# Copyright 2002-2005 Vladimir Prus.
# Copyright 2002-2003 Dave Abrahams.
# Copyright 2006 Rene Ferdinand Rivera Morell.
# Distributed under the Boost Software License, Version 1.0.
# (See accompanying file LICENSE.txt or copy at
# https://www.bfgroup.xyz/b2/LICENSE.txt)

from __future__ import print_function

import TestCmd

import copy
import fnmatch
import glob
import math
import os
import os.path
import re
import shutil
try:
    from StringIO import StringIO
except:
    from io import StringIO
import subprocess
import sys
import tempfile
import time
import traceback
import tree
import types

from xml.sax.saxutils import escape

try:
    from functools import reduce
except:
    pass


def isstr(data):
    return isinstance(data, (type(''), type(u'')))


class TestEnvironmentError(Exception):
    pass


annotations = []


def print_annotation(name, value, xml):
    """Writes some named bits of information about the current test run."""
    if xml:
        print(escape(name) + " {{{")
        print(escape(value))
        print("}}}")
    else:
        print(name + " {{{")
        print(value)
        print("}}}")


def flush_annotations(xml=0):
    global annotations
    for ann in annotations:
        print_annotation(ann[0], ann[1], xml)
    annotations = []


def clear_annotations():
    global annotations
    annotations = []


defer_annotations = 0

def set_defer_annotations(n):
    global defer_annotations
    defer_annotations = n


def annotate_stack_trace(tb=None):
    if tb:
        trace = TestCmd.caller(traceback.extract_tb(tb), 0)
    else:
        trace = TestCmd.caller(traceback.extract_stack(), 1)
    annotation("stacktrace", trace)


def annotation(name, value):
    """Records an annotation about the test run."""
    annotations.append((name, value))
    if not defer_annotations:
        flush_annotations()


def get_toolset():
    toolset = None
    for arg in sys.argv[1:]:
        if not arg.startswith("-"):
            toolset = arg
    return toolset or "gcc"


# Detect the host OS.
cygwin = hasattr(os, "uname") and os.uname()[0].lower().startswith("cygwin")
windows = cygwin or os.environ.get("OS", "").lower().startswith("windows")

if cygwin:
    default_os = "cygwin"
elif windows:
    default_os = "windows"
elif hasattr(os, "uname"):
    default_os = os.uname()[0].lower()


def expand_toolset(toolset, target_os=default_os):
    match = re.match(r'^(clang|intel)(-[\d\.]+|)$', toolset)
    if match:
        if match.group(1) == "intel" and target_os == "windows":
            return match.expand(r'\1-win\2')
        elif target_os == "darwin":
            return match.expand(r'\1-darwin\2')
        else:
            return match.expand(r'\1-linux\2')

    return toolset


def prepare_prefixes_and_suffixes(toolset, target_os=default_os):
    ind = toolset.find('-')
    if ind == -1:
        rtoolset = toolset
    else:
        rtoolset = toolset[:ind]
    prepare_suffix_map(rtoolset, target_os)
    prepare_library_prefix(rtoolset, target_os)


def prepare_suffix_map(toolset, target_os=default_os):
    """
      Set up suffix translation performed by the Boost Build testing framework
    to accommodate different toolsets generating targets of the same type using
    different filename extensions (suffixes).

    """
    global suffixes
    suffixes = {}
    if target_os == "cygwin":
        suffixes[".lib"] = ".a"
        suffixes[".obj"] = ".o"
        suffixes[".implib"] = ".lib.a"
    elif target_os == "windows":
        if toolset == "gcc":
            # MinGW
            suffixes[".lib"] = ".a"
            suffixes[".obj"] = ".o"
            suffixes[".implib"] = ".dll.a"
        else:
            # Everything else Windows
            suffixes[".implib"] = ".lib"
    else:
        suffixes[".exe"] = ""
        suffixes[".dll"] = ".so"
        suffixes[".lib"] = ".a"
        suffixes[".obj"] = ".o"
        suffixes[".implib"] = ".no_implib_files_on_this_platform"

        if target_os == "darwin":
            suffixes[".dll"] = ".dylib"


def prepare_library_prefix(toolset, target_os=default_os):
    """
      Setup whether Boost Build is expected to automatically prepend prefixes
    to its built library targets.

    """
    global lib_prefix
    lib_prefix = "lib"

    global dll_prefix
    if target_os == "cygwin":
        dll_prefix = "cyg"
    elif target_os == "windows" and toolset != "gcc":
        dll_prefix = None
    else:
        dll_prefix = "lib"


def re_remove(sequence, regex):
    me = re.compile(regex)
    result = list(filter(lambda x: me.match(x), sequence))
    if not result:
        raise ValueError()
    for r in result:
        sequence.remove(r)


def glob_remove(sequence, pattern):
    result = list(fnmatch.filter(sequence, pattern))
    if not result:
        raise ValueError()
    for r in result:
        sequence.remove(r)


class Tester(TestCmd.TestCmd):
    """Main tester class for Boost Build.

    Optional arguments:

    `arguments`                   - Arguments passed to the run executable.
    `executable`                  - Name of the executable to invoke.
    `match`                       - Function to use for compating actual and
                                    expected file contents.
    `boost_build_path`            - Boost build path to be passed to the run
                                    executable.
    `translate_suffixes`          - Whether to update suffixes on the the file
                                    names passed from the test script so they
                                    match those actually created by the current
                                    toolset. For example, static library files
                                    are specified by using the .lib suffix but
                                    when the "gcc" toolset is used it actually
                                    creates them using the .a suffix.
    `pass_toolset`                - Whether the test system should pass the
                                    specified toolset to the run executable.
    `use_test_config`             - Whether the test system should tell the run
                                    executable to read in the test_config.jam
                                    configuration file.
    `ignore_toolset_requirements` - Whether the test system should tell the run
                                    executable to ignore toolset requirements.
    `workdir`                     - Absolute directory where the test will be
                                    run from.
    `pass_d0`                     - If set, when tests are not explicitly run
                                    in verbose mode, they are run as silent
                                    (-d0 & --quiet Boost Jam options).

    Optional arguments inherited from the base class:

    `description`                 - Test description string displayed in case
                                    of a failed test.
    `subdir`                      - List of subdirectories to automatically
                                    create under the working directory. Each
                                    subdirectory needs to be specified
                                    separately, parent coming before its child.
    `verbose`                     - Flag that may be used to enable more
                                    verbose test system output. Note that it
                                    does not also enable more verbose build
                                    system output like the --verbose command
                                    line option does.
    """
    def __init__(self, arguments=None, executable=None,
        match=TestCmd.match_exact, boost_build_path=None,
        translate_suffixes=True, pass_toolset=True, use_test_config=True,
        ignore_toolset_requirements=False, workdir="", pass_d0=False,
        **keywords):

        if not executable:
            executable = os.getenv('B2')
        if not executable:
            executable = 'b2'

        assert arguments.__class__ is not str
        self.original_workdir = os.path.dirname(__file__)
        if workdir and not os.path.isabs(workdir):
            raise ("Parameter workdir <%s> must point to an absolute "
                "directory: " % workdir)

        self.last_build_timestamp = 0
        self.translate_suffixes = translate_suffixes
        self.use_test_config = use_test_config

        self.toolset = get_toolset()
        self.expanded_toolset = expand_toolset(self.toolset)
        self.pass_toolset = pass_toolset
        self.ignore_toolset_requirements = ignore_toolset_requirements

        prepare_prefixes_and_suffixes(pass_toolset and self.toolset or "gcc")

        use_default_bjam = "--default-bjam" in sys.argv

        if not use_default_bjam:
            jam_build_dir = ""

            # Find where jam_src is located. Try for the debug version if it is
            # lying around.
            srcdir = os.path.join(os.path.dirname(__file__), "..", "src")
            dirs = [os.path.join(srcdir, "engine", jam_build_dir + ".debug"),
                    os.path.join(srcdir, "engine", jam_build_dir)]
            for d in dirs:
                if os.path.exists(d):
                    jam_build_dir = d
                    break
            else:
                print("Cannot find built Boost.Jam")
                sys.exit(1)

        verbosity = ["-d0", "--quiet"]
        if not pass_d0:
            verbosity = []
        if "--verbose" in sys.argv:
            keywords["verbose"] = True
            verbosity = ["-d2"]
        self.verbosity = verbosity

        if boost_build_path is None:
            boost_build_path = self.original_workdir + "/.."

        program_list = []
        if use_default_bjam:
            program_list.append(executable)
        else:
            program_list.append(os.path.join(jam_build_dir, executable))
        program_list.append('-sBOOST_BUILD_PATH="' + boost_build_path + '"')
        if arguments:
            program_list += arguments

        TestCmd.TestCmd.__init__(self, program=program_list, match=match,
            workdir=workdir, inpath=use_default_bjam, **keywords)

        os.chdir(self.workdir)

    def cleanup(self):
        try:
            TestCmd.TestCmd.cleanup(self)
            os.chdir(self.original_workdir)
        except AttributeError:
            # When this is called during TestCmd.TestCmd.__del__ we can have
            # both 'TestCmd' and 'os' unavailable in our scope. Do nothing in
            # this case.
            pass

    def set_toolset(self, toolset, target_os=default_os):
        self.toolset = toolset
        self.expanded_toolset = expand_toolset(toolset, target_os)
        self.pass_toolset = True
        prepare_prefixes_and_suffixes(toolset, target_os)


    #
    # Methods that change the working directory's content.
    #
    def set_tree(self, tree_location):
        # It is not possible to remove the current directory.
        d = os.getcwd()
        os.chdir(os.path.dirname(self.workdir))
        shutil.rmtree(self.workdir, ignore_errors=False)

        if not os.path.isabs(tree_location):
            tree_location = os.path.join(self.original_workdir, tree_location)
        shutil.copytree(tree_location, self.workdir)

        os.chdir(d)
        def make_writable(unused, dir, entries):
            for e in entries:
                name = os.path.join(dir, e)
                os.chmod(name, os.stat(name).st_mode | 0o222)
        for root, _, files in os.walk("."):
            make_writable(None, root, files)

    def write(self, file, content, wait=True):
        nfile = self.native_file_name(file)
        self.__makedirs(os.path.dirname(nfile), wait)
        if not type(content) == bytes:
            content = content.encode()
        f = open(nfile, "wb")
        try:
            f.write(content)
        finally:
            f.close()
        self.__ensure_newer_than_last_build(nfile)

    def rename(self, src, dst):
        src_name = self.native_file_name(src)
        dst_name = self.native_file_name(dst)
        os.rename(src_name, dst_name)

    def copy(self, src, dst):
        try:
            self.write(dst, self.read(src, binary=True))
        except:
            self.fail_test(1)

    def copy_timestamp(self, src, dst):
        src_name = self.native_file_name(src)
        dst_name = self.native_file_name(dst)
        shutil.copystat(src_name, dst_name)

    def copy_preserving_timestamp(self, src, dst):
        src_name = self.native_file_name(src)
        dst_name = self.native_file_name(dst)
        shutil.copy2(src_name, dst_name)

    def touch(self, names, wait=True):
        if isstr(names):
            names = [names]
        for name in names:
            path = self.native_file_name(name)
            if wait:
                self.__ensure_newer_than_last_build(path)
            else:
                os.utime(path, None)

    def rm(self, names):
        if not type(names) == list:
            names = [names]

        if names == ["."]:
            # If we are deleting the entire workspace, there is no need to wait
            # for a clock tick.
            self.last_build_timestamp = 0

        # Avoid attempts to remove the current directory.
        os.chdir(self.original_workdir)
        for name in names:
            n = glob.glob(self.native_file_name(name))
            if n: n = n[0]
            if not n:
                n = self.glob_file(name.replace("$toolset", self.expanded_toolset + "*")
                    )
            if n:
                if os.path.isdir(n):
                    shutil.rmtree(n, ignore_errors=False)
                else:
                    os.unlink(n)

        # Create working dir root again in case we removed it.
        if not os.path.exists(self.workdir):
            os.mkdir(self.workdir)
        os.chdir(self.workdir)

    def expand_toolset(self, name):
        """
          Expands $toolset placeholder in the given file to the name of the
        toolset currently being tested.

        """
        self.write(name, self.read(name).replace("$toolset", self.expanded_toolset))

    def dump_stdio(self):
        annotation("STDOUT", self.stdout())
        annotation("STDERR", self.stderr())

    def run_build_system(self, extra_args=None, subdir="", stdout=None,
        stderr="", status=0, match=None, pass_toolset=None,
        use_test_config=None, ignore_toolset_requirements=None,
        expected_duration=None, **kw):

        assert extra_args.__class__ is not str

        if os.path.isabs(subdir):
            raise ValueError(
                "You must pass a relative directory to subdir <%s>." % subdir)

        self.previous_tree, dummy = tree.build_tree(self.workdir)
        self.wait_for_time_change_since_last_build()

        if match is None:
            match = self.match

        if pass_toolset is None:
            pass_toolset = self.pass_toolset

        if use_test_config is None:
            use_test_config = self.use_test_config

        if ignore_toolset_requirements is None:
            ignore_toolset_requirements = self.ignore_toolset_requirements

        try:
            kw["program"] = []
            kw["program"] += self.program
            if extra_args:
                kw["program"] += extra_args
            if not extra_args or not any(a.startswith("-j") for a in extra_args):
                kw["program"] += ["-j1"]
            if stdout is None and not any(a.startswith("-d") for a in kw["program"]):
                kw["program"] += self.verbosity
            if pass_toolset:
                kw["program"].append("toolset=" + self.toolset)
            if use_test_config:
                kw["program"].append('--test-config="%s"' % os.path.join(
                    self.original_workdir, "test-config.jam"))
            if ignore_toolset_requirements:
                kw["program"].append("--ignore-toolset-requirements")
            if "--python" in sys.argv:
                # -z disables Python optimization mode.
                # this enables type checking (all assert
                # and if __debug__ statements).
                kw["program"].extend(["--python", "-z"])
            if "--stacktrace" in sys.argv:
                kw["program"].append("--stacktrace")
            kw["chdir"] = subdir
            self.last_program_invocation = kw["program"]
            build_time_start = time.time()
            TestCmd.TestCmd.run(self, **kw)
            build_time_finish = time.time()
        except:
            self.dump_stdio()
            raise

        old_last_build_timestamp = self.last_build_timestamp
        self.tree, self.last_build_timestamp = tree.build_tree(self.workdir)
        self.difference = tree.tree_difference(self.previous_tree, self.tree)
        if self.difference.empty():
            # If nothing has been changed by this build and sufficient time has
            # passed since the last build that actually changed something,
            # there is no need to wait for touched or newly created files to
            # start getting newer timestamps than the currently existing ones.
            self.last_build_timestamp = old_last_build_timestamp

        self.difference.ignore_directories()
        self.unexpected_difference = copy.deepcopy(self.difference)

        if (status and self.status) is not None and self.status != status:
            expect = ""
            if status != 0:
                expect = " (expected %d)" % status

            annotation("failure", '"%s" returned %d%s' % (kw["program"],
                self.status, expect))

            annotation("reason", "unexpected status returned by bjam")
            self.fail_test(1)

        if stdout is not None and not match(self.stdout(), stdout):
            stdout_test = match(self.stdout(), stdout)
            annotation("failure", "Unexpected stdout")
            annotation("Expected STDOUT", stdout)
            annotation("Actual STDOUT", self.stdout())
            stderr = self.stderr()
            if stderr:
                annotation("STDERR", stderr)
            self.maybe_do_diff(self.stdout(), stdout, stdout_test)
            self.fail_test(1, dump_stdio=False)

        # Intel tends to produce some messages to stderr which make tests fail.
        intel_workaround = re.compile("^xi(link|lib): executing.*\n", re.M)
        actual_stderr = re.sub(intel_workaround, "", self.stderr())

        if stderr is not None and not match(actual_stderr, stderr):
            stderr_test = match(actual_stderr, stderr)
            annotation("failure", "Unexpected stderr")
            annotation("Expected STDERR", stderr)
            annotation("Actual STDERR", self.stderr())
            annotation("STDOUT", self.stdout())
            self.maybe_do_diff(actual_stderr, stderr, stderr_test)
            self.fail_test(1, dump_stdio=False)

        if expected_duration is not None:
            actual_duration = build_time_finish - build_time_start
            if actual_duration > expected_duration:
                print("Test run lasted %f seconds while it was expected to "
                    "finish in under %f seconds." % (actual_duration,
                    expected_duration))
                self.fail_test(1, dump_stdio=False)

        self.__ignore_junk()

    def glob_file(self, name):
        name = self.adjust_name(name)
        result = None
        if hasattr(self, "difference"):
            for f in (self.difference.added_files +
                self.difference.modified_files +
                self.difference.touched_files):
                if fnmatch.fnmatch(f, name):
                    result = self.__native_file_name(f)
                    break
        if not result:
            result = glob.glob(self.__native_file_name(name))
            if result:
                result = result[0]
        return result

    def __read(self, name, binary=False):
        try:
            openMode = "r"
            if binary:
                openMode += "b"
            else:
                openMode += "U"
            f = open(name, openMode)
            result = f.read()
            f.close()
            return result
        except:
            annotation("failure", "Could not open '%s'" % name)
            self.fail_test(1)
            return ""

    def read(self, name, binary=False):
        name = self.glob_file(name)
        return self.__read(name, binary=binary)

    def read_and_strip(self, name):
        if not self.glob_file(name):
            return ""
        f = open(self.glob_file(name), "rb")
        lines = f.readlines()
        f.close()
        result = "\n".join(x.decode().rstrip() for x in lines)
        if lines and lines[-1][-1] != "\n":
            return result + "\n"
        return result

    def fail_test(self, condition, dump_difference=True, dump_stdio=True,
        dump_stack=True):
        if not condition:
            return

        if dump_difference and hasattr(self, "difference"):
            f = StringIO()
            self.difference.pprint(f)
            annotation("changes caused by the last build command",
                f.getvalue())

        if dump_stdio:
            self.dump_stdio()

        if "--preserve" in sys.argv:
            print()
            print("*** Copying the state of working dir into 'failed_test' ***")
            print()
            path = os.path.join(self.original_workdir, "failed_test")
            if os.path.isdir(path):
                shutil.rmtree(path, ignore_errors=False)
            elif os.path.exists(path):
                raise "Path " + path + " already exists and is not a directory"
            shutil.copytree(self.workdir, path)
            print("The failed command was:")
            print(" ".join(self.last_program_invocation))

        if dump_stack:
            annotate_stack_trace()
        sys.exit(1)

    # A number of methods below check expectations with actual difference
    # between directory trees before and after a build. All the 'expect*'
    # methods require exact names to be passed. All the 'ignore*' methods allow
    # wildcards.

    # All names can be either a string or a list of strings.
    def expect_addition(self, names):
        for name in self.adjust_names(names):
            try:
                glob_remove(self.unexpected_difference.added_files, name)
            except:
                annotation("failure", "File %s not added as expected" % name)
                self.fail_test(1)

    def ignore_addition(self, wildcard):
        self.__ignore_elements(self.unexpected_difference.added_files,
            wildcard)

    def expect_removal(self, names):
        for name in self.adjust_names(names):
            try:
                glob_remove(self.unexpected_difference.removed_files, name)
            except:
                annotation("failure", "File %s not removed as expected" % name)
                self.fail_test(1)

    def ignore_removal(self, wildcard):
        self.__ignore_elements(self.unexpected_difference.removed_files,
            wildcard)

    def expect_modification(self, names):
        for name in self.adjust_names(names):
            try:
                glob_remove(self.unexpected_difference.modified_files, name)
            except:
                annotation("failure", "File %s not modified as expected" %
                    name)
                self.fail_test(1)

    def ignore_modification(self, wildcard):
        self.__ignore_elements(self.unexpected_difference.modified_files,
            wildcard)

    def expect_touch(self, names):
        d = self.unexpected_difference
        for name in self.adjust_names(names):
            # We need to check both touched and modified files. The reason is
            # that:
            #   (1) Windows binaries such as obj, exe or dll files have slight
            #       differences even with identical inputs due to Windows PE
            #       format headers containing an internal timestamp.
            #   (2) Intel's compiler for Linux has the same behaviour.
            filesets = [d.modified_files, d.touched_files]

            while filesets:
                try:
                    glob_remove(filesets[-1], name)
                    break
                except ValueError:
                    filesets.pop()

            if not filesets:
                annotation("failure", "File %s not touched as expected" % name)
                self.fail_test(1)

    def ignore_touch(self, wildcard):
        self.__ignore_elements(self.unexpected_difference.touched_files,
            wildcard)

    def ignore(self, wildcard):
        self.ignore_addition(wildcard)
        self.ignore_removal(wildcard)
        self.ignore_modification(wildcard)
        self.ignore_touch(wildcard)

    def expect_nothing(self, names):
        for name in self.adjust_names(names):
            if name in self.difference.added_files:
                annotation("failure",
                    "File %s added, but no action was expected" % name)
                self.fail_test(1)
            if name in self.difference.removed_files:
                annotation("failure",
                    "File %s removed, but no action was expected" % name)
                self.fail_test(1)
                pass
            if name in self.difference.modified_files:
                annotation("failure",
                    "File %s modified, but no action was expected" % name)
                self.fail_test(1)
            if name in self.difference.touched_files:
                annotation("failure",
                    "File %s touched, but no action was expected" % name)
                self.fail_test(1)

    def __ignore_junk(self):
        # Not totally sure about this change, but I do not see a good
        # alternative.
        if windows:
            self.ignore("*.ilk")       # MSVC incremental linking files.
            self.ignore("*.pdb")       # MSVC program database files.
            self.ignore("*.rsp")       # Response files.
            self.ignore("*.tds")       # Borland debug symbols.
            self.ignore("*.manifest")  # MSVC DLL manifests.
            self.ignore("bin/standalone/msvc/*/msvc-setup.bat")

        # Debug builds of bjam built with gcc produce this profiling data.
        self.ignore("gmon.out")
        self.ignore("*/gmon.out")

        # Boost Build's 'configure' functionality (unfinished at the time)
        # produces this file.
        self.ignore("bin/config.log")
        self.ignore("bin/project-cache.jam")

        # Compiled Python files created when running Python based Boost Build.
        self.ignore("*.pyc")

        # OSX/Darwin files and dirs.
        self.ignore("*.dSYM/*")

    def expect_nothing_more(self):
        if not self.unexpected_difference.empty():
            annotation("failure", "Unexpected changes found")
            output = StringIO()
            self.unexpected_difference.pprint(output)
            annotation("unexpected changes", output.getvalue())
            self.fail_test(1)

    def expect_output_lines(self, lines, expected=True):
        self.__expect_lines(self.stdout(), lines, expected)

    def expect_content_lines(self, filename, line, expected=True):
        self.__expect_lines(self.read_and_strip(filename), line, expected)

    def expect_content(self, name, content, exact=False):
        actual = self.read(name)
        content = content.replace("$toolset", self.expanded_toolset + "*")

        matched = False
        if exact:
            matched = fnmatch.fnmatch(actual, content)
        else:
            def sorted_(z):
                z.sort(key=lambda x: x.lower().replace("\\", "/"))
                return z
            actual_ = list(map(lambda x: sorted_(x.split()), actual.splitlines()))
            content_ = list(map(lambda x: sorted_(x.split()), content.splitlines()))
            if len(actual_) == len(content_):
                matched = map(
                    lambda x, y: map(lambda n, p: fnmatch.fnmatch(n, p), x, y),
                    actual_, content_)
                matched = reduce(
                    lambda x, y: x and reduce(
                        lambda a, b: a and b,
                        y, True),
                    matched, True)

        if not matched:
            print("Expected:\n")
            print(content)
            print("Got:\n")
            print(actual)
            self.fail_test(1)

    def maybe_do_diff(self, actual, expected, result=None):
        if os.environ.get("DO_DIFF"):
            e = tempfile.mktemp("expected")
            a = tempfile.mktemp("actual")
            f = open(e, "w")
            f.write(expected)
            f.close()
            f = open(a, "w")
            f.write(actual)
            f.close()
            print("DIFFERENCE")
            # Current diff should return 1 to indicate 'different input files'
            # but some older diff versions may return 0 and depending on the
            # exact Python/OS platform version, os.system() call may gobble up
            # the external process's return code and return 0 itself.
            if os.system('diff -u "%s" "%s"' % (e, a)) not in [0, 1]:
                print('Unable to compute difference: diff -u "%s" "%s"' % (e, a
                    ))
            os.unlink(e)
            os.unlink(a)
        elif type(result) is TestCmd.MatchError:
            print(result.message)
        else:
            print("Set environmental variable 'DO_DIFF' to examine the "
                "difference.")

    # Internal methods.
    def adjust_lib_name(self, name):
        global lib_prefix
        global dll_prefix
        result = name

        pos = name.rfind(".")
        if pos != -1:
            suffix = name[pos:]
            if suffix == ".lib":
                (head, tail) = os.path.split(name)
                if lib_prefix:
                    tail = lib_prefix + tail
                    result = os.path.join(head, tail)
            elif suffix == ".dll" or suffix == ".implib":
                (head, tail) = os.path.split(name)
                if dll_prefix:
                    tail = dll_prefix + tail
                    result = os.path.join(head, tail)
        # If we want to use this name in a Jamfile, we better convert \ to /,
        # as otherwise we would have to quote \.
        result = result.replace("\\", "/")
        return result

    def adjust_suffix(self, name):
        if not self.translate_suffixes:
            return name
        pos = name.rfind(".")
        if pos == -1:
            return name
        suffix = name[pos:]
        return name[:pos] + suffixes.get(suffix, suffix)

    # Acceps either a string or a list of strings and returns a list of
    # strings. Adjusts suffixes on all names.
    def adjust_names(self, names):
        if isstr(names):
            names = [names]
        r = map(self.adjust_lib_name, names)
        r = map(self.adjust_suffix, r)
        r = map(lambda x, t=self.expanded_toolset: x.replace("$toolset", t + "*"), r)
        return list(r)

    def adjust_name(self, name):
        return self.adjust_names(name)[0]

    def __native_file_name(self, name):
        return os.path.normpath(os.path.join(self.workdir, *name.split("/")))

    def native_file_name(self, name):
        return self.__native_file_name(self.adjust_name(name))

    def wait_for_time_change(self, path, touch):
        """
          Wait for newly assigned file system modification timestamps for the
        given path to become large enough for the timestamp difference to be
        correctly recognized by both this Python based testing framework and
        the Boost Jam executable being tested. May optionally touch the given
        path to set its modification timestamp to the new value.

        """
        self.__wait_for_time_change(path, touch, last_build_time=False)

    def wait_for_time_change_since_last_build(self):
        """
          Wait for newly assigned file system modification timestamps to
        become large enough for the timestamp difference to be
        correctly recognized by the Python based testing framework.
        Does not care about Jam's timestamp resolution, since we
        only need this to detect touched files.
        """
        if self.last_build_timestamp:
            timestamp_file = "timestamp-3df2f2317e15e4a9"
            open(timestamp_file, "wb").close()
            self.__wait_for_time_change_impl(timestamp_file,
                self.last_build_timestamp,
                self.__python_timestamp_resolution(timestamp_file, 0), 0)
            os.unlink(timestamp_file)

    def __build_timestamp_resolution(self):
        """
          Returns the minimum path modification timestamp resolution supported
        by the used Boost Jam executable.

        """
        dir = tempfile.mkdtemp("bjam_version_info")
        try:
            jam_script = "timestamp_resolution.jam"
            f = open(os.path.join(dir, jam_script), "w")
            try:
                f.write("EXIT $(JAM_TIMESTAMP_RESOLUTION) : 0 ;")
            finally:
                f.close()
            p = subprocess.Popen([self.program[0], "-d0", "-f%s" % jam_script],
                stdout=subprocess.PIPE, cwd=dir, universal_newlines=True)
            out, err = p.communicate()
        finally:
            shutil.rmtree(dir, ignore_errors=False)

        if p.returncode != 0:
            raise TestEnvironmentError("Unexpected return code (%s) when "
                "detecting Boost Jam's minimum supported path modification "
                "timestamp resolution version information." % p.returncode)
        if err:
            raise TestEnvironmentError("Unexpected error output (%s) when "
                "detecting Boost Jam's minimum supported path modification "
                "timestamp resolution version information." % err)

        r = re.match("([0-9]{2}):([0-9]{2}):([0-9]{2}\\.[0-9]{9})$", out)
        if not r:
            # Older Boost Jam versions did not report their minimum supported
            # path modification timestamp resolution and did not actually
            # support path modification timestamp resolutions finer than 1
            # second.
            # TODO: Phase this support out to avoid such fallback code from
            # possibly covering up other problems.
            return 1
        if r.group(1) != "00" or r.group(2) != "00":  # hours, minutes
            raise TestEnvironmentError("Boost Jam with too coarse minimum "
                "supported path modification timestamp resolution (%s:%s:%s)."
                % (r.group(1), r.group(2), r.group(3)))
        return float(r.group(3))  # seconds.nanoseconds

    def __ensure_newer_than_last_build(self, path):
        """
          Updates the given path's modification timestamp after waiting for the
        newly assigned file system modification timestamp to become large
        enough for the timestamp difference between it and the last build
        timestamp to be correctly recognized by both this Python based testing
        framework and the Boost Jam executable being tested. Does nothing if
        there is no 'last build' information available.

        """
        if self.last_build_timestamp:
            self.__wait_for_time_change(path, touch=True, last_build_time=True)

    def __expect_lines(self, data, lines, expected):
        """
          Checks whether the given data contains the given lines.

          Data may be specified as a single string containing text lines
        separated by newline characters.

          Lines may be specified in any of the following forms:
            * Single string containing text lines separated by newlines - the
              given lines are searched for in the given data without any extra
              data lines between them.
            * Container of strings containing text lines separated by newlines
              - the given lines are searched for in the given data with extra
              data lines allowed between lines belonging to different strings.
            * Container of strings containing text lines separated by newlines
              and containers containing strings - the same as above with the
              internal containers containing strings being interpreted as if
              all their content was joined together into a single string
              separated by newlines.

          A newline at the end of any multi-line lines string is interpreted as
        an expected extra trailig empty line.
        """
        # str.splitlines() trims at most one trailing newline while we want the
        # trailing newline to indicate that there should be an extra empty line
        # at the end.
        def splitlines(x):
            return (x + "\n").splitlines()

        if data is None:
            data = []
        elif isstr(data):
            data = splitlines(data)

        if isstr(lines):
            lines = [splitlines(lines)]
        else:
            expanded = []
            for x in lines:
                if isstr(x):
                    x = splitlines(x)
                expanded.append(x)
            lines = expanded

        if _contains_lines(data, lines) != bool(expected):
            output = []
            if expected:
                output = ["Did not find expected lines:"]
            else:
                output = ["Found unexpected lines:"]
            first = True
            for line_sequence in lines:
                if line_sequence:
                    if first:
                        first = False
                    else:
                        output.append("...")
                    output.extend("  > " + line for line in line_sequence)
            output.append("in output:")
            output.extend("  > " + line for line in data)
            annotation("failure", "\n".join(output))
            self.fail_test(1)

    def __ignore_elements(self, things, wildcard):
        """Removes in-place 'things' elements matching the given 'wildcard'."""
        things[:] = list(filter(lambda x: not fnmatch.fnmatch(x, wildcard), things))

    def __makedirs(self, path, wait):
        """
          Creates a folder with the given path, together with any missing
        parent folders. If WAIT is set, makes sure any newly created folders
        have modification timestamps newer than the ones left behind by the
        last build run.

        """
        try:
            if wait:
                stack = []
                while path and path not in stack and not os.path.isdir(path):
                    stack.append(path)
                    path = os.path.dirname(path)
                while stack:
                    path = stack.pop()
                    os.mkdir(path)
                    self.__ensure_newer_than_last_build(path)
            else:
                os.makedirs(path)
        except Exception:
            pass

    def __python_timestamp_resolution(self, path, minimum_resolution):
        """
          Returns the modification timestamp resolution for the given path
        supported by the used Python interpreter/OS/filesystem combination.
        Will not check for resolutions less than the given minimum value. Will
        change the path's modification timestamp in the process.

          Return values:
            0                - nanosecond resolution supported
            positive decimal - timestamp resolution in seconds

        """
        # Note on Python's floating point timestamp support:
        #   Python interpreter versions prior to Python 2.3 did not support
        # floating point timestamps. Versions 2.3 through 3.3 may or may not
        # support it depending on the configuration (may be toggled by calling
        # os.stat_float_times(True/False) at program startup, disabled by
        # default prior to Python 2.5 and enabled by default since). Python 3.3
        # deprecated this configuration and 3.4 removed support for it after
        # which floating point timestamps are always supported.
        ver = sys.version_info[0:2]
        python_nanosecond_support = ver >= (3, 4) or (ver >= (2, 3) and
            os.stat_float_times())

        # Minimal expected floating point difference used to account for
        # possible imprecise floating point number representations. We want
        # this number to be small (at least smaller than 0.0001) but still
        # large enough that we can be sure that increasing a floating point
        # value by 2 * eta guarantees the value read back will be increased by
        # at least eta.
        eta = 0.00005

        stats_orig = os.stat(path)
        def test_time(diff):
            """Returns whether a timestamp difference is detectable."""
            os.utime(path, (stats_orig.st_atime, stats_orig.st_mtime + diff))
            return os.stat(path).st_mtime > stats_orig.st_mtime + eta

        # Test for nanosecond timestamp resolution support.
        if not minimum_resolution and python_nanosecond_support:
            if test_time(2 * eta):
                return 0

        # Detect the filesystem timestamp resolution. Note that there is no
        # need to make this code 'as fast as possible' as, this function gets
        # called before having to sleep until the next detectable modification
        # timestamp value and that, since we already know nanosecond resolution
        # is not supported, will surely take longer than whatever we do here to
        # detect this minimal detectable modification timestamp resolution.
        step = 0.1
        if not python_nanosecond_support:
            # If Python does not support nanosecond timestamp resolution we
            # know the minimum possible supported timestamp resolution is 1
            # second.
            minimum_resolution = max(1, minimum_resolution)
        index = max(1, int(minimum_resolution / step))
        while step * index < minimum_resolution:
            # Floating point number representation errors may cause our
            # initially calculated start index to be too small if calculated
            # directly.
            index += 1
        while True:
            # Do not simply add up the steps to avoid cumulative floating point
            # number representation errors.
            next = step * index
            if next > 10:
                raise TestEnvironmentError("File systems with too coarse "
                    "modification timestamp resolutions not supported.")
            if test_time(next):
                return next
            index += 1

    def __wait_for_time_change(self, path, touch, last_build_time):
        """
          Wait until a newly assigned file system modification timestamp for
        the given path is large enough for the timestamp difference between it
        and the last build timestamp or the path's original file system
        modification timestamp (depending on the last_build_time flag) to be
        correctly recognized by both this Python based testing framework and
        the Boost Jam executable being tested. May optionally touch the given
        path to set its modification timestamp to the new value.

        """
        assert self.last_build_timestamp or not last_build_time
        stats_orig = os.stat(path)

        if last_build_time:
            start_time = self.last_build_timestamp
        else:
            start_time = stats_orig.st_mtime

        build_resolution = self.__build_timestamp_resolution()
        assert build_resolution >= 0

        # Check whether the current timestamp is already new enough.
        if stats_orig.st_mtime > start_time and (not build_resolution or
            stats_orig.st_mtime >= start_time + build_resolution):
            return

        resolution = self.__python_timestamp_resolution(path, build_resolution)
        assert resolution >= build_resolution
        self.__wait_for_time_change_impl(path, start_time, resolution, build_resolution)

        if not touch:
            os.utime(path, (stats_orig.st_atime, stats_orig.st_mtime))

    def __wait_for_time_change_impl(self, path, start_time, resolution, build_resolution):
        # Implementation notes:
        #  * Theoretically time.sleep() API might get interrupted too soon
        #    (never actually encountered).
        #  * We encountered cases where we sleep just long enough for the
        #    filesystem's modifiction timestamp to change to the desired value,
        #    but after waking up, the read timestamp is still just a tiny bit
        #    too small (encountered on Windows). This is most likely caused by
        #    imprecise floating point timestamp & sleep interval representation
        #    used by Python. Note though that we never encountered a case where
        #    more than one additional tiny sleep() call was needed to remedy
        #    the situation.
        #  * We try to wait long enough for the timestamp to change, but do not
        #    want to waste processing time by waiting too long. The main
        #    problem is that when we have a coarse resolution, the actual times
        #    get rounded and we do not know the exact sleep time needed for the
        #    difference between two such times to pass. E.g. if we have a 1
        #    second resolution and the original and the current file timestamps
        #    are both 10 seconds then it could be that the current time is
        #    10.99 seconds and that we can wait for just one hundredth of a
        #    second for the current file timestamp to reach its next value, and
        #    using a longer sleep interval than that would just be wasting
        #    time.
        while True:
            os.utime(path, None)
            c = os.stat(path).st_mtime
            if resolution:
                if c > start_time and (not build_resolution or c >= start_time
                    + build_resolution):
                    break
                if c <= start_time - resolution:
                    # Move close to the desired timestamp in one sleep, but not
                    # close enough for timestamp rounding to potentially cause
                    # us to wait too long.
                    if start_time - c > 5:
                        if last_build_time:
                            error_message = ("Last build time recorded as "
                                "being a future event, causing a too long "
                                "wait period. Something must have played "
                                "around with the system clock.")
                        else:
                            error_message = ("Original path modification "
                                "timestamp set to far into the future or "
                                "something must have played around with the "
                                "system clock, causing a too long wait "
                                "period.\nPath: '%s'" % path)
                        raise TestEnvironmentError(message)
                    _sleep(start_time - c)
                else:
                    # We are close to the desired timestamp so take baby sleeps
                    # to avoid sleeping too long.
                    _sleep(max(0.01, resolution / 10))
            else:
                if c > start_time:
                    break
                _sleep(max(0.01, start_time - c))


class List:
    def __init__(self, s=""):
        elements = []
        if isstr(s):
            # Have to handle escaped spaces correctly.
            elements = s.replace("\ ", "\001").split()
        else:
            elements = s
        self.l = [e.replace("\001", " ") for e in elements]

    def __len__(self):
        return len(self.l)

    def __getitem__(self, key):
        return self.l[key]

    def __setitem__(self, key, value):
        self.l[key] = value

    def __delitem__(self, key):
        del self.l[key]

    def __str__(self):
        return str(self.l)

    def __repr__(self):
        return "%s.List(%r)" % (self.__module__, " ".join(self.l))

    def __mul__(self, other):
        result = List()
        if not isinstance(other, List):
            other = List(other)
        for f in self:
            for s in other:
                result.l.append(f + s)
        return result

    def __rmul__(self, other):
        if not isinstance(other, List):
            other = List(other)
        return List.__mul__(other, self)

    def __add__(self, other):
        result = List()
        result.l = self.l[:] + other.l[:]
        return result


def _contains_lines(data, lines):
    data_line_count = len(data)
    expected_line_count = reduce(lambda x, y: x + len(y), lines, 0)
    index = 0
    for expected in lines:
        if expected_line_count > data_line_count - index:
            return False
        expected_line_count -= len(expected)
        index = _match_line_sequence(data, index, data_line_count -
            expected_line_count, expected)
        if index < 0:
            return False
    return True


def _match_line_sequence(data, start, end, lines):
    if not lines:
        return start
    for index in range(start, end - len(lines) + 1):
        data_index = index
        for expected in lines:
            if not fnmatch.fnmatch(data[data_index], expected):
                break
            data_index += 1
        else:
            return data_index
    return -1


def _sleep(delay):
    if delay > 5:
        raise TestEnvironmentError("Test environment error: sleep period of "
            "more than 5 seconds requested. Most likely caused by a file with "
            "its modification timestamp set to sometime in the future.")
    time.sleep(delay)


###############################################################################
#
# Initialization.
#
###############################################################################

# Make os.stat() return file modification times as floats instead of integers
# to get the best possible file timestamp resolution available. The exact
# resolution depends on the underlying file system and the Python os.stat()
# implementation. The better the resolution we achieve, the shorter we need to
# wait for files we create to start getting new timestamps.
#
# Additional notes:
#  * os.stat_float_times() function first introduced in Python 2.3. and
#    suggested for deprecation in Python 3.3.
#  * On Python versions 2.5+ we do not need to do this as there os.stat()
#    returns floating point file modification times by default.
#  * Windows CPython implementations prior to version 2.5 do not support file
#    modification timestamp resolutions of less than 1 second no matter whether
#    these timestamps are returned as integer or floating point values.
#  * Python documentation states that this should be set in a program's
#    __main__ module to avoid affecting other libraries that might not be ready
#    to support floating point timestamps. Since we use no such external
#    libraries, we ignore this warning to make it easier to enable this feature
#    in both our single & multiple-test scripts.
if (2, 3) <= sys.version_info < (2, 5) and not os.stat_float_times():
    os.stat_float_times(True)


# Quickie tests. Should use doctest instead.
if __name__ == "__main__":
    assert str(List("foo bar") * "/baz") == "['foo/baz', 'bar/baz']"
    assert repr("foo/" * List("bar baz")) == "__main__.List('foo/bar foo/baz')"

    assert _contains_lines([], [])
    assert _contains_lines([], [[]])
    assert _contains_lines([], [[], []])
    assert _contains_lines([], [[], [], []])
    assert not _contains_lines([], [[""]])
    assert not _contains_lines([], [["a"]])

    assert _contains_lines([""], [])
    assert _contains_lines(["a"], [])
    assert _contains_lines(["a", "b"], [])
    assert _contains_lines(["a", "b"], [[], [], []])

    assert _contains_lines([""], [[""]])
    assert not _contains_lines([""], [["a"]])
    assert not _contains_lines(["a"], [[""]])
    assert _contains_lines(["a", "", "b", ""], [["a"]])
    assert _contains_lines(["a", "", "b", ""], [[""]])
    assert _contains_lines(["a", "", "b"], [["b"]])
    assert not _contains_lines(["a", "b"], [[""]])
    assert not _contains_lines(["a", "", "b", ""], [["c"]])
    assert _contains_lines(["a", "", "b", "x"], [["x"]])

    data = ["1", "2", "3", "4", "5", "6", "7", "8", "9"]
    assert _contains_lines(data, [["1", "2"]])
    assert not _contains_lines(data, [["2", "1"]])
    assert not _contains_lines(data, [["1", "3"]])
    assert not _contains_lines(data, [["1", "3"]])
    assert _contains_lines(data, [["1"], ["2"]])
    assert _contains_lines(data, [["1"], [], [], [], ["2"]])
    assert _contains_lines(data, [["1"], ["3"]])
    assert not _contains_lines(data, [["3"], ["1"]])
    assert _contains_lines(data, [["3"], ["7"], ["8"]])
    assert not _contains_lines(data, [["1"], ["3", "5"]])
    assert not _contains_lines(data, [["1"], [""], ["5"]])
    assert not _contains_lines(data, [["1"], ["5"], ["3"]])
    assert not _contains_lines(data, [["1"], ["5", "3"]])

    assert not _contains_lines(data, [[" 3"]])
    assert not _contains_lines(data, [["3 "]])
    assert not _contains_lines(data, [["3", ""]])
    assert not _contains_lines(data, [["", "3"]])

    print("tests passed")