Example #1
0
    def find_unconflicted(self):
        """Return a list of ranges in base that are not conflicted."""
        am = patiencediff.PatienceSequenceMatcher(
            None, self.base, self.a).get_matching_blocks()
        bm = patiencediff.PatienceSequenceMatcher(
            None, self.base, self.b).get_matching_blocks()

        unc = []

        while am and bm:
            # there is an unconflicted block at i; how long does it
            # extend?  until whichever one ends earlier.
            a1 = am[0][0]
            a2 = a1 + am[0][2]
            b1 = bm[0][0]
            b2 = b1 + bm[0][2]
            i = intersect((a1, a2), (b1, b2))
            if i:
                unc.append(i)

            if a2 < b2:
                del am[0]
            else:
                del bm[0]

        return unc
Example #2
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    def find_sync_regions(self):
        """Return a list of sync regions, where both descendents match the base.

        Generates a list of (base1, base2, a1, a2, b1, b2).  There is
        always a zero-length sync region at the end of all the files.
        """

        ia = ib = 0
        amatches = patiencediff.PatienceSequenceMatcher(
            None, self.base, self.a).get_matching_blocks()
        bmatches = patiencediff.PatienceSequenceMatcher(
            None, self.base, self.b).get_matching_blocks()
        len_a = len(amatches)
        len_b = len(bmatches)

        sl = []

        while ia < len_a and ib < len_b:
            abase, amatch, alen = amatches[ia]
            bbase, bmatch, blen = bmatches[ib]

            # there is an unconflicted block at i; how long does it
            # extend?  until whichever one ends earlier.
            i = intersect((abase, abase + alen), (bbase, bbase + blen))
            if i:
                intbase = i[0]
                intend = i[1]
                intlen = intend - intbase

                # found a match of base[i[0], i[1]]; this may be less than
                # the region that matches in either one
                # assert intlen <= alen
                # assert intlen <= blen
                # assert abase <= intbase
                # assert bbase <= intbase

                asub = amatch + (intbase - abase)
                bsub = bmatch + (intbase - bbase)
                aend = asub + intlen
                bend = bsub + intlen

                # assert self.base[intbase:intend] == self.a[asub:aend], \
                #       (self.base[intbase:intend], self.a[asub:aend])
                # assert self.base[intbase:intend] == self.b[bsub:bend]

                sl.append((intbase, intend, asub, aend, bsub, bend))
            # advance whichever one ends first in the base text
            if (abase + alen) < (bbase + blen):
                ia += 1
            else:
                ib += 1

        intbase = len(self.base)
        abase = len(self.a)
        bbase = len(self.b)
        sl.append((intbase, intbase, abase, abase, bbase, bbase))

        return sl
Example #3
0
    def reprocess_merge_regions(self, merge_regions):
        """Where there are conflict regions, remove the agreed lines.

        Lines where both A and B have made the same changes are
        eliminated.
        """
        for region in merge_regions:
            if region[0] != "conflict":
                yield region
                continue
            type, iz, zmatch, ia, amatch, ib, bmatch = region
            a_region = self.a[ia:amatch]
            b_region = self.b[ib:bmatch]
            matches = patiencediff.PatienceSequenceMatcher(
                None, a_region, b_region).get_matching_blocks()
            next_a = ia
            next_b = ib
            for region_ia, region_ib, region_len in matches[:-1]:
                region_ia += ia
                region_ib += ib
                reg = self.mismatch_region(next_a, region_ia, next_b,
                                           region_ib)
                if reg is not None:
                    yield reg
                yield 'same', region_ia, region_len + region_ia
                next_a = region_ia + region_len
                next_b = region_ib + region_len
            reg = self.mismatch_region(next_a, amatch, next_b, bmatch)
            if reg is not None:
                yield reg
Example #4
0
    def find_sync_regions(self):
        """Return a list of sync regions, where both descendents match the base.

        Generates a list of (base1, base2, a1, a2, b1, b2).  There is
        always a zero-length sync region at the end of all the files.
        """

        ia = ib = 0
        amatches = patiencediff.PatienceSequenceMatcher(
                None, self.base, self.a).get_matching_blocks()
        bmatches = patiencediff.PatienceSequenceMatcher(
                None, self.base, self.b).get_matching_blocks()
        len_a = len(amatches)
        len_b = len(bmatches)

        sl = []

        while ia < len_a and ib < len_b:
            abase, amatch, alen = amatches[ia]
            bbase, bmatch, blen = bmatches[ib]

            # there is an unconflicted block at i; how long does it
            # extend?  until whichever one ends earlier.
            i = intersect((abase, abase+alen), (bbase, bbase+blen))
            if i:
                intbase = i[0]
                intend = i[1]
                intlen = intend - intbase

                # found a match of base[i[0], i[1]]; this may be less than
                # the region that matches in either one
                # assert intlen <= alen
                # assert intlen <= blen
                # assert abase <= intbase
                # assert bbase <= intbase

                asub = amatch + (intbase - abase)
                bsub = bmatch + (intbase - bbase)
                aend = asub + intlen
                bend = bsub + intlen

                # assert self.base[intbase:intend] == self.a[asub:aend], \
                #       (self.base[intbase:intend], self.a[asub:aend])
                # assert self.base[intbase:intend] == sel        :param allow_objects: if True, do not require that base, a and b are
            plain Python strs.  Also prevents BinaryFile from being raised.
            Lines can be any sequence of comparable and hashable Python
            objects.
Example #5
0
 def test_compare_two_parents_blocks(self):
     matcher = patiencediff.PatienceSequenceMatcher(None, LINES_2, LINES_1)
     blocks = matcher.get_matching_blocks()
     diff = multiparent.MultiParent.from_lines(LINES_1, [LINES_2, LINES_3],
                                               left_blocks=blocks)
     self.assertEqual([multiparent.ParentText(1, 0, 0, 4),
                       multiparent.ParentText(0, 3, 4, 1)],
                      diff.hunks)
Example #6
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def _reannotate(parent_lines, new_lines, new_revision_id,
                matching_blocks=None):
    new_cur = 0
    if matching_blocks is None:
        plain_parent_lines = [l for r, l in parent_lines]
        matcher = patiencediff.PatienceSequenceMatcher(None,
            plain_parent_lines, new_lines)
        matching_blocks = matcher.get_matching_blocks()
    lines = []
    for i, j, n in matching_blocks:
        for line in new_lines[new_cur:j]:
            lines.append((new_revision_id, line))
        lines.extend(parent_lines[i:i+n])
        new_cur = j + n
    return lines
Example #7
0
 def _refine_cherrypick_conflict(self, zstart, zend, astart, aend, bstart,
                                 bend):
     """When cherrypicking b => a, ignore matches with b and base."""
     # Do not emit regions which match, only regions which do not match
     matches = patiencediff.PatienceSequenceMatcher(
         None, self.base[zstart:zend],
         self.b[bstart:bend]).get_matching_blocks()
     last_base_idx = 0
     last_b_idx = 0
     last_b_idx = 0
     yielded_a = False
     for base_idx, b_idx, match_len in matches:
         conflict_z_len = base_idx - last_base_idx
         conflict_b_len = b_idx - last_b_idx
         if conflict_b_len == 0:  # There are no lines in b which conflict,
             # so skip it
             pass
         else:
             if yielded_a:
                 yield ('conflict', zstart + last_base_idx,
                        zstart + base_idx, aend, aend, bstart + last_b_idx,
                        bstart + b_idx)
             else:
                 # The first conflict gets the a-range
                 yielded_a = True
                 yield ('conflict', zstart + last_base_idx,
                        zstart + base_idx, astart, aend,
                        bstart + last_b_idx, bstart + b_idx)
         last_base_idx = base_idx + match_len
         last_b_idx = b_idx + match_len
     if last_base_idx != zend - zstart or last_b_idx != bend - bstart:
         if yielded_a:
             yield ('conflict', zstart + last_base_idx, zstart + base_idx,
                    aend, aend, bstart + last_b_idx, bstart + b_idx)
         else:
             # The first conflict gets the a-range
             yielded_a = True
             yield ('conflict', zstart + last_base_idx, zstart + base_idx,
                    astart, aend, bstart + last_b_idx, bstart + b_idx)
     if not yielded_a:
         yield ('conflict', zstart, zend, astart, aend, bstart, bend)
Example #8
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 def _count_changed_regions(old_lines, new_lines):
     matcher = patiencediff.PatienceSequenceMatcher(None, old_lines,
                                                    new_lines)
     blocks = matcher.get_matching_blocks()
     return len(blocks) - 2
Example #9
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def _get_matching_blocks(old, new):
    matcher = patiencediff.PatienceSequenceMatcher(None,
        old, new)
    return matcher.get_matching_blocks()
Example #10
0
 def _matched_lines(old, new):
     matcher = patiencediff.PatienceSequenceMatcher(None, old, new)
     matched_lines = sum (n for i, j, n in matcher.get_matching_blocks())
     return matched_lines