2009-02-09 21:15:56 +00:00
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/* ZeroSPU2
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2010-01-16 16:08:17 +00:00
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* Copyright (C) 2006-2010 zerofrog
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2009-02-09 21:15:56 +00:00
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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#ifndef __REG_H__
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#define __REG_H__
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////////////////////
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// SPU2 Registers //
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////////////////////
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enum
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{
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// Volume Registers - currently not implemented in ZeroSPU2, like most volume registers.
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REG_VP_VOLL = 0x0000, // Voice Volume Left
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REG_VP_VOLR = 0x0002, // Voice Volume Right
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REG_VP_PITCH = 0x0004, // Pitch
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REG_VP_ADSR1 = 0x0006, // Envelope 1 (Attack-Decay-Sustain-Release)
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REG_VP_ADSR2 = 0x0008, // Envelope 2 (Attack-Decay-Sustain-Release)
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REG_VP_ENVX = 0x000A, // Current Envelope
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REG_VP_VOLXL = 0x000C, // Current Voice Volume Left
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REG_VP_VOLXR = 0x000E, // Current Voice Volume Right
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// end unimplemented section
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REG_C0_FMOD1 = 0x0180, // Pitch Modulation Spec.
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REG_C0_FMOD2 = 0x0182,
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REG_S_NON = 0x0184, // Alloc Noise Generator - unimplemented
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REG_C0_VMIXL1 = 0x0188, // Voice Output Mix Left (Dry)
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REG_C0_VMIXL2 = 0x018A,
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REG_S_VMIXEL = 0x018C, // Voice Output Mix Left (Wet) - unimplemented
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REG_C0_VMIXR1 = 0x0190, // Voice Output Mix Right (Dry)
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REG_C0_VMIXR2 = 0x0192,
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REG_S_VMIXER = 0x0194, // Voice Output Mix Right (Wet) - unimplemented
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REG_C0_MMIX = 0x0198, // Output Spec. After Voice Mix
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REG_C0_CTRL = 0x019A, // Core X Attrib
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REG_C0_IRQA_HI = 0x019C, // Interrupt Address Spec. - Hi
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REG_C0_IRQA_LO = 0x019E, // Interrupt Address Spec. - Lo
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REG_C0_SPUON1 = 0x01A0, // Key On 0/1
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REG_C0_SPUON2 = 0x01A2,
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REG_C0_SPUOFF1 = 0x01A4, // Key Off 0/1
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REG_C0_SPUOFF2 = 0x01A6,
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REG_C0_SPUADDR_HI = 0x01A8, // Transfer starting address - hi
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REG_C0_SPUADDR_LO = 0x01AA, // Transfer starting address - lo
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REG_C0_SPUDATA = 0x01AC, // Transfer data
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REG_C0_DMACTRL = 0x01AE, // unimplemented
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REG_C0_ADMAS = 0x01B0, // AutoDMA Status
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// Section Unimplemented
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// Actually, some are implemented but weren't using the constants.
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REG_VA_SSA = 0x01C0, // Waveform data starting address
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REG_VA_LSAX = 0x01C4, // Loop point address
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REG_VA_NAX = 0x01C8, // Waveform data that should be read next
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REG_A_ESA = 0x02E0, //Address: Top address of working area for effects processing
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R_FB_SRC_A = 0x02E4, // Feedback Source A
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R_FB_SRC_B = 0x02E8, // Feedback Source B
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R_IIR_DEST_A0 = 0x02EC,
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R_IIR_DEST_A1 = 0x02F0,
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R_ACC_SRC_A0 = 0x02F4,
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R_ACC_SRC_A1 = 0x02F8,
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R_ACC_SRC_B0 = 0x02FC,
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R_ACC_SRC_B1 = 0x0300,
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R_IIR_SRC_A0 = 0x0304,
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R_IIR_SRC_A1 = 0x0308,
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R_IIR_DEST_B0 = 0x030C,
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R_IIR_DEST_B1 = 0x0310,
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R_ACC_SRC_C0 = 0x0314,
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R_ACC_SRC_C1 = 0x0318,
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R_ACC_SRC_D0 = 0x031C,
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R_ACC_SRC_D1 = 0x0320,
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R_IIR_SRC_B1 = 0x0324,
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R_IIR_SRC_B0 = 0x0328,
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R_MIX_DEST_A0 = 0x032C,
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R_MIX_DEST_A1 = 0x0330,
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R_MIX_DEST_B0 = 0x0334,
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R_MIX_DEST_B1 = 0x0338,
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REG_A_EEA = 0x033C, // Address: End address of working area for effects processing (upper part of address only!)
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// end unimplemented section
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REG_C0_END1 = 0x0340, // End Point passed flag
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REG_C0_END2 = 0x0342,
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REG_C0_SPUSTAT = 0x0344, // Status register?
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// core 1 has the same registers with 0x400 added, and ends at 0x746.
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REG_C1_FMOD1 = 0x0580,
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REG_C1_FMOD2 = 0x0582,
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REG_C1_VMIXL1 = 0x0588,
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REG_C1_VMIXL2 = 0x058A,
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REG_C1_VMIXR1 = 0x0590,
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REG_C1_VMIXR2 = 0x0592,
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REG_C1_MMIX = 0x0598,
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REG_C1_CTRL = 0x059A,
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REG_C1_IRQA_HI = 0x059C,
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REG_C1_IRQA_LO = 0x059E,
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REG_C1_SPUON1 = 0x05A0,
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REG_C1_SPUON2 = 0x05A2,
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REG_C1_SPUOFF1 = 0x05A4,
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REG_C1_SPUOFF2 = 0x05A6,
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REG_C1_SPUADDR_HI = 0x05A8,
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REG_C1_SPUADDR_LO = 0x05AA,
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REG_C1_SPUDATA = 0x05AC,
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REG_C1_DMACTRL = 0x05AE, // unimplemented
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REG_C1_ADMAS = 0x05B0,
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REG_C1_END1 = 0x0740,
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REG_C1_END2 = 0x0742,
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REG_C1_SPUSTAT = 0x0744,
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// Interesting to note that *most* of the volume controls aren't implemented in Zerospu2.
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REG_P_MVOLL = 0x0760, // Master Volume Left - unimplemented
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REG_P_MVOLR = 0x0762, // Master Volume Right - unimplemented
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REG_P_EVOLL = 0x0764, // Effect Volume Left - unimplemented
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REG_P_EVOLR = 0x0766, // Effect Volume Right - unimplemented
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REG_P_AVOLL = 0x0768, // Core External Input Volume Left (Only Core 1) - unimplemented
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REG_P_AVOLR = 0x076A, // Core External Input Volume Right (Only Core 1) - unimplemented
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REG_C0_BVOLL = 0x076C, // Sound Data Volume Left
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REG_C0_BVOLR = 0x076E, // Sound Data Volume Right
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REG_P_MVOLXL = 0x0770, // Current Master Volume Left - unimplemented
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REG_P_MVOLXR = 0x0772, // Current Master Volume Right - unimplemented
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// Another unimplemented section
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R_IIR_ALPHA = 0x0774, // IIR alpha (% used)
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R_ACC_COEF_A = 0x0776,
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R_ACC_COEF_B = 0x0778,
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R_ACC_COEF_C = 0x077A,
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R_ACC_COEF_D = 0x077C,
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R_IIR_COEF = 0x077E,
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R_FB_ALPHA = 0x0780, // feedback alpha (% used)
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R_FB_X = 0x0782, // feedback
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R_IN_COEF_L = 0x0784,
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R_IN_COEF_R = 0x0786,
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// end unimplemented section
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REG_C1_BVOLL = 0x0794,
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REG_C1_BVOLR = 0x0796,
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SPDIF_OUT = 0x07C0, // SPDIF Out: OFF/'PCM'/Bitstream/Bypass - unimplemented
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REG_IRQINFO = 0x07C2,
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SPDIF_MODE = 0x07C6, // unimplemented
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SPDIF_MEDIA = 0x07C8, // SPDIF Media: 'CD'/DVD - unimplemented
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SPDIF_COPY_PROT = 0x07CC // SPDIF Copy Protection - unimplemented
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// NOTE: SPDIF_COPY is defined in Linux kernel headers as 0x0004.
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};
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2010-02-12 11:42:29 +00:00
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// Not sure if this is a good idea, but I don't feel like retyping it, so I'll leave it in for now.
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/*struct core_registers
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{
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u16 pad[179];
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u16 fmod1; u16 pad1;
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u16 fmod2; u16 pad2;
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u16 s_non; u16 pad3[3];
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u16 vmix_l1; u16 pad4;
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u16 vmix_l2; u16 pad5;
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u16 vmixel; u16 pad6[3];
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u16 vmixr1; u16 pad7;
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u16 vmixr2; u16 pad8;
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u16 vmixer; u16 pad9[3];
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u16 mmix; u16 pad10;
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u16 attr; u16 pad11;
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u16 irqa_hi; u16 pad12;
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u16 irqa_lo; u16 pad13;
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u16 spu_on_1; u16 pad14;
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u16 spu_on_2; u16 pad15;
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u16 spu_off_1; u16 pad16;
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u16 spu_off_2; u16 pad17;
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u16 spu_addr_hi; u16 pad18;
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u16 spu_addr_lo; u16 pad19;
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u16 spu_data; u16 pad20;
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u16 dma_ctrl; u16 pad21;
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u16 admas; u16 pad22[16];
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// Not complete past this point (not padded properly)
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u16 va_ssa; u16 pad23[3]; //0x01C0, // Waveform data starting address
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u16 va_lsax; u16 pad24[3]; //0x01C4, // Loop point address
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u16 va_nax; u16 pad25; //0x01C8, // Waveform data that should be read next
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u16 a_esa; u16 pad26; //0x02E0, //Address: Top address of working area for effects processing
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u16 fb_src_a; u16 pad27; //0x02E4, // Feedback Source A
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u16 fb_sra_b; u16 pad28; //0x02E8, // Feedback Source B
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u16 iir_dest_a0; u16 pad29; //0x02EC,
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u16 iir_dest_a1; u16 pad30; //0x02F0,
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u16 acc_src_a0; u16 pad31; //0x02F4,
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u16 acc_src_a1; u16 pad32; //0x02F8,
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u16 acc_src_b0; u16 pad33; //0x02FC,
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u16 acc_src_b1; u16 pad34; //0x0300,
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u16 iir_src_a0; u16 pad35; //0x0304,
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u16 iir_src_a1; u16 pad36; //0x0308,
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u16 iir_dest_b0; u16 pad37; //0x030C,
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u16 iir_dest_b1; u16 pad38; //0x0310,
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u16 acc_src_c0; u16 pad39; //0x0314,
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u16 acc_src_c1; u16 pad40; //0x0318,
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u16 acc_src_d0; u16 pad41; //0x031C,
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u16 acc_src_d1; u16 pad42; // 0x0320,
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u16 iir_src_b1; u16 pad43; //0x0324,
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u16 iir_src_b0; u16 pad44; //0x0328,
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u16 mix_dest_a0; u16 pad45; //0x032C,
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u16 mix_dest_a1; u16 pad46; //0x0330,
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u16 mix_dest_b0; u16 pad47; //0x0334,
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u16 mix_dest_b1; u16 pad48; // 0x0338,
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u16 a_eea; u16 pad49; //0x033C,
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u16 end1; u16 pad 50; //0x0340, // End Point passed flag
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u16 end2; u16 pad 51; //0x0342,
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u16 statx; //0x0344, // Status register?
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};*/
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2009-02-09 21:15:56 +00:00
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// These SPDIF defines aren't used yet - swiped from spu2ghz, like a number of the registers I added in.
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// -- arcum42
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#define SPDIF_OUT_OFF 0x0000 //no spdif output
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#define SPDIF_OUT_PCM 0x0020 //encode spdif from spu2 pcm output
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#define SPDIF_OUT_BYPASS 0x0100 //bypass spu2 processing
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#define SPDIF_MODE_BYPASS_BITSTREAM 0x0002 //bypass mode for digital bitstream data
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#define SPDIF_MODE_BYPASS_PCM 0x0000 //bypass mode for pcm data (using analog output)
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#define SPDIF_MODE_MEDIA_CD 0x0800 //source media is a CD
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#define SPDIF_MODE_MEDIA_DVD 0x0000 //source media is a DVD
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#define SPDIF_MEDIA_CDVD 0x0200
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#define SPDIF_MEDIA_400 0x0000
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#define SPDIF_COPY_NORMAL 0x0000 // spdif stream is not protected
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#define SPDIF_COPY_PROHIBIT 0x8000 // spdif stream can't be copied
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#define SPU_AUTODMA_ONESHOT 0 //spu2
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#define SPU_AUTODMA_LOOP 1 //spu2
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#define SPU_AUTODMA_START_ADDR (1 << 1) //spu2
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2010-01-16 16:08:17 +00:00
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#endif
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