##// END OF EJS Templates
simplevcs: fix a typo when running detection of vcs backend....
simplevcs: fix a typo when running detection of vcs backend. - the flag should be explicit_scm which skips detection of VCS systems. This improves the speed of calls by not trying to look for a valid vcs.

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codeblocks.py
641 lines | 23.6 KiB | text/x-python | PythonLexer
# -*- coding: utf-8 -*-
# Copyright (C) 2011-2016 RhodeCode GmbH
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License, version 3
# (only), as published by the Free Software Foundation.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
# This program is dual-licensed. If you wish to learn more about the
# RhodeCode Enterprise Edition, including its added features, Support services,
# and proprietary license terms, please see https://rhodecode.com/licenses/
import logging
import difflib
from itertools import groupby
from pygments import lex
from pygments.formatters.html import _get_ttype_class as pygment_token_class
from rhodecode.lib.helpers import (
get_lexer_for_filenode, get_lexer_safe, html_escape)
from rhodecode.lib.utils2 import AttributeDict
from rhodecode.lib.vcs.nodes import FileNode
from rhodecode.lib.diff_match_patch import diff_match_patch
from rhodecode.lib.diffs import LimitedDiffContainer
from pygments.lexers import get_lexer_by_name
plain_text_lexer = get_lexer_by_name(
'text', stripall=False, stripnl=False, ensurenl=False)
log = logging.getLogger()
def filenode_as_lines_tokens(filenode, lexer=None):
lexer = lexer or get_lexer_for_filenode(filenode)
log.debug('Generating file node pygment tokens for %s, %s', lexer, filenode)
tokens = tokenize_string(filenode.content, lexer)
lines = split_token_stream(tokens, split_string='\n')
rv = list(lines)
return rv
def tokenize_string(content, lexer):
"""
Use pygments to tokenize some content based on a lexer
ensuring all original new lines and whitespace is preserved
"""
lexer.stripall = False
lexer.stripnl = False
lexer.ensurenl = False
for token_type, token_text in lex(content, lexer):
yield pygment_token_class(token_type), token_text
def split_token_stream(tokens, split_string=u'\n'):
"""
Take a list of (TokenType, text) tuples and split them by a string
>>> split_token_stream([(TEXT, 'some\ntext'), (TEXT, 'more\n')])
[(TEXT, 'some'), (TEXT, 'text'),
(TEXT, 'more'), (TEXT, 'text')]
"""
buffer = []
for token_class, token_text in tokens:
parts = token_text.split(split_string)
for part in parts[:-1]:
buffer.append((token_class, part))
yield buffer
buffer = []
buffer.append((token_class, parts[-1]))
if buffer:
yield buffer
def filenode_as_annotated_lines_tokens(filenode):
"""
Take a file node and return a list of annotations => lines, if no annotation
is found, it will be None.
eg:
[
(annotation1, [
(1, line1_tokens_list),
(2, line2_tokens_list),
]),
(annotation2, [
(3, line1_tokens_list),
]),
(None, [
(4, line1_tokens_list),
]),
(annotation1, [
(5, line1_tokens_list),
(6, line2_tokens_list),
])
]
"""
commit_cache = {} # cache commit_getter lookups
def _get_annotation(commit_id, commit_getter):
if commit_id not in commit_cache:
commit_cache[commit_id] = commit_getter()
return commit_cache[commit_id]
annotation_lookup = {
line_no: _get_annotation(commit_id, commit_getter)
for line_no, commit_id, commit_getter, line_content
in filenode.annotate
}
annotations_lines = ((annotation_lookup.get(line_no), line_no, tokens)
for line_no, tokens
in enumerate(filenode_as_lines_tokens(filenode), 1))
grouped_annotations_lines = groupby(annotations_lines, lambda x: x[0])
for annotation, group in grouped_annotations_lines:
yield (
annotation, [(line_no, tokens)
for (_, line_no, tokens) in group]
)
def render_tokenstream(tokenstream):
result = []
for token_class, token_ops_texts in rollup_tokenstream(tokenstream):
if token_class:
result.append(u'<span class="%s">' % token_class)
else:
result.append(u'<span>')
for op_tag, token_text in token_ops_texts:
if op_tag:
result.append(u'<%s>' % op_tag)
escaped_text = html_escape(token_text)
# TODO: dan: investigate showing hidden characters like space/nl/tab
# escaped_text = escaped_text.replace(' ', '<sp> </sp>')
# escaped_text = escaped_text.replace('\n', '<nl>\n</nl>')
# escaped_text = escaped_text.replace('\t', '<tab>\t</tab>')
result.append(escaped_text)
if op_tag:
result.append(u'</%s>' % op_tag)
result.append(u'</span>')
html = ''.join(result)
return html
def rollup_tokenstream(tokenstream):
"""
Group a token stream of the format:
('class', 'op', 'text')
or
('class', 'text')
into
[('class1',
[('op1', 'text'),
('op2', 'text')]),
('class2',
[('op3', 'text')])]
This is used to get the minimal tags necessary when
rendering to html eg for a token stream ie.
<span class="A"><ins>he</ins>llo</span>
vs
<span class="A"><ins>he</ins></span><span class="A">llo</span>
If a 2 tuple is passed in, the output op will be an empty string.
eg:
>>> rollup_tokenstream([('classA', '', 'h'),
('classA', 'del', 'ell'),
('classA', '', 'o'),
('classB', '', ' '),
('classA', '', 'the'),
('classA', '', 're'),
])
[('classA', [('', 'h'), ('del', 'ell'), ('', 'o')],
('classB', [('', ' ')],
('classA', [('', 'there')]]
"""
if tokenstream and len(tokenstream[0]) == 2:
tokenstream = ((t[0], '', t[1]) for t in tokenstream)
result = []
for token_class, op_list in groupby(tokenstream, lambda t: t[0]):
ops = []
for token_op, token_text_list in groupby(op_list, lambda o: o[1]):
text_buffer = []
for t_class, t_op, t_text in token_text_list:
text_buffer.append(t_text)
ops.append((token_op, ''.join(text_buffer)))
result.append((token_class, ops))
return result
def tokens_diff(old_tokens, new_tokens, use_diff_match_patch=True):
"""
Converts a list of (token_class, token_text) tuples to a list of
(token_class, token_op, token_text) tuples where token_op is one of
('ins', 'del', '')
:param old_tokens: list of (token_class, token_text) tuples of old line
:param new_tokens: list of (token_class, token_text) tuples of new line
:param use_diff_match_patch: boolean, will use google's diff match patch
library which has options to 'smooth' out the character by character
differences making nicer ins/del blocks
"""
old_tokens_result = []
new_tokens_result = []
similarity = difflib.SequenceMatcher(None,
''.join(token_text for token_class, token_text in old_tokens),
''.join(token_text for token_class, token_text in new_tokens)
).ratio()
if similarity < 0.6: # return, the blocks are too different
for token_class, token_text in old_tokens:
old_tokens_result.append((token_class, '', token_text))
for token_class, token_text in new_tokens:
new_tokens_result.append((token_class, '', token_text))
return old_tokens_result, new_tokens_result, similarity
token_sequence_matcher = difflib.SequenceMatcher(None,
[x[1] for x in old_tokens],
[x[1] for x in new_tokens])
for tag, o1, o2, n1, n2 in token_sequence_matcher.get_opcodes():
# check the differences by token block types first to give a more
# nicer "block" level replacement vs character diffs
if tag == 'equal':
for token_class, token_text in old_tokens[o1:o2]:
old_tokens_result.append((token_class, '', token_text))
for token_class, token_text in new_tokens[n1:n2]:
new_tokens_result.append((token_class, '', token_text))
elif tag == 'delete':
for token_class, token_text in old_tokens[o1:o2]:
old_tokens_result.append((token_class, 'del', token_text))
elif tag == 'insert':
for token_class, token_text in new_tokens[n1:n2]:
new_tokens_result.append((token_class, 'ins', token_text))
elif tag == 'replace':
# if same type token blocks must be replaced, do a diff on the
# characters in the token blocks to show individual changes
old_char_tokens = []
new_char_tokens = []
for token_class, token_text in old_tokens[o1:o2]:
for char in token_text:
old_char_tokens.append((token_class, char))
for token_class, token_text in new_tokens[n1:n2]:
for char in token_text:
new_char_tokens.append((token_class, char))
old_string = ''.join([token_text for
token_class, token_text in old_char_tokens])
new_string = ''.join([token_text for
token_class, token_text in new_char_tokens])
char_sequence = difflib.SequenceMatcher(
None, old_string, new_string)
copcodes = char_sequence.get_opcodes()
obuffer, nbuffer = [], []
if use_diff_match_patch:
dmp = diff_match_patch()
dmp.Diff_EditCost = 11 # TODO: dan: extract this to a setting
reps = dmp.diff_main(old_string, new_string)
dmp.diff_cleanupEfficiency(reps)
a, b = 0, 0
for op, rep in reps:
l = len(rep)
if op == 0:
for i, c in enumerate(rep):
obuffer.append((old_char_tokens[a+i][0], '', c))
nbuffer.append((new_char_tokens[b+i][0], '', c))
a += l
b += l
elif op == -1:
for i, c in enumerate(rep):
obuffer.append((old_char_tokens[a+i][0], 'del', c))
a += l
elif op == 1:
for i, c in enumerate(rep):
nbuffer.append((new_char_tokens[b+i][0], 'ins', c))
b += l
else:
for ctag, co1, co2, cn1, cn2 in copcodes:
if ctag == 'equal':
for token_class, token_text in old_char_tokens[co1:co2]:
obuffer.append((token_class, '', token_text))
for token_class, token_text in new_char_tokens[cn1:cn2]:
nbuffer.append((token_class, '', token_text))
elif ctag == 'delete':
for token_class, token_text in old_char_tokens[co1:co2]:
obuffer.append((token_class, 'del', token_text))
elif ctag == 'insert':
for token_class, token_text in new_char_tokens[cn1:cn2]:
nbuffer.append((token_class, 'ins', token_text))
elif ctag == 'replace':
for token_class, token_text in old_char_tokens[co1:co2]:
obuffer.append((token_class, 'del', token_text))
for token_class, token_text in new_char_tokens[cn1:cn2]:
nbuffer.append((token_class, 'ins', token_text))
old_tokens_result.extend(obuffer)
new_tokens_result.extend(nbuffer)
return old_tokens_result, new_tokens_result, similarity
class DiffSet(object):
"""
An object for parsing the diff result from diffs.DiffProcessor and
adding highlighting, side by side/unified renderings and line diffs
"""
HL_REAL = 'REAL' # highlights using original file, slow
HL_FAST = 'FAST' # highlights using just the line, fast but not correct
# in the case of multiline code
HL_NONE = 'NONE' # no highlighting, fastest
def __init__(self, highlight_mode=HL_REAL,
source_node_getter=lambda filename: None,
target_node_getter=lambda filename: None,
source_nodes=None, target_nodes=None,
max_file_size_limit=150 * 1024, # files over this size will
# use fast highlighting
):
self.highlight_mode = highlight_mode
self.highlighted_filenodes = {}
self.source_node_getter = source_node_getter
self.target_node_getter = target_node_getter
self.source_nodes = source_nodes or {}
self.target_nodes = target_nodes or {}
self.max_file_size_limit = max_file_size_limit
def render_patchset(self, patchset, source_ref=None, target_ref=None):
diffset = AttributeDict(dict(
lines_added=0,
lines_deleted=0,
changed_files=0,
files=[],
limited_diff=isinstance(patchset, LimitedDiffContainer),
source_ref=source_ref,
target_ref=target_ref,
))
for patch in patchset:
filediff = self.render_patch(patch)
filediff.diffset = diffset
diffset.files.append(filediff)
diffset.changed_files += 1
if not patch['stats']['binary']:
diffset.lines_added += patch['stats']['added']
diffset.lines_deleted += patch['stats']['deleted']
return diffset
_lexer_cache = {}
def _get_lexer_for_filename(self, filename):
# cached because we might need to call it twice for source/target
if filename not in self._lexer_cache:
self._lexer_cache[filename] = get_lexer_safe(filepath=filename)
return self._lexer_cache[filename]
def render_patch(self, patch):
log.debug('rendering diff for %r' % patch['filename'])
source_filename = patch['original_filename']
target_filename = patch['filename']
source_lexer = plain_text_lexer
target_lexer = plain_text_lexer
if not patch['stats']['binary']:
if self.highlight_mode == self.HL_REAL:
if (source_filename and patch['operation'] in ('D', 'M')
and source_filename not in self.source_nodes):
self.source_nodes[source_filename] = (
self.source_node_getter(source_filename))
if (target_filename and patch['operation'] in ('A', 'M')
and target_filename not in self.target_nodes):
self.target_nodes[target_filename] = (
self.target_node_getter(target_filename))
elif self.highlight_mode == self.HL_FAST:
source_lexer = self._get_lexer_for_filename(source_filename)
target_lexer = self._get_lexer_for_filename(target_filename)
source_file = self.source_nodes.get(source_filename, source_filename)
target_file = self.target_nodes.get(target_filename, target_filename)
source_filenode, target_filenode = None, None
# TODO: dan: FileNode.lexer works on the content of the file - which
# can be slow - issue #4289 explains a lexer clean up - which once
# done can allow caching a lexer for a filenode to avoid the file lookup
if isinstance(source_file, FileNode):
source_filenode = source_file
source_lexer = source_file.lexer
if isinstance(target_file, FileNode):
target_filenode = target_file
target_lexer = target_file.lexer
source_file_path, target_file_path = None, None
if source_filename != '/dev/null':
source_file_path = source_filename
if target_filename != '/dev/null':
target_file_path = target_filename
source_file_type = source_lexer.name
target_file_type = target_lexer.name
op_hunks = patch['chunks'][0]
hunks = patch['chunks'][1:]
filediff = AttributeDict({
'source_file_path': source_file_path,
'target_file_path': target_file_path,
'source_filenode': source_filenode,
'target_filenode': target_filenode,
'hunks': [],
'source_file_type': target_file_type,
'target_file_type': source_file_type,
'patch': patch,
'source_mode': patch['stats']['old_mode'],
'target_mode': patch['stats']['new_mode'],
'limited_diff': isinstance(patch, LimitedDiffContainer),
'diffset': self,
})
for hunk in hunks:
hunkbit = self.parse_hunk(hunk, source_file, target_file)
hunkbit.filediff = filediff
filediff.hunks.append(hunkbit)
return filediff
def parse_hunk(self, hunk, source_file, target_file):
result = AttributeDict(dict(
source_start=hunk['source_start'],
source_length=hunk['source_length'],
target_start=hunk['target_start'],
target_length=hunk['target_length'],
section_header=hunk['section_header'],
lines=[],
))
before, after = [], []
for line in hunk['lines']:
if line['action'] == 'unmod':
result.lines.extend(
self.parse_lines(before, after, source_file, target_file))
after.append(line)
before.append(line)
elif line['action'] == 'add':
after.append(line)
elif line['action'] == 'del':
before.append(line)
elif line['action'] == 'old-no-nl':
before.append(line)
elif line['action'] == 'new-no-nl':
after.append(line)
result.lines.extend(
self.parse_lines(before, after, source_file, target_file))
result.unified = self.as_unified(result.lines)
result.sideside = result.lines
return result
def parse_lines(self, before_lines, after_lines, source_file, target_file):
# TODO: dan: investigate doing the diff comparison and fast highlighting
# on the entire before and after buffered block lines rather than by
# line, this means we can get better 'fast' highlighting if the context
# allows it - eg.
# line 4: """
# line 5: this gets highlighted as a string
# line 6: """
lines = []
while before_lines or after_lines:
before, after = None, None
before_tokens, after_tokens = None, None
if before_lines:
before = before_lines.pop(0)
if after_lines:
after = after_lines.pop(0)
original = AttributeDict()
modified = AttributeDict()
if before:
if before['action'] == 'old-no-nl':
before_tokens = [('nonl', before['line'])]
else:
before_tokens = self.get_line_tokens(
line_text=before['line'], line_number=before['old_lineno'],
file=source_file)
original.lineno = before['old_lineno']
original.content = before['line']
original.action = self.action_to_op(before['action'])
if after:
if after['action'] == 'new-no-nl':
after_tokens = [('nonl', after['line'])]
else:
after_tokens = self.get_line_tokens(
line_text=after['line'], line_number=after['new_lineno'],
file=target_file)
modified.lineno = after['new_lineno']
modified.content = after['line']
modified.action = self.action_to_op(after['action'])
# diff the lines
if before_tokens and after_tokens:
o_tokens, m_tokens, similarity = tokens_diff(
before_tokens, after_tokens)
original.content = render_tokenstream(o_tokens)
modified.content = render_tokenstream(m_tokens)
elif before_tokens:
original.content = render_tokenstream(
[(x[0], '', x[1]) for x in before_tokens])
elif after_tokens:
modified.content = render_tokenstream(
[(x[0], '', x[1]) for x in after_tokens])
lines.append(AttributeDict({
'original': original,
'modified': modified,
}))
return lines
def get_line_tokens(self, line_text, line_number, file=None):
filenode = None
filename = None
if isinstance(file, basestring):
filename = file
elif isinstance(file, FileNode):
filenode = file
filename = file.unicode_path
if self.highlight_mode == self.HL_REAL and filenode:
if line_number and file.size < self.max_file_size_limit:
return self.get_tokenized_filenode_line(file, line_number)
if self.highlight_mode in (self.HL_REAL, self.HL_FAST) and filename:
lexer = self._get_lexer_for_filename(filename)
return list(tokenize_string(line_text, lexer))
return list(tokenize_string(line_text, plain_text_lexer))
def get_tokenized_filenode_line(self, filenode, line_number):
if filenode not in self.highlighted_filenodes:
tokenized_lines = filenode_as_lines_tokens(filenode, filenode.lexer)
self.highlighted_filenodes[filenode] = tokenized_lines
return self.highlighted_filenodes[filenode][line_number - 1]
def action_to_op(self, action):
return {
'add': '+',
'del': '-',
'unmod': ' ',
'old-no-nl': ' ',
'new-no-nl': ' ',
}.get(action, action)
def as_unified(self, lines):
""" Return a generator that yields the lines of a diff in unified order """
def generator():
buf = []
for line in lines:
if buf and not line.original or line.original.action == ' ':
for b in buf:
yield b
buf = []
if line.original:
if line.original.action == ' ':
yield (line.original.lineno, line.modified.lineno,
line.original.action, line.original.content)
continue
if line.original.action == '-':
yield (line.original.lineno, None,
line.original.action, line.original.content)
if line.modified.action == '+':
buf.append((
None, line.modified.lineno,
line.modified.action, line.modified.content))
continue
if line.modified:
yield (None, line.modified.lineno,
line.modified.action, line.modified.content)
for b in buf:
yield b
return generator()