/* * Copyright 2016 Google Inc. All rights reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "flatbuffers/code_generators.h" #include #include "flatbuffers/base.h" #include "flatbuffers/util.h" #include #if defined(_MSC_VER) # pragma warning(push) # pragma warning(disable : 4127) // C4127: conditional expression is constant #endif namespace flatbuffers { void CodeWriter::operator+=(std::string text) { while (true) { auto begin = text.find("{{"); if (begin == std::string::npos) { break; } auto end = text.find("}}"); if (end == std::string::npos || end < begin) { break; } // Write all the text before the first {{ into the stream. stream_.write(text.c_str(), begin); // The key is between the {{ and }}. const std::string key = text.substr(begin + 2, end - begin - 2); // Find the value associated with the key. If it exists, write the // value into the stream, otherwise write the key itself into the stream. auto iter = value_map_.find(key); if (iter != value_map_.end()) { const std::string &value = iter->second; stream_ << value; } else { FLATBUFFERS_ASSERT(false && "could not find key"); stream_ << key; } // Update the text to everything after the }}. text = text.substr(end + 2); } if (!text.empty() && string_back(text) == '\\') { text.pop_back(); stream_ << text; } else { stream_ << text << std::endl; } } const char *BaseGenerator::FlatBuffersGeneratedWarning() { return "automatically generated by the FlatBuffers compiler," " do not modify"; } std::string BaseGenerator::NamespaceDir(const Parser &parser, const std::string &path, const Namespace &ns) { EnsureDirExists(path.c_str()); if (parser.opts.one_file) return path; std::string namespace_dir = path; // Either empty or ends in separator. auto &namespaces = ns.components; for (auto it = namespaces.begin(); it != namespaces.end(); ++it) { namespace_dir += *it + kPathSeparator; EnsureDirExists(namespace_dir.c_str()); } return namespace_dir; } std::string BaseGenerator::NamespaceDir(const Namespace &ns) const { return BaseGenerator::NamespaceDir(parser_, path_, ns); } std::string BaseGenerator::FullNamespace(const char *separator, const Namespace &ns) { std::string namespace_name; auto &namespaces = ns.components; for (auto it = namespaces.begin(); it != namespaces.end(); ++it) { if (namespace_name.length()) namespace_name += separator; namespace_name += *it; } return namespace_name; } std::string BaseGenerator::LastNamespacePart(const Namespace &ns) { if (!ns.components.empty()) return ns.components.back(); else return std::string(""); } // Ensure that a type is prefixed with its namespace whenever it is used // outside of its namespace. std::string BaseGenerator::WrapInNameSpace(const Namespace *ns, const std::string &name) const { if (CurrentNameSpace() == ns) return name; std::string qualified_name = qualifying_start_; for (auto it = ns->components.begin(); it != ns->components.end(); ++it) qualified_name += *it + qualifying_separator_; return qualified_name + name; } std::string BaseGenerator::WrapInNameSpace(const Definition &def) const { return WrapInNameSpace(def.defined_namespace, def.name); } std::string BaseGenerator::GetNameSpace(const Definition &def) const { const Namespace *ns = def.defined_namespace; if (CurrentNameSpace() == ns) return ""; std::string qualified_name = qualifying_start_; for (auto it = ns->components.begin(); it != ns->components.end(); ++it) { qualified_name += *it; if ((it + 1) != ns->components.end()) { qualified_name += qualifying_separator_; } } return qualified_name; } // Generate a documentation comment, if available. void GenComment(const std::vector &dc, std::string *code_ptr, const CommentConfig *config, const char *prefix) { if (dc.begin() == dc.end()) { // Don't output empty comment blocks with 0 lines of comment content. return; } std::string &code = *code_ptr; if (config != nullptr && config->first_line != nullptr) { code += std::string(prefix) + std::string(config->first_line) + "\n"; } std::string line_prefix = std::string(prefix) + ((config != nullptr && config->content_line_prefix != nullptr) ? config->content_line_prefix : "///"); for (auto it = dc.begin(); it != dc.end(); ++it) { code += line_prefix + *it + "\n"; } if (config != nullptr && config->last_line != nullptr) { code += std::string(prefix) + std::string(config->last_line) + "\n"; } } template std::string FloatConstantGenerator::GenFloatConstantImpl( const FieldDef &field) const { const auto &constant = field.value.constant; T v; auto done = StringToNumber(constant.c_str(), &v); FLATBUFFERS_ASSERT(done); if (done) { #if (!defined(_MSC_VER) || (_MSC_VER >= 1800)) if (std::isnan(v)) return NaN(v); if (std::isinf(v)) return Inf(v); #endif return Value(v, constant); } return "#"; // compile time error } std::string FloatConstantGenerator::GenFloatConstant( const FieldDef &field) const { switch (field.value.type.base_type) { case BASE_TYPE_FLOAT: return GenFloatConstantImpl(field); case BASE_TYPE_DOUBLE: return GenFloatConstantImpl(field); default: { FLATBUFFERS_ASSERT(false); return "INVALID_BASE_TYPE"; } }; } TypedFloatConstantGenerator::TypedFloatConstantGenerator( const char *double_prefix, const char *single_prefix, const char *nan_number, const char *pos_inf_number, const char *neg_inf_number) : double_prefix_(double_prefix), single_prefix_(single_prefix), nan_number_(nan_number), pos_inf_number_(pos_inf_number), neg_inf_number_(neg_inf_number) {} std::string TypedFloatConstantGenerator::MakeNaN( const std::string &prefix) const { return prefix + nan_number_; } std::string TypedFloatConstantGenerator::MakeInf( bool neg, const std::string &prefix) const { if (neg) return !neg_inf_number_.empty() ? (prefix + neg_inf_number_) : ("-" + prefix + pos_inf_number_); else return prefix + pos_inf_number_; } std::string TypedFloatConstantGenerator::Value(double v, const std::string &src) const { (void)v; return src; } std::string TypedFloatConstantGenerator::Inf(double v) const { return MakeInf(v < 0, double_prefix_); } std::string TypedFloatConstantGenerator::NaN(double v) const { (void)v; return MakeNaN(double_prefix_); } std::string TypedFloatConstantGenerator::Value(float v, const std::string &src) const { (void)v; return src + "f"; } std::string TypedFloatConstantGenerator::Inf(float v) const { return MakeInf(v < 0, single_prefix_); } std::string TypedFloatConstantGenerator::NaN(float v) const { (void)v; return MakeNaN(single_prefix_); } SimpleFloatConstantGenerator::SimpleFloatConstantGenerator( const char *nan_number, const char *pos_inf_number, const char *neg_inf_number) : nan_number_(nan_number), pos_inf_number_(pos_inf_number), neg_inf_number_(neg_inf_number) {} std::string SimpleFloatConstantGenerator::Value(double v, const std::string &src) const { (void)v; return src; } std::string SimpleFloatConstantGenerator::Inf(double v) const { return (v < 0) ? neg_inf_number_ : pos_inf_number_; } std::string SimpleFloatConstantGenerator::NaN(double v) const { (void)v; return nan_number_; } std::string SimpleFloatConstantGenerator::Value(float v, const std::string &src) const { return this->Value(static_cast(v), src); } std::string SimpleFloatConstantGenerator::Inf(float v) const { return this->Inf(static_cast(v)); } std::string SimpleFloatConstantGenerator::NaN(float v) const { return this->NaN(static_cast(v)); } } // namespace flatbuffers #if defined(_MSC_VER) # pragma warning(pop) #endif