void CUCode_AXWii::HandleCommandList()
{
// Temp variables for addresses computation
u16 addr_hi, addr_lo;
u16 addr2_hi, addr2_lo;
u16 volume;
u32 pb_addr = 0;
// WARN_LOG(DSPHLE, "Command list:");
// for (u32 i = 0; m_cmdlist[i] != CMD_END; ++i)
// WARN_LOG(DSPHLE, "%04x", m_cmdlist[i]);
// WARN_LOG(DSPHLE, "-------------");
u32 curr_idx = 0;
bool end = false;
while (!end)
{
u16 cmd = m_cmdlist[curr_idx++];
if (m_old_axwii)
{
switch (cmd)
{
// Some of these commands are unknown, or unused in this AX HLE.
// We still need to skip their arguments using "curr_idx += N".
case CMD_SETUP_OLD:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
SetupProcessing(HILO_TO_32(addr));
break;
case CMD_ADD_TO_LR_OLD:
case CMD_SUB_TO_LR_OLD:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
AddToLR(HILO_TO_32(addr), cmd == CMD_SUB_TO_LR_OLD);
break;
case CMD_ADD_SUB_TO_LR_OLD:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
AddSubToLR(HILO_TO_32(addr));
break;
case CMD_PB_ADDR_OLD:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
pb_addr = HILO_TO_32(addr);
break;
case CMD_PROCESS_OLD:
ProcessPBList(pb_addr);
break;
case CMD_MIX_AUXA_OLD:
case CMD_MIX_AUXB_OLD:
case CMD_MIX_AUXC_OLD:
volume = m_cmdlist[curr_idx++];
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
addr2_hi = m_cmdlist[curr_idx++];
addr2_lo = m_cmdlist[curr_idx++];
MixAUXSamples(cmd - CMD_MIX_AUXA_OLD, HILO_TO_32(addr), HILO_TO_32(addr2), volume);
break;
case CMD_UPL_AUXA_MIX_LRSC_OLD:
case CMD_UPL_AUXB_MIX_LRSC_OLD:
{
volume = m_cmdlist[curr_idx++];
u32 addresses[6] = {
(u32)(m_cmdlist[curr_idx + 0] << 16) | m_cmdlist[curr_idx + 1],
(u32)(m_cmdlist[curr_idx + 2] << 16) | m_cmdlist[curr_idx + 3],
(u32)(m_cmdlist[curr_idx + 4] << 16) | m_cmdlist[curr_idx + 5],
(u32)(m_cmdlist[curr_idx + 6] << 16) | m_cmdlist[curr_idx + 7],
(u32)(m_cmdlist[curr_idx + 8] << 16) | m_cmdlist[curr_idx + 9],
(u32)(m_cmdlist[curr_idx + 10] << 16) | m_cmdlist[curr_idx + 11],
};
curr_idx += 12;
UploadAUXMixLRSC(cmd == CMD_UPL_AUXB_MIX_LRSC_OLD, addresses, volume);
break;
}
// TODO(delroth): figure this one out, it's used by almost every
// game I've tested so far.
case CMD_UNK_0B_OLD: curr_idx += 4; break;
case CMD_OUTPUT_OLD:
case CMD_OUTPUT_DPL2_OLD:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
addr2_hi = m_cmdlist[curr_idx++];
addr2_lo = m_cmdlist[curr_idx++];
OutputSamples(HILO_TO_32(addr2), HILO_TO_32(addr), 0x8000,
cmd == CMD_OUTPUT_DPL2_OLD);
break;
case CMD_WM_OUTPUT_OLD:
{
u32 addresses[4] = {
(u32)(m_cmdlist[curr_idx + 0] << 16) | m_cmdlist[curr_idx + 1],
(u32)(m_cmdlist[curr_idx + 2] << 16) | m_cmdlist[curr_idx + 3],
(u32)(m_cmdlist[curr_idx + 4] << 16) | m_cmdlist[curr_idx + 5],
(u32)(m_cmdlist[curr_idx + 6] << 16) | m_cmdlist[curr_idx + 7],
};
curr_idx += 8;
OutputWMSamples(addresses);
break;
}
case CMD_END_OLD:
end = true;
break;
}
}
else
{
switch (cmd)
{
// Some of these commands are unknown, or unused in this AX HLE.
// We still need to skip their arguments using "curr_idx += N".
case CMD_SETUP:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
SetupProcessing(HILO_TO_32(addr));
break;
case CMD_ADD_TO_LR:
case CMD_SUB_TO_LR:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
AddToLR(HILO_TO_32(addr), cmd == CMD_SUB_TO_LR);
break;
case CMD_ADD_SUB_TO_LR:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
AddSubToLR(HILO_TO_32(addr));
break;
case CMD_PROCESS:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
ProcessPBList(HILO_TO_32(addr));
break;
case CMD_MIX_AUXA:
case CMD_MIX_AUXB:
case CMD_MIX_AUXC:
volume = m_cmdlist[curr_idx++];
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
addr2_hi = m_cmdlist[curr_idx++];
addr2_lo = m_cmdlist[curr_idx++];
MixAUXSamples(cmd - CMD_MIX_AUXA, HILO_TO_32(addr), HILO_TO_32(addr2), volume);
break;
case CMD_UPL_AUXA_MIX_LRSC:
case CMD_UPL_AUXB_MIX_LRSC:
{
volume = m_cmdlist[curr_idx++];
u32 addresses[6] = {
(u32)(m_cmdlist[curr_idx + 0] << 16) | m_cmdlist[curr_idx + 1],
(u32)(m_cmdlist[curr_idx + 2] << 16) | m_cmdlist[curr_idx + 3],
(u32)(m_cmdlist[curr_idx + 4] << 16) | m_cmdlist[curr_idx + 5],
(u32)(m_cmdlist[curr_idx + 6] << 16) | m_cmdlist[curr_idx + 7],
(u32)(m_cmdlist[curr_idx + 8] << 16) | m_cmdlist[curr_idx + 9],
(u32)(m_cmdlist[curr_idx + 10] << 16) | m_cmdlist[curr_idx + 11],
};
curr_idx += 12;
UploadAUXMixLRSC(cmd == CMD_UPL_AUXB_MIX_LRSC, addresses, volume);
break;
}
// TODO(delroth): figure this one out, it's used by almost every
// game I've tested so far.
case CMD_UNK_0A: curr_idx += 4; break;
case CMD_OUTPUT:
case CMD_OUTPUT_DPL2:
volume = m_cmdlist[curr_idx++];
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
addr2_hi = m_cmdlist[curr_idx++];
addr2_lo = m_cmdlist[curr_idx++];
OutputSamples(HILO_TO_32(addr2), HILO_TO_32(addr), volume,
cmd == CMD_OUTPUT_DPL2);
break;
case CMD_WM_OUTPUT:
{
u32 addresses[4] = {
(u32)(m_cmdlist[curr_idx + 0] << 16) | m_cmdlist[curr_idx + 1],
(u32)(m_cmdlist[curr_idx + 2] << 16) | m_cmdlist[curr_idx + 3],
(u32)(m_cmdlist[curr_idx + 4] << 16) | m_cmdlist[curr_idx + 5],
(u32)(m_cmdlist[curr_idx + 6] << 16) | m_cmdlist[curr_idx + 7],
};
curr_idx += 8;
OutputWMSamples(addresses);
break;
}
case CMD_END:
end = true;
break;
}
}
}
}
void CUCode_AXWii::ProcessPBList(u32 pb_addr)
{
AXPBWii pb;
while (pb_addr)
{
AXBuffers buffers = {{
m_samples_left,
m_samples_right,
m_samples_surround,
m_samples_auxA_left,
m_samples_auxA_right,
m_samples_auxA_surround,
m_samples_auxB_left,
m_samples_auxB_right,
m_samples_auxB_surround,
m_samples_auxC_left,
m_samples_auxC_right,
m_samples_auxC_surround,
m_samples_wm0,
m_samples_aux0,
m_samples_wm1,
m_samples_aux1,
m_samples_wm2,
m_samples_aux2,
m_samples_wm3,
m_samples_aux3
}};
if (!ReadPB(pb_addr, pb))
break;
u16 num_updates[3];
u16 updates[1024];
u32 updates_addr;
if (ExtractUpdatesFields(pb, num_updates, updates, &updates_addr))
{
for (int curr_ms = 0; curr_ms < 3; ++curr_ms)
{
ApplyUpdatesForMs(curr_ms, (u16*)&pb, num_updates, updates);
ProcessVoice(pb, buffers, 32,
ConvertMixerControl(HILO_TO_32(pb.mixer_control)),
m_coeffs_available ? m_coeffs : NULL);
// Forward the buffers
for (u32 i = 0; i < sizeof (buffers.ptrs) / sizeof (buffers.ptrs[0]); ++i)
buffers.ptrs[i] += 32;
}
ReinjectUpdatesFields(pb, num_updates, updates_addr);
}
else
{
ProcessVoice(pb, buffers, 96,
ConvertMixerControl(HILO_TO_32(pb.mixer_control)),
m_coeffs_available ? m_coeffs : NULL);
}
WritePB(pb_addr, pb);
pb_addr = HILO_TO_32(pb.next_pb);
}
}
void CUCode_AX::HandleCommandList()
{
// Temp variables for addresses computation
u16 addr_hi, addr_lo;
u16 addr2_hi, addr2_lo;
u16 size;
u32 pb_addr = 0;
#if 0
WARN_LOG(DSPHLE, "Command list:");
for (u32 i = 0; m_cmdlist[i] != CMD_END; ++i)
WARN_LOG(DSPHLE, "%04x", m_cmdlist[i]);
WARN_LOG(DSPHLE, "-------------");
#endif
u32 curr_idx = 0;
bool end = false;
while (!end)
{
u16 cmd = m_cmdlist[curr_idx++];
switch (cmd)
{
// Some of these commands are unknown, or unused in this AX HLE.
// We still need to skip their arguments using "curr_idx += N".
case CMD_SETUP:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
SetupProcessing(HILO_TO_32(addr));
break;
case CMD_DL_AND_VOL_MIX:
{
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
u16 vol_main = m_cmdlist[curr_idx++];
u16 vol_auxa = m_cmdlist[curr_idx++];
u16 vol_auxb = m_cmdlist[curr_idx++];
DownloadAndMixWithVolume(HILO_TO_32(addr), vol_main, vol_auxa, vol_auxb);
break;
}
case CMD_PB_ADDR:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
pb_addr = HILO_TO_32(addr);
break;
case CMD_PROCESS:
ProcessPBList(pb_addr);
break;
case CMD_MIX_AUXA:
case CMD_MIX_AUXB:
// These two commands are handled almost the same internally.
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
addr2_hi = m_cmdlist[curr_idx++];
addr2_lo = m_cmdlist[curr_idx++];
MixAUXSamples(cmd - CMD_MIX_AUXA, HILO_TO_32(addr), HILO_TO_32(addr2));
break;
case CMD_UPLOAD_LRS:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
UploadLRS(HILO_TO_32(addr));
break;
case CMD_SET_LR:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
SetMainLR(HILO_TO_32(addr));
break;
case CMD_UNK_08: curr_idx += 10; break; // TODO: check
case CMD_MIX_AUXB_NOWRITE:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
MixAUXSamples(false, 0, HILO_TO_32(addr));
break;
case CMD_COMPRESSOR_TABLE_ADDR: curr_idx += 2; break;
case CMD_UNK_0B: break; // TODO: check other versions
case CMD_UNK_0C: break; // TODO: check other versions
case CMD_MORE:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
size = m_cmdlist[curr_idx++];
CopyCmdList(HILO_TO_32(addr), size);
curr_idx = 0;
break;
case CMD_OUTPUT:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
addr2_hi = m_cmdlist[curr_idx++];
addr2_lo = m_cmdlist[curr_idx++];
OutputSamples(HILO_TO_32(addr2), HILO_TO_32(addr));
break;
case CMD_END:
end = true;
break;
case CMD_MIX_AUXB_LR:
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
addr2_hi = m_cmdlist[curr_idx++];
addr2_lo = m_cmdlist[curr_idx++];
MixAUXBLR(HILO_TO_32(addr), HILO_TO_32(addr2));
break;
case CMD_UNK_11: curr_idx += 2; break;
case CMD_UNK_12:
{
u16 samp_val = m_cmdlist[curr_idx++];
u16 idx = m_cmdlist[curr_idx++];
addr_hi = m_cmdlist[curr_idx++];
addr_lo = m_cmdlist[curr_idx++];
// TODO
(void)samp_val;
(void)idx;
break;
}
// Send the contents of MAIN LRS, AUXA LRS and AUXB S to RAM, and
// mix data to MAIN LR and AUXB LR.
case CMD_SEND_AUX_AND_MIX:
{
// Address for Main + AUXA LRS upload
u16 main_auxa_up_hi = m_cmdlist[curr_idx++];
u16 main_auxa_up_lo = m_cmdlist[curr_idx++];
// Address for AUXB S upload
u16 auxb_s_up_hi = m_cmdlist[curr_idx++];
u16 auxb_s_up_lo = m_cmdlist[curr_idx++];
// Address to read data for Main L
u16 main_l_dl_hi = m_cmdlist[curr_idx++];
u16 main_l_dl_lo = m_cmdlist[curr_idx++];
// Address to read data for Main R
u16 main_r_dl_hi = m_cmdlist[curr_idx++];
u16 main_r_dl_lo = m_cmdlist[curr_idx++];
// Address to read data for AUXB L
u16 auxb_l_dl_hi = m_cmdlist[curr_idx++];
u16 auxb_l_dl_lo = m_cmdlist[curr_idx++];
// Address to read data for AUXB R
u16 auxb_r_dl_hi = m_cmdlist[curr_idx++];
u16 auxb_r_dl_lo = m_cmdlist[curr_idx++];
SendAUXAndMix(HILO_TO_32(main_auxa_up), HILO_TO_32(auxb_s_up),
HILO_TO_32(main_l_dl), HILO_TO_32(main_r_dl),
HILO_TO_32(auxb_l_dl), HILO_TO_32(auxb_r_dl));
break;
}
default:
ERROR_LOG(DSPHLE, "Unknown command in AX cmdlist: %04x", cmd);
end = true;
break;
}
}
}
