perfaware/part1: Add support for SEGMENT override
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@ -226,6 +226,7 @@ typedef enum S86_InstructionType {
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S86_InstructionType_WAIT,
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S86_InstructionType_WAIT,
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S86_InstructionType_LOCK,
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S86_InstructionType_LOCK,
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S86_InstructionType_SEGMENT,
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S86_InstructionType_Count,
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S86_InstructionType_Count,
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} S86_InstructionType;
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} S86_InstructionType;
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@ -248,9 +249,10 @@ typedef struct S86_Instruction {
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typedef struct S86_EffectiveAddressStr8 {
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typedef struct S86_EffectiveAddressStr8 {
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char data[32];
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char data[32];
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size_t size;
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size_t size;
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bool has_displacement;
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} S86_EffectiveAddressStr8;
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} S86_EffectiveAddressStr8;
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S86_EffectiveAddressStr8 S86_EffectiveAddressCalc(S86_BufferIterator *buffer_it, uint8_t rm, uint8_t mod, uint8_t w);
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S86_EffectiveAddressStr8 S86_EffectiveAddressCalc(S86_BufferIterator *buffer_it, uint8_t rm, uint8_t mod, uint8_t w, S86_Str8 seg_reg);
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// NOTE: Implementation
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// NOTE: Implementation
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// ============================================================================
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// ============================================================================
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@ -429,7 +431,7 @@ void S86_PrintLnFmt(char const *fmt, ...)
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}
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}
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S86_Str8 REGISTER_FIELD_ENCODING[2][8];
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S86_Str8 REGISTER_FIELD_ENCODING[2][8];
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S86_EffectiveAddressStr8 S86_EffectiveAddressCalc(S86_BufferIterator *buffer_it, uint8_t rm, uint8_t mod, uint8_t w)
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S86_EffectiveAddressStr8 S86_EffectiveAddressCalc(S86_BufferIterator *buffer_it, uint8_t rm, uint8_t mod, uint8_t w, S86_Str8 seg_reg)
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{
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{
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// NOTE: Calculate displacement
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// NOTE: Calculate displacement
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// =========================================================================
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// =========================================================================
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@ -448,11 +450,18 @@ S86_EffectiveAddressStr8 S86_EffectiveAddressCalc(S86_BufferIterator *buffer_it,
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S86_EffectiveAddressStr8 result = {0};
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S86_EffectiveAddressStr8 result = {0};
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if (mod == 0b11) {
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if (mod == 0b11) {
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S86_Str8 register_field = REGISTER_FIELD_ENCODING[w][rm];
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S86_Str8 register_field = REGISTER_FIELD_ENCODING[w][rm];
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memcpy(result.data, register_field.data, register_field.size);
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memcpy(result.data + result.size, register_field.data, register_field.size);
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result.size = register_field.size;
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result.size += register_field.size;
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} else {
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} else {
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// NOTE: Effective address calculation w/ displacement
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// NOTE: Effective address calculation w/ displacement
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// =========================================================================
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// =========================================================================
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if (seg_reg.size) {
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memcpy(result.data + result.size, seg_reg.data, seg_reg.size);
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result.size += seg_reg.size;
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result.data[result.size++] = ':';
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}
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result.has_displacement = true;
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result.data[result.size++] = '[';
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result.data[result.size++] = '[';
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if (direct_address) {
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if (direct_address) {
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result.size += snprintf(result.data + result.size,
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result.size += snprintf(result.data + result.size,
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@ -812,6 +821,9 @@ int main(int argc, char **argv)
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[S86_InstructionType_LOCK] = {.op_mask0 = 0b1111'1111, .op_mask1 = 0b0000'0000,
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[S86_InstructionType_LOCK] = {.op_mask0 = 0b1111'1111, .op_mask1 = 0b0000'0000,
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.op_bits0 = 0b1111'0000, .op_bits1 = 0b0000'0000, .mnemonic = S86_STR8("lock")},
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.op_bits0 = 0b1111'0000, .op_bits1 = 0b0000'0000, .mnemonic = S86_STR8("lock")},
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[S86_InstructionType_SEGMENT] = {.op_mask0 = 0b1110'0111, .op_mask1 = 0b0000'0000,
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.op_bits0 = 0b0010'0110, .op_bits1 = 0b0000'0000, .mnemonic = S86_STR8("")},
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};
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};
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S86_Str8 SEGMENT_REGISTER_NAME[] = {
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S86_Str8 SEGMENT_REGISTER_NAME[] = {
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@ -824,7 +836,10 @@ int main(int argc, char **argv)
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// NOTE: Decode assembly
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// NOTE: Decode assembly
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// =========================================================================
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// =========================================================================
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S86_PrintLn(S86_STR8("bits 16"));
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S86_PrintLn(S86_STR8("bits 16"));
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S86_BufferIterator buffer_it = S86_BufferIteratorInit(buffer);
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S86_BufferIterator buffer_it = S86_BufferIteratorInit(buffer);
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S86_Str8 seg_reg = {0};
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while (S86_BufferIteratorHasMoreBytes(buffer_it)) {
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while (S86_BufferIteratorHasMoreBytes(buffer_it)) {
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char op_code_bytes[2] = {0};
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char op_code_bytes[2] = {0};
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@ -915,8 +930,8 @@ int main(int argc, char **argv)
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w = op_code_bytes[0] & 0b0000'0001;
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w = op_code_bytes[0] & 0b0000'0001;
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}
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}
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S86_EffectiveAddressStr8 effective_address = S86_EffectiveAddressCalc(&buffer_it, rm, mod, w);
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S86_EffectiveAddressStr8 effective_address = S86_EffectiveAddressCalc(&buffer_it, rm, mod, w, seg_reg);
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if (effective_address.data[0] == '[')
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if (effective_address.has_displacement)
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S86_PrintFmt(" %s", w ? "word" : "byte");
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S86_PrintFmt(" %s", w ? "word" : "byte");
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S86_PrintFmt(" %.*s", S86_STR8_FMT(effective_address));
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S86_PrintFmt(" %.*s", S86_STR8_FMT(effective_address));
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@ -959,6 +974,8 @@ int main(int argc, char **argv)
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S86_PrintLnFmt(" %.*s", S86_STR8_FMT(reg_name));
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S86_PrintLnFmt(" %.*s", S86_STR8_FMT(reg_name));
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} break;
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} break;
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// NOTE: Instruction Pattern => [0b000'000DW | 0bAABB'BCCC | DISP-LO | DISP-HI | DATA-LO | DATA-HI]
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// Where, D: optional, W: optional, AA: mod, BBB: reg, CCC: r/m
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case S86_InstructionType_ADDRegOrMemToOrFromReg: /*FALLTHRU*/
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case S86_InstructionType_ADDRegOrMemToOrFromReg: /*FALLTHRU*/
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case S86_InstructionType_ADCRegOrMemWithRegToEither: /*FALLTHRU*/
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case S86_InstructionType_ADCRegOrMemWithRegToEither: /*FALLTHRU*/
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case S86_InstructionType_SUBRegOrMemToOrFromReg: /*FALLTHRU*/
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case S86_InstructionType_SUBRegOrMemToOrFromReg: /*FALLTHRU*/
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@ -1009,7 +1026,7 @@ int main(int argc, char **argv)
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} else {
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} else {
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// NOTE: Memory mode w/ effective address calculation
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// NOTE: Memory mode w/ effective address calculation
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// =========================================================
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// =========================================================
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S86_EffectiveAddressStr8 effective_address = S86_EffectiveAddressCalc(&buffer_it, rm, mod, w);
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S86_EffectiveAddressStr8 effective_address = S86_EffectiveAddressCalc(&buffer_it, rm, mod, w, seg_reg);
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S86_Str8 addr = { .data = effective_address.data, .size = effective_address.size };
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S86_Str8 addr = { .data = effective_address.data, .size = effective_address.size };
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S86_Str8 dest_op = d ? REGISTER_FIELD_ENCODING[w][reg] : addr;
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S86_Str8 dest_op = d ? REGISTER_FIELD_ENCODING[w][reg] : addr;
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S86_Str8 src_op = d ? addr : REGISTER_FIELD_ENCODING[w][reg];
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S86_Str8 src_op = d ? addr : REGISTER_FIELD_ENCODING[w][reg];
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@ -1036,7 +1053,7 @@ int main(int argc, char **argv)
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S86_ASSERT(mod < 4);
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S86_ASSERT(mod < 4);
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S86_ASSERT(rm < 8);
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S86_ASSERT(rm < 8);
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S86_EffectiveAddressStr8 effective_address = S86_EffectiveAddressCalc(&buffer_it, rm, mod, w);
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S86_EffectiveAddressStr8 effective_address = S86_EffectiveAddressCalc(&buffer_it, rm, mod, w, seg_reg);
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// NOTE: Parse data payload
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// NOTE: Parse data payload
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// =============================================================
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// =============================================================
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@ -1068,7 +1085,7 @@ int main(int argc, char **argv)
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if (instruction_type == S86_InstructionType_MOVImmediateToRegOrMem) {
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if (instruction_type == S86_InstructionType_MOVImmediateToRegOrMem) {
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S86_PrintLnFmt(" %.*s, %s %u", effective_address.size, effective_address.data, w ? "word" : "byte", data);
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S86_PrintLnFmt(" %.*s, %s %u", effective_address.size, effective_address.data, w ? "word" : "byte", data);
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} else {
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} else {
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if (effective_address.data[0] == '[')
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if (effective_address.has_displacement)
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S86_PrintFmt(" %s", w ? "word" : "byte", S86_STR8_FMT(effective_address));
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S86_PrintFmt(" %s", w ? "word" : "byte", S86_STR8_FMT(effective_address));
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S86_PrintFmt(" %.*s, ", S86_STR8_FMT(effective_address));
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S86_PrintFmt(" %.*s, ", S86_STR8_FMT(effective_address));
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@ -1258,8 +1275,13 @@ int main(int argc, char **argv)
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S86_Print(S86_STR8("\n"));
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S86_Print(S86_STR8("\n"));
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} else if (instruction_type == S86_InstructionType_LOCK) {
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} else if (instruction_type == S86_InstructionType_LOCK) {
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// NOTE: Mnemonic prefix, no new line as the next instruction
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// NOTE: Mnemonic prefix, no new line as the next instruction
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// will be prefixed with this instruciton
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// will be prefixed with this instruction
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S86_Print(S86_STR8(" "));
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S86_Print(S86_STR8(" "));
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} else if (instruction_type == S86_InstructionType_SEGMENT) {
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// NOTE: Mnemonic does not generate any assembly
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S86_ASSERT(op_code_size == 1);
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uint8_t sr = (op_code_bytes[0] & 0b0001'1000) >> 3;
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seg_reg = SEGMENT_REGISTER_NAME[sr];
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} else {
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} else {
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S86_Print(S86_STR8("\n"));
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S86_Print(S86_STR8("\n"));
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S86_ASSERT(!"Unhandled instruction");
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S86_ASSERT(!"Unhandled instruction");
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BIN
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BIN
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