import errno
import re
import os


class OEList(list):
    """OpenEmbedded 'list' type

    Acts as an ordinary list, but is constructed from a string value and a
    separator (optional), and re-joins itself when converted to a string with
    str().  Set the variable type flag to 'list' to use this type, and the
    'separator' flag may be specified (defaulting to whitespace)."""

    name = "list"

    def __init__(self, value, separator = None):
        if value is not None:
            list.__init__(self, value.split(separator))
        else:
            list.__init__(self)

        if separator is None:
            self.separator = " "
        else:
            self.separator = separator

    def __str__(self):
        return self.separator.join(self)

def choice(value, choices):
    """OpenEmbedded 'choice' type

    Acts as a multiple choice for the user.  To use this, set the variable
    type flag to 'choice', and set the 'choices' flag to a space separated
    list of valid values."""
    if not isinstance(value, str):
        raise TypeError("choice accepts a string, not '%s'" % type(value))

    value = value.lower()
    choices = choices.lower()
    if value not in choices.split():
        raise ValueError("Invalid choice '%s'.  Valid choices: %s" %
                         (value, choices))
    return value

class NoMatch(object):
    """Stub python regex pattern object which never matches anything"""
    def findall(self, string, flags=0):
        return None

    def finditer(self, string, flags=0):
        return None

    def match(self, flags=0):
        return None

    def search(self, string, flags=0):
        return None

    def split(self, string, maxsplit=0):
        return None

    def sub(pattern, repl, string, count=0):
        return None

    def subn(pattern, repl, string, count=0):
        return None

NoMatch = NoMatch()

def regex(value, regexflags=None):
    """OpenEmbedded 'regex' type

    Acts as a regular expression, returning the pre-compiled regular
    expression pattern object.  To use this type, set the variable type flag
    to 'regex', and optionally, set the 'regexflags' type to a space separated
    list of the flags to control the regular expression matching (e.g.
    FOO[regexflags] += 'ignorecase').  See the python documentation on the
    're' module for a list of valid flags."""

    flagval = 0
    if regexflags:
        for flag in regexflags.split():
            flag = flag.upper()
            try:
                flagval |= getattr(re, flag)
            except AttributeError:
                raise ValueError("Invalid regex flag '%s'" % flag)

    if not value:
        # Let's ensure that the default behavior for an undefined or empty
        # variable is to match nothing. If the user explicitly wants to match
        # anything, they can match '.*' instead.
        return NoMatch

    try:
        return re.compile(value, flagval)
    except re.error as exc:
        raise ValueError("Invalid regex value '%s': %s" %
                         (value, exc.args[0]))

def boolean(value):
    """OpenEmbedded 'boolean' type

    Valid values for true: 'yes', 'y', 'true', 't', '1'
    Valid values for false: 'no', 'n', 'false', 'f', '0', None
    """
    if value is None:
        return False

    if isinstance(value, bool):
        return value

    if not isinstance(value, str):
        raise TypeError("boolean accepts a string, not '%s'" % type(value))

    value = value.lower()
    if value in ('yes', 'y', 'true', 't', '1'):
        return True
    elif value in ('no', 'n', 'false', 'f', '0'):
        return False
    raise ValueError("Invalid boolean value '%s'" % value)

def integer(value, numberbase=10):
    """OpenEmbedded 'integer' type

    Defaults to base 10, but this can be specified using the optional
    'numberbase' flag."""

    return int(value, int(numberbase))

_float = float
def float(value, fromhex='false'):
    """OpenEmbedded floating point type

    To use this type, set the type flag to 'float', and optionally set the
    'fromhex' flag to a true value (obeying the same rules as for the
    'boolean' type) if the value is in base 16 rather than base 10."""

    if boolean(fromhex):
        return _float.fromhex(value)
    else:
        return _float(value)

def path(value, relativeto='', normalize='true', mustexist='false'):
    value = os.path.join(relativeto, value)

    if boolean(normalize):
        value = os.path.normpath(value)

    if boolean(mustexist):
        try:
            open(value, 'r')
        except IOError as exc:
            if exc.errno == errno.ENOENT:
                raise ValueError("{0}: {1}".format(value, os.strerror(errno.ENOENT)))

    return value

def is_x86(arch):
    """
    Check whether arch is x86 or x86_64
    """
    if arch.startswith('x86_') or re.match('i.*86', arch):
        return True
    else:
        return False

def qemu_use_kvm(kvm, target_arch):
    """
    Enable kvm if target_arch == build_arch or both of them are x86 archs.
    """

    use_kvm = False
    if kvm and boolean(kvm):
        build_arch = os.uname()[4]
        if is_x86(build_arch) and is_x86(target_arch):
            use_kvm = True
        elif build_arch == target_arch:
            use_kvm = True
    return use_kvm