perfaware/part1: Add support for ADC

This commit is contained in:
doyle 2023-03-19 14:18:10 +11:00
parent 310a7f8201
commit be70547166

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@ -108,6 +108,10 @@ typedef enum S86_InstructionType {
S86_InstructionType_ADDImmediateToRegOrMem,
S86_InstructionType_ADDImmediateToAccum,
S86_InstructionType_ADCRegOrMemWithRegToEither,
S86_InstructionType_ADCImmediateToRegOrMem,
S86_InstructionType_ADCImmediateToAccum,
S86_InstructionType_SUBRegOrMemToOrFromReg,
S86_InstructionType_SUBImmediateFromRegOrMem,
S86_InstructionType_SUBImmediateFromAccum,
@ -506,6 +510,14 @@ int main(int argc, char **argv)
.op_bits0 = 0b1000'0000, .op_bits1 = 0b0000'0000, .mnemonic = S86_STR8("add")},
[S86_InstructionType_ADDImmediateToAccum] = {.op_mask0 = 0b1111'1110, .op_mask1 = 0b0000'0000,
.op_bits0 = 0b0000'0100, .op_bits1 = 0b0000'0000, .mnemonic = S86_STR8("add")},
[S86_InstructionType_ADCRegOrMemWithRegToEither] = {.op_mask0 = 0b1111'1100, .op_mask1 = 0b0000'0000,
.op_bits0 = 0b0001'0000, .op_bits1 = 0b0000'0000, .mnemonic = S86_STR8("adc")},
[S86_InstructionType_ADCImmediateToRegOrMem] = {.op_mask0 = 0b1111'1100, .op_mask1 = 0b0011'1000,
.op_bits0 = 0b1000'0000, .op_bits1 = 0b0001'0000, .mnemonic = S86_STR8("adc")},
[S86_InstructionType_ADCImmediateToAccum] = {.op_mask0 = 0b1111'1110, .op_mask1 = 0b0000'0000,
.op_bits0 = 0b0001'0100, .op_bits1 = 0b0000'0000, .mnemonic = S86_STR8("adc")},
[S86_InstructionType_SUBRegOrMemToOrFromReg] = {.op_mask0 = 0b1111'1100, .op_mask1 = 0b0000'0000,
.op_bits0 = 0b0010'1000, .op_bits1 = 0b0000'0000, .mnemonic = S86_STR8("sub")},
[S86_InstructionType_SUBImmediateFromRegOrMem] = {.op_mask0 = 0b1111'1100, .op_mask1 = 0b0011'1000,
@ -650,13 +662,14 @@ int main(int argc, char **argv)
S86_PrintLnFmt(" %.*s", S86_STR8_FMT(reg_name));
} break;
case S86_InstructionType_LEA: /*FALLTHRU*/
case S86_InstructionType_LDS: /*FALLTHRU*/
case S86_InstructionType_LES: /*FALLTHRU*/
case S86_InstructionType_XCHGRegOrMemWithReg: /*FALLTHRU*/
case S86_InstructionType_CMPRegOrMemAndReg: /*FALLTHRU*/
case S86_InstructionType_SUBRegOrMemToOrFromReg: /*FALLTHRU*/
case S86_InstructionType_ADDRegOrMemToOrFromReg: /*FALLTHRU*/
case S86_InstructionType_ADCRegOrMemWithRegToEither: /*FALLTHRU*/
case S86_InstructionType_LEA: /*FALLTHRU*/
case S86_InstructionType_LDS: /*FALLTHRU*/
case S86_InstructionType_LES: /*FALLTHRU*/
case S86_InstructionType_XCHGRegOrMemWithReg: /*FALLTHRU*/
case S86_InstructionType_CMPRegOrMemAndReg: /*FALLTHRU*/
case S86_InstructionType_SUBRegOrMemToOrFromReg: /*FALLTHRU*/
case S86_InstructionType_ADDRegOrMemToOrFromReg: /*FALLTHRU*/
case S86_InstructionType_MOVRegOrMemToOrFromReg: {
// NOTE: Instruction does not have opcode bits in the 2nd byte
S86_ASSERT(op_code_size == 1);
@ -702,9 +715,10 @@ int main(int argc, char **argv)
}
} break;
case S86_InstructionType_ADDImmediateToRegOrMem: /*FALLTHRU*/
case S86_InstructionType_ADCImmediateToRegOrMem: /*FALLTHRU*/
case S86_InstructionType_CMPImmediateWithRegOrMem: /*FALLTHRU*/
case S86_InstructionType_SUBImmediateFromRegOrMem: /*FALLTHRU*/
case S86_InstructionType_ADDImmediateToRegOrMem: /*FALLTHRU*/
case S86_InstructionType_MOVImmediateToRegOrMem: {
S86_ASSERT(op_code_size == 2);
uint8_t w = (op_code_bytes[0] & 0b0000'0001) >> 0;
@ -723,6 +737,7 @@ int main(int argc, char **argv)
bool sign_extend_8bit_data = false;
if (w) { // 16 bit data
if ((instruction_type == S86_InstructionType_ADDImmediateToRegOrMem ||
instruction_type == S86_InstructionType_ADCImmediateToRegOrMem ||
instruction_type == S86_InstructionType_SUBImmediateFromRegOrMem ||
instruction_type == S86_InstructionType_CMPImmediateWithRegOrMem) && s) {
sign_extend_8bit_data = true;
@ -741,31 +756,28 @@ int main(int argc, char **argv)
if (instruction_type == S86_InstructionType_MOVImmediateToRegOrMem) {
S86_PrintLnFmt(" %.*s, %s %u", effective_address.size, effective_address.data, w ? "word" : "byte", data);
} else {
if (effective_address.data[0] == '[') {
if (sign_extend_8bit_data) {
S86_PrintLnFmt(" %s %.*s, %d", w ? "word" : "byte", effective_address.size, effective_address.data, (int16_t)data);
} else {
S86_PrintLnFmt(" %s %.*s, %u", w ? "word" : "byte", effective_address.size, effective_address.data, data);
}
} else {
if (sign_extend_8bit_data) {
S86_PrintLnFmt(" %.*s, %d", effective_address.size, effective_address.data, (int16_t)data);
} else {
S86_PrintLnFmt(" %.*s, %u", effective_address.size, effective_address.data, data);
}
}
if (effective_address.data[0] == '[')
S86_PrintFmt(" %s", w ? "word" : "byte", S86_STR8_FMT(effective_address));
S86_PrintFmt(" %.*s, ", S86_STR8_FMT(effective_address));
if (sign_extend_8bit_data)
S86_PrintLnFmt("%d", (int16_t)data);
else
S86_PrintLnFmt("%u", data);
}
} break;
case S86_InstructionType_CMPImmediateWithAccum: /*FALLTHRU*/
case S86_InstructionType_SUBImmediateFromAccum: /*FALLTHRU*/
case S86_InstructionType_ADDImmediateToAccum: /*FALLTHRU*/
case S86_InstructionType_ADCImmediateToAccum: /*FALLTHRU*/
case S86_InstructionType_MOVImmediateToReg: {
// NOTE: Parse opcode control bits
// =============================================================
S86_ASSERT(op_code_size == 1);
uint8_t w = 0;
if (instruction_type == S86_InstructionType_ADDImmediateToAccum ||
instruction_type == S86_InstructionType_ADCImmediateToAccum ||
instruction_type == S86_InstructionType_SUBImmediateFromAccum ||
instruction_type == S86_InstructionType_CMPImmediateWithAccum) {
w = (op_code_bytes[0] & 0b0000'0001) >> 0;
@ -789,6 +801,7 @@ int main(int argc, char **argv)
dest_register = REGISTER_FIELD_ENCODING[w][reg];
} else {
S86_ASSERT(instruction_type == S86_InstructionType_ADDImmediateToAccum ||
instruction_type == S86_InstructionType_ADCImmediateToAccum ||
instruction_type == S86_InstructionType_SUBImmediateFromAccum ||
instruction_type == S86_InstructionType_CMPImmediateWithAccum);
if (w) {