## ## This file is part of the libsigrok project. ## ## Copyright (C) 2014 Martin Ling ## ## This program is free software: you can redistribute it and/or modify ## it under the terms of the GNU General Public License as published by ## the Free Software Foundation, either version 3 of the License, or ## (at your option) any later version. ## ## This program 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 General Public License for more details. ## ## You should have received a copy of the GNU General Public License ## along with this program. If not, see . ## from __future__ import print_function from xml.etree import ElementTree from collections import OrderedDict import sys, os, re index_file = sys.argv[1] # Get directory this script is in. dirname = os.path.dirname(os.path.realpath(__file__)) outdirname = "bindings" if not os.path.exists(os.path.join(outdirname, 'cxx/include/libsigrokcxx')): os.makedirs(os.path.join(outdirname, 'cxx/include/libsigrokcxx')) if not os.path.exists(os.path.join(outdirname, 'swig')): os.makedirs(os.path.join(outdirname, 'swig')) mapping = dict([ ('sr_loglevel', ('LogLevel', 'Log verbosity level')), ('sr_packettype', ('PacketType', 'Type of datafeed packet')), ('sr_mq', ('Quantity', 'Measured quantity')), ('sr_unit', ('Unit', 'Unit of measurement')), ('sr_mqflag', ('QuantityFlag', 'Flag applied to measured quantity')), ('sr_configkey', ('ConfigKey', 'Configuration key')), ('sr_datatype', ('DataType', 'Configuration data type')), ('sr_channeltype', ('ChannelType', 'Channel type')), ('sr_trigger_matches', ('TriggerMatchType', 'Trigger match type')), ('sr_output_flag', ('OutputFlag', 'Flag applied to output modules'))]) index = ElementTree.parse(index_file) # Build mapping between class names and enumerations. classes = OrderedDict() for compound in index.findall('compound'): if compound.attrib['kind'] != 'file': continue filename = os.path.join( os.path.dirname(index_file), '%s.xml' % compound.attrib['refid']) doc = ElementTree.parse(filename) for section in doc.find('compounddef').findall('sectiondef'): if section.attrib["kind"] != 'enum': continue for member in section.findall('memberdef'): if member.attrib["kind"] != 'enum': continue name = member.find('name').text if name in mapping: classes[member] = mapping[name] header = open(os.path.join(outdirname, 'cxx/include/libsigrokcxx/enums.hpp'), 'w') code = open(os.path.join(outdirname, 'cxx/enums.cpp'), 'w') swig = open(os.path.join(outdirname, 'swig/enums.i'), 'w') for file in (header, code): print("/* Generated file - edit enums.py instead! */", file=file) # Template for beginning of class declaration and public members. header_public_template = """ /** {brief} */ class SR_API {classname} : public EnumValue<{classname}, enum {enumname}> {{ public: """ # Template for beginning of private members. header_private_template = """ protected: {classname}(enum {enumname} id, const char name[]) : EnumValue(id, name) {{}} """ def get_text(node): return str.join('\n\n', [p.text.rstrip() for p in node.findall('para')]) for enum, (classname, classbrief) in classes.items(): enum_name = enum.find('name').text members = enum.findall('enumvalue') member_names = [m.find('name').text for m in members] trimmed_names = [re.sub("^SR_[A-Z]+_", "", n) for n in member_names] briefs = [get_text(m.find('briefdescription')) for m in members] # Begin class and public declarations print(header_public_template.format( brief=classbrief, classname=classname, enumname=enum_name), file=header) # Declare public pointers for each enum value for trimmed_name, brief in zip(trimmed_names, briefs): if brief: print('\t/** %s */' % brief, file=header) print('\tstatic const %s * const %s;' % ( classname, trimmed_name), file=header) # Declare additional methods if present filename = os.path.join(dirname, "%s_methods.hpp" % classname) if os.path.exists(filename): print(str.join('', open(filename).readlines()), file=header) # Begin private declarations print(header_private_template.format( classname=classname, enumname=enum_name), file=header) # Declare private constants for each enum value for trimmed_name in trimmed_names: print('\tstatic const %s _%s;' % (classname, trimmed_name), file=header) # End class declaration print('};', file=header) # Define private constants for each enum value for name, trimmed_name in zip(member_names, trimmed_names): print('const %s %s::_%s = %s(%s, "%s");' % ( classname, classname, trimmed_name, classname, name, trimmed_name), file=code) # Define public pointers for each enum value for trimmed_name in trimmed_names: print('const %s * const %s::%s = &%s::_%s;' % ( classname, classname, trimmed_name, classname, trimmed_name), file=code) # Define map of enum values to constants print('template<> const SR_API std::map EnumValue<%s, enum %s>::_values = {' % ( enum_name, classname, classname, enum_name), file=code) for name, trimmed_name in zip(member_names, trimmed_names): print('\t{%s, %s::%s},' % (name, classname, trimmed_name), file=code) print('};', file=code) # Define additional methods if present filename = os.path.join(dirname, "%s_methods.cpp" % classname) if os.path.exists(filename): print(str.join('', open(filename).readlines()), file=code) # Map EnumValue::id() and EnumValue::name() as SWIG attributes. print('%%attribute(sigrok::%s, int, id, id);' % classname, file=swig) print('%%attributestring(sigrok::%s, std::string, name, name);' % classname, file=swig) # Instantiate EnumValue template for SWIG print('%%template(EnumValue%s) sigrok::EnumValue;' % ( classname, classname, enum_name), file=swig) # Apply any language-specific extras. print('%%enumextras(%s);' % classname, file=swig) # Declare additional attributes if present filename = os.path.join(dirname, "%s_methods.i" % classname) if os.path.exists(filename): print(str.join('', open(filename).readlines()), file=swig)