/usr/share/pygobject/2.0/codegen/docextract.py is in python-gobject-2-dev 2.28.6-12ubuntu1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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'''Simple module for extracting GNOME style doc comments from C
sources, so I can use them for other purposes.'''
import sys, os, string, re
__all__ = ['extract']
class GtkDoc:
def __init__(self):
self.name = None
self.block_type = '' # The block type ('function', 'signal', 'property')
self.params = []
self.annotations = []
self.description = ''
self.ret = ('', []) # (return, annotations)
def set_name(self, name):
self.name = name
def set_type(self, block_type):
self.block_type = block_type
def get_type(self):
return self.block_type
def add_param(self, name, description, annotations=[]):
if name == '...':
name = 'Varargs'
self.params.append((name, description, annotations))
def append_to_last_param(self, extra):
self.params[-1] = (self.params[-1][0], self.params[-1][1] + extra,
self.params[-1][2])
def append_to_named_param(self, name, extra):
for i in range(len(self.params)):
if self.params[i][0] == name:
self.params[i] = (name, self.params[i][1] + extra,
self.params[i][2])
return
# fall through to adding extra parameter ...
self.add_param(name, extra)
def add_annotation(self, annotation):
self.annotations.append(annotation)
def get_annotations(self):
return self.annotations
def append_to_description(self, extra):
self.description = self.description + extra
def get_description(self):
return self.description
def add_return(self, first_line, annotations=[]):
self.ret = (first_line, annotations)
def append_to_return(self, extra):
self.ret = (self.ret[0] + extra, self.ret[1])
comment_start_pattern = re.compile(r'^\s*/\*\*\s')
comment_end_pattern = re.compile(r'^\s*\*+/')
comment_line_lead_pattern = re.compile(r'^\s*\*\s*')
comment_empty_line_pattern = re.compile(r'^\s*\**\s*$')
function_name_pattern = re.compile(r'^([a-z]\w*)\s*:?(\s*\(.*\)\s*){0,2}\s*$')
signal_name_pattern = re.compile(r'^([A-Z]\w+::[a-z0-9-]+)\s*:?(\s*\(.*\)\s*){0,2}\s*$')
property_name_pattern = re.compile(r'^([A-Z]\w+:[a-z0-9-]+)\s*:?(\s*\(.*\)\s*){0,2}\s*$')
return_pattern = re.compile(r'^@?(returns:|return\s+value:)(.*\n?)$', re.IGNORECASE)
deprecated_pattern = re.compile(r'^(deprecated\s*:\s*.*\n?)$', re.IGNORECASE)
rename_to_pattern = re.compile(r'^(rename\s+to)\s*:\s*(.*\n?)$', re.IGNORECASE)
param_pattern = re.compile(r'^@(\S+)\s*:(.*\n?)$')
# Used to extract the annotations in the parameter and return descriptions
# extracted using above [param|return]_pattern patterns.
annotations_pattern = re.compile(r'^(?:(\s*\(.*\)\s*)*:)')
# Used to construct the annotation lists.
annotation_lead_pattern = re.compile(r'^\s*\(\s*(.*?)\s*\)\s*')
# These patterns determine the identifier of the current comment block. They
# are grouped in a list for easy determination of block identifiers (in
# skip_to_identifier). The function_name_pattern should be tested for last
# because it always matches signal and property identifiers.
identifier_patterns = [ signal_name_pattern, property_name_pattern, function_name_pattern ]
# This pattern is to match return sections that forget to have a colon (':')
# after the initial 'Return' phrase. It is not included by default in the list
# of final sections below because a lot of function descriptions begin with
# 'Returns ...' and the process_description() function would stop right at that
# first line, thinking it is a return section.
no_colon_return_pattern = re.compile(r'^@?(returns|return\s+value)\s*(.*\n?)$', re.IGNORECASE)
since_pattern = re.compile(r'^(since\s*:\s*.*\n?)$', re.IGNORECASE)
# These patterns normally will be encountered after the description. Knowing
# the order of their appearance is difficult so this list is used to test when
# one begins and the other ends when processing the rest of the sections after
# the description.
final_section_patterns = [ return_pattern, since_pattern, deprecated_pattern, rename_to_pattern ]
def parse_file(fp, doc_dict):
line = fp.readline()
while line:
cur_doc = GtkDoc()
line = skip_to_comment_block(fp, line)
line = skip_to_identifier(fp, line, cur_doc)
# See if the identifier is found (stored in the current GtkDoc by
# skip_to_identifier). If so, continue reading the rest of the comment
# block.
if cur_doc.name:
line = process_params(fp, line, cur_doc)
line = process_description(fp, line, cur_doc)
line = process_final_sections(fp, line, cur_doc)
# Add the current doc block to the dictionary of doc blocks.
doc_dict[cur_doc.name] = cur_doc
# Given a list of annotations as string of the form
# '(annotation1) (annotation2) ...' return a list of annotations of the form
# [ (name1, value1), (name2, value2) ... ]. Not all annotations have values so
# the values in the list of tuples could be empty ('').
def get_annotation_list(annotations):
annotation_list = []
while annotations:
match = annotation_lead_pattern.match(annotations)
if match:
annotation_contents = match.group(1)
name, split, value = annotation_contents.strip().partition(' ')
annotation_list.append((name, value))
# Remove first occurrence to continue processing.
annotations = annotation_lead_pattern.sub('', annotations)
else:
break
return annotation_list
# Given a currently read line, test that line and continue reading until the
# beginning of a comment block is found or eof is reached. Return the last
# read line.
def skip_to_comment_block(fp, line):
while line:
if comment_start_pattern.match(line):
break
line = fp.readline()
return line
# Given the current line in a comment block, continue skipping lines until a
# non-blank line in the comment block is found or until the end of the block
# (or eof) is reached. Returns the line where reading stopped.
def skip_to_nonblank(fp, line):
while line:
if not comment_empty_line_pattern.match(line):
break
line = fp.readline()
# Stop processing if eof or end of comment block is reached.
if not line or comment_end_pattern.match(line):
break
return line
# Given the first line of a comment block (the '/**'), see if the next
# non-blank line is the identifier of the comment block. Stop processing if
# the end of the block or eof is reached. Store the identifier (if there is
# one) and its type ('function', 'signal' or 'property') in the given GtkDoc.
# Return the line where the identifier is found or the line that stops the
# processing (if eof or the end of the comment block is found first).
def skip_to_identifier(fp, line, cur_doc):
# Skip the initial comment block line ('/**') if not eof.
if line: line = fp.readline()
# Now skip empty lines.
line = skip_to_nonblank(fp, line)
# See if the first non-blank line is the identifier.
if line and not comment_end_pattern.match(line):
# Remove the initial ' * ' in comment block line and see if there is an
# identifier.
line = comment_line_lead_pattern.sub('', line)
for pattern in identifier_patterns:
match = pattern.match(line)
if match:
# Set the GtkDoc name.
cur_doc.set_name(match.group(1))
# Get annotations and add them to the GtkDoc.
annotations = get_annotation_list(match.group(2))
for annotation in annotations:
cur_doc.add_annotation(annotation)
# Set the GtkDoc type.
if pattern == signal_name_pattern:
cur_doc.set_type('signal')
elif pattern == property_name_pattern:
cur_doc.set_type('property')
elif pattern == function_name_pattern:
cur_doc.set_type('function')
return line
return line
# Given a currently read line (presumably the identifier line), read the next
# lines, testing to see if the lines are part of parameter descriptions. If
# so, store the parameter descriptions in the given doc block. Stop on eof and
# return the last line that stops the processing.
def process_params(fp, line, cur_doc):
# Skip the identifier line if not eof. Also skip any blank lines in the
# comment block. Return if eof or the end of the comment block are
# encountered.
if line: line = fp.readline()
line = skip_to_nonblank(fp, line)
if not line or comment_end_pattern.match(line):
return line
# Remove initial ' * ' in first non-empty comment block line.
line = comment_line_lead_pattern.sub('', line)
# Now process possible parameters as long as no eof or the end of the
# param section is not reached (which could be triggered by anything that
# doesn't match a '@param:..." line, even the end of the comment block).
match = param_pattern.match(line)
while line and match:
description = match.group(2)
# First extract the annotations from the description and save them.
annotations = []
annotation_match = annotations_pattern.match(description)
if annotation_match:
annotations = get_annotation_list(annotation_match.group(1))
# Remove the annotations from the description
description = annotations_pattern.sub('', description)
# Default to appending lines to current parameter.
append_func = cur_doc.append_to_last_param
# See if the return has been included as part of the parameter
# section and make sure that lines are added to the GtkDoc return if
# so.
if match.group(1).lower() == "returns":
cur_doc.add_return(description, annotations)
append_func = cur_doc.append_to_return
# If not, just add it as a regular parameter.
else:
cur_doc.add_param(match.group(1), description, annotations)
# Now read lines and append them until next parameter, beginning of
# description (an empty line), the end of the comment block or eof.
line = fp.readline()
while line:
# Stop processing if end of comment block or a blank comment line
# is encountered.
if comment_empty_line_pattern.match(line) or \
comment_end_pattern.match(line):
break
# Remove initial ' * ' in comment block line.
line = comment_line_lead_pattern.sub('', line)
# Break from current param processing if a new one is
# encountered.
if param_pattern.match(line): break;
# Otherwise, just append the current line and get the next line.
append_func(line)
line = fp.readline()
# Re-evaluate match for while condition
match = param_pattern.match(line)
# End by returning the current line.
return line
# Having processed parameters, read the following lines into the description of
# the current doc block until the end of the comment block, the end of file or
# a return section is encountered.
def process_description(fp, line, cur_doc):
# First skip empty lines returning on eof or end of comment block.
line = skip_to_nonblank(fp, line)
if not line or comment_end_pattern.match(line):
return line
# Remove initial ' * ' in non-empty comment block line.
line = comment_line_lead_pattern.sub('', line)
# Also remove possible 'Description:' prefix.
if line[:12] == 'Description:': line = line[12:]
# Used to tell if the previous line was blank and a return section
# uncommonly marked with 'Returns ...' instead of 'Returns: ...' has
# started (assume it is non-empty to begin with).
prev_line = 'non-empty'
# Now read lines until a new section (like a return or a since section) is
# encountered.
while line:
# See if the description section has ended (if the line begins with
# 'Returns ...' and the previous line was empty -- this loop replaces
# empty lines with a newline).
if no_colon_return_pattern.match(line) and prev_line == '\n':
return line
# Or if one of the patterns of the final sections match
for pattern in final_section_patterns:
if pattern.match(line):
return line
# If not, append lines to description in the doc comment block.
cur_doc.append_to_description(line)
prev_line = line
line = fp.readline()
# Stop processing on eof or at the end of comment block.
if not line or comment_end_pattern.match(line):
return line
# Remove initial ' * ' in line so that the text can be appended to the
# description of the comment block and make sure that if the line is
# empty it be interpreted as a newline.
line = comment_line_lead_pattern.sub('', line)
if not line: line = '\n'
# Given the line that ended the description (the first line of one of the final
# sections) process the final sections ('Returns:', 'Since:', etc.) until the
# end of the comment block or eof. Return the line that ends the processing.
def process_final_sections(fp, line, cur_doc):
while line and not comment_end_pattern.match(line):
# Remove leading ' * ' from current non-empty comment line.
line = comment_line_lead_pattern.sub('', line)
# Temporarily append the no colon return pattern to the final section
# patterns now that the description has been processed. It will be
# removed after the for loop below executes so that future descriptions
# that begin with 'Returns ...' are not interpreted as a return
# section.
final_section_patterns.append(no_colon_return_pattern)
for pattern in final_section_patterns:
match = pattern.match(line)
if match:
if pattern == return_pattern or \
pattern == no_colon_return_pattern:
# Dealing with a 'Returns:' so first extract the
# annotations from the description and save them.
description = match.group(2)
annotations = []
annotation_match = \
annotations_pattern.match(description)
if annotation_match:
annotations = \
get_annotation_list(annotation_match.group(1))
# Remove the annotations from the description
description = annotations_pattern.sub('', description)
# Now add the return.
cur_doc.add_return(description, annotations)
# In case more lines need to be appended.
append_func = cur_doc.append_to_return
elif pattern == rename_to_pattern:
# Dealing with a 'Rename to:' section (GObjectIntrospection
# annotation) so no further lines will be appended but this
# single one (and only to the annotations).
append_func = None
cur_doc.add_annotation((match.group(1),
match.group(2)))
else:
# For all others ('Since:' and 'Deprecated:') just append
# the line to the description for now.
cur_doc.append_to_description(line)
# In case more lines need to be appended.
append_func = cur_doc.append_to_description
# Stop final section pattern matching for loop since a match
# has already been found.
break
# Remove the no colon return pattern (which was temporarily added in
# the just executed loop) from the list of final section patterns.
final_section_patterns.pop()
line = fp.readline()
# Now continue appending lines to current section until a new one is
# found or an eof or the end of the comment block is encountered.
finished = False
while not finished and line and \
not comment_end_pattern.match(line):
# Remove leading ' * ' from line and make sure that if it is empty,
# it be interpreted as a newline.
line = comment_line_lead_pattern.sub('', line)
if not line: line = '\n'
for pattern in final_section_patterns:
if pattern.match(line):
finished = True
break
# Break out of loop if a new section is found (determined in above
# inner loop).
if finished: break
# Now it's safe to append line.
if append_func: append_func(line)
# Get the next line to continue processing.
line = fp.readline()
return line
def parse_dir(dir, doc_dict):
for file in os.listdir(dir):
if file in ('.', '..'): continue
path = os.path.join(dir, file)
if os.path.isdir(path):
parse_dir(path, doc_dict)
if len(file) > 2 and file[-2:] == '.c':
sys.stderr.write("Processing " + path + '\n')
parse_file(open(path, 'r'), doc_dict)
def extract(dirs, doc_dict=None):
if not doc_dict: doc_dict = {}
for dir in dirs:
parse_dir(dir, doc_dict)
return doc_dict
tmpl_section_pattern = re.compile(r'^<!-- ##### (\w+) (\w+) ##### -->$')
def parse_tmpl(fp, doc_dict):
cur_doc = None
line = fp.readline()
while line:
match = tmpl_section_pattern.match(line)
if match:
cur_doc = None # new input shouldn't affect the old doc dict
sect_type = match.group(1)
sect_name = match.group(2)
if sect_type == 'FUNCTION':
cur_doc = doc_dict.get(sect_name)
if not cur_doc:
cur_doc = GtkDoc()
cur_doc.set_name(sect_name)
doc_dict[sect_name] = cur_doc
elif line == '<!-- # Unused Parameters # -->\n':
cur_doc = None # don't worry about unused params.
elif cur_doc:
if line[:10] == '@Returns: ':
if string.strip(line[10:]):
cur_doc.append_to_return(line[10:])
elif line[0] == '@':
pos = string.find(line, ':')
if pos >= 0:
cur_doc.append_to_named_param(line[1:pos], line[pos+1:])
else:
cur_doc.append_to_description(line)
else:
cur_doc.append_to_description(line)
line = fp.readline()
def extract_tmpl(dirs, doc_dict=None):
if not doc_dict: doc_dict = {}
for dir in dirs:
for file in os.listdir(dir):
if file in ('.', '..'): continue
path = os.path.join(dir, file)
if os.path.isdir(path):
continue
if len(file) > 2 and file[-2:] == '.sgml':
parse_tmpl(open(path, 'r'), doc_dict)
return doc_dict
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