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# Copyright (C) 2014 The Android Open Source Project
#
# 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 print_function
import heapq
import itertools

__all__ = ["RangeSet"]

class RangeSet(object):
  """A RangeSet represents a set of nonoverlapping ranges on the
  integers (ie, a set of integers, but efficient when the set contains
  lots of runs."""

  def __init__(self, data=None):
    self.monotonic = False
    if isinstance(data, str):
      self._parse_internal(data)
    elif data:
      assert len(data) % 2 == 0
      self.data = tuple(self._remove_pairs(data))
      self.monotonic = all(x < y for x, y in zip(self.data, self.data[1:]))
    else:
      self.data = ()

  def __iter__(self):
    for i in range(0, len(self.data), 2):
      yield self.data[i:i+2]

  def __eq__(self, other):
    return self.data == other.data

  def __ne__(self, other):
    return self.data != other.data

  def __nonzero__(self):
    return bool(self.data)

  def __str__(self):
    if not self.data:
      return "empty"
    else:
      return self.to_string()

  def __repr__(self):
    return '<RangeSet("' + self.to_string() + '")>'

  @classmethod
  def parse(cls, text):
    """Parse a text string consisting of a space-separated list of
    blocks and ranges, eg "10-20 30 35-40".  Ranges are interpreted to
    include both their ends (so the above example represents 18
    individual blocks.  Returns a RangeSet object.

    If the input has all its blocks in increasing order, then returned
    RangeSet will have an extra attribute 'monotonic' that is set to
    True.  For example the input "10-20 30" is monotonic, but the input
    "15-20 30 10-14" is not, even though they represent the same set
    of blocks (and the two RangeSets will compare equal with ==).
    """
    return cls(text)

  @classmethod
  def parse_raw(cls, text):
    """Parse a string generated by RangeSet.to_string_raw().

    >>> RangeSet.parse_raw(RangeSet("0-9").to_string_raw())
    <RangeSet("0-9")>
    """

    raw = [int(i) for i in text.split(',')]
    assert raw[0] == len(raw[1:]), "Invalid raw string."

    return cls(data=raw[1:])

  def _parse_internal(self, text):
    data = []
    last = -1
    monotonic = True
    for p in text.split():
      if "-" in p:
        s, e = (int(x) for x in p.split("-"))
        data.append(s)
        data.append(e+1)
        if last <= s <= e:
          last = e
        else:
          monotonic = False
      else:
        s = int(p)
        data.append(s)
        data.append(s+1)
        if last <= s:
          last = s+1
        else:
          monotonic = False
    data.sort()
    self.data = tuple(self._remove_pairs(data))
    self.monotonic = monotonic

  @staticmethod
  def _remove_pairs(source):
    """Remove consecutive duplicate items to simplify the result.

    [1, 2, 2, 5, 5, 10] will become [1, 10]."""
    last = None
    for i in source:
      if i == last:
        last = None
      else:
        if last is not None:
          yield last
        last = i
    if last is not None:
      yield last

  def to_string(self):
    out = []
    for i in range(0, len(self.data), 2):
      s, e = self.data[i:i+2]
      if e == s+1:
        out.append(str(s))
      else:
        out.append(str(s) + "-" + str(e-1))
    return " ".join(out)

  def to_string_raw(self):
    assert self.data
    return str(len(self.data)) + "," + ",".join(str(i) for i in self.data)

  def union(self, other):
    """Return a new RangeSet representing the union of this RangeSet
    with the argument.

    >>> RangeSet("10-19 30-34").union(RangeSet("18-29"))
    <RangeSet("10-34")>
    >>> RangeSet("10-19 30-34").union(RangeSet("22 32"))
    <RangeSet("10-19 22 30-34")>
    """
    out = []
    z = 0
    for p, d in heapq.merge(zip(self.data, itertools.cycle((+1, -1))),
                            zip(other.data, itertools.cycle((+1, -1)))):
      if (z == 0 and d == 1) or (z == 1 and d == -1):
        out.append(p)
      z += d
    return RangeSet(data=out)

  def intersect(self, other):
    """Return a new RangeSet representing the intersection of this
    RangeSet with the argument.

    >>> RangeSet("10-19 30-34").intersect(RangeSet("18-32"))
    <RangeSet("18-19 30-32")>
    >>> RangeSet("10-19 30-34").intersect(RangeSet("22-28"))
    <RangeSet("")>
    """
    out = []
    z = 0
    for p, d in heapq.merge(zip(self.data, itertools.cycle((+1, -1))),
                            zip(other.data, itertools.cycle((+1, -1)))):
      if (z == 1 and d == 1) or (z == 2 and d == -1):
        out.append(p)
      z += d
    return RangeSet(data=out)

  def subtract(self, other):
    """Return a new RangeSet representing subtracting the argument
    from this RangeSet.

    >>> RangeSet("10-19 30-34").subtract(RangeSet("18-32"))
    <RangeSet("10-17 33-34")>
    >>> RangeSet("10-19 30-34").subtract(RangeSet("22-28"))
    <RangeSet("10-19 30-34")>
    """

    out = []
    z = 0
    for p, d in heapq.merge(zip(self.data, itertools.cycle((+1, -1))),
                            zip(other.data, itertools.cycle((-1, +1)))):
      if (z == 0 and d == 1) or (z == 1 and d == -1):
        out.append(p)
      z += d
    return RangeSet(data=out)

  def overlaps(self, other):
    """Returns true if the argument has a nonempty overlap with this
    RangeSet.

    >>> RangeSet("10-19 30-34").overlaps(RangeSet("18-32"))
    True
    >>> RangeSet("10-19 30-34").overlaps(RangeSet("22-28"))
    False
    """

    # This is like intersect, but we can stop as soon as we discover the
    # output is going to be nonempty.
    z = 0
    for _, d in heapq.merge(zip(self.data, itertools.cycle((+1, -1))),
                            zip(other.data, itertools.cycle((+1, -1)))):
      if (z == 1 and d == 1) or (z == 2 and d == -1):
        return True
      z += d
    return False

  def size(self):
    """Returns the total size of the RangeSet (ie, how many integers
    are in the set).

    >>> RangeSet("10-19 30-34").size()
    15
    """

    total = 0
    for i, p in enumerate(self.data):
      if i % 2:
        total += p
      else:
        total -= p
    return total

  def map_within(self, other):
    """'other' should be a subset of 'self'.  Returns a RangeSet
    representing what 'other' would get translated to if the integers
    of 'self' were translated down to be contiguous starting at zero.

    >>> RangeSet("0-9").map_within(RangeSet("3-4"))
    <RangeSet("3-4")>
    >>> RangeSet("10-19").map_within(RangeSet("13-14"))
    <RangeSet("3-4")>
    >>> RangeSet("10-19 30-39").map_within(RangeSet("17-19 30-32"))
    <RangeSet("7-12")>
    >>> RangeSet("10-19 30-39").map_within(RangeSet("12-13 17-19 30-32"))
    <RangeSet("2-3 7-12")>
    """

    out = []
    offset = 0
    start = None
    for p, d in heapq.merge(zip(self.data, itertools.cycle((-5, +5))),
                            zip(other.data, itertools.cycle((-1, +1)))):
      if d == -5:
        start = p
      elif d == +5:
        offset += p-start
        start = None
      else:
        out.append(offset + p - start)
    return RangeSet(data=out)

  def extend(self, n):
    """Extend the RangeSet by 'n' blocks.

    The lower bound is guaranteed to be non-negative.

    >>> RangeSet("0-9").extend(1)
    <RangeSet("0-10")>
    >>> RangeSet("10-19").extend(15)
    <RangeSet("0-34")>
    >>> RangeSet("10-19 30-39").extend(4)
    <RangeSet("6-23 26-43")>
    >>> RangeSet("10-19 30-39").extend(10)
    <RangeSet("0-49")>
    """
    out = self
    for i in range(0, len(self.data), 2):
      s, e = self.data[i:i+2]
      s1 = max(0, s - n)
      e1 = e + n
      out = out.union(RangeSet(str(s1) + "-" + str(e1-1)))
    return out

  def first(self, n):
    """Return the RangeSet that contains at most the first 'n' integers.

    >>> RangeSet("0-9").first(1)
    <RangeSet("0")>
    >>> RangeSet("10-19").first(5)
    <RangeSet("10-14")>
    >>> RangeSet("10-19").first(15)
    <RangeSet("10-19")>
    >>> RangeSet("10-19 30-39").first(3)
    <RangeSet("10-12")>
    >>> RangeSet("10-19 30-39").first(15)
    <RangeSet("10-19 30-34")>
    >>> RangeSet("10-19 30-39").first(30)
    <RangeSet("10-19 30-39")>
    >>> RangeSet("0-9").first(0)
    <RangeSet("")>
    """

    if self.size() <= n:
      return self

    out = []
    for s, e in self:
      if e - s >= n:
        out += (s, s+n)
        break
      else:
        out += (s, e)
        n -= e - s
    return RangeSet(data=out)

  def next_item(self):
    """Return the next integer represented by the RangeSet.

    >>> list(RangeSet("0-9").next_item())
    [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
    >>> list(RangeSet("10-19 3-5").next_item())
    [3, 4, 5, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19]
    >>> list(rangelib.RangeSet("10-19 3 5 7").next_item())
    [3, 5, 7, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19]
    """
    for s, e in self:
      for element in range(s, e):
        yield element


if __name__ == "__main__":
  import doctest
  doctest.testmod()