#!/usr/bin/env python from __future__ import print_function import os, sys, re, string, fnmatch allmodules = ["core", "flann", "imgproc", "ml", "highgui", "video", "features2d", "calib3d", "objdetect", "legacy", "contrib", "cuda", "androidcamera", "java", "python", "stitching", "ts", "photo", "nonfree", "videostab", "softcascade", "superres"] verbose = False show_warnings = True show_errors = True show_critical_errors = True params_blacklist = { "fromarray" : ("object", "allowND"), # python only function "reprojectImageTo3D" : ("ddepth"), # python only argument "composeRT" : ("d*d*"), # wildchards in parameter names are not supported by this parser "CvSVM::train_auto" : ("\\*Grid"), # wildchards in parameter names are not supported by this parser "error" : "args", # parameter of supporting macro "getConvertElem" : ("from", "cn", "to", "beta", "alpha"), # arguments of returned functions "gpu::swapChannels" : ("dstOrder") # parameter is not parsed correctly by the hdr_parser } ERROR_001_SECTIONFAILURE = 1 WARNING_002_HDRWHITESPACE = 2 ERROR_003_PARENTHESES = 3 WARNING_004_TABS = 4 ERROR_005_REDEFENITIONPARAM = 5 ERROR_006_REDEFENITIONFUNC = 6 WARNING_007_UNDOCUMENTEDPARAM = 7 WARNING_008_MISSINGPARAM = 8 WARNING_009_HDRMISMATCH = 9 ERROR_010_NOMODULE = 10 ERROR_011_EOLEXPECTED = 11 params_mapping = { "composeRT" : { "dr3dr1" : "d*d*", "dr3dr2" : "d*d*", "dr3dt1" : "d*d*", "dr3dt2" : "d*d*", "dt3dr1" : "d*d*", "dt3dr2" : "d*d*", "dt3dt1" : "d*d*", "dt3dt2" : "d*d*" }, "CvSVM::train_auto" : { "coeffGrid" : "\\*Grid", "degreeGrid" : "\\*Grid", "gammaGrid" : "\\*Grid", "nuGrid" : "\\*Grid", "pGrid" : "\\*Grid" } } known_text_sections_names = ["Appendix", "Results", "Prerequisites", "Introduction", "Description"] class DeclarationParser(object): def __init__(self, line=None): if line is None: self.fdecl = "" self.lang = "" self.balance = 0 return self.lang = self.getLang(line) assert self.lang is not None self.fdecl = line[line.find("::")+2:].strip() self.balance = self.fdecl.count("(") - self.fdecl.count(")") assert self.balance >= 0 def append(self, line): self.fdecl += line self.balance = self.fdecl.count("(") - self.fdecl.count(")") def isready(self): return self.balance == 0 @classmethod def getLang(cls, line): if line.startswith(".. ocv:function::"): return "C++" if line.startswith(".. ocv:cfunction::"): return "C" if line.startswith(".. ocv:pyfunction::"): return "Python2" if line.startswith(".. ocv:jfunction::"): return "Java" return None def hasDeclaration(self, line): return self.getLang(line) is not None class ParamParser(object): def __init__(self, line=None): if line is None: self.prefix = "" self.name = "" self.comment = "" self.active = False return offset = line.find(":param") assert offset > 0 self.prefix = line[:offset] assert self.prefix == " "*len(self.prefix), ":param definition should be prefixed with spaces" line = line[offset + 6:].lstrip() name_end = line.find(":") assert name_end > 0 self.name = line[:name_end] self.comment = line[name_end+1:].lstrip() self.active = True def append(self, line): assert self.active if (self.hasDeclaration(line)): self.active = False elif line.startswith(self.prefix) or not line: self.comment += "\n" + line.lstrip() else: self.active = False @classmethod def hasDeclaration(cls, line): return line.lstrip().startswith(":param") class RstParser(object): def __init__(self, cpp_parser): self.cpp_parser = cpp_parser self.definitions = {} self.sections_parsed = 0 self.sections_total = 0 self.sections_skipped = 0 def parse(self, module_name, module_path=None): if module_path is None: module_path = "../" + module_name doclist = [] for root, dirs, files in os.walk(os.path.join(module_path,"doc")): for filename in fnmatch.filter(files, "*.rst"): doclist.append(os.path.join(root, filename)) for doc in doclist: self.parse_rst_file(module_name, doc) def parse_section_safe(self, module_name, section_name, file_name, lineno, lines): try: self.parse_section(module_name, section_name, file_name, lineno, lines) except AssertionError as args: if show_errors: print("RST parser error E%03d: assertion in \"%s\" at %s:%s" % (ERROR_001_SECTIONFAILURE, section_name, file_name, lineno), file=sys.stderr) print(" Details: %s" % args, file=sys.stderr) def parse_section(self, module_name, section_name, file_name, lineno, lines): self.sections_total += 1 # skip sections having whitespace in name #if section_name.find(" ") >= 0 and section_name.find("::operator") < 0: if (section_name.find(" ") >= 0 and not bool(re.match(r"(\w+::)*operator\s*(\w+|>>|<<|\(\)|->|\+\+|--|=|==|\+=|-=)", section_name)) ) or section_name.endswith(":"): if show_errors: print("RST parser warning W%03d: SKIPPED: \"%s\" File: %s:%s" % (WARNING_002_HDRWHITESPACE, section_name, file_name, lineno), file=sys.stderr) self.sections_skipped += 1 return func = {} func["name"] = section_name func["file"] = file_name func["line"] = lineno func["module"] = module_name # parse section name section_name = self.parse_namespace(func, section_name) class_separator_idx = section_name.find("::") if class_separator_idx > 0: func["class"] = section_name[:class_separator_idx] func["method"] = section_name[class_separator_idx+2:] else: func["method"] = section_name capturing_seealso = False skip_code_lines = False expected_brief = True was_code_line = False fdecl = DeclarationParser() pdecl = ParamParser() ll = None for l in lines: # read tail of function/method declaration if needed if not fdecl.isready(): fdecl.append(ll) if fdecl.isready(): self.add_new_fdecl(func, fdecl) continue # continue capture seealso if capturing_seealso: if not l or l.startswith(" "): seealso = func.get("seealso", []) seealso.extend(l.split(",")) func["seealso"] = seealso continue else: capturing_seealso = False ll = l.strip() if ll == "..": expected_brief = False skip_code_lines = False continue # skip lines if line-skipping mode is activated if skip_code_lines: if not l: continue if not l.startswith(" "): skip_code_lines = False if ll.startswith(".. code-block::") or ll.startswith(".. image::"): skip_code_lines = True continue # todo: parse structure members; skip them for now if ll.startswith(".. ocv:member::"): #print ll skip_code_lines = True continue #ignore references (todo: collect them) if l.startswith(".. ["): continue if ll.startswith(".. "): expected_brief = False elif ll.endswith("::"): # turn on line-skipping mode for code fragments #print ll skip_code_lines = True ll = ll[:len(ll)-2] # continue param parsing (process params after processing .. at the beginning of the line and :: at the end) if pdecl.active: pdecl.append(l) if pdecl.active: continue else: self.add_new_pdecl(func, pdecl) # do not continue - current line can contain next parameter definition # parse ".. seealso::" blocks if ll.startswith(".. seealso::"): if ll.endswith(".. seealso::"): capturing_seealso = True else: seealso = func.get("seealso", []) seealso.extend(ll[ll.find("::")+2:].split(",")) func["seealso"] = seealso continue # skip ".. index::" if ll.startswith(".. index::"): continue # parse class & struct definitions if ll.startswith(".. ocv:class::"): func["class"] = ll[ll.find("::")+2:].strip() if "method" in func: del func["method"] func["isclass"] = True expected_brief = True continue if ll.startswith(".. ocv:struct::"): func["class"] = ll[ll.find("::")+2:].strip() if "method" in func: del func["method"] func["isstruct"] = True expected_brief = True continue # parse function/method definitions if fdecl.hasDeclaration(ll): fdecl = DeclarationParser(ll) if fdecl.isready(): self.add_new_fdecl(func, fdecl) continue # parse parameters if pdecl.hasDeclaration(l): pdecl = ParamParser(l) continue # record brief description if expected_brief: func["brief"] = func.get("brief", "") + "\n" + ll if skip_code_lines: expected_brief = False # force end brief if code block begins continue # record other lines as long description if (skip_code_lines): ll = ll.replace("/*", "/ *") ll = ll.replace("*/", "* /") if (was_code_line): func["long"] = func.get("long", "") + "\n" + ll + "\n" else: was_code_line = True func["long"] = func.get("long", "") + ll +"\n\n\n // C++ code:\n\n" else: if (was_code_line): func["long"] = func.get("long", "") + "\n" + ll + "\n\n" was_code_line = False else: func["long"] = func.get("long", "") + "\n" + ll # endfor l in lines if fdecl.balance != 0: if show_critical_errors: print("RST parser error E%03d: invalid parentheses balance in \"%s\" at %s:%s" % (ERROR_003_PARENTHESES, section_name, file_name, lineno), file=sys.stderr) return # save last parameter if needed if pdecl.active: self.add_new_pdecl(func, pdecl) # add definition to list func = self.normalize(func) if self.validate(func): self.definitions[func["name"]] = func self.sections_parsed += 1 if verbose: self.print_info(func) elif func: if func["name"] in known_text_sections_names: if show_errors: print("RST parser warning W%03d: SKIPPED: \"%s\" File: %s:%s" % (WARNING_002_HDRWHITESPACE, section_name, file_name, lineno), file=sys.stderr) self.sections_skipped += 1 elif show_errors: self.print_info(func, True, sys.stderr) def parse_rst_file(self, module_name, doc): doc = os.path.abspath(doc) lineno = 0 whitespace_warnings = 0 max_whitespace_warnings = 10 lines = [] flineno = 0 fname = "" prev_line = None df = open(doc, "rt") for l in df.readlines(): lineno += 1 # handle tabs if l.find("\t") >= 0: whitespace_warnings += 1 if whitespace_warnings <= max_whitespace_warnings and show_warnings: print("RST parser warning W%03d: tab symbol instead of space is used at %s:%s" % (WARNING_004_TABS, doc, lineno), file=sys.stderr) l = l.replace("\t", " ") # handle first line if prev_line == None: prev_line = l.rstrip() continue ll = l.rstrip() if len(prev_line) > 0 and len(ll) >= len(prev_line) and (ll == "-" * len(ll) or ll == "+" * len(ll) or ll == "=" * len(ll)): # new function candidate if len(lines) > 1: self.parse_section_safe(module_name, fname, doc, flineno, lines[:len(lines)-1]) lines = [] flineno = lineno-1 fname = prev_line.strip() elif flineno > 0: lines.append(ll) prev_line = ll df.close() # don't forget about the last function section in file!!! if len(lines) > 1: self.parse_section_safe(module_name, fname, doc, flineno, lines) @classmethod def parse_namespace(cls, func, section_name): known_namespaces = ["cv", "gpu", "flann", "superres"] l = section_name.strip() for namespace in known_namespaces: if l.startswith(namespace + "::"): func["namespace"] = namespace return l[len(namespace)+2:] return section_name def add_new_fdecl(self, func, decl): if decl.fdecl.endswith(";"): print("RST parser error E%03d: unexpected semicolon at the end of declaration in \"%s\" at %s:%s" \ % (ERROR_011_EOLEXPECTED, func["name"], func["file"], func["line"]), file=sys.stderr) decls = func.get("decls", []) if (decl.lang == "C++" or decl.lang == "C"): rst_decl = self.cpp_parser.parse_func_decl_no_wrap(decl.fdecl) decls.append( [decl.lang, decl.fdecl, rst_decl] ) else: decls.append( [decl.lang, decl.fdecl] ) func["decls"] = decls @classmethod def add_new_pdecl(cls, func, decl): params = func.get("params", {}) if decl.name in params: if show_errors: #check black_list if decl.name not in params_blacklist.get(func["name"], []): print("RST parser error E%03d: redefinition of parameter \"%s\" in \"%s\" at %s:%s" \ % (ERROR_005_REDEFENITIONPARAM, decl.name, func["name"], func["file"], func["line"]), file=sys.stderr) else: params[decl.name] = decl.comment func["params"] = params def print_info(self, func, skipped=False, out = sys.stdout): print(file=out) if skipped: print("SKIPPED DEFINITION:", file=out) print("name: %s" % (func.get("name","~empty~")), file=out) print("file: %s:%s" % (func.get("file","~empty~"), func.get("line","~empty~")), file=out) print("is class: %s" % func.get("isclass", False), file=out) print("is struct: %s" % func.get("isstruct", False), file=out) print("module: %s" % func.get("module","~unknown~"), file=out) print("namespace: %s" % func.get("namespace", "~empty~"), file=out) print("class: %s" % (func.get("class","~empty~")), file=out) print("method: %s" % (func.get("method","~empty~")), file=out) print("brief: %s" % (func.get("brief","~empty~")), file=out) if "decls" in func: print("declarations:", file=out) for d in func["decls"]: print(" %7s: %s" % (d[0], re.sub(r"[ ]+", " ", d[1])), file=out) if "seealso" in func: print("seealso: ", func["seealso"], file=out) if "params" in func: print("parameters:", file=out) for name, comment in func["params"].items(): print("%23s: %s" % (name, comment), file=out) print("long: %s" % (func.get("long","~empty~")), file=out) print(file=out) def validate(self, func): if func.get("decls", None) is None: if not func.get("isclass", False) and not func.get("isstruct", False): return False if func["name"] in self.definitions: if show_errors: print("RST parser error E%03d: \"%s\" from: %s:%s is already documented at %s:%s" \ % (ERROR_006_REDEFENITIONFUNC, func["name"], func["file"], func["line"], self.definitions[func["name"]]["file"], self.definitions[func["name"]]["line"]), file=sys.stderr) return False return self.validateParams(func) def validateParams(self, func): documentedParams = list(func.get("params", {}).keys()) params = [] for decl in func.get("decls", []): if len(decl) > 2: args = decl[2][3] # decl[2] -> [ funcname, return_ctype, [modifiers], [args] ] for arg in args: # arg -> [ ctype, name, def val, [mod], argno ] if arg[0] != "...": params.append(arg[1]) params = list(set(params))#unique # 1. all params are documented for p in params: if p not in documentedParams and show_warnings: print("RST parser warning W%03d: parameter \"%s\" of \"%s\" is undocumented. %s:%s" % (WARNING_007_UNDOCUMENTEDPARAM, p, func["name"], func["file"], func["line"]), file=sys.stderr) # 2. only real params are documented for p in documentedParams: if p not in params and show_warnings: if p not in params_blacklist.get(func["name"], []): print("RST parser warning W%03d: unexisting parameter \"%s\" of \"%s\" is documented at %s:%s" % (WARNING_008_MISSINGPARAM, p, func["name"], func["file"], func["line"]), file=sys.stderr) return True def normalize(self, func): if not func: return func fnname = func["name"] fnname = self.normalizeText(fnname) fnname = re.sub(r'_\?D$', "_nD", fnname) # tailing _?D can be mapped to _nD fnname = re.sub(r'\?D$', "ND", fnname) # tailing ?D can be mapped to ND fnname = re.sub(r'\(s\)$', "s", fnname) # tailing (s) can be mapped to s func["name"] = fnname if "method" in func: func["method"] = self.normalizeText(func["method"]) if "class" in func: func["class"] = self.normalizeText(func["class"]) if "brief" in func: func["brief"] = self.normalizeText(func.get("brief", None)) if not func["brief"]: del func["brief"] if "long" in func: func["long"] = self.normalizeText(func.get("long", None)) if not func["long"]: del func["long"] if "decls" in func: func["decls"].sort() if "params" in func: params = {} for name, comment in func["params"].items(): cmt = self.normalizeText(comment) if cmt: params[name] = cmt # expand some wellknown params pmap = params_mapping.get(fnname) if pmap: for name, alias in pmap.items(): params[name] = params[alias] func["params"] = params if "seealso" in func: seealso = [] for see in func["seealso"]: item = self.normalizeText(see.rstrip(".")).strip("\"") if item and (item.find(" ") < 0 or item.find("::operator") > 0): seealso.append(item) func["seealso"] = list(set(seealso)) if not func["seealso"]: del func["seealso"] # special case for old C functions - section name should omit "cv" prefix if not func.get("isclass", False) and not func.get("isstruct", False): self.fixOldCFunctionName(func) return func def fixOldCFunctionName(self, func): if not "decls" in func: return fname = None for decl in func["decls"]: if decl[0] != "C" and decl[0] != "Python1": return if decl[0] == "C": fname = decl[2][0] if fname is None: return fname = fname.replace(".", "::") if fname.startswith("cv::cv"): if fname[6:] == func.get("name", "").replace("*", "_n"): func["name"] = fname[4:] func["method"] = fname[4:] elif show_warnings: print("RST parser warning W%03d: \"%s\" - section name is \"%s\" instead of \"%s\" at %s:%s" % (WARNING_009_HDRMISMATCH, fname, func["name"], fname[6:], func["file"], func["line"]), file=sys.stderr) #self.print_info(func) def normalizeText(self, s): if s is None: return s s = re.sub(r"\.\. math::[ \r]*\n+((.|\n)*?)(\n[ \r]*\n|$)", mathReplace2, s) s = re.sub(r":math:`([^`]+?)`", mathReplace, s) s = re.sub(r" *:sup:", "^", s) s = s.replace(":ocv:class:", "") s = s.replace(":ocv:struct:", "") s = s.replace(":ocv:func:", "") s = s.replace(":ocv:cfunc:","") s = s.replace(":c:type:", "") s = s.replace(":c:func:", "") s = s.replace(":ref:", "") s = s.replace(":math:", "") s = s.replace(":func:", "") s = s.replace("]_", "]") s = s.replace(".. note::", "Note:") s = s.replace(".. table::", "") s = s.replace(".. ocv:function::", "") s = s.replace(".. ocv:cfunction::", "") # remove ".. identifier:" lines s = re.sub(r"(^|\n)\.\. [a-zA-Z_0-9]+(::[a-zA-Z_0-9]+)?:(\n|$)", "\n ", s) # unwrap urls s = re.sub(r"`([^`<]+ )<(https?://[^>]+)>`_", "\\1(\\2)", s) # remove tailing :: s = re.sub(r"::(\n|$)", "\\1", s) # normalize line endings s = re.sub(r"\r\n", "\n", s) # remove extra line breaks before/after _ or , s = re.sub(r"\n[ ]*([_,])\n", r"\1 ", s) # remove extra line breaks after ` #s = re.sub(r"`\n", "` ", s) # remove extra space after ( and before .,) s = re.sub(r"\([\n ]+", "(", s) s = re.sub(r"[\n ]+(\.|,|\))", "\\1", s) # remove extra line breaks after ".. note::" s = re.sub(r"\.\. note::\n+", ".. note:: ", s) # remove extra line breaks before * s = re.sub(r"\n+\*", "\n*", s) # remove extra line breaks after * s = re.sub(r"\n\*\n+", "\n* ", s) # remove extra line breaks before #. s = re.sub(r"\n+#\.", "\n#.", s) # remove extra line breaks after #. s = re.sub(r"\n#\.\n+", "\n#. ", s) # remove extra line breaks before ` #s = re.sub(r"\n[ ]*`", " `", s) # remove trailing whitespaces s = re.sub(r"[ ]+$", "", s) # remove .. for references #s = re.sub(r"\.\. \[", "[", s) # unescape s = re.sub(r"\\(.)", "\\1", s) # remove whitespace before . s = re.sub(r"[ ]+\.", ".", s) # remove tailing whitespace s = re.sub(r" +(\n|$)", "\\1", s) # remove leading whitespace s = re.sub(r"(^|\n) +", "\\1", s) # compress line breaks s = re.sub(r"\n\n+", "\n\n", s) # remove other newlines s = re.sub(r"([^.\n\\=])\n([^*#\n]|\*[^ ])", "\\1 \\2", s) # compress whitespace s = re.sub(r" +", " ", s) # restore math s = re.sub(r" *
*", "\n", s) # remove extra space before . s = re.sub(r"[\n ]+\.", ".", s) s = s.replace("**", "") s = re.sub(r"``([^\n]+?)``", "\\1", s) s = s.replace("``", "\"") s = s.replace("`", "\"") s = s.replace("\"\"", "\"") s = s.strip() return s def printSummary(self): print("RST Parser Summary:") print(" Total sections: %s" % self.sections_total) print(" Skipped sections: %s" % self.sections_skipped) print(" Parsed sections: %s" % self.sections_parsed) print(" Invalid sections: %s" % (self.sections_total - self.sections_parsed - self.sections_skipped)) # statistic by language stat = {} classes = 0 structs = 0 for name, d in self.definitions.items(): if d.get("isclass", False): classes += 1 elif d.get("isstruct", False): structs += 1 else: for decl in d.get("decls", []): stat[decl[0]] = stat.get(decl[0], 0) + 1 print() print(" classes documented: %s" % classes) print(" structs documented: %s" % structs) for lang in sorted(stat.items()): print(" %7s functions documented: %s" % lang) print() def mathReplace2(match): m = mathReplace(match) #print "%s ===> %s" % (match.group(0), m) return "\n\n"+m+"

" def hdotsforReplace(match): return '... '*int(match.group(1)) def matrixReplace(match): m = match.group(2) m = re.sub(r" *& *", " ", m) return m def mathReplace(match): m = match.group(1) m = m.replace("\n", "
") m = m.replace("<", "<") m = m.replace(">", ">") m = re.sub(r"\\text(tt|rm)?{(.*?)}", "\\2", m) m = re.sub(r"\\mbox{(.*?)}", "\\1", m) m = re.sub(r"\\mathrm{(.*?)}", "\\1", m) m = re.sub(r"\\vecthree{(.*?)}{(.*?)}{(.*?)}", "[\\1 \\2 \\3]", m) m = re.sub(r"\\bar{(.*?)}", "\\1`", m) m = re.sub(r"\\sqrt\[(\d)*\]{(.*?)}", "sqrt\\1(\\2)", m) m = re.sub(r"\\sqrt{(.*?)}", "sqrt(\\1)", m) m = re.sub(r"\\frac{(.*?)}{(.*?)}", "(\\1)/(\\2)", m) m = re.sub(r"\\fork{(.*?)}{(.*?)}{(.*?)}{(.*?)}", "\\1 \\2; \\3 \\4", m) m = re.sub(r"\\forkthree{(.*?)}{(.*?)}{(.*?)}{(.*?)}{(.*?)}{(.*?)}", "\\1 \\2; \\3 \\4; \\5 \\6", m) m = re.sub(r"\\stackrel{(.*?)}{(.*?)}", "\\1 \\2", m) m = re.sub(r"\\sum _{(.*?)}", "sum{by: \\1}", m) m = re.sub(r" +", " ", m) m = re.sub(r"\\begin{(?Parray|bmatrix)}(?:{[\|lcr\. ]+})? *(.*?)\\end{(?P=gtype)}", matrixReplace, m) m = re.sub(r"\\hdotsfor{(\d+)}", hdotsforReplace, m) m = re.sub(r"\\vecthreethree{(.*?)}{(.*?)}{(.*?)}{(.*?)}{(.*?)}{(.*?)}{(.*?)}{(.*?)}{(.*?)}", "
|\\1 \\2 \\3|
|\\4 \\5 \\6|
|\\7 \\8 \\9|
", m) m = re.sub(r"\\left[ ]*\\lfloor[ ]*", "[", m) m = re.sub(r"[ ]*\\right[ ]*\\rfloor", "]", m) m = re.sub(r"\\left[ ]*\([ ]*", "(", m) m = re.sub(r"[ ]*\\right[ ]*\)", ")", m) m = re.sub(r"([^\\])\$", "\\1", m) m = m.replace("\\times", "x") m = m.replace("\\pm", "+-") m = m.replace("\\cdot", "*") m = m.replace("\\sim", "~") m = m.replace("\\leftarrow", "<-") m = m.replace("\\rightarrow", "->") m = m.replace("\\leftrightarrow", "<->") m = re.sub(r" *\\neg *", " !", m) m = re.sub(r" *\\neq? *", " != ", m) m = re.sub(r" *\\geq? *", " >= ", m) m = re.sub(r" *\\leq? *", " <= ", m) m = re.sub(r" *\\vee *", " V ", m) m = re.sub(r" *\\oplus *", " (+) ", m) m = re.sub(r" *\\mod *", " mod ", m) m = re.sub(r"( *)\\partial *", "\\1d", m) m = re.sub(r"( *)\\quad *", "\\1 ", m) m = m.replace("\\,", " ") m = m.replace("\\:", " ") m = m.replace("\\;", " ") m = m.replace("\\!", "") m = m.replace("\\\\", "
") m = m.replace("\\wedge", "/\\\\") m = re.sub(r"\\(.)", "\\1", m) m = re.sub(r"\([ ]+", "(", m) m = re.sub(r"[ ]+(\.|,|\))(
| |$)", "\\1\\2", m) m = re.sub(r" +\|[ ]+([a-zA-Z0-9_(])", " |\\1", m) m = re.sub(r"([a-zA-Z0-9_)}])[ ]+(\(|\|)", "\\1\\2", m) m = re.sub(r"{\((-?[a-zA-Z0-9_]+)\)}", "\\1", m) m = re.sub(r"{(-?[a-zA-Z0-9_]+)}", "(\\1)", m) m = re.sub(r"\(([0-9]+)\)", "\\1", m) m = m.replace("{", "(") m = m.replace("}", ")") #print "%s ===> %s" % (match.group(0), m) return "" + m + "" if __name__ == "__main__": if len(sys.argv) < 2: print("Usage:\n", os.path.basename(sys.argv[0]), " ") exit(0) if len(sys.argv) >= 3: if sys.argv[2].lower() == "verbose": verbose = True rst_parser_dir = os.path.dirname(os.path.abspath(sys.argv[0])) hdr_parser_path = os.path.join(rst_parser_dir, "../../python/src2") sys.path.append(hdr_parser_path) import hdr_parser module = sys.argv[1] if module != "all" and not os.path.isdir(os.path.join(rst_parser_dir, "../../" + module)): print("RST parser error E%03d: module \"%s\" could not be found." % (ERROR_010_NOMODULE, module)) exit(1) parser = RstParser(hdr_parser.CppHeaderParser()) if module == "all": for m in allmodules: parser.parse(m, os.path.join(rst_parser_dir, "../../" + m)) else: parser.parse(module, os.path.join(rst_parser_dir, "../../" + module)) # summary parser.printSummary()