pcsx2/plugins/spu2-x/src/RegLog.cpp

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/* SPU2-X, A plugin for Emulating the Sound Processing Unit of the Playstation 2
* Developed and maintained by the Pcsx2 Development Team.
*
* Original portions from SPU2ghz are (c) 2008 by David Quintana [gigaherz]
*
* SPU2-X is free software: you can redistribute it and/or modify it under the terms
* of the GNU Lesser General Public License as published by the Free Software Found-
* ation, either version 3 of the License, or (at your option) any later version.
*
* SPU2-X is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
* without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
* PURPOSE. See the GNU Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with SPU2-X. If not, see <http://www.gnu.org/licenses/>.
*/
#include "Global.h"
const char *ParamNames[8]={"VOLL","VOLR","PITCH","ADSR1","ADSR2","ENVX","VOLXL","VOLXR"};
const char *AddressNames[6]={"SSAH","SSAL","LSAH","LSAL","NAXH","NAXL"};
__forceinline void _RegLog_( const char* action, int level, char *RName, u32 mem, u32 core, u16 value )
{
if( level > 1 )
FileLog("[%10d] SPU2 %s mem %08x (core %d, register %s) value %04x\n",
Cycles, action, mem, core, RName, value);
}
#define RegLog( lev, rname, mem, core, val ) _RegLog_( action, lev, rname, mem, core, val )
void SPU2writeLog( const char* action, u32 rmem, u16 value )
{
if( !IsDevBuild ) return;
u32 vx=0, vc=0, core=0, omem, mem;
omem=mem=rmem & 0x7FF; //FFFF;
if (mem & 0x400) { omem^=0x400; core=1; }
if( omem < 0x0180 ) // Voice Params (VP)
{
const u32 voice = (omem & 0x1F0) >> 4;
const u32 param = (omem & 0xF) >> 1;
char dest[192];
sprintf( dest, "Voice %d %s", voice,ParamNames[param] );
RegLog( 2, dest, rmem, core, value );
}
else if ((omem >= 0x01C0) && (omem < 0x02DE)) // Voice Addressing Params (VA)
{
const u32 voice = ((omem-0x01C0) / 12);
const u32 address = ((omem-0x01C0) % 12)>>1;
char dest[192];
sprintf( dest, "Voice %d %s", voice, AddressNames[address] );
RegLog( 2, dest, rmem, core, value );
}
else if ((mem >= 0x0760) && (mem < 0x07b0))
{
omem=mem; core=0;
if (mem >= 0x0788) {omem-=0x28; core=1;}
switch(omem)
{
case REG_P_EVOLL: RegLog(2,"EVOLL",rmem,core,value); break;
case REG_P_EVOLR: RegLog(2,"EVOLR",rmem,core,value); break;
case REG_P_AVOLL: if (core) { RegLog(2,"AVOLL",rmem,core,value); } break;
case REG_P_AVOLR: if (core) { RegLog(2,"AVOLR",rmem,core,value); } break;
case REG_P_BVOLL: RegLog(2,"BVOLL",rmem,core,value); break;
case REG_P_BVOLR: RegLog(2,"BVOLR",rmem,core,value); break;
case REG_P_MVOLXL: RegLog(2,"MVOLXL",rmem,core,value); break;
case REG_P_MVOLXR: RegLog(2,"MVOLXR",rmem,core,value); break;
case R_IIR_ALPHA: RegLog(2,"IIR_ALPHA",rmem,core,value); break;
case R_ACC_COEF_A: RegLog(2,"ACC_COEF_A",rmem,core,value); break;
case R_ACC_COEF_B: RegLog(2,"ACC_COEF_B",rmem,core,value); break;
case R_ACC_COEF_C: RegLog(2,"ACC_COEF_C",rmem,core,value); break;
case R_ACC_COEF_D: RegLog(2,"ACC_COEF_D",rmem,core,value); break;
case R_IIR_COEF: RegLog(2,"IIR_COEF",rmem,core,value); break;
case R_FB_ALPHA: RegLog(2,"FB_ALPHA",rmem,core,value); break;
case R_FB_X: RegLog(2,"FB_X",rmem,core,value); break;
case R_IN_COEF_L: RegLog(2,"IN_COEF_L",rmem,core,value); break;
case R_IN_COEF_R: RegLog(2,"IN_COEF_R",rmem,core,value); break;
}
}
else if ((mem>=0x07C0) && (mem<0x07CE))
{
switch(mem)
{
case SPDIF_OUT:
RegLog(2,"SPDIF_OUT",rmem,-1,value);
break;
case SPDIF_IRQINFO:
RegLog(2,"SPDIF_IRQINFO",rmem,-1,value);
break;
case 0x7c4:
if(Spdif.Unknown1 != value) ConLog(" * SPU2: SPDIF Unknown Register 1 set to %04x\n",value);
RegLog(2,"SPDIF_UNKNOWN1",rmem,-1,value);
break;
case SPDIF_MODE:
if(Spdif.Mode != value) ConLog(" * SPU2: SPDIF Mode set to %04x\n",value);
RegLog(2,"SPDIF_MODE",rmem,-1,value);
break;
case SPDIF_MEDIA:
if(Spdif.Media != value) ConLog(" * SPU2: SPDIF Media set to %04x\n",value);
RegLog(2,"SPDIF_MEDIA",rmem,-1,value);
break;
case 0x7ca:
if(Spdif.Unknown2 != value) ConLog(" * SPU2: SPDIF Unknown Register 2 set to %04x\n",value);
RegLog(2,"SPDIF_UNKNOWN2",rmem,-1,value);
break;
case SPDIF_PROTECT:
if(Spdif.Protection != value) ConLog(" * SPU2: SPDIF Copy set to %04x\n",value);
RegLog(2,"SPDIF_PROTECT",rmem,-1,value);
break;
}
UpdateSpdifMode();
}
else
{
switch(omem)
{
case REG_C_ATTR:
RegLog(4,"ATTR",rmem,core,value);
break;
case REG_S_PMON:
RegLog(1,"PMON0",rmem,core,value);
break;
case (REG_S_PMON + 2):
RegLog(1,"PMON1",rmem,core,value);
break;
case REG_S_NON:
RegLog(1,"NON0",rmem,core,value);
break;
case (REG_S_NON + 2):
RegLog(1,"NON1",rmem,core,value);
break;
case REG_S_VMIXL:
RegLog(1,"VMIXL0",rmem,core,value);
case (REG_S_VMIXL + 2):
RegLog(1,"VMIXL1",rmem,core,value);
break;
case REG_S_VMIXEL:
RegLog(1,"VMIXEL0",rmem,core,value);
break;
case (REG_S_VMIXEL + 2):
RegLog(1,"VMIXEL1",rmem,core,value);
break;
case REG_S_VMIXR:
RegLog(1,"VMIXR0",rmem,core,value);
break;
case (REG_S_VMIXR + 2):
RegLog(1,"VMIXR1",rmem,core,value);
break;
case REG_S_VMIXER:
RegLog(1,"VMIXER0",rmem,core,value);
break;
case (REG_S_VMIXER + 2):
RegLog(1,"VMIXER1",rmem,core,value);
break;
case REG_P_MMIX:
RegLog(1,"MMIX",rmem,core,value);
break;
case REG_A_IRQA:
RegLog(2,"IRQAH",rmem,core,value);
break;
case (REG_A_IRQA + 2):
RegLog(2,"IRQAL",rmem,core,value);
break;
case (REG_S_KON + 2):
RegLog(1,"KON1",rmem,core,value);
break;
case REG_S_KON:
RegLog(1,"KON0",rmem,core,value);
break;
case (REG_S_KOFF + 2):
RegLog(1,"KOFF1",rmem,core,value);
break;
case REG_S_KOFF:
RegLog(1,"KOFF0",rmem,core,value);
break;
case REG_A_TSA:
RegLog(2,"TSAH",rmem,core,value);
break;
case (REG_A_TSA + 2):
RegLog(2,"TSAL",rmem,core,value);
break;
case REG_S_ENDX:
//ConLog(" * SPU2: Core %d ENDX cleared!\n",core);
RegLog(2,"ENDX0",rmem,core,value);
break;
case (REG_S_ENDX + 2):
//ConLog(" * SPU2: Core %d ENDX cleared!\n",core);
RegLog(2,"ENDX1",rmem,core,value);
break;
case REG_P_MVOLL:
RegLog(1,"MVOLL",rmem,core,value);
break;
case REG_P_MVOLR:
RegLog(1,"MVOLR",rmem,core,value);
break;
case REG_S_ADMAS:
RegLog(3,"ADMAS",rmem,core,value);
//ConLog(" * SPU2: Core %d AutoDMAControl set to %d\n",core,value);
break;
case REG_P_STATX:
RegLog(3,"STATX",rmem,core,value);
break;
case REG_A_ESA:
RegLog(1,"ESAH",rmem,core,value);
break;
case (REG_A_ESA + 2):
RegLog(1,"ESAL",rmem,core,value);
break;
case REG_A_EEA:
RegLog(1,"EEAH",rmem,core,value);
break;
#define LOG_REVB_REG(n,t) \
case R_##n: \
RegLog(2,t "H",mem,core,value); \
break; \
case (R_##n + 2): \
RegLog(2,t "L",mem,core,value); \
break;
LOG_REVB_REG(FB_SRC_A,"FB_SRC_A")
LOG_REVB_REG(FB_SRC_B,"FB_SRC_B")
LOG_REVB_REG(IIR_SRC_A0,"IIR_SRC_A0")
LOG_REVB_REG(IIR_SRC_A1,"IIR_SRC_A1")
LOG_REVB_REG(IIR_SRC_B1,"IIR_SRC_B1")
LOG_REVB_REG(IIR_SRC_B0,"IIR_SRC_B0")
LOG_REVB_REG(IIR_DEST_A0,"IIR_DEST_A0")
LOG_REVB_REG(IIR_DEST_A1,"IIR_DEST_A1")
LOG_REVB_REG(IIR_DEST_B0,"IIR_DEST_B0")
LOG_REVB_REG(IIR_DEST_B1,"IIR_DEST_B1")
LOG_REVB_REG(ACC_SRC_A0,"ACC_SRC_A0")
LOG_REVB_REG(ACC_SRC_A1,"ACC_SRC_A1")
LOG_REVB_REG(ACC_SRC_B0,"ACC_SRC_B0")
LOG_REVB_REG(ACC_SRC_B1,"ACC_SRC_B1")
LOG_REVB_REG(ACC_SRC_C0,"ACC_SRC_C0")
LOG_REVB_REG(ACC_SRC_C1,"ACC_SRC_C1")
LOG_REVB_REG(ACC_SRC_D0,"ACC_SRC_D0")
LOG_REVB_REG(ACC_SRC_D1,"ACC_SRC_D1")
LOG_REVB_REG(MIX_DEST_A0,"MIX_DEST_A0")
LOG_REVB_REG(MIX_DEST_A1,"MIX_DEST_A1")
LOG_REVB_REG(MIX_DEST_B0,"MIX_DEST_B0")
LOG_REVB_REG(MIX_DEST_B1,"MIX_DEST_B1")
default:
RegLog(2,"UNKNOWN",rmem,core,value); spu2Ru16(mem) = value;
}
}
}