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[/] [s80186/] [trunk/] [tests/] [instructions/] [Arithmetic.cpp] - Rev 2
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// Copyright Jamie Iles, 2017 // // This file is part of s80x86. // // s80x86 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. // // s80x86 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 s80x86. If not, see <http://www.gnu.org/licenses/>. #include "Arithmetic.h" #include "Flags.h" TEST_P(ArithmeticRegReg8Test, ResultAndFlags) { auto params = GetParam(); for (auto &t : params.second) { reset(); SCOPED_TRACE(std::to_string(static_cast<int>(t.v1)) + " + " + std::to_string(static_cast<int>(t.v2)) + " + " + std::to_string(static_cast<int>(t.carry_set))); write_flags(0); if (t.carry_set) write_flags(CF); write_reg(AL, t.v1); write_reg(BL, t.v2); // ARITH al, bl set_instruction(params.first); emulate(); ASSERT_EQ(read_reg(AL), t.expected); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | t.expected_flags); } } TEST_P(ArithmeticMemReg8Test, ResultAndFlags) { auto params = GetParam(); for (auto &t : params.second) { reset(); SCOPED_TRACE(std::to_string(static_cast<int>(t.v1)) + " + " + std::to_string(static_cast<int>(t.v2)) + " + " + std::to_string(static_cast<int>(t.carry_set))); write_flags(0); if (t.carry_set) write_flags(CF); write_reg(AL, t.v2); write_reg(BX, 0x100); write_mem8(0x100, t.v1); // ARITH [bx], al set_instruction(params.first); emulate(); ASSERT_EQ(read_mem8(0x100), t.expected); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | t.expected_flags); } } TEST_P(ArithmeticRegReg8TestReversed, ResultAndFlags) { auto params = GetParam(); for (auto &t : params.second) { reset(); SCOPED_TRACE(std::to_string(static_cast<int>(t.v1)) + " + " + std::to_string(static_cast<int>(t.v2)) + " + " + std::to_string(static_cast<int>(t.carry_set))); write_flags(0); if (t.carry_set) write_flags(CF); write_reg(AL, t.v2); write_reg(BL, t.v1); // ARITH bl, al set_instruction(params.first); emulate(); ASSERT_EQ(read_reg(BL), t.expected); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | t.expected_flags); } } TEST_P(ArithmeticMemReg8TestReversed, ResultAndFlags) { auto params = GetParam(); for (auto &t : params.second) { reset(); SCOPED_TRACE(std::to_string(static_cast<int>(t.v1)) + " + " + std::to_string(static_cast<int>(t.v2)) + " + " + std::to_string(static_cast<int>(t.carry_set))); write_flags(0); if (t.carry_set) write_flags(CF); write_reg(AL, t.v1); write_reg(BX, 0x100); write_mem8(0x100, t.v2); // ARITH al, [bx] set_instruction(params.first); emulate(); ASSERT_EQ(read_reg(AL), t.expected); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | t.expected_flags); } } TEST_P(ArithmeticRegReg8TestReversedNoResult, ResultAndFlags) { auto params = GetParam(); for (auto &t : params.second) { reset(); SCOPED_TRACE(std::to_string(static_cast<int>(t.v1)) + " + " + std::to_string(static_cast<int>(t.v2)) + " + " + std::to_string(static_cast<int>(t.carry_set))); write_flags(0); if (t.carry_set) write_flags(CF); write_reg(AL, t.v2); write_reg(BL, t.v1); // ARITH bl, al set_instruction(params.first); emulate(); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | t.expected_flags); } } TEST_P(ArithmeticMemReg8TestReversedNoResult, ResultAndFlags) { auto params = GetParam(); for (auto &t : params.second) { reset(); SCOPED_TRACE(std::to_string(static_cast<int>(t.v1)) + " + " + std::to_string(static_cast<int>(t.v2)) + " + " + std::to_string(static_cast<int>(t.carry_set))); write_flags(0); if (t.carry_set) write_flags(CF); write_reg(AL, t.v1); write_reg(BX, 0x100); write_mem8(0x100, t.v2); // ARITH al, [bx] set_instruction(params.first); emulate(); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | t.expected_flags); } } TEST_P(ArithmeticRegReg16Test, ResultAndFlags) { auto params = GetParam(); for (auto &t : params.second) { reset(); SCOPED_TRACE(std::to_string(static_cast<int>(t.v1)) + " + " + std::to_string(static_cast<int>(t.v2)) + " + " + std::to_string(static_cast<int>(t.carry_set))); write_flags(0); if (t.carry_set) write_flags(CF); write_reg(AX, t.v1); write_reg(BX, t.v2); // ARITH ax, bx set_instruction(params.first); emulate(); ASSERT_EQ(read_reg(AX), t.expected); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | t.expected_flags); } } TEST_P(ArithmeticRegMem16Test, ResultAndFlags) { auto params = GetParam(); for (auto &t : params.second) { reset(); SCOPED_TRACE(std::to_string(static_cast<int>(t.v1)) + " + " + std::to_string(static_cast<int>(t.v2)) + " + " + std::to_string(static_cast<int>(t.carry_set))); write_flags(0); if (t.carry_set) write_flags(CF); write_reg(AX, t.v2); write_reg(BX, 0x100); write_mem16(0x100, t.v1); // ARITH [bx], ax set_instruction(params.first); emulate(); ASSERT_EQ(read_mem16(0x100), t.expected); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | t.expected_flags); } } TEST_P(ArithmeticRegReg16TestReversed, ResultAndFlags) { auto params = GetParam(); for (auto &t : params.second) { reset(); SCOPED_TRACE(std::to_string(static_cast<int>(t.v1)) + " + " + std::to_string(static_cast<int>(t.v2)) + " + " + std::to_string(static_cast<int>(t.carry_set))); write_flags(0); if (t.carry_set) write_flags(CF); write_reg(AX, t.v2); write_reg(BX, t.v1); // ARITH bx, ax set_instruction(params.first); emulate(); ASSERT_EQ(read_reg(BX), t.expected); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | t.expected_flags); } } TEST_P(ArithmeticMemReg16TestReversed, ResultAndFlags) { auto params = GetParam(); for (auto &t : params.second) { reset(); SCOPED_TRACE(std::to_string(static_cast<int>(t.v1)) + " + " + std::to_string(static_cast<int>(t.v2)) + " + " + std::to_string(static_cast<int>(t.carry_set))); write_flags(0); if (t.carry_set) write_flags(CF); write_reg(AX, t.v1); write_reg(BX, 0x100); write_mem16(0x100, t.v2); // ARITH ax, [bx] set_instruction(params.first); emulate(); ASSERT_EQ(read_reg(AX), t.expected); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | t.expected_flags); } } TEST_P(ArithmeticRegReg16TestReversedNoResult, ResultAndFlags) { auto params = GetParam(); for (auto &t : params.second) { reset(); SCOPED_TRACE(std::to_string(static_cast<int>(t.v1)) + " + " + std::to_string(static_cast<int>(t.v2)) + " + " + std::to_string(static_cast<int>(t.carry_set))); write_flags(0); if (t.carry_set) write_flags(CF); write_reg(AX, t.v2); write_reg(BX, t.v1); // ARITH bx, ax set_instruction(params.first); emulate(); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | t.expected_flags); } } TEST_P(ArithmeticMemReg16TestReversedNoResult, ResultAndFlags) { auto params = GetParam(); for (auto &t : params.second) { reset(); SCOPED_TRACE(std::to_string(static_cast<int>(t.v1)) + " + " + std::to_string(static_cast<int>(t.v2)) + " + " + std::to_string(static_cast<int>(t.carry_set))); write_flags(0); if (t.carry_set) write_flags(CF); write_reg(AX, t.v1); write_reg(BX, 0x100); write_mem16(0x100, t.v2); // ARITH ax, [bx] set_instruction(params.first); emulate(); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | t.expected_flags); } } TEST_P(ArithmeticRegImmed8Test, ResultAndFlags) { auto params = GetParam(); if (params.second.carry_set) write_flags(CF); set_instruction(params.first); write_reg(BL, params.second.v1); emulate(); ASSERT_EQ(read_reg(BL), params.second.expected); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | params.second.expected_flags); } TEST_P(ArithmeticMemImmed8Test, ResultAndFlags) { auto params = GetParam(); if (params.second.carry_set) write_flags(CF); set_instruction(params.first); write_mem8(0x0100, params.second.v1); write_reg(BX, 0x0100); emulate(); ASSERT_EQ(read_mem8(0x0100), params.second.expected); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | params.second.expected_flags); } TEST_P(ArithmeticRegImmed16Test, ResultAndFlags) { auto params = GetParam(); if (params.second.carry_set) write_flags(CF); // ARITH bx, 1 set_instruction(params.first); write_reg(BX, params.second.v1); emulate(); ASSERT_EQ(read_reg(BX), params.second.expected); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | params.second.expected_flags); } TEST_P(ArithmeticMemImmed16Test, ResultAndFlags) { auto params = GetParam(); if (params.second.carry_set) write_flags(CF); // ARITH word [bx], 1 set_instruction(params.first); write_mem16(0x0100, params.second.v1); write_reg(BX, 0x0100); emulate(); ASSERT_EQ(read_mem16(0x0100), params.second.expected); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | params.second.expected_flags); } TEST_P(ArithmeticRegImmed16TestExtend, ResultAndFlags) { auto params = GetParam(); if (params.second.carry_set) write_flags(CF); // ARITH bx, -1 set_instruction(params.first); write_reg(BX, params.second.v1); emulate(); ASSERT_EQ(read_reg(BX), params.second.expected); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | params.second.expected_flags); } TEST_P(ArithmeticMemImmed16TestExtend, ResultAndFlags) { auto params = GetParam(); if (params.second.carry_set) write_flags(CF); // ARITH word [bx], 1 set_instruction(params.first); write_mem16(0x0100, params.second.v1); write_reg(BX, 0x0100); emulate(); ASSERT_EQ(read_mem16(0x0100), params.second.expected); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | params.second.expected_flags); } TEST_P(ArithmeticAlImmedTest, ResultAndFlags) { auto params = GetParam(); if (params.second.carry_set) write_flags(CF); // ARITH al, 1 set_instruction(params.first); write_reg(AL, params.second.v1); emulate(); ASSERT_EQ(read_reg(AL), params.second.expected); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | params.second.expected_flags); } TEST_P(ArithmeticAxImmedTest, ResultAndFlags) { auto params = GetParam(); if (params.second.carry_set) write_flags(CF); // ARITH ax, 1 set_instruction(params.first); write_reg(AX, params.second.v1); emulate(); ASSERT_EQ(read_reg(AX), params.second.expected); ASSERT_PRED_FORMAT2(AssertFlagsEqual, read_flags(), FLAGS_STUCK_BITS | params.second.expected_flags); }