bsnes/higan/processor/lr35902/instructions.cpp

463 lines
10 KiB
C++
Raw Normal View History

auto LR35902::instructionADC_Direct_Data(uint8& target) -> void {
target = ADD(target, operand(), CF);
}
auto LR35902::instructionADC_Direct_Direct(uint8& target, uint8& source) -> void {
target = ADD(target, source, CF);
}
auto LR35902::instructionADC_Direct_Indirect(uint8& target, uint16& source) -> void {
target = ADD(target, read(source), CF);
}
auto LR35902::instructionADD_Direct_Data(uint8& target) -> void {
target = ADD(target, operand());
}
auto LR35902::instructionADD_Direct_Direct(uint8& target, uint8& source) -> void {
target = ADD(target, source);
}
auto LR35902::instructionADD_Direct_Direct(uint16& target, uint16& source) -> void {
idle();
uint32 x = target + source;
uint32 y = (uint12)target + (uint12)source;
target = x;
CF = x > 0xffff;
HF = y > 0x0fff;
NF = 0;
}
auto LR35902::instructionADD_Direct_Indirect(uint8& target, uint16& source) -> void {
target = ADD(target, read(source));
}
auto LR35902::instructionADD_Direct_Relative(uint16& target) -> void {
auto data = operand();
idle();
idle();
CF = (uint8)target + (uint8)data > 0xff;
HF = (uint4)target + (uint4)data > 0x0f;
NF = ZF = 0;
target += (int8)data;
}
auto LR35902::instructionAND_Direct_Data(uint8& target) -> void {
target = AND(target, operand());
}
auto LR35902::instructionAND_Direct_Direct(uint8& target, uint8& source) -> void {
target = AND(target, source);
}
auto LR35902::instructionAND_Direct_Indirect(uint8& target, uint16& source) -> void {
target = AND(target, read(source));
}
auto LR35902::instructionBIT_Index_Direct(uint3 index, uint8& data) -> void {
BIT(index, data);
}
auto LR35902::instructionBIT_Index_Indirect(uint3 index, uint16& address) -> void {
auto data = read(address);
BIT(index, data);
}
auto LR35902::instructionCALL_Condition_Address(bool take) -> void {
auto address = operands();
if(!take) return;
idle();
push(PC);
PC = address;
}
auto LR35902::instructionCCF() -> void {
CF = !CF;
HF = NF = 0;
}
auto LR35902::instructionCP_Direct_Data(uint8& target) -> void {
CP(target, operand());
}
auto LR35902::instructionCP_Direct_Direct(uint8& target, uint8& source) -> void {
CP(target, source);
}
auto LR35902::instructionCP_Direct_Indirect(uint8& target, uint16& source) -> void {
CP(target, read(source));
}
auto LR35902::instructionCPL() -> void {
A = ~A;
HF = NF = 1;
}
auto LR35902::instructionDAA() -> void {
uint16 a = A;
if(!NF) {
if(HF || (uint4)a > 0x09) a += 0x06;
if(CF || (uint8)a > 0x9f) a += 0x60;
} else {
if(HF) {
a -= 0x06;
if(!CF) a &= 0xff;
}
if(CF) a -= 0x60;
}
A = a;
CF |= a.bit(8);
HF = 0;
ZF = A == 0;
}
auto LR35902::instructionDEC_Direct(uint8& data) -> void {
data = DEC(data);
}
auto LR35902::instructionDEC_Direct(uint16& data) -> void {
idle();
data--;
}
auto LR35902::instructionDEC_Indirect(uint16& address) -> void {
auto data = read(address);
write(address, DEC(data));
}
auto LR35902::instructionDI() -> void {
r.ime = 0;
}
auto LR35902::instructionEI() -> void {
r.ei = 1;
}
auto LR35902::instructionHALT() -> void {
r.halt = 1;
while(r.halt) idle();
}
auto LR35902::instructionINC_Direct(uint8& data) -> void {
data = INC(data);
}
auto LR35902::instructionINC_Direct(uint16& data) -> void {
idle();
data++;
}
auto LR35902::instructionINC_Indirect(uint16& address) -> void {
auto data = read(address);
write(address, INC(data));
}
auto LR35902::instructionJP_Condition_Address(bool take) -> void {
auto address = operands();
if(!take) return;
idle();
PC = address;
}
auto LR35902::instructionJP_Direct(uint16& data) -> void {
PC = data;
}
auto LR35902::instructionJR_Condition_Relative(bool take) -> void {
auto data = operand();
if(!take) return;
idle();
PC += (int8)data;
}
auto LR35902::instructionLD_Address_Direct(uint8& data) -> void {
write(operands(), data);
}
auto LR35902::instructionLD_Address_Direct(uint16& data) -> void {
store(operands(), data);
}
auto LR35902::instructionLD_Direct_Address(uint8& data) -> void {
data = read(operands());
}
auto LR35902::instructionLD_Direct_Data(uint8& target) -> void {
target = operand();
}
auto LR35902::instructionLD_Direct_Data(uint16& target) -> void {
target = operands();
}
auto LR35902::instructionLD_Direct_Direct(uint8& target, uint8& source) -> void {
target = source;
}
auto LR35902::instructionLD_Direct_Direct(uint16& target, uint16& source) -> void {
idle();
target = source;
}
auto LR35902::instructionLD_Direct_DirectRelative(uint16& target, uint16& source) -> void {
auto data = operand();
idle();
CF = (uint8)source + (uint8)data > 0xff;
HF = (uint4)source + (uint4)data > 0x0f;
NF = ZF = 0;
target = source + (int8)data;
}
auto LR35902::instructionLD_Direct_Indirect(uint8& target, uint16& source) -> void {
target = read(source);
}
auto LR35902::instructionLD_Direct_IndirectDecrement(uint8& target, uint16& source) -> void {
target = read(source--);
}
auto LR35902::instructionLD_Direct_IndirectIncrement(uint8& target, uint16& source) -> void {
target = read(source++);
}
auto LR35902::instructionLD_Indirect_Data(uint16& target) -> void {
write(target, operand());
}
auto LR35902::instructionLD_Indirect_Direct(uint16& target, uint8& source) -> void {
write(target, source);
}
auto LR35902::instructionLD_IndirectDecrement_Direct(uint16& target, uint8& source) -> void {
write(target--, source);
}
auto LR35902::instructionLD_IndirectIncrement_Direct(uint16& target, uint8& source) -> void {
write(target++, source);
}
auto LR35902::instructionLDH_Address_Direct(uint8& data) -> void {
write(0xff00 | operand(), data);
}
auto LR35902::instructionLDH_Direct_Address(uint8& data) -> void {
data = read(0xff00 | operand());
}
auto LR35902::instructionLDH_Direct_Indirect(uint8& target, uint8& source) -> void {
target = read(0xff00 | source);
}
auto LR35902::instructionLDH_Indirect_Direct(uint8& target, uint8& source) -> void {
write(0xff00 | target, source);
}
auto LR35902::instructionNOP() -> void {
}
auto LR35902::instructionOR_Direct_Data(uint8& target) -> void {
target = OR(target, operand());
}
auto LR35902::instructionOR_Direct_Direct(uint8& target, uint8& source) -> void {
target = OR(target, source);
}
auto LR35902::instructionOR_Direct_Indirect(uint8& target, uint16& source) -> void {
target = OR(target, read(source));
}
auto LR35902::instructionPOP_Direct(uint16& data) -> void {
data = pop();
}
auto LR35902::instructionPUSH_Direct(uint16& data) -> void {
idle();
push(data);
}
auto LR35902::instructionRES_Index_Direct(uint3 index, uint8& data) -> void {
data.bit(index) = 0;
}
auto LR35902::instructionRES_Index_Indirect(uint3 index, uint16& address) -> void {
auto data = read(address);
data.bit(index) = 0;
write(address, data);
}
auto LR35902::instructionRET() -> void {
auto address = pop();
idle();
PC = address;
}
auto LR35902::instructionRET_Condition(bool take) -> void {
idle();
if(!take) return;
PC = pop();
idle();
}
auto LR35902::instructionRETI() -> void {
auto address = pop();
idle();
PC = address;
r.ime = 1;
}
auto LR35902::instructionRL_Direct(uint8& data) -> void {
data = RL(data);
}
auto LR35902::instructionRL_Indirect(uint16& address) -> void {
auto data = read(address);
write(address, RL(data));
}
auto LR35902::instructionRLA() -> void {
A = RL(A);
ZF = 0;
}
auto LR35902::instructionRLC_Direct(uint8& data) -> void {
data = RLC(data);
}
auto LR35902::instructionRLC_Indirect(uint16& address) -> void {
auto data = read(address);
write(address, RLC(data));
}
auto LR35902::instructionRLCA() -> void {
A = RLC(A);
ZF = 0;
}
auto LR35902::instructionRR_Direct(uint8& data) -> void {
data = RR(data);
}
auto LR35902::instructionRR_Indirect(uint16& address) -> void {
auto data = read(address);
write(address, RR(data));
}
auto LR35902::instructionRRA() -> void {
A = RR(A);
ZF = 0;
}
auto LR35902::instructionRRC_Direct(uint8& data) -> void {
data = RRC(data);
}
auto LR35902::instructionRRC_Indirect(uint16& address) -> void {
auto data = read(address);
write(address, RRC(data));
}
auto LR35902::instructionRRCA() -> void {
A = RRC(A);
ZF = 0;
}
auto LR35902::instructionRST_Implied(uint8 vector) -> void {
idle();
push(PC);
PC = vector;
}
auto LR35902::instructionSBC_Direct_Data(uint8& target) -> void {
target = SUB(target, operand(), CF);
}
auto LR35902::instructionSBC_Direct_Direct(uint8& target, uint8& source) -> void {
target = SUB(target, source, CF);
}
auto LR35902::instructionSBC_Direct_Indirect(uint8& target, uint16& source) -> void {
target = SUB(target, read(source), CF);
}
auto LR35902::instructionSCF() -> void {
CF = 1;
HF = NF = 0;
}
auto LR35902::instructionSET_Index_Direct(uint3 index, uint8& data) -> void {
data.bit(index) = 1;
}
auto LR35902::instructionSET_Index_Indirect(uint3 index, uint16& address) -> void {
auto data = read(address);
data.bit(index) = 1;
write(address, data);
}
auto LR35902::instructionSLA_Direct(uint8& data) -> void {
data = SLA(data);
}
auto LR35902::instructionSLA_Indirect(uint16& address) -> void {
auto data = read(address);
write(address, SLA(data));
}
auto LR35902::instructionSRA_Direct(uint8& data) -> void {
data = SRA(data);
}
auto LR35902::instructionSRA_Indirect(uint16& address) -> void {
auto data = read(address);
write(address, SRA(data));
}
auto LR35902::instructionSRL_Direct(uint8& data) -> void {
data = SRL(data);
}
auto LR35902::instructionSRL_Indirect(uint16& address) -> void {
auto data = read(address);
write(address, SRL(data));
}
auto LR35902::instructionSTOP() -> void {
if(stop()) return;
r.stop = 1;
while(r.stop) idle();
}
auto LR35902::instructionSUB_Direct_Data(uint8& target) -> void {
target = SUB(target, operand());
}
auto LR35902::instructionSUB_Direct_Direct(uint8& target, uint8& source) -> void {
target = SUB(target, source);
}
auto LR35902::instructionSUB_Direct_Indirect(uint8& target, uint16& source) -> void {
target = SUB(target, read(source));
}
auto LR35902::instructionSWAP_Direct(uint8& data) -> void {
data = SWAP(data);
}
auto LR35902::instructionSWAP_Indirect(uint16& address) -> void {
auto data = read(address);
write(address, SWAP(data));
}
auto LR35902::instructionXOR_Direct_Data(uint8& target) -> void {
target = XOR(target, operand());
}
auto LR35902::instructionXOR_Direct_Direct(uint8& target, uint8& source) -> void {
target = XOR(target, source);
}
auto LR35902::instructionXOR_Direct_Indirect(uint8& target, uint16& source) -> void {
target = XOR(target, read(source));
}