| #!/usr/bin/env vpython |
| # |
| # [VPYTHON:BEGIN] |
| # wheel: < |
| # name: "infra/python/wheels/perfect-hash-py2_py3" |
| # version: "version:0.2.1" |
| # > |
| # [VPYTHON:END] |
| # |
| # Copyright 2018 The ANGLE Project Authors. All rights reserved. |
| # Use of this source code is governed by a BSD-style license that can be |
| # found in the LICENSE file. |
| # |
| # gen_builtin_symbols.py: |
| # Code generation for the built-in symbol tables. |
| |
| from collections import OrderedDict |
| from datetime import date |
| from perfect_hash import generate_hash, Hash2 |
| import argparse |
| import hashlib |
| import json |
| import re |
| import os |
| import sys |
| import random |
| |
| template_immutablestring_cpp = """// GENERATED FILE - DO NOT EDIT. |
| // Generated by {script_name} using data from {variable_data_source_name} and |
| // {function_data_source_name}. |
| // |
| // Copyright {copyright_year} The ANGLE Project Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| // |
| // ImmutableString_{source_label}autogen.cpp: Wrapper for static or pool allocated char arrays, that are guaranteed to be |
| // valid and unchanged for the duration of the compilation. |
| // Implements mangledNameHash using perfect hash function from gen_builtin_symbols.py |
| |
| #include "compiler/translator/ImmutableString.h" |
| |
| std::ostream &operator<<(std::ostream &os, const sh::ImmutableString &str) |
| {{ |
| return os.write(str.data(), str.length()); |
| }} |
| |
| #if defined(_MSC_VER) |
| # pragma warning(disable : 4309) // truncation of constant value |
| #endif |
| |
| |
| namespace |
| {{ |
| |
| constexpr int mangledkT1[] = {{{mangled_S1}}}; |
| constexpr int mangledkT2[] = {{{mangled_S2}}}; |
| constexpr int mangledkG[] = {{{mangled_G}}}; |
| |
| int MangledHashG(const char *key, const int *T) |
| {{ |
| int sum = 0; |
| |
| for (int i = 0; key[i] != '\\0'; i++) |
| {{ |
| sum += T[i] * key[i]; |
| sum %= {mangled_NG}; |
| }} |
| return mangledkG[sum]; |
| }} |
| |
| int MangledPerfectHash(const char *key) |
| {{ |
| if (strlen(key) > {mangled_NS}) |
| return 0; |
| |
| return (MangledHashG(key, mangledkT1) + MangledHashG(key, mangledkT2)) % {mangled_NG}; |
| }} |
| |
| constexpr int unmangledkT1[] = {{{unmangled_S1}}}; |
| constexpr int unmangledkT2[] = {{{unmangled_S2}}}; |
| constexpr int unmangledkG[] = {{{unmangled_G}}}; |
| |
| int UnmangledHashG(const char *key, const int *T) |
| {{ |
| int sum = 0; |
| |
| for (int i = 0; key[i] != '\\0'; i++) |
| {{ |
| sum += T[i] * key[i]; |
| sum %= {unmangled_NG}; |
| }} |
| return unmangledkG[sum]; |
| }} |
| |
| int UnmangledPerfectHash(const char *key) |
| {{ |
| if (strlen(key) > {unmangled_NS}) |
| return 0; |
| |
| return (UnmangledHashG(key, unmangledkT1) + UnmangledHashG(key, unmangledkT2)) % {unmangled_NG}; |
| }} |
| |
| }} |
| |
| namespace sh |
| {{ |
| |
| template <> |
| const size_t ImmutableString::FowlerNollVoHash<4>::kFnvPrime = 16777619u; |
| |
| template <> |
| const size_t ImmutableString::FowlerNollVoHash<4>::kFnvOffsetBasis = 0x811c9dc5u; |
| |
| template <> |
| const size_t ImmutableString::FowlerNollVoHash<8>::kFnvPrime = |
| static_cast<size_t>(1099511628211ull); |
| |
| template <> |
| const size_t ImmutableString::FowlerNollVoHash<8>::kFnvOffsetBasis = |
| static_cast<size_t>(0xcbf29ce484222325ull); |
| |
| uint32_t ImmutableString::mangledNameHash() const |
| {{ |
| return MangledPerfectHash(data()); |
| }} |
| |
| uint32_t ImmutableString::unmangledNameHash() const |
| {{ |
| return UnmangledPerfectHash(data()); |
| }} |
| |
| }} // namespace sh |
| """ |
| |
| template_immutablestringtest_cpp = """// GENERATED FILE - DO NOT EDIT. |
| // Generated by {script_name} using data from {function_data_source_name}. |
| // |
| // Copyright {copyright_year} The ANGLE Project Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| // |
| // ImmutableString_test_{source_label}autogen.cpp: |
| // Tests for matching script-generated hashes with runtime computed hashes. |
| |
| #include "compiler/translator/ImmutableString.h" |
| #include "gtest/gtest.h" |
| |
| namespace sh |
| {{ |
| |
| TEST(ImmutableStringTest, ScriptGeneratedHashesMatch) |
| {{ |
| {script_generated_hash_tests} |
| {unmangled_script_generated_hash_tests} |
| }} |
| |
| }} // namespace sh |
| """ |
| |
| # The header file has a "get" function for each variable. They are used in traversers. |
| # It also declares id values of built-ins with human readable names, so they can be used to identify built-ins. |
| template_builtin_header = """// GENERATED FILE - DO NOT EDIT. |
| // Generated by {script_name} using data from {variable_data_source_name} and |
| // {function_data_source_name}. |
| // |
| // Copyright {copyright_year} The ANGLE Project Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| // |
| // BuiltIn_{header_label}autogen.h: |
| // Compile-time initialized built-ins. |
| |
| #ifndef COMPILER_TRANSLATOR_TREEUTIL_BUILTIN_AUTOGEN_H_ |
| #define COMPILER_TRANSLATOR_TREEUTIL_BUILTIN_AUTOGEN_H_ |
| |
| #include "compiler/translator/SymbolUniqueId.h" |
| |
| namespace sh |
| {{ |
| |
| class TVariable; |
| |
| class BuiltInId |
| {{ |
| public: |
| |
| {builtin_id_declarations} |
| |
| }}; // class BuiltInId |
| |
| namespace BuiltInVariable |
| {{ |
| |
| {get_variable_declarations} |
| |
| }} // namespace BuiltInVariable |
| |
| }} // namespace sh |
| |
| #endif // COMPILER_TRANSLATOR_TREEUTIL_BUILTIN_AUTOGEN_H_ |
| """ |
| |
| template_symboltable_header = """// GENERATED FILE - DO NOT EDIT. |
| // Generated by {script_name} using data from {variable_data_source_name} and |
| // {function_data_source_name}. |
| // |
| // Copyright {copyright_year} The ANGLE Project Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| // |
| // SymbolTable_autogen.h: |
| // Autogenerated member variables of TSymbolTable. |
| |
| #ifndef COMPILER_TRANSLATOR_SYMBOLTABLE_AUTOGEN_H_ |
| #define COMPILER_TRANSLATOR_SYMBOLTABLE_AUTOGEN_H_ |
| |
| namespace sh |
| {{ |
| |
| class TSymbolTableBase |
| {{ |
| public: |
| TSymbolTableBase() = default; |
| {declare_member_variables} |
| }}; |
| |
| }} // namespace sh |
| |
| #endif // COMPILER_TRANSLATOR_SYMBOLTABLE_AUTOGEN_H_ |
| """ |
| |
| # By having the variables defined in a cpp file we ensure that there's just one instance of each of the declared variables. |
| template_symboltable_cpp = """// GENERATED FILE - DO NOT EDIT. |
| // Generated by {script_name} using data from {variable_data_source_name} and |
| // {function_data_source_name}. |
| // |
| // Copyright {copyright_year} The ANGLE Project Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| // |
| // SymbolTable_{source_label}autogen.cpp: |
| // Compile-time initialized built-ins. |
| |
| #include "compiler/translator/SymbolTable.h" |
| |
| #include "angle_gl.h" |
| #include "compiler/translator/tree_util/BuiltIn.h" |
| #include "compiler/translator/ImmutableString.h" |
| #include "compiler/translator/StaticType.h" |
| #include "compiler/translator/Symbol.h" |
| #include "compiler/translator/SymbolTable.h" |
| |
| namespace sh |
| {{ |
| using Resources = ShBuiltInResources; |
| using TableBase = TSymbolTableBase; |
| |
| // Since some of the BuiltInId declarations are used outside of constexpr expressions, we need to |
| // have these definitions without an initializer. C++17 should eventually remove the need for this. |
| {builtin_id_definitions} |
| |
| const int TSymbolTable::kLastBuiltInId = {last_builtin_id}; |
| |
| namespace BuiltInName |
| {{ |
| |
| const ImmutableString _empty(""); |
| {name_declarations} |
| |
| }} // namespace BuiltInName |
| |
| // TODO(oetuaho): Would be nice to make this a class instead of a namespace so that we could friend |
| // this from TVariable. Now symbol constructors taking an id have to be public even though they're |
| // not supposed to be accessible from outside of here. http://anglebug.com/2390 |
| namespace BuiltInVariable |
| {{ |
| |
| {variable_declarations} |
| |
| {get_variable_definitions} |
| |
| }} // namespace BuiltInVariable |
| |
| namespace BuiltInParameters |
| {{ |
| |
| {parameter_declarations} |
| |
| }} // namespace BuiltInParameters |
| |
| // TODO(oetuaho): Would be nice to make this a class instead of a namespace so that we could friend |
| // this from TFunction. Now symbol constructors taking an id have to be public even though they're |
| // not supposed to be accessible from outside of here. http://anglebug.com/2390 |
| namespace Func |
| {{ |
| |
| {function_declarations} |
| |
| }} // namespace Func |
| |
| namespace BuiltInArray |
| {{ |
| using namespace Func; |
| using Rule = SymbolRule; |
| |
| // Rules used to initialize the mangled name array. |
| constexpr SymbolRule kRules[] = {{ |
| {mangled_rules} |
| }}; |
| |
| // Flat array of all mangled names. |
| constexpr const char *kMangledNames[] = {{ |
| {mangled_names_array} |
| }}; |
| |
| // Flat array of offsets from a symbol into the rules table. |
| constexpr uint16_t kMangledOffsets[] = {{ |
| {mangled_offsets_array} |
| }}; |
| |
| using Ext = TExtension; |
| |
| // Flat array of all unmangled name identifiers. |
| constexpr UnmangledEntry unmangled[] = {{ |
| {unmangled_array} |
| }}; |
| |
| }} |
| |
| void TSymbolTable::initializeBuiltInVariables(sh::GLenum shaderType, |
| ShShaderSpec spec, |
| const ShBuiltInResources &resources) |
| {{ |
| const TSourceLoc zeroSourceLoc = {{0, 0, 0, 0}}; |
| {init_member_variables} |
| }} |
| |
| namespace |
| {{ |
| uint16_t GetNextRuleIndex(uint32_t nameHash) |
| {{ |
| if (nameHash == {num_mangled_names} - 1) |
| return ArraySize(BuiltInArray::kRules); |
| return BuiltInArray::kMangledOffsets[nameHash + 1]; |
| }} |
| }} // namespace |
| |
| const TSymbol *TSymbolTable::findBuiltIn(const ImmutableString &name, |
| int shaderVersion) const |
| {{ |
| if (name.length() > {max_mangled_name_length}) |
| return nullptr; |
| |
| uint32_t nameHash = name.mangledNameHash(); |
| if (nameHash >= {num_mangled_names}) |
| return nullptr; |
| |
| const char *actualName = BuiltInArray::kMangledNames[nameHash]; |
| if (name != actualName) |
| return nullptr; |
| |
| uint16_t startIndex = BuiltInArray::kMangledOffsets[nameHash]; |
| uint16_t nextIndex = GetNextRuleIndex(nameHash); |
| |
| return FindMangledBuiltIn(mShaderSpec, shaderVersion, mShaderType, mResources, *this, BuiltInArray::kRules, startIndex, nextIndex); |
| }} |
| |
| bool TSymbolTable::isUnmangledBuiltInName(const ImmutableString &name, |
| int shaderVersion, |
| const TExtensionBehavior &extensions) const |
| {{ |
| if (name.length() > {max_unmangled_name_length}) |
| return false; |
| |
| uint32_t nameHash = name.unmangledNameHash(); |
| if (nameHash >= {num_unmangled_names}) |
| return false; |
| |
| return BuiltInArray::unmangled[nameHash].matches(name, mShaderSpec, shaderVersion, mShaderType, extensions); |
| }} |
| |
| }} // namespace sh |
| """ |
| |
| template_parsecontext_header = """// GENERATED FILE - DO NOT EDIT. |
| // Generated by {script_name} using data from {variable_data_source_name} and |
| // {function_data_source_name}. |
| // |
| // Copyright {copyright_year} The ANGLE Project Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| // |
| // ParseContext_{header_label}autogen.h: |
| // Helpers for built-in related checks. |
| |
| #ifndef COMPILER_TRANSLATOR_PARSECONTEXT_AUTOGEN_H_ |
| #define COMPILER_TRANSLATOR_PARSECONTEXT_AUTOGEN_H_ |
| |
| namespace sh |
| {{ |
| |
| namespace BuiltInGroup |
| {{ |
| |
| {is_in_group_definitions} |
| |
| }} // namespace BuiltInGroup |
| |
| }} // namespace sh |
| |
| #endif // COMPILER_TRANSLATOR_PARSECONTEXT_AUTOGEN_H_ |
| |
| """ |
| |
| template_rule = """Rule::Get<{spec}, {version}, {shaders}, {extension}>({symbol_or_var})""" |
| |
| basic_types_enumeration = [ |
| 'Void', |
| 'Float', |
| 'Double', |
| 'Int', |
| 'UInt', |
| 'Bool', |
| 'AtomicCounter', |
| 'YuvCscStandardEXT', |
| 'Sampler2D', |
| 'Sampler3D', |
| 'SamplerCube', |
| 'Sampler2DArray', |
| 'SamplerExternalOES', |
| 'SamplerExternal2DY2YEXT', |
| 'Sampler2DRect', |
| 'Sampler2DMS', |
| 'Sampler2DMSArray', |
| 'ISampler2D', |
| 'ISampler3D', |
| 'ISamplerCube', |
| 'ISampler2DArray', |
| 'ISampler2DMS', |
| 'ISampler2DMSArray', |
| 'USampler2D', |
| 'USampler3D', |
| 'USamplerCube', |
| 'USampler2DArray', |
| 'USampler2DMS', |
| 'USampler2DMSArray', |
| 'Sampler2DShadow', |
| 'SamplerCubeShadow', |
| 'Sampler2DArrayShadow', |
| 'Sampler1D', |
| 'Sampler1DArray', |
| 'Sampler1DArrayShadow', |
| 'SamplerBuffer', |
| 'SamplerCubeArray', |
| 'SamplerCubeArrayShadow', |
| 'Sampler1DShadow', |
| 'Sampler2DRectShadow', |
| 'ISampler1D', |
| 'ISampler1DArray', |
| 'ISampler2DRect', |
| 'ISamplerBuffer', |
| 'ISamplerCubeArray', |
| 'USampler1D', |
| 'USampler1DArray', |
| 'USampler2DRect', |
| 'USamplerBuffer', |
| 'USamplerCubeArray', |
| 'Image2D', |
| 'IImage2D', |
| 'UImage2D', |
| 'Image3D', |
| 'IImage3D', |
| 'UImage3D', |
| 'Image2DArray', |
| 'IImage2DArray', |
| 'UImage2DArray', |
| 'ImageCube', |
| 'IImageCube', |
| 'UImageCube', |
| 'Image1D', |
| 'IImage1D', |
| 'UImage1D', |
| 'Image1DArray', |
| 'IImage1DArray', |
| 'UImage1DArray', |
| 'Image2DMS', |
| 'IImage2DMS', |
| 'UImage2DMS', |
| 'Image2DMSArray', |
| 'IImage2DMSArray', |
| 'UImage2DMSArray', |
| 'Image2DRect', |
| 'IImage2DRect', |
| 'UImage2DRect', |
| 'ImageCubeArray', |
| 'IImageCubeArray', |
| 'UImageCubeArray', |
| 'ImageRect', |
| 'IImageRect', |
| 'UImageRect', |
| 'ImageBuffer', |
| 'IImageBuffer', |
| 'UImageBuffer', |
| 'SubpassInput', |
| 'ISubpassInput', |
| 'USubpassInput', |
| 'SubpassInputMS', |
| 'ISubpassInputMS', |
| 'USubpassInputMS', |
| ] |
| |
| id_counter = 0 |
| |
| |
| def set_working_dir(): |
| script_dir = os.path.dirname(os.path.abspath(__file__)) |
| os.chdir(script_dir) |
| |
| |
| def get_basic_mangled_name(basic): |
| index = basic_types_enumeration.index(basic) |
| if index < 26: |
| return '0' + chr(ord('A') + index) |
| if index < 52: |
| return '0' + chr(ord('a') + index - 26) |
| if index < 78: |
| return '1' + chr(ord('A') + index - 52) |
| return '1' + chr(ord('a') + index - 78) |
| |
| |
| essl_levels = ['ESSL3_1_BUILTINS', 'ESSL3_BUILTINS', 'ESSL1_BUILTINS', 'COMMON_BUILTINS'] |
| |
| glsl_levels = [ |
| 'GLSL4_6_BUILTINS', 'GLSL4_5_BUILTINS', 'GLSL4_4_BUILTINS', 'GLSL4_3_BUILTINS', |
| 'GLSL4_2_BUILTINS', 'GLSL4_1_BUILTINS', 'GLSL4_BUILTINS', 'GLSL3_3_BUILTINS', |
| 'GLSL1_5_BUILTINS', 'GLSL1_4_BUILTINS', 'GLSL1_3_BUILTINS', 'GLSL1_2_BUILTINS', |
| 'COMMON_BUILTINS' |
| ] |
| |
| |
| def get_essl_shader_version_for_level(level): |
| if level == None: |
| return '-1' |
| elif level == 'ESSL3_1_BUILTINS': |
| return '310' |
| elif level == 'ESSL3_BUILTINS': |
| return '300' |
| elif level == 'ESSL1_BUILTINS': |
| return '100' |
| elif level == 'COMMON_BUILTINS': |
| return '0' |
| else: |
| raise Exception('Unsupported symbol table level') |
| |
| |
| def get_glsl_shader_version_for_level(level): |
| if level == None: |
| return '-1' |
| elif level == 'GLSL1_2_BUILTINS': |
| return '120' |
| elif level == 'GLSL1_3_BUILTINS': |
| return '130' |
| elif level == 'GLSL1_4_BUILTINS': |
| return '140' |
| elif level == 'GLSL1_5_BUILTINS': |
| return '150' |
| elif level == 'GLSL3_3_BUILTINS': |
| return '330' |
| elif level == 'GLSL4_BUILTINS': |
| return '400' |
| elif level == 'GLSL4_1_BUILTINS': |
| return '410' |
| elif level == 'GLSL4_2_BUILTINS': |
| return '420' |
| elif level == 'GLSL4_3_BUILTINS': |
| return '430' |
| elif level == 'GLSL4_4_BUILTINS': |
| return '440' |
| elif level == 'GLSL4_5_BUILTINS': |
| return '450' |
| elif level == 'GLSL4_6_BUILTINS': |
| return '460' |
| elif level == 'COMMON_BUILTINS': |
| return '0' |
| else: |
| raise Exception('Unsupported symbol table level') |
| |
| |
| def get_shader_version_for_level(spec, level): |
| if spec == "ESSL": |
| return get_essl_shader_version_for_level(level) |
| else: |
| return get_glsl_shader_version_for_level(level) |
| |
| |
| class GroupedList: |
| """"Class for storing a list of objects grouped by symbol table level and condition.""" |
| |
| def __init__(self, hashfn, num_names): |
| self.objs = OrderedDict() |
| self.max_name_length = 0 |
| self.hashfn = hashfn |
| self.num_names = num_names |
| self.rule_offset = 0 |
| |
| def add_entry(self, essl_level, glsl_level, shader_type, name, symbol, essl_extension, |
| glsl_extension, script_generated_hash_tests): |
| if essl_level and essl_level not in essl_levels: |
| raise Exception('Unexpected essl level: ' + str(essl_level)) |
| if glsl_level and glsl_level not in glsl_levels: |
| raise Exception('Unexpected glsl level: ' + str(glsl_level)) |
| if len(name) > self.max_name_length: |
| self.max_name_length = len(name) |
| |
| name_hash = mangledNameHash(name, self.hashfn, script_generated_hash_tests, False) |
| if name_hash not in self.objs: |
| self.objs[name_hash] = OrderedDict() |
| |
| self.objs[name_hash]['name'] = name |
| |
| if essl_extension == 'UNDEFINED' and glsl_extension == 'UNDEFINED': |
| if essl_level: |
| self.objs[name_hash]['essl_level'] = essl_level |
| if glsl_level: |
| self.objs[name_hash]['glsl_level'] = glsl_level |
| self.objs[name_hash]['symbol'] = symbol |
| self.objs[name_hash]['shader_type'] = shader_type |
| |
| if essl_extension != 'UNDEFINED': |
| if ('essl_ext_symbol' in self.objs[name_hash] and |
| self.objs[name_hash]['essl_ext_symbol'] != symbol): |
| # Adding a variable that is part of two ESSL extensions |
| if essl_extension != 'UNDEFINED': |
| self.objs[name_hash]['essl_extension2'] = essl_extension |
| self.objs[name_hash]['essl_ext_level2'] = essl_level |
| self.objs[name_hash]['essl_ext_symbol2'] = symbol |
| self.objs[name_hash]['essl_ext_shader_type2'] = shader_type |
| else: |
| self.objs[name_hash]['essl_extension'] = essl_extension |
| self.objs[name_hash]['essl_ext_level'] = essl_level |
| self.objs[name_hash]['essl_ext_symbol'] = symbol |
| self.objs[name_hash]['essl_ext_shader_type'] = shader_type |
| |
| if glsl_extension != 'UNDEFINED': |
| self.objs[name_hash]['glsl_extension'] = glsl_extension |
| self.objs[name_hash]['glsl_ext_level'] = glsl_level |
| self.objs[name_hash]['glsl_ext_symbol'] = symbol |
| self.objs[name_hash]['glsl_ext_shader_type'] = shader_type |
| |
| def get_max_name_length(self): |
| return self.max_name_length |
| |
| def format_rule(self, rule): |
| return template_rule.format(**rule) |
| |
| def format_rules(self, rules): |
| return ", ".join([self.format_rule(rule) for rule in rules]) |
| |
| def get_rules(self): |
| return self.rules |
| |
| def get_names(self): |
| return self.names |
| |
| def get_offsets(self): |
| return self.offsets |
| |
| def update_arrays(self): |
| |
| def add_rule(rules, spec, level, shaders, extension, symbol): |
| var = ("&TableBase::%s" % symbol) if symbol.startswith("m_gl") else None |
| |
| rules.append({ |
| "spec": "Spec::%s" % ("ESSL" if spec == "ESSL" else "GLSL"), |
| "version": get_shader_version_for_level(spec, level), |
| "shaders": "Shader::%s" % ("ALL" if shaders == "NONE" else shaders), |
| "extension": "0" if extension == None else "EXT_INDEX(%s)" % extension, |
| "symbol_or_var": symbol.replace("Func::", "") if var is None else var |
| }) |
| |
| self.names = [] |
| self.offsets = [] |
| self.rules = [] |
| for hash_val in range(0, self.num_names): |
| if hash_val in self.objs: |
| data = self.objs[hash_val] |
| |
| rules = [] |
| |
| if "symbol" in data and "essl_level" in data: |
| add_rule(rules, "ESSL", data['essl_level'], data['shader_type'], None, |
| data["symbol"]) |
| |
| if "symbol" in data and "glsl_level" in data: |
| add_rule(rules, "GLSL", data['glsl_level'], data['shader_type'], None, |
| data["symbol"]) |
| |
| if "essl_ext_symbol" in data: |
| add_rule(rules, "ESSL", data["essl_ext_level"], data["essl_ext_shader_type"], |
| data["essl_extension"], data["essl_ext_symbol"]) |
| |
| if "glsl_ext_symbol" in data: |
| add_rule(rules, "GLSL", data["glsl_ext_level"], data["glsl_ext_shader_type"], |
| data["glsl_extension"], data["glsl_ext_symbol"]) |
| |
| if "essl_ext_symbol2" in data: |
| add_rule(rules, "ESSL", data["essl_ext_level2"], data["essl_ext_shader_type2"], |
| data["essl_extension2"], data["essl_ext_symbol2"]) |
| |
| name = data['name'] |
| name_underscore = name.replace("(", "_") |
| |
| self.names.append('"%s"' % name) |
| self.offsets.append("%d, // %s" % (self.rule_offset, name_underscore)) |
| self.rules.append("%s" % self.format_rules(rules)) |
| |
| self.rule_offset += len(rules) |
| |
| else: |
| self.names.append('""') |
| self.offsets.append('%d, // Empty' % self.rule_offset) |
| |
| |
| class UnmangledGroupedList: |
| """"Class for storing a list of unmangled objects grouped by symbol table level and condition.""" |
| |
| def __init__(self, hashfn, num_names): |
| self.objs = OrderedDict() |
| self.max_name_length = 0 |
| self.hashfn = hashfn |
| self.num_names = num_names |
| |
| def add_entry(self, essl_level, glsl_level, shader_type, name, essl_ext, glsl_ext, |
| essl_extension, glsl_extension, unmangled_script_generated_hash_tests): |
| if essl_level and essl_level not in essl_levels: |
| raise Exception('Unexpected essl level: ' + str(essl_level)) |
| if glsl_level and glsl_level not in glsl_levels: |
| raise Exception('Unexpected glsl level: ' + str(glsl_level)) |
| if len(name) > self.max_name_length: |
| self.max_name_length = len(name) |
| |
| name_hash = mangledNameHash(name, self.hashfn, unmangled_script_generated_hash_tests, True) |
| self.objs[name_hash] = OrderedDict() |
| self.objs[name_hash]['name'] = name |
| self.objs[name_hash]['essl_level'] = essl_level |
| self.objs[name_hash]['glsl_level'] = glsl_level |
| self.objs[name_hash]['shader_type'] = shader_type |
| self.objs[name_hash]['essl_ext'] = essl_ext |
| self.objs[name_hash]['glsl_ext'] = glsl_ext |
| self.objs[name_hash]['essl_extension'] = essl_extension |
| self.objs[name_hash]['glsl_extension'] = glsl_extension |
| |
| def has_key(self, essl_level, glsl_level, shader_type, name): |
| name_hash = mangledNameHash(name, self.hashfn, None, True, False) |
| if name_hash not in self.objs: |
| return False |
| entry = self.objs[name_hash] |
| if entry['essl_level'] != essl_level: |
| return False |
| if entry['glsl_level'] != glsl_level: |
| return False |
| if entry['shader_type'] != shader_type: |
| return False |
| return True |
| |
| def get(self, essl_level, glsl_level, shader_type, name): |
| if self.has_key(essl_level, glsl_level, shader_type, name): |
| name_hash = mangledNameHash(name, self.hashfn, None, True, False) |
| return self.objs[name_hash] |
| return None |
| |
| def get_max_name_length(self): |
| return self.max_name_length |
| |
| def get_array(self): |
| code = [] |
| for hash_val in range(0, self.num_names): |
| obj = self.objs[hash_val] |
| essl_level = obj['essl_level'] |
| glsl_level = obj['glsl_level'] |
| shader_type = 'Shader::' + obj['shader_type'] if obj[ |
| 'shader_type'] != 'NONE' else 'Shader::ALL' |
| data = [] |
| data.append('"{name}"'.format(name=obj['name'])) |
| data.append("Ext::" + obj['essl_extension']) |
| data.append("Ext::" + obj['glsl_extension']) |
| data.append(get_essl_shader_version_for_level(essl_level)) |
| data.append(get_glsl_shader_version_for_level(glsl_level)) |
| data.append(shader_type) |
| |
| code.append('{%s}' % ', '.join(data)) |
| return code |
| |
| |
| class TType: |
| |
| def __init__(self, glsl_header_type): |
| if isinstance(glsl_header_type, basestring): |
| self.data = self.parse_type(glsl_header_type) |
| else: |
| self.data = glsl_header_type |
| self.normalize() |
| |
| def normalize(self): |
| # Note that this will set primarySize and secondarySize also on genTypes. In that case they |
| # are overridden when the specific types are generated. |
| if 'primarySize' not in self.data: |
| if ('secondarySize' in self.data): |
| raise Exception( |
| 'Unexpected secondarySize on type that does not have primarySize set') |
| self.data['primarySize'] = 1 |
| if 'secondarySize' not in self.data: |
| self.data['secondarySize'] = 1 |
| if 'precision' not in self.data: |
| self.data['precision'] = 'Undefined' |
| if 'qualifier' not in self.data: |
| self.data['qualifier'] = 'Global' |
| |
| def get_statictype_string(self): |
| template_type = 'StaticType::Get<Ebt{basic}, Ebp{precision}, Evq{qualifier}, {primarySize}, {secondarySize}>()' |
| return template_type.format(**self.data) |
| |
| def get_dynamic_type_string(self): |
| template_type = 'new TType(Ebt{basic}, Ebp{precision}, Evq{qualifier}, {primarySize}, {secondarySize})' |
| return template_type.format(**self.data) |
| |
| def get_mangled_name(self): |
| mangled_name = '' |
| |
| size_key = (self.data['secondarySize'] - 1) * 4 + self.data['primarySize'] - 1 |
| if size_key < 10: |
| mangled_name += chr(ord('0') + size_key) |
| else: |
| mangled_name += chr(ord('A') + size_key - 10) |
| mangled_name += get_basic_mangled_name(self.data['basic']) |
| return mangled_name |
| |
| def get_human_readable_name(self): |
| name = self.data['basic'] |
| name += str(self.data['primarySize']) |
| if self.data['secondarySize'] > 1: |
| name += 'x' + str(self.data['secondarySize']) |
| return name |
| |
| def is_vector(self): |
| return self.data['primarySize'] > 1 and self.data['secondarySize'] == 1 |
| |
| def is_matrix(self): |
| return self.data['secondarySize'] > 1 |
| |
| def get_object_size(self): |
| return self.data['primarySize'] * self.data['secondarySize'] |
| |
| def specific_sampler_or_image_or_subpass_type(self, basic_type_prefix): |
| if 'genType' in self.data and self.data['genType'] == 'sampler_or_image_or_subpass': |
| type = {} |
| if 'basic' not in self.data: |
| type['basic'] = {'': 'Float', 'I': 'Int', 'U': 'UInt'}[basic_type_prefix] |
| type['primarySize'] = self.data['primarySize'] |
| else: |
| type['basic'] = basic_type_prefix + self.data['basic'] |
| type['primarySize'] = 1 |
| type['precision'] = 'Undefined' |
| return TType(type) |
| return self |
| |
| def specific_type(self, vec_size): |
| type = {} |
| if 'genType' in self.data: |
| type['basic'] = self.data['basic'] |
| type['precision'] = self.data['precision'] |
| type['qualifier'] = self.data['qualifier'] |
| type['primarySize'] = vec_size |
| type['secondarySize'] = 1 |
| return TType(type) |
| return self |
| |
| def parse_type(self, glsl_header_type): |
| # TODO(http://anglebug.com/3833): handle readonly, writeonly qualifiers |
| if glsl_header_type.startswith('readonly writeonly '): |
| type_obj = self.parse_type(glsl_header_type[19:]) |
| type_obj['qualifier'] = 'Readonly Writeonly' |
| return type_obj |
| if glsl_header_type.startswith('readonly '): |
| type_obj = self.parse_type(glsl_header_type[9:]) |
| type_obj['qualifier'] = 'Readonly' |
| return type_obj |
| if glsl_header_type.startswith('writeonly '): |
| type_obj = self.parse_type(glsl_header_type[10:]) |
| type_obj['qualifier'] = 'Writeonly' |
| return type_obj |
| if glsl_header_type.startswith('out '): |
| type_obj = self.parse_type(glsl_header_type[4:]) |
| type_obj['qualifier'] = 'Out' |
| return type_obj |
| if glsl_header_type.startswith('inout '): |
| type_obj = self.parse_type(glsl_header_type[6:]) |
| type_obj['qualifier'] = 'InOut' |
| return type_obj |
| |
| basic_type_map = { |
| 'float': 'Float', |
| 'int': 'Int', |
| 'uint': 'UInt', |
| 'double': 'Double', |
| 'bool': 'Bool', |
| 'void': 'Void', |
| 'atomic_uint': 'AtomicCounter', |
| 'yuvCscStandardEXT': 'YuvCscStandardEXT' |
| } |
| |
| if glsl_header_type in basic_type_map: |
| return {'basic': basic_type_map[glsl_header_type]} |
| |
| type_obj = {} |
| |
| basic_type_prefix_map = { |
| '': 'Float', |
| 'i': 'Int', |
| 'u': 'UInt', |
| 'd': 'Double', |
| 'b': 'Bool', |
| 'v': 'Void' |
| } |
| |
| # TODO(http://anglebug.com/3833): textureGatherOffsets in GLSL has an ivec2[4] parameter |
| # Need to parse, currently treating it as mat4x2 |
| vec_re = re.compile(r'^([iudb]?)vec([234]?)((\[[234]\])?)$') |
| vec_match = vec_re.match(glsl_header_type) |
| if vec_match: |
| type_obj['basic'] = basic_type_prefix_map[vec_match.group(1)] |
| if vec_match.group(2) == '': |
| # Type like "ivec" that represents either ivec2, ivec3 or ivec4 |
| type_obj['genType'] = 'vec' |
| else: |
| # vec with specific size |
| if vec_match.group(3) != '': |
| # vec array |
| type_obj['primarySize'] = int(vec_match.group(3)[1]) |
| type_obj['secondarySize'] = int(vec_match.group(2)) |
| else: |
| type_obj['primarySize'] = int(vec_match.group(2)) |
| return type_obj |
| |
| mat_re = re.compile(r'^mat([234])(x([234]))?$') |
| mat_match = mat_re.match(glsl_header_type) |
| if mat_match: |
| type_obj['basic'] = 'Float' |
| if len(glsl_header_type) == 4: |
| mat_size = int(mat_match.group(1)) |
| type_obj['primarySize'] = mat_size |
| type_obj['secondarySize'] = mat_size |
| else: |
| type_obj['primarySize'] = int(mat_match.group(1)) |
| type_obj['secondarySize'] = int(mat_match.group(3)) |
| return type_obj |
| |
| gen_re = re.compile(r'^gen([IUDB]?)Type$') |
| gen_match = gen_re.match(glsl_header_type) |
| if gen_match: |
| type_obj['basic'] = basic_type_prefix_map[gen_match.group(1).lower()] |
| type_obj['genType'] = 'yes' |
| return type_obj |
| |
| if glsl_header_type.startswith('sampler'): |
| type_obj['basic'] = glsl_header_type[0].upper() + glsl_header_type[1:] |
| return type_obj |
| |
| if glsl_header_type.startswith('gsampler') or glsl_header_type.startswith( |
| 'gimage') or glsl_header_type.startswith('gsubpassInput'): |
| type_obj['basic'] = glsl_header_type[1].upper() + glsl_header_type[2:] |
| type_obj['genType'] = 'sampler_or_image_or_subpass' |
| return type_obj |
| |
| if glsl_header_type == 'gvec4': |
| return {'primarySize': 4, 'genType': 'sampler_or_image_or_subpass'} |
| if glsl_header_type == 'gvec3': |
| return {'primarySize': 3, 'genType': 'sampler_or_image_or_subpass'} |
| |
| if glsl_header_type == 'IMAGE_PARAMS': |
| return {'genType': 'image_params'} |
| |
| raise Exception('Unrecognized type: ' + str(glsl_header_type)) |
| |
| |
| class HashFunction: |
| |
| def __init__(self, f1, f2, G): |
| self.f1 = f1 |
| self.f2 = f2 |
| self.G = G |
| |
| def hash(self, key): |
| return (self.G[self.f1(key)] + self.G[self.f2(key)]) % len(self.G) |
| |
| |
| def get_parsed_functions(functions_txt_filename, essl_only): |
| |
| def parse_function_parameters(parameters): |
| if parameters == '': |
| return [] |
| parametersOut = [] |
| parameters = parameters.split(', ') |
| for parameter in parameters: |
| parametersOut.append(TType(parameter.strip())) |
| return parametersOut |
| |
| lines = [] |
| with open(functions_txt_filename) as f: |
| lines = f.readlines() |
| lines = [ |
| line.strip() for line in lines if line.strip() != '' and not line.strip().startswith('//') |
| ] |
| |
| fun_re = re.compile(r'^(\w+) (\w+)\((.*)\);$') |
| |
| parsed_functions = OrderedDict() |
| group_stack = [] |
| default_metadata = {} |
| |
| for line in lines: |
| fun_match = fun_re.match(line) |
| if line.startswith('GROUP BEGIN '): |
| group_rest = line[12:].strip() |
| group_parts = group_rest.split(' ', 1) |
| current_group = {'functions': [], 'name': group_parts[0], 'subgroups': {}} |
| if len(group_parts) > 1: |
| group_metadata = json.loads(group_parts[1]) |
| current_group.update(group_metadata) |
| group_stack.append(current_group) |
| elif line.startswith('GROUP END '): |
| group_end_name = line[10:].strip() |
| current_group = group_stack[-1] |
| if current_group['name'] != group_end_name: |
| raise Exception('GROUP END: Unexpected function group name "' + group_end_name + |
| '" was expecting "' + current_group['name'] + '"') |
| group_stack.pop() |
| is_top_level_group = (len(group_stack) == 0) |
| if is_top_level_group: |
| parsed_functions[current_group['name']] = current_group |
| default_metadata = {} |
| else: |
| super_group = group_stack[-1] |
| super_group['subgroups'][current_group['name']] = current_group |
| elif line.startswith('DEFAULT METADATA'): |
| line_rest = line[16:].strip() |
| default_metadata = json.loads(line_rest) |
| elif fun_match: |
| return_type = fun_match.group(1) |
| name = fun_match.group(2) |
| parameters = fun_match.group(3) |
| function_props = { |
| 'name': name, |
| 'returnType': TType(return_type), |
| 'parameters': parse_function_parameters(parameters) |
| } |
| function_props.update(default_metadata) |
| if essl_only: |
| # Skip GLSL-only functions |
| if 'essl_level' in function_props: |
| group_stack[-1]['functions'].append(function_props) |
| else: |
| group_stack[-1]['functions'].append(function_props) |
| else: |
| raise Exception('Unexpected function input line: ' + line) |
| |
| return parsed_functions |
| |
| |
| def mangledNameHash(str, hashfn, script_generated_hash_tests, unmangled, save_test=True): |
| hash = hashfn.hash(str) |
| if save_test: |
| sanity_check = '' |
| if unmangled: |
| sanity_check = ' ASSERT_EQ(0x{hash}u, ImmutableString("{str}").unmangledNameHash());'.format( |
| hash=('%08x' % hash), str=str) |
| else: |
| sanity_check = ' ASSERT_EQ(0x{hash}u, ImmutableString("{str}").mangledNameHash());'.format( |
| hash=('%08x' % hash), str=str) |
| script_generated_hash_tests.update({sanity_check: None}) |
| return hash |
| |
| |
| def get_function_names(group, mangled_names, unmangled_names): |
| if 'functions' in group: |
| for function_props in group['functions']: |
| function_name = function_props['name'] |
| unmangled_names.append(function_name) |
| function_variants = gen_function_variants(function_props) |
| for function_props in function_variants: |
| parameters = get_parameters(function_props) |
| mangled_names.append(get_function_mangled_name(function_name, parameters)) |
| if 'subgroups' in group: |
| for subgroup_name, subgroup in group['subgroups'].iteritems(): |
| get_function_names(subgroup, mangled_names, unmangled_names) |
| |
| |
| def get_variable_names(group, mangled_names): |
| if 'variables' in group: |
| for variable_name, props in group['variables'].iteritems(): |
| mangled_names.append(variable_name) |
| if 'subgroups' in group: |
| for subgroup_name, subgroup in group['subgroups'].iteritems(): |
| get_variable_names(subgroup, mangled_names) |
| |
| |
| def get_suffix(props): |
| if 'suffix' in props: |
| return props['suffix'] |
| return '' |
| |
| |
| def get_essl_extension(props): |
| if 'essl_extension' in props: |
| return props['essl_extension'] |
| return 'UNDEFINED' |
| |
| |
| def get_glsl_extension(props): |
| if 'glsl_extension' in props: |
| return props['glsl_extension'] |
| return 'UNDEFINED' |
| |
| |
| def get_op(name, function_props): |
| if 'op' not in function_props: |
| raise Exception('function op not defined') |
| if function_props['op'] == 'auto': |
| return name[0].upper() + name[1:] |
| return function_props['op'] |
| |
| |
| def get_known_to_not_have_side_effects(function_props): |
| if 'op' in function_props and function_props['op'] != 'CallBuiltInFunction': |
| if 'hasSideEffects' in function_props: |
| return 'false' |
| else: |
| for param in get_parameters(function_props): |
| if 'qualifier' in param.data and (param.data['qualifier'] == 'Out' or |
| param.data['qualifier'] == 'InOut'): |
| return 'false' |
| return 'true' |
| return 'false' |
| |
| |
| def get_parameters(function_props): |
| if 'parameters' in function_props: |
| return function_props['parameters'] |
| return [] |
| |
| |
| def get_function_mangled_name(function_name, parameters): |
| mangled_name = function_name + '(' |
| for param in parameters: |
| mangled_name += param.get_mangled_name() |
| return mangled_name |
| |
| |
| def get_function_human_readable_name(function_name, parameters): |
| name = function_name |
| for param in parameters: |
| name += '_' + param.get_human_readable_name() |
| return name |
| |
| |
| def get_unique_identifier_name(function_name, parameters): |
| unique_name = function_name + '_' |
| for param in parameters: |
| unique_name += param.get_mangled_name() |
| return unique_name |
| |
| |
| def get_variable_name_to_store_parameter(param): |
| unique_name = 'pt' |
| if 'qualifier' in param.data: |
| if param.data['qualifier'] == 'Out': |
| unique_name += '_o_' |
| if param.data['qualifier'] == 'InOut': |
| unique_name += '_io_' |
| unique_name += param.get_mangled_name() |
| return unique_name |
| |
| |
| def get_variable_name_to_store_parameters(parameters): |
| if len(parameters) == 0: |
| return 'empty' |
| unique_name = 'p' |
| for param in parameters: |
| if 'qualifier' in param.data: |
| if param.data['qualifier'] == 'Out': |
| unique_name += '_o_' |
| if param.data['qualifier'] == 'InOut': |
| unique_name += '_io_' |
| unique_name += param.get_mangled_name() |
| return unique_name |
| |
| |
| def define_constexpr_variable(template_args, variable_declarations): |
| template_variable_declaration = 'const TVariable k{name_with_suffix}(BuiltInId::{name_with_suffix}, BuiltInName::{name}, SymbolType::BuiltIn, TExtension::{extension}, {type});' |
| variable_declarations.append(template_variable_declaration.format(**template_args)) |
| |
| |
| def gen_function_variants(function_props): |
| function_variants = [] |
| parameters = get_parameters(function_props) |
| function_is_gen_type = False |
| gen_type = set() |
| image_params_index = 0 |
| for param in parameters + [function_props['returnType']]: |
| if 'genType' in param.data: |
| if param.data['genType'] not in [ |
| 'sampler_or_image_or_subpass', 'vec', 'yes', 'image_params' |
| ]: |
| raise Exception( |
| 'Unexpected value of genType "' + str(param.data['genType']) + |
| '" should be "sampler_or_image_or_subpass", "vec", "yes", or "image_params"') |
| gen_type.add(param.data['genType']) |
| if param.data['genType'] == 'image_params': |
| image_params_index = parameters.index(param) |
| |
| if len(gen_type) == 0: |
| function_variants.append(function_props) |
| return function_variants |
| |
| # If we have image_params then we're generating variants for 33 separate functions, |
| # each for a different type of image variable |
| if 'image_params' in gen_type: |
| variants = [['gimage2D', 'ivec2'], ['gimage3D', 'ivec3'], ['gimageCube', 'ivec3'], |
| ['gimageBuffer', 'int'], ['gimage2DArray', 'ivec3'], |
| ['gimageCubeArray', 'ivec3'], ['gimage1D', 'int'], ['gimage1DArray', 'ivec2'], |
| ['gimage2DRect', 'ivec2'], ['gimage2DMS', 'ivec2', 'int'], |
| ['gimage2DMSArray', 'ivec3', 'int']] |
| for variant in variants: |
| image_variant_parameters = [] |
| for param in parameters: |
| if parameters.index(param) == image_params_index: |
| for variant_param in variant: |
| image_variant_parameters.append(TType(variant_param)) |
| else: |
| image_variant_parameters.append(param) |
| types = ['', 'I', 'U'] |
| for type in types: |
| variant_props = function_props.copy() |
| variant_parameters = [] |
| for param in image_variant_parameters: |
| variant_parameters.append( |
| param.specific_sampler_or_image_or_subpass_type(type)) |
| variant_props['parameters'] = variant_parameters |
| variant_props['returnType'] = function_props[ |
| 'returnType'].specific_sampler_or_image_or_subpass_type(type) |
| function_variants.append(variant_props) |
| return function_variants |
| |
| # If we have a gsampler_or_image_or_subpass then we're generating variants for float, int and uint |
| # samplers. |
| if 'sampler_or_image_or_subpass' in gen_type: |
| types = ['', 'I', 'U'] |
| for type in types: |
| variant_props = function_props.copy() |
| variant_parameters = [] |
| for param in parameters: |
| variant_parameters.append(param.specific_sampler_or_image_or_subpass_type(type)) |
| variant_props['parameters'] = variant_parameters |
| variant_props['returnType'] = function_props[ |
| 'returnType'].specific_sampler_or_image_or_subpass_type(type) |
| function_variants.append(variant_props) |
| return function_variants |
| |
| # If we have a normal gentype then we're generating variants for different sizes of vectors. |
| sizes = range(1, 5) |
| if 'vec' in gen_type: |
| sizes = range(2, 5) |
| for size in sizes: |
| variant_props = function_props.copy() |
| variant_parameters = [] |
| for param in parameters: |
| variant_parameters.append(param.specific_type(size)) |
| variant_props['parameters'] = variant_parameters |
| variant_props['returnType'] = function_props['returnType'].specific_type(size) |
| function_variants.append(variant_props) |
| return function_variants |
| |
| |
| def process_single_function_group( |
| shader_type, group_name, group, parameter_declarations, name_declarations, |
| unmangled_function_if_statements, defined_function_variants, builtin_id_declarations, |
| builtin_id_definitions, defined_parameter_names, variable_declarations, |
| function_declarations, script_generated_hash_tests, unmangled_script_generated_hash_tests, |
| mangled_builtins): |
| global id_counter |
| |
| if 'functions' not in group: |
| return |
| |
| for function_props in group['functions']: |
| function_name = function_props['name'] |
| essl_level = function_props['essl_level'] if 'essl_level' in function_props else None |
| glsl_level = function_props['glsl_level'] if 'glsl_level' in function_props else None |
| essl_extension = get_essl_extension(function_props) |
| glsl_extension = get_glsl_extension(function_props) |
| extension = essl_extension if essl_extension != 'UNDEFINED' else glsl_extension |
| template_args = { |
| 'name': function_name, |
| 'name_with_suffix': function_name + get_suffix(function_props), |
| 'essl_level': essl_level, |
| 'glsl_level': glsl_level, |
| 'essl_extension': essl_extension, |
| 'glsl_extension': glsl_extension, |
| # This assumes that functions cannot be part of an ESSL and GLSL extension |
| # Will need to update after adding GLSL extension functions if this is not the case |
| 'extension': essl_extension if essl_extension != 'UNDEFINED' else glsl_extension, |
| 'op': get_op(function_name, function_props), |
| 'known_to_not_have_side_effects': get_known_to_not_have_side_effects(function_props) |
| } |
| |
| function_variants = gen_function_variants(function_props) |
| |
| template_name_declaration = 'const ImmutableString {name_with_suffix}("{name}");' |
| name_declaration = template_name_declaration.format(**template_args) |
| if not name_declaration in name_declarations: |
| name_declarations.add(name_declaration) |
| |
| essl_ext = '{essl_extension}'.format(**template_args) |
| glsl_ext = '{glsl_extension}'.format(**template_args) |
| unmangled_builtin_no_shader_type = unmangled_function_if_statements.get( |
| essl_level, glsl_level, 'NONE', function_name) |
| if unmangled_builtin_no_shader_type != None and unmangled_builtin_no_shader_type[ |
| 'essl_extension'] == 'UNDEFINED' and unmangled_builtin_no_shader_type[ |
| 'glsl_extension'] == 'UNDEFINED': |
| # We already have this unmangled name without a shader type nor extension on the same level. |
| # No need to add a duplicate with a type. |
| pass |
| elif (not unmangled_function_if_statements.has_key( |
| essl_level, glsl_level, shader_type, function_name)) or ( |
| unmangled_builtin_no_shader_type and |
| ((essl_extension == 'UNDEFINED' and |
| unmangled_builtin_no_shader_type['essl_extension'] != 'UNDEFINED') or |
| (glsl_extension == 'UNDEFINED' and |
| unmangled_builtin_no_shader_type['glsl_extension'] != 'UNDEFINED'))): |
| unmangled_function_if_statements.add_entry( |
| essl_level, glsl_level, shader_type, function_name, essl_ext, glsl_ext, |
| essl_extension, glsl_extension, unmangled_script_generated_hash_tests) |
| |
| for function_props in function_variants: |
| template_args['id'] = id_counter |
| |
| parameters = get_parameters(function_props) |
| |
| template_args['unique_name'] = get_unique_identifier_name( |
| template_args['name_with_suffix'], parameters) |
| template_args['param_count'] = len(parameters) |
| template_args['return_type'] = function_props['returnType'].get_statictype_string() |
| template_args['mangled_name'] = get_function_mangled_name(function_name, parameters) |
| template_args['human_readable_name'] = get_function_human_readable_name( |
| template_args['name_with_suffix'], parameters) |
| template_args['mangled_name_length'] = len(template_args['mangled_name']) |
| |
| symbol = '&Func::{unique_name}'.format(**template_args) |
| mangled_builtins.add_entry( |
| essl_level, glsl_level, shader_type, template_args['mangled_name'], symbol, |
| template_args['essl_extension'], template_args['glsl_extension'], |
| script_generated_hash_tests) |
| |
| if template_args['unique_name'] in defined_function_variants: |
| continue |
| defined_function_variants.add(template_args['unique_name']) |
| |
| template_builtin_id_declaration = ' static const TSymbolUniqueId {human_readable_name};' |
| builtin_id_declarations.append(template_builtin_id_declaration.format(**template_args)) |
| template_builtin_id_definition = 'const TSymbolUniqueId BuiltInId::{human_readable_name} = TSymbolUniqueId({id});' |
| builtin_id_definitions.append(template_builtin_id_definition.format(**template_args)) |
| |
| parameters_list = [] |
| for param in parameters: |
| unique_param_name = get_variable_name_to_store_parameter(param) |
| param_template_args = { |
| 'name': '_empty', |
| 'name_with_suffix': unique_param_name, |
| 'type': param.get_statictype_string(), |
| 'extension': 'UNDEFINED' |
| } |
| if unique_param_name not in defined_parameter_names: |
| id_counter += 1 |
| param_template_args['id'] = id_counter |
| template_builtin_id_declaration = ' static const TSymbolUniqueId {name_with_suffix};' |
| builtin_id_declarations.append( |
| template_builtin_id_declaration.format(**param_template_args)) |
| template_builtin_id_definition = 'const TSymbolUniqueId BuiltInId::{name_with_suffix} = TSymbolUniqueId({id});' |
| builtin_id_definitions.append(template_builtin_id_definition.format(**param_template_args)) |
| define_constexpr_variable(param_template_args, variable_declarations) |
| defined_parameter_names.add(unique_param_name) |
| parameters_list.append( |
| '&BuiltInVariable::k{name_with_suffix}'.format(**param_template_args)) |
| |
| template_args['parameters_var_name'] = get_variable_name_to_store_parameters( |
| parameters) |
| if len(parameters) > 0: |
| template_args['parameters_list'] = ', '.join(parameters_list) |
| template_parameter_list_declaration = 'constexpr const TVariable *{parameters_var_name}[{param_count}] = {{ {parameters_list} }};' |
| parameter_declarations[template_args[ |
| 'parameters_var_name']] = template_parameter_list_declaration.format( |
| **template_args) |
| else: |
| template_parameter_list_declaration = 'constexpr const TVariable **{parameters_var_name} = nullptr;' |
| parameter_declarations[template_args[ |
| 'parameters_var_name']] = template_parameter_list_declaration.format( |
| **template_args) |
| |
| template_function_declaration = 'const TFunction {unique_name}(BuiltInId::{human_readable_name}, BuiltInName::{name_with_suffix}, TExtension::{extension}, BuiltInParameters::{parameters_var_name}, {param_count}, {return_type}, EOp{op}, {known_to_not_have_side_effects});' |
| function_declarations.append(template_function_declaration.format(**template_args)) |
| |
| id_counter += 1 |
| |
| |
| def process_function_group(group_name, group, parameter_declarations, name_declarations, |
| unmangled_function_if_statements, defined_function_variants, |
| builtin_id_declarations, builtin_id_definitions, |
| defined_parameter_names, variable_declarations, function_declarations, |
| script_generated_hash_tests, unmangled_script_generated_hash_tests, |
| mangled_builtins, is_in_group_definitions): |
| global id_counter |
| first_id = id_counter |
| |
| shader_type = 'NONE' |
| if 'shader_type' in group: |
| shader_type = group['shader_type'] |
| |
| process_single_function_group( |
| shader_type, group_name, group, parameter_declarations, name_declarations, |
| unmangled_function_if_statements, defined_function_variants, builtin_id_declarations, |
| builtin_id_definitions, defined_parameter_names, variable_declarations, |
| function_declarations, script_generated_hash_tests, unmangled_script_generated_hash_tests, |
| mangled_builtins) |
| |
| if 'subgroups' in group: |
| for subgroup_name, subgroup in group['subgroups'].iteritems(): |
| process_function_group( |
| group_name + subgroup_name, subgroup, parameter_declarations, name_declarations, |
| unmangled_function_if_statements, defined_function_variants, |
| builtin_id_declarations, builtin_id_definitions, defined_parameter_names, |
| variable_declarations, function_declarations, script_generated_hash_tests, |
| unmangled_script_generated_hash_tests, mangled_builtins, is_in_group_definitions) |
| |
| if 'queryFunction' in group: |
| template_args = {'first_id': first_id, 'last_id': id_counter - 1, 'group_name': group_name} |
| template_is_in_group_definition = """bool is{group_name}(const TFunction *func) |
| {{ |
| int id = func->uniqueId().get(); |
| return id >= {first_id} && id <= {last_id}; |
| }}""" |
| is_in_group_definitions.append(template_is_in_group_definition.format(**template_args)) |
| |
| |
| def prune_parameters_arrays(parameter_declarations, function_declarations): |
| # We can share parameters arrays between functions in case one array is a subarray of another. |
| parameter_variable_name_replacements = {} |
| used_param_variable_names = set() |
| for param_variable_name, param_declaration in sorted( |
| parameter_declarations.iteritems(), key=lambda item: -len(item[0])): |
| replaced = False |
| for used in used_param_variable_names: |
| if used.startswith(param_variable_name): |
| parameter_variable_name_replacements[param_variable_name] = used |
| replaced = True |
| break |
| if not replaced: |
| used_param_variable_names.add(param_variable_name) |
| |
| for i in xrange(len(function_declarations)): |
| for replaced, replacement in parameter_variable_name_replacements.iteritems(): |
| function_declarations[i] = function_declarations[i].replace( |
| 'BuiltInParameters::' + replaced + ',', 'BuiltInParameters::' + replacement + ',') |
| |
| return [ |
| value for key, value in parameter_declarations.iteritems() |
| if key in used_param_variable_names |
| ] |
| |
| |
| def process_single_variable_group(shader_type, group_name, group, builtin_id_declarations, |
| builtin_id_definitions, name_declarations, init_member_variables, |
| get_variable_declarations, mangled_builtins, |
| declare_member_variables, variable_declarations, |
| get_variable_definitions, script_generated_hash_tests): |
| global id_counter |
| if 'variables' not in group: |
| return |
| for variable_name, props in group['variables'].iteritems(): |
| essl_level = props['essl_level'] if 'essl_level' in props else None |
| glsl_level = props['glsl_level'] if 'glsl_level' in props else None |
| template_args = { |
| 'id': |
| id_counter, |
| 'name': |
| variable_name, |
| 'name_with_suffix': |
| variable_name + get_suffix(props), |
| 'essl_level': |
| essl_level, |
| 'glsl_level': |
| glsl_level, |
| 'essl_extension': |
| get_essl_extension(props), |
| 'glsl_extension': |
| get_glsl_extension(props), |
| # This assumes that variables cannot be part of an ESSL and GLSL extension |
| # Will need to update after adding GLSL extension variables if this is not the case |
| 'extension': |
| get_essl_extension(props) |
| if get_essl_extension(props) != 'UNDEFINED' else get_glsl_extension(props), |
| 'class': |
| 'TVariable' |
| } |
| |
| template_builtin_id_declaration = ' static const TSymbolUniqueId {name_with_suffix};' |
| builtin_id_declarations.append(template_builtin_id_declaration.format(**template_args)) |
| template_builtin_id_definition = 'const TSymbolUniqueId BuiltInId::{name_with_suffix} = TSymbolUniqueId({id});' |
| builtin_id_definitions.append(template_builtin_id_definition.format(**template_args)) |
| |
| template_name_declaration = 'const ImmutableString {name}("{name}");' |
| name_declarations.add(template_name_declaration.format(**template_args)) |
| |
| is_member = True |
| template_init_variable = '' |
| |
| if 'type' in props: |
| if props['type']['basic'] != 'Bool' and 'precision' not in props['type']: |
| raise Exception('Missing precision for variable ' + variable_name) |
| template_args['type'] = TType(props['type']).get_statictype_string() |
| |
| if 'fields' in props: |
| # Handle struct and interface block definitions. |
| template_args['class'] = props['class'] |
| template_args['fields'] = 'fields_{name_with_suffix}'.format(**template_args) |
| init_member_variables.append( |
| ' TFieldList *{fields} = new TFieldList();'.format(**template_args)) |
| for field_name, field_type in props['fields'].iteritems(): |
| template_args['field_name'] = field_name |
| template_args['field_type'] = TType(field_type).get_dynamic_type_string() |
| template_name_declaration = 'const ImmutableString {field_name}("{field_name}");' |
| name_declarations.add(template_name_declaration.format(**template_args)) |
| template_add_field = ' {fields}->push_back(new TField({field_type}, BuiltInName::{field_name}, zeroSourceLoc, SymbolType::BuiltIn));' |
| init_member_variables.append(template_add_field.format(**template_args)) |
| template_init_temp_variable = ' {class} *{name_with_suffix} = new {class}(BuiltInId::{name_with_suffix}, BuiltInName::{name}, TExtension::{extension}, {fields});' |
| init_member_variables.append(template_init_temp_variable.format(**template_args)) |
| if 'private' in props and props['private']: |
| is_member = False |
| else: |
| template_init_variable = ' m_{name_with_suffix} = {name_with_suffix};' |
| |
| elif 'initDynamicType' in props: |
| # Handle variables whose type can't be expressed as TStaticType |
| # (type is a struct or has variable array size for example). |
| template_args['type_name'] = 'type_{name_with_suffix}'.format(**template_args) |
| template_args['type'] = template_args['type_name'] |
| template_args['initDynamicType'] = props['initDynamicType'].format(**template_args) |
| template_init_variable = """ {initDynamicType} |
| {type_name}->realize(); |
| m_{name_with_suffix} = new TVariable(BuiltInId::{name_with_suffix}, BuiltInName::{name}, SymbolType::BuiltIn, TExtension::{extension}, {type});""" |
| |
| elif 'value' in props: |
| # Handle variables with constant value, such as gl_MaxDrawBuffers. |
| if props['value'] != 'resources': |
| raise Exception('Unrecognized value source in variable properties: ' + |
| str(props['value'])) |
| resources_key = variable_name[3:] |
| if 'valueKey' in props: |
| resources_key = props['valueKey'] |
| template_args['value'] = 'resources.' + resources_key |
| template_args['object_size'] = TType(props['type']).get_object_size() |
| template_init_variable = """ m_{name_with_suffix} = new TVariable(BuiltInId::{name_with_suffix}, BuiltInName::{name}, SymbolType::BuiltIn, TExtension::{extension}, {type}); |
| {{ |
| TConstantUnion *unionArray = new TConstantUnion[{object_size}]; |
| unionArray[0].setIConst({value}); |
| static_cast<TVariable *>(m_{name_with_suffix})->shareConstPointer(unionArray); |
| }}""" |
| if template_args['object_size'] > 1: |
| template_init_variable = """ m_{name_with_suffix} = new TVariable(BuiltInId::{name_with_suffix}, BuiltInName::{name}, SymbolType::BuiltIn, TExtension::{extension}, {type}); |
| {{ |
| TConstantUnion *unionArray = new TConstantUnion[{object_size}]; |
| for (size_t index = 0u; index < {object_size}; ++index) |
| {{ |
| unionArray[index].setIConst({value}[index]); |
| }} |
| static_cast<TVariable *>(m_{name_with_suffix})->shareConstPointer(unionArray); |
| }}""" |
| |
| else: |
| # Handle variables that can be stored as constexpr TVariable like |
| # gl_Position, gl_FragColor etc. |
| define_constexpr_variable(template_args, variable_declarations) |
| is_member = False |
| |
| template_get_variable_declaration = 'const TVariable *{name_with_suffix}();' |
| get_variable_declarations.append( |
| template_get_variable_declaration.format(**template_args)) |
| |
| template_get_variable_definition = """const TVariable *{name_with_suffix}() |
| {{ |
| return &k{name_with_suffix}; |
| }} |
| """ |
| get_variable_definitions.append( |
| template_get_variable_definition.format(**template_args)) |
| |
| if essl_level != 'GLSL_BUILTINS': |
| obj = '&BuiltInVariable::k{name_with_suffix}'.format(**template_args) |
| # TODO(http://anglebug.com/3835): Add GLSL level once GLSL built-in vars are added |
| mangled_builtins.add_entry( |
| essl_level, 'COMMON_BUILTINS', shader_type, template_args['name'], obj, |
| template_args['essl_extension'], template_args['glsl_extension'], |
| script_generated_hash_tests) |
| |
| if is_member: |
| init_member_variables.append(template_init_variable.format(**template_args)) |
| |
| template_declare_member_variable = 'TSymbol *m_{name_with_suffix} = nullptr;' |
| declare_member_variables.append( |
| template_declare_member_variable.format(**template_args)) |
| |
| obj = 'm_{name_with_suffix}'.format(**template_args) |
| |
| # TODO(http://anglebug.com/3835): Add GLSL level once GLSL built-in vars are added |
| mangled_builtins.add_entry(essl_level, 'COMMON_BUILTINS', shader_type, |
| template_args['name'], obj, template_args['essl_extension'], |
| template_args['glsl_extension'], |
| script_generated_hash_tests) |
| |
| id_counter += 1 |
| |
| |
| def process_variable_group(shader_type, group_name, group, builtin_id_declarations, |
| builtin_id_definitions, name_declarations, init_member_variables, |
| get_variable_declarations, mangled_builtins, declare_member_variables, |
| variable_declarations, get_variable_definitions, |
| script_generated_hash_tests): |
| global id_counter |
| |
| if 'shader_type' in group: |
| shader_type = group['shader_type'] |
| |
| process_single_variable_group(shader_type, group_name, group, builtin_id_declarations, |
| builtin_id_definitions, name_declarations, init_member_variables, |
| get_variable_declarations, mangled_builtins, |
| declare_member_variables, variable_declarations, |
| get_variable_definitions, script_generated_hash_tests) |
| |
| if 'subgroups' in group: |
| for subgroup_name, subgroup in group['subgroups'].iteritems(): |
| process_variable_group( |
| shader_type, subgroup_name, subgroup, builtin_id_declarations, |
| builtin_id_definitions, name_declarations, init_member_variables, |
| get_variable_declarations, mangled_builtins, declare_member_variables, |
| variable_declarations, get_variable_definitions, script_generated_hash_tests) |
| |
| |
| def generate_files(essl_only, args, functions_txt_filename, variables_json_filename, |
| immutablestring_cpp_filename, immutablestringtest_cpp_filename, |
| builtin_header_filename, symboltable_cpp_filename, parsecontext_header_filename, |
| symboltable_header_filename): |
| # Declarations of symbol unique ids |
| builtin_id_declarations = [] |
| |
| # Definitions of symbol unique ids needed for those ids used outside of constexpr expressions. |
| builtin_id_definitions = [] |
| |
| # Declarations of name string variables |
| name_declarations = set() |
| |
| # Declarations of builtin TVariables |
| variable_declarations = [] |
| |
| # Declarations of builtin TFunctions |
| function_declarations = [] |
| |
| # Functions for querying the pointer to a specific TVariable. |
| get_variable_declarations = [] |
| get_variable_definitions = [] |
| |
| # Code for defining TVariables stored as members of TSymbolTable. |
| declare_member_variables = [] |
| init_member_variables = [] |
| |
| # Code for testing that script-generated hashes match with runtime computed hashes. |
| script_generated_hash_tests = OrderedDict() |
| unmangled_script_generated_hash_tests = OrderedDict() |
| |
| # Functions for testing whether a builtin belongs in group. |
| is_in_group_definitions = [] |
| |
| # Declarations of parameter arrays for builtin TFunctions. Map from C++ variable name to the full |
| # declaration. |
| parameter_declarations = {} |
| |
| defined_function_variants = set() |
| defined_parameter_names = set() |
| |
| parsed_functions = get_parsed_functions(functions_txt_filename, essl_only) |
| |
| if args.dump_intermediate_json: |
| with open('builtin_functions_ESSL.json' if essl_only else 'builtin_functions.json', |
| 'w') as outfile: |
| |
| def serialize_obj(obj): |
| if isinstance(obj, TType): |
| return obj.data |
| else: |
| raise "Cannot serialize to JSON: " + str(obj) |
| |
| json.dump( |
| parsed_functions, outfile, indent=4, separators=(',', ': '), default=serialize_obj) |
| |
| parsed_variables = None |
| with open(variables_json_filename) as f: |
| # TODO(http://anglebug.com/3835): skip loading GLSL-only vars when they are added if essl_only |
| parsed_variables = json.load(f, object_pairs_hook=OrderedDict) |
| |
| # This script uses a perfect hash function to avoid dealing with collisions |
| mangled_names = [] |
| unmangled_names = [] |
| for group_name, group in parsed_functions.iteritems(): |
| get_function_names(group, mangled_names, unmangled_names) |
| for group_name, group in parsed_variables.iteritems(): |
| get_variable_names(group, mangled_names) |
| |
| # Hashing mangled names |
| mangled_names = list(dict.fromkeys(mangled_names)) |
| num_mangled_names = len(mangled_names) |
| mangled_names_dict = dict(zip(mangled_names, range(0, len(mangled_names)))) |
| # Generate the perfect hash function |
| f1, f2, mangled_G = generate_hash(mangled_names_dict, Hash2) |
| mangled_hashfn = HashFunction(f1, f2, mangled_G) |
| mangled_S1 = f1.salt |
| mangled_S2 = f2.salt |
| # Array for querying mangled builtins |
| mangled_builtins = GroupedList(mangled_hashfn, num_mangled_names) |
| |
| # Hashing unmangled names |
| unmangled_names = list(dict.fromkeys(unmangled_names)) |
| num_unmangled_names = len(unmangled_names) |
| unmangled_names_dict = dict(zip(unmangled_names, range(0, len(unmangled_names)))) |
| # Generate the perfect hash function |
| f1, f2, unmangled_G = generate_hash(unmangled_names_dict, Hash2) |
| unmangled_hashfn = HashFunction(f1, f2, unmangled_G) |
| unmangled_S1 = f1.salt |
| unmangled_S2 = f2.salt |
| # Array for querying unmangled builtins |
| unmangled_function_if_statements = UnmangledGroupedList(unmangled_hashfn, num_unmangled_names) |
| |
| for group_name, group in parsed_functions.iteritems(): |
| process_function_group( |
| group_name, group, parameter_declarations, name_declarations, |
| unmangled_function_if_statements, defined_function_variants, builtin_id_declarations, |
| builtin_id_definitions, defined_parameter_names, variable_declarations, |
| function_declarations, script_generated_hash_tests, |
| unmangled_script_generated_hash_tests, mangled_builtins, is_in_group_definitions) |
| |
| parameter_declarations = prune_parameters_arrays(parameter_declarations, function_declarations) |
| |
| for group_name, group in parsed_variables.iteritems(): |
| process_variable_group('NONE', group_name, group, builtin_id_declarations, |
| builtin_id_definitions, name_declarations, init_member_variables, |
| get_variable_declarations, mangled_builtins, |
| declare_member_variables, variable_declarations, |
| get_variable_definitions, script_generated_hash_tests) |
| |
| mangled_builtins.update_arrays() |
| |
| output_strings = { |
| 'script_name': |
| os.path.basename(__file__), |
| 'copyright_year': |
| date.today().year, |
| 'builtin_id_declarations': |
| '\n'.join(builtin_id_declarations), |
| 'builtin_id_definitions': |
| '\n'.join(builtin_id_definitions), |
| 'last_builtin_id': |
| id_counter - 1, |
| 'name_declarations': |
| '\n'.join(sorted(list(name_declarations))), |
| 'function_data_source_name': |
| functions_txt_filename, |
| 'function_declarations': |
| '\n'.join(function_declarations), |
| 'parameter_declarations': |
| '\n'.join(sorted(parameter_declarations)), |
| 'is_in_group_definitions': |
| '\n'.join(is_in_group_definitions), |
| 'variable_data_source_name': |
| variables_json_filename, |
| 'variable_declarations': |
| '\n'.join(sorted(variable_declarations)), |
| 'get_variable_declarations': |
| '\n'.join(sorted(get_variable_declarations)), |
| 'get_variable_definitions': |
| '\n'.join(sorted(get_variable_definitions)), |
| 'declare_member_variables': |
| '\n'.join(declare_member_variables), |
| 'init_member_variables': |
| '\n'.join(init_member_variables), |
| 'mangled_names_array': |
| ',\n'.join(mangled_builtins.get_names()), |
| 'mangled_offsets_array': |
| '\n'.join(mangled_builtins.get_offsets()), |
| 'mangled_rules': |
| ',\n'.join(mangled_builtins.get_rules()), |
| 'unmangled_array': |
| ', '.join(unmangled_function_if_statements.get_array()), |
| 'max_unmangled_name_length': |
| unmangled_function_if_statements.get_max_name_length(), |
| 'max_mangled_name_length': |
| mangled_builtins.get_max_name_length(), |
| 'num_unmangled_names': |
| num_unmangled_names, |
| 'num_mangled_names': |
| num_mangled_names, |
| 'script_generated_hash_tests': |
| '\n'.join(script_generated_hash_tests.iterkeys()), |
| 'unmangled_script_generated_hash_tests': |
| '\n'.join(unmangled_script_generated_hash_tests.iterkeys()), |
| 'mangled_S1': |
| str(mangled_S1).replace('[', ' ').replace(']', ' '), |
| 'mangled_S2': |
| str(mangled_S2).replace('[', ' ').replace(']', ' '), |
| 'mangled_G': |
| str(mangled_G).replace('[', ' ').replace(']', ' '), |
| 'mangled_NG': |
| len(mangled_G), |
| 'mangled_NS': |
| len(mangled_S1), |
| 'unmangled_S1': |
| str(unmangled_S1).replace('[', ' ').replace(']', ' '), |
| 'unmangled_S2': |
| str(unmangled_S2).replace('[', ' ').replace(']', ' '), |
| 'unmangled_G': |
| str(unmangled_G).replace('[', ' ').replace(']', ' '), |
| 'unmangled_NG': |
| len(unmangled_G), |
| 'unmangled_NS': |
| len(unmangled_S1), |
| 'header_label': |
| 'ESSL_' if essl_only else 'complete_', |
| 'source_label': |
| 'ESSL_' if essl_only else '' |
| } |
| |
| with open(immutablestring_cpp_filename, 'wt') as outfile_cpp: |
| output_cpp = template_immutablestring_cpp.format(**output_strings) |
| outfile_cpp.write(output_cpp) |
| |
| with open(immutablestringtest_cpp_filename, 'wt') as outfile_cpp: |
| output_cpp = template_immutablestringtest_cpp.format(**output_strings) |
| outfile_cpp.write(output_cpp) |
| |
| with open(builtin_header_filename, 'wt') as outfile_header: |
| output_header = template_builtin_header.format(**output_strings) |
| outfile_header.write(output_header) |
| |
| with open(symboltable_cpp_filename, 'wt') as outfile_cpp: |
| output_cpp = template_symboltable_cpp.format(**output_strings) |
| outfile_cpp.write(output_cpp) |
| |
| with open(parsecontext_header_filename, 'wt') as outfile_header: |
| output_header = template_parsecontext_header.format(**output_strings) |
| outfile_header.write(output_header) |
| |
| if not essl_only: |
| with open(symboltable_header_filename, 'wt') as outfile_h: |
| output_h = template_symboltable_header.format(**output_strings) |
| outfile_h.write(output_h) |
| |
| |
| def main(): |
| random.seed(0) |
| set_working_dir() |
| |
| parser = argparse.ArgumentParser() |
| parser.add_argument( |
| '--dump-intermediate-json', |
| help='Dump parsed function data as a JSON file builtin_functions.json', |
| action="store_true") |
| parser.add_argument('auto_script_command', nargs='?', default='') |
| args = parser.parse_args() |
| |
| test_filename = '../../tests/compiler_tests/ImmutableString_test_autogen.cpp' |
| essl_test_filename = '../../tests/compiler_tests/ImmutableString_test_ESSL_autogen.cpp' |
| variables_json_filename = 'builtin_variables.json' |
| functions_txt_filename = 'builtin_function_declarations.txt' |
| |
| # auto_script parameters. |
| if args.auto_script_command != '': |
| inputs = [ |
| functions_txt_filename, |
| variables_json_filename, |
| ] |
| outputs = [ |
| 'ImmutableString_autogen.cpp', |
| 'ParseContext_complete_autogen.h', |
| 'SymbolTable_autogen.cpp', |
| 'SymbolTable_autogen.h', |
| 'tree_util/BuiltIn_complete_autogen.h', |
| test_filename, |
| 'ImmutableString_ESSL_autogen.cpp', |
| 'ParseContext_ESSL_autogen.h', |
| 'SymbolTable_ESSL_autogen.cpp', |
| 'tree_util/BuiltIn_ESSL_autogen.h', |
| essl_test_filename, |
| ] |
| |
| if args.auto_script_command == 'inputs': |
| print ','.join(inputs) |
| elif args.auto_script_command == 'outputs': |
| print ','.join(outputs) |
| else: |
| print('Invalid script parameters') |
| return 1 |
| return 0 |
| |
| # Generate files based on GLSL + ESSL symbols |
| generate_files(False, args, functions_txt_filename, variables_json_filename, |
| 'ImmutableString_autogen.cpp', test_filename, |
| 'tree_util/BuiltIn_complete_autogen.h', 'SymbolTable_autogen.cpp', |
| 'ParseContext_complete_autogen.h', 'SymbolTable_autogen.h') |
| |
| # Generate files based on only ESSL symbols |
| # Symbol table with GLSL + ESSL symbols is too large for Android |
| generate_files(True, args, functions_txt_filename, variables_json_filename, |
| 'ImmutableString_ESSL_autogen.cpp', essl_test_filename, |
| 'tree_util/BuiltIn_ESSL_autogen.h', 'SymbolTable_ESSL_autogen.cpp', |
| 'ParseContext_ESSL_autogen.h', 'SymbolTable_autogen.h') |
| |
| return 0 |
| |
| |
| if __name__ == '__main__': |
| sys.exit(main()) |