#!/usr/bin/env python # -*- Mode: python; tab-width: 4; indent-tabs-mode: nil -*- # # This program 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 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 Lesser General Public License for more # details. # # You should have received a copy of the GNU Lesser General Public License along # with this program; if not, write to the Free Software Foundation, Inc., 51 # Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. # # Copyright (C) 2012 Lanedo GmbH # import string import utils from FieldResult import FieldResult from Field import Field """ The Container class takes care of handling collections of Input or Output fields """ class Container: """ Constructor """ def __init__(self, prefix, container_type, dictionary, common_objects_dictionary, static): # The field container prefix usually contains the name of the Message, # e.g. "Qmi Message Ctl Something" self.prefix = prefix # We may have 'Input' or 'Output' containers if container_type == 'Input': self.readonly = False elif container_type == 'Output': self.readonly = True else: raise ValueError('Cannot handle container type \'%s\'' % container_type) self.name = container_type self.static = static # Create the composed full name (prefix + name), # e.g. "Qmi Message Ctl Something Output" self.fullname = self.prefix + ' ' + self.name self.fields = None if dictionary is not None: self.fields = [] new_dict = [] # First, look for references to common types for field_dictionary in dictionary: if 'common-ref' in field_dictionary: for common in common_objects_dictionary: if common['type'] == 'TLV' and \ common['common-ref'] == field_dictionary['common-ref']: # Replace the reference with a copy of the common dictionary # If the source reference has prerequisites, add them to the copy copy = dict(common) if 'prerequisites' in field_dictionary: copy['prerequisites'] = field_dictionary['prerequisites'] new_dict.append(copy) break else: raise RuntimeError('Common type \'%s\' not found' % field_dictionary['name']) else: new_dict.append(field_dictionary) dictionary = new_dict # We need to sort the fields, so that the ones with prerequisites are # include after the prerequisites themselves. Note: we don't currently # support complex setups yet. sorted_dictionary = [] for field_dictionary in dictionary: if 'prerequisites' in field_dictionary: sorted_dictionary.append(field_dictionary) else: sorted_dictionary.insert(0, field_dictionary) # Then, really parse each field for field_dictionary in sorted_dictionary: if field_dictionary['type'] == 'TLV': if field_dictionary['format'] == 'struct' and \ field_dictionary['name'] == 'Result': self.fields.append(FieldResult(self.fullname, field_dictionary, common_objects_dictionary, container_type, static)) else: self.fields.append(Field(self.fullname, field_dictionary, common_objects_dictionary, container_type, static)) """ Emit enumeration of TLVs in the container """ def __emit_tlv_ids_enum(self, f): if self.fields is None: return f.write('\n') for tlv in self.fields: translations = { 'enum_name' : tlv.id_enum_name, 'enum_value' : tlv.id } template = ( '#define ${enum_name} ${enum_value}\n') f.write(string.Template(template).substitute(translations)) """ Emit new container types """ def __emit_types(self, hfile, cfile, translations): translations['type_macro'] = 'QMI_TYPE_' + utils.remove_prefix(utils.build_underscore_uppercase_name(self.fullname), 'QMI_') # Emit types header template = ( '\n' '/**\n' ' * ${camelcase}:\n' ' *\n' ' * The #${camelcase} structure contains private data and should only be accessed\n' ' * using the provided API.\n' ' */\n' 'typedef struct _${camelcase} ${camelcase};\n' '${static}GType ${underscore}_get_type (void) G_GNUC_CONST;\n' '#define ${type_macro} (${underscore}_get_type ())\n') hfile.write(string.Template(template).substitute(translations)) # Emit types source template = ( '\n' 'struct _${camelcase} {\n' ' volatile gint ref_count;\n') cfile.write(string.Template(template).substitute(translations)) if self.fields is not None: for field in self.fields: if field.variable is not None: variable_declaration = field.variable.build_variable_declaration(False, ' ', field.variable_name) translations['field_variable_name'] = field.variable_name translations['field_name'] = field.name template = ( '\n' ' /* ${field_name} */\n' ' gboolean ${field_variable_name}_set;\n') cfile.write(string.Template(template).substitute(translations)) cfile.write(variable_declaration) cfile.write( '};\n') """ Emit container handling core implementation """ def __emit_core(self, hfile, cfile, translations): # Emit container core header template = ( '\n' '${static}${camelcase} *${underscore}_ref (${camelcase} *self);\n' '${static}void ${underscore}_unref (${camelcase} *self);\n') if self.readonly == False: template += ( '${static}${camelcase} *${underscore}_new (void);\n') if self.static: cfile.write(string.Template(template).substitute(translations)) else: hfile.write(string.Template(template).substitute(translations)) # Emit container core source template = ( '\n' '${static}GType\n' '${underscore}_get_type (void)\n' '{\n' ' static volatile gsize g_define_type_id__volatile = 0;\n' '\n' ' if (g_once_init_enter (&g_define_type_id__volatile)) {\n' ' GType g_define_type_id =\n' ' g_boxed_type_register_static (g_intern_static_string ("${camelcase}"),\n' ' (GBoxedCopyFunc) ${underscore}_ref,\n' ' (GBoxedFreeFunc) ${underscore}_unref);\n' '\n' ' g_once_init_leave (&g_define_type_id__volatile, g_define_type_id);\n' ' }\n' '\n' ' return g_define_type_id__volatile;\n' '}\n' '\n' '/**\n' ' * ${underscore}_ref:\n' ' * @self: a #${camelcase}.\n' ' *\n' ' * Atomically increments the reference count of @self by one.\n' ' *\n' ' * Returns: the new reference to @self.\n' ' */\n' '${static}${camelcase} *\n' '${underscore}_ref (${camelcase} *self)\n' '{\n' ' g_return_val_if_fail (self != NULL, NULL);\n' '\n' ' g_atomic_int_inc (&self->ref_count);\n' ' return self;\n' '}\n' '\n' '/**\n' ' * ${underscore}_unref:\n' ' * @self: a #${camelcase}.\n' ' *\n' ' * Atomically decrements the reference count of @self by one.\n' ' * If the reference count drops to 0, @self is completely disposed.\n' ' */\n' '${static}void\n' '${underscore}_unref (${camelcase} *self)\n' '{\n' ' g_return_if_fail (self != NULL);\n' '\n' ' if (g_atomic_int_dec_and_test (&self->ref_count)) {\n') if self.fields is not None: for field in self.fields: if field.variable is not None and field.variable.needs_dispose is True: template += field.variable.build_dispose(' ', 'self->' + field.variable_name) template += ( ' g_slice_free (${camelcase}, self);\n' ' }\n' '}\n') cfile.write(string.Template(template).substitute(translations)) # _new() is only generated if the container is not readonly if self.readonly == True: return template = ( '\n' '/**\n' ' * ${underscore}_new:\n' ' *\n' ' * Allocates a new #${camelcase}.\n' ' *\n' ' * Returns: the newly created #${camelcase}. The returned value should be freed with ${underscore}_unref().\n' ' */\n' '${static}${camelcase} *\n' '${underscore}_new (void)\n' '{\n' ' ${camelcase} *self;\n' '\n' ' self = g_slice_new0 (${camelcase});\n' ' self->ref_count = 1;\n' ' return self;\n' '}\n') cfile.write(string.Template(template).substitute(translations)) """ Emit container implementation """ def emit(self, hfile, cfile): translations = { 'name' : self.name, 'camelcase' : utils.build_camelcase_name (self.fullname), 'underscore' : utils.build_underscore_name (self.fullname), 'static' : 'static ' if self.static else '' } auxfile = cfile if self.static else hfile if self.fields is None: template = ('\n' '/* Note: no fields in the ${name} container */\n') auxfile.write(string.Template(template).substitute(translations)) cfile.write(string.Template(template).substitute(translations)) return # Emit the container and field types # Emit field getter/setter if self.fields is not None: for field in self.fields: field.emit_types(auxfile, cfile) self.__emit_types(auxfile, cfile, translations) # Emit TLV enums self.__emit_tlv_ids_enum(cfile) # Emit fields if self.fields is not None: for field in self.fields: field.emit_getter(auxfile, cfile) if self.readonly == False: field.emit_setter(auxfile, cfile) # Emit the container core self.__emit_core(auxfile, cfile, translations) """ Add sections """ def add_sections(self, sections): if self.fields is None: return translations = { 'name' : self.name, 'camelcase' : utils.build_camelcase_name (self.fullname), 'underscore' : utils.build_underscore_name (self.fullname), 'type_macro' : 'QMI_TYPE_' + utils.remove_prefix(utils.build_underscore_uppercase_name(self.fullname), 'QMI_') } # Standard template = ( '${underscore}_get_type\n' '${type_macro}\n') sections['standard'] += string.Template(template).substitute(translations) # Public types template = ( '${camelcase}\n') sections['public-types'] += string.Template(template).substitute(translations) # Public methods template = '\n' if self.readonly == False: template += ( '${underscore}_new\n') template += ( '${underscore}_ref\n' '${underscore}_unref\n') sections['public-methods'] += string.Template(template).substitute(translations) for field in self.fields: field.add_sections(sections)