Methods

# -*- Mode: Python -*- import sys import argparse import config import utils import dbustypes import parser # ---------------------------------------------------------------------------------------------------- class DocbookCodeGenerator: def __init__(self, ifaces, docbook): self.ifaces = ifaces self.docbook = docbook def print_method_prototype(self, i, m, in_synopsis): max_method_len = 0 if in_synopsis: for _m in i.methods: max_method_len = max(len(_m.name), max_method_len) else: max_method_len = max(len(m.name), max_method_len) max_signature_len = 0 if in_synopsis: for _m in i.methods: for a in _m.in_args: max_signature_len = max(len(a.signature), max_signature_len) for a in _m.out_args: max_signature_len = max(len(a.signature), max_signature_len) else: for a in m.in_args: max_signature_len = max(len(a.signature), max_signature_len) for a in m.out_args: max_signature_len = max(len(a.signature), max_signature_len) if in_synopsis: self.out.write('%s%*s (' %(utils.dots_to_hyphens(i.name), m.name, m.name, max_method_len - len(m.name), '')) else: self.out.write('%s%*s (' %(m.name, max_method_len - len(m.name), '')) count = 0 for a in m.in_args: if (count > 0): self.out.write(',\n%*s'%(max_method_len + 2, '')) self.out.write('IN %s%*s %s'%(a.signature, max_signature_len - len(a.signature), '', a.name)) count = count + 1 for a in m.out_args: if (count > 0): self.out.write(',\n%*s'%(max_method_len + 2, '')) self.out.write('OUT %s%*s %s'%(a.signature, max_signature_len - len(a.signature), '', a.name)) count = count + 1 self.out.write(');\n') def print_signal_prototype(self, i, s, in_synopsis): max_signal_len = 0 if in_synopsis: for _s in i.signals: max_signal_len = max(len(_s.name), max_signal_len) else: max_signal_len = max(len(s.name), max_signal_len) max_signature_len = 0 if in_synopsis: for _s in i.signals: for a in _s.args: max_signature_len = max(len(a.signature), max_signature_len) else: for a in s.args: max_signature_len = max(len(a.signature), max_signature_len) if in_synopsis: self.out.write('%s%*s (' %(utils.dots_to_hyphens(i.name), s.name, s.name, max_signal_len - len(s.name), '')) else: self.out.write('%s%*s (' %(s.name, max_signal_len - len(s.name), '')) count = 0 for a in s.args: if (count > 0): self.out.write(',\n%*s'%(max_signal_len + 2, '')) self.out.write('%s%*s %s'%(a.signature, max_signature_len - len(a.signature), '', a.name)) count = count + 1 self.out.write(');\n') def print_property_prototype(self, i, p, in_synopsis): max_property_len = 0 if in_synopsis: for _p in i.properties: max_property_len = max(len(_p.name), max_property_len) else: max_property_len = max(len(p.name), max_property_len) max_signature_len = 0 if in_synopsis: for _p in i.properties: max_signature_len = max(len(_p.signature), max_signature_len) else: max_signature_len = max(len(p.signature), max_signature_len) if in_synopsis: self.out.write('%s%*s' %(utils.dots_to_hyphens(i.name), p.name, p.name, max_property_len - len(p.name), '')) else: self.out.write('%s%*s' %(p.name, max_property_len - len(p.name), '')) if p.readable and p.writable: access = 'readwrite' elif p.readable: access = 'readable ' else: access = 'writable ' self.out.write(' %s %s\n'%(access, p.signature)) def print_synopsis_methods(self, i): self.out.write(' \n'%()) self.out.write(' Methods\n'%()) self.out.write(' \n'%()) for m in i.methods: self.print_method_prototype(i, m, in_synopsis=True) self.out.write('\n'%()) self.out.write(' \n'%()) def print_synopsis_signals(self, i): self.out.write(' \n'%()) self.out.write(' Signals\n'%()) self.out.write(' \n'%()) for s in i.signals: self.print_signal_prototype(i, s, in_synopsis=True) self.out.write('\n'%()) self.out.write(' \n'%()) def print_synopsis_properties(self, i): self.out.write(' \n'%()) self.out.write(' Properties\n'%()) self.out.write(' \n'%()) for p in i.properties: self.print_property_prototype(i, p, in_synopsis=True) self.out.write('\n'%()) self.out.write(' \n'%()) def print_method(self, i, m): self.out.write('\n'%(utils.dots_to_hyphens(i.name), m.name)) self.out.write(' The %s() method\n'%(m.name)) self.out.write(' %s.%s()\n'%(utils.dots_to_hyphens(i.name), m.name, i.name_without_prefix, m.name, i.name, m.name)) self.out.write('\n') self.print_method_prototype(i, m, in_synopsis=False) self.out.write('\n') self.out.write('%s\n'%(self.expand(m.doc_string))) self.out.write('\n') for a in m.in_args: self.out.write('\n'%()) self.out.write(' IN %s %s:\n'%(a.signature, a.name)) self.out.write(' %s\n'%(self.expand(a.doc_string))) self.out.write('\n'%()) for a in m.out_args: self.out.write('\n'%()) self.out.write(' OUT %s %s:\n'%(a.signature, a.name)) self.out.write(' %s\n'%(self.expand(a.doc_string))) self.out.write('\n'%()) self.out.write('\n') self.out.write('\n') def print_signal(self, i, s): self.out.write('\n'%(utils.dots_to_hyphens(i.name), s.name)) self.out.write(' The "%s" signal\n'%(s.name)) self.out.write(' %s::%s\n'%(utils.dots_to_hyphens(i.name), s.name, i.name_without_prefix, s.name, i.name, s.name)) self.out.write('\n') self.print_signal_prototype(i, s, in_synopsis=False) self.out.write('\n') self.out.write('%s\n'%(self.expand(s.doc_string))) self.out.write('\n') for a in s.args: self.out.write('\n'%()) self.out.write(' %s %s:\n'%(a.signature, a.name)) self.out.write(' %s\n'%(self.expand(a.doc_string))) self.out.write('\n'%()) self.out.write('\n') self.out.write('\n') def print_property(self, i, p): self.out.write('\n'%(utils.dots_to_hyphens(i.name), p.name)) self.out.write(' The "%s" property\n'%(p.name)) self.out.write(' %s:%s\n'%(utils.dots_to_hyphens(i.name), p.name, i.name_without_prefix, p.name, i.name, p.name)) self.out.write('\n') self.print_property_prototype(i, p, in_synopsis=False) self.out.write('\n') self.out.write('%s\n'%(self.expand(p.doc_string))) self.out.write('\n') def expand(self, s): for key in self.expand_member_dict_keys: s = s.replace(key, self.expand_member_dict[key]) for key in self.expand_iface_dict_keys: s = s.replace(key, self.expand_iface_dict[key]) return s def generate_expand_dicts(self): self.expand_member_dict = {} self.expand_iface_dict = {} for i in self.ifaces: key = '#%s'%(i.name) value = '%s'%(utils.dots_to_hyphens(i.name), i.name) self.expand_iface_dict[key] = value for m in i.methods: key = '%s.%s()'%(i.name, m.name) value = '%s()'%(utils.dots_to_hyphens(i.name), m.name, m.name) self.expand_member_dict[key] = value for s in i.signals: key = '#%s::%s'%(i.name, s.name) value = '"%s"'%(utils.dots_to_hyphens(i.name), s.name, s.name) self.expand_member_dict[key] = value for p in i.properties: key = '#%s:%s'%(i.name, p.name) value = '"%s"'%(utils.dots_to_hyphens(i.name), p.name, p.name) self.expand_member_dict[key] = value # Make sure to expand the keys in reverse order so e.g. #org.foo.Iface:MediaCompat # is evaluated before #org.foo.Iface:Media ... self.expand_member_dict_keys = self.expand_member_dict.keys() self.expand_member_dict_keys.sort(reverse=True) self.expand_iface_dict_keys = self.expand_iface_dict.keys() self.expand_iface_dict_keys.sort(reverse=True) def generate(self): self.generate_expand_dicts() for i in self.ifaces: self.out = file('%s-%s.xml'%(self.docbook, i.name), 'w') self.out.write(''%()) self.out.write('\n'%()) self.out.write('\n'%()) self.out.write('\n'%(i.name)) self.out.write(' '%()) self.out.write(' %s\n'%(utils.dots_to_hyphens(i.name), i.name)) self.out.write(' %s\n'%(utils.dots_to_hyphens(i.name), i.name_without_prefix, i.name)) self.out.write(' '%()) self.out.write(' '%()) self.out.write(' %s'%(i.name)) self.out.write(' %s'%(i.doc_string_brief)) self.out.write(' '%()) if len(i.methods) > 0: self.print_synopsis_methods(i) if len(i.signals) > 0: self.print_synopsis_signals(i) if len(i.properties) > 0: self.print_synopsis_properties(i) self.out.write('\n'%(utils.dots_to_hyphens(i.name))) self.out.write(' Description\n'%()) self.out.write(' %s\n'%(self.expand(i.doc_string))) self.out.write('\n'%()) if len(i.methods) > 0: self.out.write('\n'%(i.name)) self.out.write(' Method Details\n'%()) for m in i.methods: self.print_method(i, m) self.out.write('\n'%()) if len(i.signals) > 0: self.out.write('\n'%(i.name)) self.out.write(' Signal Details\n'%()) for s in i.signals: self.print_signal(i, s) self.out.write('\n'%()) if len(i.properties) > 0: self.out.write('\n'%(i.name)) self.out.write(' Property Details\n'%()) for s in i.properties: self.print_property(i, s) self.out.write('\n'%()) self.out.write('\n') self.out.write('\n')