#!/usr/bin/env python # # Copyright 2014 The Chromium Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. import collections from datetime import date import re import optparse import os from string import Template import sys import textwrap import zipfile from util import build_utils # List of C++ types that are compatible with the Java code generated by this # script. # # This script can parse .idl files however, at present it ignores special # rules such as [cpp_enum_prefix_override="ax_attr"]. ENUM_FIXED_TYPE_WHITELIST = ['char', 'unsigned char', 'short', 'unsigned short', 'int', 'int8_t', 'int16_t', 'int32_t', 'uint8_t', 'uint16_t'] class EnumDefinition(object): def __init__(self, original_enum_name=None, class_name_override=None, enum_package=None, entries=None, comments=None, fixed_type=None): self.original_enum_name = original_enum_name self.class_name_override = class_name_override self.enum_package = enum_package self.entries = collections.OrderedDict(entries or []) self.comments = collections.OrderedDict(comments or []) self.prefix_to_strip = None self.fixed_type = fixed_type def AppendEntry(self, key, value): if key in self.entries: raise Exception('Multiple definitions of key %s found.' % key) self.entries[key] = value def AppendEntryComment(self, key, value): if key in self.comments: raise Exception('Multiple definitions of key %s found.' % key) self.comments[key] = value @property def class_name(self): return self.class_name_override or self.original_enum_name def Finalize(self): self._Validate() self._AssignEntryIndices() self._StripPrefix() self._NormalizeNames() def _Validate(self): assert self.class_name assert self.enum_package assert self.entries if self.fixed_type and self.fixed_type not in ENUM_FIXED_TYPE_WHITELIST: raise Exception('Fixed type %s for enum %s not whitelisted.' % (self.fixed_type, self.class_name)) def _AssignEntryIndices(self): # Enums, if given no value, are given the value of the previous enum + 1. if not all(self.entries.values()): prev_enum_value = -1 for key, value in self.entries.iteritems(): if not value: self.entries[key] = prev_enum_value + 1 elif value in self.entries: self.entries[key] = self.entries[value] else: try: self.entries[key] = int(value) except ValueError: raise Exception('Could not interpret integer from enum value "%s" ' 'for key %s.' % (value, key)) prev_enum_value = self.entries[key] def _StripPrefix(self): prefix_to_strip = self.prefix_to_strip if not prefix_to_strip: prefix_to_strip = self.original_enum_name prefix_to_strip = re.sub('(?!^)([A-Z]+)', r'_\1', prefix_to_strip).upper() prefix_to_strip += '_' if not all([w.startswith(prefix_to_strip) for w in self.entries.keys()]): prefix_to_strip = '' def StripEntries(entries): ret = collections.OrderedDict() for k, v in entries.iteritems(): stripped_key = k.replace(prefix_to_strip, '', 1) if isinstance(v, basestring): stripped_value = v.replace(prefix_to_strip, '') else: stripped_value = v ret[stripped_key] = stripped_value return ret self.entries = StripEntries(self.entries) self.comments = StripEntries(self.comments) def _NormalizeNames(self): self.entries = _TransformKeys(self.entries, _KCamelToShouty) self.comments = _TransformKeys(self.comments, _KCamelToShouty) def _TransformKeys(d, func): """Normalize keys in |d| and update references to old keys in |d| values.""" normal_keys = {k: func(k) for k in d} ret = collections.OrderedDict() for k, v in d.iteritems(): # Need to transform values as well when the entry value was explicitly set # (since it could contain references to other enum entry values). if isinstance(v, basestring): for normal_key in normal_keys: v = v.replace(normal_key, normal_keys[normal_key]) ret[normal_keys[k]] = v return ret def _KCamelToShouty(s): """Convert |s| from kCamelCase or CamelCase to SHOUTY_CASE. kFooBar -> FOO_BAR FooBar -> FOO_BAR FooBAR9 -> FOO_BAR9 FooBARBaz -> FOO_BAR_BAZ """ if not re.match(r'^k?([A-Z][^A-Z]+|[A-Z0-9]+)+$', s): return s # Strip the leading k. s = re.sub(r'^k', '', s) # Add _ between title words and anything else. s = re.sub(r'([^_])([A-Z][^A-Z_0-9]+)', r'\1_\2', s) # Add _ between lower -> upper transitions. s = re.sub(r'([^A-Z_0-9])([A-Z])', r'\1_\2', s) return s.upper() class DirectiveSet(object): class_name_override_key = 'CLASS_NAME_OVERRIDE' enum_package_key = 'ENUM_PACKAGE' prefix_to_strip_key = 'PREFIX_TO_STRIP' known_keys = [class_name_override_key, enum_package_key, prefix_to_strip_key] def __init__(self): self._directives = {} def Update(self, key, value): if key not in DirectiveSet.known_keys: raise Exception("Unknown directive: " + key) self._directives[key] = value @property def empty(self): return len(self._directives) == 0 def UpdateDefinition(self, definition): definition.class_name_override = self._directives.get( DirectiveSet.class_name_override_key, '') definition.enum_package = self._directives.get( DirectiveSet.enum_package_key) definition.prefix_to_strip = self._directives.get( DirectiveSet.prefix_to_strip_key) class HeaderParser(object): single_line_comment_re = re.compile(r'\s*//\s*([^\n]*)') multi_line_comment_start_re = re.compile(r'\s*/\*') enum_line_re = re.compile(r'^\s*(\w+)(\s*\=\s*([^,\n]+))?,?') enum_end_re = re.compile(r'^\s*}\s*;\.*$') generator_error_re = re.compile(r'^\s*//\s+GENERATED_JAVA_(\w+)\s*:\s*$') generator_directive_re = re.compile( r'^\s*//\s+GENERATED_JAVA_(\w+)\s*:\s*([\.\w]+)$') multi_line_generator_directive_start_re = re.compile( r'^\s*//\s+GENERATED_JAVA_(\w+)\s*:\s*\(([\.\w]*)$') multi_line_directive_continuation_re = re.compile(r'^\s*//\s+([\.\w]+)$') multi_line_directive_end_re = re.compile(r'^\s*//\s+([\.\w]*)\)$') optional_class_or_struct_re = r'(class|struct)?' enum_name_re = r'(\w+)' optional_fixed_type_re = r'(\:\s*(\w+\s*\w+?))?' enum_start_re = re.compile(r'^\s*(?:\[cpp.*\])?\s*enum\s+' + optional_class_or_struct_re + '\s*' + enum_name_re + '\s*' + optional_fixed_type_re + '\s*{\s*') enum_single_line_re = re.compile( r'^\s*(?:\[cpp.*\])?\s*enum.*{(?P.*)}.*$') def __init__(self, lines, path=''): self._lines = lines self._path = path self._enum_definitions = [] self._in_enum = False self._current_definition = None self._current_comments = [] self._generator_directives = DirectiveSet() self._multi_line_generator_directive = None self._current_enum_entry = '' def _ApplyGeneratorDirectives(self): self._generator_directives.UpdateDefinition(self._current_definition) self._generator_directives = DirectiveSet() def ParseDefinitions(self): for line in self._lines: self._ParseLine(line) return self._enum_definitions def _ParseLine(self, line): if self._multi_line_generator_directive: self._ParseMultiLineDirectiveLine(line) elif not self._in_enum: self._ParseRegularLine(line) else: self._ParseEnumLine(line) def _ParseEnumLine(self, line): if HeaderParser.multi_line_comment_start_re.match(line): raise Exception('Multi-line comments in enums are not supported in ' + self._path) enum_comment = HeaderParser.single_line_comment_re.match(line) if enum_comment: comment = enum_comment.groups()[0] if comment: self._current_comments.append(comment) elif HeaderParser.enum_end_re.match(line): self._FinalizeCurrentEnumDefinition() else: self._AddToCurrentEnumEntry(line) if ',' in line: self._ParseCurrentEnumEntry() def _ParseSingleLineEnum(self, line): for entry in line.split(','): self._AddToCurrentEnumEntry(entry) self._ParseCurrentEnumEntry() self._FinalizeCurrentEnumDefinition() def _ParseCurrentEnumEntry(self): if not self._current_enum_entry: return enum_entry = HeaderParser.enum_line_re.match(self._current_enum_entry) if not enum_entry: raise Exception('Unexpected error while attempting to parse %s as enum ' 'entry.' % self._current_enum_entry) enum_key = enum_entry.groups()[0] enum_value = enum_entry.groups()[2] self._current_definition.AppendEntry(enum_key, enum_value) if self._current_comments: self._current_definition.AppendEntryComment( enum_key, ' '.join(self._current_comments)) self._current_comments = [] self._current_enum_entry = '' def _AddToCurrentEnumEntry(self, line): self._current_enum_entry += ' ' + line.strip() def _FinalizeCurrentEnumDefinition(self): if self._current_enum_entry: self._ParseCurrentEnumEntry() self._ApplyGeneratorDirectives() self._current_definition.Finalize() self._enum_definitions.append(self._current_definition) self._current_definition = None self._in_enum = False def _ParseMultiLineDirectiveLine(self, line): multi_line_directive_continuation = ( HeaderParser.multi_line_directive_continuation_re.match(line)) multi_line_directive_end = ( HeaderParser.multi_line_directive_end_re.match(line)) if multi_line_directive_continuation: value_cont = multi_line_directive_continuation.groups()[0] self._multi_line_generator_directive[1].append(value_cont) elif multi_line_directive_end: directive_name = self._multi_line_generator_directive[0] directive_value = "".join(self._multi_line_generator_directive[1]) directive_value += multi_line_directive_end.groups()[0] self._multi_line_generator_directive = None self._generator_directives.Update(directive_name, directive_value) else: raise Exception('Malformed multi-line directive declaration in ' + self._path) def _ParseRegularLine(self, line): enum_start = HeaderParser.enum_start_re.match(line) generator_directive_error = HeaderParser.generator_error_re.match(line) generator_directive = HeaderParser.generator_directive_re.match(line) multi_line_generator_directive_start = ( HeaderParser.multi_line_generator_directive_start_re.match(line)) single_line_enum = HeaderParser.enum_single_line_re.match(line) if generator_directive_error: raise Exception('Malformed directive declaration in ' + self._path + '. Use () for multi-line directives. E.g.\n' + '// GENERATED_JAVA_ENUM_PACKAGE: (\n' + '// foo.package)') elif generator_directive: directive_name = generator_directive.groups()[0] directive_value = generator_directive.groups()[1] self._generator_directives.Update(directive_name, directive_value) elif multi_line_generator_directive_start: directive_name = multi_line_generator_directive_start.groups()[0] directive_value = multi_line_generator_directive_start.groups()[1] self._multi_line_generator_directive = (directive_name, [directive_value]) elif enum_start or single_line_enum: if self._generator_directives.empty: return self._current_definition = EnumDefinition( original_enum_name=enum_start.groups()[1], fixed_type=enum_start.groups()[3]) self._in_enum = True if single_line_enum: self._ParseSingleLineEnum(single_line_enum.group('enum_entries')) def GetScriptName(): return os.path.basename(os.path.abspath(sys.argv[0])) def DoGenerate(source_paths): for source_path in source_paths: enum_definitions = DoParseHeaderFile(source_path) if not enum_definitions: raise Exception('No enums found in %s\n' 'Did you forget prefixing enums with ' '"// GENERATED_JAVA_ENUM_PACKAGE: foo"?' % source_path) for enum_definition in enum_definitions: package_path = enum_definition.enum_package.replace('.', os.path.sep) file_name = enum_definition.class_name + '.java' output_path = os.path.join(package_path, file_name) output = GenerateOutput(source_path, enum_definition) yield output_path, output def DoParseHeaderFile(path): with open(path) as f: return HeaderParser(f.readlines(), path).ParseDefinitions() def GenerateOutput(source_path, enum_definition): template = Template(""" // Copyright ${YEAR} The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // This file is autogenerated by // ${SCRIPT_NAME} // From // ${SOURCE_PATH} package ${PACKAGE}; import android.support.annotation.IntDef; import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; @IntDef({ ${INT_DEF} }) @Retention(RetentionPolicy.SOURCE) public @interface ${CLASS_NAME} { ${ENUM_ENTRIES} } """) enum_template = Template(' int ${NAME} = ${VALUE};') enum_entries_string = [] enum_names = [] for enum_name, enum_value in enum_definition.entries.iteritems(): values = { 'NAME': enum_name, 'VALUE': enum_value, } enum_comments = enum_definition.comments.get(enum_name) if enum_comments: enum_comments_indent = ' * ' comments_line_wrapper = textwrap.TextWrapper( initial_indent=enum_comments_indent, subsequent_indent=enum_comments_indent, width=100) enum_entries_string.append(' /**') enum_entries_string.append( '\n'.join(comments_line_wrapper.wrap(enum_comments))) enum_entries_string.append(' */') enum_entries_string.append(enum_template.substitute(values)) enum_names.append(enum_definition.class_name + '.' + enum_name) enum_entries_string = '\n'.join(enum_entries_string) enum_names_indent = ' ' * 4 wrapper = textwrap.TextWrapper(initial_indent = enum_names_indent, subsequent_indent = enum_names_indent, width = 100) enum_names_string = '\n'.join(wrapper.wrap(', '.join(enum_names))) values = { 'CLASS_NAME': enum_definition.class_name, 'ENUM_ENTRIES': enum_entries_string, 'PACKAGE': enum_definition.enum_package, 'INT_DEF': enum_names_string, 'SCRIPT_NAME': GetScriptName(), 'SOURCE_PATH': source_path, 'YEAR': str(date.today().year) } return template.substitute(values) def DoMain(argv): usage = 'usage: %prog [options] [output_dir] input_file(s)...' parser = optparse.OptionParser(usage=usage) build_utils.AddDepfileOption(parser) parser.add_option('--srcjar', help='When specified, a .srcjar at the given path is ' 'created instead of individual .java files.') options, args = parser.parse_args(argv) if not args: parser.error('Need to specify at least one input file') input_paths = args with zipfile.ZipFile(options.srcjar, 'w', zipfile.ZIP_STORED) as srcjar: for output_path, data in DoGenerate(input_paths): build_utils.AddToZipHermetic(srcjar, output_path, data=data) if options.depfile: build_utils.WriteDepfile(options.depfile, options.srcjar) if __name__ == '__main__': DoMain(sys.argv[1:])