// We require constantinople because numbers are represented using shifts. { let x := abi_encode_t_array$_t_array$_t_contract$_C_$55_$3_memory_$dyn_memory_ptr_to_t_array$_t_array$_t_address_$3_memory_$dyn_memory_ptr(mload(0), 0x20) let a, b, c, d := abi_decode_tuple_t_uint256t_uint256t_array$_t_uint256_$dyn_memory_ptrt_array$_t_array$_t_uint256_$2_memory_$dyn_memory_ptr(mload(0x20), mload(0x40)) sstore(a, b) sstore(c, d) sstore(0, x) function abi_decode_t_address(offset, end) -> value { value := cleanup_revert_t_address(calldataload(offset)) } function abi_decode_t_array$_t_address_$dyn_memory(offset, end) -> array { if iszero(slt(add(offset, 0x1f), end)) { revert(0, 0) } let length := calldataload(offset) array := allocateMemory(array_allocation_size_t_array$_t_address_$dyn_memory(length)) let dst := array mstore(array, length) offset := add(offset, 0x20) dst := add(dst, 0x20) let src := offset if gt(add(src, mul(length, 0x20)), end) { revert(0, 0) } for { let i := 0 } lt(i, length) { i := add(i, 1) } { let elementPos := src mstore(dst, abi_decode_t_address(elementPos, end)) dst := add(dst, 0x20) src := add(src, 0x20) } } function abi_decode_t_array$_t_array$_t_uint256_$2_memory_$dyn_memory_ptr(offset, end) -> array { if iszero(slt(add(offset, 0x1f), end)) { revert(0, 0) } let length := calldataload(offset) array := allocateMemory(array_allocation_size_t_array$_t_array$_t_uint256_$2_memory_$dyn_memory_ptr(length)) let dst := array mstore(array, length) offset := add(offset, 0x20) dst := add(dst, 0x20) let src := offset if gt(add(src, mul(length, 0x40)), end) { revert(0, 0) } for { let i := 0 } lt(i, length) { i := add(i, 1) } { let elementPos := src mstore(dst, abi_decode_t_array$_t_uint256_$2_memory(elementPos, end)) dst := add(dst, 0x20) src := add(src, 0x40) } } function abi_decode_t_array$_t_uint256_$2_memory(offset, end) -> array { if iszero(slt(add(offset, 0x1f), end)) { revert(0, 0) } let length := 0x2 array := allocateMemory(array_allocation_size_t_array$_t_uint256_$2_memory(length)) let dst := array let src := offset if gt(add(src, mul(length, 0x20)), end) { revert(0, 0) } for { let i := 0 } lt(i, length) { i := add(i, 1) } { let elementPos := src mstore(dst, abi_decode_t_uint256(elementPos, end)) dst := add(dst, 0x20) src := add(src, 0x20) } } function abi_decode_t_array$_t_uint256_$dyn_memory(offset, end) -> array { if iszero(slt(add(offset, 0x1f), end)) { revert(0, 0) } let length := calldataload(offset) array := allocateMemory(array_allocation_size_t_array$_t_uint256_$dyn_memory(length)) let dst := array mstore(array, length) offset := add(offset, 0x20) dst := add(dst, 0x20) let src := offset if gt(add(src, mul(length, 0x20)), end) { revert(0, 0) } for { let i := 0 } lt(i, length) { i := add(i, 1) } { let elementPos := src mstore(dst, abi_decode_t_uint256(elementPos, end)) dst := add(dst, 0x20) src := add(src, 0x20) } } function abi_decode_t_array$_t_uint256_$dyn_memory_ptr(offset, end) -> array { if iszero(slt(add(offset, 0x1f), end)) { revert(0, 0) } let length := calldataload(offset) array := allocateMemory(array_allocation_size_t_array$_t_uint256_$dyn_memory_ptr(length)) let dst := array mstore(array, length) offset := add(offset, 0x20) dst := add(dst, 0x20) let src := offset if gt(add(src, mul(length, 0x20)), end) { revert(0, 0) } for { let i := 0 } lt(i, length) { i := add(i, 1) } { let elementPos := src mstore(dst, abi_decode_t_uint256(elementPos, end)) dst := add(dst, 0x20) src := add(src, 0x20) } } function abi_decode_t_contract$_C_$55(offset, end) -> value { value := cleanup_revert_t_contract$_C_$55(calldataload(offset)) } function abi_decode_t_struct$_S_$11_memory_ptr(headStart, end) -> value { if slt(sub(end, headStart), 0x60) { revert(0, 0) } value := allocateMemory(0x60) { let offset := 0 mstore(add(value, 0x0), abi_decode_t_uint256(add(headStart, offset), end)) } { let offset := calldataload(add(headStart, 32)) if gt(offset, 0xffffffffffffffff) { revert(0, 0) } mstore(add(value, 0x20), abi_decode_t_array$_t_uint256_$dyn_memory(add(headStart, offset), end)) } { let offset := calldataload(add(headStart, 64)) if gt(offset, 0xffffffffffffffff) { revert(0, 0) } mstore(add(value, 0x40), abi_decode_t_array$_t_address_$dyn_memory(add(headStart, offset), end)) } } function abi_decode_t_uint256(offset, end) -> value { value := cleanup_revert_t_uint256(calldataload(offset)) } function abi_decode_t_uint8(offset, end) -> value { value := cleanup_revert_t_uint8(calldataload(offset)) } function abi_decode_tuple_t_contract$_C_$55t_uint8(headStart, dataEnd) -> value0, value1 { if slt(sub(dataEnd, headStart), 64) { revert(0, 0) } { let offset := 0 value0 := abi_decode_t_contract$_C_$55(add(headStart, offset), dataEnd) } { let offset := 32 value1 := abi_decode_t_uint8(add(headStart, offset), dataEnd) } } function abi_decode_tuple_t_struct$_S_$11_memory_ptrt_uint256(headStart, dataEnd) -> value0, value1 { if slt(sub(dataEnd, headStart), 64) { revert(0, 0) } { let offset := calldataload(add(headStart, 0)) if gt(offset, 0xffffffffffffffff) { revert(0, 0) } value0 := abi_decode_t_struct$_S_$11_memory_ptr(add(headStart, offset), dataEnd) } { let offset := 32 value1 := abi_decode_t_uint256(add(headStart, offset), dataEnd) } } function abi_decode_tuple_t_uint256t_uint256t_array$_t_uint256_$dyn_memory_ptrt_array$_t_array$_t_uint256_$2_memory_$dyn_memory_ptr(headStart, dataEnd) -> value0, value1, value2, value3 { if slt(sub(dataEnd, headStart), 128) { revert(0, 0) } { let offset := 0 value0 := abi_decode_t_uint256(add(headStart, offset), dataEnd) } { let offset := 32 value1 := abi_decode_t_uint256(add(headStart, offset), dataEnd) } { let offset := calldataload(add(headStart, 64)) if gt(offset, 0xffffffffffffffff) { revert(0, 0) } value2 := abi_decode_t_array$_t_uint256_$dyn_memory_ptr(add(headStart, offset), dataEnd) } { let offset := calldataload(add(headStart, 96)) if gt(offset, 0xffffffffffffffff) { revert(0, 0) } value3 := abi_decode_t_array$_t_array$_t_uint256_$2_memory_$dyn_memory_ptr(add(headStart, offset), dataEnd) } } function abi_encode_t_array$_t_array$_t_contract$_C_$55_$3_memory_$dyn_memory_ptr_to_t_array$_t_array$_t_address_$3_memory_$dyn_memory_ptr(value, pos) -> end { let length := array_length_t_array$_t_array$_t_contract$_C_$55_$3_memory_$dyn_memory_ptr(value) mstore(pos, length) pos := add(pos, 0x20) let srcPtr := array_dataslot_t_array$_t_array$_t_contract$_C_$55_$3_memory_$dyn_memory_ptr(value) for { let i := 0 } lt(i, length) { i := add(i, 1) } { abi_encode_t_array$_t_contract$_C_$55_$3_memory_to_t_array$_t_address_$3_memory_ptr(mload(srcPtr), pos) srcPtr := array_nextElement_t_array$_t_array$_t_contract$_C_$55_$3_memory_$dyn_memory_ptr(srcPtr) pos := add(pos, 0x60) } end := pos } function abi_encode_t_array$_t_contract$_C_$55_$3_memory_to_t_array$_t_address_$3_memory_ptr(value, pos) { let length := array_length_t_array$_t_contract$_C_$55_$3_memory(value) let srcPtr := array_dataslot_t_array$_t_contract$_C_$55_$3_memory(value) for { let i := 0 } lt(i, length) { i := add(i, 1) } { abi_encode_t_contract$_C_$55_to_t_address(mload(srcPtr), pos) srcPtr := array_nextElement_t_array$_t_contract$_C_$55_$3_memory(srcPtr) pos := add(pos, 0x20) } } function abi_encode_t_bool_to_t_bool(value, pos) { mstore(pos, cleanup_assert_t_bool(value)) } function abi_encode_t_contract$_C_$55_to_t_address(value, pos) { mstore(pos, convert_t_contract$_C_$55_to_t_address(value)) } function abi_encode_t_uint16_to_t_uint16(value, pos) { mstore(pos, cleanup_assert_t_uint16(value)) } function abi_encode_t_uint24_to_t_uint24(value, pos) { mstore(pos, cleanup_assert_t_uint24(value)) } function abi_encode_tuple_t_bool__to_t_bool_(headStart, value0) -> tail { tail := add(headStart, 32) abi_encode_t_bool_to_t_bool(value0, add(headStart, 0)) } function abi_encode_tuple_t_uint16_t_uint24_t_array$_t_array$_t_contract$_C_$55_$3_memory_$dyn_memory_ptr__to_t_uint16_t_uint24_t_array$_t_array$_t_address_$3_memory_$dyn_memory_ptr_(headStart, value2, value1, value0) -> tail { tail := add(headStart, 96) abi_encode_t_uint16_to_t_uint16(value0, add(headStart, 0)) abi_encode_t_uint24_to_t_uint24(value1, add(headStart, 32)) mstore(add(headStart, 64), sub(tail, headStart)) tail := abi_encode_t_array$_t_array$_t_contract$_C_$55_$3_memory_$dyn_memory_ptr_to_t_array$_t_array$_t_address_$3_memory_$dyn_memory_ptr(value2, tail) } function allocateMemory(size) -> memPtr { memPtr := mload(64) let newFreePtr := add(memPtr, size) if or(gt(newFreePtr, 0xffffffffffffffff), lt(newFreePtr, memPtr)) { revert(0, 0) } mstore(64, newFreePtr) } function array_allocation_size_t_array$_t_address_$dyn_memory(length) -> size { if gt(length, 0xffffffffffffffff) { revert(0, 0) } size := mul(length, 0x20) size := add(size, 0x20) } function array_allocation_size_t_array$_t_array$_t_uint256_$2_memory_$dyn_memory_ptr(length) -> size { if gt(length, 0xffffffffffffffff) { revert(0, 0) } size := mul(length, 0x20) size := add(size, 0x20) } function array_allocation_size_t_array$_t_uint256_$2_memory(length) -> size { if gt(length, 0xffffffffffffffff) { revert(0, 0) } size := mul(length, 0x20) } function array_allocation_size_t_array$_t_uint256_$dyn_memory(length) -> size { if gt(length, 0xffffffffffffffff) { revert(0, 0) } size := mul(length, 0x20) size := add(size, 0x20) } function array_allocation_size_t_array$_t_uint256_$dyn_memory_ptr(length) -> size { if gt(length, 0xffffffffffffffff) { revert(0, 0) } size := mul(length, 0x20) size := add(size, 0x20) } function array_dataslot_t_array$_t_array$_t_contract$_C_$55_$3_memory_$dyn_memory_ptr(memPtr) -> dataPtr { dataPtr := add(memPtr, 0x20) } function array_dataslot_t_array$_t_contract$_C_$55_$3_memory(memPtr) -> dataPtr { dataPtr := memPtr } function array_length_t_array$_t_array$_t_contract$_C_$55_$3_memory_$dyn_memory_ptr(value) -> length { length := mload(value) } function array_length_t_array$_t_contract$_C_$55_$3_memory(value) -> length { length := 0x3 } function array_nextElement_t_array$_t_array$_t_contract$_C_$55_$3_memory_$dyn_memory_ptr(memPtr) -> nextPtr { nextPtr := add(memPtr, 0x20) } function array_nextElement_t_array$_t_contract$_C_$55_$3_memory(memPtr) -> nextPtr { nextPtr := add(memPtr, 0x20) } function cleanup_assert_t_address(value) -> cleaned { cleaned := cleanup_assert_t_uint160(value) } function cleanup_assert_t_bool(value) -> cleaned { cleaned := iszero(iszero(value)) } function cleanup_assert_t_uint16(value) -> cleaned { cleaned := and(value, 0xFFFF) } function cleanup_assert_t_uint160(value) -> cleaned { cleaned := and(value, 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF) } function cleanup_assert_t_uint24(value) -> cleaned { cleaned := and(value, 0xFFFFFF) } function cleanup_revert_t_address(value) -> cleaned { cleaned := cleanup_assert_t_uint160(value) } function cleanup_revert_t_contract$_C_$55(value) -> cleaned { cleaned := cleanup_assert_t_address(value) } function cleanup_revert_t_uint256(value) -> cleaned { cleaned := value } function cleanup_revert_t_uint8(value) -> cleaned { cleaned := and(value, 0xFF) } function convert_t_contract$_C_$55_to_t_address(value) -> converted { converted := convert_t_contract$_C_$55_to_t_uint160(value) } function convert_t_contract$_C_$55_to_t_uint160(value) -> converted { converted := cleanup_assert_t_uint160(value) } } // ==== // EVMVersion: >=constantinople // ---- // step: fullSuite // // { // { // let _1 := 0 // let _2 := mload(_1) // let pos := 0x20 // let length := mload(_2) // mstore(pos, length) // pos := 64 // let srcPtr := add(_2, 0x20) // let i := _1 // for { } lt(i, length) { i := add(i, 1) } // { // let _3 := mload(srcPtr) // let pos_1 := pos // let srcPtr_1 := _3 // let i_1 := _1 // for { } lt(i_1, 0x3) { i_1 := add(i_1, 1) } // { // mstore(pos_1, and(mload(srcPtr_1), sub(shl(160, 1), 1))) // srcPtr_1 := add(srcPtr_1, 0x20) // pos_1 := add(pos_1, 0x20) // } // srcPtr := add(srcPtr, 0x20) // pos := add(pos, 0x60) // } // let a, b, c, d := abi_decode_uint256t_uint256t_array_uint256_dynt_array_array_uint256_memory_dyn(mload(0x20), mload(64)) // sstore(a, b) // sstore(c, d) // sstore(_1, pos) // } // function abi_decode_array_array_uint256_memory_dyn(offset, end) -> array // { // let _1 := 0x1f // if iszero(slt(add(offset, _1), end)) { revert(0, 0) } // let length := calldataload(offset) // array := allocateMemory(array_allocation_size_array_address_dyn_memory(length)) // let dst := array // mstore(array, length) // let _2 := 0x20 // dst := add(array, _2) // let src := add(offset, _2) // if gt(add(add(offset, shl(6, length)), _2), end) { revert(0, 0) } // let i := 0 // for { } lt(i, length) { i := add(i, 1) } // { // if iszero(slt(add(src, _1), end)) { revert(0, 0) } // let dst_1 := allocateMemory_967() // let dst_2 := dst_1 // let src_1 := src // let _3 := add(src, 64) // if gt(_3, end) { revert(0, 0) } // let i_1 := 0 // for { } lt(i_1, 0x2) { i_1 := add(i_1, 1) } // { // mstore(dst_1, calldataload(src_1)) // dst_1 := add(dst_1, _2) // src_1 := add(src_1, _2) // } // mstore(dst, dst_2) // dst := add(dst, _2) // src := _3 // } // } // function abi_decode_uint256t_uint256t_array_uint256_dynt_array_array_uint256_memory_dyn(headStart, dataEnd) -> value0, value1, value2, value3 // { // if slt(sub(dataEnd, headStart), 128) { revert(0, 0) } // value0 := calldataload(headStart) // let _1 := 32 // value1 := calldataload(add(headStart, _1)) // let offset := calldataload(add(headStart, 64)) // let _2 := 0xffffffffffffffff // if gt(offset, _2) { revert(0, 0) } // let _3 := add(headStart, offset) // if iszero(slt(add(_3, 0x1f), dataEnd)) { revert(0, 0) } // let length := calldataload(_3) // let dst := allocateMemory(array_allocation_size_array_address_dyn_memory(length)) // let dst_1 := dst // mstore(dst, length) // dst := add(dst, _1) // let src := add(_3, _1) // if gt(add(add(_3, shl(5, length)), _1), dataEnd) { revert(0, 0) } // let i := 0 // for { } lt(i, length) { i := add(i, 1) } // { // mstore(dst, calldataload(src)) // dst := add(dst, _1) // src := add(src, _1) // } // value2 := dst_1 // let offset_1 := calldataload(add(headStart, 96)) // if gt(offset_1, _2) { revert(0, 0) } // value3 := abi_decode_array_array_uint256_memory_dyn(add(headStart, offset_1), dataEnd) // } // function allocateMemory_967() -> memPtr // { // memPtr := mload(64) // let newFreePtr := add(memPtr, 64) // if or(gt(newFreePtr, 0xffffffffffffffff), lt(newFreePtr, memPtr)) { revert(0, 0) } // mstore(64, newFreePtr) // } // function allocateMemory(size) -> memPtr // { // memPtr := mload(64) // let newFreePtr := add(memPtr, size) // if or(gt(newFreePtr, 0xffffffffffffffff), lt(newFreePtr, memPtr)) { revert(0, 0) } // mstore(64, newFreePtr) // } // function array_allocation_size_array_address_dyn_memory(length) -> size // { // if gt(length, 0xffffffffffffffff) { revert(0, 0) } // size := add(shl(5, length), 0x20) // } // }