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/*
 * Copyright 2010-2015 JetBrains s.r.o.
 *
 * 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.
 */

package org.jetbrains.kotlin.metadata;

import "core/metadata/src/ext_options.proto";

// Changes to this proto are tracked by versions of proto files that include `import metadata.proto`.
// Namely BuiltInsBinaryVersion, JvmMetadataVersion, JsMetadataVersion, KlibMetadataVersion, and probably something else.
// See their KDocs.

option java_outer_classname = "ProtoBuf";
option optimize_for = LITE_RUNTIME;

message StringTable {
  repeated string string = 1;

  option (skip_message_in_comparison) = true;
}

message QualifiedNameTable {
  message QualifiedName {
    optional int32 parent_qualified_name = 1 [default = -1];
    // id in the StringTable
    required int32 short_name = 2;
    optional Kind kind = 3 [default = PACKAGE];

    enum Kind {
      CLASS = 0;
      PACKAGE = 1;
      LOCAL = 2;
    }
  }

  repeated QualifiedName qualified_name = 1;

  option (skip_message_in_comparison) = true;
}

message Annotation {
  message Argument {
    message Value {
      enum Type {
        BYTE = 0;
        CHAR = 1;
        SHORT = 2;
        INT = 3;
        LONG = 4;
        FLOAT = 5;
        DOUBLE = 6;
        BOOLEAN = 7;

        STRING = 8;
        CLASS = 9;
        ENUM = 10;
        ANNOTATION = 11;
        ARRAY = 12;
      }

      // Note: a *Value* has a Type, not an Argument! This is done for future language features which may involve using arrays
      // of elements of different types. Such entries are allowed in the constant pool of JVM class files.
      // However, to save space, this field is optional: in case of homogeneous arrays, only the type of the first element is required
      optional Type type = 1;

      // Only one of the following values should be present

      optional sint64 int_value = 2;
      optional float float_value = 3;
      optional double double_value = 4;

      optional int32 string_value = 5 [(string_id_in_table) = true];

      // If type = CLASS, FQ name of the referenced class; if type = ENUM, FQ name of the enum class
      optional int32 class_id = 6 [(fq_name_id_in_table) = true];

      optional int32 enum_value_id = 7 [(name_id_in_table) = true];

      optional Annotation annotation = 8;

      repeated Value array_element = 9;

      // If type = CLASS, the number of dimensions of the array of the class specified in class_id.
      // E.g. if class_id = kotlin/String, this annotation argument value denotes:
      // - String::class, if array_dimension_count = 0
      // - Array::class, if array_dimension_count = 1
      // - Array>::class, if array_dimension_count = 2
      // - etc.
      // Since it's very difficult to represent Kotlin-specific type aspects (nullability, type projections) of array arguments
      // in class literals on JVM, we don't bother to do represent this in our format as well.
      // So, for example, values `Array>::class` and `Array>?>::class` will be represented exactly the same here.
      optional int32 array_dimension_count = 11 [default = 0];

      /*
        isUnsigned
      */
      optional int32 flags = 10 [default = 0];
    }

    required int32 name_id = 1 [(name_id_in_table) = true];
    required Value value = 2;
  }

  required int32 id = 1 [(fq_name_id_in_table) = true];

  repeated Argument argument = 2;
}

message Type {
  message Argument {
    enum Projection {
      IN = 0;
      OUT = 1;
      INV = 2;
      STAR = 3;
    }

    optional Projection projection = 1 [default = INV];

    // When projection is STAR, no type is written, otherwise type must be specified
    optional Type type = 2;
    optional int32 type_id = 3 [(type_id_in_table) = true];
  }

  repeated Argument argument = 2;

  optional bool nullable = 3 [default = false];

  // If this field is set, the type is flexible.
  // All the other fields and extensions represent its lower bound, and flexible_upper_bound must be set and represents its upper bound.
  optional int32 flexible_type_capabilities_id = 4 [(string_id_in_table) = true];

  optional Type flexible_upper_bound = 5;
  optional int32 flexible_upper_bound_id = 8 [(type_id_in_table) = true];

  // Only one of [class_name, type_parameter, type_parameter_name, type_alias_name] should be present

  optional int32 class_name = 6 [(fq_name_id_in_table) = true];
  optional int32 type_parameter = 7; // id of the type parameter
  // Name of the type parameter in the immediate owner
  optional int32 type_parameter_name = 9 [(name_id_in_table) = true];

  // Note that this may be present only for abbreviated_type
  // Top level types are always fully expanded
  optional int32 type_alias_name = 12 [(fq_name_id_in_table) = true];

  // Outer type may be present only if class_name or type_alias_name is present
  optional Type outer_type = 10;
  optional int32 outer_type_id = 11 [(type_id_in_table) = true];

  optional Type abbreviated_type = 13;
  optional int32 abbreviated_type_id = 14 [(type_id_in_table) = true];

  /*
    suspend
    definitelyNonNull
   */
  optional int32 flags = 1;

  extensions 100 to 199;
}

message TypeParameter {
  required int32 id = 1;

  required int32 name = 2 [(name_id_in_table) = true];

  optional bool reified = 3 [default = false];

  enum Variance {
    IN = 0;
    OUT = 1;
    INV = 2;
  }
  optional Variance variance = 4 [default = INV];

  repeated Type upper_bound = 5;
  repeated int32 upper_bound_id = 6 [packed = true, (type_id_in_table) = true];

  extensions 100 to 999;
}

message Class {
  enum Kind {
    // 3 bits
    CLASS = 0;
    INTERFACE = 1;
    ENUM_CLASS = 2;
    ENUM_ENTRY = 3;
    ANNOTATION_CLASS = 4;
    OBJECT = 5;
    COMPANION_OBJECT = 6;
  }

  /*
    hasAnnotations
    Visibility
    Modality
    ClassKind
    isInner
    isData
    isExternal
    isExpect
    isInline
    isFun
    hasEnumEntries
  */
  optional int32 flags = 1 [default = 6 /* public final class, no annotations */];

  required int32 fq_name = 3 [(fq_name_id_in_table) = true];

  optional int32 companion_object_name = 4 [(name_id_in_table) = true];

  repeated TypeParameter type_parameter = 5;

  repeated Type supertype = 6;
  repeated int32 supertype_id = 2 [packed = true, (type_id_in_table) = true];

  repeated int32 nested_class_name = 7 [packed = true, (name_id_in_table) = true];

  repeated Type context_receiver_type = 20;
  repeated int32 context_receiver_type_id = 21 [packed = true, (type_id_in_table) = true];

  repeated Constructor constructor = 8;
  repeated Function function = 9;
  repeated Property property = 10;
  repeated TypeAlias type_alias = 11;

  repeated EnumEntry enum_entry = 13;

  repeated int32 sealed_subclass_fq_name = 16 [packed = true, (fq_name_id_in_table) = true];

  optional int32 inline_class_underlying_property_name = 17 [(name_id_in_table) = true];

  optional Type inline_class_underlying_type = 18;
  optional int32 inline_class_underlying_type_id = 19 [(type_id_in_table) = true];

  repeated int32 multi_field_value_class_underlying_name = 22 [packed = true, (name_id_in_table) = true];
  repeated Type multi_field_value_class_underlying_type = 23;
  repeated int32 multi_field_value_class_underlying_type_id = 24 [packed = true, (type_id_in_table) = true];

  optional TypeTable type_table = 30;

  // Index into the VersionRequirementTable
  repeated int32 version_requirement = 31;

  optional VersionRequirementTable version_requirement_table = 32;

  extensions 100 to 18999;
}

message Package {
  repeated Function function = 3;
  repeated Property property = 4;
  repeated TypeAlias type_alias = 5;

  optional TypeTable type_table = 30;

  optional VersionRequirementTable version_requirement_table = 32;

  extensions 100 to 199;
}

message TypeTable {
  repeated Type type = 1;

  // Index starting from which all types are nullable, or nothing if all types in this table are non-null.
  // Note that the 'nullable' field of Type messages is ignored and shouldn't be written because it wastes too much space
  optional int32 first_nullable = 2 [default = -1];

  option (skip_message_in_comparison) = true;
}

message Constructor {
  /*
    hasAnnotations
    Visibility
    isSecondary
    hasNonStableParameterNames
  */
  optional int32 flags = 1 [default = 6 /* public constructor, no annotations */];

  repeated ValueParameter value_parameter = 2;

  // Index into the VersionRequirementTable
  repeated int32 version_requirement = 31;

  extensions 100 to 18999;
}

message Function {
  /*
    hasAnnotations
    Visibility
    Modality
    MemberKind
    isOperator
    isInfix
    isInline
    isTailrec
    isExternal
    isSuspend
    isExpect
    hasNonStableParameterNames
  */
  optional int32 flags = 9 [default = 6 /* public final function, no annotations */];
  optional int32 old_flags = 1 [default = 6];

  required int32 name = 2 [(name_id_in_table) = true];

  optional Type return_type = 3;
  optional int32 return_type_id = 7 [(type_id_in_table) = true];

  repeated TypeParameter type_parameter = 4;

  optional Type receiver_type = 5;
  optional int32 receiver_type_id = 8 [(type_id_in_table) = true];

  repeated Type context_receiver_type = 10;
  repeated int32 context_receiver_type_id = 11 [packed = true, (type_id_in_table) = true];

  repeated ValueParameter value_parameter = 6;

  optional TypeTable type_table = 30;

  // Index into the VersionRequirementTable
  repeated int32 version_requirement = 31;

  optional Contract contract = 32;

  extensions 100 to 18999;
}

message Property {
  /*
    hasAnnotations
    Visibility
    Modality
    MemberKind
    isVar
    hasGetter
    hasSetter
    isConst
    isLateinit
    hasConstant
    isExternal
    isDelegated
    isExpect
  */
  optional int32 flags = 11 [default = 518 /* public (6) final property with getter (512) */];
  optional int32 old_flags = 1 [default = 2054];

  required int32 name = 2 [(name_id_in_table) = true];

  optional Type return_type = 3;
  optional int32 return_type_id = 9 [(type_id_in_table) = true];

  repeated TypeParameter type_parameter = 4;

  optional Type receiver_type = 5;
  optional int32 receiver_type_id = 10 [(type_id_in_table) = true];

  repeated Type context_receiver_type = 12;
  repeated int32 context_receiver_type_id = 13 [packed = true, (type_id_in_table) = true];

  optional ValueParameter setter_value_parameter = 6;

  /*
    hasAnnotations
    Visibility
    Modality
    isNotDefault
    isExternal
    isInline

    If getter_flags or setter_flags are absent, their value should be computed as follows:
    - hasAnnotations, Visibility, Modality have the same value as in the property flags
    - all other flags are false
  */
  optional int32 getter_flags = 7;
  optional int32 setter_flags = 8;

  // Index into the VersionRequirementTable
  repeated int32 version_requirement = 31;

  extensions 100 to 18999;
}

message ValueParameter {
  /*
    hasAnnotations
    declaresDefault
    isCrossinline
    isNoinline
  */
  optional int32 flags = 1 [default = 0];

  required int32 name = 2 [(name_id_in_table) = true];

  optional Type type = 3;
  optional int32 type_id = 5 [(type_id_in_table) = true];

  optional Type vararg_element_type = 4;
  optional int32 vararg_element_type_id = 6 [(type_id_in_table) = true];

  extensions 100 to 199;
}

message TypeAlias {
  /*
    hasAnnotations
    Visibility
  */
  optional int32 flags = 1 [default = 6 /* public, no annotations */];

  required int32 name = 2 [(name_id_in_table) = true];

  repeated TypeParameter type_parameter = 3;

  optional Type underlying_type = 4;
  optional int32 underlying_type_id = 5 [(type_id_in_table) = true];

  optional Type expanded_type = 6;
  optional int32 expanded_type_id = 7 [(type_id_in_table) = true];

  repeated Annotation annotation = 8;

  // Index into the VersionRequirementTable
  repeated int32 version_requirement = 31;

  extensions 100 to 199;
}

message EnumEntry {
  optional int32 name = 1 [(name_id_in_table) = true];

  extensions 100 to 199;
}

enum Modality {
  // 2 bits
  FINAL = 0;
  OPEN = 1;
  ABSTRACT = 2;
  SEALED = 3;
}

enum Visibility {
  // 3 bits
  INTERNAL = 0;
  PRIVATE = 1;
  PROTECTED = 2;
  PUBLIC = 3;
  PRIVATE_TO_THIS = 4;
  LOCAL = 5;
}

enum MemberKind {
  // 2 bits
  DECLARATION = 0;
  FAKE_OVERRIDE = 1;
  DELEGATION = 2;
  SYNTHESIZED = 3;
}

message VersionRequirement {
  enum Level {
    WARNING = 0;
    ERROR = 1;
    HIDDEN = 2;
  }

  enum VersionKind {
    LANGUAGE_VERSION = 0;
    COMPILER_VERSION = 1;
    API_VERSION = 2;
  }

  // Kotlin version, since which this declaration is accessible, in the following format (encoded version is "major.minor.patch"):
  // (patch << 7) + (minor << 3) + major
  // Compilers with version less than this value should report a diagnostic if this declaration is selected as the resolution result
  optional int32 version = 1;

  // Version in base 256, in case we run out of space to store the version in the optimized form. Has priority over 'version'.
  // (patch << 16) + (minor << 8) + major
  optional int32 version_full = 2;

  // Level of the reported diagnostic
  optional Level level = 3 [default = ERROR];

  // Error code, to be looked up on the website
  optional int32 error_code = 4;

  // Diagnostic message
  optional int32 message = 5 [(string_id_in_table) = true];

  // Which version is this requirement for. For example, if version_kind = API_VERSION, this declaration requires the API version
  // (the "-api-version" argument value when compiling the call site) to be of at least the specified value
  optional VersionKind version_kind = 6 [default = LANGUAGE_VERSION];
}

message VersionRequirementTable {
  repeated VersionRequirement requirement = 1;
}

// A part of the package, which is used to serialize .kjsm/.meta.js, .kotlin_builtins and .kotlin_metadata files.
// Is not used in the JVM back-end
message PackageFragment {
  optional StringTable strings = 1;
  optional QualifiedNameTable qualified_names = 2;

  optional Package package = 3;

  repeated Class class = 4;

  extensions 100 to 199;
}



message Contract {
  repeated Effect effect = 1;
}

message Effect {
  // This enum controls which effect this message contains and how 'effectConstructorArguments'
  // should be parsed.
  // Each enum value documented in the following syntax: "EffectName(arg1: T1, arg2: T2, ...)"
  // Those arguments are expected to be found in 'effectConstructorArguments' in exactly the same
  // order and amount as defined by signature, otherwise message should be dropped.
  enum EffectType {
    // Returns(value: ConstantValue?)
    RETURNS_CONSTANT = 0;

    // CallsInPlace(callable: ParameterReference)
    // Additionally, InvocationKind in the field 'kind' may be provided to define exact amount of invocations.
    CALLS = 1;

    // ReturnsNotNull()
    RETURNS_NOT_NULL = 2;
  }
  optional EffectType effect_type = 1;

  repeated Expression effect_constructor_argument = 2;

  // If present, then whole message is clause of form 'Effect -> Expression', where 'Effect'
  // is given by other fields in this message, and 'Expression' is stored in this field.
  optional Expression conclusion_of_conditional_effect = 3;

  enum InvocationKind {
    AT_MOST_ONCE = 0;
    EXACTLY_ONCE = 1;
    AT_LEAST_ONCE = 2;
  }
  optional InvocationKind kind = 4;
}

// We use some trickery to optimize memory footprint of contract-expressions:
// exact type of Expression is determined based on its contents.
message Expression {
  /*
    isNegated => this expression should be negated
    isIsNullPredicate => this expression is IsNullPredicate with 'variableName' as argument
  */
  optional int32 flags = 1 [default = 0];

  // stored as index in valueParameters list of owner-function in 1-indexation
  // Index '0' is reserved for extension receiver
  optional int32 value_parameter_reference = 2;

  enum ConstantValue {
    TRUE = 0;
    FALSE = 1;
    NULL = 2;
  }
  optional ConstantValue constant_value = 3;

  // present => this expression is IsInstancePredicate,  with 'variableName' as LHS
  // and with type encoded in either one of next two fields as RHS.
  optional Type is_instance_type = 4;
  optional int32 is_instance_type_id = 5 [(type_id_in_table) = true];

  // non-empty => this expression is boolean formula of form 'andArguments[0] && andArguments[1] && ...'
  // Additionally, if first argument of formula is primitive expression (i.e. predicate or value),
  // it is optimized and embedded straight into this message
  repeated Expression and_argument = 6;

  // non-empty => this expression is boolean formula of form 'orArguments[0] || andArguments[1] || ...'
  // Additionally, if first argument of formula is primitive expression (i.e. predicate or value),
  // it is optimized and embedded straight into this message.
  repeated Expression or_argument = 7;
}




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