#!/usr/bin/env python # # Copyright 2012 the V8 project authors. All rights reserved. # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are # met: # # * Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # * Redistributions in binary form must reproduce the above # copyright notice, this list of conditions and the following # disclaimer in the documentation and/or other materials provided # with the distribution. # * Neither the name of Google Inc. nor the names of its # contributors may be used to endorse or promote products derived # from this software without specific prior written permission. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS # "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT # LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR # A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT # OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, # SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT # LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY # THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT # (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE # OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. # # # Emits a C++ file to be compiled and linked into libv8 to support postmortem # debugging tools. Most importantly, this tool emits constants describing V8 # internals: # # v8dbg_type_CLASS__TYPE = VALUE Describes class type values # v8dbg_class_CLASS__FIELD__TYPE = OFFSET Describes class fields # v8dbg_parent_CLASS__PARENT Describes class hierarchy # v8dbg_frametype_NAME = VALUE Describes stack frame values # v8dbg_off_fp_NAME = OFFSET Frame pointer offsets # v8dbg_prop_NAME = OFFSET Object property offsets # v8dbg_NAME = VALUE Miscellaneous values # # These constants are declared as global integers so that they'll be present in # the generated libv8 binary. # # for py2/py3 compatibility from __future__ import print_function import io import re import sys # # Miscellaneous constants such as tags and masks used for object identification, # enumeration values used as indexes in internal tables, etc.. # consts_misc = [ { 'name': 'FirstNonstringType', 'value': 'FIRST_NONSTRING_TYPE' }, { 'name': 'APIObjectType', 'value': 'JS_API_OBJECT_TYPE' }, { 'name': 'SpecialAPIObjectType', 'value': 'JS_SPECIAL_API_OBJECT_TYPE' }, { 'name': 'FirstContextType', 'value': 'FIRST_CONTEXT_TYPE' }, { 'name': 'LastContextType', 'value': 'LAST_CONTEXT_TYPE' }, { 'name': 'IsNotStringMask', 'value': 'kIsNotStringMask' }, { 'name': 'StringTag', 'value': 'kStringTag' }, { 'name': 'StringEncodingMask', 'value': 'kStringEncodingMask' }, { 'name': 'TwoByteStringTag', 'value': 'kTwoByteStringTag' }, { 'name': 'OneByteStringTag', 'value': 'kOneByteStringTag' }, { 'name': 'StringRepresentationMask', 'value': 'kStringRepresentationMask' }, { 'name': 'SeqStringTag', 'value': 'kSeqStringTag' }, { 'name': 'ConsStringTag', 'value': 'kConsStringTag' }, { 'name': 'ExternalStringTag', 'value': 'kExternalStringTag' }, { 'name': 'SlicedStringTag', 'value': 'kSlicedStringTag' }, { 'name': 'ThinStringTag', 'value': 'kThinStringTag' }, { 'name': 'HeapObjectTag', 'value': 'kHeapObjectTag' }, { 'name': 'HeapObjectTagMask', 'value': 'kHeapObjectTagMask' }, { 'name': 'SmiTag', 'value': 'kSmiTag' }, { 'name': 'SmiTagMask', 'value': 'kSmiTagMask' }, { 'name': 'SmiValueShift', 'value': 'kSmiTagSize' }, { 'name': 'SmiShiftSize', 'value': 'kSmiShiftSize' }, { 'name': 'SystemPointerSize', 'value': 'kSystemPointerSize' }, { 'name': 'SystemPointerSizeLog2', 'value': 'kSystemPointerSizeLog2' }, { 'name': 'TaggedSize', 'value': 'kTaggedSize' }, { 'name': 'TaggedSizeLog2', 'value': 'kTaggedSizeLog2' }, { 'name': 'OddballFalse', 'value': 'Oddball::kFalse' }, { 'name': 'OddballTrue', 'value': 'Oddball::kTrue' }, { 'name': 'OddballTheHole', 'value': 'Oddball::kTheHole' }, { 'name': 'OddballNull', 'value': 'Oddball::kNull' }, { 'name': 'OddballArgumentsMarker', 'value': 'Oddball::kArgumentsMarker' }, { 'name': 'OddballUndefined', 'value': 'Oddball::kUndefined' }, { 'name': 'OddballUninitialized', 'value': 'Oddball::kUninitialized' }, { 'name': 'OddballOther', 'value': 'Oddball::kOther' }, { 'name': 'OddballException', 'value': 'Oddball::kException' }, { 'name': 'ContextRegister', 'value': 'kContextRegister.code()' }, { 'name': 'ReturnRegister0', 'value': 'kReturnRegister0.code()' }, { 'name': 'JSFunctionRegister', 'value': 'kJSFunctionRegister.code()' }, { 'name': 'InterpreterBytecodeOffsetRegister', 'value': 'kInterpreterBytecodeOffsetRegister.code()' }, { 'name': 'InterpreterBytecodeArrayRegister', 'value': 'kInterpreterBytecodeArrayRegister.code()' }, { 'name': 'RuntimeCallFunctionRegister', 'value': 'kRuntimeCallFunctionRegister.code()' }, { 'name': 'prop_kind_Data', 'value': 'kData' }, { 'name': 'prop_kind_Accessor', 'value': 'kAccessor' }, { 'name': 'prop_kind_mask', 'value': 'PropertyDetails::KindField::kMask' }, { 'name': 'prop_location_Descriptor', 'value': 'kDescriptor' }, { 'name': 'prop_location_Field', 'value': 'kField' }, { 'name': 'prop_location_mask', 'value': 'PropertyDetails::LocationField::kMask' }, { 'name': 'prop_location_shift', 'value': 'PropertyDetails::LocationField::kShift' }, { 'name': 'prop_attributes_NONE', 'value': 'NONE' }, { 'name': 'prop_attributes_READ_ONLY', 'value': 'READ_ONLY' }, { 'name': 'prop_attributes_DONT_ENUM', 'value': 'DONT_ENUM' }, { 'name': 'prop_attributes_DONT_DELETE', 'value': 'DONT_DELETE' }, { 'name': 'prop_attributes_mask', 'value': 'PropertyDetails::AttributesField::kMask' }, { 'name': 'prop_attributes_shift', 'value': 'PropertyDetails::AttributesField::kShift' }, { 'name': 'prop_index_mask', 'value': 'PropertyDetails::FieldIndexField::kMask' }, { 'name': 'prop_index_shift', 'value': 'PropertyDetails::FieldIndexField::kShift' }, { 'name': 'prop_representation_mask', 'value': 'PropertyDetails::RepresentationField::kMask' }, { 'name': 'prop_representation_shift', 'value': 'PropertyDetails::RepresentationField::kShift' }, { 'name': 'prop_representation_smi', 'value': 'Representation::Kind::kSmi' }, { 'name': 'prop_representation_double', 'value': 'Representation::Kind::kDouble' }, { 'name': 'prop_representation_heapobject', 'value': 'Representation::Kind::kHeapObject' }, { 'name': 'prop_representation_tagged', 'value': 'Representation::Kind::kTagged' }, { 'name': 'prop_desc_key', 'value': 'DescriptorArray::kEntryKeyIndex' }, { 'name': 'prop_desc_details', 'value': 'DescriptorArray::kEntryDetailsIndex' }, { 'name': 'prop_desc_value', 'value': 'DescriptorArray::kEntryValueIndex' }, { 'name': 'prop_desc_size', 'value': 'DescriptorArray::kEntrySize' }, { 'name': 'elements_fast_holey_elements', 'value': 'HOLEY_ELEMENTS' }, { 'name': 'elements_fast_elements', 'value': 'PACKED_ELEMENTS' }, { 'name': 'elements_dictionary_elements', 'value': 'DICTIONARY_ELEMENTS' }, { 'name': 'bit_field2_elements_kind_mask', 'value': 'Map::Bits2::ElementsKindBits::kMask' }, { 'name': 'bit_field2_elements_kind_shift', 'value': 'Map::Bits2::ElementsKindBits::kShift' }, { 'name': 'bit_field3_is_dictionary_map_shift', 'value': 'Map::Bits3::IsDictionaryMapBit::kShift' }, { 'name': 'bit_field3_number_of_own_descriptors_mask', 'value': 'Map::Bits3::NumberOfOwnDescriptorsBits::kMask' }, { 'name': 'bit_field3_number_of_own_descriptors_shift', 'value': 'Map::Bits3::NumberOfOwnDescriptorsBits::kShift' }, { 'name': 'class_Map__instance_descriptors_offset', 'value': 'Map::kInstanceDescriptorsOffset' }, { 'name': 'off_fp_context_or_frame_type', 'value': 'CommonFrameConstants::kContextOrFrameTypeOffset'}, { 'name': 'off_fp_context', 'value': 'StandardFrameConstants::kContextOffset' }, { 'name': 'off_fp_constant_pool', 'value': 'StandardFrameConstants::kConstantPoolOffset' }, { 'name': 'off_fp_function', 'value': 'StandardFrameConstants::kFunctionOffset' }, { 'name': 'off_fp_args', 'value': 'StandardFrameConstants::kFixedFrameSizeAboveFp' }, { 'name': 'scopeinfo_idx_nparams', 'value': 'ScopeInfo::kParameterCount' }, { 'name': 'scopeinfo_idx_ncontextlocals', 'value': 'ScopeInfo::kContextLocalCount' }, { 'name': 'scopeinfo_idx_first_vars', 'value': 'ScopeInfo::kVariablePartIndex' }, { 'name': 'jsarray_buffer_was_detached_mask', 'value': 'JSArrayBuffer::WasDetachedBit::kMask' }, { 'name': 'jsarray_buffer_was_detached_shift', 'value': 'JSArrayBuffer::WasDetachedBit::kShift' }, { 'name': 'context_idx_scope_info', 'value': 'Context::SCOPE_INFO_INDEX' }, { 'name': 'context_idx_prev', 'value': 'Context::PREVIOUS_INDEX' }, { 'name': 'context_min_slots', 'value': 'Context::MIN_CONTEXT_SLOTS' }, { 'name': 'native_context_embedder_data_offset', 'value': 'Internals::kNativeContextEmbedderDataOffset' }, { 'name': 'namedictionaryshape_prefix_size', 'value': 'NameDictionaryShape::kPrefixSize' }, { 'name': 'namedictionaryshape_entry_size', 'value': 'NameDictionaryShape::kEntrySize' }, { 'name': 'globaldictionaryshape_entry_size', 'value': 'GlobalDictionaryShape::kEntrySize' }, { 'name': 'namedictionary_prefix_start_index', 'value': 'NameDictionary::kPrefixStartIndex' }, { 'name': 'numberdictionaryshape_prefix_size', 'value': 'NumberDictionaryShape::kPrefixSize' }, { 'name': 'numberdictionaryshape_entry_size', 'value': 'NumberDictionaryShape::kEntrySize' }, { 'name': 'simplenumberdictionaryshape_prefix_size', 'value': 'SimpleNumberDictionaryShape::kPrefixSize' }, { 'name': 'simplenumberdictionaryshape_entry_size', 'value': 'SimpleNumberDictionaryShape::kEntrySize' }, { 'name': 'type_JSError__JS_ERROR_TYPE', 'value': 'JS_ERROR_TYPE' }, ]; # # The following useful fields are missing accessors, so we define fake ones. # Please note that extra accessors should _only_ be added to expose offsets that # can be used to access actual V8 objects' properties. They should not be added # for exposing other values. For instance, enumeration values or class' # constants should be exposed by adding an entry in the "consts_misc" table, not # in this "extras_accessors" table. # extras_accessors = [ 'JSFunction, context, Context, kContextOffset', 'JSFunction, shared, SharedFunctionInfo, kSharedFunctionInfoOffset', 'HeapObject, map, Map, kMapOffset', 'JSObject, elements, Object, kElementsOffset', 'JSObject, internal_fields, uintptr_t, kHeaderSize', 'FixedArray, data, uintptr_t, kHeaderSize', 'JSArrayBuffer, backing_store, uintptr_t, kBackingStoreOffset', 'JSArrayBuffer, byte_length, size_t, kByteLengthOffset', 'JSArrayBufferView, byte_length, size_t, kByteLengthOffset', 'JSArrayBufferView, byte_offset, size_t, kByteOffsetOffset', 'JSDate, value, Object, kValueOffset', 'JSRegExp, source, Object, kSourceOffset', 'JSTypedArray, external_pointer, uintptr_t, kExternalPointerOffset', 'JSTypedArray, length, Object, kLengthOffset', 'Map, instance_size_in_words, char, kInstanceSizeInWordsOffset', 'Map, inobject_properties_start_or_constructor_function_index, char, kInObjectPropertiesStartOrConstructorFunctionIndexOffset', 'Map, instance_type, uint16_t, kInstanceTypeOffset', 'Map, bit_field, char, kBitFieldOffset', 'Map, bit_field2, char, kBitField2Offset', 'Map, bit_field3, int, kBitField3Offset', 'Map, prototype, Object, kPrototypeOffset', 'Oddball, kind_offset, int, kKindOffset', 'HeapNumber, value, double, kValueOffset', 'ExternalString, resource, Object, kResourceOffset', 'SeqOneByteString, chars, char, kHeaderSize', 'SeqTwoByteString, chars, char, kHeaderSize', 'UncompiledData, inferred_name, String, kInferredNameOffset', 'UncompiledData, start_position, int32_t, kStartPositionOffset', 'UncompiledData, end_position, int32_t, kEndPositionOffset', 'SharedFunctionInfo, raw_function_token_offset, int16_t, kFunctionTokenOffsetOffset', 'SharedFunctionInfo, internal_formal_parameter_count, uint16_t, kFormalParameterCountOffset', 'SharedFunctionInfo, flags, int, kFlagsOffset', 'SharedFunctionInfo, length, uint16_t, kLengthOffset', 'SlicedString, parent, String, kParentOffset', 'Code, instruction_start, uintptr_t, kHeaderSize', 'Code, instruction_size, int, kInstructionSizeOffset', 'String, length, int32_t, kLengthOffset', 'DescriptorArray, header_size, uintptr_t, kHeaderSize', 'ConsString, first, String, kFirstOffset', 'ConsString, second, String, kSecondOffset', 'SlicedString, offset, SMI, kOffsetOffset', 'ThinString, actual, String, kActualOffset', 'Symbol, name, Object, kDescriptionOffset', ]; # # The following is a whitelist of classes we expect to find when scanning the # source code. This list is not exhaustive, but it's still useful to identify # when this script gets out of sync with the source. See load_objects(). # expected_classes = [ 'ConsString', 'FixedArray', 'HeapNumber', 'JSArray', 'JSFunction', 'JSObject', 'JSRegExp', 'JSPrimitiveWrapper', 'Map', 'Oddball', 'Script', 'SeqOneByteString', 'SharedFunctionInfo', 'ScopeInfo', 'JSPromise', 'DescriptorArray' ]; # # The following structures store high-level representations of the structures # for which we're going to emit descriptive constants. # types = {}; # set of all type names typeclasses = {}; # maps type names to corresponding class names klasses = {}; # known classes, including parents fields = []; # field declarations header = ''' /* * This file is generated by %s. Do not edit directly. */ #include "src/init/v8.h" #include "src/codegen/register-arch.h" #include "src/execution/frames.h" #include "src/execution/frames-inl.h" /* for architecture-specific frame constants */ #include "src/objects/contexts.h" #include "src/objects/objects.h" #include "src/objects/data-handler.h" #include "src/objects/js-promise.h" #include "src/objects/js-regexp-string-iterator.h" namespace v8 { namespace internal { extern "C" { /* stack frame constants */ #define FRAME_CONST(value, klass) \ V8_EXPORT int v8dbg_frametype_##klass = StackFrame::value; STACK_FRAME_TYPE_LIST(FRAME_CONST) #undef FRAME_CONST ''' % sys.argv[0]; footer = ''' } } } ''' # # Get the base class # def get_base_class(klass): if (klass == 'Object'): return klass; if (not (klass in klasses)): return None; k = klasses[klass]; return get_base_class(k['parent']); # # Loads class hierarchy and type information from "objects.h" etc. # def load_objects(): # # Construct a dictionary for the classes we're sure should be present. # checktypes = {}; for klass in expected_classes: checktypes[klass] = True; for filename in sys.argv[2:]: if not filename.endswith("-inl.h"): load_objects_from_file(filename, checktypes) if (len(checktypes) > 0): for klass in checktypes: print('error: expected class \"%s\" not found' % klass); sys.exit(1); def load_objects_from_file(objfilename, checktypes): objfile = io.open(objfilename, 'r', encoding='utf-8'); in_insttype = False; in_torque_insttype = False in_torque_fulldef = False typestr = ''; torque_typestr = '' torque_fulldefstr = '' uncommented_file = '' # # Iterate the header file line-by-line to collect type and class # information. For types, we accumulate a string representing the entire # InstanceType enum definition and parse it later because it's easier to # do so without the embedded newlines. # for line in objfile: if (line.startswith('enum InstanceType : uint16_t {')): in_insttype = True; continue; if (line.startswith('#define TORQUE_ASSIGNED_INSTANCE_TYPE_LIST')): in_torque_insttype = True continue if (line.startswith('#define TORQUE_INSTANCE_CHECKERS_SINGLE_FULLY_DEFINED')): in_torque_fulldef = True continue if (in_insttype and line.startswith('};')): in_insttype = False; continue; if (in_torque_insttype and (not line or line.isspace())): in_torque_insttype = False continue if (in_torque_fulldef and (not line or line.isspace())): in_torque_fulldef = False continue line = re.sub('//.*', '', line.strip()); if (in_insttype): typestr += line; continue; if (in_torque_insttype): torque_typestr += line continue if (in_torque_fulldef): torque_fulldefstr += line continue uncommented_file += '\n' + line for match in re.finditer(r'\nclass(?:\s+V8_EXPORT(?:_PRIVATE)?)?' r'\s+(\w[^:;]*)' r'(?:: public (\w[^{]*))?\s*{\s*', uncommented_file): klass = match.group(1).strip(); pklass = match.group(2); if (pklass): # Check for generated Torque class. gen_match = re.match( r'TorqueGenerated\w+\s*<\s*\w+,\s*(\w+)\s*>', pklass) if (gen_match): pklass = gen_match.group(1) # Strip potential template arguments from parent # class. match = re.match(r'(\w+)(<.*>)?', pklass.strip()); pklass = match.group(1).strip(); klasses[klass] = { 'parent': pklass }; # # Process the instance type declaration. # entries = typestr.split(','); for entry in entries: types[re.sub('\s*=.*', '', entry).lstrip()] = True; entries = torque_typestr.split('\\') for entry in entries: types[re.sub(r' *V\(|\) *', '', entry)] = True entries = torque_fulldefstr.split('\\') for entry in entries: entry = entry.strip() if not entry: continue idx = entry.find('('); rest = entry[idx + 1: len(entry) - 1]; args = re.split('\s*,\s*', rest); typename = args[0] typeconst = args[1] types[typeconst] = True typeclasses[typeconst] = typename # # Infer class names for each type based on a systematic transformation. # For example, "JS_FUNCTION_TYPE" becomes "JSFunction". We find the # class for each type rather than the other way around because there are # fewer cases where one type maps to more than one class than the other # way around. # for type in types: usetype = type # # Remove the "_TYPE" suffix and then convert to camel case, # except that a "JS" prefix remains uppercase (as in # "JS_FUNCTION_TYPE" => "JSFunction"). # if (not usetype.endswith('_TYPE')): continue; usetype = usetype[0:len(usetype) - len('_TYPE')]; parts = usetype.split('_'); cctype = ''; if (parts[0] == 'JS'): cctype = 'JS'; start = 1; else: cctype = ''; start = 0; for ii in range(start, len(parts)): part = parts[ii]; cctype += part[0].upper() + part[1:].lower(); # # Mapping string types is more complicated. Both types and # class names for Strings specify a representation (e.g., Seq, # Cons, External, or Sliced) and an encoding (TwoByte/OneByte), # In the simplest case, both of these are explicit in both # names, as in: # # EXTERNAL_ONE_BYTE_STRING_TYPE => ExternalOneByteString # # However, either the representation or encoding can be omitted # from the type name, in which case "Seq" and "TwoByte" are # assumed, as in: # # STRING_TYPE => SeqTwoByteString # # Additionally, sometimes the type name has more information # than the class, as in: # # CONS_ONE_BYTE_STRING_TYPE => ConsString # # To figure this out dynamically, we first check for a # representation and encoding and add them if they're not # present. If that doesn't yield a valid class name, then we # strip out the representation. # if (cctype.endswith('String')): if (cctype.find('Cons') == -1 and cctype.find('External') == -1 and cctype.find('Sliced') == -1): if (cctype.find('OneByte') != -1): cctype = re.sub('OneByteString$', 'SeqOneByteString', cctype); else: cctype = re.sub('String$', 'SeqString', cctype); if (cctype.find('OneByte') == -1): cctype = re.sub('String$', 'TwoByteString', cctype); if (not (cctype in klasses)): cctype = re.sub('OneByte', '', cctype); cctype = re.sub('TwoByte', '', cctype); # # Despite all that, some types have no corresponding class. # if (cctype in klasses): typeclasses[type] = cctype; if (cctype in checktypes): del checktypes[cctype]; # # For a given macro call, pick apart the arguments and return an object # describing the corresponding output constant. See load_fields(). # def parse_field(call): # Replace newlines with spaces. for ii in range(0, len(call)): if (call[ii] == '\n'): call[ii] == ' '; idx = call.find('('); kind = call[0:idx]; rest = call[idx + 1: len(call) - 1]; args = re.split('\s*,\s*', rest); consts = []; klass = args[0]; field = args[1]; dtype = None offset = None if kind.startswith('WEAK_ACCESSORS'): dtype = 'weak' offset = args[2]; elif not (kind.startswith('SMI_ACCESSORS') or kind.startswith('ACCESSORS_TO_SMI')): dtype = args[2].replace('<', '_').replace('>', '_') offset = args[3]; else: offset = args[2]; dtype = 'SMI' assert(offset is not None and dtype is not None); return ({ 'name': 'class_%s__%s__%s' % (klass, field, dtype), 'value': '%s::%s' % (klass, offset) }); # # Load field offset information from objects-inl.h etc. # def load_fields(): for filename in sys.argv[2:]: if filename.endswith("-inl.h"): load_fields_from_file(filename) for body in extras_accessors: fields.append(parse_field('ACCESSORS(%s)' % body)); def load_fields_from_file(filename): inlfile = io.open(filename, 'r', encoding='utf-8'); # # Each class's fields and the corresponding offsets are described in the # source by calls to macros like "ACCESSORS" (and friends). All we do # here is extract these macro invocations, taking into account that they # may span multiple lines and may contain nested parentheses. We also # call parse_field() to pick apart the invocation. # prefixes = [ 'ACCESSORS', 'ACCESSORS2', 'ACCESSORS_GCSAFE', 'SMI_ACCESSORS', 'ACCESSORS_TO_SMI', 'RELEASE_ACQUIRE_ACCESSORS', 'WEAK_ACCESSORS' ]; prefixes += ([ prefix + "_CHECKED" for prefix in prefixes ] + [ prefix + "_CHECKED2" for prefix in prefixes ]) current = ''; opens = 0; for line in inlfile: if (opens > 0): # Continuation line for ii in range(0, len(line)): if (line[ii] == '('): opens += 1; elif (line[ii] == ')'): opens -= 1; if (opens == 0): break; current += line[0:ii + 1]; continue; for prefix in prefixes: if (not line.startswith(prefix + '(')): continue; if (len(current) > 0): fields.append(parse_field(current)); current = ''; for ii in range(len(prefix), len(line)): if (line[ii] == '('): opens += 1; elif (line[ii] == ')'): opens -= 1; if (opens == 0): break; current += line[0:ii + 1]; if (len(current) > 0): fields.append(parse_field(current)); current = ''; # # Emit a block of constants. # def emit_set(out, consts): lines = set() # To remove duplicates. # Fix up overzealous parses. This could be done inside the # parsers but as there are several, it's easiest to do it here. ws = re.compile('\s+') for const in consts: name = ws.sub('', const['name']) value = ws.sub('', str(const['value'])) # Can be a number. lines.add('V8_EXPORT int v8dbg_%s = %s;\n' % (name, value)) for line in lines: out.write(line); out.write('\n'); # # Emit the whole output file. # def emit_config(): out = open(sys.argv[1], 'w'); out.write(header); out.write('/* miscellaneous constants */\n'); emit_set(out, consts_misc); out.write('/* class type information */\n'); consts = []; for typename in sorted(typeclasses): klass = typeclasses[typename]; consts.append({ 'name': 'type_%s__%s' % (klass, typename), 'value': typename }); emit_set(out, consts); out.write('/* class hierarchy information */\n'); consts = []; for klassname in sorted(klasses): pklass = klasses[klassname]['parent']; bklass = get_base_class(klassname); if (bklass != 'Object'): continue; if (pklass == None): continue; consts.append({ 'name': 'parent_%s__%s' % (klassname, pklass), 'value': 0 }); emit_set(out, consts); out.write('/* field information */\n'); emit_set(out, fields); out.write(footer); if (len(sys.argv) < 4): print('usage: %s output.cc objects.h objects-inl.h' % sys.argv[0]); sys.exit(2); load_objects(); load_fields(); emit_config();