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/*
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This file is part of solidity .
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solidity is free software : you can redistribute it and / or modify
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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 .
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solidity is distributed in the hope that it will be useful ,
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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
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along with solidity . If not , see < http : //www.gnu.org/licenses/>.
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*/
/**
* @ author Christian < c @ ethdev . com >
* @ date 2014
* Solidity compiler .
*/
# include <libsolidity/codegen/ContractCompiler.h>
# include <libsolidity/inlineasm/AsmCodeGen.h>
# include <libsolidity/ast/AST.h>
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# include <libsolidity/interface/ErrorReporter.h>
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# include <libsolidity/codegen/ExpressionCompiler.h>
# include <libsolidity/codegen/CompilerUtils.h>
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# include <libevmasm/Instruction.h>
# include <libevmasm/Assembly.h>
# include <libevmasm/GasMeter.h>
# include <boost/range/adaptor/reversed.hpp>
# include <algorithm>
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using namespace std ;
using namespace dev ;
using namespace dev : : solidity ;
/**
* Simple helper class to ensure that the stack height is the same at certain places in the code .
*/
class StackHeightChecker
{
public :
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explicit StackHeightChecker ( CompilerContext const & _context ) :
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m_context ( _context ) , stackHeight ( m_context . stackHeight ( ) ) { }
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void check ( ) { solAssert ( m_context . stackHeight ( ) = = stackHeight , std : : string ( " I sense a disturbance in the stack: " ) + std : : to_string ( m_context . stackHeight ( ) ) + " vs " + std : : to_string ( stackHeight ) ) ; }
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private :
CompilerContext const & m_context ;
unsigned stackHeight ;
} ;
void ContractCompiler : : compileContract (
ContractDefinition const & _contract ,
std : : map < const ContractDefinition * , eth : : Assembly const * > const & _contracts
)
{
CompilerContext : : LocationSetter locationSetter ( m_context , _contract ) ;
initializeContext ( _contract , _contracts ) ;
appendFunctionSelector ( _contract ) ;
appendMissingFunctions ( ) ;
}
size_t ContractCompiler : : compileConstructor (
ContractDefinition const & _contract ,
std : : map < const ContractDefinition * , eth : : Assembly const * > const & _contracts
)
{
CompilerContext : : LocationSetter locationSetter ( m_context , _contract ) ;
initializeContext ( _contract , _contracts ) ;
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return packIntoContractCreator ( _contract ) ;
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}
size_t ContractCompiler : : compileClone (
ContractDefinition const & _contract ,
map < ContractDefinition const * , eth : : Assembly const * > const & _contracts
)
{
initializeContext ( _contract , _contracts ) ;
appendInitAndConstructorCode ( _contract ) ;
//@todo determine largest return size of all runtime functions
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auto runtimeSub = m_context . addSubroutine ( cloneRuntime ( ) ) ;
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// stack contains sub size
m_context < < Instruction : : DUP1 < < runtimeSub < < u256 ( 0 ) < < Instruction : : CODECOPY ;
m_context < < u256 ( 0 ) < < Instruction : : RETURN ;
appendMissingFunctions ( ) ;
return size_t ( runtimeSub . data ( ) ) ;
}
void ContractCompiler : : initializeContext (
ContractDefinition const & _contract ,
map < ContractDefinition const * , eth : : Assembly const * > const & _compiledContracts
)
{
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m_context . setExperimentalFeatures ( _contract . sourceUnit ( ) . annotation ( ) . experimentalFeatures ) ;
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m_context . setCompiledContracts ( _compiledContracts ) ;
m_context . setInheritanceHierarchy ( _contract . annotation ( ) . linearizedBaseContracts ) ;
CompilerUtils ( m_context ) . initialiseFreeMemoryPointer ( ) ;
registerStateVariables ( _contract ) ;
m_context . resetVisitedNodes ( & _contract ) ;
}
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void ContractCompiler : : appendCallValueCheck ( )
{
// Throw if function is not payable but call contained ether.
m_context < < Instruction : : CALLVALUE ;
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m_context . appendConditionalRevert ( ) ;
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}
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void ContractCompiler : : appendInitAndConstructorCode ( ContractDefinition const & _contract )
{
// Determine the arguments that are used for the base constructors.
std : : vector < ContractDefinition const * > const & bases = _contract . annotation ( ) . linearizedBaseContracts ;
for ( ContractDefinition const * contract : bases )
{
if ( FunctionDefinition const * constructor = contract - > constructor ( ) )
for ( auto const & modifier : constructor - > modifiers ( ) )
{
auto baseContract = dynamic_cast < ContractDefinition const * > (
modifier - > name ( ) - > annotation ( ) . referencedDeclaration ) ;
if ( baseContract )
if ( m_baseArguments . count ( baseContract - > constructor ( ) ) = = 0 )
m_baseArguments [ baseContract - > constructor ( ) ] = & modifier - > arguments ( ) ;
}
for ( ASTPointer < InheritanceSpecifier > const & base : contract - > baseContracts ( ) )
{
ContractDefinition const * baseContract = dynamic_cast < ContractDefinition const * > (
base - > name ( ) . annotation ( ) . referencedDeclaration
) ;
solAssert ( baseContract , " " ) ;
if ( m_baseArguments . count ( baseContract - > constructor ( ) ) = = 0 )
m_baseArguments [ baseContract - > constructor ( ) ] = & base - > arguments ( ) ;
}
}
// Initialization of state variables in base-to-derived order.
for ( ContractDefinition const * contract : boost : : adaptors : : reverse ( bases ) )
initializeStateVariables ( * contract ) ;
if ( FunctionDefinition const * constructor = _contract . constructor ( ) )
appendConstructor ( * constructor ) ;
else if ( auto c = m_context . nextConstructor ( _contract ) )
appendBaseConstructor ( * c ) ;
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else
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appendCallValueCheck ( ) ;
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}
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size_t ContractCompiler : : packIntoContractCreator ( ContractDefinition const & _contract )
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{
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solAssert ( ! ! m_runtimeCompiler , " " ) ;
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appendInitAndConstructorCode ( _contract ) ;
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// We jump to the deploy routine because we first have to append all missing functions,
// which can cause further functions to be added to the runtime context.
eth : : AssemblyItem deployRoutine = m_context . appendJumpToNew ( ) ;
// We have to include copies of functions in the construction time and runtime context
// because of absolute jumps.
appendMissingFunctions ( ) ;
m_runtimeCompiler - > appendMissingFunctions ( ) ;
m_context < < deployRoutine ;
solAssert ( m_context . runtimeSub ( ) ! = size_t ( - 1 ) , " Runtime sub not registered " ) ;
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m_context . pushSubroutineSize ( m_context . runtimeSub ( ) ) ;
m_context < < Instruction : : DUP1 ;
m_context . pushSubroutineOffset ( m_context . runtimeSub ( ) ) ;
m_context < < u256 ( 0 ) < < Instruction : : CODECOPY ;
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m_context < < u256 ( 0 ) < < Instruction : : RETURN ;
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return m_context . runtimeSub ( ) ;
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}
void ContractCompiler : : appendBaseConstructor ( FunctionDefinition const & _constructor )
{
CompilerContext : : LocationSetter locationSetter ( m_context , _constructor ) ;
FunctionType constructorType ( _constructor ) ;
if ( ! constructorType . parameterTypes ( ) . empty ( ) )
{
solAssert ( m_baseArguments . count ( & _constructor ) , " " ) ;
std : : vector < ASTPointer < Expression > > const * arguments = m_baseArguments [ & _constructor ] ;
solAssert ( arguments , " " ) ;
for ( unsigned i = 0 ; i < arguments - > size ( ) ; + + i )
compileExpression ( * ( arguments - > at ( i ) ) , constructorType . parameterTypes ( ) [ i ] ) ;
}
_constructor . accept ( * this ) ;
}
void ContractCompiler : : appendConstructor ( FunctionDefinition const & _constructor )
{
CompilerContext : : LocationSetter locationSetter ( m_context , _constructor ) ;
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if ( ! _constructor . isPayable ( ) )
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appendCallValueCheck ( ) ;
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// copy constructor arguments from code to memory and then to stack, they are supplied after the actual program
if ( ! _constructor . parameters ( ) . empty ( ) )
{
unsigned argumentSize = 0 ;
for ( ASTPointer < VariableDeclaration > const & var : _constructor . parameters ( ) )
if ( var - > annotation ( ) . type - > isDynamicallySized ( ) )
{
argumentSize = 0 ;
break ;
}
else
argumentSize + = var - > annotation ( ) . type - > calldataEncodedSize ( ) ;
CompilerUtils ( m_context ) . fetchFreeMemoryPointer ( ) ;
if ( argumentSize = = 0 )
{
// argument size is dynamic, use CODESIZE to determine it
m_context . appendProgramSize ( ) ; // program itself
// CODESIZE is program plus manually added arguments
m_context < < Instruction : : CODESIZE < < Instruction : : SUB ;
}
else
m_context < < u256 ( argumentSize ) ;
// stack: <memptr> <argument size>
m_context < < Instruction : : DUP1 ;
m_context . appendProgramSize ( ) ;
m_context < < Instruction : : DUP4 < < Instruction : : CODECOPY ;
m_context < < Instruction : : DUP2 < < Instruction : : ADD ;
CompilerUtils ( m_context ) . storeFreeMemoryPointer ( ) ;
// stack: <memptr>
appendCalldataUnpacker ( FunctionType ( _constructor ) . parameterTypes ( ) , true ) ;
}
_constructor . accept ( * this ) ;
}
void ContractCompiler : : appendFunctionSelector ( ContractDefinition const & _contract )
{
map < FixedHash < 4 > , FunctionTypePointer > interfaceFunctions = _contract . interfaceFunctions ( ) ;
map < FixedHash < 4 > , const eth : : AssemblyItem > callDataUnpackerEntryPoints ;
FunctionDefinition const * fallback = _contract . fallbackFunction ( ) ;
eth : : AssemblyItem notFound = m_context . newTag ( ) ;
// shortcut messages without data if we have many functions in order to be able to receive
// ether with constant gas
if ( interfaceFunctions . size ( ) > 5 | | fallback )
{
m_context < < Instruction : : CALLDATASIZE < < Instruction : : ISZERO ;
m_context . appendConditionalJumpTo ( notFound ) ;
}
// retrieve the function signature hash from the calldata
if ( ! interfaceFunctions . empty ( ) )
CompilerUtils ( m_context ) . loadFromMemory ( 0 , IntegerType ( CompilerUtils : : dataStartOffset * 8 ) , true ) ;
// stack now is: 1 0 <funhash>
for ( auto const & it : interfaceFunctions )
{
callDataUnpackerEntryPoints . insert ( std : : make_pair ( it . first , m_context . newTag ( ) ) ) ;
m_context < < dupInstruction ( 1 ) < < u256 ( FixedHash < 4 > : : Arith ( it . first ) ) < < Instruction : : EQ ;
m_context . appendConditionalJumpTo ( callDataUnpackerEntryPoints . at ( it . first ) ) ;
}
m_context . appendJumpTo ( notFound ) ;
m_context < < notFound ;
if ( fallback )
{
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if ( ! fallback - > isPayable ( ) )
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appendCallValueCheck ( ) ;
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solAssert ( fallback - > isFallback ( ) , " " ) ;
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solAssert ( FunctionType ( * fallback ) . parameterTypes ( ) . empty ( ) , " " ) ;
solAssert ( FunctionType ( * fallback ) . returnParameterTypes ( ) . empty ( ) , " " ) ;
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fallback - > accept ( * this ) ;
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m_context < < Instruction : : STOP ;
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}
else
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m_context . appendRevert ( ) ;
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for ( auto const & it : interfaceFunctions )
{
FunctionTypePointer const & functionType = it . second ;
solAssert ( functionType - > hasDeclaration ( ) , " " ) ;
CompilerContext : : LocationSetter locationSetter ( m_context , functionType - > declaration ( ) ) ;
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m_context < < callDataUnpackerEntryPoints . at ( it . first ) ;
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m_context . setStackOffset ( 0 ) ;
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// We have to allow this for libraries, because value of the previous
// call is still visible in the delegatecall.
if ( ! functionType - > isPayable ( ) & & ! _contract . isLibrary ( ) )
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appendCallValueCheck ( ) ;
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// Return tag is used to jump out of the function.
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eth : : AssemblyItem returnTag = m_context . pushNewTag ( ) ;
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if ( ! functionType - > parameterTypes ( ) . empty ( ) )
{
// Parameter for calldataUnpacker
m_context < < CompilerUtils : : dataStartOffset ;
appendCalldataUnpacker ( functionType - > parameterTypes ( ) ) ;
}
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m_context . appendJumpTo ( m_context . functionEntryLabel ( functionType - > declaration ( ) ) ) ;
m_context < < returnTag ;
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// Return tag and input parameters get consumed.
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m_context . adjustStackOffset (
CompilerUtils ( m_context ) . sizeOnStack ( functionType - > returnParameterTypes ( ) ) -
CompilerUtils ( m_context ) . sizeOnStack ( functionType - > parameterTypes ( ) ) -
1
) ;
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// Consumes the return parameters.
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appendReturnValuePacker ( functionType - > returnParameterTypes ( ) , _contract . isLibrary ( ) ) ;
}
}
void ContractCompiler : : appendCalldataUnpacker ( TypePointers const & _typeParameters , bool _fromMemory )
{
// We do not check the calldata size, everything is zero-padded
//@todo this does not yet support nested dynamic arrays
// Retain the offset pointer as base_offset, the point from which the data offsets are computed.
m_context < < Instruction : : DUP1 ;
for ( TypePointer const & parameterType : _typeParameters )
{
// stack: v1 v2 ... v(k-1) base_offset current_offset
TypePointer type = parameterType - > decodingType ( ) ;
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solAssert ( type , " No decoding type found. " ) ;
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if ( type - > category ( ) = = Type : : Category : : Array )
{
auto const & arrayType = dynamic_cast < ArrayType const & > ( * type ) ;
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solUnimplementedAssert ( ! arrayType . baseType ( ) - > isDynamicallySized ( ) , " Nested arrays not yet implemented. " ) ;
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if ( _fromMemory )
{
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solUnimplementedAssert (
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arrayType . baseType ( ) - > isValueType ( ) ,
" Nested memory arrays not yet implemented here. "
) ;
// @todo If base type is an array or struct, it is still calldata-style encoded, so
// we would have to convert it like below.
solAssert ( arrayType . location ( ) = = DataLocation : : Memory , " " ) ;
if ( arrayType . isDynamicallySized ( ) )
{
// compute data pointer
m_context < < Instruction : : DUP1 < < Instruction : : MLOAD ;
m_context < < Instruction : : DUP3 < < Instruction : : ADD ;
m_context < < Instruction : : SWAP2 < < Instruction : : SWAP1 ;
m_context < < u256 ( 0x20 ) < < Instruction : : ADD ;
}
else
{
m_context < < Instruction : : SWAP1 < < Instruction : : DUP2 ;
m_context < < u256 ( arrayType . calldataEncodedSize ( true ) ) < < Instruction : : ADD ;
}
}
else
{
// first load from calldata and potentially convert to memory if arrayType is memory
TypePointer calldataType = arrayType . copyForLocation ( DataLocation : : CallData , false ) ;
if ( calldataType - > isDynamicallySized ( ) )
{
// put on stack: data_pointer length
CompilerUtils ( m_context ) . loadFromMemoryDynamic ( IntegerType ( 256 ) , ! _fromMemory ) ;
// stack: base_offset data_offset next_pointer
m_context < < Instruction : : SWAP1 < < Instruction : : DUP3 < < Instruction : : ADD ;
// stack: base_offset next_pointer data_pointer
// retrieve length
CompilerUtils ( m_context ) . loadFromMemoryDynamic ( IntegerType ( 256 ) , ! _fromMemory , true ) ;
// stack: base_offset next_pointer length data_pointer
m_context < < Instruction : : SWAP2 ;
// stack: base_offset data_pointer length next_pointer
}
else
{
// leave the pointer on the stack
m_context < < Instruction : : DUP1 ;
m_context < < u256 ( calldataType - > calldataEncodedSize ( ) ) < < Instruction : : ADD ;
}
if ( arrayType . location ( ) = = DataLocation : : Memory )
{
// stack: base_offset calldata_ref [length] next_calldata
// copy to memory
// move calldata type up again
CompilerUtils ( m_context ) . moveIntoStack ( calldataType - > sizeOnStack ( ) ) ;
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CompilerUtils ( m_context ) . convertType ( * calldataType , arrayType , false , false , true ) ;
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// fetch next pointer again
CompilerUtils ( m_context ) . moveToStackTop ( arrayType . sizeOnStack ( ) ) ;
}
// move base_offset up
CompilerUtils ( m_context ) . moveToStackTop ( 1 + arrayType . sizeOnStack ( ) ) ;
m_context < < Instruction : : SWAP1 ;
}
}
else
{
solAssert ( ! type - > isDynamicallySized ( ) , " Unknown dynamically sized type: " + type - > toString ( ) ) ;
CompilerUtils ( m_context ) . loadFromMemoryDynamic ( * type , ! _fromMemory , true ) ;
CompilerUtils ( m_context ) . moveToStackTop ( 1 + type - > sizeOnStack ( ) ) ;
m_context < < Instruction : : SWAP1 ;
}
// stack: v1 v2 ... v(k-1) v(k) base_offset mem_offset
}
m_context < < Instruction : : POP < < Instruction : : POP ;
}
void ContractCompiler : : appendReturnValuePacker ( TypePointers const & _typeParameters , bool _isLibrary )
{
CompilerUtils utils ( m_context ) ;
if ( _typeParameters . empty ( ) )
m_context < < Instruction : : STOP ;
else
{
utils . fetchFreeMemoryPointer ( ) ;
//@todo optimization: if we return a single memory array, there should be enough space before
// its data to add the needed parts and we avoid a memory copy.
utils . encodeToMemory ( _typeParameters , _typeParameters , true , false , _isLibrary ) ;
utils . toSizeAfterFreeMemoryPointer ( ) ;
m_context < < Instruction : : RETURN ;
}
}
void ContractCompiler : : registerStateVariables ( ContractDefinition const & _contract )
{
for ( auto const & var : ContractType ( _contract ) . stateVariables ( ) )
m_context . addStateVariable ( * get < 0 > ( var ) , get < 1 > ( var ) , get < 2 > ( var ) ) ;
}
void ContractCompiler : : initializeStateVariables ( ContractDefinition const & _contract )
{
for ( VariableDeclaration const * variable : _contract . stateVariables ( ) )
if ( variable - > value ( ) & & ! variable - > isConstant ( ) )
ExpressionCompiler ( m_context , m_optimise ) . appendStateVariableInitialization ( * variable ) ;
}
bool ContractCompiler : : visit ( VariableDeclaration const & _variableDeclaration )
{
solAssert ( _variableDeclaration . isStateVariable ( ) , " Compiler visit to non-state variable declaration. " ) ;
CompilerContext : : LocationSetter locationSetter ( m_context , _variableDeclaration ) ;
m_context . startFunction ( _variableDeclaration ) ;
m_breakTags . clear ( ) ;
m_continueTags . clear ( ) ;
if ( _variableDeclaration . isConstant ( ) )
ExpressionCompiler ( m_context , m_optimise ) . appendConstStateVariableAccessor ( _variableDeclaration ) ;
else
ExpressionCompiler ( m_context , m_optimise ) . appendStateVariableAccessor ( _variableDeclaration ) ;
return false ;
}
bool ContractCompiler : : visit ( FunctionDefinition const & _function )
{
CompilerContext : : LocationSetter locationSetter ( m_context , _function ) ;
m_context . startFunction ( _function ) ;
// stack upon entry: [return address] [arg0] [arg1] ... [argn]
// reserve additional slots: [retarg0] ... [retargm] [localvar0] ... [localvarp]
unsigned parametersSize = CompilerUtils : : sizeOnStack ( _function . parameters ( ) ) ;
if ( ! _function . isConstructor ( ) )
// adding 1 for return address.
m_context . adjustStackOffset ( parametersSize + 1 ) ;
for ( ASTPointer < VariableDeclaration const > const & variable : _function . parameters ( ) )
{
m_context . addVariable ( * variable , parametersSize ) ;
parametersSize - = variable - > annotation ( ) . type - > sizeOnStack ( ) ;
}
for ( ASTPointer < VariableDeclaration const > const & variable : _function . returnParameters ( ) )
appendStackVariableInitialisation ( * variable ) ;
for ( VariableDeclaration const * localVariable : _function . localVariables ( ) )
appendStackVariableInitialisation ( * localVariable ) ;
if ( _function . isConstructor ( ) )
if ( auto c = m_context . nextConstructor ( dynamic_cast < ContractDefinition const & > ( * _function . scope ( ) ) ) )
appendBaseConstructor ( * c ) ;
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solAssert ( m_returnTags . empty ( ) , " " ) ;
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m_breakTags . clear ( ) ;
m_continueTags . clear ( ) ;
m_stackCleanupForReturn = 0 ;
m_currentFunction = & _function ;
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m_modifierDepth = - 1 ;
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appendModifierOrFunctionCode ( ) ;
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solAssert ( m_returnTags . empty ( ) , " " ) ;
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// Now we need to re-shuffle the stack. For this we keep a record of the stack layout
// that shows the target positions of the elements, where "-1" denotes that this element needs
// to be removed from the stack.
// Note that the fact that the return arguments are of increasing index is vital for this
// algorithm to work.
unsigned const c_argumentsSize = CompilerUtils : : sizeOnStack ( _function . parameters ( ) ) ;
unsigned const c_returnValuesSize = CompilerUtils : : sizeOnStack ( _function . returnParameters ( ) ) ;
unsigned const c_localVariablesSize = CompilerUtils : : sizeOnStack ( _function . localVariables ( ) ) ;
vector < int > stackLayout ;
stackLayout . push_back ( c_returnValuesSize ) ; // target of return address
stackLayout + = vector < int > ( c_argumentsSize , - 1 ) ; // discard all arguments
for ( unsigned i = 0 ; i < c_returnValuesSize ; + + i )
stackLayout . push_back ( i ) ;
stackLayout + = vector < int > ( c_localVariablesSize , - 1 ) ;
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if ( stackLayout . size ( ) > 17 )
BOOST_THROW_EXCEPTION (
CompilerError ( ) < <
errinfo_sourceLocation ( _function . location ( ) ) < <
errinfo_comment ( " Stack too deep, try removing local variables. " )
) ;
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while ( stackLayout . back ( ) ! = int ( stackLayout . size ( ) - 1 ) )
if ( stackLayout . back ( ) < 0 )
{
m_context < < Instruction : : POP ;
stackLayout . pop_back ( ) ;
}
else
{
m_context < < swapInstruction ( stackLayout . size ( ) - stackLayout . back ( ) - 1 ) ;
swap ( stackLayout [ stackLayout . back ( ) ] , stackLayout . back ( ) ) ;
}
//@todo assert that everything is in place now
for ( ASTPointer < VariableDeclaration const > const & variable : _function . parameters ( ) + _function . returnParameters ( ) )
m_context . removeVariable ( * variable ) ;
for ( VariableDeclaration const * localVariable : _function . localVariables ( ) )
m_context . removeVariable ( * localVariable ) ;
m_context . adjustStackOffset ( - ( int ) c_returnValuesSize ) ;
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/// The constructor and the fallback function doesn't to jump out.
if ( ! _function . isConstructor ( ) & & ! _function . isFallback ( ) )
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m_context . appendJump ( eth : : AssemblyItem : : JumpType : : OutOfFunction ) ;
return false ;
}
bool ContractCompiler : : visit ( InlineAssembly const & _inlineAssembly )
{
unsigned startStackHeight = m_context . stackHeight ( ) ;
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julia : : ExternalIdentifierAccess identifierAccess ;
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identifierAccess . resolve = [ & ] ( assembly : : Identifier const & _identifier , julia : : IdentifierContext , bool )
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{
auto ref = _inlineAssembly . annotation ( ) . externalReferences . find ( & _identifier ) ;
if ( ref = = _inlineAssembly . annotation ( ) . externalReferences . end ( ) )
return size_t ( - 1 ) ;
return ref - > second . valueSize ;
} ;
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identifierAccess . generateCode = [ & ] ( assembly : : Identifier const & _identifier , julia : : IdentifierContext _context , julia : : AbstractAssembly & _assembly )
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{
auto ref = _inlineAssembly . annotation ( ) . externalReferences . find ( & _identifier ) ;
solAssert ( ref ! = _inlineAssembly . annotation ( ) . externalReferences . end ( ) , " " ) ;
Declaration const * decl = ref - > second . declaration ;
solAssert ( ! ! decl , " " ) ;
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if ( _context = = julia : : IdentifierContext : : RValue )
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{
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int const depositBefore = _assembly . stackHeight ( ) ;
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solAssert ( ! ! decl - > type ( ) , " Type of declaration required but not yet determined. " ) ;
if ( FunctionDefinition const * functionDef = dynamic_cast < FunctionDefinition const * > ( decl ) )
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{
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solAssert ( ! ref - > second . isOffset & & ! ref - > second . isSlot , " " ) ;
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functionDef = & m_context . resolveVirtualFunction ( * functionDef ) ;
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auto functionEntryLabel = m_context . functionEntryLabel ( * functionDef ) . pushTag ( ) ;
solAssert ( functionEntryLabel . data ( ) < = std : : numeric_limits < size_t > : : max ( ) , " " ) ;
_assembly . appendLabelReference ( size_t ( functionEntryLabel . data ( ) ) ) ;
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// If there is a runtime context, we have to merge both labels into the same
// stack slot in case we store it in storage.
if ( CompilerContext * rtc = m_context . runtimeContext ( ) )
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{
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_assembly . appendConstant ( u256 ( 1 ) < < 32 ) ;
_assembly . appendInstruction ( Instruction : : MUL ) ;
auto runtimeEntryLabel = rtc - > functionEntryLabel ( * functionDef ) . toSubAssemblyTag ( m_context . runtimeSub ( ) ) ;
solAssert ( runtimeEntryLabel . data ( ) < = std : : numeric_limits < size_t > : : max ( ) , " " ) ;
_assembly . appendLabelReference ( size_t ( runtimeEntryLabel . data ( ) ) ) ;
_assembly . appendInstruction ( Instruction : : OR ) ;
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}
}
else if ( auto variable = dynamic_cast < VariableDeclaration const * > ( decl ) )
{
solAssert ( ! variable - > isConstant ( ) , " " ) ;
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if ( m_context . isStateVariable ( decl ) )
{
auto const & location = m_context . storageLocationOfVariable ( * decl ) ;
if ( ref - > second . isSlot )
m_context < < location . first ;
else if ( ref - > second . isOffset )
m_context < < u256 ( location . second ) ;
else
solAssert ( false , " " ) ;
}
else if ( m_context . isLocalVariable ( decl ) )
{
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int stackDiff = _assembly . stackHeight ( ) - m_context . baseStackOffsetOfVariable ( * variable ) ;
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if ( ref - > second . isSlot | | ref - > second . isOffset )
{
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solAssert ( variable - > type ( ) - > dataStoredIn ( DataLocation : : Storage ) , " " ) ;
unsigned size = variable - > type ( ) - > sizeOnStack ( ) ;
if ( size = = 2 )
{
// slot plus offset
if ( ref - > second . isOffset )
stackDiff - - ;
}
else
{
solAssert ( size = = 1 , " " ) ;
// only slot, offset is zero
if ( ref - > second . isOffset )
{
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_assembly . appendConstant ( u256 ( 0 ) ) ;
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return ;
}
}
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}
else
solAssert ( variable - > type ( ) - > sizeOnStack ( ) = = 1 , " " ) ;
if ( stackDiff < 1 | | stackDiff > 16 )
BOOST_THROW_EXCEPTION (
CompilerError ( ) < <
errinfo_sourceLocation ( _inlineAssembly . location ( ) ) < <
errinfo_comment ( " Stack too deep, try removing local variables. " )
) ;
solAssert ( variable - > type ( ) - > sizeOnStack ( ) = = 1 , " " ) ;
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_assembly . appendInstruction ( dupInstruction ( stackDiff ) ) ;
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}
else
solAssert ( false , " " ) ;
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}
else if ( auto contract = dynamic_cast < ContractDefinition const * > ( decl ) )
{
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solAssert ( ! ref - > second . isOffset & & ! ref - > second . isSlot , " " ) ;
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solAssert ( contract - > isLibrary ( ) , " " ) ;
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_assembly . appendLinkerSymbol ( contract - > fullyQualifiedName ( ) ) ;
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}
else
solAssert ( false , " Invalid declaration type. " ) ;
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solAssert ( _assembly . stackHeight ( ) - depositBefore = = int ( ref - > second . valueSize ) , " " ) ;
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}
else
{
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// lvalue context
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solAssert ( ! ref - > second . isOffset & & ! ref - > second . isSlot , " " ) ;
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auto variable = dynamic_cast < VariableDeclaration const * > ( decl ) ;
solAssert (
! ! variable & & m_context . isLocalVariable ( variable ) ,
" Can only assign to stack variables in inline assembly. "
) ;
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solAssert ( variable - > type ( ) - > sizeOnStack ( ) = = 1 , " " ) ;
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int stackDiff = _assembly . stackHeight ( ) - m_context . baseStackOffsetOfVariable ( * variable ) - 1 ;
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if ( stackDiff > 16 | | stackDiff < 1 )
BOOST_THROW_EXCEPTION (
CompilerError ( ) < <
errinfo_sourceLocation ( _inlineAssembly . location ( ) ) < <
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errinfo_comment ( " Stack too deep( " + to_string ( stackDiff ) + " ), try removing local variables. " )
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) ;
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_assembly . appendInstruction ( swapInstruction ( stackDiff ) ) ;
_assembly . appendInstruction ( Instruction : : POP ) ;
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}
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} ;
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solAssert ( _inlineAssembly . annotation ( ) . analysisInfo , " " ) ;
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assembly : : CodeGenerator : : assemble (
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_inlineAssembly . operations ( ) ,
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* _inlineAssembly . annotation ( ) . analysisInfo ,
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m_context . nonConstAssembly ( ) ,
identifierAccess
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) ;
m_context . setStackOffset ( startStackHeight ) ;
return false ;
}
bool ContractCompiler : : visit ( IfStatement const & _ifStatement )
{
StackHeightChecker checker ( m_context ) ;
CompilerContext : : LocationSetter locationSetter ( m_context , _ifStatement ) ;
compileExpression ( _ifStatement . condition ( ) ) ;
m_context < < Instruction : : ISZERO ;
eth : : AssemblyItem falseTag = m_context . appendConditionalJump ( ) ;
eth : : AssemblyItem endTag = falseTag ;
_ifStatement . trueStatement ( ) . accept ( * this ) ;
if ( _ifStatement . falseStatement ( ) )
{
endTag = m_context . appendJumpToNew ( ) ;
m_context < < falseTag ;
_ifStatement . falseStatement ( ) - > accept ( * this ) ;
}
m_context < < endTag ;
checker . check ( ) ;
return false ;
}
bool ContractCompiler : : visit ( WhileStatement const & _whileStatement )
{
StackHeightChecker checker ( m_context ) ;
CompilerContext : : LocationSetter locationSetter ( m_context , _whileStatement ) ;
eth : : AssemblyItem loopStart = m_context . newTag ( ) ;
eth : : AssemblyItem loopEnd = m_context . newTag ( ) ;
m_continueTags . push_back ( loopStart ) ;
m_breakTags . push_back ( loopEnd ) ;
m_context < < loopStart ;
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// While loops have the condition prepended
if ( ! _whileStatement . isDoWhile ( ) )
{
compileExpression ( _whileStatement . condition ( ) ) ;
m_context < < Instruction : : ISZERO ;
m_context . appendConditionalJumpTo ( loopEnd ) ;
}
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_whileStatement . body ( ) . accept ( * this ) ;
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// Do-while loops have the condition appended
if ( _whileStatement . isDoWhile ( ) )
{
compileExpression ( _whileStatement . condition ( ) ) ;
m_context < < Instruction : : ISZERO ;
m_context . appendConditionalJumpTo ( loopEnd ) ;
}
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m_context . appendJumpTo ( loopStart ) ;
m_context < < loopEnd ;
m_continueTags . pop_back ( ) ;
m_breakTags . pop_back ( ) ;
checker . check ( ) ;
return false ;
}
bool ContractCompiler : : visit ( ForStatement const & _forStatement )
{
StackHeightChecker checker ( m_context ) ;
CompilerContext : : LocationSetter locationSetter ( m_context , _forStatement ) ;
eth : : AssemblyItem loopStart = m_context . newTag ( ) ;
eth : : AssemblyItem loopEnd = m_context . newTag ( ) ;
eth : : AssemblyItem loopNext = m_context . newTag ( ) ;
m_continueTags . push_back ( loopNext ) ;
m_breakTags . push_back ( loopEnd ) ;
if ( _forStatement . initializationExpression ( ) )
_forStatement . initializationExpression ( ) - > accept ( * this ) ;
m_context < < loopStart ;
// if there is no terminating condition in for, default is to always be true
if ( _forStatement . condition ( ) )
{
compileExpression ( * _forStatement . condition ( ) ) ;
m_context < < Instruction : : ISZERO ;
m_context . appendConditionalJumpTo ( loopEnd ) ;
}
_forStatement . body ( ) . accept ( * this ) ;
m_context < < loopNext ;
// for's loop expression if existing
if ( _forStatement . loopExpression ( ) )
_forStatement . loopExpression ( ) - > accept ( * this ) ;
m_context . appendJumpTo ( loopStart ) ;
m_context < < loopEnd ;
m_continueTags . pop_back ( ) ;
m_breakTags . pop_back ( ) ;
checker . check ( ) ;
return false ;
}
bool ContractCompiler : : visit ( Continue const & _continueStatement )
{
CompilerContext : : LocationSetter locationSetter ( m_context , _continueStatement ) ;
if ( ! m_continueTags . empty ( ) )
m_context . appendJumpTo ( m_continueTags . back ( ) ) ;
return false ;
}
bool ContractCompiler : : visit ( Break const & _breakStatement )
{
CompilerContext : : LocationSetter locationSetter ( m_context , _breakStatement ) ;
if ( ! m_breakTags . empty ( ) )
m_context . appendJumpTo ( m_breakTags . back ( ) ) ;
return false ;
}
bool ContractCompiler : : visit ( Return const & _return )
{
CompilerContext : : LocationSetter locationSetter ( m_context , _return ) ;
if ( Expression const * expression = _return . expression ( ) )
{
solAssert ( _return . annotation ( ) . functionReturnParameters , " Invalid return parameters pointer. " ) ;
vector < ASTPointer < VariableDeclaration > > const & returnParameters =
_return . annotation ( ) . functionReturnParameters - > parameters ( ) ;
TypePointers types ;
for ( auto const & retVariable : returnParameters )
types . push_back ( retVariable - > annotation ( ) . type ) ;
TypePointer expectedType ;
if ( expression - > annotation ( ) . type - > category ( ) = = Type : : Category : : Tuple | | types . size ( ) ! = 1 )
expectedType = make_shared < TupleType > ( types ) ;
else
expectedType = types . front ( ) ;
compileExpression ( * expression , expectedType ) ;
for ( auto const & retVariable : boost : : adaptors : : reverse ( returnParameters ) )
CompilerUtils ( m_context ) . moveToStackVariable ( * retVariable ) ;
}
for ( unsigned i = 0 ; i < m_stackCleanupForReturn ; + + i )
m_context < < Instruction : : POP ;
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m_context . appendJumpTo ( m_returnTags . back ( ) ) ;
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m_context . adjustStackOffset ( m_stackCleanupForReturn ) ;
return false ;
}
bool ContractCompiler : : visit ( Throw const & _throw )
{
CompilerContext : : LocationSetter locationSetter ( m_context , _throw ) ;
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// Do not send back an error detail.
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m_context . appendRevert ( ) ;
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return false ;
}
bool ContractCompiler : : visit ( VariableDeclarationStatement const & _variableDeclarationStatement )
{
StackHeightChecker checker ( m_context ) ;
CompilerContext : : LocationSetter locationSetter ( m_context , _variableDeclarationStatement ) ;
if ( Expression const * expression = _variableDeclarationStatement . initialValue ( ) )
{
CompilerUtils utils ( m_context ) ;
compileExpression ( * expression ) ;
TypePointers valueTypes ;
if ( auto tupleType = dynamic_cast < TupleType const * > ( expression - > annotation ( ) . type . get ( ) ) )
valueTypes = tupleType - > components ( ) ;
else
valueTypes = TypePointers { expression - > annotation ( ) . type } ;
auto const & assignments = _variableDeclarationStatement . annotation ( ) . assignments ;
solAssert ( assignments . size ( ) = = valueTypes . size ( ) , " " ) ;
for ( size_t i = 0 ; i < assignments . size ( ) ; + + i )
{
size_t j = assignments . size ( ) - i - 1 ;
solAssert ( ! ! valueTypes [ j ] , " " ) ;
VariableDeclaration const * varDecl = assignments [ j ] ;
if ( ! varDecl )
utils . popStackElement ( * valueTypes [ j ] ) ;
else
{
utils . convertType ( * valueTypes [ j ] , * varDecl - > annotation ( ) . type ) ;
utils . moveToStackVariable ( * varDecl ) ;
}
}
}
checker . check ( ) ;
return false ;
}
bool ContractCompiler : : visit ( ExpressionStatement const & _expressionStatement )
{
StackHeightChecker checker ( m_context ) ;
CompilerContext : : LocationSetter locationSetter ( m_context , _expressionStatement ) ;
Expression const & expression = _expressionStatement . expression ( ) ;
compileExpression ( expression ) ;
CompilerUtils ( m_context ) . popStackElement ( * expression . annotation ( ) . type ) ;
checker . check ( ) ;
return false ;
}
bool ContractCompiler : : visit ( PlaceholderStatement const & _placeholderStatement )
{
StackHeightChecker checker ( m_context ) ;
CompilerContext : : LocationSetter locationSetter ( m_context , _placeholderStatement ) ;
appendModifierOrFunctionCode ( ) ;
checker . check ( ) ;
return true ;
}
void ContractCompiler : : appendMissingFunctions ( )
{
while ( Declaration const * function = m_context . nextFunctionToCompile ( ) )
{
m_context . setStackOffset ( 0 ) ;
function - > accept ( * this ) ;
solAssert ( m_context . nextFunctionToCompile ( ) ! = function , " Compiled the wrong function? " ) ;
}
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m_context . appendMissingLowLevelFunctions ( ) ;
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}
void ContractCompiler : : appendModifierOrFunctionCode ( )
{
solAssert ( m_currentFunction , " " ) ;
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unsigned stackSurplus = 0 ;
Block const * codeBlock = nullptr ;
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vector < VariableDeclaration const * > addedVariables ;
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m_modifierDepth + + ;
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if ( m_modifierDepth > = m_currentFunction - > modifiers ( ) . size ( ) )
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{
solAssert ( m_currentFunction - > isImplemented ( ) , " " ) ;
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codeBlock = & m_currentFunction - > body ( ) ;
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}
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else
{
ASTPointer < ModifierInvocation > const & modifierInvocation = m_currentFunction - > modifiers ( ) [ m_modifierDepth ] ;
// constructor call should be excluded
if ( dynamic_cast < ContractDefinition const * > ( modifierInvocation - > name ( ) - > annotation ( ) . referencedDeclaration ) )
appendModifierOrFunctionCode ( ) ;
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else
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{
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ModifierDefinition const & modifier = m_context . functionModifier ( modifierInvocation - > name ( ) - > name ( ) ) ;
CompilerContext : : LocationSetter locationSetter ( m_context , modifier ) ;
solAssert ( modifier . parameters ( ) . size ( ) = = modifierInvocation - > arguments ( ) . size ( ) , " " ) ;
for ( unsigned i = 0 ; i < modifier . parameters ( ) . size ( ) ; + + i )
{
m_context . addVariable ( * modifier . parameters ( ) [ i ] ) ;
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addedVariables . push_back ( modifier . parameters ( ) [ i ] . get ( ) ) ;
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compileExpression (
* modifierInvocation - > arguments ( ) [ i ] ,
modifier . parameters ( ) [ i ] - > annotation ( ) . type
) ;
}
for ( VariableDeclaration const * localVariable : modifier . localVariables ( ) )
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{
addedVariables . push_back ( localVariable ) ;
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appendStackVariableInitialisation ( * localVariable ) ;
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}
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stackSurplus =
CompilerUtils : : sizeOnStack ( modifier . parameters ( ) ) +
CompilerUtils : : sizeOnStack ( modifier . localVariables ( ) ) ;
codeBlock = & modifier . body ( ) ;
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}
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}
if ( codeBlock )
{
m_returnTags . push_back ( m_context . newTag ( ) ) ;
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codeBlock - > accept ( * this ) ;
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solAssert ( ! m_returnTags . empty ( ) , " " ) ;
m_context < < m_returnTags . back ( ) ;
m_returnTags . pop_back ( ) ;
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CompilerUtils ( m_context ) . popStackSlots ( stackSurplus ) ;
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for ( auto var : addedVariables )
m_context . removeVariable ( * var ) ;
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}
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m_modifierDepth - - ;
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}
void ContractCompiler : : appendStackVariableInitialisation ( VariableDeclaration const & _variable )
{
CompilerContext : : LocationSetter location ( m_context , _variable ) ;
m_context . addVariable ( _variable ) ;
CompilerUtils ( m_context ) . pushZeroValue ( * _variable . annotation ( ) . type ) ;
}
void ContractCompiler : : compileExpression ( Expression const & _expression , TypePointer const & _targetType )
{
ExpressionCompiler expressionCompiler ( m_context , m_optimise ) ;
expressionCompiler . compile ( _expression ) ;
if ( _targetType )
CompilerUtils ( m_context ) . convertType ( * _expression . annotation ( ) . type , * _targetType ) ;
}
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eth : : AssemblyPointer ContractCompiler : : cloneRuntime ( )
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{
eth : : Assembly a ;
a < < Instruction : : CALLDATASIZE ;
a < < u256 ( 0 ) < < Instruction : : DUP1 < < Instruction : : CALLDATACOPY ;
//@todo adjust for larger return values, make this dynamic.
a < < u256 ( 0x20 ) < < u256 ( 0 ) < < Instruction : : CALLDATASIZE ;
a < < u256 ( 0 ) ;
// this is the address which has to be substituted by the linker.
//@todo implement as special "marker" AssemblyItem.
a < < u256 ( " 0xcafecafecafecafecafecafecafecafecafecafe " ) ;
a < < u256 ( eth : : GasCosts : : callGas + 10 ) < < Instruction : : GAS < < Instruction : : SUB ;
a < < Instruction : : DELEGATECALL ;
//Propagate error condition (if DELEGATECALL pushes 0 on stack).
a < < Instruction : : ISZERO ;
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a < < Instruction : : ISZERO ;
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eth : : AssemblyItem afterTag = a . appendJumpI ( ) . tag ( ) ;
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a < < Instruction : : INVALID < < afterTag ;
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//@todo adjust for larger return values, make this dynamic.
a < < u256 ( 0x20 ) < < u256 ( 0 ) < < Instruction : : RETURN ;
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return make_shared < eth : : Assembly > ( a ) ;
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}