pragma abicoder v2; contract C { uint public a; uint[] public b; function f1(uint) public pure returns (uint) { } function f2(uint[] memory, string[] memory, uint16, address) public returns (uint[] memory, uint16[] memory) {} function f3(uint16[] memory, string[] memory, uint16, address) public returns (uint[] memory, uint16[] memory) {} function f4(uint32[] memory, string[12] memory, bytes[2][] memory, address) public returns (uint[] memory, uint16[] memory) {} function f5(address[] memory, string[] memory, bytes memory, address) public returns (uint[] memory, uint16[] memory) {} function f6(uint[30] memory, string[] memory, uint16, address) public returns (uint16[200] memory, uint16[] memory) {} function f7(uint[31] memory, string[20] memory, C, address) public returns (bytes[] memory, uint16[] memory) {} function f8(uint[32] memory, string[] memory, uint32, address) public returns (uint[] memory, uint16[] memory) {} } // ==== // optimize: true // optimize-yul: true // ---- // creation: // codeDepositCost: 571400 // executionCost: 606 // totalCost: 572006 // external: // a(): 985 // b(uint256): 2052 // f1(uint256): 307 // f2(uint256[],string[],uint16,address): infinite // f3(uint16[],string[],uint16,address): infinite // f4(uint32[],string[12],bytes[2][],address): infinite // f5(address[],string[],bytes,address): infinite // f6(uint256[30],string[],uint16,address): infinite // f7(uint256[31],string[20],address,address): infinite // f8(uint256[32],string[],uint32,address): infinite