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2026-06-24 21:28:16 -05:00

812 lines
22 KiB
C++

#include "MLRHeaders.hpp"
#if !defined(MLR_MLRCLIPTRICK_HPP)
#include <MLR\MLRClipTrick.hpp>
#endif
extern DWORD gShowClippedPolys;
//#############################################################################
//####################### MLRNGonCloud ##################################
//#############################################################################
DynamicArrayOf<MLRClippingState>
*MLRNGonCloud::clipPerVertex;
DynamicArrayOf<Vector4D>
*MLRNGonCloud::clipExtraCoords;
DynamicArrayOf<RGBAColor>
*MLRNGonCloud::clipExtraColors;
DynamicArrayOf<int>
*MLRNGonCloud::clipExtraLength;
MLRNGonCloud::ClassData*
MLRNGonCloud::DefaultData = NULL;
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
void
MLRNGonCloud::InitializeClass()
{
Verify(!DefaultData);
Verify(gos_GetCurrentHeap() == StaticHeap);
DefaultData =
new ClassData(
MLRNGonCloudClassID,
"MidLevelRenderer::MLRNGonCloud",
MLREffect::DefaultData
);
Register_Object(DefaultData);
clipPerVertex = new DynamicArrayOf<MLRClippingState> (Limits::Max_Number_Vertices_Per_Effect);
Register_Object(clipPerVertex);
clipExtraCoords = new DynamicArrayOf<Vector4D> (Limits::Max_Number_Vertices_Per_Effect);
Register_Object(clipExtraCoords);
clipExtraColors = new DynamicArrayOf<RGBAColor> (Limits::Max_Number_Vertices_Per_Effect);
Register_Object(clipExtraColors);
clipExtraLength = new DynamicArrayOf<int> (Limits::Max_Number_Primitives_Per_Frame);
Register_Object(clipExtraLength);
}
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
void
MLRNGonCloud::TerminateClass()
{
Unregister_Object(clipPerVertex);
delete clipPerVertex;
Unregister_Object(clipExtraCoords);
delete clipExtraCoords;
Unregister_Object(clipExtraColors);
delete clipExtraColors;
Unregister_Object(clipExtraLength);
delete clipExtraLength;
Unregister_Object(DefaultData);
delete DefaultData;
DefaultData = NULL;
}
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
MLRNGonCloud::MLRNGonCloud(int vertices, int nr) :
MLREffect(nr, DefaultData)
{
Verify(gos_GetCurrentHeap() == EffectHeap);
usedNrOfNGons = NULL;
numOfVertices = vertices;
Check_Pointer(this);
Verify(vertices*nr >= 0 && vertices*nr<=Limits::Max_Number_Vertices_Per_Effect);
drawMode = SortData::TriList;
}
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
MLRNGonCloud::~MLRNGonCloud()
{
Check_Object(this);
}
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
void
MLRNGonCloud::SetData
(
const int *count,
const Stuff::Point3D *point_data,
const Stuff::RGBAColor *color_data
)
{
Check_Pointer(this);
usedNrOfNGons = count;
Verify(*usedNrOfNGons <= maxNrOf);
points = point_data;
colors = color_data;
}
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
void
MLRNGonCloud::Draw (DrawEffectInformation *dInfo, GOSVertexPool *allVerticesToDraw, MLRSorter *sorter)
{
Check_Object(this);
#ifdef LAB_ONLY
if(Limits::Max_Number_Vertices_Per_Frame < allVerticesToDraw->GetLast() + *usedNrOfNGons * (numOfVertices+1))
{
SPEWALWAYS((0, "Not drawing MLRNGonCloud. Too many vertices! Raid a bug to Art!"));
return;
}
#endif
worldToEffect.Invert(*dInfo->effectToWorld);
Transform(*usedNrOfNGons, numOfVertices);
if( Clip(dInfo->clippingFlags, allVerticesToDraw, false) )
{
sorter->AddEffect(this, dInfo->state);
}
}
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
int
MLRNGonCloud::Draw (ToBeDrawnPrimitive *tbdp, MLRSorter *sorter)
{
Check_Object(this);
effectToClipMatrix = tbdp->shapeToClipMatrix;
Transform(*usedNrOfNGons, numOfVertices);
int index = -1;
if( Clip(tbdp->clippingFlags, tbdp->allVerticesToDraw, true) )
{
sorter->AddEffect(this, tbdp->state, index);
}
return index;
}
static MLRClippingState theAnd, theOr, theTest;
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
int
MLRNGonCloud::Clip(MLRClippingState clippingFlags, GOSVertexPool *vt, bool db)
{
Check_Object(this);
int i, j, k;
int end, len = *usedNrOfNGons, ret = 0;
#if EFECT_CLIPPED // this effect gets not clipped
int l, mask, k1, ct=0;
Scalar a=0.0f, bc0, bc1;
#endif
Check_Object(vt);
gos_vertices = vt->GetActualVertexPool(db);
Check_Pointer(gos_vertices);
numGOSVertices = 0;
//
//--------------------------------------
// See if we don't have to draw anything
//--------------------------------------
//
if(clippingFlags.GetClippingState() == 0 || len <= 0)
{
if(len <= 0)
{
visible = 0;
}
else
{
//
//-------------------------------
// Handle the non-indexed version
//-------------------------------
//
for(i=0,j=0;i<len;i++,j += numOfVertices)
{
if(IsOn(i) == false)
{
continue;
}
DWORD inColor = GOSCopyColor(&colors[2*i]);
DWORD outColor = GOSCopyColor(&colors[2*i+1]);
for(int z=1; z < numOfVertices-1; z++)
{
GOSCopyTriangleData(
&gos_vertices[numGOSVertices],
transformedCoords->GetData(),
j, z+j+1, z+j
#if FOG_HACK
, true
#endif
);
gos_vertices[numGOSVertices].argb = inColor;
gos_vertices[numGOSVertices+1].argb = outColor;
gos_vertices[numGOSVertices+2].argb = outColor;
numGOSVertices += 3;
}
}
if(db==false)
{
Check_Object(vt);
vt->Increase(numGOSVertices);
}
visible = numGOSVertices ? 1 : 0;
}
return visible;
}
int myNumberUsedClipVertex, myNumberUsedClipIndex, myNumberUsedClipLength;
myNumberUsedClipVertex = 0;
myNumberUsedClipIndex = 0;
myNumberUsedClipLength = 0;
//
//-------------------------------
// Handle the non-indexed version
//-------------------------------
//
//
//-----------------------------------------------------------------
// Step through each polygon, making sure that we don't try to clip
// backfaced polygons
//-----------------------------------------------------------------
//
for(i=0,j=0;i<len;i++,j+=numOfVertices)
{
if(IsOn(i) == false)
{
continue;
}
TurnVisible(i);
//
//---------------------------------------------------------------
// Test each vertex of the polygon against the allowed clipping
// planes, and accumulate status for which planes always clip and
// which planes clipped at least once
//---------------------------------------------------------------
//
theAnd.SetClippingState(0x3f);
theOr.SetClippingState(0);
end = j+numOfVertices;
Stuff::Vector4D *v4d = transformedCoords->GetData()+j;
MLRClippingState *cs = clipPerVertex->GetData()+j;
for(k=j;k<end;k++,v4d++,cs++)
{
cs->Clip4dVertex(v4d);
theAnd &= (*clipPerVertex)[k];
theOr |= (*clipPerVertex)[k];
#ifdef LAB_ONLY
if(*cs==0)
{
Set_Statistic(NonClippedVertices, NonClippedVertices+1);
}
else
{
Set_Statistic(ClippedVertices, ClippedVertices+1);
}
#endif
}
//
//-------------------------------------------------------------------
// If any bit is set for all vertices, then the polygon is completely
// outside the viewing space and we don't have to draw it. On the
// other hand, if no bits at all were ever set, we can do a trivial
// accept of the polygon
//-------------------------------------------------------------------
//
if (theAnd != 0)
{
TurnInVisible(i);
}
else if (theOr == 0)
{
TurnVisible(i);
DWORD inColor = GOSCopyColor(&colors[2*i]);
DWORD outColor = GOSCopyColor(&colors[2*i+1]);
for(int z=1; z < numOfVertices-1; z++)
{
GOSCopyTriangleData(
&gos_vertices[numGOSVertices],
transformedCoords->GetData(),
j, z+j+1, z+j
#if FOG_HACK
, true
#endif
);
gos_vertices[numGOSVertices].argb = inColor;
gos_vertices[numGOSVertices+1].argb = outColor;
gos_vertices[numGOSVertices+2].argb = outColor;
#ifdef LAB_ONLY
if(gShowClippedPolys)
{
gos_vertices[numGOSVertices].argb = 0xff0000ff;
gos_vertices[numGOSVertices].u = 0.0f;
gos_vertices[numGOSVertices].v = 0.0f;
gos_vertices[numGOSVertices+1].argb = 0xff0000ff;
gos_vertices[numGOSVertices+1].u = 0.0f;
gos_vertices[numGOSVertices+1].v = 0.0f;
gos_vertices[numGOSVertices+2].argb = 0xff0000ff;
gos_vertices[numGOSVertices+2].u = 0.0f;
gos_vertices[numGOSVertices+2].v = 0.0f;
}
#endif
numGOSVertices += 3;
}
ret++;
}
//
//-----------------------------------------------------------------
// It is not a trivial case, so we must now do real clipping on the
// polygon
//-----------------------------------------------------------------
//
else
{
#if EFECT_CLIPPED // this effect gets not clipped
int numberVerticesPerPolygon = 0;
//
//---------------------------------------------------------------
// Handle the case of a single clipping plane by stepping through
// the vertices and finding the edge it originates
//---------------------------------------------------------------
//
if (theOr.GetNumberOfSetBits() == 1)
{
for(k=j;k<end;k++)
{
k1 = (k + 1 < end) ? k+1 : j;
//
//----------------------------------------------------
// If this vertex is inside the viewing space, copy it
// directly to the clipping buffer
//----------------------------------------------------
//
int clipped_index =
myNumberUsedClipVertex + numberVerticesPerPolygon;
theTest = clipPerVertex[k];
if(theTest == 0)
{
clipExtraCoords[clipped_index] = transformedCoords[k];
if(k==j)
{
clipExtraColors[clipped_index] = colors[2*i];
}
else
{
clipExtraColors[clipped_index] = colors[2*i+1];
}
numberVerticesPerPolygon++;
clipped_index++;
//
//-------------------------------------------------------
// We don't need to clip this edge if the next vertex is
// also in the viewing space, so just move on to the next
// vertex
//-------------------------------------------------------
//
if(clipPerVertex[k1] == 0)
{
continue;
}
}
//
//---------------------------------------------------------
// This vertex is outside the viewing space, so if the next
// vertex is also outside the viewing space, no clipping is
// needed and we throw this vertex away. Since only one
// clipping plane is involved, it must be in the same space
// as the first vertex
//---------------------------------------------------------
//
else if(clipPerVertex[k1] != 0)
{
Verify(clipPerVertex[k1] == clipPerVertex[k]);
continue;
}
//
//--------------------------------------------------
// We now find the distance along the edge where the
// clipping plane will intersect
//--------------------------------------------------
//
mask = 1;
theTest |= clipPerVertex[k1];
//
//-----------------------------------------------------
// Find the boundary conditions that match our clipping
// plane
//-----------------------------------------------------
//
for (l=0; l<MLRClippingState::NextBit; l++)
{
if(theTest.IsClipped(mask))
{
//
//-------------------------------------------
// Find the clipping interval from bc0 to bc1
//-------------------------------------------
//
a = GetLerpFactor(l, (*transformedCoords)[k], (*transformedCoords)[k1]);
Verify(a >= 0.0f && a <= 1.0f);
ct = l;
break;
}
mask <<= 1;
}
//
//------------------------------
// Lerp the homogeneous position
//------------------------------
//
clipExtraCoords[clipped_index].Lerp(
transformedCoords[k],
transformedCoords[k1],
a
);
DoClipTrick(clipExtraCoords[clipped_index], ct);
//
//----------------------------------------------------------
// If there are colors, lerp them in screen space for now as
// most cards do that anyway
//----------------------------------------------------------
//
clipExtraColors[clipped_index].Lerp(
(k==j) ? colors[2*i] : colors[2*i+1],
(k1==j) ? colors[2*i] : colors[2*i+1],
a
);
//
//--------------------------------
// Bump the polygon's vertex count
//--------------------------------
//
numberVerticesPerPolygon++;
}
}
//
//---------------------------------------------------------------
// We have to handle multiple planes. We do this by creating two
// buffers and we switch between them as we clip plane by plane
//---------------------------------------------------------------
//
else
{
EffectClipData srcPolygon, dstPolygon;
int dstBuffer = 0;
specialClipColors[0] = colors[2*i];
for(l=1;l<numOfVertices;l++)
{
specialClipColors[l] = colors[2*i+1];
}
//
//-----------------------------------------------------
// Point the source polygon buffer at our original data
//-----------------------------------------------------
//
srcPolygon.coords = &transformedCoords[j];
srcPolygon.clipPerVertex = &clipPerVertex[j];
srcPolygon.flags = 0;
srcPolygon.colors = specialClipColors.GetData();
srcPolygon.length = numOfVertices;
//
//--------------------------------
// Point to the destination buffer
//--------------------------------
//
dstPolygon.coords = clipBuffer[dstBuffer].coords.GetData();
dstPolygon.colors = clipBuffer[dstBuffer].colors.GetData();
dstPolygon.texCoords = clipBuffer[dstBuffer].texCoords.GetData();
dstPolygon.clipPerVertex = clipBuffer[dstBuffer].clipPerVertex.GetData();
dstPolygon.flags = srcPolygon.flags;
dstPolygon.length = 0;
//
//-----------------------------------------------------------
// Spin through each plane that clipped the primitive and use
// it to actually clip the primitive
//-----------------------------------------------------------
//
mask = 1;
MLRClippingState theNewOr(0);
int loop = 4;
do
{
for(l=0; l<MLRClippingState::NextBit; l++)
{
if(theOr.IsClipped(mask))
{
//
//-----------------------------------
// Clip each vertex against the plane
//-----------------------------------
//
for(k=0;k<srcPolygon.length;k++)
{
k1 = (k+1 < srcPolygon.length) ? k+1 : 0;
theTest = srcPolygon.clipPerVertex[k];
//
//----------------------------------------------------
// If this vertex is inside the viewing space, copy it
// directly to the clipping buffer
//----------------------------------------------------
//
if(theTest.IsClipped(mask) == 0)
{
dstPolygon.coords[dstPolygon.length] =
srcPolygon.coords[k];
dstPolygon.clipPerVertex[dstPolygon.length] =
srcPolygon.clipPerVertex[k];
dstPolygon.colors[dstPolygon.length] =
srcPolygon.colors[k];
dstPolygon.length++;
//
//-------------------------------------------------------
// We don't need to clip this edge if the next vertex is
// also in the viewing space, so just move on to the next
// vertex
//-------------------------------------------------------
//
if(srcPolygon.clipPerVertex[k1].IsClipped(mask) == 0)
{
continue;
}
}
//
//---------------------------------------------------------
// This vertex is outside the viewing space, so if the next
// vertex is also outside the viewing space, no clipping is
// needed and we throw this vertex away. Since only one
// clipping plane is involved, it must be in the same space
// as the first vertex
//---------------------------------------------------------
//
else if(srcPolygon.clipPerVertex[k1].IsClipped(mask) != 0)
{
Verify(
srcPolygon.clipPerVertex[k1].IsClipped(mask)
== srcPolygon.clipPerVertex[k].IsClipped(mask)
);
continue;
}
//
//-------------------------------------------
// Find the clipping interval from bc0 to bc1
//-------------------------------------------
//
bc0 = GetBC(l, srcPolygon.coords[k]);
bc1 = GetBC(l, srcPolygon.coords[k1]);
Verify(!Close_Enough(bc0, bc1));
a = bc0 / (bc0 - bc1);
Verify(a >= 0.0f && a <= 1.0f);
//
//------------------------------
// Lerp the homogeneous position
//------------------------------
//
dstPolygon.coords[dstPolygon.length].Lerp(
srcPolygon.coords[k],
srcPolygon.coords[k1],
a
);
DoCleanClipTrick(dstPolygon.coords[dstPolygon.length], l);
//
//----------------------------------------------------------
// If there are colors, lerp them in screen space for now as
// most cards do that anyway
//----------------------------------------------------------
//
dstPolygon.colors[dstPolygon.length].Lerp(
srcPolygon.colors[k],
srcPolygon.colors[k1],
a
);
//
//-------------------------------------
// We have to generate a new clip state
//-------------------------------------
//
dstPolygon.clipPerVertex[dstPolygon.length].Clip4dVertex(&dstPolygon.coords[dstPolygon.length]);
//
//----------------------------------
// Bump the new polygon vertex count
//----------------------------------
//
dstPolygon.length++;
}
//
//-----------------------------------------------
// Swap source and destination buffer pointers in
// preparation for the next plane test
//-----------------------------------------------
//
srcPolygon.coords = clipBuffer[dstBuffer].coords.GetData();
srcPolygon.colors = clipBuffer[dstBuffer].colors.GetData();
// srcPolygon.texCoords = clipBuffer[dstBuffer].texCoords.GetData();
srcPolygon.clipPerVertex = clipBuffer[dstBuffer].clipPerVertex.GetData();
srcPolygon.length = dstPolygon.length;
dstBuffer = !dstBuffer;
dstPolygon.coords = clipBuffer[dstBuffer].coords.GetData();
dstPolygon.colors = clipBuffer[dstBuffer].colors.GetData();
// dstPolygon.texCoords = clipBuffer[dstBuffer].texCoords.GetData();
dstPolygon.clipPerVertex = clipBuffer[dstBuffer].clipPerVertex.GetData();
dstPolygon.length = 0;
}
mask = mask << 1;
}
theNewOr = 0;
for(k=0;k<srcPolygon.length;k++)
{
theNewOr |= srcPolygon.clipPerVertex[k];
}
theOr == theNewOr;
loop++;
} while (theNewOr != 0 && loop--);
Verify(theNewOr == 0);
//
//--------------------------------------------------
// Move the most recent polygon into the clip buffer
//--------------------------------------------------
//
for(k=0;k<srcPolygon.length;k++)
{
int clipped_index = myNumberUsedClipVertex + k;
if(srcPolygon.coords[k].z == srcPolygon.coords[k].w)
{
srcPolygon.coords[k].z -= SMALL;
}
clipExtraCoords[clipped_index] = srcPolygon.coords[k];
clipExtraColors[clipped_index] = srcPolygon.colors[k];
}
numberVerticesPerPolygon = srcPolygon.length;
}
clipExtraLength[myNumberUsedClipLength] = numberVerticesPerPolygon;
myNumberUsedClipVertex += numberVerticesPerPolygon;
myNumberUsedClipLength++;
ret++;
// clip
// dont draw the original
TurnInVisible(i);
#endif
}
}
#if EFECT_CLIPPED // this effect gets not clipped
if(myNumberUsedClipLength > 0)
{
for(i=0,j=0;i<myNumberUsedClipLength;i++)
{
int stride = clipExtraLength[i];
for(k=1;k<stride-1;k++)
{
if(db==false)
{
Verify((vt->GetLast() + 3 + numGOSVertices) < vt->GetLength());
}
GOSCopyTriangleData(
&gos_vertices[numGOSVertices],
clipExtraCoords.GetData(),
clipExtraColors.GetData(),
j, j+k+1, j+k,
true
);
#ifdef LAB_ONLY
if(gShowClippedPolys)
{
gos_vertices[numGOSVertices].argb = 0xffff0000;
gos_vertices[numGOSVertices].u = 0.0f;
gos_vertices[numGOSVertices].v = 0.0f;
gos_vertices[numGOSVertices+1].argb = 0xffff0000;
gos_vertices[numGOSVertices+1].u = 0.0f;
gos_vertices[numGOSVertices+1].v = 0.0f;
gos_vertices[numGOSVertices+2].argb = 0xffff0000;
gos_vertices[numGOSVertices+2].u = 0.0f;
gos_vertices[numGOSVertices+2].v = 0.0f;
}
#endif
numGOSVertices += 3;
}
j += stride;
}
}
#endif
if(db==false)
{
vt->Increase(numGOSVertices);
}
visible = numGOSVertices ? 1 : 0;
return visible;
}
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
//
void
MLRNGonCloud::TestInstance() const
{
if (usedNrOfNGons)
{
Check_Pointer(usedNrOfNGons);
Verify(*usedNrOfNGons >= 0);
Verify(*usedNrOfNGons <= maxNrOf);
}
}