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Add new BIM instruction (BIt imMediate mode)

This is not a real instruction in the 65c02 processor; I invented it for
the sole purpose of handling the specialized logic that is performed by
BIT in IMM mode. To be fair--I can imagine this really _was_ implemented
as a "separate" instruction on the chip! But I don't know that for sure.
This commit is contained in:
Peter Evans 2018-02-21 21:01:46 -06:00
parent 5ba5f91442
commit 7b65dc1657
6 changed files with 38 additions and 1 deletions

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@ -73,6 +73,7 @@ enum instruction {
BCS, // Branch on Carry Set
BEQ, // Branch on EQual to zero
BIT, // BIT test
BIM, // BIt test (imMediate mode) (* not a real instruction in the processor; just used by us)
BMI, // Branch on MInus
BNE, // Branch on Not Equal to zero
BPL, // Branch on PLus

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@ -182,6 +182,7 @@ DECL_INST(bcc);
DECL_INST(bcs);
DECL_INST(beq);
DECL_INST(bit);
DECL_INST(bim);
DECL_INST(bmi);
DECL_INST(bne);
DECL_INST(bpl);

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@ -74,6 +74,22 @@ DEFINE_INST(bit)
}
}
/*
* The BIM instruction (which is made up--it's not a real instruction)
* is here to handle the specific use-case of a BIT instruction in
* immediate (IMM) mode. We do this in a separate instruction to avoid
* the need to add logic to the BIT instruction such that it has to know
* or care about its opcode or its address mode.
*/
DEFINE_INST(bim)
{
// This is the same behavior as BIT
cpu->P &= ~MOS_ZERO;
if (!(cpu->A & oper)) {
cpu->P |= MOS_ZERO;
}
}
/*
* Compute the bitwise-exclusive-or between the accumulator and operand,
* and store the result in A.

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@ -35,7 +35,7 @@ static int instructions[] = {
BVC, EOR, EOR, BAD, BAD, EOR, LSR, BAD, CLI, EOR, BAD, BAD, BAD, EOR, LSR, BAD, // 5x
RTS, ADC, BAD, BAD, BAD, ADC, ROR, BAD, PLA, ADC, ROR, BAD, JMP, ADC, ROR, BAD, // 6x
BVS, ADC, ADC, BAD, BAD, ADC, ROR, BAD, SEI, ADC, BAD, BAD, BAD, ADC, ROR, BAD, // 7x
BAD, STA, BAD, BAD, STY, STA, STX, BAD, DEY, BIT, TXA, BAD, STY, STA, STX, BAD, // 8x
BAD, STA, BAD, BAD, STY, STA, STX, BAD, DEY, BIM, TXA, BAD, STY, STA, STX, BAD, // 8x
BCC, STA, STA, BAD, STY, STA, STX, BAD, TYA, STA, TXS, BAD, BAD, STA, BAD, BAD, // 9x
LDY, LDA, LDX, BAD, LDY, LDA, LDX, BAD, TAY, LDA, TAX, BAD, LDY, LDA, LDX, BAD, // Ax
BCS, LDA, LDA, BAD, LDY, LDA, LDX, BAD, CLV, LDA, TSX, BAD, LDY, LDA, LDX, BAD, // Bx
@ -65,6 +65,7 @@ static mos6502_instruction_handler instruction_handlers[] = {
INST_HANDLER(bcs),
INST_HANDLER(beq),
INST_HANDLER(bit),
INST_HANDLER(bim),
INST_HANDLER(bmi),
INST_HANDLER(bne),
INST_HANDLER(bpl),

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@ -49,6 +49,7 @@ static char *instruction_strings[] = {
"BCS",
"BEQ",
"BIT",
"BIM",
"BMI",
"BNE",
"BPL",

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@ -56,6 +56,23 @@ Test(mos6502_bits, bit)
cr_assert_eq(cpu->P & MOS_ZERO, MOS_ZERO);
}
Test(mos6502_bits, bim)
{
// This version of BIT should not modify the NV flags
cpu->P |= MOS_NEGATIVE;
cpu->P |= MOS_OVERFLOW;
cpu->A = 63;
mos6502_handle_bim(cpu, 123);
cr_assert_eq(cpu->P & MOS_ZERO, 0);
cr_assert_eq(cpu->P & MOS_NEGATIVE, MOS_NEGATIVE);
cr_assert_eq(cpu->P & MOS_OVERFLOW, MOS_OVERFLOW);
cpu->A = 4;
mos6502_handle_bim(cpu, 123);
cr_assert_eq(cpu->P & MOS_ZERO, MOS_ZERO);
}
Test(mos6502_bits, eor)
{
cpu->A = 5;