Open Source Computer Vision Library https://opencv.org/
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

762 lines
26 KiB

import sys
from latexparser import latexparser, TexCmd
import distutils.dep_util
import os
import cPickle as pickle
import pyparsing as pp
import StringIO
from qfile import QOpen
from string import Template
# useful things for pyparsing
def returnList(x):
def listify(s, loc, toks):
return [toks]
x.setParseAction(listify)
return x
def returnTuple(x):
def listify(s, loc, toks):
return [tuple(toks)]
x.setParseAction(listify)
return x
def CommaList(word):
return returnList(pp.Optional(word + pp.ZeroOrMore(pp.Suppress(',') + word)))
def sl(s):
return pp.Suppress(pp.Literal(s))
import pythonapi
python_api = pythonapi.reader("../../modules/python/api")
class SphinxWriter:
def __init__(self, filename, language, abspath):
assert language in ['py', 'c', 'cpp']
self.language = language
self.abspath = abspath
os.path.abspath(os.path.dirname(filename))
self.f_index = QOpen(os.path.join(self.language, filename), 'wt')
self.f = self.f_index
self.f_chapter = None
self.f_section = None
self.indent = 0
self.state = None
self.envstack = []
self.tags = {}
self.errors = open('errors.%s' % language, 'wt')
self.unhandled_commands = set()
self.freshline = True
self.function_props = {}
self.covered = set() # covered functions, used for error report
self.description = ""
def write(self, s):
self.freshline = len(s) > 0 and (s[-1] == '\n')
self.f.write(s.replace('\n', '\n' + self.indent * " "))
def appendspace(self):
""" append a space to the output - if we're not at the start of a line """
if not self.freshline:
self.write(' ')
def doplain(self, s):
if (len(s) > 1) and (s[0] == '$' and s[-1] == '$') and self.state != 'math':
s = ":math:`%s`" % s[1:-1].strip()
elif self.state != 'math':
s.replace('\\_', '_')
if len(s) > 0 and s[-1] == '\n':
s = s[:-1]
if self.state == 'fpreamble':
self.description += s
else:
self.write(s)
def docmd(self, c):
if self.state == 'math':
if c.cmd != ']':
self.default_cmd(c)
else:
self.indent -= 1
self.state = None
self.write('\n\n')
else:
if c.cmd == '\n':
self.write('\\\n')
else:
if c.cmd == '[':
meth = self.cmd_gomath
else:
cname = "cmd_" + c.cmd
meth = getattr(self, cname, self.unrecognized_cmd)
meth(c)
def cmd_gomath(self, c):
self.state = 'math'
print >>self, "\n\n.. math::"
self.indent += 1
print >>self
def cmd_chapter(self, c):
filename = str(c.params[0]).lower().replace(' ', '_').replace('/','_')
self.f_index.write(" %s\n" % filename)
self.f_chapter = QOpen(os.path.join(self.language, filename + '.rst'), 'wt')
self.f_section = None
self.f = self.f_chapter
self.indent = 0
title = str(c.params[0])
print >>self, '*' * len(title)
print >>self, title
print >>self, '*' * len(title)
print >>self
self.chapter_intoc = False
def cmd_section(self, c):
filename = str(c.params[0]).lower().replace(' ', '_').replace('/','_')
if not self.chapter_intoc:
self.chapter_intoc = True
print >>self.f_chapter
print >>self.f_chapter, '.. toctree::'
print >>self.f_chapter, ' :maxdepth: 2'
print >>self.f_chapter
self.f_chapter.write(" %s\n" % filename)
self.f_section = QOpen(os.path.join(self.language, filename + '.rst'), 'wt')
self.f = self.f_section
self.indent = 0
title = self.render(c.params[0].str)
print >>self, title
print >>self, '=' * len(title)
print >>self
print >>self, '.. highlight:: %s' % {'c': 'c', 'cpp': 'cpp', 'py': 'python'}[self.language]
print >>self
def cmd_subsection(self, c):
print >>self
nm = str(c.params[0])
print >>self, nm
print >>self, '-' * len(nm)
print >>self
self.function_props = {}
self.covered.add(nm)
def cmd_includegraphics(self, c):
filename = os.path.join('..', '..', str(c.params[0]))
print >>self, "\n\n.. image:: %s\n\n" % filename
def cmd_cvCppCross(self, c):
self.write(":func:`%s`" % str(c.params[0]))
def cmd_cvCPyCross(self, c):
self.write(":ref:`%s`" % str(c.params[0]))
def cmd_cross(self, c):
self.write(":ref:`%s`" % str(c.params[0]))
def cmd_cvCross(self, c):
self.write(":ref:`%s`" % str(c.params[0]))
def cmd_cvclass(self, c):
self.indent = 0
self.state = None
nm = self.render(list(c.params[0].str))
print >>self, "\n.. index:: %s\n" % nm
print >>self, ".. _%s:\n" % nm
print >>self, nm
print >>self, '-' * len(nm)
print >>self
if self.language == 'py':
print >>self, ".. class:: " + nm + "\n"
else:
print >>self, ".. ctype:: " + nm + "\n"
print >>self
self.addtag(nm, c)
self.state = 'class'
def cmd_index(self, c):
pass
def cmd_hyperref(self, c):
pass
def cmd_footnote(self, c):
pass
def cmd_textasciitilde(self, c):
self.write('~')
def addtag(self, nm, c):
if nm == "":
self.report_error(c, "empty name")
self.tags[nm] = "%s\t%s\t%d" % (nm, os.path.join(os.getcwd(), c.filename), c.lineno)
def cmd_cvfunc(self, c):
self.cmd_cvCPyFunc(c)
def cmd_cvCPyFunc(self, c):
self.indent = 0
nm = self.render(c.params[0].str)
print >>self, "\n.. index:: %s\n" % nm
print >>self, ".. _%s:\n" % nm
print >>self, nm
print >>self, '-' * len(nm)
print >>self
self.state = 'fpreamble'
if self.description != "":
self.report_error(c, "overflow - preceding cvfunc (starting %s) not terminated?" % repr(self.description[:30]))
self.description = ""
self.addtag(nm, c)
self.function_props = {'name' : nm}
self.covered.add(nm)
def cmd_cvCppFunc(self, c):
self.indent = 0
nm = self.render(c.params[0].str)
print >>self, "\n.. index:: %s\n" % nm
if 0:
print >>self, "\n.. _%s:\n" % nm
print >>self
print >>self, 'cv::%s' % nm
print >>self, '-' * (4+len(nm))
print >>self
self.state = 'fpreamble'
if self.description != "":
self.report_error(c, "overflow - preceding cvfunc (starting %s) not terminated?" % repr(self.description[:30]))
self.description = ""
self.addtag(nm, c)
self.function_props = {'name' : nm}
self.covered.add(nm)
def cmd_cvdefC(self, c):
if self.language != 'c':
return
s = str(c.params[0]).replace('\\_', '_')
s = s.replace('\\par', '')
s = s.replace('\n', ' ')
s = s.replace(';', '')
self.indent = 0
for proto in s.split('\\newline'):
if proto.strip() != "":
print >>self, "\n\n.. cfunction:: " + proto.strip() + "\n"
# print >>self, "=", repr(c.params[0].str)
print >>self, ' ' + self.description
self.description = ""
print >>self
self.state = None
self.function_props['defpy'] = s
def cmd_cvdefCpp(self, c):
if self.language != 'cpp':
return
s = str(c.params[0]).replace('\\_', '_')
s = s.replace('\\par', '')
s = s.replace('\n', ' ')
s = s.replace(';', '')
self.indent = 0
for proto in s.split('\\newline'):
if proto.strip() != "":
print >>self, "\n\n.. cfunction:: " + proto.strip() + "\n"
# print >>self, "=", repr(c.params[0].str)
if self.description != "":
print >>self, ' ' + self.description
else:
self.report_error(c, 'empty description')
self.description = ""
print >>self
self.state = None
self.function_props['defpy'] = s
def cmd_cvdefPy(self, c):
if self.language != 'py':
return
s = str(c.params[0]).replace('\\_', '_')
self.indent = 0
print >>self, ".. function:: " + s + "\n"
# print >>self, "=", repr(c.params[0].str)
print >>self, ' ' + self.description
print >>self
self.description = ""
self.state = None
self.function_props['defpy'] = s
pp.ParserElement.setDefaultWhitespaceChars(" \n\t")
ident = pp.Word(pp.alphanums + "_.+-")
ident_or_tuple = ident | (sl('(') + CommaList(ident) + sl(')'))
initializer = ident_or_tuple
arg = returnList(ident + pp.Optional(sl('=') + initializer))
decl = ident + sl('(') + CommaList(arg) + sl(')') + sl("->") + ident_or_tuple + pp.StringEnd()
try:
l = decl.parseString(s)
if str(l[0]) != self.function_props['name']:
self.report_error(c, 'Decl "%s" does not match function name "%s"' % (str(l[0]), self.function_props['name']))
self.function_props['signature'] = l
if l[0] in python_api:
(ins, outs) = python_api[l[0]]
ins = [a for a in ins if not 'O' in a.flags]
if outs != None:
outs = outs.split(',')
if len(ins) != len(l[1]):
self.report_error(c, "function %s documented arity %d, code arity %d" % (l[0], len(l[1]), len(ins)))
if outs == None:
if l[2] != 'None':
self.report_error(c, "function %s documented None, but code has %s" % (l[0], l[2]))
else:
if isinstance(l[2], str):
doc_outs = [l[2]]
else:
doc_outs = l[2]
if len(outs) != len(doc_outs):
self.report_error(c, "function %s output code tuple %d, documented %d" % (l[0], len(outs), len(doc_outs)))
else:
# self.report_error(c, "function %s documented but not found in code" % l[0])
pass
except pp.ParseException, pe:
self.report_error(c, str(pe))
print s
print pe
def report_error(self, c, msg):
print >>self.errors, "%s:%d: [%s] Error %s" % (c.filename, c.lineno, self.language, msg)
def cmd_begin(self, c):
if len(c.params) == 0:
self.report_error(c, "Malformed begin")
return
self.write('\n')
s = str(c.params[0])
self.envstack.append((s, (c.filename, c.lineno)))
if s == 'description':
if self.language == 'py' and 'name' in self.function_props and not 'defpy' in self.function_props:
self.report_error(c, "No cvdefPy for function %s" % self.function_props['name'])
self.indent += 1
elif s == 'lstlisting':
# Set indent to zero while collecting code; so later write will not double-indent
self.saved_f = self.f
self.saved_indent = self.indent
self.f = StringIO.StringIO()
self.indent = 0
elif s in ['itemize', 'enumerate']:
self.indent += 1
elif s == 'tabular':
self.f = StringIO.StringIO()
else:
self.default_cmd(c)
def cmd_item(self, c):
if len(self.ee()) == 0:
self.report_error(c, "item without environment")
return
self.indent -= 1
markup = {'itemize' : '*', 'enumerate' : '#.', 'description' : '*'}[self.ee()[-1]]
if len(c.args) > 0:
markup += " " + self.render([c.args[0].str])
if len(c.params) > 0:
markup += " " + self.render(c.params[0].str)
self.write("\n\n" + markup)
self.indent += 1
def cmd_end(self, c):
if len(c.params) != 1:
self.report_error(c, "Malformed end")
return
if len(self.envstack) == 0:
self.report_error(c, "end with no env")
return
self.write('\n')
s = str(c.params[0])
if self.envstack == []:
print "Cannot pop at", (c.filename, c.lineno)
if self.envstack[-1][0] != s:
self.report_error(c, "end{%s} does not match current stack %s" % (s, repr(self.envstack)))
self.envstack.pop()
if s == 'description':
self.indent -= 1
if self.indent == 0:
self.function_props['done'] = True
elif s in ['itemize', 'enumerate']:
self.indent -= 1
elif s == 'tabular':
tabletxt = self.f.getvalue()
self.f = self.f_section
self.f.write(self.handle_table(tabletxt))
elif s == 'lstlisting':
listing = self.f.getvalue()
self.f = self.saved_f
self.indent = self.saved_indent
print >>self
if self.language == 'py':
ckeys = ['#define', 'void', '#include', ';\n']
found = [repr(k) for k in ckeys if k in listing]
if len(found) > 0:
self.report_error(c, 'listing is probably C, found %s' % ",".join(found))
if (self.language == 'py') and ('>>>' in listing):
print >>self, "\n.. doctest::\n"
else:
print >>self, "\n::\n"
self.indent += 1
print >>self
self.write(listing)
self.indent -= 1
print >>self
print >>self
print >>self, ".." # otherwise a following :param: gets treated as more listing
elif s == 'document':
pass
else:
self.default_cmd(c)
def cmd_label(self, c):
pass
def cmd_lstinputlisting(self, c):
s = str(c.params[0])
print >>self.f, ".. include:: %s" % os.path.normpath(os.path.join(self.abspath, s))
print >>self.f, " :literal:"
print >>self.f
# Conditionals
def cmd_cvC(self, c):
self.do_conditional(['c'], c)
def cmd_cvCpp(self, c):
self.do_conditional(['cpp'], c)
def cmd_cvPy(self, c):
self.do_conditional(['py'], c)
def cmd_cvCPy(self, c):
self.do_conditional(['c', 'py'], c)
def do_conditional(self, langs, c):
if self.language in langs:
self.doL(c.params[0].str, False)
def render(self, L):
""" return L rendered as a string """
save = self.f
self.f = StringIO.StringIO()
for x in L:
if isinstance(x, TexCmd):
self.docmd(x)
else:
self.doplain(x)
r = self.f.getvalue()
self.f = save
return r
def cmd_cvarg(self, c):
if len(c.params) != 2:
self.report_error(c, "Malformed cvarg")
return
e = self.ee()
if self.state == 'class':
nm = self.render(c.params[0].str)
if '->' in nm:
print >>self, "\n\n.. method:: %s\n\n" % nm
else:
print >>self, "\n\n.. attribute:: %s\n\n" % nm
self.indent += 1
print >>self
self.doL(c.params[1].str, False)
self.indent -= 1
print >>self
return
is_func_arg = (e == ['description']) and (not 'done' in self.function_props)
if is_func_arg:
nm = self.render(c.params[0].str)
print >>self, '\n:param %s: ' % nm,
type = None # Try to figure out the argument type
# For now, multiple args get a pass
if (self.language == 'py') and ('signature' in self.function_props) and (not ',' in nm):
sig = self.function_props['signature']
argnames = [a[0] for a in sig[1]]
if isinstance(sig[2], str):
resnames = [sig[2]]
else:
resnames = list(sig[2])
if not nm in argnames + resnames:
self.report_error(c, "Argument %s is not mentioned in signature (%s) (%s)" % (nm, ", ".join(argnames), ", ".join(resnames)))
api = python_api.get(self.function_props['name'], None)
if api:
(ins, outs) = api
adict = dict([(a.nm, a) for a in ins])
arg = adict.get(nm, None)
if arg:
type = arg.ty
else:
self.report_error(c, 'cannot find arg %s in code' % nm)
elif len(e) > 0 and e[-1] == 'description':
print >>self, '\n* **%s** ' % self.render(c.params[0].str),
else:
self.report_error(c, "unexpected env (%s) for cvarg" % ",".join(e))
self.indent += 1
self.doL(c.params[1].str, False)
self.indent -= 1
print >>self
if is_func_arg and type:
type = type.replace('*', '')
translate = {
"ints" : "sequence of int",
"floats" : "sequence of int",
"IplImages" : "sequence of :class:`IplImage`",
"double" : "float",
"int" : "int",
"float" : "float",
"char" : "str",
"cvarrseq" : ":class:`CvArr` or :class:`CvSeq`",
"CvPoint2D32fs" : "sequence of (float, float)",
"pts_npts_contours" : "list of lists of (x,y) pairs",
"CvSeqOfCvSURFPoint" : ":class:`CvSeq` of :class:`CvSURFPoint`",
"CvSeqOfCvSURFDescriptor" : ":class:`CvSeq` of list of float",
"cvpoint2d32f_count" : "int",
"ranges" : "list of tuples of ints",
"PyObject" : "object",
"edgeorpoint" : ":class:`CvSubdiv2DEdge`, :class:`CvSubdiv2DPoint`",
}
print >>self, "\n:type %s: %s" % (nm, translate.get(type, ':class:`%s`' % type))
def cmd_genc(self, c): pass
def cmd_genpy(self, c): pass
def cmd_author(self, c): pass
def cmd_date(self, c): pass
def cmd_def(self, c): pass
def cmd_documentclass(self, c): pass
def cmd_maketitle(self, c): pass
def cmd_newcommand(self, c): pass
def cmd_newline(self, c): pass
def cmd_setcounter(self, c): pass
def cmd_tableofcontents(self, c): pass
def cmd_targetlang(self, c): pass
def cmd_usepackage(self, c): pass
def cmd_title(self, c): pass
def cmd_par(self, c): pass
def cmd_hline(self, c):
print >>self, "\\hline"
def cmd_cite(self, c):
# XXX jcb - these references are crashing Sphinx 0.65
# self.write("[%s]_" % str(c.params[0]))
self.write("%s" % str(c.params[0]))
def cmd_href(self, c):
if len(c.params) == 2:
self.write("`%s <%s>`_" % (str(c.params[1]), self.render(c.params[0].str)))
else:
self.report_error(c, "href should have two params")
def cmd_url(self, c):
self.write(str(c.params[0]))
def cmd_emph(self, c):
self.write("*" + self.render(c.params[0].str) + "*")
def cmd_textit(self, c):
self.write("*" + self.render(c.params[0].str) + "*")
def cmd_textbf(self, c):
self.write("**" + self.render(c.params[0].str) + "**")
def cmd_texttt(self, c):
self.write("``" + self.render(c.params[0].str) + "``")
def cmd_code(self, c):
self.cmd_texttt(c)
def default_cmd(self, c):
if self.f == self.f_section:
self.write(repr(c))
def unrecognized_cmd(self, c):
# if writing the index or chapter heading, anything goes
if not self.f in [self.f_index, self.f_chapter]:
self.write(c.cmd)
if (not 'lstlisting' in self.ee()) and (not c.cmd in "#{}%&*\\_^"):
if not c.cmd in self.unhandled_commands:
self.report_error(c, 'unhandled command %s' % c.cmd)
self.unhandled_commands.add(c.cmd)
def doL(self, L, newlines = True):
for x in L:
pos0 = self.f.tell()
if isinstance(x, TexCmd):
self.docmd(x)
else:
if 'lstlisting' in self.ee() or not newlines:
self.doplain(x)
else:
self.doplain(x.lstrip())
pos1 = self.f.tell()
if pos0 != pos1:
if self.state in ['math'] or not newlines:
self.appendspace()
else:
if not 'lstlisting' in self.ee():
self.write('\n')
def handle_table(self, s):
oneline = s.replace('\n', ' ').strip()
rows = [r.strip() for r in oneline.split('\\hline')]
tab = []
for r in rows:
if r != "":
cols = [c.strip() for c in r.split('&')]
tab.append(cols)
widths = [max([len(r[i]) for r in tab]) for i in range(len(tab[0]))]
st = "" # Sphinx table
if 0:
sep = "+" + "+".join(["-" * w for w in widths]) + "+"
st += sep + '\n'
for r in tab:
st += "|" + "|".join([c.center(w) for (c, w) in zip(r, widths)]) + "|" + '\n'
st += sep + '\n'
st = '.. table::\n\n'
sep = " ".join(["=" * w for w in widths])
st += ' ' + sep + '\n'
for y,r in enumerate(tab):
st += ' ' + " ".join([c.ljust(w) for (c, w) in zip(r, widths)]) + '\n'
if y == 0:
st += ' ' + sep + '\n'
st += ' ' + sep + '\n'
return st
def ee(self):
""" Return tags of the envstack. envstack[0] is 'document', so skip it """
return [n for (n,_) in self.envstack[1:]]
def get_tags(self):
return self.tags
def close(self):
if self.envstack != []:
print >>self.errors, "Error envstack not empty at end of doc: " + repr(self.envstack)
print >>self.errors, "Unrecognized commands:"
for c in sorted(self.unhandled_commands):
print >>self.errors, "\n " + c
print >>self.errors
if self.language == 'py':
print >>self.errors, "The following functions are undocumented"
for f in sorted(set(python_api) - self.covered):
print >>self.errors, ' ', f
print >>self.f_index, " bibliography"
print >>self.f_index, """
Indices and tables
==================
* :ref:`genindex`
* :ref:`search`
"""
# Quick and dirty bibtex parser
def parseBib(filename, language):
pp.ParserElement.setDefaultWhitespaceChars(" \n\t")
entry = returnList(pp.Word('@', pp.alphanums) + sl('{') +
pp.Word(pp.alphanums + "_") + sl(',') +
CommaList(returnTuple(pp.Word(pp.alphanums) + sl('=') + pp.QuotedString('{', endQuoteChar = '}'))) +
pp.Suppress(pp.Optional(',')) +
sl('}'))
r = (pp.ZeroOrMore(entry) | pp.Suppress('#' + pp.ZeroOrMore(pp.CharsNotIn('\n'))) + pp.StringEnd()).parseFile(filename)
bibliography = QOpen(os.path.join(language, "bibliography.rst"), 'wt')
print >>bibliography, "Bibliography"
print >>bibliography, "============"
print >>bibliography
for _,e in sorted([(str(x[1]), x) for x in r]):
(etype, tag, attrs) = str(e[0][1:]), str(e[1]), dict([(str(a), str(b)) for (a,b) in e[2]])
representations = {
'article' : '$author, "$title". $journal $volume $number, pp $pages ($year)',
'inproceedings' : '$author "$title", $booktitle, $year',
'misc' : '$author "$title", $year',
'techreport' : '$author "$title", $edition, $edition ($year)',
}
if etype in representations:
if 0:
print >>bibliography, tag
print >>bibliography, "^" * len(tag)
print >>bibliography
print >>bibliography, ".. [%s] %s" % (tag, Template(representations[etype]).safe_substitute(attrs))
print >>bibliography
bibliography.close()
if 1:
fulldoc = latexparser(sys.argv[1])
abspath = os.path.abspath(os.path.dirname(sys.argv[1]))
raw = open('raw.full', 'w')
for x in fulldoc:
print >>raw, repr(x)
raw.close()
# Filter on target language
def preprocess_conditionals(fd, conditionals):
r = []
ifstack = []
for x in fd:
if isinstance(x, TexCmd):
ll = x.cmd.rstrip()
loc = (x.filename, x.lineno)
if ll.startswith("if"):
# print " " * len(ifstack), '{', loc
ifstack.append((conditionals.get(ll[2:], False), loc))
elif ll.startswith("else"):
ifstack[-1] = (not ifstack[-1][0], ifstack[-1][1])
elif ll.startswith("fi"):
ifstack.pop()
# print " " * len(ifstack), '}', loc
elif not False in [p for (p,_) in ifstack]:
r.append(x)
else:
if not False in [p for (p,_) in ifstack]:
r.append(x)
if ifstack != []:
print "unterminated if", ifstack
sys.exit(0)
return r
tags = {}
for language in sys.argv[2:]:
doc = preprocess_conditionals(fulldoc, {
'C' : language=='c',
'Python' : language=='py',
'Py' : language=='py',
'CPy' : (language=='py' or language == 'c'),
'Cpp' : language=='cpp',
'plastex' : True})
raw = open('raw.%s' % language, 'w')
for x in doc:
print >>raw, repr(x)
raw.close()
sr = SphinxWriter('index.rst', language, abspath)
print >>sr, """
OpenCV |version| %s Reference
=================================
The OpenCV Wiki is here: http://opencv.willowgarage.com/
Contents:
.. toctree::
:maxdepth: 2
""" % {'c': 'C', 'cpp': 'C++', 'py': 'Python'}[language]
sr.doL(doc)
sr.close()
parseBib('../opencv.bib', language)
tags.update(sr.get_tags())
open('TAGS', 'w').write("\n".join(sorted(tags.values())) + "\n")