""" Generate documentation for pyboard API from C files. """ import os import argparse import re import markdown # given a list of (name,regex) pairs, find the first one that matches the given line def re_match_first(regexs, line): for name, regex in regexs: match = re.match(regex, line) if match: return name, match return None, None def makedirs(d): if not os.path.isdir(d): os.makedirs(d) class Lexer: class LexerError(Exception): pass class EOF(Exception): pass class Break(Exception): pass def __init__(self, file): self.filename = file with open(file, 'rt') as f: line_num = 0 lines = [] for line in f: line_num += 1 line = line.strip() if line == '///': lines.append((line_num, '')) elif line.startswith('/// '): lines.append((line_num, line[4:])) elif len(lines) > 0 and lines[-1][1] is not None: lines.append((line_num, None)) if len(lines) > 0 and lines[-1][1] is not None: lines.append((line_num, None)) self.cur_line = 0 self.lines = lines def opt_break(self): if len(self.lines) > 0 and self.lines[0][1] is None: self.lines.pop(0) def next(self): if len(self.lines) == 0: raise Lexer.EOF else: l = self.lines.pop(0) self.cur_line = l[0] if l[1] is None: raise Lexer.Break else: return l[1] def error(self, msg): print('({}:{}) {}'.format(self.filename, self.cur_line, msg)) raise Lexer.LexerError class DocItem: def __init__(self): self.doc = [] def add_doc(self, lex): try: while True: line = lex.next() if len(line) > 0 or len(self.doc) > 0: self.doc.append(line) except Lexer.Break: pass def dump(self): return '\n'.join(self.doc) class DocConstant(DocItem): def __init__(self, name, descr): super().__init__() self.name = name self.descr = descr def dump(self, ctx): return '{}.{} - {}'.format(ctx, self.name, self.descr) class DocFunction(DocItem): def __init__(self, name, args): super().__init__() self.name = name self.args = args def dump(self, ctx): if self.name == '\\constructor': s = '### `{}{}`'.format(ctx, self.args) elif self.name == '\\call': s = '### `{}{}`'.format(ctx, self.args) else: s = '### `{}.{}{}`'.format(ctx, self.name, self.args) return s + '\n' + super().dump() class DocClass(DocItem): def __init__(self, name, descr): super().__init__() self.name = name self.descr = descr self.constructors = {} self.classmethods = {} self.methods = {} self.constants = {} def process_classmethod(self, lex, d): name = d['id'] if name == '\\constructor': dict_ = self.constructors else: dict_ = self.classmethods if name in dict_: lex.error("multiple definition of method '{}'".format(name)) method = dict_[name] = DocFunction(name, d['args']) method.add_doc(lex) def process_method(self, lex, d): name = d['id'] dict_ = self.methods if name in dict_: lex.error("multiple definition of method '{}'".format(name)) method = dict_[name] = DocFunction(name, d['args']) method.add_doc(lex) def process_constant(self, lex, d): name = d['id'] if name in self.constants: lex.error("multiple definition of constant '{}'".format(name)) self.constants[name] = DocConstant(name, d['descr']) lex.opt_break() def dump(self): s = [] s.append('') s.append('# class {}'.format(self.name)) s.append('') s.append(super().dump()) if len(self.constructors) > 0: s.append('') s.append("## Constructors") for f in sorted(self.constructors.values(), key=lambda x:x.name): s.append('') s.append(f.dump(self.name)) if len(self.classmethods) > 0: s.append('') s.append("## Class methods") for f in sorted(self.classmethods.values(), key=lambda x:x.name): s.append('') s.append(f.dump(self.name)) if len(self.methods) > 0: s.append('') s.append("## Methods") for f in sorted(self.methods.values(), key=lambda x:x.name): s.append('') s.append(f.dump(self.name.lower())) if len(self.constants) > 0: s.append('') s.append("## Constants") for c in sorted(self.constants.values(), key=lambda x:x.name): s.append('') s.append('`{}`'.format(c.dump(self.name))) return '\n'.join(s) class DocModule(DocItem): def __init__(self, name, descr): super().__init__() self.name = name self.descr = descr self.functions = {} self.constants = {} self.classes = {} self.cur_class = None def new_file(self): self.cur_class = None def process_function(self, lex, d): name = d['id'] if name in self.functions: lex.error("multiple definition of function '{}'".format(name)) function = self.functions[name] = DocFunction(name, d['args']) function.add_doc(lex) #def process_classref(self, lex, d): # name = d['id'] # self.classes[name] = name # lex.opt_break() def process_class(self, lex, d): name = d['id'] if name in self.classes: lex.error("multiple definition of class '{}'".format(name)) self.cur_class = self.classes[name] = DocClass(name, d['descr']) self.cur_class.add_doc(lex) def process_classmethod(self, lex, d): self.cur_class.process_classmethod(lex, d) def process_method(self, lex, d): self.cur_class.process_method(lex, d) def process_constant(self, lex, d): self.cur_class.process_constant(lex, d) def dump(self): s = [] s.append('# module {}'.format(self.name)) s.append('') s.append(super().dump()) s.append('') s.append('## Functions') for f in sorted(self.functions.values(), key=lambda x:x.name): s.append('') s.append(f.dump(self.name)) s.append('') s.append('## Classes') for c in sorted(self.classes.values(), key=lambda x:x.name): s.append('') s.append('[`{}.{}`]({}/index.html) - {}'.format(self.name, c.name, c.name, c.descr)) return '\n'.join(s) def write(self, dir): index = markdown.markdown(self.dump()) with open(os.path.join(dir, 'index.html'), 'wt') as f: f.write(index) for c in self.classes.values(): class_dir = os.path.join(dir, c.name) makedirs(class_dir) class_dump = c.dump() class_dump = 'part of the [{} module](../index.html)'.format(self.name) + '\n' + class_dump index = markdown.markdown(class_dump) with open(os.path.join(class_dir, 'index.html'), 'wt') as f: f.write(index) class Doc: def __init__(self): self.modules = {} self.cur_module = None def new_file(self): self.cur_module = None for m in self.modules.values(): m.new_file() def check_module(self, lex): if self.cur_module is None: lex.error('module not defined') def process_module(self, lex, d): name = d['id'] if name in self.modules: lex.error("multiple definition of module '{}'".format(name)) self.cur_module = self.modules[name] = DocModule(name, d['descr']) self.cur_module.add_doc(lex) def process_moduleref(self, lex, d): name = d['id'] if name not in self.modules: lex.error('module {} referenced before definition'.format(name)) self.cur_module = self.modules[name] #def process_classref(self, lex, d): # self.cur_module.process_classref(lex, d) def process_class(self, lex, d): self.check_module(lex) self.cur_module.process_class(lex, d) def process_function(self, lex, d): self.check_module(lex) self.cur_module.process_function(lex, d) def process_classmethod(self, lex, d): self.check_module(lex) self.cur_module.process_classmethod(lex, d) def process_method(self, lex, d): self.check_module(lex) self.cur_module.process_method(lex, d) def process_constant(self, lex, d): self.check_module(lex) self.cur_module.process_constant(lex, d) def write(self, dir): for m in self.modules.values(): mod_dir = os.path.join(dir, 'module', m.name) makedirs(mod_dir) m.write(mod_dir) regex_descr = r'(?P.*)' doc_regexs = ( (Doc.process_module, re.compile(r'\\module (?P[a-z]+) - ' + regex_descr + r'$')), (Doc.process_moduleref, re.compile(r'\\moduleref (?P[a-z]+)$')), (Doc.process_function, re.compile(r'\\function (?P[a-z0-9_]+)(?P\(.*\))$')), (Doc.process_classmethod, re.compile(r'\\classmethod (?P\\?[a-z0-9_]+)(?P\(.*\))$')), (Doc.process_method, re.compile(r'\\method (?P\\?[a-z0-9_]+)(?P\(.*\))$')), (Doc.process_constant, re.compile(r'\\constant (?P[A-Z0-9_]+) - ' + regex_descr + r'$')), #(Doc.process_classref, re.compile(r'\\classref (?P[A-Za-z0-9_]+)$')), (Doc.process_class, re.compile(r'\\class (?P[A-Za-z0-9_]+) - ' + regex_descr + r'$')), ) def process_file(file, doc): lex = Lexer(file) doc.new_file() try: try: while True: line = lex.next() fun, match = re_match_first(doc_regexs, line) if fun == None: lex.error('unknown line format: {}'.format(line)) fun(doc, lex, match.groupdict()) except Lexer.Break: lex.error('unexpected break') except Lexer.EOF: pass except Lexer.LexerError: return False return True def main(): cmd_parser = argparse.ArgumentParser(description='Generate documentation for pyboard API from C files.') cmd_parser.add_argument('--outdir', metavar='', default='gendoc-out', help='ouput directory') cmd_parser.add_argument('files', nargs='+', help='input files') args = cmd_parser.parse_args() doc = Doc() for file in args.files: print('processing', file) if not process_file(file, doc): return doc.write(args.outdir) print('written to', args.outdir) if __name__ == "__main__": main()