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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/>.
*/
/**
* @ date 2017
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* Unit tests for parsing Yul .
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*/
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# include <test/Common.h>
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# include <test/libsolidity/ErrorCheck.h>
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# include <test/libyul/Common.h>
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# include <libyul/AsmParser.h>
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# include <libyul/AsmPrinter.h>
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# include <libyul/AsmAnalysis.h>
# include <libyul/AsmAnalysisInfo.h>
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# include <libyul/Dialect.h>
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# include <liblangutil/Scanner.h>
# include <liblangutil/ErrorReporter.h>
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# include <boost/algorithm/string/replace.hpp>
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# include <boost/test/unit_test.hpp>
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# include <memory>
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# include <optional>
# include <string>
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using namespace std ;
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using namespace solidity ;
using namespace solidity : : util ;
using namespace solidity : : langutil ;
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namespace solidity : : yul : : test
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{
namespace
{
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shared_ptr < Block > parse ( string const & _source , Dialect const & _dialect , ErrorReporter & errorReporter )
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{
try
{
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auto scanner = make_shared < Scanner > ( CharStream ( _source , " " ) ) ;
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auto parserResult = yul : : Parser ( errorReporter , _dialect ) . parse ( scanner , false ) ;
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if ( parserResult )
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{
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yul : : AsmAnalysisInfo analysisInfo ;
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if ( yul : : AsmAnalyzer (
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analysisInfo ,
errorReporter ,
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_dialect
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) . analyze ( * parserResult ) )
return parserResult ;
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}
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}
catch ( FatalError const & )
{
BOOST_FAIL ( " Fatal error leaked. " ) ;
}
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return { } ;
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}
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std : : optional < Error > parseAndReturnFirstError ( string const & _source , Dialect const & _dialect , bool _allowWarnings = true )
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{
ErrorList errors ;
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ErrorReporter errorReporter ( errors ) ;
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if ( ! parse ( _source , _dialect , errorReporter ) )
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{
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BOOST_REQUIRE ( ! errors . empty ( ) ) ;
BOOST_CHECK_EQUAL ( errors . size ( ) , 1 ) ;
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return * errors . front ( ) ;
}
else
{
// If success is true, there might still be an error in the assembly stage.
if ( _allowWarnings & & Error : : containsOnlyWarnings ( errors ) )
return { } ;
else if ( ! errors . empty ( ) )
{
if ( ! _allowWarnings )
BOOST_CHECK_EQUAL ( errors . size ( ) , 1 ) ;
return * errors . front ( ) ;
}
}
return { } ;
}
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bool successParse ( std : : string const & _source , Dialect const & _dialect = Dialect : : yulDeprecated ( ) , bool _allowWarnings = true )
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{
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return ! parseAndReturnFirstError ( _source , _dialect , _allowWarnings ) ;
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}
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Error expectError ( std : : string const & _source , Dialect const & _dialect = Dialect : : yulDeprecated ( ) , bool _allowWarnings = false )
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{
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auto error = parseAndReturnFirstError ( _source , _dialect , _allowWarnings ) ;
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BOOST_REQUIRE ( error ) ;
return * error ;
}
}
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# define CHECK_ERROR_DIALECT(text, typ, substring, dialect) \
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do \
{ \
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Error err = expectError ( ( text ) , dialect , false ) ; \
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BOOST_CHECK ( err . type ( ) = = ( Error : : Type : : typ ) ) ; \
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BOOST_CHECK ( solidity : : frontend : : test : : searchErrorMessage ( err , ( substring ) ) ) ; \
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} while ( 0 )
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# define CHECK_ERROR(text, typ, substring) CHECK_ERROR_DIALECT(text, typ, substring, Dialect::yulDeprecated())
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BOOST_AUTO_TEST_SUITE ( YulParser )
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BOOST_AUTO_TEST_CASE ( smoke_test )
{
BOOST_CHECK ( successParse ( " { } " ) ) ;
}
BOOST_AUTO_TEST_CASE ( vardecl )
{
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BOOST_CHECK ( successParse ( " { let x:u256 := 7:u256 } " ) ) ;
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}
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BOOST_AUTO_TEST_CASE ( vardecl_bool )
{
BOOST_CHECK ( successParse ( " { let x:bool := true:bool } " ) ) ;
BOOST_CHECK ( successParse ( " { let x:bool := false:bool } " ) ) ;
}
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BOOST_AUTO_TEST_CASE ( vardecl_empty )
{
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BOOST_CHECK ( successParse ( " { let x:u256 } " ) ) ;
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}
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BOOST_AUTO_TEST_CASE ( assignment )
{
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BOOST_CHECK ( successParse ( " { let x:u256 := 2:u256 let y:u256 := x } " ) ) ;
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}
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BOOST_AUTO_TEST_CASE ( period_in_identifier )
{
BOOST_CHECK ( successParse ( " { let x.y:u256 := 2:u256 } " ) ) ;
}
BOOST_AUTO_TEST_CASE ( period_not_as_identifier_start )
{
CHECK_ERROR ( " { let .y:u256 } " , ParserError , " Expected identifier but got '.' " ) ;
}
BOOST_AUTO_TEST_CASE ( period_in_identifier_spaced )
{
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CHECK_ERROR ( " { let x. y:u256 } " , ParserError , " Call or assignment expected " ) ;
CHECK_ERROR ( " { let x .y:u256 } " , ParserError , " Literal or identifier expected " ) ;
CHECK_ERROR ( " { let x . y:u256 } " , ParserError , " Literal or identifier expected " ) ;
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}
BOOST_AUTO_TEST_CASE ( period_in_identifier_start )
{
BOOST_CHECK ( successParse ( " { x.y(2:u256) function x.y(a:u256) {} } " ) ) ;
}
BOOST_AUTO_TEST_CASE ( period_in_identifier_start_with_comment )
{
BOOST_CHECK ( successParse ( " /// comment \n { x.y(2:u256) function x.y(a:u256) {} } " ) ) ;
}
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BOOST_AUTO_TEST_CASE ( vardecl_complex )
{
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BOOST_CHECK ( successParse ( " { function add(a:u256, b:u256) -> c:u256 {} let y:u256 := 2:u256 let x:u256 := add(7:u256, add(6:u256, y)) } " ) ) ;
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}
BOOST_AUTO_TEST_CASE ( blocks )
{
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BOOST_CHECK ( successParse ( " { let x:u256 := 7:u256 { let y:u256 := 3:u256 } { let z:u256 := 2:u256 } } " ) ) ;
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}
BOOST_AUTO_TEST_CASE ( function_definitions )
{
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BOOST_CHECK ( successParse ( " { function f() { } function g(a:u256) -> x:u256 { } } " ) ) ;
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}
BOOST_AUTO_TEST_CASE ( function_definitions_multiple_args )
{
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BOOST_CHECK ( successParse ( " { function f(a:u256, d:u256) { } function g(a:u256, d:u256) -> x:u256, y:u256 { } } " ) ) ;
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}
BOOST_AUTO_TEST_CASE ( function_calls )
{
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BOOST_CHECK ( successParse ( " { function f(a:u256) -> b:u256 {} function g(a:u256, b:u256, c:u256) {} function x() { g(1:u256, 2:u256, f(3:u256)) x() } } " ) ) ;
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}
BOOST_AUTO_TEST_CASE ( tuple_assignment )
{
BOOST_CHECK ( successParse ( " { function f() -> a:u256, b:u256, c:u256 {} let x:u256, y:u256, z:u256 := f() } " ) ) ;
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}
BOOST_AUTO_TEST_CASE ( instructions )
{
CHECK_ERROR ( " { pop } " , ParserError , " Call or assignment expected. " ) ;
}
BOOST_AUTO_TEST_CASE ( push )
{
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CHECK_ERROR ( " { 0x42:u256 } " , ParserError , " Call or assignment expected. " ) ;
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}
BOOST_AUTO_TEST_CASE ( assign_from_stack )
{
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CHECK_ERROR ( " { =: x:u256 } " , ParserError , " Literal or identifier expected. " ) ;
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}
BOOST_AUTO_TEST_CASE ( empty_call )
{
CHECK_ERROR ( " { () } " , ParserError , " Literal or identifier expected. " ) ;
}
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BOOST_AUTO_TEST_CASE ( tokens_as_identifers )
{
BOOST_CHECK ( successParse ( " { let return:u256 := 1:u256 } " ) ) ;
BOOST_CHECK ( successParse ( " { let byte:u256 := 1:u256 } " ) ) ;
BOOST_CHECK ( successParse ( " { let address:u256 := 1:u256 } " ) ) ;
BOOST_CHECK ( successParse ( " { let bool:u256 := 1:u256 } " ) ) ;
}
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BOOST_AUTO_TEST_CASE ( optional_types )
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{
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BOOST_CHECK ( successParse ( " { let x := 1:u256 } " ) ) ;
BOOST_CHECK ( successParse ( " { let x:u256 := 1 } " ) ) ;
BOOST_CHECK ( successParse ( " { function f(a) {} } " ) ) ;
BOOST_CHECK ( successParse ( " { function f(a:u256) -> b {} } " ) ) ;
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}
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BOOST_AUTO_TEST_CASE ( number_literals )
{
BOOST_CHECK ( successParse ( " { let x:u256 := 1:u256 } " ) ) ;
CHECK_ERROR ( " { let x:u256 := .1:u256 } " , ParserError , " Invalid number literal. " ) ;
CHECK_ERROR ( " { let x:u256 := 1e5:u256 } " , ParserError , " Invalid number literal. " ) ;
CHECK_ERROR ( " { let x:u256 := 67.235:u256 } " , ParserError , " Invalid number literal. " ) ;
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CHECK_ERROR ( " { let x:u256 := 0x1ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff:u256 } " , TypeError , " Number literal too large (> 256 bits) " ) ;
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}
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BOOST_AUTO_TEST_CASE ( builtin_types )
{
BOOST_CHECK ( successParse ( " { let x:bool := true:bool } " ) ) ;
BOOST_CHECK ( successParse ( " { let x:u8 := 1:u8 } " ) ) ;
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BOOST_CHECK ( successParse ( " { let x:s8 := 1:s8 } " ) ) ;
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BOOST_CHECK ( successParse ( " { let x:u32 := 1:u32 } " ) ) ;
BOOST_CHECK ( successParse ( " { let x:s32 := 1:s32 } " ) ) ;
BOOST_CHECK ( successParse ( " { let x:u64 := 1:u64 } " ) ) ;
BOOST_CHECK ( successParse ( " { let x:s64 := 1:s64 } " ) ) ;
BOOST_CHECK ( successParse ( " { let x:u128 := 1:u128 } " ) ) ;
BOOST_CHECK ( successParse ( " { let x:s128 := 1:s128 } " ) ) ;
BOOST_CHECK ( successParse ( " { let x:u256 := 1:u256 } " ) ) ;
BOOST_CHECK ( successParse ( " { let x:s256 := 1:s256 } " ) ) ;
}
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BOOST_AUTO_TEST_CASE ( recursion_depth )
{
string input ;
for ( size_t i = 0 ; i < 20000 ; i + + )
input + = " { " ;
input + = " let x:u256 := 0:u256 " ;
for ( size_t i = 0 ; i < 20000 ; i + + )
input + = " } " ;
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CHECK_ERROR ( input , ParserError , " recursion " ) ;
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}
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BOOST_AUTO_TEST_CASE ( multiple_assignment )
{
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CHECK_ERROR ( " { let x:u256 function f() -> a:u256, b:u256 {} 123:u256, x := f() } " , ParserError , " Variable name must precede \" , \" in multiple assignment. " ) ;
CHECK_ERROR ( " { let x:u256 function f() -> a:u256, b:u256 {} x, 123:u256 := f() } " , ParserError , " Variable name must precede \" := \" in assignment. " ) ;
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/// NOTE: Travis hiccups if not having a variable
char const * text = R " (
{
function f ( a : u256 ) - > r1 : u256 , r2 : u256 {
r1 : = a
r2 : = 7 : u256
}
let x : u256 : = 9 : u256
let y : u256 : = 2 : u256
x , y : = f ( x )
}
) " ;
BOOST_CHECK ( successParse ( text ) ) ;
}
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BOOST_AUTO_TEST_CASE ( if_statement )
{
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BOOST_CHECK ( successParse ( " { if true:bool {} } " ) ) ;
BOOST_CHECK ( successParse ( " { if false:bool { let x:u256 := 3:u256 } } " ) ) ;
BOOST_CHECK ( successParse ( " { function f() -> x:bool {} if f() { let b:bool := f() } } " ) ) ;
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}
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BOOST_AUTO_TEST_CASE ( break_outside_of_for_loop )
{
CHECK_ERROR_DIALECT (
" { let x if x { break } } " ,
SyntaxError ,
" Keyword \" break \" needs to be inside a for-loop body. " ,
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EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion : : constantinople ( ) )
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) ;
}
BOOST_AUTO_TEST_CASE ( continue_outside_of_for_loop )
{
CHECK_ERROR_DIALECT (
" { let x if x { continue } } " ,
SyntaxError ,
" Keyword \" continue \" needs to be inside a for-loop body. " ,
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EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion : : constantinople ( ) )
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) ;
}
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BOOST_AUTO_TEST_CASE ( for_statement )
{
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auto const & dialect = EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion : : constantinople ( ) ) ;
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BOOST_CHECK ( successParse ( " { for {let i := 0} iszero(eq(i, 10)) {i := add(i, 1)} {} } " , dialect ) ) ;
}
BOOST_AUTO_TEST_CASE ( for_statement_break )
{
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auto const & dialect = EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion : : constantinople ( ) ) ;
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BOOST_CHECK ( successParse ( " { for {let i := 0} iszero(eq(i, 10)) {i := add(i, 1)} {break} } " , dialect ) ) ;
}
BOOST_AUTO_TEST_CASE ( for_statement_break_init )
{
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auto const & dialect = EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion : : constantinople ( ) ) ;
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CHECK_ERROR_DIALECT (
" { for {let i := 0 break} iszero(eq(i, 10)) {i := add(i, 1)} {} } " ,
SyntaxError ,
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" Keyword \" break \" in for-loop init block is not allowed. " ,
dialect
) ;
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}
BOOST_AUTO_TEST_CASE ( for_statement_break_post )
{
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auto const & dialect = EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion : : constantinople ( ) ) ;
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CHECK_ERROR_DIALECT (
" { for {let i := 0} iszero(eq(i, 10)) {i := add(i, 1) break} {} } " ,
SyntaxError ,
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" Keyword \" break \" in for-loop post block is not allowed. " ,
dialect
) ;
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}
BOOST_AUTO_TEST_CASE ( for_statement_nested_break )
{
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auto const & dialect = EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion : : constantinople ( ) ) ;
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CHECK_ERROR_DIALECT (
" { for {let i := 0} iszero(eq(i, 10)) {} { function f() { break } } } " ,
SyntaxError ,
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" Keyword \" break \" needs to be inside a for-loop body. " ,
dialect
) ;
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}
BOOST_AUTO_TEST_CASE ( for_statement_continue )
{
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auto const & dialect = EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion : : constantinople ( ) ) ;
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BOOST_CHECK ( successParse ( " { for {let i := 0} iszero(eq(i, 10)) {i := add(i, 1)} {continue} } " , dialect ) ) ;
}
BOOST_AUTO_TEST_CASE ( for_statement_continue_fail_init )
{
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auto const & dialect = EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion : : constantinople ( ) ) ;
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CHECK_ERROR_DIALECT (
" { for {let i := 0 continue} iszero(eq(i, 10)) {i := add(i, 1)} {} } " ,
SyntaxError ,
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" Keyword \" continue \" in for-loop init block is not allowed. " ,
dialect
) ;
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}
BOOST_AUTO_TEST_CASE ( for_statement_continue_fail_post )
{
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auto const & dialect = EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion : : constantinople ( ) ) ;
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CHECK_ERROR_DIALECT (
" { for {let i := 0} iszero(eq(i, 10)) {i := add(i, 1) continue} {} } " ,
SyntaxError ,
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" Keyword \" continue \" in for-loop post block is not allowed. " ,
dialect
) ;
}
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BOOST_AUTO_TEST_CASE ( for_statement_nested_continue )
{
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auto const & dialect = EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion : : constantinople ( ) ) ;
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CHECK_ERROR_DIALECT (
" { for {let i := 0} iszero(eq(i, 10)) {} { function f() { continue } } } " ,
SyntaxError ,
" Keyword \" continue \" needs to be inside a for-loop body. " ,
dialect
) ;
}
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BOOST_AUTO_TEST_CASE ( for_statement_continue_nested_init_in_body )
{
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auto const & dialect = EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion : : constantinople ( ) ) ;
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CHECK_ERROR_DIALECT (
" { for {} 1 {} {let x for { continue } x {} {}} } " ,
SyntaxError ,
" Keyword \" continue \" in for-loop init block is not allowed. " ,
dialect
) ;
}
BOOST_AUTO_TEST_CASE ( for_statement_continue_nested_body_in_init )
{
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auto const & dialect = EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion { } ) ;
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BOOST_CHECK ( successParse ( " { for {let x for {} x {} { continue }} 1 {} {} } " , dialect ) ) ;
}
BOOST_AUTO_TEST_CASE ( for_statement_break_nested_body_in_init )
{
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auto const & dialect = EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion { } ) ;
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BOOST_CHECK ( successParse ( " { for {let x for {} x {} { break }} 1 {} {} } " , dialect ) ) ;
}
BOOST_AUTO_TEST_CASE ( for_statement_continue_nested_body_in_post )
{
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auto const & dialect = EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion { } ) ;
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BOOST_CHECK ( successParse ( " { for {} 1 {let x for {} x {} { continue }} {} } " , dialect ) ) ;
}
BOOST_AUTO_TEST_CASE ( for_statement_break_nested_body_in_post )
{
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auto const & dialect = EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion { } ) ;
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BOOST_CHECK ( successParse ( " { for {} 1 {let x for {} x {} { break }} {} } " , dialect ) ) ;
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}
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BOOST_AUTO_TEST_CASE ( function_defined_in_init_block )
{
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auto const & dialect = EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion { } ) ;
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BOOST_CHECK ( successParse ( " { for { } 1 { function f() {} } {} } " , dialect ) ) ;
BOOST_CHECK ( successParse ( " { for { } 1 {} { function f() {} } } " , dialect ) ) ;
CHECK_ERROR_DIALECT (
" { for { function f() {} } 1 {} {} } " ,
SyntaxError ,
" Functions cannot be defined inside a for-loop init block. " ,
dialect
) ;
}
BOOST_AUTO_TEST_CASE ( function_defined_in_init_nested )
{
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auto const & dialect = EVMDialect : : strictAssemblyForEVMObjects ( EVMVersion { } ) ;
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BOOST_CHECK ( successParse (
" { for { "
" for { } 1 { function f() {} } {} "
" } 1 {} {} } " , dialect ) ) ;
CHECK_ERROR_DIALECT (
" { for { for {function foo() {}} 1 {} {} } 1 {} {} } " ,
SyntaxError ,
" Functions cannot be defined inside a for-loop init block. " ,
dialect
) ;
CHECK_ERROR_DIALECT (
" { for {} 1 {for {function foo() {}} 1 {} {} } {} } " ,
SyntaxError ,
" Functions cannot be defined inside a for-loop init block. " ,
dialect
) ;
}
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BOOST_AUTO_TEST_CASE ( if_statement_invalid )
{
CHECK_ERROR ( " { if let x:u256 {} } " , ParserError , " Literal or identifier expected. " ) ;
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CHECK_ERROR ( " { if true:bool let x:u256 := 3:u256 } " , ParserError , " Expected '{' but got reserved keyword 'let' " ) ;
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CHECK_ERROR ( " { if 42:u256 { } } " , TypeError , " Expected a value of boolean type " ) ;
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}
BOOST_AUTO_TEST_CASE ( switch_duplicate_case )
{
CHECK_ERROR ( " { switch 0:u256 case 0:u256 {} case 0x0:u256 {} } " , DeclarationError , " Duplicate case defined. " ) ;
BOOST_CHECK ( successParse ( " { switch 0:u256 case 42:u256 {} case 0x42:u256 {} } " ) ) ;
}
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BOOST_AUTO_TEST_CASE ( switch_duplicate_case_different_literal )
{
CHECK_ERROR ( " { switch 0:u256 case 0:u256 {} case \" \" :u256 {} } " , DeclarationError , " Duplicate case defined. " ) ;
BOOST_CHECK ( successParse ( " { switch 1:u256 case \" 1 \" :u256 {} case \" 2 \" :u256 {} } " ) ) ;
}
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BOOST_AUTO_TEST_CASE ( switch_case_string_literal_too_long )
{
BOOST_CHECK ( successParse ( " {let x:u256 switch x case \" 01234567890123456789012345678901 \" :u256 {}} " ) ) ;
CHECK_ERROR ( " {let x:u256 switch x case \" 012345678901234567890123456789012 \" :u256 {}} " , TypeError , " String literal too long (33 > 32) " ) ;
}
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BOOST_AUTO_TEST_CASE ( function_shadowing_outside_vars )
{
CHECK_ERROR ( " { let x:u256 function f() -> x:u256 {} } " , DeclarationError , " already taken in this scope " ) ;
BOOST_CHECK ( successParse ( " { { let x:u256 } function f() -> x:u256 {} } " ) ) ;
}
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BOOST_AUTO_TEST_CASE ( builtins_parser )
{
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struct SimpleDialect : public Dialect
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{
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BuiltinFunction const * builtin ( YulString _name ) const override
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{
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return _name = = " builtin " _yulstring ? & f : nullptr ;
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}
BuiltinFunction f ;
} ;
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SimpleDialect dialect ;
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CHECK_ERROR_DIALECT ( " { let builtin := 6 } " , ParserError , " Cannot use builtin function name \" builtin \" as identifier name. " , dialect ) ;
CHECK_ERROR_DIALECT ( " { function builtin() {} } " , ParserError , " Cannot use builtin function name \" builtin \" as identifier name. " , dialect ) ;
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CHECK_ERROR_DIALECT ( " { function f(x) { f(builtin) } } " , ParserError , " Expected '(' but got ')' " , dialect ) ;
CHECK_ERROR_DIALECT ( " { function f(builtin) {} " , ParserError , " Cannot use builtin function name \" builtin \" as identifier name. " , dialect ) ;
CHECK_ERROR_DIALECT ( " { function f() -> builtin {} " , ParserError , " Cannot use builtin function name \" builtin \" as identifier name. " , dialect ) ;
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}
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BOOST_AUTO_TEST_CASE ( builtins_analysis )
{
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struct SimpleDialect : public Dialect
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{
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BuiltinFunction const * builtin ( YulString _name ) const override
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{
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return _name = = " builtin " _yulstring ? & f : nullptr ;
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}
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BuiltinFunction f { " builtin " _yulstring , vector < Type > ( 2 ) , vector < Type > ( 3 ) , { } , { } } ;
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} ;
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SimpleDialect dialect ;
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BOOST_CHECK ( successParse ( " { let a, b, c := builtin(1, 2) } " , dialect ) ) ;
CHECK_ERROR_DIALECT ( " { let a, b, c := builtin(1) } " , TypeError , " Function expects 2 arguments but got 1 " , dialect ) ;
CHECK_ERROR_DIALECT ( " { let a, b := builtin(1, 2) } " , DeclarationError , " Variable count mismatch: 2 variables and 3 values. " , dialect ) ;
}
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BOOST_AUTO_TEST_CASE ( default_types_set )
{
ErrorList errorList ;
ErrorReporter reporter ( errorList ) ;
shared_ptr < Block > result = parse (
" { "
" let x:bool := true:bool "
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" let z:bool := true "
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" let y := add(1, 2) "
" switch y case 0 {} default {} "
" } " ,
EVMDialectTyped : : instance ( EVMVersion { } ) ,
reporter
) ;
BOOST_REQUIRE ( ! ! result ) ;
// Use no dialect so that all types are printed.
// This tests that the default types are properly assigned.
BOOST_CHECK_EQUAL ( AsmPrinter { } ( * result ) ,
" { \n "
" let x:bool := true:bool \n "
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" let z:bool := true:bool \n "
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" let y:u256 := add(1:u256, 2:u256) \n "
" switch y \n "
" case 0:u256 { } \n "
" default { } \n "
" } "
) ;
// Now test again with type dialect. Now the default types
// should be omitted.
BOOST_CHECK_EQUAL ( AsmPrinter { EVMDialectTyped : : instance ( EVMVersion { } ) } ( * result ) ,
" { \n "
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" let x:bool := true \n "
" let z:bool := true \n "
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" let y := add(1, 2) \n "
" switch y \n "
" case 0 { } \n "
" default { } \n "
" } "
) ;
}
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BOOST_AUTO_TEST_SUITE_END ( )
} // end namespaces