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path: root/contrib/libs/flatbuffers/src/idl_gen_lobster.cpp
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/*
 * Copyright 2018 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 "idl_gen_lobster.h"

#include <string>
#include <unordered_set>

#include "flatbuffers/code_generators.h"
#include "flatbuffers/flatbuffers.h"
#include "flatbuffers/idl.h"
#include "flatbuffers/util.h"

namespace flatbuffers {
namespace lobster {

class LobsterGenerator : public BaseGenerator {
 public:
  LobsterGenerator(const Parser &parser, const std::string &path,
                   const std::string &file_name)
      : BaseGenerator(parser, path, file_name, "" /* not used */, ".",
                      "lobster") {
    static const char *const keywords[] = {
      "nil",    "true",    "false",     "return",  "struct",    "class",
      "import", "int",     "float",     "string",  "any",       "def",
      "is",     "from",    "program",   "private", "coroutine", "resource",
      "enum",   "typeof",  "var",       "let",     "pakfile",   "switch",
      "case",   "default", "namespace", "not",     "and",       "or",
      "bool",
    };
    keywords_.insert(std::begin(keywords), std::end(keywords));
  }

  std::string EscapeKeyword(const std::string &name) const {
    return keywords_.find(name) == keywords_.end() ? name : name + "_";
  }

  std::string NormalizedName(const Definition &definition) const {
    return EscapeKeyword(definition.name);
  }

  std::string NormalizedName(const EnumVal &ev) const {
    return EscapeKeyword(ev.name);
  }

  std::string NamespacedName(const Definition &def) {
    return WrapInNameSpace(def.defined_namespace, NormalizedName(def));
  }

  std::string GenTypeName(const Type &type) {
    auto bits = NumToString(SizeOf(type.base_type) * 8);
    if (IsInteger(type.base_type)) {
      if (IsUnsigned(type.base_type))
        return "uint" + bits;
      else
        return "int" + bits;
    }
    if (IsFloat(type.base_type)) return "float" + bits;
    if (IsString(type)) return "string";
    if (type.base_type == BASE_TYPE_STRUCT) return "table";
    return "none";
  }

  std::string LobsterType(const Type &type) {
    if (IsFloat(type.base_type)) return "float";
    if (IsBool(type.base_type)) return "bool";
    if (IsScalar(type.base_type) && type.enum_def)
      return NormalizedName(*type.enum_def);
    if (!IsScalar(type.base_type)) return "flatbuffers.offset";
    if (IsString(type)) return "string";
    return "int";
  }

  // Returns the method name for use with add/put calls.
  std::string GenMethod(const Type &type) {
    return IsScalar(type.base_type)
               ? ConvertCase(GenTypeBasic(type), Case::kUpperCamel)
               : (IsStruct(type) ? "Struct" : "UOffsetTRelative");
  }

  // This uses Python names for now..
  std::string GenTypeBasic(const Type &type) {
    // clang-format off
    static const char *ctypename[] = {
      #define FLATBUFFERS_TD(ENUM, IDLTYPE, \
              CTYPE, JTYPE, GTYPE, NTYPE, PTYPE, ...) \
        #PTYPE,
        FLATBUFFERS_GEN_TYPES(FLATBUFFERS_TD)
      #undef FLATBUFFERS_TD
    };
    // clang-format on
    return ctypename[type.base_type];
  }

  // Generate a struct field, conditioned on its child type(s).
  void GenStructAccessor(const StructDef &struct_def, const FieldDef &field,
                         std::string *code_ptr) {
    GenComment(field.doc_comment, code_ptr, nullptr, "    ");
    std::string &code = *code_ptr;
    auto offsets = NumToString(field.value.offset);
    auto def = "    def " + NormalizedName(field);
    if (IsScalar(field.value.type.base_type)) {
      std::string acc;
      if (struct_def.fixed) {
        acc = "buf_.read_" + GenTypeName(field.value.type) + "_le(pos_ + " +
              offsets + ")";

      } else {
        auto defval = field.IsOptional()
                          ? (IsFloat(field.value.type.base_type) ? "0.0" : "0")
                          : field.value.constant;
        acc = "flatbuffers.field_" + GenTypeName(field.value.type) +
              "(buf_, pos_, " + offsets + ", " + defval + ")";
        if (IsBool(field.value.type.base_type)) acc = "bool(" + acc + ")";
      }
      if (field.value.type.enum_def)
        acc = NormalizedName(*field.value.type.enum_def) + "(" + acc + ")";
      if (field.IsOptional()) {
        acc += ", flatbuffers.field_present(buf_, pos_, " + offsets + ")";
        code += def + "() -> " + LobsterType(field.value.type) +
                ", bool:\n        return " + acc + "\n";
      } else {
        code += def + "() -> " + LobsterType(field.value.type) +
                ":\n        return " + acc + "\n";
      }
      return;
    }
    switch (field.value.type.base_type) {
      case BASE_TYPE_STRUCT: {
        auto name = NamespacedName(*field.value.type.struct_def);
        if (struct_def.fixed) {
          code += def + "() -> " + name + ":\n        ";
          code += "return " + name + "{ buf_, pos_ + " + offsets + " }\n";
        } else {
          code += def + "() -> " + name;
          if (!field.IsRequired()) code += "?";
          code += ":\n        ";
          code += std::string("let o = flatbuffers.field_") +
                  (field.value.type.struct_def->fixed ? "struct" : "table") +
                  "(buf_, pos_, " + offsets + ")\n        return ";
          if (field.IsRequired()) {
            code += name + " { buf_, assert o }\n";
          } else {
            code += "if o: " + name + " { buf_, o } else: nil\n";
          }
        }
        break;
      }
      case BASE_TYPE_STRING:
        code += def +
                "() -> string:\n        return "
                "flatbuffers.field_string(buf_, pos_, " +
                offsets + ")\n";
        break;
      case BASE_TYPE_VECTOR: {
        auto vectortype = field.value.type.VectorType();
        if (vectortype.base_type == BASE_TYPE_STRUCT) {
          auto start = "flatbuffers.field_vector(buf_, pos_, " + offsets +
                       ") + i * " + NumToString(InlineSize(vectortype));
          if (!(vectortype.struct_def->fixed)) {
            start = "flatbuffers.indirect(buf_, " + start + ")";
          }
          code += def + "(i:int) -> " +
                  NamespacedName(*field.value.type.struct_def) +
                  ":\n        return ";
          code += NamespacedName(*field.value.type.struct_def) + " { buf_, " +
                  start + " }\n";
        } else {
          if (IsString(vectortype)) {
            code += def + "(i:int) -> string:\n        return ";
            code += "flatbuffers.string";
          } else {
            code += def + "(i:int) -> " + LobsterType(vectortype) +
                    ":\n        return ";
            code += "read_" + GenTypeName(vectortype) + "_le";
          }
          code += "(buf_, buf_.flatbuffers.field_vector(pos_, " + offsets +
                  ") + i * " + NumToString(InlineSize(vectortype)) + ")\n";
        }
        break;
      }
      case BASE_TYPE_UNION: {
        for (auto it = field.value.type.enum_def->Vals().begin();
             it != field.value.type.enum_def->Vals().end(); ++it) {
          auto &ev = **it;
          if (ev.IsNonZero()) {
            code += def + "_as_" + ev.name + "():\n        return " +
                    NamespacedName(*ev.union_type.struct_def) +
                    " { buf_, flatbuffers.field_table(buf_, pos_, " + offsets +
                    ") }\n";
          }
        }
        break;
      }
      default: FLATBUFFERS_ASSERT(0);
    }
    if (IsVector(field.value.type)) {
      code += def +
              "_length() -> int:\n        return "
              "flatbuffers.field_vector_len(buf_, pos_, " +
              offsets + ")\n";
    }
  }

  // Generate table constructors, conditioned on its members' types.
  void GenTableBuilders(const StructDef &struct_def, std::string *code_ptr) {
    std::string &code = *code_ptr;
    code += "struct " + NormalizedName(struct_def) +
            "Builder:\n    b_:flatbuffers.builder\n";
    code += "    def start():\n        b_.StartObject(" +
            NumToString(struct_def.fields.vec.size()) +
            ")\n        return this\n";
    for (auto it = struct_def.fields.vec.begin();
         it != struct_def.fields.vec.end(); ++it) {
      auto &field = **it;
      if (field.deprecated) continue;
      auto offset = it - struct_def.fields.vec.begin();
      code += "    def add_" + NormalizedName(field) + "(" +
              NormalizedName(field) + ":" + LobsterType(field.value.type) +
              "):\n        b_.Prepend" + GenMethod(field.value.type) + "Slot(" +
              NumToString(offset) + ", " + NormalizedName(field);
      if (IsScalar(field.value.type.base_type) && !field.IsOptional())
        code += ", " + field.value.constant;
      code += ")\n        return this\n";
    }
    code += "    def end():\n        return b_.EndObject()\n\n";
    for (auto it = struct_def.fields.vec.begin();
         it != struct_def.fields.vec.end(); ++it) {
      auto &field = **it;
      if (field.deprecated) continue;
      if (IsVector(field.value.type)) {
        code += "def " + NormalizedName(struct_def) + "Start" +
                ConvertCase(NormalizedName(field), Case::kUpperCamel) +
                "Vector(b_:flatbuffers.builder, n_:int):\n    b_.StartVector(";
        auto vector_type = field.value.type.VectorType();
        auto alignment = InlineAlignment(vector_type);
        auto elem_size = InlineSize(vector_type);
        code +=
            NumToString(elem_size) + ", n_, " + NumToString(alignment) + ")\n";
        if (vector_type.base_type != BASE_TYPE_STRUCT ||
            !vector_type.struct_def->fixed) {
          code += "def " + NormalizedName(struct_def) + "Create" +
                  ConvertCase(NormalizedName(field), Case::kUpperCamel) +
                  "Vector(b_:flatbuffers.builder, v_:[" +
                  LobsterType(vector_type) + "]):\n    b_.StartVector(" +
                  NumToString(elem_size) + ", v_.length, " +
                  NumToString(alignment) + ")\n    reverse(v_) e_: b_.Prepend" +
                  GenMethod(vector_type) +
                  "(e_)\n    return b_.EndVector(v_.length)\n";
        }
        code += "\n";
      }
    }
  }

  void GenStructPreDecl(const StructDef &struct_def, std::string *code_ptr) {
    if (struct_def.generated) return;
    std::string &code = *code_ptr;
    CheckNameSpace(struct_def, &code);
    code += "class " + NormalizedName(struct_def) + "\n\n";
  }

  // Generate struct or table methods.
  void GenStruct(const StructDef &struct_def, std::string *code_ptr) {
    if (struct_def.generated) return;
    std::string &code = *code_ptr;
    CheckNameSpace(struct_def, &code);
    GenComment(struct_def.doc_comment, code_ptr, nullptr, "");
    code += "class " + NormalizedName(struct_def) + " : flatbuffers.handle\n";
    for (auto it = struct_def.fields.vec.begin();
         it != struct_def.fields.vec.end(); ++it) {
      auto &field = **it;
      if (field.deprecated) continue;
      GenStructAccessor(struct_def, field, code_ptr);
    }
    code += "\n";
    if (!struct_def.fixed) {
      // Generate a special accessor for the table that has been declared as
      // the root type.
      code += "def GetRootAs" + NormalizedName(struct_def) +
              "(buf:string): return " + NormalizedName(struct_def) +
              " { buf, flatbuffers.indirect(buf, 0) }\n\n";
    }
    if (struct_def.fixed) {
      // create a struct constructor function
      GenStructBuilder(struct_def, code_ptr);
    } else {
      // Create a set of functions that allow table construction.
      GenTableBuilders(struct_def, code_ptr);
    }
  }

  // Generate enum declarations.
  void GenEnum(const EnumDef &enum_def, std::string *code_ptr) {
    if (enum_def.generated) return;
    std::string &code = *code_ptr;
    CheckNameSpace(enum_def, &code);
    GenComment(enum_def.doc_comment, code_ptr, nullptr, "");
    code += "enum " + NormalizedName(enum_def) + ":\n";
    for (auto it = enum_def.Vals().begin(); it != enum_def.Vals().end(); ++it) {
      auto &ev = **it;
      GenComment(ev.doc_comment, code_ptr, nullptr, "    ");
      code += "    " + enum_def.name + "_" + NormalizedName(ev) + " = " +
              enum_def.ToString(ev) + "\n";
    }
    code += "\n";
  }

  // Recursively generate arguments for a constructor, to deal with nested
  // structs.
  void StructBuilderArgs(const StructDef &struct_def, const char *nameprefix,
                         std::string *code_ptr) {
    for (auto it = struct_def.fields.vec.begin();
         it != struct_def.fields.vec.end(); ++it) {
      auto &field = **it;
      if (IsStruct(field.value.type)) {
        // Generate arguments for a struct inside a struct. To ensure names
        // don't clash, and to make it obvious these arguments are constructing
        // a nested struct, prefix the name with the field name.
        StructBuilderArgs(*field.value.type.struct_def,
                          (nameprefix + (NormalizedName(field) + "_")).c_str(),
                          code_ptr);
      } else {
        std::string &code = *code_ptr;
        code += ", " + (nameprefix + NormalizedName(field)) + ":" +
                LobsterType(field.value.type);
      }
    }
  }

  // Recursively generate struct construction statements and instert manual
  // padding.
  void StructBuilderBody(const StructDef &struct_def, const char *nameprefix,
                         std::string *code_ptr) {
    std::string &code = *code_ptr;
    code += "    b_.Prep(" + NumToString(struct_def.minalign) + ", " +
            NumToString(struct_def.bytesize) + ")\n";
    for (auto it = struct_def.fields.vec.rbegin();
         it != struct_def.fields.vec.rend(); ++it) {
      auto &field = **it;
      if (field.padding)
        code += "    b_.Pad(" + NumToString(field.padding) + ")\n";
      if (IsStruct(field.value.type)) {
        StructBuilderBody(*field.value.type.struct_def,
                          (nameprefix + (NormalizedName(field) + "_")).c_str(),
                          code_ptr);
      } else {
        code += "    b_.Prepend" + GenMethod(field.value.type) + "(" +
                nameprefix + NormalizedName(field) + ")\n";
      }
    }
  }

  // Create a struct with a builder and the struct's arguments.
  void GenStructBuilder(const StructDef &struct_def, std::string *code_ptr) {
    std::string &code = *code_ptr;
    code +=
        "def Create" + NormalizedName(struct_def) + "(b_:flatbuffers.builder";
    StructBuilderArgs(struct_def, "", code_ptr);
    code += "):\n";
    StructBuilderBody(struct_def, "", code_ptr);
    code += "    return b_.Offset()\n\n";
  }

  void CheckNameSpace(const Definition &def, std::string *code_ptr) {
    auto ns = GetNameSpace(def);
    if (ns == current_namespace_) return;
    current_namespace_ = ns;
    std::string &code = *code_ptr;
    code += "namespace " + ns + "\n\n";
  }

  bool generate() {
    std::string code;
    code += std::string("// ") + FlatBuffersGeneratedWarning() +
            "\nimport flatbuffers\n\n";
    for (auto it = parser_.enums_.vec.begin(); it != parser_.enums_.vec.end();
         ++it) {
      auto &enum_def = **it;
      GenEnum(enum_def, &code);
    }
    for (auto it = parser_.structs_.vec.begin();
         it != parser_.structs_.vec.end(); ++it) {
      auto &struct_def = **it;
      GenStructPreDecl(struct_def, &code);
    }
    for (auto it = parser_.structs_.vec.begin();
         it != parser_.structs_.vec.end(); ++it) {
      auto &struct_def = **it;
      GenStruct(struct_def, &code);
    }
    return SaveFile(GeneratedFileName(path_, file_name_, parser_.opts).c_str(),
                    code, false);
  }

 private:
  std::unordered_set<std::string> keywords_;
  std::string current_namespace_;
};

}  // namespace lobster

static bool GenerateLobster(const Parser &parser, const std::string &path,
                            const std::string &file_name) {
  lobster::LobsterGenerator generator(parser, path, file_name);
  return generator.generate();
}

namespace {

class LobsterCodeGenerator : public CodeGenerator {
 public:
  Status GenerateCode(const Parser &parser, const std::string &path,
                      const std::string &filename) override {
    if (!GenerateLobster(parser, path, filename)) { return Status::ERROR; }
    return Status::OK;
  }

  Status GenerateCode(const uint8_t *, int64_t,
                      const CodeGenOptions &) override {
    return Status::NOT_IMPLEMENTED;
  }

  Status GenerateMakeRule(const Parser &parser, const std::string &path,
                          const std::string &filename,
                          std::string &output) override {
    (void)parser;
    (void)path;
    (void)filename;
    (void)output;
    return Status::NOT_IMPLEMENTED;
  }

  Status GenerateGrpcCode(const Parser &parser, const std::string &path,
                          const std::string &filename) override {
    (void)parser;
    (void)path;
    (void)filename;
    return Status::NOT_IMPLEMENTED;
  }

  Status GenerateRootFile(const Parser &parser,
                          const std::string &path) override {
    (void)parser;
    (void)path;
    return Status::NOT_IMPLEMENTED;
  }

  bool IsSchemaOnly() const override { return true; }

  bool SupportsBfbsGeneration() const override { return false; }

  bool SupportsRootFileGeneration() const override { return false; }

  IDLOptions::Language Language() const override {
    return IDLOptions::kLobster;
  }

  std::string LanguageName() const override { return "Lobster"; }
};
}  // namespace

std::unique_ptr<CodeGenerator> NewLobsterCodeGenerator() {
  return std::unique_ptr<LobsterCodeGenerator>(new LobsterCodeGenerator());
}

}  // namespace flatbuffers