solidity/libsolidity/ast/ASTAnnotations.h

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/*
This file is part of solidity.
solidity is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
solidity is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with solidity. If not, see <http://www.gnu.org/licenses/>.
*/
// SPDX-License-Identifier: GPL-3.0
/**
* @author Christian <c@ethdev.com>
* @date 2015
* Object containing the type and other annotations for the AST nodes.
*/
#pragma once
#include <libsolidity/ast/ASTForward.h>
#include <libsolidity/ast/ASTEnums.h>
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#include <libsolidity/ast/ExperimentalFeatures.h>
#include <libsolutil/SetOnce.h>
#include <map>
#include <memory>
#include <optional>
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#include <set>
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#include <vector>
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namespace solidity::yul
{
struct AsmAnalysisInfo;
struct Identifier;
struct Dialect;
}
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namespace solidity::frontend
{
class Type;
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class ArrayType;
struct CallGraph;
struct ASTAnnotation
{
ASTAnnotation() = default;
ASTAnnotation(ASTAnnotation const&) = delete;
ASTAnnotation(ASTAnnotation&&) = delete;
ASTAnnotation& operator=(ASTAnnotation const&) = delete;
ASTAnnotation& operator=(ASTAnnotation&&) = delete;
virtual ~ASTAnnotation() = default;
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};
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struct DocTag
{
std::string content; ///< The text content of the tag.
std::string paramName; ///< Only used for @param, stores the parameter name.
};
struct StructurallyDocumentedAnnotation
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{
StructurallyDocumentedAnnotation() = default;
StructurallyDocumentedAnnotation(StructurallyDocumentedAnnotation const&) = delete;
StructurallyDocumentedAnnotation(StructurallyDocumentedAnnotation&&) = delete;
StructurallyDocumentedAnnotation& operator=(StructurallyDocumentedAnnotation const&) = delete;
StructurallyDocumentedAnnotation& operator=(StructurallyDocumentedAnnotation&&) = delete;
virtual ~StructurallyDocumentedAnnotation() = default;
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/// Mapping docstring tag name -> content.
std::multimap<std::string, DocTag> docTags;
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/// contract that @inheritdoc references if it exists
ContractDefinition const* inheritdocReference = nullptr;
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};
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struct SourceUnitAnnotation: ASTAnnotation
{
/// The "absolute" (in the compiler sense) path of this source unit.
util::SetOnce<std::string> path;
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/// The exported symbols (all global symbols).
util::SetOnce<std::map<ASTString, std::vector<Declaration const*>>> exportedSymbols;
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/// Experimental features.
std::set<ExperimentalFeature> experimentalFeatures;
/// Using the new ABI coder. Set to `false` if using ABI coder v1.
util::SetOnce<bool> useABICoderV2;
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};
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struct ScopableAnnotation
{
ScopableAnnotation() = default;
ScopableAnnotation(ScopableAnnotation const&) = delete;
ScopableAnnotation(ScopableAnnotation&&) = delete;
ScopableAnnotation& operator=(ScopableAnnotation const&) = delete;
ScopableAnnotation& operator=(ScopableAnnotation&&) = delete;
virtual ~ScopableAnnotation() = default;
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/// The scope this declaration resides in. Can be nullptr if it is the global scope.
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/// Filled by the Scoper.
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ASTNode const* scope = nullptr;
/// Pointer to the contract this declaration resides in. Can be nullptr if the current scope
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/// is not part of a contract. Filled by the Scoper.
ContractDefinition const* contract = nullptr;
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};
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struct DeclarationAnnotation: ASTAnnotation, ScopableAnnotation
{
};
struct ImportAnnotation: DeclarationAnnotation
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{
/// The absolute path of the source unit to import.
util::SetOnce<std::string> absolutePath;
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/// The actual source unit.
SourceUnit const* sourceUnit = nullptr;
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};
struct TypeDeclarationAnnotation: DeclarationAnnotation
{
/// The name of this type, prefixed by proper namespaces if globally accessible.
util::SetOnce<std::string> canonicalName;
};
struct StructDeclarationAnnotation: TypeDeclarationAnnotation
{
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/// Whether the struct is recursive, i.e. if the struct (recursively) contains a member that involves a struct of the same
/// type, either in a dynamic array, as member of another struct or inside a mapping.
/// Only cases in which the recursive occurrence is within a dynamic array or a mapping are valid, while direct
/// recursion immediately raises an error.
/// Will be filled in by the DeclarationTypeChecker.
std::optional<bool> recursive;
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/// Whether the struct contains a mapping type, either directly or, indirectly inside another
/// struct or an array.
std::optional<bool> containsNestedMapping;
};
struct ContractDefinitionAnnotation: TypeDeclarationAnnotation, StructurallyDocumentedAnnotation
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{
/// List of functions and modifiers without a body. Can also contain functions from base classes.
std::optional<std::vector<Declaration const*>> unimplementedDeclarations;
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/// List of all (direct and indirect) base contracts in order from derived to
/// base, including the contract itself.
std::vector<ContractDefinition const*> linearizedBaseContracts;
/// Mapping containing the nodes that define the arguments for base constructors.
/// These can either be inheritance specifiers or modifier invocations.
std::map<FunctionDefinition const*, ASTNode const*> baseConstructorArguments;
/// A graph with edges representing calls between functions that may happen during contract construction.
util::SetOnce<std::shared_ptr<CallGraph const>> creationCallGraph;
/// A graph with edges representing calls between functions that may happen in a deployed contract.
util::SetOnce<std::shared_ptr<CallGraph const>> deployedCallGraph;
/// List of contracts whose bytecode is referenced by this contract, e.g. through "new".
/// The Value represents the ast node that referenced the contract.
std::map<ContractDefinition const*, ASTNode const*, ASTCompareByID<ContractDefinition>> contractDependencies;
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};
struct CallableDeclarationAnnotation: DeclarationAnnotation
{
/// The set of functions/modifiers/events this callable overrides.
std::set<CallableDeclaration const*> baseFunctions;
};
struct FunctionDefinitionAnnotation: CallableDeclarationAnnotation, StructurallyDocumentedAnnotation
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{
util::SetOnce<uint64_t> internalFunctionID;
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};
struct EventDefinitionAnnotation: CallableDeclarationAnnotation, StructurallyDocumentedAnnotation
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{
};
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struct ErrorDefinitionAnnotation: CallableDeclarationAnnotation, StructurallyDocumentedAnnotation
{
};
struct ModifierDefinitionAnnotation: CallableDeclarationAnnotation, StructurallyDocumentedAnnotation
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{
};
struct VariableDeclarationAnnotation: DeclarationAnnotation, StructurallyDocumentedAnnotation
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{
/// Type of variable (type of identifier referencing this variable).
Type const* type = nullptr;
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/// The set of functions this (public state) variable overrides.
std::set<CallableDeclaration const*> baseFunctions;
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};
struct StatementAnnotation: ASTAnnotation
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{
};
struct InlineAssemblyAnnotation: StatementAnnotation
{
struct ExternalIdentifierInfo
{
Declaration const* declaration = nullptr;
/// Suffix used, one of "slot", "offset", "length", "address", "selector" or empty.
std::string suffix;
size_t valueSize = size_t(-1);
};
/// Mapping containing resolved references to external identifiers and their value size
std::map<yul::Identifier const*, ExternalIdentifierInfo> externalReferences;
/// Information generated during analysis phase.
std::shared_ptr<yul::AsmAnalysisInfo> analysisInfo;
/// True, if the assembly block was annotated to be memory-safe.
bool markedMemorySafe = false;
/// True, if the assembly block involves any memory opcode or assigns to variables in memory.
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util::SetOnce<bool> hasMemoryEffects;
};
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struct BlockAnnotation: StatementAnnotation, ScopableAnnotation
{
};
struct TryCatchClauseAnnotation: ASTAnnotation, ScopableAnnotation
{
};
struct ForStatementAnnotation: StatementAnnotation, ScopableAnnotation
{
};
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struct ReturnAnnotation: StatementAnnotation
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{
/// Reference to the return parameters of the function.
ParameterList const* functionReturnParameters = nullptr;
};
struct TypeNameAnnotation: ASTAnnotation
{
/// Type declared by this type name, i.e. type of a variable where this type name is used.
/// Set during reference resolution stage.
Type const* type = nullptr;
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};
struct IdentifierPathAnnotation: ASTAnnotation
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{
/// Referenced declaration, set during reference resolution stage.
Declaration const* referencedDeclaration = nullptr;
/// What kind of lookup needs to be done (static, virtual, super) find the declaration.
util::SetOnce<VirtualLookup> requiredLookup;
/// Declaration of each path element.
std::vector<Declaration const*> pathDeclarations;
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};
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struct ExpressionAnnotation: ASTAnnotation
{
/// Inferred type of the expression.
Type const* type = nullptr;
/// Whether the expression is a constant variable
util::SetOnce<bool> isConstant;
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/// Whether the expression is pure, i.e. compile-time constant.
util::SetOnce<bool> isPure;
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/// Whether it is an LValue (i.e. something that can be assigned to).
util::SetOnce<bool> isLValue;
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/// Whether the expression is used in a context where the LValue is actually required.
bool willBeWrittenTo = false;
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/// Whether the expression is an lvalue that is only assigned.
/// Would be false for --, ++, delete, +=, -=, ....
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/// Only relevant if isLvalue == true
bool lValueOfOrdinaryAssignment = false;
/// Types and - if given - names of arguments if the expr. is a function
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/// that is called, used for overload resolution
std::optional<FuncCallArguments> arguments;
/// True if the expression consists solely of the name of the function and the function is called immediately
/// instead of being stored or processed. The name may be qualified with the name of a contract, library
/// module, etc., that clarifies the scope. For example: `m.L.f()`, where `m` is a module, `L` is a library
/// and `f` is a function is a direct call. This means that the function to be called is known at compilation
/// time and it's not necessary to rely on any runtime dispatch mechanism to resolve it.
/// Note that even the simplest expressions, like `(f)()`, result in an indirect call even if they consist of
/// values known at compilation time.
bool calledDirectly = false;
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};
struct IdentifierAnnotation: ExpressionAnnotation
{
/// Referenced declaration, set at latest during overload resolution stage.
Declaration const* referencedDeclaration = nullptr;
/// What kind of lookup needs to be done (static, virtual, super) find the declaration.
util::SetOnce<VirtualLookup> requiredLookup;
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/// List of possible declarations it could refer to (can contain duplicates).
std::vector<Declaration const*> candidateDeclarations;
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/// List of possible declarations it could refer to.
std::vector<Declaration const*> overloadedDeclarations;
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};
struct MemberAccessAnnotation: ExpressionAnnotation
{
/// Referenced declaration, set at latest during overload resolution stage.
Declaration const* referencedDeclaration = nullptr;
/// What kind of lookup needs to be done (static, virtual, super) find the declaration.
util::SetOnce<VirtualLookup> requiredLookup;
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};
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struct OperationAnnotation: ExpressionAnnotation
{
util::SetOnce<FunctionDefinition const*> userDefinedFunction;
};
struct BinaryOperationAnnotation: OperationAnnotation
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{
/// The common type that is used for the operation, not necessarily the result type (which
/// e.g. for comparisons is bool).
Type const* commonType = nullptr;
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};
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enum class FunctionCallKind
{
FunctionCall,
TypeConversion,
StructConstructorCall
};
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struct FunctionCallAnnotation: ExpressionAnnotation
{
util::SetOnce<FunctionCallKind> kind;
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/// If true, this is the external call of a try statement.
bool tryCall = false;
};
}