solidity/test/cmdlineTests/revert_strings/output

IR:

/// @use-src 0:"revert_strings/input.sol"
object "C_15" {
    code {
        /// @src 0:59:147  "contract C {..."
        mstore(64, memoryguard(128))
        if callvalue() { revert_error_ca66f745a3ce8ff40e2ccaf1ad45db7774001b90d25810abd9040049be7bf4bb() }

        constructor_C_15()

        let _1 := allocate_unbounded()
        codecopy(_1, dataoffset("C_15_deployed"), datasize("C_15_deployed"))

        return(_1, datasize("C_15_deployed"))

        function allocate_unbounded() -> memPtr {
            memPtr := mload(64)
        }

        function revert_error_ca66f745a3ce8ff40e2ccaf1ad45db7774001b90d25810abd9040049be7bf4bb() {

            let start := allocate_unbounded()
            let pos := start
            mstore(pos, 3963877391197344453575983046348115674221700746820753546331534351508065746944)
            pos := add(pos, 4)
            mstore(pos, 0x20)
            pos := add(pos, 0x20)
            mstore(pos, 34)
            pos := add(pos, 0x20)

            mstore(add(pos, 0), "Ether sent to non-payable functi")

            mstore(add(pos, 32), "on")

            revert(start, 132)

        }

        /// @src 0:59:147  "contract C {..."
        function constructor_C_15() {

            /// @src 0:59:147  "contract C {..."

        }
        /// @src 0:59:147  "contract C {..."

    }
    /// @use-src 0:"revert_strings/input.sol"
    object "C_15_deployed" {
        code {
            /// @src 0:59:147  "contract C {..."
            mstore(64, memoryguard(128))

            if iszero(lt(calldatasize(), 4))
            {
                let selector := shift_right_224_unsigned(calldataload(0))
                switch selector

                case 0x02e8cd18
                {
                    // f(uint256[][],uint8)

                    external_fun_f_14()
                }

                default {}
            }

            revert_error_42b3090547df1d2001c96683413b8cf91c1b902ef5e3cb8d9f6f304cf7446f74()

            function shift_right_224_unsigned(value) -> newValue {
                newValue :=

                shr(224, value)

            }

            function allocate_unbounded() -> memPtr {
                memPtr := mload(64)
            }

            function revert_error_ca66f745a3ce8ff40e2ccaf1ad45db7774001b90d25810abd9040049be7bf4bb() {

                let start := allocate_unbounded()
                let pos := start
                mstore(pos, 3963877391197344453575983046348115674221700746820753546331534351508065746944)
                pos := add(pos, 4)
                mstore(pos, 0x20)
                pos := add(pos, 0x20)
                mstore(pos, 34)
                pos := add(pos, 0x20)

                mstore(add(pos, 0), "Ether sent to non-payable functi")

                mstore(add(pos, 32), "on")

                revert(start, 132)

            }

            function revert_error_dbdddcbe895c83990c08b3492a0e83918d802a52331272ac6fdb6a7c4aea3b1b() {

                let start := allocate_unbounded()
                let pos := start
                mstore(pos, 3963877391197344453575983046348115674221700746820753546331534351508065746944)
                pos := add(pos, 4)
                mstore(pos, 0x20)
                pos := add(pos, 0x20)
                mstore(pos, 34)
                pos := add(pos, 0x20)

                mstore(add(pos, 0), "ABI decoding: tuple data too sho")

                mstore(add(pos, 32), "rt")

                revert(start, 132)

            }

            function revert_error_c1322bf8034eace5e0b5c7295db60986aa89aae5e0ea0873e4689e076861a5db() {

                let start := allocate_unbounded()
                let pos := start
                mstore(pos, 3963877391197344453575983046348115674221700746820753546331534351508065746944)
                pos := add(pos, 4)
                mstore(pos, 0x20)
                pos := add(pos, 0x20)
                mstore(pos, 34)
                pos := add(pos, 0x20)

                mstore(add(pos, 0), "ABI decoding: invalid tuple offs")

                mstore(add(pos, 32), "et")

                revert(start, 132)

            }

            function revert_error_1b9f4a0a5773e33b91aa01db23bf8c55fce1411167c872835e7fa00a4f17d46d() {

                let start := allocate_unbounded()
                let pos := start
                mstore(pos, 3963877391197344453575983046348115674221700746820753546331534351508065746944)
                pos := add(pos, 4)
                mstore(pos, 0x20)
                pos := add(pos, 0x20)
                mstore(pos, 43)
                pos := add(pos, 0x20)

                mstore(add(pos, 0), "ABI decoding: invalid calldata a")

                mstore(add(pos, 32), "rray offset")

                revert(start, 132)

            }

            function round_up_to_mul_of_32(value) -> result {
                result := and(add(value, 31), not(31))
            }

            function panic_error_0x41() {
                mstore(0, 35408467139433450592217433187231851964531694900788300625387963629091585785856)
                mstore(4, 0x41)
                revert(0, 0x24)
            }

            function finalize_allocation(memPtr, size) {
                let newFreePtr := add(memPtr, round_up_to_mul_of_32(size))
                // protect against overflow
                if or(gt(newFreePtr, 0xffffffffffffffff), lt(newFreePtr, memPtr)) { panic_error_0x41() }
                mstore(64, newFreePtr)
            }

            function allocate_memory(size) -> memPtr {
                memPtr := allocate_unbounded()
                finalize_allocation(memPtr, size)
            }

            function array_allocation_size_t_array$_t_array$_t_uint256_$dyn_memory_ptr_$dyn_memory_ptr(length) -> size {
                // Make sure we can allocate memory without overflow
                if gt(length, 0xffffffffffffffff) { panic_error_0x41() }

                size := mul(length, 0x20)

                // add length slot
                size := add(size, 0x20)

            }

            function revert_error_81385d8c0b31fffe14be1da910c8bd3a80be4cfa248e04f42ec0faea3132a8ef() {

                let start := allocate_unbounded()
                let pos := start
                mstore(pos, 3963877391197344453575983046348115674221700746820753546331534351508065746944)
                pos := add(pos, 4)
                mstore(pos, 0x20)
                pos := add(pos, 0x20)
                mstore(pos, 43)
                pos := add(pos, 0x20)

                mstore(add(pos, 0), "ABI decoding: invalid calldata a")

                mstore(add(pos, 32), "rray stride")

                revert(start, 132)

            }

            function array_allocation_size_t_array$_t_uint256_$dyn_memory_ptr(length) -> size {
                // Make sure we can allocate memory without overflow
                if gt(length, 0xffffffffffffffff) { panic_error_0x41() }

                size := mul(length, 0x20)

                // add length slot
                size := add(size, 0x20)

            }

            function cleanup_t_uint256(value) -> cleaned {
                cleaned := value
            }

            function validator_revert_t_uint256(value) {
                if iszero(eq(value, cleanup_t_uint256(value))) { revert(0, 0) }
            }

            function abi_decode_t_uint256(offset, end) -> value {
                value := calldataload(offset)
                validator_revert_t_uint256(value)
            }

            // uint256[]
            function abi_decode_available_length_t_array$_t_uint256_$dyn_memory_ptr(offset, length, end) -> array {
                array := allocate_memory(array_allocation_size_t_array$_t_uint256_$dyn_memory_ptr(length))
                let dst := array

                mstore(array, length)
                dst := add(array, 0x20)

                let srcEnd := add(offset, mul(length, 0x20))
                if gt(srcEnd, end) {
                    revert_error_81385d8c0b31fffe14be1da910c8bd3a80be4cfa248e04f42ec0faea3132a8ef()
                }
                for { let src := offset } lt(src, srcEnd) { src := add(src, 0x20) }
                {

                    let elementPos := src

                    mstore(dst, abi_decode_t_uint256(elementPos, end))
                    dst := add(dst, 0x20)
                }
            }

            // uint256[]
            function abi_decode_t_array$_t_uint256_$dyn_memory_ptr(offset, end) -> array {
                if iszero(slt(add(offset, 0x1f), end)) { revert_error_1b9f4a0a5773e33b91aa01db23bf8c55fce1411167c872835e7fa00a4f17d46d() }
                let length := calldataload(offset)
                array := abi_decode_available_length_t_array$_t_uint256_$dyn_memory_ptr(add(offset, 0x20), length, end)
            }

            // uint256[][]
            function abi_decode_available_length_t_array$_t_array$_t_uint256_$dyn_memory_ptr_$dyn_memory_ptr(offset, length, end) -> array {
                array := allocate_memory(array_allocation_size_t_array$_t_array$_t_uint256_$dyn_memory_ptr_$dyn_memory_ptr(length))
                let dst := array

                mstore(array, length)
                dst := add(array, 0x20)

                let srcEnd := add(offset, mul(length, 0x20))
                if gt(srcEnd, end) {
                    revert_error_81385d8c0b31fffe14be1da910c8bd3a80be4cfa248e04f42ec0faea3132a8ef()
                }
                for { let src := offset } lt(src, srcEnd) { src := add(src, 0x20) }
                {

                    let innerOffset := calldataload(src)
                    if gt(innerOffset, 0xffffffffffffffff) { revert_error_1b9f4a0a5773e33b91aa01db23bf8c55fce1411167c872835e7fa00a4f17d46d() }
                    let elementPos := add(offset, innerOffset)

                    mstore(dst, abi_decode_t_array$_t_uint256_$dyn_memory_ptr(elementPos, end))
                    dst := add(dst, 0x20)
                }
            }

            // uint256[][]
            function abi_decode_t_array$_t_array$_t_uint256_$dyn_memory_ptr_$dyn_memory_ptr(offset, end) -> array {
                if iszero(slt(add(offset, 0x1f), end)) { revert_error_1b9f4a0a5773e33b91aa01db23bf8c55fce1411167c872835e7fa00a4f17d46d() }
                let length := calldataload(offset)
                array := abi_decode_available_length_t_array$_t_array$_t_uint256_$dyn_memory_ptr_$dyn_memory_ptr(add(offset, 0x20), length, end)
            }

            function validator_revert_t_enum$_E_$3(value) {
                if iszero(lt(value, 1)) { revert(0, 0) }
            }

            function abi_decode_t_enum$_E_$3(offset, end) -> value {
                value := calldataload(offset)
                validator_revert_t_enum$_E_$3(value)
            }

            function abi_decode_tuple_t_array$_t_array$_t_uint256_$dyn_memory_ptr_$dyn_memory_ptrt_enum$_E_$3(headStart, dataEnd) -> value0, value1 {
                if slt(sub(dataEnd, headStart), 64) { revert_error_dbdddcbe895c83990c08b3492a0e83918d802a52331272ac6fdb6a7c4aea3b1b() }

                {

                    let offset := calldataload(add(headStart, 0))
                    if gt(offset, 0xffffffffffffffff) { revert_error_c1322bf8034eace5e0b5c7295db60986aa89aae5e0ea0873e4689e076861a5db() }

                    value0 := abi_decode_t_array$_t_array$_t_uint256_$dyn_memory_ptr_$dyn_memory_ptr(add(headStart, offset), dataEnd)
                }

                {

                    let offset := 32

                    value1 := abi_decode_t_enum$_E_$3(add(headStart, offset), dataEnd)
                }

            }

            function abi_encode_tuple__to__fromStack(headStart ) -> tail {
                tail := add(headStart, 0)

            }

            function external_fun_f_14() {

                if callvalue() { revert_error_ca66f745a3ce8ff40e2ccaf1ad45db7774001b90d25810abd9040049be7bf4bb() }
                let param_0, param_1 :=  abi_decode_tuple_t_array$_t_array$_t_uint256_$dyn_memory_ptr_$dyn_memory_ptrt_enum$_E_$3(4, calldatasize())
                fun_f_14(param_0, param_1)
                let memPos := allocate_unbounded()
                let memEnd := abi_encode_tuple__to__fromStack(memPos  )
                return(memPos, sub(memEnd, memPos))

            }

            function revert_error_42b3090547df1d2001c96683413b8cf91c1b902ef5e3cb8d9f6f304cf7446f74() {

                let start := allocate_unbounded()
                let pos := start
                mstore(pos, 3963877391197344453575983046348115674221700746820753546331534351508065746944)
                pos := add(pos, 4)
                mstore(pos, 0x20)
                pos := add(pos, 0x20)
                mstore(pos, 53)
                pos := add(pos, 0x20)

                mstore(add(pos, 0), "Contract does not have fallback ")

                mstore(add(pos, 32), "nor receive functions")

                revert(start, 132)

            }

            /// @ast-id 14
            /// @src 0:93:145  "function f(uint[][] memory, E e) public pure {..."
            function fun_f_14(var__7_mpos, var_e_10) {

            }
            /// @src 0:59:147  "contract C {..."

        }

        data ".metadata" hex"<BYTECODE REMOVED>"
    }

}