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1 | // basic, incomplete SSP160x (SSP1601?) interpreter |
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2 | // with SVP memory controller emu |
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3 | |
4 | // (c) Copyright 2008, Grazvydas "notaz" Ignotas |
5 | // Free for non-commercial use. |
6 | |
7 | // For commercial use, separate licencing terms must be obtained. |
8 | |
9 | |
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10 | //#define USE_DEBUGGER |
11 | /* detect ops with unimplemented/invalid fields. |
12 | * Useful for homebrew or if a new VR revision pops up. */ |
13 | //#define DO_CHECKS |
14 | |
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15 | #include "../../PicoInt.h" |
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16 | |
17 | /* |
18 | * Register info |
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19 | * |
20 | * 0. "-" |
21 | * size: 16 |
22 | * desc: Constant register with all bits set (0xffff). |
23 | * |
24 | * 1. "X" |
25 | * size: 16 |
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26 | * desc: Generic register. When set, updates P (P = X * Y * 2) |
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27 | * |
28 | * 2. "Y" |
29 | * size: 16 |
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30 | * desc: Generic register. When set, updates P (P = X * Y * 2) |
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31 | * |
32 | * 3. "A" |
33 | * size: 32 |
34 | * desc: Accumulator. |
35 | * |
36 | * 4. "ST" |
37 | * size: 16 |
38 | * desc: Status register. From MAME: bits 0-9 are CONTROL, other FLAG |
39 | * fedc ba98 7654 3210 |
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40 | * 210 - RPL (?) "Loop size". If non-zero, makes (rX+) and (rX-) respectively |
41 | * modulo-increment and modulo-decrement. The value shows which |
42 | * power of 2 to use, i.e. 4 means modulo by 16. |
43 | * (e: fir16_32.sc, IIR_4B.SC, DECIM.SC) |
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44 | * 43 - RB (?) |
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45 | * 5 - GP0_0 (ST5?) Changed before acessing PM0 (affects banking?). |
46 | * 6 - GP0_1 (ST6?) Cleared before acessing PM0 (affects banking?). Set after. |
47 | * datasheet says these (5,6) bits correspond to hardware pins. |
48 | * 7 - IE (?) Not directly used by SVP code (never set, but preserved)? |
49 | * 8 - OP (?) Not used by SVP code (only cleared)? (MAME: saturated value |
50 | * (probably means clamping? i.e. 0x7ffc + 9 -> 0x7fff)) |
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51 | * 9 - MACS (?) Not used by SVP code (only cleared)? (e: "mac shift") |
52 | * a - GPI_0 Interrupt 0 enable/status? |
53 | * b - GPI_1 Interrupt 1 enable/status? |
54 | * c - L L flag. Carry? |
55 | * d - Z Zero flag. |
56 | * e - OV Overflow flag. |
57 | * f - N Negative flag. |
58 | * seen directly changing code sequences: |
59 | * ldi ST, 0 ld A, ST ld A, ST ld A, ST ldi st, 20h |
60 | * ldi ST, 60h ori A, 60h and A, E8h and A, E8h |
61 | * ld ST, A ld ST, A ori 3 |
62 | * ld ST, A |
63 | * |
64 | * 5. "STACK" |
65 | * size: 16 |
66 | * desc: hw stack of 6 levels (according to datasheet) |
67 | * |
68 | * 6. "PC" |
69 | * size: 16 |
70 | * desc: Program counter. |
71 | * |
72 | * 7. "P" |
73 | * size: 32 |
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74 | * desc: multiply result register. P = X * Y * 2 |
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75 | * probably affected by MACS bit in ST. |
76 | * |
77 | * 8. "PM0" (PM from PMAR name from Tasco's docs) |
78 | * size: 16? |
79 | * desc: Programmable Memory access register. |
80 | * On reset, or when one (both?) GP0 bits are clear, |
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81 | * acts as status for XST, mapped at 015004 at 68k side: |
82 | * bit0: ssp has written something to XST (cleared when 015004 is read) |
83 | * bit1: 68k has written something through a1500{0|2} (cleared on PM0 read) |
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84 | * |
85 | * 9. "PM1" |
86 | * size: 16? |
87 | * desc: Programmable Memory access register. |
88 | * This reg. is only used as PMAR. |
89 | * |
90 | * 10. "PM2" |
91 | * size: 16? |
92 | * desc: Programmable Memory access register. |
93 | * This reg. is only used as PMAR. |
94 | * |
95 | * 11. "XST" |
96 | * size: 16? |
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97 | * desc: eXternal STate. Mapped to a15000 and a15002 at 68k side. |
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98 | * Can be programmed as PMAR? (only seen in test mode code) |
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99 | * Affects PM0 when written to? |
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100 | * |
101 | * 12. "PM4" |
102 | * size: 16? |
103 | * desc: Programmable Memory access register. |
104 | * This reg. is only used as PMAR. The most used PMAR by VR. |
105 | * |
106 | * 13. (unused by VR) |
107 | * |
108 | * 14. "PMC" (PMC from PMAC name from Tasco's docs) |
109 | * size: 32? |
110 | * desc: Programmable Memory access Control. Set using 2 16bit writes, |
111 | * first address, then mode word. After setting PMAC, PMAR sould |
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112 | * be blind accessed (ld -, PMx or ld PMx, -) to program it for |
113 | * reading and writing respectively. |
114 | * Reading the register also shifts it's state (from "waiting for |
115 | * address" to "waiting for mode" and back). Reads always return |
116 | * address related to last PMx register accressed. |
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117 | * (note: addresses do not wrap). |
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118 | * |
119 | * 15. "AL" |
120 | * size: 16 |
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121 | * desc: Accumulator Low. 16 least significant bits of accumulator. |
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122 | * (normally reading acc (ld X, A) you get 16 most significant bits). |
123 | * |
124 | * |
125 | * There are 8 8-bit pointer registers rX. r0-r3 (ri) point to RAM0, r4-r7 (rj) point to RAM1. |
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126 | * They can be accessed directly, or 2 indirection levels can be used [ (rX), ((rX)) ], |
127 | * which work similar to * and ** operators in C, only they use different memory banks and |
128 | * ((rX)) also does post-increment. First indirection level (rX) accesses RAMx, second accesses |
129 | * program memory at address read from (rX), and increments value in (rX). |
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130 | * |
131 | * r0,r1,r2,r4,r5,r6 can be modified [ex: ldi r0, 5]. |
132 | * 3 modifiers can be applied (optional): |
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133 | * + : post-increment [ex: ld a, (r0+) ]. Can be made modulo-increment by setting RPL bits in ST. |
134 | * - : post-decrement. Can be made modulo-decrement by setting RPL bits in ST (not sure). |
135 | * +!: post-increment, unaffected by RPL (probably). |
136 | * These are only used on 1st indirection level, so things like [ld a, ((r0+))] and [ld X, r6-] |
137 | * ar probably invalid. |
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138 | * |
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139 | * r3 and r7 are special and can not be changed (at least Samsung samples and VR code never do). |
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140 | * They are fixed to the start of their RAM banks. (They are probably changeable for ssp1605+, |
141 | * Samsung's old DSP page claims that). |
142 | * 1 of these 4 modifiers must be used (short form direct addressing?): |
143 | * |00: RAMx[0] [ex: (r3|00), 0] (based on sample code) |
144 | * |01: RAMx[1] |
145 | * |10: RAMx[2] ? maybe 10h? accortding to Div_c_dp.sc, 2 |
146 | * |11: RAMx[3] |
147 | * |
148 | * |
149 | * Instruction notes |
150 | * |
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151 | * ld a, * doesn't affect flags! (e: A_LAW.SC, Div_c_dp.sc) |
152 | * |
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153 | * mld (rj), (ri) [, b] |
154 | * operation: A = 0; P = (rj) * (ri) |
155 | * notes: based on IIR_4B.SC sample. flags? what is b??? |
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156 | * |
157 | * mpya (rj), (ri) [, b] |
158 | * name: multiply and add? |
159 | * operation: A += P; P = (rj) * (ri) |
160 | * |
161 | * mpys (rj), (ri), b |
162 | * name: multiply and subtract? |
163 | * notes: not used by VR code. |
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164 | * |
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165 | * mod cond, op |
166 | * mod cond, shr does arithmetic shift |
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167 | * |
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168 | * 'ld -, AL' and probably 'ld AL, -' are for dummy assigns |
169 | * |
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170 | * memory map: |
171 | * 000000 - 1fffff ROM, accessable by both |
172 | * 200000 - 2fffff unused? |
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173 | * 300000 - 31ffff DRAM, both |
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174 | * 320000 - 38ffff unused? |
175 | * 390000 - 3907ff IRAM. can only be accessed by ssp? |
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176 | * 390000 - 39ffff similar mapping to "cell arrange" in Sega CD, 68k only? |
177 | * 3a0000 - 3affff similar mapping to "cell arrange" in Sega CD, a bit different |
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178 | * |
179 | * 30fe02 - 0 if SVP busy, 1 if done (set by SVP, checked and cleared by 68k) |
180 | * 30fe06 - also sync related. |
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181 | * 30fe08 - job number [1-12] for SVP. 0 means no job. Set by 68k, read-cleared by VR. |
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182 | * |
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183 | * Assumptions and limitations in this code |
184 | * only Z and N status flags are emulated (others unused by VR) |
185 | * so all condition checks except N and Z are ignored (not used by VR) |
186 | * modifiers for 'OP a, ri' and ((ri)) are ignored (not used by VR) |
187 | * loop repeat mode when (ri) is destination is ignored |
188 | * ops not used by VR are not implemented |
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189 | */ |
190 | |
191 | #include "../../PicoInt.h" |
192 | |
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193 | #define u32 unsigned int |
194 | |
195 | // 0 |
196 | #define rX ssp->gr[SSP_X].h |
197 | #define rY ssp->gr[SSP_Y].h |
198 | #define rA ssp->gr[SSP_A].h |
199 | #define rST ssp->gr[SSP_ST].h // 4 |
200 | #define rSTACK ssp->gr[SSP_STACK].h |
201 | #define rPC ssp->gr[SSP_PC].h |
202 | #define rP ssp->gr[SSP_P] |
203 | #define rPM0 ssp->gr[SSP_PM0].h // 8 |
204 | #define rPM1 ssp->gr[SSP_PM1].h |
205 | #define rPM2 ssp->gr[SSP_PM2].h |
206 | #define rXST ssp->gr[SSP_XST].h |
207 | #define rPM4 ssp->gr[SSP_PM4].h // 12 |
208 | // 13 |
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209 | #define rPMC ssp->gr[SSP_PMC] // will keep addr in .l, mode in .h |
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210 | #define rAL ssp->gr[SSP_A].l |
211 | |
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212 | #define rA32 ssp->gr[SSP_A].v |
213 | #define rIJ ssp->r |
214 | |
215 | #define IJind (((op>>6)&4)|(op&3)) |
216 | |
217 | #define GET_PC() (PC - (unsigned short *)svp->iram_rom) |
218 | #define GET_PPC_OFFS() ((unsigned int)PC - (unsigned int)svp->iram_rom - 2) |
219 | #define SET_PC(d) PC = (unsigned short *)svp->iram_rom + d |
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220 | |
221 | #define REG_READ(r) (((r) <= 4) ? ssp->gr[r].h : read_handlers[r]()) |
222 | #define REG_WRITE(r,d) { \ |
223 | int r1 = r; \ |
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224 | if (r1 >= 4) write_handlers[r1](d); \ |
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225 | else if (r1 > 0) ssp->gr[r1].h = d; \ |
226 | } |
227 | |
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228 | // flags |
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229 | #define SSP_FLAG_L (1<<0xc) |
230 | #define SSP_FLAG_Z (1<<0xd) |
231 | #define SSP_FLAG_V (1<<0xe) |
232 | #define SSP_FLAG_N (1<<0xf) |
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233 | |
234 | // update ZN according to 32bit ACC. |
235 | #define UPD_ACC_ZN \ |
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236 | rST &= ~(SSP_FLAG_Z|SSP_FLAG_N); \ |
237 | if (!rA32) rST |= SSP_FLAG_Z; \ |
238 | else rST |= (rA32>>16)&SSP_FLAG_N; |
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239 | |
240 | // it seems SVP code never checks for L and OV, so we leave them out. |
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241 | // rST |= (t>>4)&SSP_FLAG_L; |
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242 | #define UPD_LZVN \ |
243 | rST &= ~(SSP_FLAG_L|SSP_FLAG_Z|SSP_FLAG_V|SSP_FLAG_N); \ |
244 | if (!rA32) rST |= SSP_FLAG_Z; \ |
245 | else rST |= (rA32>>16)&SSP_FLAG_N; |
246 | |
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247 | // standard cond processing. |
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248 | // again, only Z and N is checked, as VR doesn't seem to use any other conds. |
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249 | #define COND_CHECK \ |
250 | switch (op&0xf0) { \ |
251 | case 0x00: cond = 1; break; /* always true */ \ |
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252 | case 0x50: cond = !((rST ^ (op<<5)) & SSP_FLAG_Z); break; /* Z matches f(?) bit */ \ |
253 | case 0x70: cond = !((rST ^ (op<<7)) & SSP_FLAG_N); break; /* N matches f(?) bit */ \ |
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254 | default:elprintf(EL_SVP|EL_ANOMALY, "ssp FIXME: unimplemented cond @ %04x", GET_PPC_OFFS()); break; \ |
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255 | } |
256 | |
257 | // ops with accumulator. |
258 | // how is low word really affected by these? |
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259 | // nearly sure 'ld A' doesn't affect flags |
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260 | #define OP_LDA(x) \ |
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261 | ssp->gr[SSP_A].h = x |
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262 | |
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263 | #define OP_LDA32(x) \ |
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264 | rA32 = x |
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265 | |
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266 | #define OP_SUBA(x) { \ |
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267 | rA32 -= (x) << 16; \ |
268 | UPD_LZVN \ |
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269 | } |
270 | |
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271 | #define OP_SUBA32(x) { \ |
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272 | rA32 -= (x); \ |
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273 | UPD_LZVN \ |
274 | } |
275 | |
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276 | #define OP_CMPA(x) { \ |
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277 | u32 t = rA32 - ((x) << 16); \ |
278 | rST &= ~(SSP_FLAG_L|SSP_FLAG_Z|SSP_FLAG_V|SSP_FLAG_N); \ |
279 | if (!t) rST |= SSP_FLAG_Z; \ |
280 | else rST |= (t>>16)&SSP_FLAG_N; \ |
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281 | } |
282 | |
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283 | #define OP_CMPA32(x) { \ |
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284 | u32 t = rA32 - (x); \ |
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285 | rST &= ~(SSP_FLAG_L|SSP_FLAG_Z|SSP_FLAG_V|SSP_FLAG_N); \ |
286 | if (!t) rST |= SSP_FLAG_Z; \ |
287 | else rST |= (t>>16)&SSP_FLAG_N; \ |
288 | } |
289 | |
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290 | #define OP_ADDA(x) { \ |
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291 | rA32 += (x) << 16; \ |
292 | UPD_LZVN \ |
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293 | } |
294 | |
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295 | #define OP_ADDA32(x) { \ |
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296 | rA32 += (x); \ |
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297 | UPD_LZVN \ |
298 | } |
299 | |
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300 | #define OP_ANDA(x) \ |
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301 | rA32 &= (x) << 16; \ |
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302 | UPD_ACC_ZN |
303 | |
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304 | #define OP_ANDA32(x) \ |
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305 | rA32 &= (x); \ |
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306 | UPD_ACC_ZN |
307 | |
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308 | #define OP_ORA(x) \ |
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309 | rA32 |= (x) << 16; \ |
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310 | UPD_ACC_ZN |
311 | |
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312 | #define OP_ORA32(x) \ |
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313 | rA32 |= (x); \ |
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314 | UPD_ACC_ZN |
315 | |
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316 | #define OP_EORA(x) \ |
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317 | rA32 ^= (x) << 16; \ |
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318 | UPD_ACC_ZN |
319 | |
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320 | #define OP_EORA32(x) \ |
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321 | rA32 ^= (x); \ |
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322 | UPD_ACC_ZN |
323 | |
324 | |
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325 | #define OP_CHECK32(OP) { \ |
326 | if ((op & 0x0f) == SSP_P) { /* A <- P */ \ |
327 | read_P(); /* update P */ \ |
328 | OP(rP.v); \ |
329 | break; \ |
330 | } \ |
331 | if ((op & 0x0f) == SSP_A) { /* A <- A */ \ |
332 | OP(rA32); \ |
333 | break; \ |
334 | } \ |
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335 | } |
336 | |
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337 | |
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338 | #ifdef DO_CHECKS |
339 | #define CHECK_IMM16() if (op&0x1ff) elprintf(EL_ANOMALY, "imm bits! %04x @ %04x", op, GET_PPC_OFFS()) |
340 | #define CHECK_B_SET() if (op&0x100) elprintf(EL_ANOMALY, "b set! %04x @ %04x", op, GET_PPC_OFFS()) |
341 | #define CHECK_B_CLEAR() if (!(op&0x100)) elprintf(EL_ANOMALY, "b clear! %04x @ %04x", op, GET_PPC_OFFS()) |
342 | #define CHECK_MOD() if (op&0x00c) elprintf(EL_ANOMALY, "mod bits! %04x @ %04x", op, GET_PPC_OFFS()) |
343 | #define CHECK_10f() if (op&0x10f) elprintf(EL_ANOMALY, "bits 10f! %04x @ %04x", op, GET_PPC_OFFS()) |
344 | #define CHECK_008() if (op&0x008) elprintf(EL_ANOMALY, "bits 008! %04x @ %04x", op, GET_PPC_OFFS()) |
345 | #define CHECK_00f() if (op&0x00f) elprintf(EL_ANOMALY, "bits 00f! %04x @ %04x", op, GET_PPC_OFFS()) |
346 | #define CHECK_0f0() if (op&0x0f0) elprintf(EL_ANOMALY, "bits 0f0! %04x @ %04x", op, GET_PPC_OFFS()) |
347 | #define CHECK_1f0() if (op&0x1f0) elprintf(EL_ANOMALY, "bits 1f0! %04x @ %04x", op, GET_PPC_OFFS()) |
348 | #define CHECK_RPL() if (rST&7) elprintf(EL_ANOMALY, "unhandled RPL! %04x @ %04x", op, GET_PPC_OFFS()) |
349 | #define CHECK_ST(d) if((rST^d)&0xf98)elprintf(EL_ANOMALY, "ssp FIXME ST %04x -> %04x @ %04x", rST, d, GET_PPC_OFFS()) |
350 | #else |
351 | #define CHECK_IMM16() |
352 | #define CHECK_B_SET() |
353 | #define CHECK_B_CLEAR() |
354 | #define CHECK_MOD() |
355 | #define CHECK_10f() |
356 | #define CHECK_008() |
357 | #define CHECK_00f() |
358 | #define CHECK_0f0() |
359 | #define CHECK_1f0() |
360 | #define CHECK_RPL() |
361 | #define CHECK_ST(d) |
362 | #endif |
363 | |
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364 | ssp1601_t *ssp = NULL; |
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365 | static unsigned short *PC; |
366 | static int g_cycles; |
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367 | |
368 | #ifdef USE_DEBUGGER |
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369 | static int running = 0; |
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370 | static int last_iram = 0; |
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371 | #endif |
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372 | |
373 | // ----------------------------------------------------- |
374 | // register i/o handlers |
375 | |
376 | // 0-4, 13 |
377 | static u32 read_unknown(void) |
378 | { |
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379 | elprintf(EL_ANOMALY|EL_SVP, "ssp FIXME: unknown read @ %04x", GET_PPC_OFFS()); |
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380 | return 0; |
381 | } |
382 | |
383 | static void write_unknown(u32 d) |
384 | { |
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385 | elprintf(EL_ANOMALY|EL_SVP, "ssp FIXME: unknown write @ %04x", GET_PPC_OFFS()); |
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386 | } |
387 | |
388 | // 4 |
389 | static void write_ST(u32 d) |
390 | { |
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391 | CHECK_ST(d); |
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392 | rST = d; |
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393 | } |
394 | |
395 | // 5 |
396 | static u32 read_STACK(void) |
397 | { |
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398 | --rSTACK; |
399 | if ((short)rSTACK < 0) { |
400 | rSTACK = 5; |
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401 | elprintf(EL_ANOMALY|EL_SVP, "ssp FIXME: stack underflow! (%i) @ %04x", rSTACK, GET_PPC_OFFS()); |
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402 | } |
403 | return ssp->stack[rSTACK]; |
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404 | } |
405 | |
406 | static void write_STACK(u32 d) |
407 | { |
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408 | if (rSTACK >= 6) { |
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409 | elprintf(EL_ANOMALY|EL_SVP, "ssp FIXME: stack overflow! (%i) @ %04x", rSTACK, GET_PPC_OFFS()); |
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410 | rSTACK = 0; |
411 | } |
412 | ssp->stack[rSTACK++] = d; |
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413 | } |
414 | |
415 | // 6 |
416 | static u32 read_PC(void) |
417 | { |
418 | return GET_PC(); |
419 | } |
420 | |
421 | static void write_PC(u32 d) |
422 | { |
423 | SET_PC(d); |
424 | g_cycles--; |
425 | } |
426 | |
427 | // 7 |
428 | static u32 read_P(void) |
429 | { |
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430 | int m1 = (signed short)rX; |
431 | int m2 = (signed short)rY; |
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432 | rP.v = (m1 * m2 * 2); |
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433 | return rP.h; |
434 | } |
435 | |
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436 | // ----------------------------------------------------- |
437 | |
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438 | static int get_inc(int mode) |
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439 | { |
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440 | int inc = (mode >> 11) & 7; |
441 | if (inc != 0) { |
442 | if (inc != 7) inc--; |
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443 | inc = 1 << inc; // 0 1 2 4 8 16 32 128 |
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444 | if (mode & 0x8000) inc = -inc; // decrement mode |
445 | } |
446 | return inc; |
5de27868 |
447 | } |
448 | |
ede7220f |
449 | #define overwrite_write(dst, d) \ |
d26dc685 |
450 | { \ |
451 | if (d & 0xf000) { dst &= ~0xf000; dst |= d & 0xf000; } \ |
452 | if (d & 0x0f00) { dst &= ~0x0f00; dst |= d & 0x0f00; } \ |
453 | if (d & 0x00f0) { dst &= ~0x00f0; dst |= d & 0x00f0; } \ |
454 | if (d & 0x000f) { dst &= ~0x000f; dst |= d & 0x000f; } \ |
455 | } |
456 | |
017512f2 |
457 | static u32 pm_io(int reg, int write, u32 d) |
458 | { |
67256d4b |
459 | if (ssp->emu_status & SSP_PMC_SET) |
460 | { |
461 | // this MUST be blind r or w |
462 | if ((*(PC-1) & 0xff0f) && (*(PC-1) & 0xfff0)) { |
3554b0a4 |
463 | elprintf(EL_SVP|EL_ANOMALY, "ssp FIXME: tried to set PM%i (%c) with non-blind i/o %08x @ %04x", |
67256d4b |
464 | reg, write ? 'w' : 'r', rPMC.v, GET_PPC_OFFS()); |
465 | ssp->emu_status &= ~SSP_PMC_SET; |
466 | return 0; |
467 | } |
5de27868 |
468 | elprintf(EL_SVP, "PM%i (%c) set to %08x @ %04x", reg, write ? 'w' : 'r', rPMC.v, GET_PPC_OFFS()); |
017512f2 |
469 | ssp->pmac_read[write ? reg + 6 : reg] = rPMC.v; |
470 | ssp->emu_status &= ~SSP_PMC_SET; |
12f0f94d |
471 | if ((rPMC.v & 0x7fffff) == 0x1c8000 || (rPMC.v & 0x7fffff) == 0x1c8240) { |
bad5731d |
472 | elprintf(EL_SVP, "ssp IRAM copy from %06x to %04x", (ssp->RAM1[0]-1)<<1, (rPMC.v&0x7fff)<<1); |
3554b0a4 |
473 | #ifdef USE_DEBUGGER |
30752975 |
474 | last_iram = (ssp->RAM1[0]-1)<<1; |
3554b0a4 |
475 | #endif |
30752975 |
476 | } |
017512f2 |
477 | return 0; |
478 | } |
479 | |
5de27868 |
480 | // just in case |
67256d4b |
481 | if (ssp->emu_status & SSP_PMC_HAVE_ADDR) { |
3554b0a4 |
482 | elprintf(EL_SVP|EL_ANOMALY, "ssp FIXME: PM%i (%c) with only addr set @ %04x", |
67256d4b |
483 | reg, write ? 'w' : 'r', GET_PPC_OFFS()); |
484 | ssp->emu_status &= ~SSP_PMC_HAVE_ADDR; |
485 | } |
5de27868 |
486 | |
5de27868 |
487 | if (reg == 4 || (rST & 0x60)) |
488 | { |
30752975 |
489 | #define CADDR ((((mode<<16)&0x7f0000)|addr)<<1) |
d26dc685 |
490 | unsigned short *dram = (unsigned short *)svp->dram; |
5de27868 |
491 | if (write) |
492 | { |
6b6a3e50 |
493 | int mode = ssp->pmac_write[reg]>>16; |
494 | int addr = ssp->pmac_write[reg]&0xffff; |
3554b0a4 |
495 | if ((mode & 0xb800) == 0xb800) |
689fb2c0 |
496 | elprintf(EL_SVP|EL_ANOMALY, "ssp FIXME: mode %04x", mode); |
3554b0a4 |
497 | if ((mode & 0x43ff) == 0x0018) // DRAM |
498 | { |
499 | int inc = get_inc(mode); |
500 | elprintf(EL_SVP, "ssp PM%i DRAM w [%06x] %04x (inc %i, ovrw %i)", |
6b6a3e50 |
501 | reg, CADDR, d, inc, (mode>>10)&1); |
3554b0a4 |
502 | if (mode & 0x0400) { |
ede7220f |
503 | overwrite_write(dram[addr], d); |
3554b0a4 |
504 | } else dram[addr] = d; |
505 | ssp->pmac_write[reg] += inc; |
506 | } |
507 | else if ((mode & 0xfbff) == 0x4018) // DRAM, cell inc |
508 | { |
509 | elprintf(EL_SVP, "ssp PM%i DRAM w [%06x] %04x (cell inc, ovrw %i) @ %04x", |
510 | reg, CADDR, d, (mode>>10)&1, GET_PPC_OFFS()); |
511 | if (mode & 0x0400) { |
ede7220f |
512 | overwrite_write(dram[addr], d); |
3554b0a4 |
513 | } else dram[addr] = d; |
6b6a3e50 |
514 | ssp->pmac_write[reg] += (addr&1) ? 31 : 1; |
3554b0a4 |
515 | } |
516 | else if ((mode & 0x47ff) == 0x001c) // IRAM |
517 | { |
518 | int inc = get_inc(mode); |
519 | if ((addr&0xfc00) != 0x8000) |
520 | elprintf(EL_SVP|EL_ANOMALY, "ssp FIXME: invalid IRAM addr: %04x", addr<<1); |
6b6a3e50 |
521 | elprintf(EL_SVP, "ssp IRAM w [%06x] %04x (inc %i)", (addr<<1)&0x7ff, d, inc); |
3554b0a4 |
522 | ((unsigned short *)svp->iram_rom)[addr&0x3ff] = d; |
523 | ssp->pmac_write[reg] += inc; |
524 | } |
525 | else |
526 | { |
527 | elprintf(EL_SVP|EL_ANOMALY, "ssp FIXME: PM%i unhandled write mode %04x, [%06x] %04x @ %04x", |
528 | reg, mode, CADDR, d, GET_PPC_OFFS()); |
5de27868 |
529 | } |
530 | } |
531 | else |
532 | { |
6b6a3e50 |
533 | int mode = ssp->pmac_read[reg]>>16; |
534 | int addr = ssp->pmac_read[reg]&0xffff; |
3554b0a4 |
535 | if ((mode & 0xfff0) == 0x0800) // ROM, inc 1, verified to be correct |
536 | { |
d26dc685 |
537 | elprintf(EL_SVP, "ssp ROM r [%06x] %04x", CADDR, |
538 | ((unsigned short *)Pico.rom)[addr|((mode&0xf)<<16)]); |
6b6a3e50 |
539 | ssp->pmac_read[reg] += 1; |
d26dc685 |
540 | d = ((unsigned short *)Pico.rom)[addr|((mode&0xf)<<16)]; |
d26dc685 |
541 | } |
3554b0a4 |
542 | else if ((mode & 0x47ff) == 0x0018) // DRAM |
543 | { |
544 | int inc = get_inc(mode); |
6b6a3e50 |
545 | elprintf(EL_SVP, "ssp PM%i DRAM r [%06x] %04x (inc %i)", reg, CADDR, dram[addr]); |
3554b0a4 |
546 | d = dram[addr]; |
547 | ssp->pmac_read[reg] += inc; |
548 | } |
549 | else |
550 | { |
551 | elprintf(EL_SVP|EL_ANOMALY, "ssp FIXME: PM%i unhandled read mode %04x, [%06x] @ %04x", |
552 | reg, mode, CADDR, GET_PPC_OFFS()); |
553 | d = 0; |
5de27868 |
554 | } |
555 | } |
30752975 |
556 | |
557 | // PMC value corresponds to last PMR accessed (not sure). |
558 | rPMC.v = ssp->pmac_read[write ? reg + 6 : reg]; |
559 | |
560 | return d; |
017512f2 |
561 | } |
562 | |
563 | return (u32)-1; |
564 | } |
565 | |
566 | // 8 |
567 | static u32 read_PM0(void) |
568 | { |
569 | u32 d = pm_io(0, 0, 0); |
570 | if (d != (u32)-1) return d; |
67256d4b |
571 | elprintf(EL_SVP, "PM0 raw r %04x @ %04x", rPM0, GET_PPC_OFFS()); |
d26dc685 |
572 | d = rPM0; |
573 | if (!(d & 2) && (GET_PPC_OFFS() == 0x800 || GET_PPC_OFFS() == 0x1851E)) { |
574 | ssp->emu_status |= SSP_WAIT_PM0; elprintf(EL_SVP, "det TIGHT loop: PM0"); |
575 | } |
576 | rPM0 &= ~2; // ? |
577 | return d; |
017512f2 |
578 | } |
579 | |
580 | static void write_PM0(u32 d) |
581 | { |
582 | u32 r = pm_io(0, 1, d); |
583 | if (r != (u32)-1) return; |
5de27868 |
584 | elprintf(EL_SVP, "PM0 raw w %04x @ %04x", d, GET_PPC_OFFS()); |
d26dc685 |
585 | rPM0 = d; |
017512f2 |
586 | } |
587 | |
588 | // 9 |
589 | static u32 read_PM1(void) |
590 | { |
591 | u32 d = pm_io(1, 0, 0); |
592 | if (d != (u32)-1) return d; |
593 | // can be removed? |
d4ca252d |
594 | elprintf(EL_SVP|EL_ANOMALY, "PM1 raw r %04x @ %04x", rPM1, GET_PPC_OFFS()); |
5de27868 |
595 | return rPM1; |
017512f2 |
596 | } |
597 | |
598 | static void write_PM1(u32 d) |
599 | { |
600 | u32 r = pm_io(1, 1, d); |
601 | if (r != (u32)-1) return; |
602 | // can be removed? |
d4ca252d |
603 | elprintf(EL_SVP|EL_ANOMALY, "PM1 raw w %04x @ %04x", d, GET_PPC_OFFS()); |
5de27868 |
604 | rPM1 = d; |
017512f2 |
605 | } |
606 | |
607 | // 10 |
608 | static u32 read_PM2(void) |
609 | { |
610 | u32 d = pm_io(2, 0, 0); |
611 | if (d != (u32)-1) return d; |
612 | // can be removed? |
d4ca252d |
613 | elprintf(EL_SVP|EL_ANOMALY, "PM2 raw r %04x @ %04x", rPM2, GET_PPC_OFFS()); |
5de27868 |
614 | return rPM2; |
017512f2 |
615 | } |
616 | |
617 | static void write_PM2(u32 d) |
618 | { |
619 | u32 r = pm_io(2, 1, d); |
620 | if (r != (u32)-1) return; |
621 | // can be removed? |
d4ca252d |
622 | elprintf(EL_SVP|EL_ANOMALY, "PM2 raw w %04x @ %04x", d, GET_PPC_OFFS()); |
5de27868 |
623 | rPM2 = d; |
017512f2 |
624 | } |
625 | |
626 | // 11 |
627 | static u32 read_XST(void) |
628 | { |
629 | // can be removed? |
630 | u32 d = pm_io(3, 0, 0); |
631 | if (d != (u32)-1) return d; |
632 | |
5de27868 |
633 | elprintf(EL_SVP, "XST raw r %04x @ %04x", rXST, GET_PPC_OFFS()); |
634 | return rXST; |
017512f2 |
635 | } |
f8ef8ff7 |
636 | |
017512f2 |
637 | static void write_XST(u32 d) |
f8ef8ff7 |
638 | { |
017512f2 |
639 | // can be removed? |
640 | u32 r = pm_io(3, 1, d); |
641 | if (r != (u32)-1) return; |
642 | |
5de27868 |
643 | elprintf(EL_SVP, "XST raw w %04x @ %04x", d, GET_PPC_OFFS()); |
d26dc685 |
644 | rPM0 |= 1; |
5de27868 |
645 | rXST = d; |
017512f2 |
646 | } |
647 | |
648 | // 12 |
649 | static u32 read_PM4(void) |
650 | { |
651 | u32 d = pm_io(4, 0, 0); |
30752975 |
652 | if (d == 0) { |
653 | switch (GET_PPC_OFFS()) { |
d26dc685 |
654 | case 0x0854: ssp->emu_status |= SSP_WAIT_30FE08; elprintf(EL_SVP, "det TIGHT loop: [30fe08]"); break; |
655 | case 0x4f12: ssp->emu_status |= SSP_WAIT_30FE06; elprintf(EL_SVP, "det TIGHT loop: [30fe06]"); break; |
30752975 |
656 | } |
657 | } |
017512f2 |
658 | if (d != (u32)-1) return d; |
659 | // can be removed? |
d4ca252d |
660 | elprintf(EL_SVP|EL_ANOMALY, "PM4 raw r %04x @ %04x", rPM4, GET_PPC_OFFS()); |
5de27868 |
661 | return rPM4; |
017512f2 |
662 | } |
663 | |
664 | static void write_PM4(u32 d) |
665 | { |
666 | u32 r = pm_io(4, 1, d); |
667 | if (r != (u32)-1) return; |
668 | // can be removed? |
d4ca252d |
669 | elprintf(EL_SVP|EL_ANOMALY, "PM4 raw w %04x @ %04x", d, GET_PPC_OFFS()); |
5de27868 |
670 | rPM4 = d; |
017512f2 |
671 | } |
672 | |
673 | // 14 |
674 | static u32 read_PMC(void) |
675 | { |
6b6a3e50 |
676 | elprintf(EL_SVP, "PMC r a %04x (st %c) @ %04x", rPMC.l, |
3554b0a4 |
677 | (ssp->emu_status & SSP_PMC_HAVE_ADDR) ? 'm' : 'a', GET_PPC_OFFS()); |
017512f2 |
678 | if (ssp->emu_status & SSP_PMC_HAVE_ADDR) { |
3554b0a4 |
679 | //if (ssp->emu_status & SSP_PMC_SET) |
680 | // elprintf(EL_ANOMALY|EL_SVP, "prev PMC not used @ %04x", GET_PPC_OFFS()); |
017512f2 |
681 | ssp->emu_status |= SSP_PMC_SET; |
5de27868 |
682 | ssp->emu_status &= ~SSP_PMC_HAVE_ADDR; |
6b6a3e50 |
683 | return ((rPMC.l << 4) & 0xfff0) | ((rPMC.l >> 4) & 0xf); |
017512f2 |
684 | } else { |
685 | ssp->emu_status |= SSP_PMC_HAVE_ADDR; |
6b6a3e50 |
686 | return rPMC.l; |
017512f2 |
687 | } |
688 | } |
689 | |
690 | static void write_PMC(u32 d) |
691 | { |
692 | if (ssp->emu_status & SSP_PMC_HAVE_ADDR) { |
3554b0a4 |
693 | //if (ssp->emu_status & SSP_PMC_SET) |
694 | // elprintf(EL_ANOMALY|EL_SVP, "prev PMC not used @ %04x", GET_PPC_OFFS()); |
017512f2 |
695 | ssp->emu_status |= SSP_PMC_SET; |
5de27868 |
696 | ssp->emu_status &= ~SSP_PMC_HAVE_ADDR; |
6b6a3e50 |
697 | rPMC.h = d; |
698 | elprintf(EL_SVP, "PMC w m %04x @ %04x", rPMC.h, GET_PPC_OFFS()); |
017512f2 |
699 | } else { |
700 | ssp->emu_status |= SSP_PMC_HAVE_ADDR; |
6b6a3e50 |
701 | rPMC.l = d; |
702 | elprintf(EL_SVP, "PMC w a %04x @ %04x", rPMC.l, GET_PPC_OFFS()); |
017512f2 |
703 | } |
704 | } |
705 | |
706 | // 15 |
707 | static u32 read_AL(void) |
708 | { |
6e39239f |
709 | if (*(PC-1) == 0x000f) |
689fb2c0 |
710 | elprintf(EL_SVP, "ssp dummy PM assign %08x @ %04x", rPMC.v, GET_PPC_OFFS()); |
6e39239f |
711 | ssp->emu_status &= ~(SSP_PMC_SET|SSP_PMC_HAVE_ADDR); // ? |
017512f2 |
712 | return rAL; |
713 | } |
714 | |
715 | static void write_AL(u32 d) |
716 | { |
717 | rAL = d; |
718 | } |
719 | |
720 | |
721 | typedef u32 (*read_func_t)(void); |
722 | typedef void (*write_func_t)(u32 d); |
723 | |
724 | static read_func_t read_handlers[16] = |
725 | { |
726 | read_unknown, read_unknown, read_unknown, read_unknown, // -, X, Y, A |
727 | read_unknown, // 4 ST |
728 | read_STACK, |
729 | read_PC, |
730 | read_P, |
731 | read_PM0, // 8 |
732 | read_PM1, |
733 | read_PM2, |
734 | read_XST, |
735 | read_PM4, // 12 |
736 | read_unknown, // 13 gr13 |
737 | read_PMC, |
738 | read_AL |
739 | }; |
740 | |
741 | static write_func_t write_handlers[16] = |
742 | { |
743 | write_unknown, write_unknown, write_unknown, write_unknown, // -, X, Y, A |
5de27868 |
744 | // write_unknown, // 4 ST |
745 | write_ST, // 4 ST (debug hook) |
017512f2 |
746 | write_STACK, |
747 | write_PC, |
748 | write_unknown, // 7 P |
749 | write_PM0, // 8 |
750 | write_PM1, |
751 | write_PM2, |
752 | write_XST, |
753 | write_PM4, // 12 |
754 | write_unknown, // 13 gr13 |
755 | write_PMC, |
756 | write_AL |
757 | }; |
758 | |
5de27868 |
759 | // ----------------------------------------------------- |
760 | // pointer register handlers |
761 | |
762 | // |
763 | #define ptr1_read(op) ptr1_read_(op&3,(op>>6)&4,(op<<1)&0x18) |
764 | |
765 | static u32 ptr1_read_(int ri, int isj2, int modi3) |
766 | { |
767 | //int t = (op&3) | ((op>>6)&4) | ((op<<1)&0x18); |
30752975 |
768 | u32 mask, add = 0, t = ri | isj2 | modi3; |
769 | unsigned char *rp = NULL; |
5de27868 |
770 | switch (t) |
771 | { |
772 | // mod=0 (00) |
773 | case 0x00: |
774 | case 0x01: |
775 | case 0x02: return ssp->RAM0[ssp->r0[t&3]]; |
776 | case 0x03: return ssp->RAM0[0]; |
777 | case 0x04: |
778 | case 0x05: |
779 | case 0x06: return ssp->RAM1[ssp->r1[t&3]]; |
780 | case 0x07: return ssp->RAM1[0]; |
781 | // mod=1 (01), "+!" |
5de27868 |
782 | case 0x08: |
5de27868 |
783 | case 0x09: |
30752975 |
784 | case 0x0a: return ssp->RAM0[ssp->r0[t&3]++]; |
5de27868 |
785 | case 0x0b: return ssp->RAM0[1]; |
786 | case 0x0c: |
5de27868 |
787 | case 0x0d: |
30752975 |
788 | case 0x0e: return ssp->RAM1[ssp->r1[t&3]++]; |
5de27868 |
789 | case 0x0f: return ssp->RAM1[1]; |
790 | // mod=2 (10), "-" |
791 | case 0x10: |
792 | case 0x11: |
30752975 |
793 | case 0x12: rp = &ssp->r0[t&3]; t = ssp->RAM0[*rp]; |
794 | if (!(rST&7)) { (*rp)--; return t; } |
795 | add = -1; goto modulo; |
5de27868 |
796 | case 0x13: return ssp->RAM0[2]; |
797 | case 0x14: |
798 | case 0x15: |
30752975 |
799 | case 0x16: rp = &ssp->r1[t&3]; t = ssp->RAM1[*rp]; |
800 | if (!(rST&7)) { (*rp)--; return t; } |
801 | add = -1; goto modulo; |
5de27868 |
802 | case 0x17: return ssp->RAM1[2]; |
30752975 |
803 | // mod=3 (11), "+" |
804 | case 0x18: |
805 | case 0x19: |
806 | case 0x1a: rp = &ssp->r0[t&3]; t = ssp->RAM0[*rp]; |
807 | if (!(rST&7)) { (*rp)++; return t; } |
808 | add = 1; goto modulo; |
5de27868 |
809 | case 0x1b: return ssp->RAM0[3]; |
30752975 |
810 | case 0x1c: |
811 | case 0x1d: |
812 | case 0x1e: rp = &ssp->r1[t&3]; t = ssp->RAM1[*rp]; |
813 | if (!(rST&7)) { (*rp)++; return t; } |
814 | add = 1; goto modulo; |
5de27868 |
815 | case 0x1f: return ssp->RAM1[3]; |
816 | } |
817 | |
818 | return 0; |
30752975 |
819 | |
820 | modulo: |
821 | mask = (1 << (rST&7)) - 1; |
822 | *rp = (*rp & ~mask) | ((*rp + add) & mask); |
823 | return t; |
5de27868 |
824 | } |
825 | |
826 | static void ptr1_write(int op, u32 d) |
827 | { |
828 | int t = (op&3) | ((op>>6)&4) | ((op<<1)&0x18); |
829 | switch (t) |
830 | { |
831 | // mod=0 (00) |
832 | case 0x00: |
833 | case 0x01: |
834 | case 0x02: ssp->RAM0[ssp->r0[t&3]] = d; return; |
835 | case 0x03: ssp->RAM0[0] = d; return; |
836 | case 0x04: |
837 | case 0x05: |
838 | case 0x06: ssp->RAM1[ssp->r1[t&3]] = d; return; |
839 | case 0x07: ssp->RAM1[0] = d; return; |
840 | // mod=1 (01), "+!" |
841 | // mod=3, "+" |
842 | case 0x08: |
5de27868 |
843 | case 0x09: |
e477f8f7 |
844 | case 0x0a: ssp->RAM0[ssp->r0[t&3]++] = d; return; |
5de27868 |
845 | case 0x0b: ssp->RAM0[1] = d; return; |
846 | case 0x0c: |
5de27868 |
847 | case 0x0d: |
e477f8f7 |
848 | case 0x0e: ssp->RAM1[ssp->r1[t&3]++] = d; return; |
5de27868 |
849 | case 0x0f: ssp->RAM1[1] = d; return; |
850 | // mod=2 (10), "-" |
851 | case 0x10: |
852 | case 0x11: |
e477f8f7 |
853 | case 0x12: ssp->RAM0[ssp->r0[t&3]--] = d; CHECK_RPL(); return; |
5de27868 |
854 | case 0x13: ssp->RAM0[2] = d; return; |
855 | case 0x14: |
856 | case 0x15: |
e477f8f7 |
857 | case 0x16: ssp->RAM1[ssp->r1[t&3]--] = d; CHECK_RPL(); return; |
5de27868 |
858 | case 0x17: ssp->RAM1[2] = d; return; |
e477f8f7 |
859 | // mod=3 (11), "+" |
860 | case 0x18: |
861 | case 0x19: |
862 | case 0x1a: ssp->RAM0[ssp->r0[t&3]++] = d; CHECK_RPL(); return; |
5de27868 |
863 | case 0x1b: ssp->RAM0[3] = d; return; |
e477f8f7 |
864 | case 0x1c: |
865 | case 0x1d: |
866 | case 0x1e: ssp->RAM1[ssp->r1[t&3]++] = d; CHECK_RPL(); return; |
5de27868 |
867 | case 0x1f: ssp->RAM1[3] = d; return; |
868 | } |
869 | } |
870 | |
871 | static u32 ptr2_read(int op) |
872 | { |
873 | int mv = 0, t = (op&3) | ((op>>6)&4) | ((op<<1)&0x18); |
874 | switch (t) |
875 | { |
876 | // mod=0 (00) |
877 | case 0x00: |
878 | case 0x01: |
879 | case 0x02: mv = ssp->RAM0[ssp->r0[t&3]]++; break; |
880 | case 0x03: mv = ssp->RAM0[0]++; break; |
881 | case 0x04: |
882 | case 0x05: |
883 | case 0x06: mv = ssp->RAM1[ssp->r1[t&3]]++; break; |
884 | case 0x07: mv = ssp->RAM1[0]++; break; |
885 | // mod=1 (01) |
886 | case 0x0b: mv = ssp->RAM0[1]++; break; |
887 | case 0x0f: mv = ssp->RAM1[1]++; break; |
888 | // mod=2 (10) |
889 | case 0x13: mv = ssp->RAM0[2]++; break; |
890 | case 0x17: mv = ssp->RAM1[2]++; break; |
891 | // mod=3 (11) |
892 | case 0x1b: mv = ssp->RAM0[3]++; break; |
893 | case 0x1f: mv = ssp->RAM1[3]++; break; |
30752975 |
894 | default: elprintf(EL_SVP|EL_ANOMALY, "ssp FIXME: invalid mod in ((rX))? @ %04x", GET_PPC_OFFS()); |
5de27868 |
895 | return 0; |
896 | } |
897 | |
898 | return ((unsigned short *)svp->iram_rom)[mv]; |
899 | } |
900 | |
901 | |
902 | // ----------------------------------------------------- |
903 | |
71bb1b7b |
904 | #if defined(USE_DEBUGGER) |
726bbb3e |
905 | static void debug_dump2file(const char *fname, void *mem, int len) |
906 | { |
907 | FILE *f = fopen(fname, "wb"); |
908 | unsigned short *p = mem; |
909 | int i; |
910 | if (f) { |
911 | for (i = 0; i < len/2; i++) p[i] = (p[i]<<8) | (p[i]>>8); |
912 | fwrite(mem, 1, len, f); |
913 | fclose(f); |
914 | for (i = 0; i < len/2; i++) p[i] = (p[i]<<8) | (p[i]>>8); |
915 | printf("dumped to %s\n", fname); |
916 | } |
917 | else |
918 | printf("dump failed\n"); |
919 | } |
920 | #endif |
921 | |
3554b0a4 |
922 | #ifdef USE_DEBUGGER |
5de27868 |
923 | static void debug_dump(void) |
f8ef8ff7 |
924 | { |
5de27868 |
925 | printf("GR0: %04x X: %04x Y: %04x A: %08x\n", ssp->gr[SSP_GR0].h, rX, rY, ssp->gr[SSP_A].v); |
6b6a3e50 |
926 | printf("PC: %04x (%04x) P: %08x\n", GET_PC(), GET_PC() << 1, rP.v); |
5de27868 |
927 | printf("PM0: %04x PM1: %04x PM2: %04x\n", rPM0, rPM1, rPM2); |
6b6a3e50 |
928 | printf("XST: %04x PM4: %04x PMC: %08x\n", rXST, rPM4, rPMC.v); |
d26dc685 |
929 | printf(" ST: %04x %c%c%c%c, GP0_0 %i, GP0_1 %i\n", rST, rST&SSP_FLAG_N?'N':'n', rST&SSP_FLAG_V?'V':'v', |
930 | rST&SSP_FLAG_Z?'Z':'z', rST&SSP_FLAG_L?'L':'l', (rST>>5)&1, (rST>>6)&1); |
5de27868 |
931 | printf("STACK: %i %04x %04x %04x %04x %04x %04x\n", rSTACK, ssp->stack[0], ssp->stack[1], |
932 | ssp->stack[2], ssp->stack[3], ssp->stack[4], ssp->stack[5]); |
933 | printf("r0-r2: %02x %02x %02x r4-r6: %02x %02x %02x\n", rIJ[0], rIJ[1], rIJ[2], rIJ[4], rIJ[5], rIJ[6]); |
934 | elprintf(EL_SVP, "cycles: %i, emu_status: %x", g_cycles, ssp->emu_status); |
935 | } |
f8ef8ff7 |
936 | |
5de27868 |
937 | static void debug_dump_mem(void) |
938 | { |
939 | int h, i; |
940 | printf("RAM0\n"); |
941 | for (h = 0; h < 32; h++) |
942 | { |
943 | if (h == 16) printf("RAM1\n"); |
944 | printf("%03x:", h*16); |
945 | for (i = 0; i < 16; i++) |
946 | printf(" %04x", ssp->RAM[h*16+i]); |
947 | printf("\n"); |
948 | } |
949 | } |
950 | |
951 | static int bpts[10] = { 0, }; |
952 | |
953 | static void debug(unsigned int pc, unsigned int op) |
954 | { |
955 | static char buffo[64] = {0,}; |
956 | char buff[64] = {0,}; |
957 | int i; |
958 | |
959 | if (running) { |
960 | for (i = 0; i < 10; i++) |
961 | if (pc != 0 && bpts[i] == pc) { |
962 | printf("breakpoint %i\n", i); |
963 | running = 0; |
964 | break; |
965 | } |
966 | } |
967 | if (running) return; |
968 | |
969 | printf("%04x (%02x) @ %04x\n", op, op >> 9, pc<<1); |
970 | |
971 | while (1) |
972 | { |
973 | printf("dbg> "); |
974 | fflush(stdout); |
975 | fgets(buff, sizeof(buff), stdin); |
976 | if (buff[0] == '\n') strcpy(buff, buffo); |
977 | else strcpy(buffo, buff); |
978 | |
979 | switch (buff[0]) { |
980 | case 0: exit(0); |
981 | case 'c': |
982 | case 'r': running = 1; return; |
983 | case 's': |
984 | case 'n': return; |
985 | case 'x': debug_dump(); break; |
986 | case 'm': debug_dump_mem(); break; |
987 | case 'b': { |
988 | char *baddr = buff + 2; |
989 | i = 0; |
990 | if (buff[3] == ' ') { i = buff[2] - '0'; baddr = buff + 4; } |
991 | bpts[i] = strtol(baddr, NULL, 16) >> 1; |
992 | printf("breakpoint %i set @ %04x\n", i, bpts[i]<<1); |
993 | break; |
994 | } |
30752975 |
995 | case 'd': |
996 | sprintf(buff, "iramrom_%04x.bin", last_iram); |
997 | debug_dump2file(buff, svp->iram_rom, sizeof(svp->iram_rom)); |
998 | debug_dump2file("dram.bin", svp->dram, sizeof(svp->dram)); |
5de27868 |
999 | break; |
5de27868 |
1000 | default: printf("unknown command\n"); break; |
1001 | } |
1002 | } |
1003 | } |
3554b0a4 |
1004 | #endif // USE_DEBUGGER |
1005 | |
5de27868 |
1006 | |
6b6a3e50 |
1007 | void ssp1601_reset(ssp1601_t *l_ssp) |
1008 | { |
1009 | ssp = l_ssp; |
1010 | ssp->emu_status = 0; |
1011 | ssp->gr[SSP_GR0].v = 0xffff0000; |
1012 | rPC = 0x400; |
1013 | rSTACK = 0; // ? using ascending stack |
1014 | rST = 0; |
1015 | } |
1016 | |
1017 | |
5de27868 |
1018 | void ssp1601_run(int cycles) |
1019 | { |
017512f2 |
1020 | SET_PC(rPC); |
71bb1b7b |
1021 | |
017512f2 |
1022 | g_cycles = cycles; |
f8ef8ff7 |
1023 | |
d26dc685 |
1024 | while (g_cycles > 0 && !(ssp->emu_status & SSP_WAIT_MASK)) |
f8ef8ff7 |
1025 | { |
5de27868 |
1026 | int op; |
1027 | u32 tmpv; |
1028 | |
1029 | op = *PC++; |
3554b0a4 |
1030 | #ifdef USE_DEBUGGER |
5de27868 |
1031 | debug(GET_PC()-1, op); |
3554b0a4 |
1032 | #endif |
f8ef8ff7 |
1033 | switch (op >> 9) |
1034 | { |
1035 | // ld d, s |
5de27868 |
1036 | case 0x00: |
e477f8f7 |
1037 | CHECK_B_SET(); |
f8ef8ff7 |
1038 | if (op == 0) break; // nop |
017512f2 |
1039 | if (op == ((SSP_A<<4)|SSP_P)) { // A <- P |
017512f2 |
1040 | read_P(); // update P |
6b6a3e50 |
1041 | rA32 = rP.v; |
f8ef8ff7 |
1042 | } |
5de27868 |
1043 | else |
f8ef8ff7 |
1044 | { |
5de27868 |
1045 | tmpv = REG_READ(op & 0x0f); |
1046 | REG_WRITE((op & 0xf0) >> 4, tmpv); |
1047 | } |
1048 | break; |
1049 | |
1050 | // ld d, (ri) |
1051 | case 0x01: tmpv = ptr1_read(op); REG_WRITE((op & 0xf0) >> 4, tmpv); break; |
1052 | |
1053 | // ld (ri), s |
1054 | case 0x02: tmpv = REG_READ((op & 0xf0) >> 4); ptr1_write(op, tmpv); break; |
1055 | |
1056 | // ldi d, imm |
e477f8f7 |
1057 | case 0x04: CHECK_10f(); tmpv = *PC++; REG_WRITE((op & 0xf0) >> 4, tmpv); g_cycles--; break; |
5de27868 |
1058 | |
1059 | // ld d, ((ri)) |
e477f8f7 |
1060 | case 0x05: CHECK_MOD(); tmpv = ptr2_read(op); REG_WRITE((op & 0xf0) >> 4, tmpv); g_cycles -= 2; break; |
5de27868 |
1061 | |
1062 | // ldi (ri), imm |
e477f8f7 |
1063 | case 0x06: tmpv = *PC++; ptr1_write(op, tmpv); g_cycles--; break; |
5de27868 |
1064 | |
1065 | // ld adr, a |
1066 | case 0x07: ssp->RAM[op & 0x1ff] = rA; break; |
1067 | |
1068 | // ld d, ri |
e477f8f7 |
1069 | case 0x09: CHECK_MOD(); tmpv = rIJ[(op&3)|((op>>6)&4)]; REG_WRITE((op & 0xf0) >> 4, tmpv); break; |
5de27868 |
1070 | |
1071 | // ld ri, s |
e477f8f7 |
1072 | case 0x0a: CHECK_MOD(); rIJ[(op&3)|((op>>6)&4)] = REG_READ((op & 0xf0) >> 4); break; |
5de27868 |
1073 | |
1074 | // ldi ri, simm |
1075 | case 0x0c: |
1076 | case 0x0d: |
1077 | case 0x0e: |
1078 | case 0x0f: rIJ[(op>>8)&7] = op; break; |
1079 | |
1080 | // call cond, addr |
1081 | case 0x24: { |
1082 | int cond = 0; |
e477f8f7 |
1083 | CHECK_00f(); |
5de27868 |
1084 | COND_CHECK |
e477f8f7 |
1085 | if (cond) { int new_PC = *PC++; write_STACK(GET_PC()); SET_PC(new_PC); } |
5de27868 |
1086 | else PC++; |
e477f8f7 |
1087 | g_cycles--; // always 2 cycles |
5de27868 |
1088 | break; |
1089 | } |
1090 | |
1091 | // ld d, (a) |
e477f8f7 |
1092 | case 0x25: |
1093 | CHECK_10f(); |
1094 | tmpv = ((unsigned short *)svp->iram_rom)[rA]; |
1095 | REG_WRITE((op & 0xf0) >> 4, tmpv); |
1096 | g_cycles -= 2; // 3 cycles total |
1097 | break; |
5de27868 |
1098 | |
1099 | // bra cond, addr |
1100 | case 0x26: { |
1101 | int cond = 0; |
e477f8f7 |
1102 | CHECK_00f(); |
5de27868 |
1103 | COND_CHECK |
e477f8f7 |
1104 | if (cond) { int new_PC = *PC++; SET_PC(new_PC); } |
5de27868 |
1105 | else PC++; |
e477f8f7 |
1106 | g_cycles--; |
5de27868 |
1107 | break; |
1108 | } |
1109 | |
1110 | // mod cond, op |
1111 | case 0x48: { |
1112 | int cond = 0; |
e477f8f7 |
1113 | CHECK_008(); |
5de27868 |
1114 | COND_CHECK |
1115 | if (cond) { |
1116 | switch (op & 7) { |
d26dc685 |
1117 | case 2: rA32 = (signed int)rA32 >> 1; break; // shr (arithmetic) |
5de27868 |
1118 | case 3: rA32 <<= 1; break; // shl |
d26dc685 |
1119 | case 6: rA32 = -(signed int)rA32; break; // neg |
1120 | case 7: if ((int)rA32 < 0) rA32 = -(signed int)rA32; break; // abs |
689fb2c0 |
1121 | default: elprintf(EL_SVP|EL_ANOMALY, "ssp FIXME: unhandled mod %i @ %04x", |
1122 | op&7, GET_PPC_OFFS()); |
5de27868 |
1123 | } |
e477f8f7 |
1124 | UPD_ACC_ZN |
f8ef8ff7 |
1125 | } |
1126 | break; |
5de27868 |
1127 | } |
1128 | |
689fb2c0 |
1129 | // mpys? |
30752975 |
1130 | case 0x1b: |
e477f8f7 |
1131 | CHECK_B_CLEAR(); |
30752975 |
1132 | read_P(); // update P |
e477f8f7 |
1133 | rA32 -= rP.v; |
1134 | UPD_ACC_ZN |
1135 | rX = ptr1_read_(op&3, 0, (op<<1)&0x18); |
1136 | rY = ptr1_read_((op>>4)&3, 4, (op>>3)&0x18); |
3554b0a4 |
1137 | break; |
1138 | |
5de27868 |
1139 | // mpya (rj), (ri), b |
1140 | case 0x4b: |
e477f8f7 |
1141 | CHECK_B_CLEAR(); |
5de27868 |
1142 | read_P(); // update P |
e477f8f7 |
1143 | rA32 += rP.v; |
1144 | UPD_ACC_ZN |
1145 | rX = ptr1_read_(op&3, 0, (op<<1)&0x18); |
1146 | rY = ptr1_read_((op>>4)&3, 4, (op>>3)&0x18); |
5de27868 |
1147 | break; |
1148 | |
1149 | // mld (rj), (ri), b |
1150 | case 0x5b: |
e477f8f7 |
1151 | CHECK_B_CLEAR(); |
3554b0a4 |
1152 | rA32 = 0; |
e477f8f7 |
1153 | rST &= 0x0fff; |
1154 | rST |= SSP_FLAG_Z; |
1155 | rX = ptr1_read_(op&3, 0, (op<<1)&0x18); |
1156 | rY = ptr1_read_((op>>4)&3, 4, (op>>3)&0x18); |
5de27868 |
1157 | break; |
1158 | |
1159 | // OP a, s |
e477f8f7 |
1160 | case 0x10: CHECK_1f0(); OP_CHECK32(OP_SUBA32); tmpv = REG_READ(op & 0x0f); OP_SUBA(tmpv); break; |
1161 | case 0x30: CHECK_1f0(); OP_CHECK32(OP_CMPA32); tmpv = REG_READ(op & 0x0f); OP_CMPA(tmpv); break; |
1162 | case 0x40: CHECK_1f0(); OP_CHECK32(OP_ADDA32); tmpv = REG_READ(op & 0x0f); OP_ADDA(tmpv); break; |
1163 | case 0x50: CHECK_1f0(); OP_CHECK32(OP_ANDA32); tmpv = REG_READ(op & 0x0f); OP_ANDA(tmpv); break; |
1164 | case 0x60: CHECK_1f0(); OP_CHECK32(OP_ORA32 ); tmpv = REG_READ(op & 0x0f); OP_ORA (tmpv); break; |
1165 | case 0x70: CHECK_1f0(); OP_CHECK32(OP_EORA32); tmpv = REG_READ(op & 0x0f); OP_EORA(tmpv); break; |
5de27868 |
1166 | |
1167 | // OP a, (ri) |
e477f8f7 |
1168 | case 0x11: CHECK_0f0(); tmpv = ptr1_read(op); OP_SUBA(tmpv); break; |
1169 | case 0x31: CHECK_0f0(); tmpv = ptr1_read(op); OP_CMPA(tmpv); break; |
1170 | case 0x41: CHECK_0f0(); tmpv = ptr1_read(op); OP_ADDA(tmpv); break; |
1171 | case 0x51: CHECK_0f0(); tmpv = ptr1_read(op); OP_ANDA(tmpv); break; |
1172 | case 0x61: CHECK_0f0(); tmpv = ptr1_read(op); OP_ORA (tmpv); break; |
1173 | case 0x71: CHECK_0f0(); tmpv = ptr1_read(op); OP_EORA(tmpv); break; |
5de27868 |
1174 | |
1175 | // OP a, adr |
1176 | case 0x03: tmpv = ssp->RAM[op & 0x1ff]; OP_LDA (tmpv); break; |
1177 | case 0x13: tmpv = ssp->RAM[op & 0x1ff]; OP_SUBA(tmpv); break; |
1178 | case 0x33: tmpv = ssp->RAM[op & 0x1ff]; OP_CMPA(tmpv); break; |
1179 | case 0x43: tmpv = ssp->RAM[op & 0x1ff]; OP_ADDA(tmpv); break; |
1180 | case 0x53: tmpv = ssp->RAM[op & 0x1ff]; OP_ANDA(tmpv); break; |
1181 | case 0x63: tmpv = ssp->RAM[op & 0x1ff]; OP_ORA (tmpv); break; |
1182 | case 0x73: tmpv = ssp->RAM[op & 0x1ff]; OP_EORA(tmpv); break; |
1183 | |
1184 | // OP a, imm |
e477f8f7 |
1185 | case 0x14: CHECK_IMM16(); tmpv = *PC++; OP_SUBA(tmpv); g_cycles--; break; |
1186 | case 0x34: CHECK_IMM16(); tmpv = *PC++; OP_CMPA(tmpv); g_cycles--; break; |
1187 | case 0x44: CHECK_IMM16(); tmpv = *PC++; OP_ADDA(tmpv); g_cycles--; break; |
1188 | case 0x54: CHECK_IMM16(); tmpv = *PC++; OP_ANDA(tmpv); g_cycles--; break; |
1189 | case 0x64: CHECK_IMM16(); tmpv = *PC++; OP_ORA (tmpv); g_cycles--; break; |
1190 | case 0x74: CHECK_IMM16(); tmpv = *PC++; OP_EORA(tmpv); g_cycles--; break; |
5de27868 |
1191 | |
1192 | // OP a, ((ri)) |
e477f8f7 |
1193 | case 0x15: CHECK_MOD(); tmpv = ptr2_read(op); OP_SUBA(tmpv); g_cycles -= 2; break; |
1194 | case 0x35: CHECK_MOD(); tmpv = ptr2_read(op); OP_CMPA(tmpv); g_cycles -= 2; break; |
1195 | case 0x45: CHECK_MOD(); tmpv = ptr2_read(op); OP_ADDA(tmpv); g_cycles -= 2; break; |
1196 | case 0x55: CHECK_MOD(); tmpv = ptr2_read(op); OP_ANDA(tmpv); g_cycles -= 2; break; |
1197 | case 0x65: CHECK_MOD(); tmpv = ptr2_read(op); OP_ORA (tmpv); g_cycles -= 2; break; |
1198 | case 0x75: CHECK_MOD(); tmpv = ptr2_read(op); OP_EORA(tmpv); g_cycles -= 2; break; |
5de27868 |
1199 | |
1200 | // OP a, ri |
e477f8f7 |
1201 | case 0x19: CHECK_MOD(); tmpv = rIJ[IJind]; OP_SUBA(tmpv); break; |
1202 | case 0x39: CHECK_MOD(); tmpv = rIJ[IJind]; OP_CMPA(tmpv); break; |
1203 | case 0x49: CHECK_MOD(); tmpv = rIJ[IJind]; OP_ADDA(tmpv); break; |
1204 | case 0x59: CHECK_MOD(); tmpv = rIJ[IJind]; OP_ANDA(tmpv); break; |
1205 | case 0x69: CHECK_MOD(); tmpv = rIJ[IJind]; OP_ORA (tmpv); break; |
1206 | case 0x79: CHECK_MOD(); tmpv = rIJ[IJind]; OP_EORA(tmpv); break; |
5de27868 |
1207 | |
1208 | // OP simm |
e477f8f7 |
1209 | case 0x1c: CHECK_B_SET(); OP_SUBA(op & 0xff); break; |
1210 | case 0x3c: CHECK_B_SET(); OP_CMPA(op & 0xff); break; |
1211 | case 0x4c: CHECK_B_SET(); OP_ADDA(op & 0xff); break; |
1212 | case 0x5c: CHECK_B_SET(); OP_ANDA(op & 0xff); break; |
1213 | case 0x6c: CHECK_B_SET(); OP_ORA (op & 0xff); break; |
1214 | case 0x7c: CHECK_B_SET(); OP_EORA(op & 0xff); break; |
f8ef8ff7 |
1215 | |
1216 | default: |
3554b0a4 |
1217 | elprintf(EL_ANOMALY|EL_SVP, "ssp FIXME unhandled op %04x @ %04x", op, GET_PPC_OFFS()); |
017512f2 |
1218 | break; |
f8ef8ff7 |
1219 | } |
017512f2 |
1220 | g_cycles--; |
f8ef8ff7 |
1221 | } |
1222 | |
1223 | rPC = GET_PC(); |
726bbb3e |
1224 | read_P(); // update P |
f8ef8ff7 |
1225 | } |
1226 | |