Traktor/myenv/Lib/site-packages/sympy/utilities/_compilation/runners.py

from __future__ import annotations
from typing import Callable, Optional

from collections import OrderedDict
import os
import re
import subprocess

from .util import (
    find_binary_of_command, unique_list, CompileError
)


class CompilerRunner:
    """ CompilerRunner base class.

    Parameters
    ==========

    sources : list of str
        Paths to sources.
    out : str
    flags : iterable of str
        Compiler flags.
    run_linker : bool
    compiler_name_exe : (str, str) tuple
        Tuple of compiler name &  command to call.
    cwd : str
        Path of root of relative paths.
    include_dirs : list of str
        Include directories.
    libraries : list of str
        Libraries to link against.
    library_dirs : list of str
        Paths to search for shared libraries.
    std : str
        Standard string, e.g. ``'c++11'``, ``'c99'``, ``'f2003'``.
    define: iterable of strings
        macros to define
    undef : iterable of strings
        macros to undefine
    preferred_vendor : string
        name of preferred vendor e.g. 'gnu' or 'intel'

    Methods
    =======

    run():
        Invoke compilation as a subprocess.

    """

    # Subclass to vendor/binary dict
    compiler_dict: dict[str, str]

    # Standards should be a tuple of supported standards
    # (first one will be the default)
    standards: tuple[None | str, ...]

    # Subclass to dict of binary/formater-callback
    std_formater: dict[str, Callable[[Optional[str]], str]]

    # subclass to be e.g. {'gcc': 'gnu', ...}
    compiler_name_vendor_mapping: dict[str, str]

    def __init__(self, sources, out, flags=None, run_linker=True, compiler=None, cwd='.',
                 include_dirs=None, libraries=None, library_dirs=None, std=None, define=None,
                 undef=None, strict_aliasing=None, preferred_vendor=None, linkline=None, **kwargs):
        if isinstance(sources, str):
            raise ValueError("Expected argument sources to be a list of strings.")
        self.sources = list(sources)
        self.out = out
        self.flags = flags or []
        self.cwd = cwd
        if compiler:
            self.compiler_name, self.compiler_binary = compiler
        else:
            # Find a compiler
            if preferred_vendor is None:
                preferred_vendor = os.environ.get('SYMPY_COMPILER_VENDOR', None)
            self.compiler_name, self.compiler_binary, self.compiler_vendor = self.find_compiler(preferred_vendor)
            if self.compiler_binary is None:
                raise ValueError("No compiler found (searched: {})".format(', '.join(self.compiler_dict.values())))
        self.define = define or []
        self.undef = undef or []
        self.include_dirs = include_dirs or []
        self.libraries = libraries or []
        self.library_dirs = library_dirs or []
        self.std = std or self.standards[0]
        self.run_linker = run_linker
        if self.run_linker:
            # both gnu and intel compilers use '-c' for disabling linker
            self.flags = list(filter(lambda x: x != '-c', self.flags))
        else:
            if '-c' not in self.flags:
                self.flags.append('-c')

        if self.std:
            self.flags.append(self.std_formater[
                self.compiler_name](self.std))

        self.linkline = linkline or []

        if strict_aliasing is not None:
            nsa_re = re.compile("no-strict-aliasing$")
            sa_re = re.compile("strict-aliasing$")
            if strict_aliasing is True:
                if any(map(nsa_re.match, flags)):
                    raise CompileError("Strict aliasing cannot be both enforced and disabled")
                elif any(map(sa_re.match, flags)):
                    pass  # already enforced
                else:
                    flags.append('-fstrict-aliasing')
            elif strict_aliasing is False:
                if any(map(nsa_re.match, flags)):
                    pass  # already disabled
                else:
                    if any(map(sa_re.match, flags)):
                        raise CompileError("Strict aliasing cannot be both enforced and disabled")
                    else:
                        flags.append('-fno-strict-aliasing')
            else:
                msg = "Expected argument strict_aliasing to be True/False, got {}"
                raise ValueError(msg.format(strict_aliasing))

    @classmethod
    def find_compiler(cls, preferred_vendor=None):
        """ Identify a suitable C/fortran/other compiler. """
        candidates = list(cls.compiler_dict.keys())
        if preferred_vendor:
            if preferred_vendor in candidates:
                candidates = [preferred_vendor]+candidates
            else:
                raise ValueError("Unknown vendor {}".format(preferred_vendor))
        name, path = find_binary_of_command([cls.compiler_dict[x] for x in candidates])
        return name, path, cls.compiler_name_vendor_mapping[name]

    def cmd(self):
        """ List of arguments (str) to be passed to e.g. ``subprocess.Popen``. """
        cmd = (
            [self.compiler_binary] +
            self.flags +
            ['-U'+x for x in self.undef] +
            ['-D'+x for x in self.define] +
            ['-I'+x for x in self.include_dirs] +
            self.sources
        )
        if self.run_linker:
            cmd += (['-L'+x for x in self.library_dirs] +
                    ['-l'+x for x in self.libraries] +
                    self.linkline)
        counted = []
        for envvar in re.findall(r'\$\{(\w+)\}', ' '.join(cmd)):
            if os.getenv(envvar) is None:
                if envvar not in counted:
                    counted.append(envvar)
                    msg = "Environment variable '{}' undefined.".format(envvar)
                    raise CompileError(msg)
        return cmd

    def run(self):
        self.flags = unique_list(self.flags)

        # Append output flag and name to tail of flags
        self.flags.extend(['-o', self.out])
        env = os.environ.copy()
        env['PWD'] = self.cwd

        # NOTE: intel compilers seems to need shell=True
        p = subprocess.Popen(' '.join(self.cmd()),
                             shell=True,
                             cwd=self.cwd,
                             stdin=subprocess.PIPE,
                             stdout=subprocess.PIPE,
                             stderr=subprocess.STDOUT,
                             env=env)
        comm = p.communicate()
        try:
            self.cmd_outerr = comm[0].decode('utf-8')
        except UnicodeDecodeError:
            self.cmd_outerr = comm[0].decode('iso-8859-1')  # win32
        self.cmd_returncode = p.returncode

        # Error handling
        if self.cmd_returncode != 0:
            msg = "Error executing '{}' in {} (exited status {}):\n {}\n".format(
                ' '.join(self.cmd()), self.cwd, str(self.cmd_returncode), self.cmd_outerr
            )
            raise CompileError(msg)

        return self.cmd_outerr, self.cmd_returncode


class CCompilerRunner(CompilerRunner):

    compiler_dict = OrderedDict([
        ('gnu', 'gcc'),
        ('intel', 'icc'),
        ('llvm', 'clang'),
    ])

    standards = ('c89', 'c90', 'c99', 'c11')  # First is default

    std_formater = {
        'gcc': '-std={}'.format,
        'icc': '-std={}'.format,
        'clang': '-std={}'.format,
    }

    compiler_name_vendor_mapping = {
        'gcc': 'gnu',
        'icc': 'intel',
        'clang': 'llvm'
    }


def _mk_flag_filter(cmplr_name):  # helper for class initialization
    not_welcome = {'g++': ("Wimplicit-interface",)}  # "Wstrict-prototypes",)}
    if cmplr_name in not_welcome:
        def fltr(x):
            for nw in not_welcome[cmplr_name]:
                if nw in x:
                    return False
            return True
    else:
        def fltr(x):
            return True
    return fltr


class CppCompilerRunner(CompilerRunner):

    compiler_dict = OrderedDict([
        ('gnu', 'g++'),
        ('intel', 'icpc'),
        ('llvm', 'clang++'),
    ])

    # First is the default, c++0x == c++11
    standards = ('c++98', 'c++0x')

    std_formater = {
        'g++': '-std={}'.format,
        'icpc': '-std={}'.format,
        'clang++': '-std={}'.format,
    }

    compiler_name_vendor_mapping = {
        'g++': 'gnu',
        'icpc': 'intel',
        'clang++': 'llvm'
    }


class FortranCompilerRunner(CompilerRunner):

    standards = (None, 'f77', 'f95', 'f2003', 'f2008')

    std_formater = {
        'gfortran': lambda x: '-std=gnu' if x is None else '-std=legacy' if x == 'f77' else '-std={}'.format(x),
        'ifort': lambda x: '-stand f08' if x is None else '-stand f{}'.format(x[-2:]),  # f2008 => f08
    }

    compiler_dict = OrderedDict([
        ('gnu', 'gfortran'),
        ('intel', 'ifort'),
    ])

    compiler_name_vendor_mapping = {
        'gfortran': 'gnu',
        'ifort': 'intel',
    }
dodanie neuralnetwork 2024-05-23 01:57:24 +02:00			`from __future__ import annotations`
			`from typing import Callable, Optional`

			`from collections import OrderedDict`
			`import os`
			`import re`
			`import subprocess`

			`from .util import (`
			`find_binary_of_command, unique_list, CompileError`
			`)`


			`class CompilerRunner:`
			`""" CompilerRunner base class.`

			`Parameters`
			`==========`

			`sources : list of str`
			`Paths to sources.`
			`out : str`
			`flags : iterable of str`
			`Compiler flags.`
			`run_linker : bool`
			`compiler_name_exe : (str, str) tuple`
			`Tuple of compiler name & command to call.`
			`cwd : str`
			`Path of root of relative paths.`
			`include_dirs : list of str`
			`Include directories.`
			`libraries : list of str`
			`Libraries to link against.`
			`library_dirs : list of str`
			`Paths to search for shared libraries.`
			`std : str`
			Standard string, e.g. ``'c++11'``, ``'c99'``, ``'f2003'``.
			`define: iterable of strings`
			`macros to define`
			`undef : iterable of strings`
			`macros to undefine`
			`preferred_vendor : string`
			`name of preferred vendor e.g. 'gnu' or 'intel'`

			`Methods`
			`=======`

			`run():`
			`Invoke compilation as a subprocess.`

			`"""`

			`# Subclass to vendor/binary dict`
			`compiler_dict: dict[str, str]`

			`# Standards should be a tuple of supported standards`
			`# (first one will be the default)`
			`standards: tuple[None \| str, ...]`

			`# Subclass to dict of binary/formater-callback`
			`std_formater: dict[str, Callable[[Optional[str]], str]]`

			`# subclass to be e.g. {'gcc': 'gnu', ...}`
			`compiler_name_vendor_mapping: dict[str, str]`

			`def __init__(self, sources, out, flags=None, run_linker=True, compiler=None, cwd='.',`
			`include_dirs=None, libraries=None, library_dirs=None, std=None, define=None,`
			`undef=None, strict_aliasing=None, preferred_vendor=None, linkline=None, **kwargs):`
			`if isinstance(sources, str):`
			`raise ValueError("Expected argument sources to be a list of strings.")`
			`self.sources = list(sources)`
			`self.out = out`
			`self.flags = flags or []`
			`self.cwd = cwd`
			`if compiler:`
			`self.compiler_name, self.compiler_binary = compiler`
			`else:`
			`# Find a compiler`
			`if preferred_vendor is None:`
			`preferred_vendor = os.environ.get('SYMPY_COMPILER_VENDOR', None)`
			`self.compiler_name, self.compiler_binary, self.compiler_vendor = self.find_compiler(preferred_vendor)`
			`if self.compiler_binary is None:`
			`raise ValueError("No compiler found (searched: {})".format(', '.join(self.compiler_dict.values())))`
			`self.define = define or []`
			`self.undef = undef or []`
			`self.include_dirs = include_dirs or []`
			`self.libraries = libraries or []`
			`self.library_dirs = library_dirs or []`
			`self.std = std or self.standards[0]`
			`self.run_linker = run_linker`
			`if self.run_linker:`
			`# both gnu and intel compilers use '-c' for disabling linker`
			`self.flags = list(filter(lambda x: x != '-c', self.flags))`
			`else:`
			`if '-c' not in self.flags:`
			`self.flags.append('-c')`

			`if self.std:`
			`self.flags.append(self.std_formater[`
			`self.compiler_name](self.std))`

			`self.linkline = linkline or []`

			`if strict_aliasing is not None:`
			`nsa_re = re.compile("no-strict-aliasing$")`
			`sa_re = re.compile("strict-aliasing$")`
			`if strict_aliasing is True:`
			`if any(map(nsa_re.match, flags)):`
			`raise CompileError("Strict aliasing cannot be both enforced and disabled")`
			`elif any(map(sa_re.match, flags)):`
			`pass # already enforced`
			`else:`
			`flags.append('-fstrict-aliasing')`
			`elif strict_aliasing is False:`
			`if any(map(nsa_re.match, flags)):`
			`pass # already disabled`
			`else:`
			`if any(map(sa_re.match, flags)):`
			`raise CompileError("Strict aliasing cannot be both enforced and disabled")`
			`else:`
			`flags.append('-fno-strict-aliasing')`
			`else:`
			`msg = "Expected argument strict_aliasing to be True/False, got {}"`
			`raise ValueError(msg.format(strict_aliasing))`

			`@classmethod`
			`def find_compiler(cls, preferred_vendor=None):`
			`""" Identify a suitable C/fortran/other compiler. """`
			`candidates = list(cls.compiler_dict.keys())`
			`if preferred_vendor:`
			`if preferred_vendor in candidates:`
			`candidates = [preferred_vendor]+candidates`
			`else:`
			`raise ValueError("Unknown vendor {}".format(preferred_vendor))`
			`name, path = find_binary_of_command([cls.compiler_dict[x] for x in candidates])`
			`return name, path, cls.compiler_name_vendor_mapping[name]`

			`def cmd(self):`
			""" List of arguments (str) to be passed to e.g. ``subprocess.Popen``. """
			`cmd = (`
			`[self.compiler_binary] +`
			`self.flags +`
			`['-U'+x for x in self.undef] +`
			`['-D'+x for x in self.define] +`
			`['-I'+x for x in self.include_dirs] +`
			`self.sources`
			`)`
			`if self.run_linker:`
			`cmd += (['-L'+x for x in self.library_dirs] +`
			`['-l'+x for x in self.libraries] +`
			`self.linkline)`
			`counted = []`
			`for envvar in re.findall(r'\$\{(\w+)\}', ' '.join(cmd)):`
			`if os.getenv(envvar) is None:`
			`if envvar not in counted:`
			`counted.append(envvar)`
			`msg = "Environment variable '{}' undefined.".format(envvar)`
			`raise CompileError(msg)`
			`return cmd`

			`def run(self):`
			`self.flags = unique_list(self.flags)`

			`# Append output flag and name to tail of flags`
			`self.flags.extend(['-o', self.out])`
			`env = os.environ.copy()`
			`env['PWD'] = self.cwd`

			`# NOTE: intel compilers seems to need shell=True`
			`p = subprocess.Popen(' '.join(self.cmd()),`
			`shell=True,`
			`cwd=self.cwd,`
			`stdin=subprocess.PIPE,`
			`stdout=subprocess.PIPE,`
			`stderr=subprocess.STDOUT,`
			`env=env)`
			`comm = p.communicate()`
			`try:`
			`self.cmd_outerr = comm[0].decode('utf-8')`
			`except UnicodeDecodeError:`
			`self.cmd_outerr = comm[0].decode('iso-8859-1') # win32`
			`self.cmd_returncode = p.returncode`

			`# Error handling`
			`if self.cmd_returncode != 0:`
			`msg = "Error executing '{}' in {} (exited status {}):\n {}\n".format(`
			`' '.join(self.cmd()), self.cwd, str(self.cmd_returncode), self.cmd_outerr`
			`)`
			`raise CompileError(msg)`

			`return self.cmd_outerr, self.cmd_returncode`


			`class CCompilerRunner(CompilerRunner):`

			`compiler_dict = OrderedDict([`
			`('gnu', 'gcc'),`
			`('intel', 'icc'),`
			`('llvm', 'clang'),`
			`])`

			`standards = ('c89', 'c90', 'c99', 'c11') # First is default`

			`std_formater = {`
			`'gcc': '-std={}'.format,`
			`'icc': '-std={}'.format,`
			`'clang': '-std={}'.format,`
			`}`

			`compiler_name_vendor_mapping = {`
			`'gcc': 'gnu',`
			`'icc': 'intel',`
			`'clang': 'llvm'`
			`}`


			`def _mk_flag_filter(cmplr_name): # helper for class initialization`
			`not_welcome = {'g++': ("Wimplicit-interface",)} # "Wstrict-prototypes",)}`
			`if cmplr_name in not_welcome:`
			`def fltr(x):`
			`for nw in not_welcome[cmplr_name]:`
			`if nw in x:`
			`return False`
			`return True`
			`else:`
			`def fltr(x):`
			`return True`
			`return fltr`


			`class CppCompilerRunner(CompilerRunner):`

			`compiler_dict = OrderedDict([`
			`('gnu', 'g++'),`
			`('intel', 'icpc'),`
			`('llvm', 'clang++'),`
			`])`

			`# First is the default, c++0x == c++11`
			`standards = ('c++98', 'c++0x')`

			`std_formater = {`
			`'g++': '-std={}'.format,`
			`'icpc': '-std={}'.format,`
			`'clang++': '-std={}'.format,`
			`}`

			`compiler_name_vendor_mapping = {`
			`'g++': 'gnu',`
			`'icpc': 'intel',`
			`'clang++': 'llvm'`
			`}`


			`class FortranCompilerRunner(CompilerRunner):`

			`standards = (None, 'f77', 'f95', 'f2003', 'f2008')`

			`std_formater = {`
			`'gfortran': lambda x: '-std=gnu' if x is None else '-std=legacy' if x == 'f77' else '-std={}'.format(x),`
			`'ifort': lambda x: '-stand f08' if x is None else '-stand f{}'.format(x[-2:]), # f2008 => f08`
			`}`

			`compiler_dict = OrderedDict([`
			`('gnu', 'gfortran'),`
			`('intel', 'ifort'),`
			`])`

			`compiler_name_vendor_mapping = {`
			`'gfortran': 'gnu',`
			`'ifort': 'intel',`
			`}`