491 lines
14 KiB
C++
491 lines
14 KiB
C++
// Project64 - A Nintendo 64 emulator
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// http://www.pj64-emu.com/
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// Copyright(C) 2001-2021 Project64
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// Copyright(C) 2014 Bobby Smiles
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// Copyright(C) 2009 Richard Goedeken
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// Copyright(C) 2002 Hacktarux
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// GNU/GPLv2 licensed: https://gnu.org/licenses/gpl-2.0.html
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#include "stdafx.h"
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#include "alist.h"
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#include "mem.h"
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/* audio commands definition */
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static void UNKNOWN(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint8_t acmd = (w1 >> 24);
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hle->WarnMessage("Unknown audio command %d: %08x %08x", acmd, w1, w2);
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}
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static void SPNOOP(CHle * UNUSED(hle), uint32_t UNUSED(w1), uint32_t UNUSED(w2))
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{
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}
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static void LOADADPCM(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint16_t count = w1;
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uint32_t address = (w2 & 0xffffff);
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dram_load_u16(hle, (uint16_t*)hle->alist_nead().table, address, count >> 1);
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}
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static void SETLOOP(CHle * hle, uint32_t UNUSED(w1), uint32_t w2)
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{
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hle->alist_nead().loop = w2 & 0xffffff;
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}
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static void SETBUFF(CHle * hle, uint32_t w1, uint32_t w2)
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{
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hle->alist_nead().in = w1;
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hle->alist_nead().out = (w2 >> 16);
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hle->alist_nead().count = w2;
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}
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static void ADPCM(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint8_t flags = (w1 >> 16);
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uint32_t address = (w2 & 0xffffff);
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alist_adpcm(
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hle,
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flags & 0x1,
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flags & 0x2,
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flags & 0x4,
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hle->alist_nead().out,
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hle->alist_nead().in,
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(hle->alist_nead().count + 0x1f) & ~0x1f,
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hle->alist_nead().table,
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hle->alist_nead().loop,
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address);
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}
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static void CLEARBUFF(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint16_t dmem = w1;
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uint16_t count = w2;
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if (count == 0)
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return;
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alist_clear(hle, dmem, count);
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}
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static void LOADBUFF(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint16_t count = (w1 >> 12) & 0xfff;
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uint16_t dmem = (w1 & 0xfff);
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uint32_t address = (w2 & 0xffffff);
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alist_load(hle, dmem, address, count);
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}
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static void SAVEBUFF(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint16_t count = (w1 >> 12) & 0xfff;
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uint16_t dmem = (w1 & 0xfff);
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uint32_t address = (w2 & 0xffffff);
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alist_save(hle, dmem, address, count);
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}
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static void MIXER(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint16_t count = (w1 >> 12) & 0xff0;
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int16_t gain = w1;
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uint16_t dmemi = (w2 >> 16);
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uint16_t dmemo = w2;
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alist_mix(hle, dmemo, dmemi, count, gain);
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}
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static void RESAMPLE(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint8_t flags = (w1 >> 16);
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uint16_t pitch = w1;
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uint32_t address = (w2 & 0xffffff);
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alist_resample(
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hle,
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flags & 0x1,
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false, /* TODO: check which ABI supports it */
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hle->alist_nead().out,
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hle->alist_nead().in,
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(hle->alist_nead().count + 0xf) & ~0xf,
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pitch << 1,
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address);
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}
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static void RESAMPLE_ZOH(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint16_t pitch = w1;
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uint16_t pitch_accu = w2;
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alist_resample_zoh(
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hle,
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hle->alist_nead().out,
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hle->alist_nead().in,
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hle->alist_nead().count,
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pitch << 1,
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pitch_accu);
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}
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static void DMEMMOVE(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint16_t dmemi = w1;
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uint16_t dmemo = (w2 >> 16);
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uint16_t count = w2;
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if (count == 0)
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return;
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alist_move(hle, dmemo, dmemi, (count + 3) & ~3);
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}
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static void ENVSETUP1_MK(CHle * hle, uint32_t w1, uint32_t w2)
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{
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hle->alist_nead().env_values[2] = (w1 >> 8) & 0xff00;
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hle->alist_nead().env_steps[2] = 0;
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hle->alist_nead().env_steps[0] = (w2 >> 16);
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hle->alist_nead().env_steps[1] = w2;
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}
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static void ENVSETUP1(CHle * hle, uint32_t w1, uint32_t w2)
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{
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hle->alist_nead().env_values[2] = (w1 >> 8) & 0xff00;
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hle->alist_nead().env_steps[2] = w1;
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hle->alist_nead().env_steps[0] = (w2 >> 16);
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hle->alist_nead().env_steps[1] = w2;
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}
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static void ENVSETUP2(CHle * hle, uint32_t UNUSED(w1), uint32_t w2)
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{
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hle->alist_nead().env_values[0] = (w2 >> 16);
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hle->alist_nead().env_values[1] = w2;
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}
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static void ENVMIXER_MK(CHle * hle, uint32_t w1, uint32_t w2)
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{
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int16_t xors[4];
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uint16_t dmemi = (w1 >> 12) & 0xff0;
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uint8_t count = (w1 >> 8) & 0xff;
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uint16_t dmem_dl = (w2 >> 20) & 0xff0;
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uint16_t dmem_dr = (w2 >> 12) & 0xff0;
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uint16_t dmem_wl = (w2 >> 4) & 0xff0;
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uint16_t dmem_wr = (w2 << 4) & 0xff0;
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xors[2] = 0; /* unsupported by this ucode */
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xors[3] = 0; /* unsupported by this ucode */
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xors[0] = 0 - (int16_t)((w1 & 0x2) >> 1);
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xors[1] = 0 - (int16_t)((w1 & 0x1) );
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alist_envmix_nead(
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hle,
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false, /* unsupported by this ucode */
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dmem_dl, dmem_dr,
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dmem_wl, dmem_wr,
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dmemi, count,
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hle->alist_nead().env_values,
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hle->alist_nead().env_steps,
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xors);
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}
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static void ENVMIXER(CHle * hle, uint32_t w1, uint32_t w2)
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{
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int16_t xors[4];
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uint16_t dmemi = (w1 >> 12) & 0xff0;
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uint8_t count = (w1 >> 8) & 0xff;
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bool swap_wet_LR = (w1 >> 4) & 0x1;
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uint16_t dmem_dl = (w2 >> 20) & 0xff0;
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uint16_t dmem_dr = (w2 >> 12) & 0xff0;
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uint16_t dmem_wl = (w2 >> 4) & 0xff0;
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uint16_t dmem_wr = (w2 << 4) & 0xff0;
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xors[2] = 0 - (int16_t)((w1 & 0x8) >> 1);
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xors[3] = 0 - (int16_t)((w1 & 0x4) >> 1);
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xors[0] = 0 - (int16_t)((w1 & 0x2) >> 1);
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xors[1] = 0 - (int16_t)((w1 & 0x1) );
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alist_envmix_nead(
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hle,
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swap_wet_LR,
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dmem_dl, dmem_dr,
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dmem_wl, dmem_wr,
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dmemi, count,
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hle->alist_nead().env_values,
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hle->alist_nead().env_steps,
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xors);
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}
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static void DUPLICATE(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint8_t count = (w1 >> 16);
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uint16_t dmemi = w1;
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uint16_t dmemo = (w2 >> 16);
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alist_repeat64(hle, dmemo, dmemi, count);
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}
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static void INTERL(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint16_t count = w1;
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uint16_t dmemi = (w2 >> 16);
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uint16_t dmemo = w2;
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alist_copy_every_other_sample(hle, dmemo, dmemi, count);
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}
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static void INTERLEAVE_MK(CHle * hle, uint32_t UNUSED(w1), uint32_t w2)
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{
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uint16_t left = (w2 >> 16);
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uint16_t right = w2;
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if (hle->alist_nead().count == 0)
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return;
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alist_interleave(hle, hle->alist_nead().out, left, right, hle->alist_nead().count);
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}
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static void INTERLEAVE(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint16_t count = ((w1 >> 12) & 0xff0);
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uint16_t dmemo = w1;
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uint16_t left = (w2 >> 16);
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uint16_t right = w2;
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alist_interleave(hle, dmemo, left, right, count);
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}
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static void ADDMIXER(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint16_t count = (w1 >> 12) & 0xff0;
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uint16_t dmemi = (w2 >> 16);
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uint16_t dmemo = w2;
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alist_add(hle, dmemo, dmemi, count);
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}
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static void HILOGAIN(CHle * hle, uint32_t w1, uint32_t w2)
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{
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int8_t gain = (w1 >> 16); /* Q4.4 signed */
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uint16_t count = w1;
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uint16_t dmem = (w2 >> 16);
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alist_multQ44(hle, dmem, count, gain);
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}
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static void FILTER(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint8_t flags = (w1 >> 16);
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uint32_t address = (w2 & 0xffffff);
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if (flags > 1) {
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hle->alist_nead().filter_count = w1;
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hle->alist_nead().filter_lut_address[0] = address; /* t6 */
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}
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else {
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uint16_t dmem = w1;
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hle->alist_nead().filter_lut_address[1] = address + 0x10; /* t5 */
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alist_filter(hle, dmem, hle->alist_nead().filter_count, address, hle->alist_nead().filter_lut_address);
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}
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}
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static void SEGMENT(CHle * UNUSED(hle), uint32_t UNUSED(w1), uint32_t UNUSED(w2))
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{
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}
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static void NEAD_16(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint8_t count = (w1 >> 16);
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uint16_t dmemi = w1;
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uint16_t dmemo = (w2 >> 16);
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uint16_t block_size = w2;
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alist_copy_blocks(hle, dmemo, dmemi, block_size, count);
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}
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static void POLEF(CHle * hle, uint32_t w1, uint32_t w2)
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{
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uint8_t flags = (w1 >> 16);
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uint16_t gain = w1;
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uint32_t address = (w2 & 0xffffff);
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if (hle->alist_nead().count == 0)
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return;
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alist_polef(
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hle,
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flags & A_INIT,
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hle->alist_nead().out,
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hle->alist_nead().in,
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hle->alist_nead().count,
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gain,
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hle->alist_nead().table,
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address);
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}
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void alist_process_nead_mk(CHle * hle)
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{
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static const acmd_callback_t ABI[0x20] = {
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SPNOOP, ADPCM, CLEARBUFF, SPNOOP,
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SPNOOP, RESAMPLE, SPNOOP, SEGMENT,
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SETBUFF, SPNOOP, DMEMMOVE, LOADADPCM,
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MIXER, INTERLEAVE_MK, POLEF, SETLOOP,
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NEAD_16, INTERL, ENVSETUP1_MK, ENVMIXER_MK,
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LOADBUFF, SAVEBUFF, ENVSETUP2, SPNOOP,
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SPNOOP, SPNOOP, SPNOOP, SPNOOP,
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SPNOOP, SPNOOP, SPNOOP, SPNOOP
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};
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alist_process(hle, ABI, 0x20);
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}
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void alist_process_nead_sf(CHle * hle)
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{
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static const acmd_callback_t ABI[0x20] = {
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SPNOOP, ADPCM, CLEARBUFF, SPNOOP,
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ADDMIXER, RESAMPLE, RESAMPLE_ZOH, SPNOOP,
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SETBUFF, SPNOOP, DMEMMOVE, LOADADPCM,
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MIXER, INTERLEAVE_MK, POLEF, SETLOOP,
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NEAD_16, INTERL, ENVSETUP1, ENVMIXER,
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LOADBUFF, SAVEBUFF, ENVSETUP2, SPNOOP,
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HILOGAIN, UNKNOWN, DUPLICATE, SPNOOP,
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SPNOOP, SPNOOP, SPNOOP, SPNOOP
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};
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alist_process(hle, ABI, 0x20);
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}
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void alist_process_nead_sfj(CHle * hle)
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{
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static const acmd_callback_t ABI[0x20] = {
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SPNOOP, ADPCM, CLEARBUFF, SPNOOP,
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ADDMIXER, RESAMPLE, RESAMPLE_ZOH, SPNOOP,
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SETBUFF, SPNOOP, DMEMMOVE, LOADADPCM,
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MIXER, INTERLEAVE_MK, POLEF, SETLOOP,
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NEAD_16, INTERL, ENVSETUP1, ENVMIXER,
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LOADBUFF, SAVEBUFF, ENVSETUP2, UNKNOWN,
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HILOGAIN, UNKNOWN, DUPLICATE, SPNOOP,
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SPNOOP, SPNOOP, SPNOOP, SPNOOP
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};
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alist_process(hle, ABI, 0x20);
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}
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void alist_process_nead_fz(CHle * hle)
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{
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static const acmd_callback_t ABI[0x20] = {
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UNKNOWN, ADPCM, CLEARBUFF, SPNOOP,
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ADDMIXER, RESAMPLE, SPNOOP, SPNOOP,
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SETBUFF, SPNOOP, DMEMMOVE, LOADADPCM,
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MIXER, INTERLEAVE, SPNOOP, SETLOOP,
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NEAD_16, INTERL, ENVSETUP1, ENVMIXER,
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LOADBUFF, SAVEBUFF, ENVSETUP2, UNKNOWN,
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SPNOOP, UNKNOWN, DUPLICATE, SPNOOP,
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SPNOOP, SPNOOP, SPNOOP, SPNOOP
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};
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alist_process(hle, ABI, 0x20);
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}
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void alist_process_nead_wrjb(CHle * hle)
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{
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static const acmd_callback_t ABI[0x20] = {
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SPNOOP, ADPCM, CLEARBUFF, UNKNOWN,
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ADDMIXER, RESAMPLE, RESAMPLE_ZOH, SPNOOP,
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SETBUFF, SPNOOP, DMEMMOVE, LOADADPCM,
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MIXER, INTERLEAVE, SPNOOP, SETLOOP,
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NEAD_16, INTERL, ENVSETUP1, ENVMIXER,
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LOADBUFF, SAVEBUFF, ENVSETUP2, UNKNOWN,
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HILOGAIN, UNKNOWN, DUPLICATE, FILTER,
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SPNOOP, SPNOOP, SPNOOP, SPNOOP
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};
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alist_process(hle, ABI, 0x20);
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}
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void alist_process_nead_ys(CHle * hle)
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{
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static const acmd_callback_t ABI[0x18] = {
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UNKNOWN, ADPCM, CLEARBUFF, UNKNOWN,
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ADDMIXER, RESAMPLE, RESAMPLE_ZOH, FILTER,
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SETBUFF, DUPLICATE, DMEMMOVE, LOADADPCM,
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MIXER, INTERLEAVE, HILOGAIN, SETLOOP,
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NEAD_16, INTERL, ENVSETUP1, ENVMIXER,
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LOADBUFF, SAVEBUFF, ENVSETUP2, UNKNOWN
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};
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alist_process(hle, ABI, 0x18);
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}
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void alist_process_nead_1080(CHle * hle)
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{
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static const acmd_callback_t ABI[0x18] = {
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UNKNOWN, ADPCM, CLEARBUFF, UNKNOWN,
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ADDMIXER, RESAMPLE, RESAMPLE_ZOH, FILTER,
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SETBUFF, DUPLICATE, DMEMMOVE, LOADADPCM,
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MIXER, INTERLEAVE, HILOGAIN, SETLOOP,
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NEAD_16, INTERL, ENVSETUP1, ENVMIXER,
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LOADBUFF, SAVEBUFF, ENVSETUP2, UNKNOWN
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};
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alist_process(hle, ABI, 0x18);
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}
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void alist_process_nead_oot(CHle * hle)
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{
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static const acmd_callback_t ABI[0x18] = {
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UNKNOWN, ADPCM, CLEARBUFF, UNKNOWN,
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ADDMIXER, RESAMPLE, RESAMPLE_ZOH, FILTER,
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SETBUFF, DUPLICATE, DMEMMOVE, LOADADPCM,
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MIXER, INTERLEAVE, HILOGAIN, SETLOOP,
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NEAD_16, INTERL, ENVSETUP1, ENVMIXER,
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LOADBUFF, SAVEBUFF, ENVSETUP2, UNKNOWN
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};
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alist_process(hle, ABI, 0x18);
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}
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void alist_process_nead_mm(CHle * hle)
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{
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static const acmd_callback_t ABI[0x18] = {
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UNKNOWN, ADPCM, CLEARBUFF, SPNOOP,
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ADDMIXER, RESAMPLE, RESAMPLE_ZOH, FILTER,
|
|
SETBUFF, DUPLICATE, DMEMMOVE, LOADADPCM,
|
|
MIXER, INTERLEAVE, HILOGAIN, SETLOOP,
|
|
NEAD_16, INTERL, ENVSETUP1, ENVMIXER,
|
|
LOADBUFF, SAVEBUFF, ENVSETUP2, UNKNOWN
|
|
};
|
|
|
|
alist_process(hle, ABI, 0x18);
|
|
}
|
|
|
|
void alist_process_nead_mmb(CHle * hle)
|
|
{
|
|
static const acmd_callback_t ABI[0x18] = {
|
|
SPNOOP, ADPCM, CLEARBUFF, SPNOOP,
|
|
ADDMIXER, RESAMPLE, RESAMPLE_ZOH, FILTER,
|
|
SETBUFF, DUPLICATE, DMEMMOVE, LOADADPCM,
|
|
MIXER, INTERLEAVE, HILOGAIN, SETLOOP,
|
|
NEAD_16, INTERL, ENVSETUP1, ENVMIXER,
|
|
LOADBUFF, SAVEBUFF, ENVSETUP2, UNKNOWN
|
|
};
|
|
|
|
alist_process(hle, ABI, 0x18);
|
|
}
|
|
|
|
void alist_process_nead_ac(CHle * hle)
|
|
{
|
|
static const acmd_callback_t ABI[0x18] = {
|
|
UNKNOWN, ADPCM, CLEARBUFF, SPNOOP,
|
|
ADDMIXER, RESAMPLE, RESAMPLE_ZOH, FILTER,
|
|
SETBUFF, DUPLICATE, DMEMMOVE, LOADADPCM,
|
|
MIXER, INTERLEAVE, HILOGAIN, SETLOOP,
|
|
NEAD_16, INTERL, ENVSETUP1, ENVMIXER,
|
|
LOADBUFF, SAVEBUFF, ENVSETUP2, UNKNOWN
|
|
};
|
|
|
|
alist_process(hle, ABI, 0x18);
|
|
} |