7 |
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8 |
static M6502 *R; |
static M6502 *R; |
9 |
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10 |
#define dump_R printf("PC: %04x A:%02x P:%02x X:%02x Y:%02x S:%02x", R->PC.W, R->A, R->P, R->X, R->Y, R->S ); |
#define dump_R printf("# PC: %04x A:%02x P:%02x X:%02x Y:%02x S:%02x\n", R->PC.W, R->A, R->P, R->X, R->Y, R->S ); |
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12 |
void update_R(M6502 *R) { |
void update_R(M6502 *R) { |
13 |
R->A = atoi( SvPV_nolen( get_sv("M6502::A", TRUE) ) ); |
R->A = atoi( SvPV_nolen( get_sv("M6502::A", FALSE) ) ); |
14 |
R->P = atoi( SvPV_nolen( get_sv("M6502::P", TRUE) ) ); |
R->P = atoi( SvPV_nolen( get_sv("M6502::P", FALSE) ) ); |
15 |
R->X = atoi( SvPV_nolen( get_sv("M6502::X", TRUE) ) ); |
R->X = atoi( SvPV_nolen( get_sv("M6502::X", FALSE) ) ); |
16 |
R->Y = atoi( SvPV_nolen( get_sv("M6502::Y", TRUE) ) ); |
R->Y = atoi( SvPV_nolen( get_sv("M6502::Y", FALSE) ) ); |
17 |
R->S = atoi( SvPV_nolen( get_sv("M6502::S", TRUE) ) ); |
R->S = atoi( SvPV_nolen( get_sv("M6502::S", FALSE) ) ); |
18 |
R->PC.W = atoi( SvPV_nolen( get_sv("M6502::PC", TRUE) ) ); |
R->PC.W = atoi( SvPV_nolen( get_sv("M6502::PC", FALSE) ) ); |
19 |
R->IPeriod = atoi( SvPV_nolen( get_sv("M6502::IPeriod", TRUE) ) ); |
R->IPeriod = atoi( SvPV_nolen( get_sv("M6502::IPeriod", FALSE) ) ); |
20 |
// ICount IRequest IAutoReset TrapBadOps Trap Trace |
// ICount IRequest IAutoReset TrapBadOps Trap Trace |
21 |
dump_R; |
dump_R; |
22 |
} |
} |
94 |
printf("can't alloc %d bytes for M6502", sizeof(M6502)); |
printf("can't alloc %d bytes for M6502", sizeof(M6502)); |
95 |
exit(1); |
exit(1); |
96 |
} |
} |
97 |
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98 |
update_R(R); |
update_R(R); |
99 |
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100 |
printf("reset CPU\n"); |
printf("reset CPU\n"); |
101 |
Reset6502(R); |
Reset6502(R); |
102 |
printf("reset CPU\n"); |
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103 |
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printf("call M6502::init\n"); |
104 |
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dSP; |
105 |
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PUSHMARK(SP); |
106 |
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call_pv("M6502::init", G_DISCARD | G_NOARGS ); |
107 |
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108 |
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printf("run CPU\n"); |
109 |
Run6502(R); |
Run6502(R); |
110 |
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111 |
} |
} |