Exemplo n.º 1
0
vec3_t *G2Exporter_Surface_GetVertNormal(int iSurfaceIndex, int iVertIndex, int iLODIndex)
{
	static vec3_t v3={0};
	memset(v3,0,sizeof(v3));

	if (iLODIndex == giNumLODs-1)
	{
		// q3data surface...
		//
		if (iSurfaceIndex < giNumSurfaces)
		{
			// standard surface...
			//
			md3SurfaceData_t *pSurfaceData = GetMD3SurfaceData(iSurfaceIndex);
			if (pSurfaceData)
			{
				// this logic is kinda gay, not sure why the *6 etc, but that's how other q3data code works, so...
				//
				float **ppVerts = pSurfaceData->verts;
				memcpy(v3,(vec3_t*) &ppVerts[0][iVertIndex*6+3], sizeof(v3));

				{		
					Matrix4 Swap;
							Swap.Identity();
					
					if (1)
					{
						Swap.SetRow(0,Vect3(0.0f,-1.0f,0.0f));
						Swap.SetRow(1,Vect3(1.0f,0.0f,0.0f));
					}
					Swap.CalcFlags();

					Vect3 v3In((const float *)v3);
					static Vect3 v3Out;
					Swap.XFormVect(v3Out,v3In);
					return (vec3_t*) &v3Out;
				}
			}
		}
		else
		{
			// tag surface...
			//
			// I don't think tag-surfaces normals have any meaning for ghoul2, so...
			//		
			return &v3;
		}
	}
	else
	{
		// imported surface...
		//
		vec3_t &v3Src = ImportedModel.ImportedLODs[iLODIndex].ImportedSurfaces[ImportedModel.SurfaceIndexRemaps[iSurfaceIndex]].ImportedVerts[iVertIndex].normal;
		memcpy(v3,v3Src,sizeof(v3));
		return &v3;
	}

	assert(0);	
	return &v3;
}
Exemplo n.º 2
0
int FindPKeys(TxtNode *t)
{
	if (t->child)
	{
		TxtNode *sib=t->child;
		if (!sib)
			return 200;
		char framename[100];
		{
			if (!sib->child)
				return 201;
			if (!sib->child->text)
				return 202;
			if (!strncmp("frm-",sib->child->text,4))
				mystrncpy(framename,sib->child->text+4,sib->child->length-4);
			else
			{
				if (!strncmp("SCENE",sib->child->text,4))
					return 0;
				mystrncpy(framename,sib->child->text,sib->child->length);
			}
			sib=sib->sibling;
		}
		int foundkeys=0;
		maxmatframe=0;
		while (sib)
		{
			if (sib->text&&!mystrncmp("SI_AnimationKey",sib->text,sib->length))
			{
				if (!sib->sibling)
					return 103;
				sib=sib->sibling;
				int err=ProcNKeys(sib,foundkeys);
				if (err)
					return err;
			}
			sib=sib->sibling;
		}
		{
			if (maxmatframe>maxframe)
				maxframe=maxmatframe;
			int i;
			for (i=0;i<nsNodes;i++)
			{
				if (!strcmp(sNodes[i].name,framename))
				{
					int j;
					if (sNodes[i].nanimat<maxmatframe+1)
					{
						delete[] sNodes[i].animat;
						sNodes[i].nanimat=maxmatframe+1;
						sNodes[i].animat=new Matrix4[maxmatframe+1];
						for (j=0;j<=maxmatframe;j++)
							sNodes[i].animat[j].Identity();
					}
					for (j=0;j<=maxmatframe;j++)
					{
						Matrix4 xf;
						xf=sNodes[i].mat;
						Vect3 tt,t2;
						if (foundkeys&1)
						{
							mats[j].GetRow(3,tt);
							xf.SetRow(3,tt);
						}
						if (foundkeys&2)
						{
							float l;
							xf.GetRow(0,t2);
							l=t2.Len();
							mats[j].GetRow(0,tt);
							tt*=l;
							xf.SetRow(0,tt);

							xf.GetRow(1,t2);
							l=t2.Len();
							mats[j].GetRow(1,tt);
							tt*=l;
							xf.SetRow(1,tt);

							xf.GetRow(2,t2);
							l=t2.Len();
							mats[j].GetRow(2,tt);
							tt*=l;
							xf.SetRow(2,tt);
						}
						if (foundkeys&4)
						{
							xf.GetRow(0,tt);
							tt.Norm();
							tt*=scales[j].x();
							xf.SetRow(0,tt);

							xf.GetRow(1,tt);
							tt.Norm();
							tt*=scales[j].x();
							xf.SetRow(1,tt);

							xf.GetRow(2,tt);
							tt.Norm();
							tt*=scales[j].x();
							xf.SetRow(2,tt);

						}
						xf.CalcFlags();
						Matrix4 par,tmat;
						if (sNodes[i].parent)
						{
							if (j<sNodes[i].parent->nanimat)
								par=sNodes[i].parent->animat[j];
							else
								par=sNodes[i].parent->BaseMat;
							tmat.Concat(xf,par);
						}
						else
							tmat=xf;
						sNodes[i].animat[j]=tmat;

#if 0
						par.Inverse(sNodes[i].BaseMat);
						tmat.Concat(par,sNodes[i].animat[j]);
	char tmp[1000];
	int r;
	sprintf(tmp,"final frame %d %s\n",j,sNodes[i].name);
	OutputDebugString(tmp);
	for (r=0;r<4;r++)
	{
		sprintf(tmp,"%6f %6f %6f\n",tmat[r][0],tmat[r][1],tmat[r][2]);
		OutputDebugString(tmp);
	}
	sprintf(tmp,"baseinv frame %d %s\n",j,sNodes[i].name);
	OutputDebugString(tmp);
	for (r=0;r<4;r++)
	{
		sprintf(tmp,"%6f %6f %6f\n",par[r][0],par[r][1],par[r][2]);
		OutputDebugString(tmp);
	}
	sprintf(tmp,"bone frame %d %s\n",j,sNodes[i].name);
	OutputDebugString(tmp);
	for (r=0;r<4;r++)
	{
		sprintf(tmp,"%6f %6f %6f\n",sNodes[i].animat[j][r][0],sNodes[i].animat[j][r][1],sNodes[i].animat[j][r][2]);
		OutputDebugString(tmp);
	}
#endif
					}
				}
			}
		}
	}
	return 0;
}
Exemplo n.º 3
0
vec3_t *G2Exporter_Surface_GetVertCoords(int iSurfaceIndex, int iVertIndex, int iLODIndex)
{
	static vec3_t v3={0};
	memset(&v3,0,sizeof(v3));

	if (iLODIndex == giNumLODs-1)
	{
		// q3data surface...
		//
		if (iSurfaceIndex < giNumSurfaces)
		{
			// standard surface...
			//
			md3SurfaceData_t *pSurfaceData = GetMD3SurfaceData(iSurfaceIndex);
			if (pSurfaceData)
			{
				// this logic is kinda gay, not sure why the *6 etc, but that's how other q3data code works, so...
				//
				float **ppVerts = pSurfaceData->verts;
				static vec3_t v3;
				for (int i=0; i<3; i++)
				{
					v3[i] = ppVerts[0][iVertIndex*6+i];// /MD3_XYZ_SCALE;
				}
				// return &v3;
					
				Matrix4 Swap;
						Swap.Identity();
				
				if (1)
				{
					Swap.SetRow(0,Vect3(0.0f,-1.0f,0.0f));
					Swap.SetRow(1,Vect3(1.0f,0.0f,0.0f));
				}
				Swap.CalcFlags();

				Vect3 v3In((const float *)v3);
				static Vect3 v3Out;
				Swap.XFormVect(v3Out,v3In);
				return (vec3_t*) &v3Out;
			}
		}
		else
		{
			// tag surface...
			//
			assert(iVertIndex<3);

			md3Tag_t *pTag = &g_data.tags[0][iSurfaceIndex - giNumSurfaces];			
			vec3_t v3New;

	//#ifdef PERFECT_CONVERSION
			
			v3New[0] = pTag->axis[0][iVertIndex] ;
			v3New[1] = pTag->axis[1][iVertIndex] ;
			v3New[2] = pTag->axis[2][iVertIndex] ;

			// don't worry about how this crap works, it just does (arrived at by empirical methods... :-)
			//
			//  (mega-thanks to Gil as usual)
			//
			if (iVertIndex==2)
			{
				VectorCopy(pTag->origin,v3);
			}
			else
			if (iVertIndex==1)
			{
				v3New[0] =   2.0f * pTag->axis[1][iG2_TRISIDE_MIDDLE];
				v3New[1] = -(2.0f * pTag->axis[0][iG2_TRISIDE_MIDDLE]);
				v3New[2] =   2.0f * pTag->axis[2][iG2_TRISIDE_MIDDLE];
				
				VectorSubtract(pTag->origin,v3New,v3);
			}
			else
			{					
				v3New[0] =  pTag->axis[1][iG2_TRISIDE_LONGEST];
				v3New[1] = -pTag->axis[0][iG2_TRISIDE_LONGEST];
				v3New[2] =  pTag->axis[2][iG2_TRISIDE_LONGEST];
				
				VectorSubtract(pTag->origin,v3New,v3);
			}

	//		return (vec3_t*) &v3;

			Matrix4 Swap;
					Swap.Identity();
			
			if (1)
			{
				Swap.SetRow(0,Vect3(0.0f,-1.0f,0.0f));
				Swap.SetRow(1,Vect3(1.0f,0.0f,0.0f));
			}
			Swap.CalcFlags();

			Vect3 v3In((const float *)v3);
			static Vect3 v3Out;
			Swap.XFormVect(v3Out,v3In);

			return (vec3_t*) &v3Out;
		}
	}
	else
	{
		// imported surface...
		//
		vec3_t &v3Src = ImportedModel.ImportedLODs[iLODIndex].ImportedSurfaces[ImportedModel.SurfaceIndexRemaps[iSurfaceIndex]].ImportedVerts[iVertIndex].vertCoords;
		memcpy(v3,v3Src,sizeof(v3));
		return &v3;
	}

	assert(0);
	return &v3;
}