solidity/libsolidity/codegen/YulUtilFunctions.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
/**
* Component that can generate various useful Yul functions.
*/
#pragma once
#include <liblangutil/EVMVersion.h>
#include <libsolidity/ast/Types.h>
#include <libsolidity/codegen/MultiUseYulFunctionCollector.h>
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#include <libsolidity/interface/DebugSettings.h>
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#include <libsolutil/ErrorCodes.h>
#include <memory>
#include <string>
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#include <vector>
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namespace solidity::frontend
{
class Type;
class ArrayType;
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class MappingType;
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class IntegerType;
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class StructType;
/**
* Component that can generate various useful Yul functions.
*/
class YulUtilFunctions
{
public:
explicit YulUtilFunctions(
langutil::EVMVersion _evmVersion,
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RevertStrings _revertStrings,
MultiUseYulFunctionCollector& _functionCollector
):
m_evmVersion(_evmVersion),
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m_revertStrings(_revertStrings),
m_functionCollector(_functionCollector)
{}
/// @returns the name of a function that returns its argument.
/// Sometimes needed to satisfy templates.
std::string identityFunction();
/// @returns a function that combines the address and selector to a single value
/// for use in the ABI.
std::string combineExternalFunctionIdFunction();
/// @returns a function that splits the address and selector from a single value
/// for use in the ABI.
std::string splitExternalFunctionIdFunction();
/// @returns a function that copies raw bytes of dynamic length from calldata
/// or memory to memory.
/// @params _cleanup If true, pads with zeros up to the 32 byte boundary after the specified length
/// signature: (src, dst, length) ->
std::string copyToMemoryFunction(bool _fromCalldata, bool _cleanup);
/// @returns the name of a function that copies a string literal to memory
/// and returns a pointer to the memory area containing the string literal.
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/// signature: () -> memPtr
std::string copyLiteralToMemoryFunction(std::string const& _literal);
/// @returns the name of a function that stores a string literal at a specific location in memory
/// signature: (memPtr) ->
std::string storeLiteralInMemoryFunction(std::string const& _literal);
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/// @returns the name of a function that stores a string literal at a specific location in storage
/// signature: (slot) ->
std::string copyLiteralToStorageFunction(std::string const& _literal);
// @returns the name of a function that has the equivalent logic of an
// `assert` or `require` call.
std::string requireOrAssertFunction(bool _assert, Type const* _messageType = nullptr);
/// @returns the name of a function that takes a (cleaned) value of the given value type and
/// left-aligns it, usually for use in non-padded encoding.
std::string leftAlignFunction(Type const& _type);
std::string shiftLeftFunction(size_t _numBits);
std::string shiftLeftFunctionDynamic();
std::string shiftRightFunction(size_t _numBits);
std::string shiftRightFunctionDynamic();
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std::string shiftRightSignedFunctionDynamic();
/// @returns the name of a function that performs a left shift and subsequent cleanup
/// and, if needed, prior cleanup.
/// signature: (value, amountToShift) -> result
std::string typedShiftLeftFunction(Type const& _type, Type const& _amountType);
std::string typedShiftRightFunction(Type const& _type, Type const& _amountType);
/// @returns the name of a function which replaces the
/// _numBytes bytes starting at byte position _shiftBytes (counted from the least significant
/// byte) by the _numBytes least significant bytes of `toInsert`.
/// signature: (value, toInsert) -> result
std::string updateByteSliceFunction(size_t _numBytes, size_t _shiftBytes);
/// signature: (value, shiftBytes, toInsert) -> result
std::string updateByteSliceFunctionDynamic(size_t _numBytes);
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/// Function that sets all but the first ``bytes`` bytes of ``value`` to zero.
/// @note ``bytes`` has to be small enough not to overflow ``8 * bytes``.
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/// signature: (value, bytes) -> result
std::string maskBytesFunctionDynamic();
/// Zeroes out all bytes above the first ``_bytes`` lower order bytes.
/// signature: (value) -> result
std::string maskLowerOrderBytesFunction(size_t _bytes);
/// Zeroes out all bytes above the first ``bytes`` lower order bytes.
/// @note ``bytes`` has to be small enough not to overflow ``8 * bytes``.
/// signature: (value, bytes) -> result
std::string maskLowerOrderBytesFunctionDynamic();
/// @returns the name of a function that rounds its input to the next multiple
/// of 32 or the input if it is a multiple of 32.
/// Ignores overflow.
/// signature: (value) -> result
std::string roundUpFunction();
/// @returns the name of a function that divides by 32 and rounds up during the division.
/// In other words, on input x it returns the smallest y such that y * 32 >= x.
/// Ignores overflow.
/// signature: (x) -> y
std::string divide32CeilFunction();
/// signature: (x, y) -> sum
std::string overflowCheckedIntAddFunction(IntegerType const& _type);
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/// signature: (x, y) -> sum
std::string wrappingIntAddFunction(IntegerType const& _type);
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/// signature: (x, y) -> product
std::string overflowCheckedIntMulFunction(IntegerType const& _type);
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/// signature: (x, y) -> product
std::string wrappingIntMulFunction(IntegerType const& _type);
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/// @returns name of function to perform division on integers.
/// Checks for division by zero and the special case of
/// signed division of the smallest number by -1.
std::string overflowCheckedIntDivFunction(IntegerType const& _type);
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/// @returns name of function to perform division on integers.
/// Checks for division by zero.
std::string wrappingIntDivFunction(IntegerType const& _type);
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/// @returns name of function to perform modulo on integers.
/// Reverts for modulo by zero.
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std::string intModFunction(IntegerType const& _type);
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/// @returns computes the difference between two values.
/// Assumes the input to be in range for the type.
/// signature: (x, y) -> diff
std::string overflowCheckedIntSubFunction(IntegerType const& _type);
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/// @returns computes the difference between two values.
/// signature: (x, y) -> diff
std::string wrappingIntSubFunction(IntegerType const& _type);
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/// @returns the name of the exponentiation function.
/// signature: (base, exponent) -> power
std::string overflowCheckedIntExpFunction(IntegerType const& _type, IntegerType const& _exponentType);
/// @returns the name of the exponentiation function, specialized for literal base.
/// signature: exponent -> power
std::string overflowCheckedIntLiteralExpFunction(
RationalNumberType const& _baseType,
IntegerType const& _exponentType,
IntegerType const& _commonType
);
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/// Generic unsigned checked exponentiation function.
/// Reverts if the result is larger than max.
/// signature: (base, exponent, max) -> power
std::string overflowCheckedUnsignedExpFunction();
/// Generic signed checked exponentiation function.
/// Reverts if the result is smaller than min or larger than max.
/// The code relies on max <= |min| and min < 0.
/// signature: (base, exponent, min, max) -> power
std::string overflowCheckedSignedExpFunction();
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/// Helper function for the two checked exponentiation functions.
/// signature: (power, base, exponent, max) -> power
std::string overflowCheckedExpLoopFunction();
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/// @returns the name of the exponentiation function.
/// signature: (base, exponent) -> power
std::string wrappingIntExpFunction(IntegerType const& _type, IntegerType const& _exponentType);
/// @returns the name of a function that fetches the length of the given
/// array
/// signature: (array) -> length
std::string arrayLengthFunction(ArrayType const& _type);
/// @returns function name that extracts and returns byte array length from the value
/// stored at the slot.
/// Causes a Panic if the length encoding is wrong.
/// signature: (data) -> length
std::string extractByteArrayLengthFunction();
/// @returns the name of a function that resizes a storage array
/// for statically sized arrays, it will just clean-up elements of array starting from newLen until the end
/// signature: (array, newLen)
std::string resizeArrayFunction(ArrayType const& _type);
/// @returns the name of a function that zeroes all storage array elements from `startIndex` to `len` (excluding).
/// Assumes that `len` is the array length. Does nothing if `startIndex >= len`. Does not modify the stored length.
/// signature: (array, len, startIndex)
std::string cleanUpStorageArrayEndFunction(ArrayType const& _type);
/// @returns the name of a function that reduces the size of a storage array by one element
/// signature: (array)
std::string storageArrayPopFunction(ArrayType const& _type);
/// @returns the name of a function that pushes an element to a storage array
/// @param _fromType represents the type of the element being pushed.
/// If _fromType is ReferenceType the function will perform deep copy.
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/// signature: (array, value)
std::string storageArrayPushFunction(ArrayType const& _type, Type const* _fromType = nullptr);
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/// @returns the name of a function that pushes the base type's zero element to a storage array and returns storage slot and offset of the added element.
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/// signature: (array) -> slot, offset
std::string storageArrayPushZeroFunction(ArrayType const& _type);
/// @returns the name of a function that will clear the storage area given
/// by the start and end (exclusive) parameters (slots).
/// signature: (start, end)
std::string clearStorageRangeFunction(Type const& _type);
/// @returns the name of a function that will clear the given storage array
/// signature: (slot) ->
std::string clearStorageArrayFunction(ArrayType const& _type);
/// @returns the name of a function that will copy an array to storage
/// signature (to_slot, from_ptr) ->
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std::string copyArrayToStorageFunction(ArrayType const& _fromType, ArrayType const& _toType);
/// @returns the name of a function that will copy a byte array to storage
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/// signature (to_slot, from_ptr) ->
std::string copyByteArrayToStorageFunction(ArrayType const& _fromType, ArrayType const& _toType);
/// @returns the name of a function that will copy an array of value types to storage.
/// signature (to_slot, from_ptr[, from_length]) ->
std::string copyValueArrayToStorageFunction(ArrayType const& _fromType, ArrayType const& _toType);
/// Returns the name of a function that will convert a given length to the
/// size in memory (number of storage slots or calldata/memory bytes) it
/// will require.
/// signature: (length) -> size
std::string arrayConvertLengthToSize(ArrayType const& _type);
/// @returns the name of a function that computes the number of bytes required
/// to store an array in memory given its length (internally encoded, not ABI encoded).
/// The function reverts for too large lengths.
std::string arrayAllocationSizeFunction(ArrayType const& _type);
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/// @returns the name of a function that converts a storage slot number
/// a memory pointer or a calldata pointer to the slot number / memory pointer / calldata pointer
/// for the data position of an array which is stored in that slot / memory area / calldata area.
std::string arrayDataAreaFunction(ArrayType const& _type);
/// @returns the name of a function that returns the slot and offset for the
/// given array and index
/// signature: (array, index) -> slot, offset
std::string storageArrayIndexAccessFunction(ArrayType const& _type);
/// @returns the name of a function that returns the memory address for the
/// given array base ref and index.
/// Causes invalid opcode on out of range access.
/// signature: (baseRef, index) -> address
std::string memoryArrayIndexAccessFunction(ArrayType const& _type);
/// @returns the name of a function that returns the calldata address for the
/// given array base ref and index.
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/// signature: (baseRef, index) -> offset[, length]
std::string calldataArrayIndexAccessFunction(ArrayType const& _type);
/// @returns the name of a function that returns offset and length for array slice
/// for the given array offset, length and start and end indices for slice
/// signature: (arrayOffset, arrayLength, sliceStart, sliceEnd) -> offset, length
std::string calldataArrayIndexRangeAccess(ArrayType const& _type);
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/// @returns the name of a function that follows a calldata tail while performing
/// bounds checks.
/// signature: (baseRef, tailPointer) -> offset[, length]
std::string accessCalldataTailFunction(Type const& _type);
/// @returns the name of a function that advances an array data pointer to the next element.
/// Only works for memory arrays, calldata arrays and storage arrays that every item occupies one or multiple full slots.
std::string nextArrayElementFunction(ArrayType const& _type);
/// @returns the name of a function that allocates a memory array and copies the contents
/// of the storage array into it.
std::string copyArrayFromStorageToMemoryFunction(ArrayType const& _from, ArrayType const& _to);
/// @returns the name of a function that does concatenation of variadic number of
/// bytes if @a functionTypeKind is FunctionType::Kind::BytesConcat,
/// or of strings, if @a functionTypeKind is FunctionType::Kind::StringConcat.
std::string bytesOrStringConcatFunction(
std::vector<Type const*> const& _argumentTypes,
FunctionType::Kind _functionTypeKind
);
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/// @returns the name of a function that performs index access for mappings.
/// @param _mappingType the type of the mapping
/// @param _keyType the type of the value provided
std::string mappingIndexAccessFunction(MappingType const& _mappingType, Type const& _keyType);
/// @returns a function that reads a type from storage.
/// @param _splitFunctionTypes if false, returns the address and function signature in a
/// single variable.
std::string readFromStorage(Type const& _type, size_t _offset, bool _splitFunctionTypes);
std::string readFromStorageDynamic(Type const& _type, bool _splitFunctionTypes);
/// @returns a function that reads a value type from memory. Performs cleanup.
/// signature: (addr) -> value
std::string readFromMemory(Type const& _type);
/// @returns a function that reads a value type from calldata.
/// Reverts on invalid input.
/// signature: (addr) -> value
std::string readFromCalldata(Type const& _type);
/// @returns a function that extracts a value type from storage slot that has been
/// retrieved already.
/// Performs bit mask/sign extend cleanup and appropriate left / right shift, but not validation.
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///
/// For external function types, input and output is in "compressed"/"unsplit" form.
std::string extractFromStorageValue(Type const& _type, size_t _offset);
std::string extractFromStorageValueDynamic(Type const& _type);
/// Returns the name of a function will write the given value to
/// the specified slot and offset. If offset is not given, it is expected as
/// runtime parameter.
/// For reference types, offset is checked to be zero at runtime.
/// signature: (slot, [offset,] value)
std::string updateStorageValueFunction(
Type const& _fromType,
Type const& _toType,
std::optional<unsigned> const& _offset = std::optional<unsigned>()
);
/// Returns the name of a function that will write the given value to
/// the specified address.
/// Performs a cleanup before writing for value types.
/// signature: (memPtr, value) ->
std::string writeToMemoryFunction(Type const& _type);
/// Performs cleanup after reading from a potentially compressed storage slot.
/// The function does not perform any validation, it just masks or sign-extends
/// higher order bytes or left-aligns (in case of bytesNN).
/// The storage cleanup expects the value to be right-aligned with potentially
/// dirty higher order bytes.
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/// For external functions, input and output is in "compressed"/"unsplit" form.
std::string cleanupFromStorageFunction(Type const& _type);
/// @returns the name of a function that prepares a value of the given type
/// for being stored in storage. This usually includes cleanup and right-alignment
/// to fit the number of bytes in storage.
/// The resulting value might still have dirty higher order bits.
std::string prepareStoreFunction(Type const& _type);
/// @returns the name of a function that allocates memory.
/// Modifies the "free memory pointer"
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/// signature: (size) -> memPtr
std::string allocationFunction();
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/// @returns the name of the function that allocates memory whose size might be defined later.
/// The allocation can be finalized using finalizeAllocationFunction.
/// Any other allocation will invalidate the memory pointer unless finalizeAllocationFunction
/// is called.
/// signature: () -> memPtr
std::string allocateUnboundedFunction();
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/// @returns the name of the function that finalizes an unbounded memory allocation,
/// i.e. sets its size and makes the allocation permanent.
/// signature: (memPtr, size) ->
std::string finalizeAllocationFunction();
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/// @returns the name of a function that zeroes an array.
/// signature: (dataStart, dataSizeInBytes) ->
std::string zeroMemoryArrayFunction(ArrayType const& _type);
/// @returns the name of a function that zeroes a chunk of memory.
/// signature: (dataStart, dataSizeInBytes) ->
std::string zeroMemoryFunction(Type const& _type);
/// @returns the name of a function that zeroes an array
/// where the base does not have simple zero value in memory.
/// signature: (dataStart, dataSizeInBytes) ->
std::string zeroComplexMemoryArrayFunction(ArrayType const& _type);
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/// @returns the name of a function that allocates a memory array.
/// For dynamic arrays it adds space for length and stores it.
/// The contents of the data area are unspecified.
/// signature: (length) -> memPtr
std::string allocateMemoryArrayFunction(ArrayType const& _type);
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/// @returns the name of a function that allocates and zeroes a memory array.
/// For dynamic arrays it adds space for length and stores it.
/// signature: (length) -> memPtr
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std::string allocateAndInitializeMemoryArrayFunction(ArrayType const& _type);
/// @returns the name of a function that allocates a memory struct (no
/// initialization takes place).
/// signature: () -> memPtr
std::string allocateMemoryStructFunction(StructType const& _type);
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/// @returns the name of a function that allocates and zeroes a memory struct.
/// signature: () -> memPtr
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std::string allocateAndInitializeMemoryStructFunction(StructType const& _type);
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/// @returns the name of the function that converts a value of type @a _from
/// to a value of type @a _to. The resulting vale is guaranteed to be in range
/// (i.e. "clean"). Asserts on failure.
///
/// This is used for data being encoded or general type conversions in the code.
std::string conversionFunction(Type const& _from, Type const& _to);
/// @returns the name of a function that converts bytes array to fixed bytes type
/// signature: (array) -> value
std::string bytesToFixedBytesConversionFunction(ArrayType const& _from, FixedBytesType const& _to);
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/// @returns the name of the cleanup function for the given type and
/// adds its implementation to the requested functions.
/// The cleanup function defers to the validator function with "assert"
/// if there is no reasonable way to clean a value.
std::string cleanupFunction(Type const& _type);
/// @returns the name of the validator function for the given type and
/// adds its implementation to the requested functions.
/// @param _revertOnFailure if true, causes revert on invalid data,
/// otherwise an assertion failure.
///
/// This is used for data decoded from external sources.
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std::string validatorFunction(Type const& _type, bool _revertOnFailure);
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std::string packedHashFunction(std::vector<Type const*> const& _givenTypes, std::vector<Type const*> const& _targetTypes);
/// @returns the name of a function that reverts and uses returndata (if available)
/// as reason string.
std::string forwardingRevertFunction();
std::string incrementCheckedFunction(Type const& _type);
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std::string incrementWrappingFunction(Type const& _type);
std::string decrementCheckedFunction(Type const& _type);
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std::string decrementWrappingFunction(Type const& _type);
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std::string negateNumberCheckedFunction(Type const& _type);
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std::string negateNumberWrappingFunction(Type const& _type);
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/// @returns the name of a function that returns the zero value for the
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/// provided type.
/// @param _splitFunctionTypes if false, returns two zeroes
std::string zeroValueFunction(Type const& _type, bool _splitFunctionTypes = true);
/// @returns the name of a function that will set the given storage item to
/// zero
/// signature: (slot, offset) ->
std::string storageSetToZeroFunction(Type const& _type);
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/// If revertStrings is debug, @returns the name of a function that
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/// stores @param _message in memory position 0 and reverts.
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/// Otherwise returns the name of a function that uses "revert(0, 0)".
std::string revertReasonIfDebugFunction(std::string const& _message = "");
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/// @returns the function body of ``revertReasonIfDebug``.
/// Should only be used internally and by the old code generator.
static std::string revertReasonIfDebugBody(
RevertStrings _revertStrings,
std::string const& _allocation,
std::string const& _message
);
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/// Reverts with ``Panic(uint256)`` and the given code.
std::string panicFunction(util::PanicCode _code);
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/// @returns the name of a function that returns the return data selector.
/// Returns zero if return data is too short.
std::string returnDataSelectorFunction();
/// @returns the name of a function that tries to abi-decode a string from offset 4 in the
/// return data. On failure, returns 0, otherwise a pointer to the newly allocated string.
/// Does not check the return data signature.
/// signature: () -> ptr
std::string tryDecodeErrorMessageFunction();
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/// @returns the name of a function that tries to abi-decode a uint256 value from offset 4 in the
/// return data.
/// Does not check the return data signature.
/// signature: () -> success, value
std::string tryDecodePanicDataFunction();
/// Returns a function name that returns a newly allocated `bytes` array that contains the return data.
///
/// If returndatacopy() is not supported by the underlying target, a empty array will be returned instead.
std::string extractReturndataFunction();
/// @returns function name that returns constructor arguments copied to memory
/// signature: () -> arguments
std::string copyConstructorArgumentsToMemoryFunction(
ContractDefinition const& _contract,
std::string const& _creationObjectName
);
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/// @returns the name of a function that copies code from a given address to a newly
/// allocated byte array in memory.
/// Signature: (address) -> mpos
std::string externalCodeFunction();
/// @return the name of a function that that checks if two external functions pointers are equal or not
std::string externalFunctionPointersEqualFunction();
private:
/// @returns the name of a function that copies a struct from calldata or memory to storage
/// signature: (slot, value) ->
std::string copyStructToStorageFunction(StructType const& _from, StructType const& _to);
/// Special case of conversion functions - handles all array conversions.
std::string arrayConversionFunction(ArrayType const& _from, ArrayType const& _to);
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/// Special case of conversionFunction - handles everything that does not
/// use exactly one variable to hold the value.
std::string conversionFunctionSpecial(Type const& _from, Type const& _to);
/// @returns the name of a function that reduces the size of a storage byte array by one element
/// signature: (byteArray)
std::string storageByteArrayPopFunction(ArrayType const& _type);
std::string readFromMemoryOrCalldata(Type const& _type, bool _fromCalldata);
/// @returns a function that reads a value type from storage.
/// Performs bit mask/sign extend cleanup and appropriate left / right shift, but not validation.
/// @param _splitFunctionTypes if false, returns the address and function signature in a
/// single variable.
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/// @param _offset if provided, read from static offset, otherwise offset is a parameter of the Yul function.
std::string readFromStorageValueType(Type const& _type, std::optional<size_t> _offset, bool _splitFunctionTypes);
/// @returns a function that reads a reference type from storage to memory (performing a deep copy).
std::string readFromStorageReferenceType(Type const& _type);
/// @returns the name of a function that will clear given storage slot
/// starting with given offset until the end of the slot
/// signature: (slot, offset)
std::string partialClearStorageSlotFunction();
/// @returns the name of a function that will clear the given storage struct
/// signature: (slot) ->
std::string clearStorageStructFunction(StructType const& _type);
/// @returns the name of a function that resizes a storage byte array
/// signature: (array, newLen)
std::string resizeDynamicByteArrayFunction(ArrayType const& _type);
/// @returns the name of a function that cleans up elements of a storage byte array starting from startIndex.
/// It will not copy elements in case of transformation to short byte array, and will not change array length.
/// In case of startIndex is greater than len, doesn't do anything.
/// In case of short byte array (< 32 bytes) doesn't do anything.
/// If the first slot to be cleaned up is partially occupied, does not touch it. Cleans up only completely unused slots.
/// signature: (array, len, startIndex)
std::string cleanUpDynamicByteArrayEndSlotsFunction(ArrayType const& _type);
/// @returns the name of a function that increases size of byte array
/// when we resize byte array frextractUsedSetLenom < 32 elements to >= 32 elements or we push to byte array of size 31 copying of data will occur
/// signature: (array, data, oldLen, newLen)
std::string increaseByteArraySizeFunction(ArrayType const& _type);
/// @returns the name of a function that decreases size of byte array
/// when we resize byte array from >= 32 elements to < 32 elements or we pop from byte array of size 32 copying of data will occur
/// signature: (array, data, oldLen, newLen)
std::string decreaseByteArraySizeFunction(ArrayType const& _type);
/// @returns the name of a function that sets size of short byte array while copying data
/// should be called when we resize from long byte array (more than 32 elements) to short byte array
/// signature: (array, data, len)
std::string byteArrayTransitLongToShortFunction(ArrayType const& _type);
/// @returns the name of a function that extracts only used part of slot that represents short byte array
/// signature: (data, len) -> data
std::string shortByteArrayEncodeUsedAreaSetLengthFunction();
/// @returns the name of a function that calculates slot and offset for index
/// Doesn't perform length checks, assumes that index is in bounds
/// signature: (array, index)
std::string longByteArrayStorageIndexAccessNoCheckFunction();
langutil::EVMVersion m_evmVersion;
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RevertStrings m_revertStrings;
MultiUseYulFunctionCollector& m_functionCollector;
};
}