/****************************************************************************** * SBzrEval.c - Bezier surfaces handling routines - evaluation routines. * ******************************************************************************* * Written by Gershon Elber, Mar. 90. * ******************************************************************************/ #include "cagd_loc.h" /****************************************************************************** * Evaluate the given tensor product Bezier surface at a given point, by * * extracting an isoparamteric curve along u and evaluating v in it. * * * * u --> * * +----------------------+ * * |P0 Pi-1| * * V |Pi P2i-1| Parametric space orientation - control mesh. * * || | * * v|Pn-i Pn-1| * * +----------------------+ * * * ******************************************************************************/ CagdRType *BzrSrfEvalAtParam(CagdSrfStruct *Srf, CagdRType u, CagdRType v) { CagdRType *Pt; CagdCrvStruct *IsoCrv = BzrSrfCrvFromSrf(Srf, u, CAGD_CONST_U_DIR); Pt = BzrCrvEvalAtParam(IsoCrv, v); CagdCrvFree(IsoCrv); return Pt; } /****************************************************************************** * Extract an isoline curve out of the given tensor product Bezier surface. * * Operations should prefer the CONST_U_DIR, in which the extraction is * * somewhat faster if it is possible. * ******************************************************************************/ CagdCrvStruct *BzrSrfCrvFromSrf(CagdSrfStruct *Srf, CagdRType t, CagdSrfDirType Dir) { CagdCrvStruct *Crv; CagdBType IsNotRational = !CAGD_IS_RATIONAL_SRF(Srf); int i, j, CrvOrder, VecLen, MaxCoord = CAGD_NUM_OF_PT_COORD(Srf -> PType); CagdRType *CrvP, *SrfP; switch (Dir) { case CAGD_CONST_U_DIR: Crv = BzrCrvNew(CrvOrder = Srf -> VLength, Srf -> PType); VecLen = Srf -> ULength; for (i = IsNotRational; i <= MaxCoord; i++) { CrvP = Crv -> Points[i]; SrfP = Srf -> Points[i]; for (j = 0; j < CrvOrder; j++) { *CrvP++ = BzrCrvEvalVecAtParam(SrfP, CAGD_NEXT_U(Srf), VecLen, t); SrfP += CAGD_NEXT_V(Srf); } } break; case CAGD_CONST_V_DIR: Crv = BzrCrvNew(CrvOrder = Srf -> ULength, Srf -> PType); VecLen = Srf -> VLength; for (i = IsNotRational; i <= MaxCoord; i++) { CrvP = Crv -> Points[i]; SrfP = Srf -> Points[i]; for (j = 0; j < CrvOrder; j++) { *CrvP++ = BzrCrvEvalVecAtParam(SrfP, CAGD_NEXT_V(Srf), VecLen, t); SrfP += CAGD_NEXT_U(Srf); } } break; default: FATAL_ERROR(CAGD_ERR_DIR_NOT_CONST_UV); break; } return Crv; } /****************************************************************************** * Extract an isoline curve out of the given mesh row/col. * * The provided (zero based) Index specifies which row/col Index to extract. * ******************************************************************************/ CagdCrvStruct *BzrSrfCrvFromMesh(CagdSrfStruct *Srf, int Index, CagdSrfDirType Dir) { CagdCrvStruct *Crv; CagdBType IsNotRational = !CAGD_IS_RATIONAL_SRF(Srf); int i, j, CrvOrder, MaxCoord = CAGD_NUM_OF_PT_COORD(Srf -> PType); CagdRType *CrvP, *SrfP; switch (Dir) { case CAGD_CONST_U_DIR: if (Index + 1 > Srf -> ULength) FATAL_ERROR(CAGD_ERR_INDEX_NOT_IN_MESH); Crv = BzrCrvNew(CrvOrder = Srf -> VLength, Srf -> PType); for (i = IsNotRational; i <= MaxCoord; i++) { CrvP = Crv -> Points[i]; SrfP = Srf -> Points[i] + Index * CAGD_NEXT_U(Srf); for (j = 0; j < CrvOrder; j++) { *CrvP++ = *SrfP; SrfP += CAGD_NEXT_V(Srf); } } break; case CAGD_CONST_V_DIR: if (Index + 1 > Srf -> VLength) FATAL_ERROR(CAGD_ERR_INDEX_NOT_IN_MESH); Crv = BzrCrvNew(CrvOrder = Srf -> ULength, Srf -> PType); for (i = IsNotRational; i <= MaxCoord; i++) { CrvP = Crv -> Points[i]; SrfP = Srf -> Points[i] + Index * CAGD_NEXT_V(Srf);; for (j = 0; j < CrvOrder; j++) { *CrvP++ = *SrfP; SrfP += CAGD_NEXT_U(Srf); } } break; default: FATAL_ERROR(CAGD_ERR_DIR_NOT_CONST_UV); break; } return Crv; }