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new gxFIFO: 

- fix gxFIFO buffer overflow with DMA (Zelda, Submarine tech demo etc.); (but this fix hackly and need rewrite all dma stuff)
This commit is contained in:
mtabachenko 2009-07-27 10:28:59 +00:00
parent c04caafcbf
commit 8339abdd71
4 changed files with 25 additions and 738 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

12
desmume/src/FIFO.cpp
View File

@ -161,6 +161,7 @@ void GFX_FIFOsend(u8 cmd, u32 param)
if (gxFIFO.tail == 0) // FIFO empty
{
if (gxPIPE.tail < 4) // pipe not full
{
gxPIPE.cmd[gxPIPE.tail] = cmd;
@ -174,11 +175,10 @@ void GFX_FIFOsend(u8 cmd, u32 param)
return;
}
}
//INFO("GFX FIFO: Send GFX 3D cmd 0x%02X to FIFO - 0x%08X (%03i/%02X)\n", cmd, param, gxFIFO.tail, gxFIFO.tail);
if (gxstat & 0x01000000)
{
//INFO("ERROR: gxFIFO is full\n");
//INFO("ERROR: gxFIFO is full (cmd 0x%02X = 0x%08X) (prev cmd 0x%02X = 0x%08X)\n", cmd, param, gxFIFO.cmd[255], gxFIFO.param[255]);
return; // full
}
@ -206,7 +206,8 @@ void GFX_FIFOsend(u8 cmd, u32 param)
NDS_RescheduleGXFIFO();
}
static BOOL GFX_FIFOrecv(u8 *cmd, u32 *param)
extern void execHardware_doAllDma(EDMAMode modeNum);
BOOL FORCEINLINE GFX_FIFOrecv(u8 *cmd, u32 *param)
{
u32 gxstat = T1ReadLong(MMU.MMU_MEM[ARMCPU_ARM9][0x40], 0x600);
@ -215,7 +216,7 @@ static BOOL GFX_FIFOrecv(u8 *cmd, u32 *param)
gxstat &= 0xF000FFFF;
gxstat |= 0x06000000;
T1WriteLong(MMU.MMU_MEM[ARMCPU_ARM9][0x40], 0x600, gxstat);
if ((gxstat & 0x80000000)) // IRQ: empty
if ((gxstat & 0xC0000000)) // IRQ: empty
{
setIF(0, (1<<21));
}
@ -240,7 +241,10 @@ static BOOL GFX_FIFOrecv(u8 *cmd, u32 *param)
gxstat |= (gxFIFO.tail << 16);
if (gxFIFO.tail < 128)
{
gxstat |= 0x02000000;
execHardware_doAllDma(EDMAMode_GXFifo);
}
if (gxFIFO.tail == 0) // empty
gxstat |= 0x04000000;

1
desmume/src/MMU.h
View File

@ -100,6 +100,7 @@ struct MMU_struct {
u64 DMACycle[2][4];
u32 DMACrt[2][4];
BOOL DMAing[2][4];
BOOL DMACompleted[2][4];
BOOL divRunning;
s64 divResult;

18
desmume/src/NDSSystem.cpp
View File

@ -1502,7 +1502,7 @@ static void execHardware_doDma(int procnum, int chan, EDMAMode modeNum)
}
}
static void execHardware_doAllDma(EDMAMode modeNum)
void execHardware_doAllDma(EDMAMode modeNum)
{
for(int i=0;i<2;i++)
for(int j=0;j<4;j++)
@ -1571,6 +1571,7 @@ struct TSequenceItem_GXFIFO : public TSequenceItem
MMU.gfx3dCycles = max(MMU.gfx3dCycles,nds_timer); //uhh i dont entirely understand why this was necessary
//i need to learn more about how the new gxfifo works, but I am leaving that to you for now crazymax ^_^
#endif
}
FORCEINLINE u64 next()
@ -1663,13 +1664,16 @@ template<int procnum, int chan> struct TSequenceItem_DMA : public TSequenceItem
FORCEINLINE void exec()
{
u8* regs = procnum==0?ARM9Mem.ARM9_REG:MMU.ARM7_REG;
T1WriteLong(regs, 0xB8 + (0xC*chan), T1ReadLong(regs, 0xB8 + (0xC*chan)) & 0x7FFFFFFF);
if((MMU.DMACrt[procnum][chan])&(1<<30)) {
if(procnum==0) NDS_makeARM9Int(8+chan);
else NDS_makeARM7Int(8+chan);
if (MMU.DMACompleted[procnum][chan])
{
u8* regs = procnum==0?ARM9Mem.ARM9_REG:MMU.ARM7_REG;
T1WriteLong(regs, 0xB8 + (0xC*chan), T1ReadLong(regs, 0xB8 + (0xC*chan)) & 0x7FFFFFFF);
if((MMU.DMACrt[procnum][chan])&(1<<30)) {
if(procnum==0) NDS_makeARM9Int(8+chan);
else NDS_makeARM7Int(8+chan);
}
MMU.DMAing[procnum][chan] = FALSE;
}
MMU.DMAing[procnum][chan] = FALSE;
}
};

732
desmume/src/gfx3d.cpp
View File

@ -575,678 +575,6 @@ static void gfx3d_glLightDirection_cache(int index)
}
//===============================================================================
#ifdef USE_GEOMETRY_FIFO_EMULATION
#if 0
#define dEXEC(cmdName, oldcmd, newcmd) if (oldcmd != newcmd)\
INFO("ERROR %s: cmd old 0x%02X, new 0x%02X\n", cmdName, oldcmd, newcmd);
#else
#define dEXEC(cmdName, oldcmd, newcmd)
#endif
void FORCEINLINE gfx3d_glMatrixMode(u32 v)
{
mode = (v&3);
GFX_DELAY(1);
}
void FORCEINLINE gfx3d_glPushMatrix()
{
u32 gxstat = T1ReadLong(MMU.MMU_MEM[ARMCPU_ARM9][0x40], 0x600);
//this command always works on both pos and vector when either pos or pos-vector are the current mtx mode
short mymode = (mode==1?2:mode);
if (mtxStack[mymode].position > mtxStack[mymode].size)
{
gxstat |= (1<<15);
T1WriteLong(MMU.MMU_MEM[ARMCPU_ARM9][0x40], 0x600, gxstat);
return;
}
gxstat &= 0xFFFF00FF;
MatrixStackPushMatrix(&mtxStack[mymode], mtxCurrent[mymode]);
GFX_DELAY(17);
if(mymode==2)
MatrixStackPushMatrix (&mtxStack[1], mtxCurrent[1]);
gxstat |= ((mtxStack[0].position << 13) | (mtxStack[1].position << 8));
T1WriteLong(MMU.MMU_MEM[ARMCPU_ARM9][0x40], 0x600, gxstat);
}
void FORCEINLINE gfx3d_glPopMatrix(s32 i)
{
u32 gxstat = T1ReadLong(MMU.MMU_MEM[ARMCPU_ARM9][0x40], 0x600);
//this command always works on both pos and vector when either pos or pos-vector are the current mtx mode
short mymode = (mode==1?2:mode);
/*
if (i > mtxStack[mymode].position)
{
gxstat |= (1<<15);
T1WriteLong(MMU.MMU_MEM[ARMCPU_ARM9][0x40], 0x600, gxstat);
return;
}
*/
gxstat &= 0xFFFF00FF;
MatrixCopy(mtxCurrent[mymode], MatrixStackPopMatrix (&mtxStack[mymode], i));
GFX_DELAY(36);
if (mymode == 2)
MatrixCopy(mtxCurrent[1], MatrixStackPopMatrix (&mtxStack[1], i));
gxstat |= ((mtxStack[0].position << 13) | (mtxStack[1].position << 8));
T1WriteLong(MMU.MMU_MEM[ARMCPU_ARM9][0x40], 0x600, gxstat);
}
void FORCEINLINE gfx3d_glStoreMatrix(u32 v)
{
//this command always works on both pos and vector when either pos or pos-vector are the current mtx mode
short mymode = (mode==1?2:mode);
//limit height of these stacks.
//without the mymode==3 namco classics galaxian will try to use pos=1 and overrun the stack, corrupting emu
if(mymode==0 || mymode==3)
v = 0;
if(v==31) v=30; //? what should happen in this case?
MatrixStackLoadMatrix (&mtxStack[mymode], v&31, mtxCurrent[mymode]);
GFX_DELAY(17);
if(mymode==2)
MatrixStackLoadMatrix (&mtxStack[1], v&31, mtxCurrent[1]);
}
void FORCEINLINE gfx3d_glRestoreMatrix(u32 v)
{
//this command always works on both pos and vector when either pos or pos-vector are the current mtx mode
short mymode = (mode==1?2:mode);
//limit height of these stacks
//without the mymode==3 namco classics galaxian will try to use pos=1 and overrun the stack, corrupting emu
if(mymode==0 || mymode==3)
v = 0;
if(v==31) v=30; //? what should happen in this case?
MatrixCopy (mtxCurrent[mymode], MatrixStackGetPos(&mtxStack[mymode], v&31));
GFX_DELAY(36);
if (mymode == 2)
MatrixCopy (mtxCurrent[1], MatrixStackGetPos(&mtxStack[1], v&31));
}
void FORCEINLINE gfx3d_glLoadIdentity()
{
MatrixIdentity (mtxCurrent[mode]);
GFX_DELAY(19);
if (mode == 2)
MatrixIdentity (mtxCurrent[1]);
}
void FORCEINLINE gfx3d_glLoadMatrix4x4(s32 v)
{
mtxCurrent[mode][0] = v;
for (int i = 1; i < 16; i++)
{
u8 cmd = 0;
u32 param = 0;
if (!GFX_PIPErecv(&cmd, &param)) break;
dEXEC("glLoadMatrix4x4", 0x16, cmd);
mtxCurrent[mode][i] = (s32)param;
}
vector_fix2float<4>(mtxCurrent[mode], 4096.f);
GFX_DELAY(19);
if (mode == 2)
MatrixCopy (mtxCurrent[1], mtxCurrent[2]);
}
void FORCEINLINE gfx3d_glLoadMatrix4x3(s32 v)
{
mtxCurrent[mode][0] = v;
for (int i = 1; i < 16; i++)
{
if ((i & 0x03) == 3) continue;
u8 cmd = 0;
u32 param = 0;
if (!GFX_PIPErecv(&cmd, &param)) break;
dEXEC("glLoadMatrix4x3", 0x17, cmd);
mtxCurrent[mode][i] = (s32)param;
}
vector_fix2float<4>(mtxCurrent[mode], 4096.f);
//fill in the unusued matrix values
mtxCurrent[mode][3] = mtxCurrent[mode][7] = mtxCurrent[mode][11] = 0.f;
mtxCurrent[mode][15] = 1.f;
GFX_DELAY(30);
if (mode == 2)
MatrixCopy (mtxCurrent[1], mtxCurrent[2]);
}
void FORCEINLINE gfx3d_glMultMatrix4x4(s32 v)
{
mtxTemporal[0] = v;
for (int i = 1; i < 16; i++)
{
u8 cmd = 0;
u32 param = 0;
if (!GFX_PIPErecv(&cmd, &param)) break;
dEXEC("glMultMatrix4x4", 0x18, cmd);
mtxTemporal[i] = (s32)param;
}
vector_fix2float<4>(mtxTemporal, 4096.f);
MatrixMultiply (mtxCurrent[mode], mtxTemporal);
GFX_DELAY(35);
if (mode == 2)
{
MatrixMultiply (mtxCurrent[1], mtxTemporal);
GFX_DELAY_M2(30);
}
MatrixIdentity (mtxTemporal);
}
void FORCEINLINE gfx3d_glMultMatrix4x3(s32 v)
{
mtxTemporal[0] = v;
for (int i = 1; i < 16; i++)
{
if ((i & 0x03) == 3) continue;
u8 cmd = 0;
u32 param = 0;
if (!GFX_PIPErecv(&cmd, &param)) break;
dEXEC("glMultMatrix4x3", 0x19, cmd);
mtxTemporal[i] = (s32)param;
}
vector_fix2float<4>(mtxTemporal, 4096.f);
//fill in the unusued matrix values
mtxTemporal[3] = mtxTemporal[7] = mtxTemporal[11] = 0.f;
mtxTemporal[15] = 1.f;
MatrixMultiply (mtxCurrent[mode], mtxTemporal);
GFX_DELAY(31);
if (mode == 2)
{
MatrixMultiply (mtxCurrent[1], mtxTemporal);
GFX_DELAY_M2(30);
}
//does this really need to be done?
MatrixIdentity (mtxTemporal);
}
void FORCEINLINE gfx3d_glMultMatrix3x3(s32 v)
{
mtxTemporal[0] = v;
for (int i = 1; i < 12; i++)
{
if ((i & 0x03) == 3) continue;
u8 cmd = 0;
u32 param = 0;
if (!GFX_PIPErecv(&cmd, &param)) break;
dEXEC("glMultMatrix3x3", 0x1A, cmd);
mtxTemporal[i] = (s32)param;
}
vector_fix2float<3>(mtxTemporal, 4096.f);
//fill in the unusued matrix values
mtxTemporal[3] = mtxTemporal[7] = mtxTemporal[11] = 0;
mtxTemporal[15] = 1;
mtxTemporal[12] = mtxTemporal[13] = mtxTemporal[14] = 0;
MatrixMultiply (mtxCurrent[mode], mtxTemporal);
GFX_DELAY(28);
if (mode == 2)
{
MatrixMultiply (mtxCurrent[1], mtxTemporal);
GFX_DELAY_M2(30);
}
//does this really need to be done?
MatrixIdentity (mtxTemporal);
}
void FORCEINLINE gfx3d_glScale(s32 v)
{
u8 cmd = 0;
u32 param = 0;
scale[0] = fix2float(v);
if (!GFX_PIPErecv(&cmd, &param)) return;
dEXEC("glScale", 0x1B, cmd);
scale[1] = fix2float((s32)param);
if (!GFX_PIPErecv(&cmd, &param)) return;
dEXEC("glScale", 0x1B, cmd);
scale[2] = fix2float((s32)param);
MatrixScale (mtxCurrent[(mode==2?1:mode)], scale);
GFX_DELAY(22);
//note: pos-vector mode should not cause both matrices to scale.
//the whole purpose is to keep the vector matrix orthogonal
//so, I am leaving this commented out as an example of what not to do.
//if (mode == 2)
// MatrixScale (mtxCurrent[1], scale);
}
void FORCEINLINE gfx3d_glTranslate(s32 v)
{
u8 cmd = 0;
u32 param = 0;
trans[0] = fix2float(v);
if (!GFX_PIPErecv(&cmd, &param)) return;
dEXEC("glTranslate", 0x1C, cmd);
trans[1] = fix2float((s32)param);
if (!GFX_PIPErecv(&cmd, &param)) return;
dEXEC("glTranslate", 0x1C, cmd);
trans[2] = fix2float((s32)param);
MatrixTranslate (mtxCurrent[mode], trans);
GFX_DELAY(22);
if (mode == 2)
{
MatrixTranslate (mtxCurrent[1], trans);
GFX_DELAY_M2(30);
}
}
void FORCEINLINE gfx3d_glColor3b(u32 v)
{
colorRGB[0] = (v&0x1F);
colorRGB[1] = ((v>>5)&0x1F);
colorRGB[2] = ((v>>10)&0x1F);
GFX_DELAY(1);
}
void FORCEINLINE gfx3d_glNormal(u32 v)
{
int i,c;
ALIGN(16) float normal[4] = { normalTable[v&1023],
normalTable[(v>>10)&1023],
normalTable[(v>>20)&1023],
1};
if (texCoordinateTransform == 2)
{
last_s =( (normal[0] *mtxCurrent[3][0] + normal[1] *mtxCurrent[3][4] +
normal[2] *mtxCurrent[3][8]) + (_s*16.0f)) / 16.0f;
last_t =( (normal[0] *mtxCurrent[3][1] + normal[1] *mtxCurrent[3][5] +
normal[2] *mtxCurrent[3][9]) + (_t*16.0f)) / 16.0f;
}
//use the current normal transform matrix
MatrixMultVec3x3 (mtxCurrent[2], normal);
//apply lighting model
{
u8 diffuse[3] = {
(dsDiffuse)&0x1F,
(dsDiffuse>>5)&0x1F,
(dsDiffuse>>10)&0x1F };
u8 ambient[3] = {
(dsAmbient)&0x1F,
(dsAmbient>>5)&0x1F,
(dsAmbient>>10)&0x1F };
u8 emission[3] = {
(dsEmission)&0x1F,
(dsEmission>>5)&0x1F,
(dsEmission>>10)&0x1F };
u8 specular[3] = {
(dsSpecular)&0x1F,
(dsSpecular>>5)&0x1F,
(dsSpecular>>10)&0x1F };
int vertexColor[3] = { emission[0], emission[1], emission[2] };
for(i=0; i<4; i++)
{
if(!((lightMask>>i)&1)) continue;
u8 _lightColor[3] = {
(lightColor[i])&0x1F,
(lightColor[i]>>5)&0x1F,
(lightColor[i]>>10)&0x1F };
/* This formula is the one used by the DS */
/* Reference : http://nocash.emubase.de/gbatek.htm#ds3dpolygonlightparameters */
float diffuseLevel = std::max(0.0f, -vec3dot(cacheLightDirection[i], normal));
float shininessLevel = pow(std::max(0.0f, vec3dot(-cacheHalfVector[i], normal)), 2);
if(dsSpecular & 0x8000)
{
int shininessIndex = (int)(shininessLevel * 128);
if(shininessIndex >= (int)ARRAY_SIZE(shininessTable)) {
//we can't print this right now, because when a game triggers this it triggers it _A_LOT_
//so wait until we have per-frame diagnostics.
//this was tested using Princess Debut (US) after proceeding through the intro and getting the tiara.
//After much research, I determined that this was caused by the game feeding in a totally jacked matrix
//to mult4x4 from 0x02129B80 (after feeding two other valid matrices)
//the game seems to internally index these as: ?, 0x37, 0x2B <-- error
//but, man... this is seriously messed up. there must be something going wrong.
//maybe it has something to do with what looks like a mirror room effect that is going on during this time?
//PROGINFO("ERROR: shininess table out of bounds.\n maybe an emulator error; maybe a non-unit normal; setting to 0\n");
shininessIndex = 0;
}
shininessLevel = shininessTable[shininessIndex];
}
for(c = 0; c < 3; c++)
{
vertexColor[c] += (int)(((specular[c] * _lightColor[c] * shininessLevel)
+ (diffuse[c] * _lightColor[c] * diffuseLevel)
+ (ambient[c] * _lightColor[c])) / 31.0f);
}
}
for(c=0;c<3;c++)
colorRGB[c] = std::min(31,vertexColor[c]);
}
GFX_DELAY(9);
GFX_DELAY_M2((lightMask) & 0x01);
GFX_DELAY_M2((lightMask>>1) & 0x01);
GFX_DELAY_M2((lightMask>>2) & 0x01);
GFX_DELAY_M2((lightMask>>3) & 0x01);
}
void FORCEINLINE gfx3d_glTexCoord(u32 val)
{
_t = (s16)(val>>16);
_s = (s16)(val&0xFFFF);
_s /= 16.0f;
_t /= 16.0f;
if (texCoordinateTransform == 1)
{
last_s =_s*mtxCurrent[3][0] + _t*mtxCurrent[3][4] +
0.0625f*mtxCurrent[3][8] + 0.0625f*mtxCurrent[3][12];
last_t =_s*mtxCurrent[3][1] + _t*mtxCurrent[3][5] +
0.0625f*mtxCurrent[3][9] + 0.0625f*mtxCurrent[3][13];
}
else
{
last_s=_s;
last_t=_t;
}
GFX_DELAY(1);
}
void FORCEINLINE gfx3d_glVertex16b(unsigned int v)
{
u8 cmd = 0;
u32 param = 0;
coord[0] = float16table[v&0xFFFF];
coord[1] = float16table[v>>16];
//if (gxPIPE.cmd[0] != 0x23) return;
if (!GFX_PIPErecv(&cmd, &param)) return;
dEXEC("glVertex16b", 0x23, cmd);
coord[2] = float16table[param&0xFFFF];
SetVertex ();
GFX_DELAY(9);
}
void FORCEINLINE gfx3d_glVertex10b(u32 v)
{
coord[0] = float10Table[v&1023];
coord[1] = float10Table[(v>>10)&1023];
coord[2] = float10Table[(v>>20)&1023];
GFX_DELAY(8);
SetVertex ();
}
void FORCEINLINE gfx3d_glVertex3_cord(unsigned int one, unsigned int two, unsigned int v)
{
coord[one] = float16table[v&0xffff];
coord[two] = float16table[v>>16];
SetVertex ();
GFX_DELAY(8);
}
void FORCEINLINE gfx3d_glVertex_rel(u32 v)
{
coord[0] += float10RelTable[v&1023];
coord[1] += float10RelTable[(v>>10)&1023];
coord[2] += float10RelTable[(v>>20)&1023];
SetVertex ();
GFX_DELAY(8);
}
void FORCEINLINE gfx3d_glPolygonAttrib (u32 val)
{
if(inBegin) {
//PROGINFO("Set polyattr in the middle of a begin/end pair.\n (This won't be activated until the next begin)\n");
//TODO - we need some some similar checking for teximageparam etc.
}
polyAttrPending = val;
GFX_DELAY(1);
}
void FORCEINLINE gfx3d_glTexImage(u32 val)
{
textureFormat = val;
gfx3d_glTexImage_cache();
GFX_DELAY(1);
}
void FORCEINLINE gfx3d_glTexPalette(u32 val)
{
texturePalette = val;
GFX_DELAY(1);
}
/*
0-4 Diffuse Reflection Red
5-9 Diffuse Reflection Green
10-14 Diffuse Reflection Blue
15 Set Vertex Color (0=No, 1=Set Diffuse Reflection Color as Vertex Color)
16-20 Ambient Reflection Red
21-25 Ambient Reflection Green
26-30 Ambient Reflection Blue
*/
void FORCEINLINE gfx3d_glMaterial0(u32 val)
{
dsDiffuse = val&0xFFFF;
dsAmbient = val>>16;
if (BIT15(val))
{
colorRGB[0] = (val)&0x1F;
colorRGB[1] = (val>>5)&0x1F;
colorRGB[2] = (val>>10)&0x1F;
}
GFX_DELAY(4);
}
void FORCEINLINE gfx3d_glMaterial1(u32 val)
{
dsSpecular = val&0xFFFF;
dsEmission = val>>16;
GFX_DELAY(4);
}
/*
0-9 Directional Vector's X component (1bit sign + 9bit fractional part)
10-19 Directional Vector's Y component (1bit sign + 9bit fractional part)
20-29 Directional Vector's Z component (1bit sign + 9bit fractional part)
30-31 Light Number (0..3)
*/
void FORCEINLINE gfx3d_glLightDirection (u32 v)
{
int index = v>>30;
lightDirection[index] = v;
gfx3d_glLightDirection_cache(index);
GFX_DELAY(6);
}
void FORCEINLINE gfx3d_glLightColor (u32 v)
{
int index = v>>30;
lightColor[index] = v;
GFX_DELAY(1);
}
void FORCEINLINE gfx3d_glShininess (u32 val)
{
u8 cmd = 0;
u32 param = 0;
shininessTable[0] = ((val & 0xFF) / 256.0f);
shininessTable[1] = (((val >> 8) & 0xFF) / 256.0f);
shininessTable[2] = (((val >> 16) & 0xFF) / 256.0f);
shininessTable[3] = (((val >> 24) & 0xFF) / 256.0f);
for (int i = 4; i < 128; i+=4)
{
if (!GFX_PIPErecv(&cmd, &param)) return;
dEXEC("glShininess", 0x34, cmd);
shininessTable[i] = ((param & 0xFF) / 256.0f);
shininessTable[i+1] = (((param >> 8) & 0xFF) / 256.0f);
shininessTable[i+2] = (((param >> 16) & 0xFF) / 256.0f);
shininessTable[i+3] = (((param >> 24) & 0xFF) / 256.0f);
}
GFX_DELAY(32);
}
void FORCEINLINE gfx3d_glBegin(u32 v)
{
inBegin = TRUE;
vtxFormat = v&0x03;
triStripToggle = 0;
tempVertInfo.count = 0;
tempVertInfo.first = true;
polyAttr = polyAttrPending;
gfx3d_glPolygonAttrib_cache();
GFX_DELAY(1);
}
void FORCEINLINE gfx3d_glEnd(void)
{
inBegin = FALSE;
tempVertInfo.count = 0;
GFX_DELAY(1);
}
// swap buffers - skipped
void FORCEINLINE gfx3d_glViewPort(u32 v)
{
viewport = v;
GFX_DELAY(1);
}
void FORCEINLINE gfx3d_glBoxTest(u32 v)
{
u8 cmd = 0;
u32 param = 0;
u32 gxstat = T1ReadLong(MMU.MMU_MEM[ARMCPU_ARM9][0x40], 0x600);
if (!GFX_PIPErecv(&cmd, &param)) return;
dEXEC("glBoxTest", 0x70, cmd);
if (!GFX_PIPErecv(&cmd, &param)) return;
dEXEC("glBoxTest", 0x70, cmd);
GFX_DELAY(103);
gxstat &= 0xFFFFFFFE; // clear busy bit
gxstat |= 0x00000002; // hack
T1WriteLong(MMU.MMU_MEM[ARMCPU_ARM9][0x40], 0x600, gxstat);
}
void FORCEINLINE gfx3d_glPosTest(u32 v)
{
u8 cmd = 0;
u32 param = 0;
u32 gxstat = T1ReadLong(MMU.MMU_MEM[ARMCPU_ARM9][0x40], 0x600);
PTcoords[0] = float16table[v & 0xFFFF];
PTcoords[1] = float16table[v >> 16];
if (!GFX_PIPErecv(&cmd, &param)) return;
dEXEC("glPosTest", 0x71, cmd);
PTcoords[2] = float16table[param & 0xFFFF];
PTcoords[3] = 1.0f;
MatrixMultVec4x4_M2(mtxCurrent[0], PTcoords);
gxstat &= 0xFFFFFFFE; // cleay busy bit
T1WriteLong(MMU.MMU_MEM[ARMCPU_ARM9][0x40], 0x600, gxstat);
GFX_DELAY(9);
}
void FORCEINLINE gfx3d_glVecTest(u32 v)
{
u32 gxstat = T1ReadLong(MMU.MMU_MEM[ARMCPU_ARM9][0x40], 0x600);
gxstat &= 0xFFFFFFFE;
T1WriteLong(MMU.MMU_MEM[ARMCPU_ARM9][0x40], 0x600, gxstat);
GFX_DELAY(5);
//INFO("NDS_glVecTest\n");
}
#else // else not USE_GEOMETRY_FIFO_EMULATION
void gfx3d_glMatrixMode(u32 v)
{
mode = (v&3);
@ -1956,8 +1284,6 @@ void gfx3d_glVecTest(u32 v)
GFX_DELAY(5);
//INFO("NDS_glVecTest\n");
}
#endif
//================================================================================= Geometry Engine
//================================================================================= (end)
//=================================================================================
@ -2058,7 +1384,7 @@ void FORCEINLINE gfx3d_execute(u8 cmd, u32 param)
{
#ifdef _3D_LOG_EXEC
u32 gxstat2 = T1ReadLong(MMU.MMU_MEM[ARMCPU_ARM9][0x40], 0x600);
INFO("*** gxFIFO: exec 0x%02X, tail %03i, gxstat 0x%08X\n", cmd, gxFIFO.tail, gxstat2);
INFO("*** gxFIFO: exec 0x%02X, tail %03i, gxstat 0x%08X (timer %i)\n", cmd, gxFIFO.tail, gxstat2, nds_timer);
#endif
switch (cmd)
{
@ -2175,7 +1501,7 @@ void FORCEINLINE gfx3d_execute(u8 cmd, u32 param)
break;
default:
INFO("Unknown execute FIFO 3D command 0x%02X with param 0x%08X\n", cmd, param);
return;
break;
}
NDS_RescheduleGXFIFO();
}
@ -2187,41 +1513,6 @@ void gfx3d_execute3D()
if (isSwapBuffers) return;
u16 size = gxPIPE.tail + gxFIFO.tail;
//if (size == 0) return;
switch (gxPIPE.cmd[0])
{
case 0x34: // SHININESS - Specular Reflection Shininess Table (W)
if (size < 32) return;
break;
case 0x16: // MTX_LOAD_4x4 - Load 4x4 Matrix to Current Matrix (W)
case 0x18: // MTX_MULT_4x4 - Multiply Current Matrix by 4x4 Matrix (W)
if (size < 16) return;
break;
case 0x17: // MTX_LOAD_4x3 - Load 4x3 Matrix to Current Matrix (W)
case 0x19: // MTX_MULT_4x3 - Multiply Current Matrix by 4x3 Matrix (W)
if (size < 12) return;
break;
case 0x1A: // MTX_MULT_3x3 - Multiply Current Matrix by 3x3 Matrix (W)
if (size < 9) return;
break;
case 0x1B: // MTX_SCALE - Multiply Current Matrix by Scale Matrix (W)
case 0x1C: // MTX_TRANS - Mult. Curr. Matrix by Translation Matrix (W)
case 0x70: // BOX_TEST - Test if Cuboid Sits inside View Volume (W)
if (size < 3) return;
break;
case 0x23: // VTX_16 - Set Vertex XYZ Coordinates (W)
case 0x71: // POS_TEST - Set Position Coordinates for Test (W)
if (size < 2) return;
break;
}
if (GFX_PIPErecv(&cmd, &param))
{
gfx3d_execute(cmd, param);
@ -2474,21 +1765,14 @@ void gfx3d_sendCommandToFIFO(u32 val)
{
if (clCmd == 0)
{
clInd2 = 0;
clCmd = val;
NOPARAMS();
return;
}
#ifdef _3D_LOG
INFO("gxFIFO: send 0x%02X: val=0x%08X, pipe %02i, fifo %03i\n", clCmd & 0xFF, val, gxPIPE.tail, gxFIFO.tail);
#endif
NOPARAMS();
if (clCmd == 0)
{
if (val == 0) return;
clCmd = val;
return;
}
switch (clCmd & 0xFF)
{
case 0x34: // SHININESS - Specular Reflection Shininess Table (W)
@ -2582,7 +1866,7 @@ void gfx3d_sendCommandToFIFO(u32 val)
default:
INFO("Unknown FIFO 3D command 0x%02X (0x%08X)\n", clCmd&0xFF, clCmd);
clCmd >>= 8;
return;
break;
}
NOPARAMS();
}
@ -2593,12 +1877,6 @@ void gfx3d_sendCommand(u32 cmd, u32 param)
#ifdef _3D_LOG
INFO("gxFIFO: send 0x%02X: val=0x%08X, pipe %02i, fifo %03i (direct)\n", cmd, param, gxPIPE.tail, gxFIFO.tail);
#endif
/*
if (gxFIFO.tail == 256)
{
INFO("gxFIFO: FIFO is full (0x%02X = 0x%08X)\n", cmd, param);
}
*/
switch (cmd)
{