// // Created by anonymus-raccoon on 2/13/20. // #include #include #include #include "../tests.hpp" #include "../../sources/SNES.hpp" #include "../../sources/Memory/MemoryBus.hpp" #include "../../sources/CPU/CPU.hpp" using namespace ComSquare; Test(SEP, setall) { auto pair = Init(); pair.second.cpu->SEP(0xFF); auto data = pair.second.cpu->_registers.p.flags; cr_assert_eq(data, 0xFF, "The flag should be 0xFF but it was %x", data); } Test(SEP, setsome) { auto pair = Init(); pair.second.cpu->_registers.p.flags = 0b01000000; pair.second.cpu->SEP(0b10110101); auto data = pair.second.cpu->_registers.p.flags; cr_assert_eq(data, 0b11110101, "The flag should be 245 but it was %i", data); } Test(REP, resetall) { auto pair = Init(); pair.second.cpu->_isEmulationMode = false; pair.second.cpu->REP(0xFF); auto data = pair.second.cpu->_registers.p.flags; cr_assert_eq(data, 0x00, "The flag should be 0x00 but it was %x", data); } Test(REP, resetsome) { auto pair = Init(); pair.second.cpu->_isEmulationMode = false; pair.second.cpu->_registers.p.flags = 0b01000000; pair.second.cpu->REP(0b01000000); auto data = pair.second.cpu->_registers.p.flags; cr_assert_eq(data, 0x0, "The flag should be 0 but it was %x", data); } Test(REP, resetallEmulation) { auto pair = Init(); pair.second.cpu->_isEmulationMode = true; pair.second.cpu->REP(0xFF); auto data = pair.second.cpu->_registers.p.flags; cr_assert_eq(data, 0b00110000, "The flag should be 0b00110000 but it was %x", data); } Test(REP, resetsomeEmulation) { auto pair = Init(); pair.second.cpu->_isEmulationMode = true; pair.second.cpu->_registers.p.flags = 0b01000101; pair.second.cpu->REP(0b01000001); auto data = pair.second.cpu->_registers.p.flags; cr_assert_eq(data, 0b00110100, "The flag should be 0b00110100 but it was %x", data); } Test(JSR, jump) { auto pair = Init(); pair.second.cpu->_registers.pc = 0xABCD; pair.second.cpu->_registers.s = 0x0123; pair.second.cpu->JSR(0xABFF); auto pc = pair.second.cpu->_registers.pc; cr_assert_eq(pc, 0xABFF, "The PC should be 0xABFF but it was %x", pc); cr_assert_eq(pair.second.cpu->_registers.s, 0x0121, "The stack pointer should be 0x0121 but it was %x", pair.second.cpu->_registers.s); auto pushed = pair.second.cpu->_pop16(); cr_assert_eq(pushed, 0xABCC, "The value pushed to the stack should be 0xABCC but it was %x", pushed); } Test(JSL, jump) { auto pair = Init(); pair.second.cpu->_registers.pbr = 0xFF; pair.second.cpu->_registers.pc = 0xABCD; pair.second.cpu->_registers.s = 0x0123; pair.second.cpu->JSL(0xCDABFF); auto pac = pair.second.cpu->_registers.pac; cr_assert_eq(pac, 0xCDABFF, "The PC should be 0xCDABFF but it was %x", pac); cr_assert_eq(pair.second.cpu->_registers.s, 0x0120, "The stack pointer should be 0x0120 but it was %x", pair.second.cpu->_registers.s); auto pushed = pair.second.cpu->_pop16() + (pair.second.cpu->_pop() << 16u); cr_assert_eq(pushed, 0xFFABCC, "The value pushed to the stack should be 0xFFABCD but it was %x", pushed); } Test(PHA, basic) { auto pair = Init(); pair.second.cpu->_registers.a = 0xABCD; pair.second.cpu->_registers.s = 0x02; pair.second.cpu->PHA(); cr_assert_eq(pair.second.wram->_data[1], 0xCD, "The second value pushed to the stack should be 0xCD but it was %x", pair.second.wram->_data[1]); cr_assert_eq(pair.second.wram->_data[2], 0xAB, "The first value pushed to the stack should be 0xAB but it was %x", pair.second.wram->_data[2]); cr_assert_eq(pair.second.cpu->_registers.s, 0x0, "The Stack pointer should be equal to 0x0 but it was %x", pair.second.cpu->_registers.s); } Test(PHB, basic) { auto pair = Init(); pair.second.cpu->_registers.dbr = 0xFF; pair.second.cpu->_registers.s = 0x02; pair.second.cpu->PHB(); cr_assert_eq(pair.second.wram->_data[2], 0xFF, "The first value pushed to the stack should be 0xFF but it was %x", pair.second.wram->_data[2]); cr_assert_eq(pair.second.cpu->_registers.s, 0x1, "The Stack pointer should be equal to 0x1 but it was %x", pair.second.cpu->_registers.s); } Test(PHD, basic) { auto pair = Init(); pair.second.cpu->_registers.d = 0xABCD; pair.second.cpu->_registers.s = 0x02; pair.second.cpu->PHD(); cr_assert_eq(pair.second.wram->_data[1], 0xCD, "The second value pushed to the stack should be 0xCD but it was %x", pair.second.wram->_data[1]); cr_assert_eq(pair.second.wram->_data[2], 0xAB, "The first value pushed to the stack should be 0xAB but it was %x", pair.second.wram->_data[2]); cr_assert_eq(pair.second.cpu->_registers.s, 0x0, "The Stack pointer should be equal to 0x0 but it was %x", pair.second.cpu->_registers.s); } Test(PHK, basic) { auto pair = Init(); pair.second.cpu->_registers.pbr = 0xFF; pair.second.cpu->_registers.s = 0x02; pair.second.cpu->PHK(); cr_assert_eq(pair.second.wram->_data[2], 0xFF, "The first value pushed to the stack should be 0xFF but it was %x", pair.second.wram->_data[2]); cr_assert_eq(pair.second.cpu->_registers.s, 0x1, "The Stack pointer should be equal to 0x1 but it was %x", pair.second.cpu->_registers.s); } Test(PHP, basic) { auto pair = Init(); pair.second.cpu->_registers.p.flags = 0xFF; pair.second.cpu->_registers.s = 0x02; pair.second.cpu->PHP(); cr_assert_eq(pair.second.wram->_data[2], 0xFF, "The first value pushed to the stack should be 0xFF but it was %x", pair.second.wram->_data[2]); cr_assert_eq(pair.second.cpu->_registers.s, 0x1, "The Stack pointer should be equal to 0x1 but it was %x", pair.second.cpu->_registers.s); } Test(PHX, basic) { auto pair = Init(); pair.second.cpu->_registers.x = 0xABCD; pair.second.cpu->_registers.s = 0x02; pair.second.cpu->PHX(); cr_assert_eq(pair.second.wram->_data[1], 0xCD, "The second value pushed to the stack should be 0xCD but it was %x", pair.second.wram->_data[1]); cr_assert_eq(pair.second.wram->_data[2], 0xAB, "The first value pushed to the stack should be 0xAB but it was %x", pair.second.wram->_data[2]); cr_assert_eq(pair.second.cpu->_registers.s, 0x0, "The Stack pointer should be equal to 0x0 but it was %x", pair.second.cpu->_registers.s); } Test(PHY, basic) { auto pair = Init(); pair.second.cpu->_registers.y = 0xABCD; pair.second.cpu->_registers.s = 0x02; pair.second.cpu->PHY(); cr_assert_eq(pair.second.wram->_data[1], 0xCD, "The second value pushed to the stack should be 0xCD but it was %x", pair.second.wram->_data[1]); cr_assert_eq(pair.second.wram->_data[2], 0xAB, "The first value pushed to the stack should be 0xAB but it was %x", pair.second.wram->_data[2]); cr_assert_eq(pair.second.cpu->_registers.s, 0x0, "The Stack pointer should be equal to 0x0 but it was %x", pair.second.cpu->_registers.s); } Test(PLA, basic) { auto pair = Init(); pair.second.wram->_data[1] = 0xCD; pair.second.wram->_data[2] = 0x7B; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->PLA(); auto data = pair.second.cpu->_registers.a; cr_assert_eq(data, 0x7BCD, "The accumulator should be 0x7BCD but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.p.z, false, "The zero flag should not be set.", pair.second.cpu->_registers.p.z); cr_assert_eq(pair.second.cpu->_registers.p.n, false, "The negative flag should not be set.", pair.second.cpu->_registers.p.n); cr_assert_eq(pair.second.cpu->_registers.s, 0x2, "The Stack pointer should be equal to 0x2 but it was %x", pair.second.cpu->_registers.s); } Test(PLA, zero) { auto pair = Init(); pair.second.wram->_data[1] = 0x00; pair.second.wram->_data[2] = 0x00; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->PLA(); auto data = pair.second.cpu->_registers.a; cr_assert_eq(data, 0x0000, "The accumulator should be 0x0000 but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.p.z, true, "The zero flag should be set.", pair.second.cpu->_registers.p.z); cr_assert_eq(pair.second.cpu->_registers.p.n, false, "The negative flag should not be set.", pair.second.cpu->_registers.p.n); cr_assert_eq(pair.second.cpu->_registers.s, 0x2, "The Stack pointer should be equal to 0x2 but it was %x", pair.second.cpu->_registers.s); } Test(PLA, negative) { auto pair = Init(); pair.second.wram->_data[1] = 0x00; pair.second.wram->_data[2] = 0xA0; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->PLA(); auto data = pair.second.cpu->_registers.a; cr_assert_eq(data, 0xA000, "The accumulator should be 0xA000 but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.p.z, false, "The zero flag not should be set.", pair.second.cpu->_registers.p.z); cr_assert_eq(pair.second.cpu->_registers.p.n, true, "The negative flag should be set.", pair.second.cpu->_registers.p.n); cr_assert_eq(pair.second.cpu->_registers.s, 0x2, "The Stack pointer should be equal to 0x2 but it was %x", pair.second.cpu->_registers.s); } Test(PLX, basic) { auto pair = Init(); pair.second.wram->_data[1] = 0xCD; pair.second.wram->_data[2] = 0x7B; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->PLX(); auto data = pair.second.cpu->_registers.x; cr_assert_eq(data, 0x7BCD, "The X register should be 0x7BCD but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.p.z, false, "The zero flag should not be set.", pair.second.cpu->_registers.p.z); cr_assert_eq(pair.second.cpu->_registers.p.n, false, "The negative flag should not be set.", pair.second.cpu->_registers.p.n); cr_assert_eq(pair.second.cpu->_registers.s, 0x2, "The Stack pointer should be equal to 0x2 but it was %x", pair.second.cpu->_registers.s); } Test(PLX, zero) { auto pair = Init(); pair.second.wram->_data[1] = 0x00; pair.second.wram->_data[2] = 0x00; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->PLX(); auto data = pair.second.cpu->_registers.x; cr_assert_eq(data, 0x0000, "The x register should be 0x0000 but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.p.z, true, "The zero flag should be set.", pair.second.cpu->_registers.p.z); cr_assert_eq(pair.second.cpu->_registers.p.n, false, "The negative flag should not be set.", pair.second.cpu->_registers.p.n); cr_assert_eq(pair.second.cpu->_registers.s, 0x2, "The Stack pointer should be equal to 0x2 but it was %x", pair.second.cpu->_registers.s); } Test(PLX, negative) { auto pair = Init(); pair.second.wram->_data[1] = 0x00; pair.second.wram->_data[2] = 0xA0; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->PLX(); auto data = pair.second.cpu->_registers.x; cr_assert_eq(data, 0xA000, "The x register should be 0xA000 but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.p.z, false, "The zero flag not should be set.", pair.second.cpu->_registers.p.z); cr_assert_eq(pair.second.cpu->_registers.p.n, true, "The negative flag should be set.", pair.second.cpu->_registers.p.n); cr_assert_eq(pair.second.cpu->_registers.s, 0x2, "The Stack pointer should be equal to 0x2 but it was %x", pair.second.cpu->_registers.s); } Test(PLY, basic) { auto pair = Init(); pair.second.wram->_data[1] = 0xCD; pair.second.wram->_data[2] = 0x7B; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->PLY(); auto data = pair.second.cpu->_registers.y; cr_assert_eq(data, 0x7BCD, "The Y register should be 0x7BCD but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.p.z, false, "The zero flag should not be set.", pair.second.cpu->_registers.p.z); cr_assert_eq(pair.second.cpu->_registers.p.n, false, "The negative flag should not be set.", pair.second.cpu->_registers.p.n); cr_assert_eq(pair.second.cpu->_registers.s, 0x2, "The Stack pointer should be equal to 0x2 but it was %x", pair.second.cpu->_registers.s); } Test(PLY, zero) { auto pair = Init(); pair.second.wram->_data[1] = 0x00; pair.second.wram->_data[2] = 0x00; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->PLY(); auto data = pair.second.cpu->_registers.y; cr_assert_eq(data, 0x0000, "The y register should be 0x0000 but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.p.z, true, "The zero flag should be set.", pair.second.cpu->_registers.p.z); cr_assert_eq(pair.second.cpu->_registers.p.n, false, "The negative flag should not be set.", pair.second.cpu->_registers.p.n); cr_assert_eq(pair.second.cpu->_registers.s, 0x2, "The Stack pointer should be equal to 0x2 but it was %x", pair.second.cpu->_registers.s); } Test(PLY, negative) { auto pair = Init(); pair.second.wram->_data[1] = 0x00; pair.second.wram->_data[2] = 0xA0; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->PLY(); auto data = pair.second.cpu->_registers.y; cr_assert_eq(data, 0xA000, "The y register should be 0xA000 but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.p.z, false, "The zero flag not should be set.", pair.second.cpu->_registers.p.z); cr_assert_eq(pair.second.cpu->_registers.p.n, true, "The negative flag should be set.", pair.second.cpu->_registers.p.n); cr_assert_eq(pair.second.cpu->_registers.s, 0x2, "The Stack pointer should be equal to 0x2 but it was %x", pair.second.cpu->_registers.s); } Test(PLD, basic) { auto pair = Init(); pair.second.wram->_data[1] = 0xCD; pair.second.wram->_data[2] = 0x7B; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->PLD(); auto data = pair.second.cpu->_registers.d; cr_assert_eq(data, 0x7BCD, "The D register should be 0x7BCD but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.p.z, false, "The zero flag should not be set.", pair.second.cpu->_registers.p.z); cr_assert_eq(pair.second.cpu->_registers.p.n, false, "The negative flag should not be set.", pair.second.cpu->_registers.p.n); cr_assert_eq(pair.second.cpu->_registers.s, 0x2, "The Stack pointer should be equal to 0x2 but it was %x", pair.second.cpu->_registers.s); } Test(PLD, zero) { auto pair = Init(); pair.second.wram->_data[1] = 0x00; pair.second.wram->_data[2] = 0x00; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->PLD(); auto data = pair.second.cpu->_registers.d; cr_assert_eq(data, 0x0000, "The d register should be 0x0000 but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.p.z, true, "The zero flag should be set.", pair.second.cpu->_registers.p.z); cr_assert_eq(pair.second.cpu->_registers.p.n, false, "The negative flag should not be set.", pair.second.cpu->_registers.p.n); cr_assert_eq(pair.second.cpu->_registers.s, 0x2, "The Stack pointer should be equal to 0x2 but it was %x", pair.second.cpu->_registers.s); } Test(PLD, negative) { auto pair = Init(); pair.second.wram->_data[1] = 0x00; pair.second.wram->_data[2] = 0xA0; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->PLD(); auto data = pair.second.cpu->_registers.d; cr_assert_eq(data, 0xA000, "The D register should be 0xA000 but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.p.z, false, "The zero flag not should be set.", pair.second.cpu->_registers.p.z); cr_assert_eq(pair.second.cpu->_registers.p.n, true, "The negative flag should be set.", pair.second.cpu->_registers.p.n); cr_assert_eq(pair.second.cpu->_registers.s, 0x2, "The Stack pointer should be equal to 0x2 but it was %x", pair.second.cpu->_registers.s); } Test(PLB, basic) { auto pair = Init(); pair.second.wram->_data[1] = 0x7D; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->PLB(); auto data = pair.second.cpu->_registers.dbr; cr_assert_eq(data, 0x7D, "The DBR should be 0x7D but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.p.z, false, "The zero flag should not be set.", pair.second.cpu->_registers.p.z); cr_assert_eq(pair.second.cpu->_registers.p.n, false, "The negative flag should not be set.", pair.second.cpu->_registers.p.n); cr_assert_eq(pair.second.cpu->_registers.s, 0x1, "The Stack pointer should be equal to 0x1 but it was %x", pair.second.cpu->_registers.s); } Test(PLB, zero) { auto pair = Init(); pair.second.wram->_data[1] = 0x00; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->PLB(); auto data = pair.second.cpu->_registers.dbr; cr_assert_eq(data, 0x00, "The dbr should be 0x00 but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.p.z, true, "The zero flag should be set.", pair.second.cpu->_registers.p.z); cr_assert_eq(pair.second.cpu->_registers.p.n, false, "The negative flag should not be set.", pair.second.cpu->_registers.p.n); cr_assert_eq(pair.second.cpu->_registers.s, 0x1, "The Stack pointer should be equal to 0x1 but it was %x", pair.second.cpu->_registers.s); } Test(PLB, negative) { auto pair = Init(); pair.second.wram->_data[1] = 0xA0; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->PLB(); auto data = pair.second.cpu->_registers.dbr; cr_assert_eq(data, 0xA0, "The D register should be 0xA0 but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.p.z, false, "The zero flag not should be set.", pair.second.cpu->_registers.p.z); cr_assert_eq(pair.second.cpu->_registers.p.n, true, "The negative flag should be set.", pair.second.cpu->_registers.p.n); cr_assert_eq(pair.second.cpu->_registers.s, 0x1, "The Stack pointer should be equal to 0x1 but it was %x", pair.second.cpu->_registers.s); } Test(PLP, basic) { auto pair = Init(); pair.second.wram->_data[1] = 0x7D; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->_isEmulationMode = false; pair.second.cpu->PLP(); auto data = pair.second.cpu->_registers.p.flags; cr_assert_eq(data, 0x7D, "The flags should be 0x7D but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.s, 0x1, "The Stack pointer should be equal to 0x1 but it was %x", pair.second.cpu->_registers.s); } Test(PLP, emulation) { auto pair = Init(); pair.second.wram->_data[1] = 0x00; pair.second.cpu->_registers.s = 0x00; pair.second.cpu->_isEmulationMode = true; pair.second.cpu->PLP(); auto data = pair.second.cpu->_registers.p.flags; cr_assert_eq(data, 0b00110000, "The flags should be 0b00110000 but it was %x", data); cr_assert_eq(pair.second.cpu->_registers.s, 0x1, "The Stack pointer should be equal to 0x1 but it was %x", pair.second.cpu->_registers.s); } Test(CLC, clear) { auto pair = Init(); pair.second.cpu->_registers.p.flags = 0xFF; pair.second.cpu->CLC(); cr_assert_eq(pair.second.cpu->_registers.p.c, false, "The carry flag should not be set"); } Test(CLI, clear) { auto pair = Init(); pair.second.cpu->_registers.p.flags = 0xFF; pair.second.cpu->CLI(); cr_assert_eq(pair.second.cpu->_registers.p.i, false, "The interrupt flag should not be set"); } Test(CLD, clear) { auto pair = Init(); pair.second.cpu->_registers.p.flags = 0xFF; pair.second.cpu->CLD(); cr_assert_eq(pair.second.cpu->_registers.p.d, false, "The decimal flag should not be set"); } Test(CLV, clear) { auto pair = Init(); pair.second.cpu->_registers.p.flags = 0xFF; pair.second.cpu->CLV(); cr_assert_eq(pair.second.cpu->_registers.p.v, false, "The overflow flag should not be set"); } Test(SEC, set) { auto pair = Init(); pair.second.cpu->_registers.p.flags = 0x00; pair.second.cpu->SEC(); cr_assert_eq(pair.second.cpu->_registers.p.c, true, "The carry flag should be set"); } Test(SEI, set) { auto pair = Init(); pair.second.cpu->_registers.p.flags = 0x00; pair.second.cpu->SEI(); cr_assert_eq(pair.second.cpu->_registers.p.i, true, "The interrupt disabled flag should be set"); } Test(SED, set) { auto pair = Init(); pair.second.cpu->_registers.p.flags = 0x00; pair.second.cpu->SED(); cr_assert_eq(pair.second.cpu->_registers.p.d, true, "The decimal flag should be set"); } Test(XCE, enableEmulation) { auto pair = Init(); pair.second.cpu->_isEmulationMode = false; pair.second.cpu->_registers.p.flags = 0; pair.second.cpu->_registers.p.c = true; pair.second.cpu->_registers.xh = 0xFF; pair.second.cpu->_registers.yh = 0xFF; pair.second.cpu->XCE(); cr_assert_eq(pair.second.cpu->_isEmulationMode, true, "The e flag should be set"); cr_assert_eq(pair.second.cpu->_registers.p.c, false, "The carry flag should not be set"); cr_assert_eq(pair.second.cpu->_registers.p.m, false, "The memory width flag should be untouched (unset)"); cr_assert_eq(pair.second.cpu->_registers.p.x_b, false, "The index width flag should be untouched (unset)"); cr_assert_eq(pair.second.cpu->_registers.xh, 0xFF, "The high byte of the x index flag should be untouched (0xFF)"); cr_assert_eq(pair.second.cpu->_registers.yh, 0xFF, "The high byte of the y index flag should be untouched (0xFF)"); } Test(XCE, enableNative) { auto pair = Init(); pair.second.cpu->_isEmulationMode = true; pair.second.cpu->_registers.p.flags = 0; pair.second.cpu->_registers.xh = 0xFF; pair.second.cpu->_registers.yh = 0xFF; pair.second.cpu->XCE(); cr_assert_eq(pair.second.cpu->_isEmulationMode, false, "The e flag should be not set"); cr_assert_eq(pair.second.cpu->_registers.p.c, true, "The carry flag should be set"); cr_assert_eq(pair.second.cpu->_registers.p.m, true, "The memory width flag should be set"); cr_assert_eq(pair.second.cpu->_registers.p.x_b, true, "The index width flag should be set"); cr_assert_eq(pair.second.cpu->_registers.xh, 0, "The high byte of the x index flag should be set to 0"); cr_assert_eq(pair.second.cpu->_registers.yh, 0, "The high byte of the y index flag should be set to 0"); } Test(INX, basic) { auto pair = Init(); pair.second.cpu->_isEmulationMode = true; pair.second.cpu->_registers.p.flags = 0; pair.second.cpu->_registers.p.x_b = false; pair.second.cpu->_registers.x = 0xFF; pair.second.cpu->INX(); cr_assert_eq(pair.second.cpu->_registers.x, 0x0100, "The x register should be equal to 0x0100 but it was 0x%x.", pair.second.cpu->_registers.x); cr_assert_eq(pair.second.cpu->_registers.p.z, false, "The zero flag should not be set"); cr_assert_eq(pair.second.cpu->_registers.p.n, false, "The negative flag should not be set"); } Test(INX, 8bits) { auto pair = Init(); pair.second.cpu->_isEmulationMode = true; pair.second.cpu->_registers.p.flags = 0; pair.second.cpu->_registers.p.x_b = true; pair.second.cpu->_registers.x = 0xFF; pair.second.cpu->INX(); cr_assert_eq(pair.second.cpu->_registers.x, 0x00, "The x register should be equal to 0x00 but it was 0x%x.", pair.second.cpu->_registers.x); cr_assert_eq(pair.second.cpu->_registers.p.z, true, "The zero flag should be set"); cr_assert_eq(pair.second.cpu->_registers.p.n, false, "The negative flag should not be set"); } Test(INY, basic) { auto pair = Init(); pair.second.cpu->_isEmulationMode = true; pair.second.cpu->_registers.p.flags = 0; pair.second.cpu->_registers.p.x_b = false; pair.second.cpu->_registers.y = 0xFF; pair.second.cpu->INY(); cr_assert_eq(pair.second.cpu->_registers.y, 0x0100, "The y register should be equal to 0x0100 but it was 0x%x.", pair.second.cpu->_registers.y); cr_assert_eq(pair.second.cpu->_registers.p.z, false, "The zero flag should not be set"); cr_assert_eq(pair.second.cpu->_registers.p.n, false, "The negative flag should not be set"); } Test(INY, 8bits) { auto pair = Init(); pair.second.cpu->_isEmulationMode = true; pair.second.cpu->_registers.p.flags = 0; pair.second.cpu->_registers.p.x_b = true; pair.second.cpu->_registers.y = 0xFF; pair.second.cpu->INY(); cr_assert_eq(pair.second.cpu->_registers.y, 0x00, "The y register should be equal to 0x00 but it was 0x%x.", pair.second.cpu->_registers.y); cr_assert_eq(pair.second.cpu->_registers.p.z, true, "The zero flag should be set"); cr_assert_eq(pair.second.cpu->_registers.p.n, false, "The negative flag should not be set"); } Test(CPX, basic) { auto pair = Init(); pair.second.cpu->_registers.p.x_b = true; pair.second.cpu->_registers.p.flags = 0; pair.second.cpu->_registers.x = 0xFF; pair.second.wram->_data[0] = 0xFF; pair.second.cpu->CPX(0x0); cr_assert_eq(pair.second.cpu->_registers.p.z, true, "The zero flag should be set"); cr_assert_eq(pair.second.cpu->_registers.p.n, false, "The negative flag should not be set"); cr_assert_eq(pair.second.cpu->_registers.p.c, true, "The carry flag should be set"); } Test(CPX, negative) { auto pair = Init(); pair.second.cpu->_registers.p.x_b = true; pair.second.cpu->_registers.p.flags = 0; pair.second.cpu->_registers.x = 0x80; pair.second.wram->_data[0] = 0xFF; pair.second.cpu->CPX(0x0); cr_assert_eq(pair.second.cpu->_registers.p.z, false, "The zero flag should not be set"); cr_assert_eq(pair.second.cpu->_registers.p.n, true, "The negative flag should be set"); cr_assert_eq(pair.second.cpu->_registers.p.c, false, "The carry flag should not be set"); } Test(CPX, 16bits) { auto pair = Init(); pair.second.cpu->_registers.p.flags = 0; pair.second.cpu->_registers.p.x_b = false; pair.second.cpu->_registers.x = 0x8888; pair.second.wram->_data[0] = 0x88; pair.second.wram->_data[1] = 0x98; pair.second.cpu->CPX(0x0); cr_assert_eq(pair.second.cpu->_registers.p.z, false, "The zero flag should not be set"); cr_assert_eq(pair.second.cpu->_registers.p.n, true, "The negative flag should be set"); cr_assert_eq(pair.second.cpu->_registers.p.c, false, "The carry flag should not be set"); } Test(CPY, basic) { auto pair = Init(); pair.second.cpu->_registers.p.x_b = true; pair.second.cpu->_registers.p.flags = 0; pair.second.cpu->_registers.y = 0xFF; pair.second.wram->_data[0] = 0xFF; pair.second.cpu->CPY(0x0); cr_assert_eq(pair.second.cpu->_registers.p.z, true, "The zero flag should be set"); cr_assert_eq(pair.second.cpu->_registers.p.n, false, "The negative flag should not be set"); cr_assert_eq(pair.second.cpu->_registers.p.c, true, "The carry flag should be set"); } Test(CPY, negative) { auto pair = Init(); pair.second.cpu->_registers.p.x_b = true; pair.second.cpu->_registers.p.flags = 0; pair.second.cpu->_registers.y = 0x80; pair.second.wram->_data[0] = 0xFF; pair.second.cpu->CPY(0x0); cr_assert_eq(pair.second.cpu->_registers.p.z, false, "The zero flag should not be set"); cr_assert_eq(pair.second.cpu->_registers.p.n, true, "The negative flag should be set"); cr_assert_eq(pair.second.cpu->_registers.p.c, false, "The carry flag should not be set"); }