struct psx_gpu gpu;
-static noinline int do_cmd_buffer(uint32_t *data, int count, int *cpu_cycles);
+static noinline int do_cmd_buffer(uint32_t *data, int count,
+ int *cycles_sum, int *cycles_last);
static void finish_vram_transfer(int is_read);
static noinline void do_cmd_reset(void)
{
int dummy = 0;
if (unlikely(gpu.cmd_len > 0))
- do_cmd_buffer(gpu.cmd_buffer, gpu.cmd_len, &dummy);
+ do_cmd_buffer(gpu.cmd_buffer, gpu.cmd_len, &dummy, &dummy);
gpu.cmd_len = 0;
if (unlikely(gpu.dma.h > 0))
if (!gpu.frameskip.active && gpu.frameskip.pending_fill[0] != 0) {
int dummy = 0;
- do_cmd_list(gpu.frameskip.pending_fill, 3, &dummy, &dummy);
+ do_cmd_list(gpu.frameskip.pending_fill, 3, &dummy, &dummy, &dummy);
gpu.frameskip.pending_fill[0] = 0;
}
}
case 0x02:
if ((LE32TOH(list[2]) & 0x3ff) > gpu.screen.w || ((LE32TOH(list[2]) >> 16) & 0x1ff) > gpu.screen.h)
// clearing something large, don't skip
- do_cmd_list(list, 3, &dummy, &dummy);
+ do_cmd_list(list, 3, &dummy, &dummy, &dummy);
else
memcpy(gpu.frameskip.pending_fill, list, 3 * 4);
break;
return pos;
}
-static noinline int do_cmd_buffer(uint32_t *data, int count, int *cpu_cycles)
+static noinline int do_cmd_buffer(uint32_t *data, int count,
+ int *cycles_sum, int *cycles_last)
{
int cmd, pos;
uint32_t old_e3 = gpu.ex_regs[3];
cmd = -1; // incomplete cmd, can't consume yet
break;
}
- do_vram_copy(data + pos + 1, cpu_cycles);
+ *cycles_sum += *cycles_last;
+ *cycles_last = 0;
+ do_vram_copy(data + pos + 1, cycles_last);
vram_dirty = 1;
pos += 4;
continue;
if (gpu.frameskip.active && (gpu.frameskip.allow || ((LE32TOH(data[pos]) >> 24) & 0xf0) == 0xe0))
pos += do_cmd_list_skip(data + pos, count - pos, &cmd);
else {
- pos += do_cmd_list(data + pos, count - pos, cpu_cycles, &cmd);
+ pos += do_cmd_list(data + pos, count - pos, cycles_sum, cycles_last, &cmd);
vram_dirty = 1;
}
static noinline void flush_cmd_buffer(void)
{
int dummy = 0, left;
- left = do_cmd_buffer(gpu.cmd_buffer, gpu.cmd_len, &dummy);
+ left = do_cmd_buffer(gpu.cmd_buffer, gpu.cmd_len, &dummy, &dummy);
if (left > 0)
memmove(gpu.cmd_buffer, gpu.cmd_buffer + gpu.cmd_len - left, left * 4);
if (left != gpu.cmd_len) {
if (unlikely(gpu.cmd_len > 0))
flush_cmd_buffer();
- left = do_cmd_buffer(mem, count, &dummy);
+ left = do_cmd_buffer(mem, count, &dummy, &dummy);
if (left)
log_anomaly("GPUwriteDataMem: discarded %d/%d words\n", left, count);
}
flush_cmd_buffer();
}
-long GPUdmaChain(uint32_t *rambase, uint32_t start_addr, uint32_t *progress_addr)
+long GPUdmaChain(uint32_t *rambase, uint32_t start_addr,
+ uint32_t *progress_addr, int32_t *cycles_last_cmd)
{
uint32_t addr, *list, ld_addr = 0;
int len, left, count;
- int cpu_cycles = 0;
+ int cpu_cycles_sum = 0;
+ int cpu_cycles_last = 0;
preload(rambase + (start_addr & 0x1fffff) / 4);
addr = LE32TOH(list[0]) & 0xffffff;
preload(rambase + (addr & 0x1fffff) / 4);
- cpu_cycles += 10;
+ cpu_cycles_sum += 10;
if (len > 0)
- cpu_cycles += 5 + len;
+ cpu_cycles_sum += 5 + len;
- log_io(".chain %08lx #%d+%d %u\n",
- (long)(list - rambase) * 4, len, gpu.cmd_len, cpu_cycles);
+ log_io(".chain %08lx #%d+%d %u+%u\n",
+ (long)(list - rambase) * 4, len, gpu.cmd_len, cpu_cycles_sum, cpu_cycles_last);
if (unlikely(gpu.cmd_len > 0)) {
if (gpu.cmd_len + len > ARRAY_SIZE(gpu.cmd_buffer)) {
log_anomaly("cmd_buffer overflow, likely garbage commands\n");
}
if (len) {
- left = do_cmd_buffer(list + 1, len, &cpu_cycles);
+ left = do_cmd_buffer(list + 1, len, &cpu_cycles_sum, &cpu_cycles_last);
if (left) {
memcpy(gpu.cmd_buffer, list + 1 + len - left, left * 4);
gpu.cmd_len = left;
}
}
+ //printf(" -> %d %d\n", cpu_cycles_sum, cpu_cycles_last);
gpu.state.last_list.frame = *gpu.state.frame_count;
gpu.state.last_list.hcnt = *gpu.state.hcnt;
- gpu.state.last_list.cycles = cpu_cycles;
+ gpu.state.last_list.cycles = cpu_cycles_sum + cpu_cycles_last;
gpu.state.last_list.addr = start_addr;
- return cpu_cycles;
+ *cycles_last_cmd = cpu_cycles_last;
+ return cpu_cycles_sum;
}
void GPUreadDataMem(uint32_t *mem, int count)