78ab4379d3
Third stage of implementing an out-of-line constant pool for Arm. This CL adds a ConstantPool field to Code objects and initializes the pp register on function entry, and saves the pp register on the stack frame. The ConstantPool object is always empty and is unused currently. R=ulan@chromium.org Review URL: https://codereview.chromium.org/88043002 git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@18425 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
494 lines
18 KiB
Python
494 lines
18 KiB
Python
#!/usr/bin/env python
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#
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# Copyright 2012 the V8 project authors. All rights reserved.
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# Redistribution and use in source and binary forms, with or without
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# modification, are permitted provided that the following conditions are
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# met:
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#
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# * Redistributions of source code must retain the above copyright
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# notice, this list of conditions and the following disclaimer.
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# * Redistributions in binary form must reproduce the above
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# copyright notice, this list of conditions and the following
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# disclaimer in the documentation and/or other materials provided
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# with the distribution.
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# * Neither the name of Google Inc. nor the names of its
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# contributors may be used to endorse or promote products derived
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# from this software without specific prior written permission.
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#
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# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#
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#
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# Emits a C++ file to be compiled and linked into libv8 to support postmortem
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# debugging tools. Most importantly, this tool emits constants describing V8
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# internals:
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#
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# v8dbg_type_CLASS__TYPE = VALUE Describes class type values
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# v8dbg_class_CLASS__FIELD__TYPE = OFFSET Describes class fields
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# v8dbg_parent_CLASS__PARENT Describes class hierarchy
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# v8dbg_frametype_NAME = VALUE Describes stack frame values
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# v8dbg_off_fp_NAME = OFFSET Frame pointer offsets
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# v8dbg_prop_NAME = OFFSET Object property offsets
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# v8dbg_NAME = VALUE Miscellaneous values
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#
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# These constants are declared as global integers so that they'll be present in
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# the generated libv8 binary.
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#
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import re
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import sys
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#
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# Miscellaneous constants, tags, and masks used for object identification.
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#
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consts_misc = [
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{ 'name': 'FirstNonstringType', 'value': 'FIRST_NONSTRING_TYPE' },
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{ 'name': 'IsNotStringMask', 'value': 'kIsNotStringMask' },
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{ 'name': 'StringTag', 'value': 'kStringTag' },
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{ 'name': 'NotStringTag', 'value': 'kNotStringTag' },
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{ 'name': 'StringEncodingMask', 'value': 'kStringEncodingMask' },
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{ 'name': 'TwoByteStringTag', 'value': 'kTwoByteStringTag' },
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{ 'name': 'AsciiStringTag', 'value': 'kOneByteStringTag' },
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{ 'name': 'StringRepresentationMask',
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'value': 'kStringRepresentationMask' },
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{ 'name': 'SeqStringTag', 'value': 'kSeqStringTag' },
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{ 'name': 'ConsStringTag', 'value': 'kConsStringTag' },
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{ 'name': 'ExternalStringTag', 'value': 'kExternalStringTag' },
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{ 'name': 'SlicedStringTag', 'value': 'kSlicedStringTag' },
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{ 'name': 'FailureTag', 'value': 'kFailureTag' },
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{ 'name': 'FailureTagMask', 'value': 'kFailureTagMask' },
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{ 'name': 'HeapObjectTag', 'value': 'kHeapObjectTag' },
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{ 'name': 'HeapObjectTagMask', 'value': 'kHeapObjectTagMask' },
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{ 'name': 'SmiTag', 'value': 'kSmiTag' },
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{ 'name': 'SmiTagMask', 'value': 'kSmiTagMask' },
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{ 'name': 'SmiValueShift', 'value': 'kSmiTagSize' },
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{ 'name': 'SmiShiftSize', 'value': 'kSmiShiftSize' },
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{ 'name': 'PointerSizeLog2', 'value': 'kPointerSizeLog2' },
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{ 'name': 'prop_idx_first',
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'value': 'DescriptorArray::kFirstIndex' },
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{ 'name': 'prop_type_field',
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'value': 'FIELD' },
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{ 'name': 'prop_type_first_phantom',
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'value': 'TRANSITION' },
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{ 'name': 'prop_type_mask',
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'value': 'PropertyDetails::TypeField::kMask' },
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{ 'name': 'prop_desc_key',
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'value': 'DescriptorArray::kDescriptorKey' },
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{ 'name': 'prop_desc_details',
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'value': 'DescriptorArray::kDescriptorDetails' },
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{ 'name': 'prop_desc_value',
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'value': 'DescriptorArray::kDescriptorValue' },
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{ 'name': 'prop_desc_size',
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'value': 'DescriptorArray::kDescriptorSize' },
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{ 'name': 'off_fp_context',
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'value': 'StandardFrameConstants::kContextOffset' },
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{ 'name': 'off_fp_constant_pool',
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'value': 'StandardFrameConstants::kConstantPoolOffset' },
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{ 'name': 'off_fp_marker',
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'value': 'StandardFrameConstants::kMarkerOffset' },
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{ 'name': 'off_fp_function',
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'value': 'JavaScriptFrameConstants::kFunctionOffset' },
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{ 'name': 'off_fp_args',
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'value': 'JavaScriptFrameConstants::kLastParameterOffset' },
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];
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#
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# The following useful fields are missing accessors, so we define fake ones.
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#
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extras_accessors = [
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'HeapObject, map, Map, kMapOffset',
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'JSObject, elements, Object, kElementsOffset',
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'FixedArray, data, uintptr_t, kHeaderSize',
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'Map, instance_attributes, int, kInstanceAttributesOffset',
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'Map, inobject_properties, int, kInObjectPropertiesOffset',
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'Map, instance_size, int, kInstanceSizeOffset',
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'HeapNumber, value, double, kValueOffset',
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'ConsString, first, String, kFirstOffset',
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'ConsString, second, String, kSecondOffset',
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'ExternalString, resource, Object, kResourceOffset',
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'SeqOneByteString, chars, char, kHeaderSize',
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'SeqTwoByteString, chars, char, kHeaderSize',
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'SharedFunctionInfo, code, Code, kCodeOffset',
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'SlicedString, parent, String, kParentOffset',
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'Code, instruction_start, uintptr_t, kHeaderSize',
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'Code, instruction_size, int, kInstructionSizeOffset',
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];
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#
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# The following is a whitelist of classes we expect to find when scanning the
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# source code. This list is not exhaustive, but it's still useful to identify
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# when this script gets out of sync with the source. See load_objects().
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#
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expected_classes = [
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'ConsString', 'FixedArray', 'HeapNumber', 'JSArray', 'JSFunction',
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'JSObject', 'JSRegExp', 'JSValue', 'Map', 'Oddball', 'Script',
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'SeqOneByteString', 'SharedFunctionInfo'
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];
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#
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# The following structures store high-level representations of the structures
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# for which we're going to emit descriptive constants.
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#
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types = {}; # set of all type names
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typeclasses = {}; # maps type names to corresponding class names
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klasses = {}; # known classes, including parents
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fields = []; # field declarations
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header = '''
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/*
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* This file is generated by %s. Do not edit directly.
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*/
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#include "v8.h"
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#include "frames.h"
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#include "frames-inl.h" /* for architecture-specific frame constants */
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using namespace v8::internal;
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extern "C" {
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/* stack frame constants */
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#define FRAME_CONST(value, klass) \
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int v8dbg_frametype_##klass = StackFrame::value;
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STACK_FRAME_TYPE_LIST(FRAME_CONST)
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#undef FRAME_CONST
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''' % sys.argv[0];
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footer = '''
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}
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'''
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#
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# Loads class hierarchy and type information from "objects.h".
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#
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def load_objects():
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objfilename = sys.argv[2];
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objfile = open(objfilename, 'r');
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in_insttype = False;
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typestr = '';
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#
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# Construct a dictionary for the classes we're sure should be present.
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#
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checktypes = {};
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for klass in expected_classes:
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checktypes[klass] = True;
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#
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# Iterate objects.h line-by-line to collect type and class information.
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# For types, we accumulate a string representing the entire InstanceType
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# enum definition and parse it later because it's easier to do so
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# without the embedded newlines.
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#
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for line in objfile:
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if (line.startswith('enum InstanceType {')):
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in_insttype = True;
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continue;
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if (in_insttype and line.startswith('};')):
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in_insttype = False;
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continue;
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line = re.sub('//.*', '', line.rstrip().lstrip());
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if (in_insttype):
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typestr += line;
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continue;
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match = re.match('class (\w[^\s:]*)(: public (\w[^\s{]*))?\s*{',
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line);
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if (match):
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klass = match.group(1);
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pklass = match.group(3);
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klasses[klass] = { 'parent': pklass };
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#
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# Process the instance type declaration.
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#
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entries = typestr.split(',');
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for entry in entries:
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types[re.sub('\s*=.*', '', entry).lstrip()] = True;
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#
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# Infer class names for each type based on a systematic transformation.
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# For example, "JS_FUNCTION_TYPE" becomes "JSFunction". We find the
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# class for each type rather than the other way around because there are
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# fewer cases where one type maps to more than one class than the other
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# way around.
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#
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for type in types:
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#
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# Symbols and Strings are implemented using the same classes.
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#
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usetype = re.sub('SYMBOL_', 'STRING_', type);
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#
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# REGEXP behaves like REG_EXP, as in JS_REGEXP_TYPE => JSRegExp.
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#
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usetype = re.sub('_REGEXP_', '_REG_EXP_', usetype);
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#
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# Remove the "_TYPE" suffix and then convert to camel case,
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# except that a "JS" prefix remains uppercase (as in
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# "JS_FUNCTION_TYPE" => "JSFunction").
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#
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if (not usetype.endswith('_TYPE')):
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continue;
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usetype = usetype[0:len(usetype) - len('_TYPE')];
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parts = usetype.split('_');
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cctype = '';
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if (parts[0] == 'JS'):
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cctype = 'JS';
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start = 1;
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else:
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cctype = '';
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start = 0;
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for ii in range(start, len(parts)):
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part = parts[ii];
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cctype += part[0].upper() + part[1:].lower();
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#
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# Mapping string types is more complicated. Both types and
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# class names for Strings specify a representation (e.g., Seq,
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# Cons, External, or Sliced) and an encoding (TwoByte or Ascii),
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# In the simplest case, both of these are explicit in both
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# names, as in:
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#
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# EXTERNAL_ASCII_STRING_TYPE => ExternalAsciiString
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#
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# However, either the representation or encoding can be omitted
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# from the type name, in which case "Seq" and "TwoByte" are
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# assumed, as in:
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#
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# STRING_TYPE => SeqTwoByteString
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#
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# Additionally, sometimes the type name has more information
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# than the class, as in:
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#
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# CONS_ASCII_STRING_TYPE => ConsString
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#
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# To figure this out dynamically, we first check for a
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# representation and encoding and add them if they're not
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# present. If that doesn't yield a valid class name, then we
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# strip out the representation.
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#
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if (cctype.endswith('String')):
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if (cctype.find('Cons') == -1 and
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cctype.find('External') == -1 and
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cctype.find('Sliced') == -1):
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if (cctype.find('Ascii') != -1):
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cctype = re.sub('AsciiString$',
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'SeqOneByteString', cctype);
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else:
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cctype = re.sub('String$',
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'SeqString', cctype);
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if (cctype.find('Ascii') == -1):
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cctype = re.sub('String$', 'TwoByteString',
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cctype);
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if (not (cctype in klasses)):
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cctype = re.sub('Ascii', '', cctype);
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cctype = re.sub('TwoByte', '', cctype);
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#
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# Despite all that, some types have no corresponding class.
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#
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if (cctype in klasses):
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typeclasses[type] = cctype;
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if (cctype in checktypes):
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del checktypes[cctype];
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if (len(checktypes) > 0):
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for klass in checktypes:
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print('error: expected class \"%s\" not found' % klass);
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sys.exit(1);
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#
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# For a given macro call, pick apart the arguments and return an object
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# describing the corresponding output constant. See load_fields().
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#
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def parse_field(call):
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# Replace newlines with spaces.
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for ii in range(0, len(call)):
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if (call[ii] == '\n'):
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call[ii] == ' ';
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idx = call.find('(');
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kind = call[0:idx];
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rest = call[idx + 1: len(call) - 1];
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args = re.split('\s*,\s*', rest);
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consts = [];
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if (kind == 'ACCESSORS' or kind == 'ACCESSORS_GCSAFE'):
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klass = args[0];
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field = args[1];
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dtype = args[2];
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offset = args[3];
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return ({
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'name': 'class_%s__%s__%s' % (klass, field, dtype),
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'value': '%s::%s' % (klass, offset)
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});
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assert(kind == 'SMI_ACCESSORS');
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klass = args[0];
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field = args[1];
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offset = args[2];
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return ({
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'name': 'class_%s__%s__%s' % (klass, field, 'SMI'),
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'value': '%s::%s' % (klass, offset)
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});
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#
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# Load field offset information from objects-inl.h.
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#
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def load_fields():
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inlfilename = sys.argv[3];
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inlfile = open(inlfilename, 'r');
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#
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# Each class's fields and the corresponding offsets are described in the
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# source by calls to macros like "ACCESSORS" (and friends). All we do
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# here is extract these macro invocations, taking into account that they
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# may span multiple lines and may contain nested parentheses. We also
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# call parse_field() to pick apart the invocation.
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#
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prefixes = [ 'ACCESSORS', 'ACCESSORS_GCSAFE', 'SMI_ACCESSORS' ];
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current = '';
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opens = 0;
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for line in inlfile:
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if (opens > 0):
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# Continuation line
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for ii in range(0, len(line)):
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if (line[ii] == '('):
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opens += 1;
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elif (line[ii] == ')'):
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opens -= 1;
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if (opens == 0):
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break;
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current += line[0:ii + 1];
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continue;
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for prefix in prefixes:
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if (not line.startswith(prefix + '(')):
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continue;
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if (len(current) > 0):
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fields.append(parse_field(current));
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current = '';
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for ii in range(len(prefix), len(line)):
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if (line[ii] == '('):
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opens += 1;
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elif (line[ii] == ')'):
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opens -= 1;
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if (opens == 0):
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break;
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current += line[0:ii + 1];
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if (len(current) > 0):
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fields.append(parse_field(current));
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current = '';
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for body in extras_accessors:
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fields.append(parse_field('ACCESSORS(%s)' % body));
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#
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# Emit a block of constants.
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#
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def emit_set(out, consts):
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for ii in range(0, len(consts)):
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out.write('int v8dbg_%s = %s;\n' %
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(consts[ii]['name'], consts[ii]['value']));
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out.write('\n');
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#
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# Emit the whole output file.
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#
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def emit_config():
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out = file(sys.argv[1], 'w');
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out.write(header);
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out.write('/* miscellaneous constants */\n');
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emit_set(out, consts_misc);
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out.write('/* class type information */\n');
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consts = [];
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keys = typeclasses.keys();
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keys.sort();
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for typename in keys:
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klass = typeclasses[typename];
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consts.append({
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'name': 'type_%s__%s' % (klass, typename),
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'value': typename
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});
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emit_set(out, consts);
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out.write('/* class hierarchy information */\n');
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consts = [];
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keys = klasses.keys();
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keys.sort();
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for klassname in keys:
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pklass = klasses[klassname]['parent'];
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if (pklass == None):
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continue;
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consts.append({
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'name': 'parent_%s__%s' % (klassname, pklass),
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'value': 0
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});
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emit_set(out, consts);
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out.write('/* field information */\n');
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emit_set(out, fields);
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out.write(footer);
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if (len(sys.argv) < 4):
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print('usage: %s output.cc objects.h objects-inl.h' % sys.argv[0]);
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sys.exit(2);
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load_objects();
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load_fields();
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emit_config();
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