AndroidRemoteController/python/opencv/numpy/f2py/tests/util.py

"""
Utility functions for

- building and importing modules on test time, using a temporary location
- detecting if compilers are present
- determining paths to tests

"""
import glob
import os
import sys
import subprocess
import tempfile
import shutil
import atexit
import pytest
import contextlib
import numpy
import concurrent.futures

from pathlib import Path
from numpy._utils import asunicode
from numpy.testing import temppath, IS_WASM
from importlib import import_module
from numpy.f2py._backends._meson import MesonBackend

#
# Check if compilers are available at all...
#

def check_language(lang, code_snippet=None):
    if sys.platform == "win32":
        pytest.skip("No Fortran tests on Windows (Issue #25134)", allow_module_level=True)
    tmpdir = tempfile.mkdtemp()
    try:
        meson_file = os.path.join(tmpdir, "meson.build")
        with open(meson_file, "w") as f:
            f.write("project('check_compilers')\n")
            f.write(f"add_languages('{lang}')\n")
            if code_snippet:
                f.write(f"{lang}_compiler = meson.get_compiler('{lang}')\n")
                f.write(f"{lang}_code = '''{code_snippet}'''\n")
                f.write(
                    f"_have_{lang}_feature ="
                    f"{lang}_compiler.compiles({lang}_code,"
                    f" name: '{lang} feature check')\n"
                )
        try:
            runmeson = subprocess.run(
                ["meson", "setup", "btmp"],
                check=False,
                cwd=tmpdir,
                capture_output=True,
            )
        except subprocess.CalledProcessError:
            pytest.skip("meson not present, skipping compiler dependent test", allow_module_level=True)
        return runmeson.returncode == 0
    finally:
        shutil.rmtree(tmpdir)


fortran77_code = '''
C Example Fortran 77 code
      PROGRAM HELLO
      PRINT *, 'Hello, Fortran 77!'
      END
'''

fortran90_code = '''
! Example Fortran 90 code
program hello90
  type :: greeting
    character(len=20) :: text
  end type greeting

  type(greeting) :: greet
  greet%text = 'hello, fortran 90!'
  print *, greet%text
end program hello90
'''

# Dummy class for caching relevant checks
class CompilerChecker:
    def __init__(self):
        self.compilers_checked = False
        self.has_c = False
        self.has_f77 = False
        self.has_f90 = False

    def check_compilers(self):
        if (not self.compilers_checked) and (not sys.platform == "cygwin"):
            with concurrent.futures.ThreadPoolExecutor() as executor:
                futures = [
                    executor.submit(check_language, "c"),
                    executor.submit(check_language, "fortran", fortran77_code),
                    executor.submit(check_language, "fortran", fortran90_code)
                ]

                self.has_c = futures[0].result()
                self.has_f77 = futures[1].result()
                self.has_f90 = futures[2].result()

            self.compilers_checked = True

if not IS_WASM:
    checker = CompilerChecker()
    checker.check_compilers()

def has_c_compiler():
    return checker.has_c

def has_f77_compiler():
    return checker.has_f77

def has_f90_compiler():
    return checker.has_f90

def has_fortran_compiler():
    return (checker.has_f90 and checker.has_f77)


#
# Maintaining a temporary module directory
#

_module_dir = None
_module_num = 5403

if sys.platform == "cygwin":
    NUMPY_INSTALL_ROOT = Path(__file__).parent.parent.parent
    _module_list = list(NUMPY_INSTALL_ROOT.glob("**/*.dll"))


def _cleanup():
    global _module_dir
    if _module_dir is not None:
        try:
            sys.path.remove(_module_dir)
        except ValueError:
            pass
        try:
            shutil.rmtree(_module_dir)
        except OSError:
            pass
        _module_dir = None


def get_module_dir():
    global _module_dir
    if _module_dir is None:
        _module_dir = tempfile.mkdtemp()
        atexit.register(_cleanup)
        if _module_dir not in sys.path:
            sys.path.insert(0, _module_dir)
    return _module_dir


def get_temp_module_name():
    # Assume single-threaded, and the module dir usable only by this thread
    global _module_num
    get_module_dir()
    name = "_test_ext_module_%d" % _module_num
    _module_num += 1
    if name in sys.modules:
        # this should not be possible, but check anyway
        raise RuntimeError("Temporary module name already in use.")
    return name


def _memoize(func):
    memo = {}

    def wrapper(*a, **kw):
        key = repr((a, kw))
        if key not in memo:
            try:
                memo[key] = func(*a, **kw)
            except Exception as e:
                memo[key] = e
                raise
        ret = memo[key]
        if isinstance(ret, Exception):
            raise ret
        return ret

    wrapper.__name__ = func.__name__
    return wrapper


#
# Building modules
#


@_memoize
def build_module(source_files, options=[], skip=[], only=[], module_name=None):
    """
    Compile and import a f2py module, built from the given files.

    """

    code = f"import sys; sys.path = {sys.path!r}; import numpy.f2py; numpy.f2py.main()"

    d = get_module_dir()
    # gh-27045 : Skip if no compilers are found
    if not has_fortran_compiler():
        pytest.skip("No Fortran compiler available")

    # Copy files
    dst_sources = []
    f2py_sources = []
    for fn in source_files:
        if not os.path.isfile(fn):
            raise RuntimeError("%s is not a file" % fn)
        dst = os.path.join(d, os.path.basename(fn))
        shutil.copyfile(fn, dst)
        dst_sources.append(dst)

        base, ext = os.path.splitext(dst)
        if ext in (".f90", ".f95", ".f", ".c", ".pyf"):
            f2py_sources.append(dst)

    assert f2py_sources

    # Prepare options
    if module_name is None:
        module_name = get_temp_module_name()
    gil_options = []
    if '--freethreading-compatible' not in options and '--no-freethreading-compatible' not in options:
        # default to disabling the GIL if unset in options
        gil_options = ['--freethreading-compatible']
    f2py_opts = ["-c", "-m", module_name] + options + gil_options + f2py_sources
    f2py_opts += ["--backend", "meson"]
    if skip:
        f2py_opts += ["skip:"] + skip
    if only:
        f2py_opts += ["only:"] + only

    # Build
    cwd = os.getcwd()
    try:
        os.chdir(d)
        cmd = [sys.executable, "-c", code] + f2py_opts
        p = subprocess.Popen(cmd,
                             stdout=subprocess.PIPE,
                             stderr=subprocess.STDOUT)
        out, err = p.communicate()
        if p.returncode != 0:
            raise RuntimeError("Running f2py failed: %s\n%s" %
                               (cmd[4:], asunicode(out)))
    finally:
        os.chdir(cwd)

        # Partial cleanup
        for fn in dst_sources:
            os.unlink(fn)

    # Rebase (Cygwin-only)
    if sys.platform == "cygwin":
        # If someone starts deleting modules after import, this will
        # need to change to record how big each module is, rather than
        # relying on rebase being able to find that from the files.
        _module_list.extend(
            glob.glob(os.path.join(d, "{:s}*".format(module_name)))
        )
        subprocess.check_call(
            ["/usr/bin/rebase", "--database", "--oblivious", "--verbose"]
            + _module_list
        )

    # Import
    return import_module(module_name)


@_memoize
def build_code(source_code,
               options=[],
               skip=[],
               only=[],
               suffix=None,
               module_name=None):
    """
    Compile and import Fortran code using f2py.

    """
    if suffix is None:
        suffix = ".f"
    with temppath(suffix=suffix) as path:
        with open(path, "w") as f:
            f.write(source_code)
        return build_module([path],
                            options=options,
                            skip=skip,
                            only=only,
                            module_name=module_name)


#
# Building with meson
#


class SimplifiedMesonBackend(MesonBackend):
    def __init__(self, *args, **kwargs):
        super().__init__(*args, **kwargs)

    def compile(self):
        self.write_meson_build(self.build_dir)
        self.run_meson(self.build_dir)


def build_meson(source_files, module_name=None, **kwargs):
    """
    Build a module via Meson and import it.
    """

    # gh-27045 : Skip if no compilers are found
    if not has_fortran_compiler():
        pytest.skip("No Fortran compiler available")

    build_dir = get_module_dir()
    if module_name is None:
        module_name = get_temp_module_name()

    # Initialize the MesonBackend
    backend = SimplifiedMesonBackend(
        modulename=module_name,
        sources=source_files,
        extra_objects=kwargs.get("extra_objects", []),
        build_dir=build_dir,
        include_dirs=kwargs.get("include_dirs", []),
        library_dirs=kwargs.get("library_dirs", []),
        libraries=kwargs.get("libraries", []),
        define_macros=kwargs.get("define_macros", []),
        undef_macros=kwargs.get("undef_macros", []),
        f2py_flags=kwargs.get("f2py_flags", []),
        sysinfo_flags=kwargs.get("sysinfo_flags", []),
        fc_flags=kwargs.get("fc_flags", []),
        flib_flags=kwargs.get("flib_flags", []),
        setup_flags=kwargs.get("setup_flags", []),
        remove_build_dir=kwargs.get("remove_build_dir", False),
        extra_dat=kwargs.get("extra_dat", {}),
    )

    backend.compile()

    # Import the compiled module
    sys.path.insert(0, f"{build_dir}/{backend.meson_build_dir}")
    return import_module(module_name)


#
# Unittest convenience
#


class F2PyTest:
    code = None
    sources = None
    options = []
    skip = []
    only = []
    suffix = ".f"
    module = None
    _has_c_compiler = None
    _has_f77_compiler = None
    _has_f90_compiler = None

    @property
    def module_name(self):
        cls = type(self)
        return f'_{cls.__module__.rsplit(".",1)[-1]}_{cls.__name__}_ext_module'

    @classmethod
    def setup_class(cls):
        if sys.platform == "win32":
            pytest.skip("Fails with MinGW64 Gfortran (Issue #9673)")
        F2PyTest._has_c_compiler = has_c_compiler()
        F2PyTest._has_f77_compiler = has_f77_compiler()
        F2PyTest._has_f90_compiler = has_f90_compiler()
        F2PyTest._has_fortran_compiler = has_fortran_compiler()

    def setup_method(self):
        if self.module is not None:
            return

        codes = self.sources if self.sources else []
        if self.code:
            codes.append(self.suffix)

        needs_f77 = any(str(fn).endswith(".f") for fn in codes)
        needs_f90 = any(str(fn).endswith(".f90") for fn in codes)
        needs_pyf = any(str(fn).endswith(".pyf") for fn in codes)

        if needs_f77 and not self._has_f77_compiler:
            pytest.skip("No Fortran 77 compiler available")
        if needs_f90 and not self._has_f90_compiler:
            pytest.skip("No Fortran 90 compiler available")
        if needs_pyf and not self._has_fortran_compiler:
            pytest.skip("No Fortran compiler available")

        # Build the module
        if self.code is not None:
            self.module = build_code(
                self.code,
                options=self.options,
                skip=self.skip,
                only=self.only,
                suffix=self.suffix,
                module_name=self.module_name,
            )

        if self.sources is not None:
            self.module = build_module(
                self.sources,
                options=self.options,
                skip=self.skip,
                only=self.only,
                module_name=self.module_name,
            )


#
# Helper functions
#


def getpath(*a):
    # Package root
    d = Path(numpy.f2py.__file__).parent.resolve()
    return d.joinpath(*a)


@contextlib.contextmanager
def switchdir(path):
    curpath = Path.cwd()
    os.chdir(path)
    try:
        yield
    finally:
        os.chdir(curpath)