3.5 '--dlink-time-opt', '-dlto', # 4.2.3.8 '--no-exceptions', '-noeh', # 4.2.3.11 '--shared', '-shared', # 4.2.3.12 '--no-host-device-initializer-list', '-nohdinitlist', # 4.2.3.15 '--expt-relaxed-constexpr', '-expt-relaxed-constexpr', # 4.2.3.16 '--extended-lambda', '-extended-lambda', # 4.2.3.17 '--expt-extended-lambda', '-expt-extended-lambda', # 4.2.3.18 '--m32', '-m32', # 4.2.3.20 '--m64', '-m64', # 4.2.3.21 '--forward-unknown-to-host-compiler', '-forward-unknown-to-host-compiler', # 4.2.5.1 '--forward-unknown-to-host-linker', '-forward-unknown-to-host-linker', # 4.2.5.2 '--dont-use-profile', '-noprof', # 4.2.5.3 '--dryrun', '-dryrun', # 4.2.5.5 '--verbose', '-v', # 4.2.5.6 '--keep', '-keep', # 4.2.5.7 '--save-temps', '-save-temps', # 4.2.5.9 '--clean-targets', '-clean', # 4.2.5.10 '--no-align-double', # 4.2.5.16 '--no-device-link', '-nodlink', # 4.2.5.17 '--allow-unsupported-compiler', '-allow-unsupported-compiler', # 4.2.5.18 '--use_fast_math', '-use_fast_math', # 4.2.7.7 '--extra-device-vectorization', '-extra-device-vectorization', # 4.2.7.12 '--compile-as-tools-patch', '-astoolspatch', # 4.2.7.13 '--keep-device-functions', '-keep-device-functions', # 4.2.7.14 '--disable-warnings', '-w', # 4.2.8.1 '--source-in-ptx', '-src-in-ptx', # 4.2.8.2 '--restrict', '-restrict', # 4.2.8.3 '--Wno-deprecated-gpu-targets', '-Wno-deprecated-gpu-targets', # 4.2.8.4 '--Wno-deprecated-declarations', '-Wno-deprecated-declarations', # 4.2.8.5 '--Wreorder', '-Wreorder', # 4.2.8.6 '--Wdefault-stream-launch', '-Wdefault-stream-launch', # 4.2.8.7 '--Wext-lambda-captures-this', '-Wext-lambda-captures-this', # 4.2.8.8 '--display-error-number', '-err-no', # 4.2.8.10 '--resource-usage', '-res-usage', # 4.2.8.14 '--help', '-h', # 4.2.8.15 '--version', '-V', # 4.2.8.16 '--list-gpu-code', '-code-ls', # 4.2.8.20 '--list-gpu-arch', '-arch-ls', # 4.2.8.21 } # Dictionary of NVCC flags taking either one argument or a comma-separated list. # Maps --long to -short options, because the short options are more GCC-like. _FLAG_LONG2SHORT_WITHARGS = { '--output-file': '-o', # 4.2.1.1 '--pre-include': '-include', # 4.2.1.3 '--library': '-l', # 4.2.1.4 '--define-macro': '-D', # 4.2.1.5 '--undefine-macro': '-U', # 4.2.1.6 '--include-path': '-I', # 4.2.1.7 '--system-include': '-isystem', # 4.2.1.8 '--library-path': '-L', # 4.2.1.9 '--output-directory': '-odir', # 4.2.1.10 '--dependency-output': '-MF', # 4.2.1.11 '--compiler-bindir': '-ccbin', # 4.2.1.13 '--archiver-binary': '-arbin', # 4.2.1.15 '--cudart': '-cudart', # 4.2.1.16 '--cudadevrt': '-cudadevrt', # 4.2.1.17 '--libdevice-directory': '-ldir', # 4.2.1.18 '--target-directory': '-target-dir', # 4.2.1.19 '--optimization-info': '-opt-info', # 4.2.3.6 '--optimize': '-O', # 4.2.3.7 '--ftemplate-backtrace-limit': '-ftemplate-backtrace-limit', # 4.2.3.9 '--ftemplate-depth': '-ftemplate-depth', # 4.2.3.10 '--x': '-x', # 4.2.3.13 '--std': '-std', # 4.2.3.14 '--machine': '-m', # 4.2.3.19 '--compiler-options': '-Xcompiler', # 4.2.4.1 '--linker-options': '-Xlinker', # 4.2.4.2 '--archive-options': '-Xarchive', # 4.2.4.3 '--ptxas-options': '-Xptxas', # 4.2.4.4 '--nvlink-options': '-Xnvlink', # 4.2.4.5 '--threads': '-t', # 4.2.5.4 '--keep-dir': '-keep-dir', # 4.2.5.8 '--run-args': '-run-args', # 4.2.5.11 '--input-drive-prefix': '-idp', # 4.2.5.12 '--dependency-drive-prefix': '-ddp', # 4.2.5.13 '--drive-prefix': '-dp', # 4.2.5.14 '--dependency-target-name': '-MT', # 4.2.5.15 '--default-stream': '-default-stream', # 4.2.6.1 '--gpu-architecture': '-arch', # 4.2.7.1 '--gpu-code': '-code', # 4.2.7.2 '--generate-code': '-gencode', # 4.2.7.3 '--relocatable-device-code': '-rdc', # 4.2.7.4 '--entries': '-e', # 4.2.7.5 '--maxrregcount': '-maxrregcount', # 4.2.7.6 '--ftz': '-ftz', # 4.2.7.8 '--prec-div': '-prec-div', # 4.2.7.9 '--prec-sqrt': '-prec-sqrt', # 4.2.7.10 '--fmad': '-fmad', # 4.2.7.11 '--Werror': '-Werror', # 4.2.8.9 '--diag-error': '-diag-error', # 4.2.8.11 '--diag-suppress': '-diag-suppress', # 4.2.8.12 '--diag-warn': '-diag-warn', # 4.2.8.13 '--options-file': '-optf', # 4.2.8.17 '--time': '-time', # 4.2.8.18 '--qpp-config': '-qpp-config', # 4.2.8.19 } # Reverse map -short to --long options. _FLAG_SHORT2LONG_WITHARGS = {v: k for k, v in _FLAG_LONG2SHORT_WITHARGS.items()} id = 'nvcc' def __init__(self, ccache: T.List[str], exelist: T.List[str], version: str, for_machine: MachineChoice, is_cross: bool, exe_wrapper: T.Optional['ExternalProgram'], host_compiler: Compiler, info: 'MachineInfo', linker: T.Optional['DynamicLinker'] = None, full_version: T.Optional[str] = None): super().__init__(ccache, exelist, version, for_machine, info, linker=linker, full_version=full_version, is_cross=is_cross) self.exe_wrapper = exe_wrapper self.host_compiler = host_compiler self.base_options = host_compiler.base_options self.warn_args = {level: self._to_host_flags(flags) for level, flags in host_compiler.warn_args.items()} @classmethod def _shield_nvcc_list_arg(cls, arg: str, listmode: bool = True) -> str: r""" Shield an argument against both splitting by NVCC's list-argument parse logic, and interpretation by any shell. NVCC seems to consider every comma , that is neither escaped by \ nor inside a double-quoted string a split-point. Single-quotes do not provide protection against splitting; In fact, after splitting they are \-escaped. Unfortunately, double-quotes don't protect against shell expansion. What follows is a complex dance to accommodate everybody. """ SQ = "'" DQ = '"' CM = "," BS = "\\" DQSQ = DQ+SQ+DQ quotable = set(string.whitespace+'"$`\\') if CM not in arg or not listmode: if SQ not in arg: # If any of the special characters "$`\ or whitespace are present, single-quote. # Otherwise return bare. if set(arg).intersection(quotable): return SQ+arg+SQ else: return arg # Easy case: no splits, no quoting. else: # There are single quotes. Double-quote them, and single-quote the # strings between them. l = [cls._shield_nvcc_list_arg(s) for s in arg.split(SQ)] l = sum([[s, DQSQ] for s in l][:-1], []) # Interleave l with DQSQs return ''.join(l) else: # A comma is present, and list mode was active. # We apply (what we guess is) the (primitive) NVCC splitting rule: l = [''] instring = False argit = iter(arg) for c in argit: if c == CM and not instring: l.append('') elif c == DQ: l[-1] += c instring = not instring elif c == BS: try: l[-1] += next(argit) except StopIteration: break else: l[-1] += c # Shield individual strings, without listmode, then return them with # escaped commas between them. l = [cls._shield_nvcc_list_arg(s, listmode=False) for s in l] return r'\,'.join(l) @classmethod def _merge_flags(cls, flags: T.List[str]) -> T.List[str]: r""" The flags to NVCC gets exceedingly verbose and unreadable when too many of them are shielded with -Xcompiler. Merge consecutive -Xcompiler-wrapped arguments into one. """ if len(flags) <= 1: return flags flagit = iter(flags) xflags = [] def is_xcompiler_flag_isolated(flag: str) -> bool: return flag == '-Xcompiler' def is_xcompiler_flag_glued(flag: str) -> bool: return flag.startswith('-Xcompiler=') def is_xcompiler_flag(flag: str) -> bool: return is_xcompiler_flag_isolated(flag) or is_xcompiler_flag_glued(flag) def get_xcompiler_val(flag: str, flagit: T.Iterator[str]) -> str: if is_xcompiler_flag_glued(flag): return flag[len('-Xcompiler='):] else: try: return next(flagit) except StopIteration: return "" ingroup = False for flag in flagit: if not is_xcompiler_flag(flag): ingroup = False xflags.append(flag) elif ingroup: xflags[-1] += ',' xflags[-1] += get_xcompiler_val(flag, flagit) elif is_xcompiler_flag_isolated(flag): ingroup = True xflags.append(flag) xflags.append(get_xcompiler_val(flag, flagit)) elif is_xcompiler_flag_glued(flag): ingroup = True xflags.append(flag) else: raise ValueError("-Xcompiler flag merging failed, unknown argument form!") return xflags def _to_host_flags(self, flags: T.List[str], phase: _Phase = _Phase.COMPILER) -> T.List[str]: """ Translate generic "GCC-speak" plus particular "NVCC-speak" flags to NVCC flags. NVCC's "short" flags have broad similarities to the GCC standard, but have gratuitous, irritating differences. """ xflags = [] flagit = iter(flags) for flag in flagit: # The CUDA Toolkit Documentation, in 4.1. Command Option Types and Notation, # specifies that NVCC does not parse the standard flags as GCC does. It has # its own strategy, to wit: # # nvcc recognizes three types of command options: boolean options, single # value options, and list options. # # Boolean options do not have an argument; they are either specified on a # command line or not. Single value options must be specified at most once, # and list options may be repeated. Examples of each of these option types # are, respectively: --verbose (switch to verbose mode), --output-file # (specify output file), and --include-path (specify include path). # # Single value options and list options must have arguments, which must # follow the name of the option itself by either one of more spaces or an # equals character. When a one-character short name such as -I, -l, and -L # is used, the value of the option may also immediately follow the option # itself without being separated by spaces or an equal character. The # individual values of list options may be separated by commas in a single # instance of the option, or the option may be repeated, or any # combination of these two cases. # # One strange consequence of this choice is that directory and filenames that # contain commas (',') cannot be passed to NVCC (at least, not as easily as # in GCC). Another strange consequence is that it is legal to supply flags # such as # # -lpthread,rt,dl,util # -l pthread,rt,dl,util # -l=pthread,rt,dl,util # # and each of the above alternatives is equivalent to GCC-speak # # -lpthread -lrt -ldl -lutil # -l pthread -l rt -l dl -l util # -l=pthread -l=rt -l=dl -l=util # # *With the exception of commas in the name*, GCC-speak for these list flags # is a strict subset of NVCC-speak, so we passthrough those flags. # # The -D macro-define flag is documented as somehow shielding commas from # splitting a definition. Balanced parentheses, braces and single-quotes # around the comma are not sufficient, but balanced double-quotes are. The # shielding appears to work with -l, -I, -L flags as well, for instance. # # Since our goal is to replicate GCC-speak as much as possible, we check for # commas in all list-arguments and shield them with double-quotes. We make # an exception for -D (where this would be value-changing) and -U (because # it isn't possible to define a macro with a comma in the name). if flag in self._FLAG_PASSTHRU_NOARGS: xflags.append(flag) continue # Handle breakup of flag-values into a flag-part and value-part. if flag[:1] not in '-/': # This is not a flag. It's probably a file input. Pass it through. xflags.append(flag) continue elif flag[:1] == '/': # This is ambiguously either an MVSC-style /switch or an absolute path # to a file. For some magical reason the following works acceptably in # both cases. wrap = '"' if ',' in flag else '' xflags.append(f'-X{phase.value}={wrap}{flag}{wrap}') continue elif len(flag) >= 2 and flag[0] == '-' and flag[1] in 'IDULlmOxmte': # This is a single-letter short option. These options (with the # exception of -o) are allowed to receive their argument with neither # space nor = sign before them. Detect and separate them in that event. if flag[2:3] == '': # -I something try: val = next(flagit) except StopIteration: pass elif flag[2:3] == '=': # -I=something val = flag[3:] else: # -Isomething val = flag[2:] flag = flag[:2] # -I elif flag in self._FLAG_LONG2SHORT_WITHARGS or \ flag in self._FLAG_SHORT2LONG_WITHARGS: # This is either -o or a multi-letter flag, and it is receiving its # value isolated. try: val = next(flagit) # -o something except StopIteration: pass elif flag.split('=', 1)[0] in self._FLAG_LONG2SHORT_WITHARGS or \ flag.split('=', 1)[0] in self._FLAG_SHORT2LONG_WITHARGS: # This is either -o or a multi-letter flag, and it is receiving its # value after an = sign. flag, val = flag.split('=', 1) # -o=something # Some dependencies (e.g., BoostDependency) add unspaced "-isystem/usr/include" arguments elif flag.startswith('-isystem'): val = flag[8:].strip() flag = flag[:8] else: # This is a flag, and it's foreign to NVCC. # # We do not know whether this GCC-speak flag takes an isolated # argument. Assuming it does not (the vast majority indeed don't), # wrap this argument in an -Xcompiler flag and send it down to NVCC. if flag == '-ffast-math': xflags.append('-use_fast_math') xflags.append('-Xcompiler='+flag) elif flag == '-fno-fast-math': xflags.append('-ftz=false') xflags.append('-prec-div=true') xflags.append('-prec-sqrt=true') xflags.append('-Xcompiler='+flag) elif flag == '-freciprocal-math': xflags.append('-prec-div=false') xflags.append('-Xcompiler='+flag) elif flag == '-fno-reciprocal-math': xflags.append('-prec-div=true') xflags.append('-Xcompiler='+flag) else: xflags.append('-Xcompiler='+self._shield_nvcc_list_arg(flag)) # The above should securely handle GCC's -Wl, -Wa, -Wp, arguments. continue assert val is not None # Should only trip if there is a missing argument. # Take care of the various NVCC-supported flags that need special handling. flag = self._FLAG_LONG2SHORT_WITHARGS.get(flag, flag) if flag in {'-include', '-isystem', '-I', '-L', '-l'}: # These flags are known to GCC, but list-valued in NVCC. They potentially # require double-quoting to prevent NVCC interpreting the flags as lists # when GCC would not have done so. # # We avoid doing this quoting for -D to avoid redefining macros and for # -U because it isn't possible to define a macro with a comma in the name. # -U with comma arguments is impossible in GCC-speak (and thus unambiguous #in NVCC-speak, albeit unportable). if len(flag) == 2: xflags.append(flag+self._shield_nvcc_list_arg(val)) elif flag == '-isystem' and val in self.host_compiler.get_default_include_dirs(): # like GnuLikeCompiler, we have to filter out include directories specified # with -isystem that overlap with the host compiler's search path pass else: xflags.append(flag) xflags.append(self._shield_nvcc_list_arg(val)) elif flag == '-O': # Handle optimization levels GCC knows about that NVCC does not. if val == 'fast': xflags.append('-O3') xflags.append('-use_fast_math') xflags.append('-Xcompiler') xflags.append(flag+val) elif val in {'s', 'g', 'z'}: xflags.append('-Xcompiler') xflags.append(flag+val) else: xflags.append(flag+val) elif flag in {'-D', '-U', '-m', '-t'}: xflags.append(flag+val) # For style, keep glued. elif flag in {'-std'}: xflags.append(flag+'='+val) # For style, keep glued. else: xflags.append(flag) xflags.append(val) return self._merge_flags(xflags) def needs_static_linker(self) -> bool: return False def thread_link_flags(self, environment: 'Environment') -> T.List[str]: return self._to_host_flags(self.host_compiler.thread_link_flags(environment), _Phase.LINKER) def sanity_check(self, work_dir: str, env: 'Environment') -> None: mlog.debug('Sanity testing ' + self.get_display_language() + ' compiler:', ' '.join(self.exelist)) mlog.debug('Is cross compiler: %s.' % str(self.is_cross)) sname = 'sanitycheckcuda.cu' code = r''' #include #include __global__ void kernel (void) {} int main(void){ struct cudaDeviceProp prop; int count, i; cudaError_t ret = cudaGetDeviceCount(&count); if(ret != cudaSuccess){ fprintf(stderr, "%d\n", (int)ret); }else{ for(i=0;i T.Tuple[bool, bool]: if extra_args is None: extra_args = [] fargs = {'prefix': prefix, 'header': hname, 'symbol': symbol} # Check if it's a C-like symbol t = '''{prefix} #include <{header}> int main(void) {{ /* If it's not defined as a macro, try to use as a symbol */ #ifndef {symbol} {symbol}; #endif return 0; }}''' found, cached = self.compiles(t.format_map(fargs), env, extra_args=extra_args, dependencies=dependencies) if found: return True, cached # Check if it's a class or a template t = '''{prefix} #include <{header}> using {symbol}; int main(void) {{ return 0; }}''' return self.compiles(t.format_map(fargs), env, extra_args=extra_args, dependencies=dependencies) _CPP14_VERSION = '>=9.0' _CPP17_VERSION = '>=11.0' _CPP20_VERSION = '>=12.0' def get_options(self) -> 'MutableKeyedOptionDictType': opts = super().get_options() std_key = OptionKey('std', machine=self.for_machine, lang=self.language) ccbindir_key = OptionKey('ccbindir', machine=self.for_machine, lang=self.language) cpp_stds = ['none', 'c++03', 'c++11'] if version_compare(self.version, self._CPP14_VERSION): cpp_stds += ['c++14'] if version_compare(self.version, self._CPP17_VERSION): cpp_stds += ['c++17'] if version_compare(self.version, self._CPP20_VERSION): cpp_stds += ['c++20'] opts.update({ std_key: coredata.UserComboOption('C++ language standard to use with CUDA', cpp_stds, 'none'), ccbindir_key: coredata.UserStringOption('CUDA non-default toolchain directory to use (-ccbin)', ''), }) return opts def _to_host_compiler_options(self, options: 'KeyedOptionDictType') -> 'KeyedOptionDictType': """ Convert an NVCC Option set to a host compiler's option set. """ # We must strip the -std option from the host compiler option set, as NVCC has # its own -std flag that may not agree with the host compiler's. host_options = {key: options.get(key, opt) for key, opt in self.host_compiler.get_options().items()} std_key = OptionKey('std', machine=self.for_machine, lang=self.host_compiler.language) overrides = {std_key: 'none'} return OptionOverrideProxy(overrides, host_options) def get_option_compile_args(self, options: 'KeyedOptionDictType') -> T.List[str]: args = self.get_ccbin_args(options) # On Windows, the version of the C++ standard used by nvcc is dictated by # the combination of CUDA version and MSVC version; the --std= is thus ignored # and attempting to use it will result in a warning: https://stackoverflow.com/a/51272091/741027 if not is_windows(): key = OptionKey('std', machine=self.for_machine, lang=self.language) std = options[key] if std.value != 'none': args.append('--std=' + std.value) return args + self._to_host_flags(self.host_compiler.get_option_compile_args(self._to_host_compiler_options(options))) def get_option_link_args(self, options: 'KeyedOptionDictType') -> T.List[str]: args = self.get_ccbin_args(options) return args + self._to_host_flags(self.host_compiler.get_option_link_args(self._to_host_compiler_options(options)), _Phase.LINKER) def get_soname_args(self, env: 'Environment', prefix: str, shlib_name: str, suffix: str, soversion: str, darwin_versions: T.Tuple[str, str]) -> T.List[str]: return self._to_host_flags(self.host_compiler.get_soname_args( env, prefix, shlib_name, suffix, soversion, darwin_versions), _Phase.LINKER) def get_compile_only_args(self) -> T.List[str]: return ['-c'] def get_no_optimization_args(self) -> T.List[str]: return ['-O0'] def get_optimization_args(self, optimization_level: str) -> T.List[str]: # alternatively, consider simply redirecting this to the host compiler, which would # give us more control over options like "optimize for space" (which nvcc doesn't support): # return self._to_host_flags(self.host_compiler.get_optimization_args(optimization_level)) return cuda_optimization_args[optimization_level] def sanitizer_compile_args(self, value: str) -> T.List[str]: return self._to_host_flags(self.host_compiler.sanitizer_compile_args(value)) def sanitizer_link_args(self, value: str) -> T.List[str]: return self._to_host_flags(self.host_compiler.sanitizer_link_args(value)) def get_debug_args(self, is_debug: bool) -> T.List[str]: return cuda_debug_args[is_debug] def get_werror_args(self) -> T.List[str]: return ['-Werror=cross-execution-space-call,deprecated-declarations,reorder'] def get_warn_args(self, level: str) -> T.List[str]: return self.warn_args[level] def get_buildtype_args(self, buildtype: str) -> T.List[str]: # nvcc doesn't support msvc's "Edit and Continue" PDB format; "downgrade" to # a regular PDB to avoid cl's warning to that effect (D9025 : overriding '/ZI' with '/Zi') host_args = ['/Zi' if arg == '/ZI' else arg for arg in self.host_compiler.get_buildtype_args(buildtype)] return cuda_buildtype_args[buildtype] + self._to_host_flags(host_args) def get_include_args(self, path: str, is_system: bool) -> T.List[str]: if path == '': path = '.' return ['-isystem=' + path] if is_system else ['-I' + path] def get_compile_debugfile_args(self, rel_obj: str, pch: bool = False) -> T.List[str]: return self._to_host_flags(self.host_compiler.get_compile_debugfile_args(rel_obj, pch)) def get_link_debugfile_args(self, targetfile: str) -> T.List[str]: return self._to_host_flags(self.host_compiler.get_link_debugfile_args(targetfile), _Phase.LINKER) def get_depfile_suffix(self) -> str: return 'd' def get_buildtype_linker_args(self, buildtype: str) -> T.List[str]: return self._to_host_flags(self.host_compiler.get_buildtype_linker_args(buildtype), _Phase.LINKER) def build_rpath_args(self, env: 'Environment', build_dir: str, from_dir: str, rpath_paths: T.Tuple[str, ...], build_rpath: str, install_rpath: str) -> T.Tuple[T.List[str], T.Set[bytes]]: (rpath_args, rpath_dirs_to_remove) = self.host_compiler.build_rpath_args( env, build_dir, from_dir, rpath_paths, build_rpath, install_rpath) return (self._to_host_flags(rpath_args, _Phase.LINKER), rpath_dirs_to_remove) def linker_to_compiler_args(self, args: T.List[str]) -> T.List[str]: return args def get_pic_args(self) -> T.List[str]: return self._to_host_flags(self.host_compiler.get_pic_args()) def compute_parameters_with_absolute_paths(self, parameter_list: T.List[str], build_dir: str) -> T.List[str]: return [] def get_output_args(self, target: str) -> T.List[str]: return ['-o', target] def get_std_exe_link_args(self) -> T.List[str]: return self._to_host_flags(self.host_compiler.get_std_exe_link_args(), _Phase.LINKER) def find_library(self, libname: str, env: 'Environment', extra_dirs: T.List[str], libtype: LibType = LibType.PREFER_SHARED, lib_prefix_warning: bool = True) -> T.Optional[T.List[str]]: return ['-l' + libname] # FIXME def get_crt_compile_args(self, crt_val: str, buildtype: str) -> T.List[str]: return self._to_host_flags(self.host_compiler.get_crt_compile_args(crt_val, buildtype)) def get_crt_link_args(self, crt_val: str, buildtype: str) -> T.List[str]: # nvcc defaults to static, release version of msvc runtime and provides no # native option to override it; override it with /NODEFAULTLIB host_link_arg_overrides = [] host_crt_compile_args = self.host_compiler.get_crt_compile_args(crt_val, buildtype) if any(arg in {'/MDd', '/MD', '/MTd'} for arg in host_crt_compile_args): host_link_arg_overrides += ['/NODEFAULTLIB:LIBCMT.lib'] return self._to_host_flags(host_link_arg_overrides + self.host_compiler.get_crt_link_args(crt_val, buildtype), _Phase.LINKER) def get_target_link_args(self, target: 'BuildTarget') -> T.List[str]: return self._to_host_flags(super().get_target_link_args(target), _Phase.LINKER) def get_dependency_compile_args(self, dep: 'Dependency') -> T.List[str]: return self._to_host_flags(super().get_dependency_compile_args(dep)) def get_dependency_link_args(self, dep: 'Dependency') -> T.List[str]: return self._to_host_flags(super().get_dependency_link_args(dep), _Phase.LINKER) def get_ccbin_args(self, options: 'KeyedOptionDictType') -> T.List[str]: key = OptionKey('ccbindir', machine=self.for_machine, lang=self.language) ccbindir = options[key].value if isinstance(ccbindir, str) and ccbindir != '': return [self._shield_nvcc_list_arg('-ccbin='+ccbindir, False)] else: return [] def get_profile_generate_args(self) -> T.List[str]: return ['-Xcompiler=' + x for x in self.host_compiler.get_profile_generate_args()] def get_profile_use_args(self) -> T.List[str]: return ['-Xcompiler=' + x for x in self.host_compiler.get_profile_use_args()] def get_disable_assert_args(self) -> T.List[str]: return self.host_compiler.get_disable_assert_args()