# -*- Mode: Python -*-
# GDBus - GLib D-Bus Library
#
# Copyright (C) 2008-2011 Red Hat, Inc.
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General
# Public License along with this library; if not, see .
#
# Author: David Zeuthen
import sys
import re
from os import path
from . import config
from . import utils
from . import dbustypes
from . import parser
# ----------------------------------------------------------------------------------------------------
class DocbookCodeGenerator:
def __init__(self, ifaces, docbook, outdir):
self.ifaces = ifaces
self.docbook = docbook
self.outdir = outdir
self.generate_expand_dicts()
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_paras(m.doc_string, True)))
if m.in_args or m.out_args:
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_paras(a.doc_string, True)))
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_paras(a.doc_string, True)))
self.out.write('\n'%())
self.out.write('\n')
if len(m.since) > 0:
self.out.write('Since %s\n'%(m.since))
if m.deprecated:
self.out.write('The %s() method is deprecated.'%(m.name))
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_paras(s.doc_string, True)))
if s.args:
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_paras(a.doc_string, True)))
self.out.write('\n'%())
self.out.write('\n')
if len(s.since) > 0:
self.out.write('Since %s\n'%(s.since))
if s.deprecated:
self.out.write('The "%s" signal is deprecated.'%(s.name))
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_paras(p.doc_string, True)))
if len(p.since) > 0:
self.out.write('Since %s\n'%(p.since))
if p.deprecated:
self.out.write('The "%s" property is deprecated.'%(p.name))
self.out.write('\n')
def expand(self, s, expandParamsAndConstants):
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])
if expandParamsAndConstants:
# replace @foo with foo
s = re.sub('@[a-zA-Z0-9_]*', lambda m: '' + m.group(0)[1:] + '', s)
# replace e.g. %TRUE with TRUE
s = re.sub('%[a-zA-Z0-9_]*', lambda m: '' + m.group(0)[1:] + '', s)
return s
def expand_paras(self, s, expandParamsAndConstants):
s = self.expand(s, expandParamsAndConstants).strip()
if not s.startswith("\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_paras(i.doc_string, True)))
if len(i.since) > 0:
self.out.write(' Since %s\n'%(i.since))
if i.deprecated:
self.out.write('The %s interface is deprecated.'%(i.name))
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')