/* 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 . */ // SPDX-License-Identifier: GPL-3.0 #include #include #include #include #include #include #include using namespace std; using namespace solidity::util; using namespace solidity::test; namespace solidity::frontend::test { BOOST_AUTO_TEST_SUITE(TestFunctionCallTest) BOOST_AUTO_TEST_CASE(format_unsigned_singleline) { bytes expectedBytes = toBigEndian(u256{1}); ABIType abiType{ABIType::UnsignedDec, ABIType::AlignRight, 32}; Parameter param{expectedBytes, "1", abiType, FormatInfo{}}; FunctionCallExpectations expectations{vector{param}, false, string{}, {}}; FunctionCallArgs arguments{vector{param}, string{}}; FunctionCall call{"f(uint8)", {0}, arguments, expectations}; call.omitsArrow = false; TestFunctionCall test{call}; BOOST_REQUIRE_EQUAL(test.format(), "// f(uint8): 1 -> 1"); test.setRawBytes(toBigEndian(u256{2})); test.setFailure(false); BOOST_REQUIRE_EQUAL(test.format("", TestFunctionCall::RenderMode::ActualValuesExpectedGas), "// f(uint8): 1 -> 2"); } BOOST_AUTO_TEST_CASE(format_unsigned_singleline_signed_encoding) { bytes expectedBytes = toBigEndian(u256{1}); ABIType abiType{ABIType::UnsignedDec, ABIType::AlignRight, 32}; Parameter param{expectedBytes, "1", abiType, FormatInfo{}}; FunctionCallExpectations expectations{vector{param}, false, string{}, {}}; FunctionCallArgs arguments{vector{param}, string{}}; FunctionCall call{"f(uint8)", {0}, arguments, expectations}; call.omitsArrow = false; TestFunctionCall test{call}; BOOST_REQUIRE_EQUAL(test.format(), "// f(uint8): 1 -> 1"); test.setRawBytes(toBigEndian(u256{-1})); test.setFailure(false); BOOST_REQUIRE_EQUAL(test.format("", TestFunctionCall::RenderMode::ActualValuesExpectedGas), "// f(uint8): 1 -> -1"); } BOOST_AUTO_TEST_CASE(format_unsigned_multiline) { bytes expectedBytes = toBigEndian(u256{1}); ABIType abiType{ABIType::UnsignedDec, ABIType::AlignRight, 32}; Parameter result{expectedBytes, "1", abiType, FormatInfo{}}; FunctionCallExpectations expectations{vector{result}, false, string{}, {}}; FunctionCallArgs arguments{vector{}, string{}}; FunctionCall call{"f(uint8)", {0}, arguments, expectations}; call.omitsArrow = false; call.displayMode = FunctionCall::DisplayMode::MultiLine; TestFunctionCall test{call}; BOOST_REQUIRE_EQUAL(test.format(), "// f(uint8)\n// -> 1"); } BOOST_AUTO_TEST_CASE(format_multiple_unsigned_singleline) { bytes expectedBytes = toBigEndian(u256{1}); ABIType abiType{ABIType::UnsignedDec, ABIType::AlignRight, 32}; Parameter param{expectedBytes, "1", abiType, FormatInfo{}}; FunctionCallExpectations expectations{vector{param, param}, false, string{}, {}}; FunctionCallArgs arguments{vector{param, param}, string{}}; FunctionCall call{"f(uint8, uint8)", {0}, arguments, expectations}; call.omitsArrow = false; TestFunctionCall test{call}; BOOST_REQUIRE_EQUAL(test.format(), "// f(uint8, uint8): 1, 1 -> 1, 1"); } BOOST_AUTO_TEST_CASE(format_signed_singleline) { bytes expectedBytes = toBigEndian(u256{-1}); ABIType abiType{ABIType::UnsignedDec, ABIType::AlignRight, 32}; Parameter param{expectedBytes, "-1", abiType, FormatInfo{}}; FunctionCallExpectations expectations{vector{param}, false, string{}, {}}; FunctionCallArgs arguments{vector{param}, string{}}; FunctionCall call{"f(int8)", {0}, arguments, expectations}; call.omitsArrow = false; TestFunctionCall test{call}; BOOST_REQUIRE_EQUAL(test.format(), "// f(int8): -1 -> -1"); test.setRawBytes(toBigEndian(u256{-2})); test.setFailure(false); BOOST_REQUIRE_EQUAL(test.format("", TestFunctionCall::RenderMode::ActualValuesExpectedGas), "// f(int8): -1 -> -2"); } BOOST_AUTO_TEST_CASE(format_hex_singleline) { bytes result = fromHex("0x31"); bytes expectedBytes = result + bytes(32 - result.size(), 0); ABIType abiType{ABIType::Hex, ABIType::AlignRight, 32}; Parameter param{expectedBytes, "0x31", abiType, FormatInfo{}}; FunctionCallExpectations expectations{vector{param}, false, string{}, {}}; FunctionCallArgs arguments{vector{param}, string{}}; FunctionCall call{"f(bytes32)", {0}, arguments, expectations}; call.omitsArrow = false; TestFunctionCall test{call}; BOOST_REQUIRE_EQUAL(test.format(), "// f(bytes32): 0x31 -> 0x31"); bytes actualResult = fromHex("0x32"); bytes actualBytes = bytes(32 - actualResult.size(), 0) + actualResult; test.setRawBytes(actualBytes); test.setFailure(false); BOOST_REQUIRE_EQUAL(test.format("", TestFunctionCall::RenderMode::ActualValuesExpectedGas), "// f(bytes32): 0x31 -> 0x32"); } BOOST_AUTO_TEST_CASE(format_hex_string_singleline) { bytes expectedBytes = fromHex("4200ef"); ABIType abiType{ABIType::HexString, ABIType::AlignLeft, 3}; Parameter param{expectedBytes, "hex\"4200ef\"", abiType, FormatInfo{}}; FunctionCallExpectations expectations{vector{param}, false, string{}, {}}; FunctionCallArgs arguments{vector{param}, string{}}; FunctionCall call{"f(string)", {0}, arguments, expectations}; call.omitsArrow = false; TestFunctionCall test{call}; BOOST_REQUIRE_EQUAL(test.format(), "// f(string): hex\"4200ef\" -> hex\"4200ef\""); } BOOST_AUTO_TEST_CASE(format_bool_true_singleline) { bytes expectedBytes = toBigEndian(u256{true}); ABIType abiType{ABIType::Boolean, ABIType::AlignRight, 32}; Parameter param{expectedBytes, "true", abiType, FormatInfo{}}; FunctionCallExpectations expectations{vector{param}, false, string{}, {}}; FunctionCallArgs arguments{vector{param}, string{}}; FunctionCall call{"f(bool)", {0}, arguments, expectations}; call.omitsArrow = false; TestFunctionCall test{call}; BOOST_REQUIRE_EQUAL(test.format(), "// f(bool): true -> true"); bytes actualResult = bytes{false}; bytes actualBytes = actualResult + bytes(32 - actualResult.size(), 0); test.setRawBytes(actualBytes); test.setFailure(false); BOOST_REQUIRE_EQUAL(test.format("", TestFunctionCall::RenderMode::ActualValuesExpectedGas), "// f(bool): true -> false"); } BOOST_AUTO_TEST_CASE(format_bool_false_singleline) { bytes expectedBytes = toBigEndian(u256{false}); ABIType abiType{ABIType::Boolean, ABIType::AlignRight, 32}; Parameter param{expectedBytes, "false", abiType, FormatInfo{}}; FunctionCallExpectations expectations{vector{param}, false, string{}, {}}; FunctionCallArgs arguments{vector{param}, string{}}; FunctionCall call{"f(bool)", {0}, arguments, expectations}; call.omitsArrow = false; TestFunctionCall test{call}; BOOST_REQUIRE_EQUAL(test.format(), "// f(bool): false -> false"); } BOOST_AUTO_TEST_CASE(format_bool_left_singleline) { bytes expectedBytes = toBigEndian(u256{false}); ABIType abiType{ABIType::Boolean, ABIType::AlignLeft, 32}; Parameter param{expectedBytes, "left(false)", abiType, FormatInfo{}}; FunctionCallExpectations expectations{vector{param}, false, string{}, {}}; FunctionCallArgs arguments{vector{param}, string{}}; FunctionCall call{"f(bool)", {0}, arguments, expectations}; call.omitsArrow = false; TestFunctionCall test{call}; BOOST_REQUIRE_EQUAL(test.format(), "// f(bool): left(false) -> left(false)"); } BOOST_AUTO_TEST_CASE(format_hex_number_right_singleline) { bytes result = fromHex("0x42"); bytes expectedBytes = result + bytes(32 - result.size(), 0); ABIType abiType{ABIType::Hex, ABIType::AlignRight, 32}; Parameter param{expectedBytes, "right(0x42)", abiType, FormatInfo{}}; FunctionCallExpectations expectations{vector{param}, false, string{}, {}}; FunctionCallArgs arguments{vector{param}, string{}}; FunctionCall call{"f(bool)", {0}, arguments, expectations}; call.omitsArrow = false; TestFunctionCall test{call}; BOOST_REQUIRE_EQUAL(test.format(), "// f(bool): right(0x42) -> right(0x42)"); } BOOST_AUTO_TEST_CASE(format_empty_byte_range) { bytes expectedBytes; ABIType abiType{ABIType::None, ABIType::AlignNone, 0}; Parameter param{expectedBytes, "1", abiType, FormatInfo{}}; FunctionCallExpectations expectations{vector{param}, false, string{}, {}}; FunctionCallArgs arguments{vector{}, string{}}; FunctionCall call{"f()", {0}, arguments, expectations}; call.omitsArrow = false; TestFunctionCall test{call}; BOOST_REQUIRE_EQUAL(test.format(), "// f() -> 1"); } BOOST_AUTO_TEST_CASE(format_failure_singleline) { bytes expectedBytes = toBigEndian(u256{1}); ABIType abiType{ABIType::UnsignedDec, ABIType::AlignRight, 32}; Parameter param{expectedBytes, "1", abiType, FormatInfo{}}; FunctionCallExpectations expectations{vector{}, true, string{}, {}}; FunctionCallArgs arguments{vector{param}, string{}}; FunctionCall call{"f(uint8)", {0}, arguments, expectations}; call.omitsArrow = false; TestFunctionCall test{call}; BOOST_REQUIRE_EQUAL(test.format(), "// f(uint8): 1 -> FAILURE"); } BOOST_AUTO_TEST_SUITE_END() }