Optimized IR: /******************************************************* * WARNING * * Solidity to Yul compilation is still EXPERIMENTAL * * It can result in LOSS OF FUNDS or worse * * !USE AT YOUR OWN RISK! * *******************************************************/ object "C_59" { code { { mstore(64, 128) if callvalue() { revert(0, 0) } let _1 := datasize("C_59_deployed") codecopy(128, dataoffset("C_59_deployed"), _1) return(128, _1) } } object "C_59_deployed" { code { { mstore(64, 128) if iszero(lt(calldatasize(), 4)) { let _1 := 0 if eq(0xf8eddcc6, shr(224, calldataload(_1))) { if callvalue() { revert(_1, _1) } let _2 := 32 if slt(add(calldatasize(), not(3)), _2) { revert(_1, _1) } let offset := calldataload(4) let _3 := 0xffffffffffffffff if gt(offset, _3) { revert(_1, _1) } if iszero(slt(add(offset, 35), calldatasize())) { revert(_1, _1) } let _4 := calldataload(add(4, offset)) if gt(_4, _3) { panic_error_0x41() } let _5 := shl(5, _4) let dst := allocate_memory(add(_5, _2)) let dst_1 := dst mstore(dst, _4) dst := add(dst, _2) let src := add(offset, 36) if gt(add(add(offset, _5), 36), calldatasize()) { revert(_1, _1) } let i := _1 for { } lt(i, _4) { i := add(i, 1) } { if slt(sub(calldatasize(), src), _2) { revert(_1, _1) } let value := allocate_memory_1228() mstore(value, calldataload(src)) mstore(dst, value) dst := add(dst, _2) src := add(src, _2) } let ret, ret_1 := fun_sumArray(dst_1) let memPos := mload(64) return(memPos, sub(abi_encode_uint256_string(memPos, ret, ret_1), memPos)) } } revert(0, 0) } function abi_encode_uint256_string(headStart, value0, value1) -> tail { mstore(headStart, value0) let _1 := 32 mstore(add(headStart, _1), 64) let length := mload(value1) mstore(add(headStart, 64), length) let i := 0 for { } lt(i, length) { i := add(i, _1) } { mstore(add(add(headStart, i), 96), mload(add(add(value1, i), _1))) } if gt(i, length) { mstore(add(add(headStart, length), 96), 0) } tail := add(add(headStart, and(add(length, 31), not(31))), 96) } function allocate_memory_1228() -> memPtr { memPtr := mload(64) let newFreePtr := add(memPtr, 32) if or(gt(newFreePtr, 0xffffffffffffffff), lt(newFreePtr, memPtr)) { panic_error_0x41() } mstore(64, newFreePtr) } function allocate_memory(size) -> memPtr { memPtr := mload(64) let newFreePtr := add(memPtr, and(add(size, 31), not(31))) if or(gt(newFreePtr, 0xffffffffffffffff), lt(newFreePtr, memPtr)) { panic_error_0x41() } mstore(64, newFreePtr) } function fun_sumArray(var_s_mpos) -> var, var_mpos { if iszero(mload(var_s_mpos)) { panic_error_0x32() } sstore(0x00, mload(mload(add(var_s_mpos, 32)))) if iszero(lt(1, mload(var_s_mpos))) { panic_error_0x32() } let _1 := mload(mload(add(var_s_mpos, 64))) sstore(0x02, _1) var := _1 let memPtr := mload(64) let newFreePtr := add(memPtr, 160) if or(gt(newFreePtr, 0xffffffffffffffff), lt(newFreePtr, memPtr)) { panic_error_0x41() } mstore(64, newFreePtr) mstore(memPtr, 100) mstore(add(memPtr, 32), "longstringlongstringlongstringlo") mstore(add(memPtr, 64), "ngstringlongstringlongstringlong") mstore(add(memPtr, 96), "stringlongstringlongstringlongst") mstore(add(memPtr, 128), "ring") var_mpos := memPtr } function panic_error_0x32() { mstore(0, shl(224, 0x4e487b71)) mstore(4, 0x32) revert(0, 0x24) } function panic_error_0x41() { mstore(0, shl(224, 0x4e487b71)) mstore(4, 0x41) revert(0, 0x24) } } } }