2021-05-20 10:49:33 +00:00
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// Copyright 2009-2021 Intel Corporation
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2021-04-20 16:38:09 +00:00
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// SPDX-License-Identifier: Apache-2.0
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#include "geometry.h"
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#include "scene.h"
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namespace embree
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{
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const char* Geometry::gtype_names[Geometry::GTY_END] =
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{
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"flat_linear_curve",
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"round_linear_curve",
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"oriented_linear_curve",
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"",
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"flat_bezier_curve",
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"round_bezier_curve",
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"oriented_bezier_curve",
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"",
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"flat_bspline_curve",
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"round_bspline_curve",
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"oriented_bspline_curve",
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"",
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"flat_hermite_curve",
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"round_hermite_curve",
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"oriented_hermite_curve",
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"",
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"flat_catmull_rom_curve",
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"round_catmull_rom_curve",
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"oriented_catmull_rom_curve",
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"",
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"triangles",
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"quads",
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"grid",
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"subdivs",
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"",
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"sphere",
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"disc",
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"oriented_disc",
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"",
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"usergeom",
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"instance_cheap",
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"instance_expensive",
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};
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Geometry::Geometry (Device* device, GType gtype, unsigned int numPrimitives, unsigned int numTimeSteps)
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: device(device), userPtr(nullptr),
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numPrimitives(numPrimitives), numTimeSteps(unsigned(numTimeSteps)), fnumTimeSegments(float(numTimeSteps-1)), time_range(0.0f,1.0f),
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mask(-1),
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gtype(gtype),
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gsubtype(GTY_SUBTYPE_DEFAULT),
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quality(RTC_BUILD_QUALITY_MEDIUM),
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state((unsigned)State::MODIFIED),
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enabled(true),
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intersectionFilterN(nullptr), occlusionFilterN(nullptr), pointQueryFunc(nullptr)
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{
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device->refInc();
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}
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Geometry::~Geometry()
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{
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device->refDec();
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}
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void Geometry::setNumPrimitives(unsigned int numPrimitives_in)
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{
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if (numPrimitives_in == numPrimitives) return;
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numPrimitives = numPrimitives_in;
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Geometry::update();
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}
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void Geometry::setNumTimeSteps (unsigned int numTimeSteps_in)
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{
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if (numTimeSteps_in == numTimeSteps) {
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return;
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}
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numTimeSteps = numTimeSteps_in;
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fnumTimeSegments = float(numTimeSteps_in-1);
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Geometry::update();
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}
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void Geometry::setTimeRange (const BBox1f range)
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{
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time_range = range;
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Geometry::update();
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}
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void Geometry::update()
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{
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++modCounter_; // FIXME: required?
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state = (unsigned)State::MODIFIED;
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}
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void Geometry::commit()
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{
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++modCounter_;
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state = (unsigned)State::COMMITTED;
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}
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void Geometry::preCommit()
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{
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if (State::MODIFIED == (State)state)
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throw_RTCError(RTC_ERROR_INVALID_OPERATION,"geometry not committed");
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}
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void Geometry::postCommit()
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{
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}
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void Geometry::enable ()
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{
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if (isEnabled())
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return;
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enabled = true;
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++modCounter_;
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}
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void Geometry::disable ()
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{
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if (isDisabled())
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return;
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enabled = false;
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++modCounter_;
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}
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void Geometry::setUserData (void* ptr)
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{
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userPtr = ptr;
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}
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void Geometry::setIntersectionFilterFunctionN (RTCFilterFunctionN filter)
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{
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if (!(getTypeMask() & (MTY_TRIANGLE_MESH | MTY_QUAD_MESH | MTY_CURVES | MTY_SUBDIV_MESH | MTY_USER_GEOMETRY | MTY_GRID_MESH)))
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throw_RTCError(RTC_ERROR_INVALID_OPERATION,"filter functions not supported for this geometry");
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intersectionFilterN = filter;
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}
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void Geometry::setOcclusionFilterFunctionN (RTCFilterFunctionN filter)
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{
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if (!(getTypeMask() & (MTY_TRIANGLE_MESH | MTY_QUAD_MESH | MTY_CURVES | MTY_SUBDIV_MESH | MTY_USER_GEOMETRY | MTY_GRID_MESH)))
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throw_RTCError(RTC_ERROR_INVALID_OPERATION,"filter functions not supported for this geometry");
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occlusionFilterN = filter;
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}
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void Geometry::setPointQueryFunction (RTCPointQueryFunction func)
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{
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pointQueryFunc = func;
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}
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void Geometry::interpolateN(const RTCInterpolateNArguments* const args)
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{
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const void* valid_i = args->valid;
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const unsigned* primIDs = args->primIDs;
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const float* u = args->u;
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const float* v = args->v;
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unsigned int N = args->N;
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RTCBufferType bufferType = args->bufferType;
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unsigned int bufferSlot = args->bufferSlot;
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float* P = args->P;
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float* dPdu = args->dPdu;
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float* dPdv = args->dPdv;
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float* ddPdudu = args->ddPdudu;
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float* ddPdvdv = args->ddPdvdv;
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float* ddPdudv = args->ddPdudv;
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unsigned int valueCount = args->valueCount;
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if (valueCount > 256) throw_RTCError(RTC_ERROR_INVALID_OPERATION,"maximally 256 floating point values can be interpolated per vertex");
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const int* valid = (const int*) valid_i;
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__aligned(64) float P_tmp[256];
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__aligned(64) float dPdu_tmp[256];
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__aligned(64) float dPdv_tmp[256];
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__aligned(64) float ddPdudu_tmp[256];
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__aligned(64) float ddPdvdv_tmp[256];
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__aligned(64) float ddPdudv_tmp[256];
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float* Pt = P ? P_tmp : nullptr;
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float* dPdut = nullptr, *dPdvt = nullptr;
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if (dPdu) { dPdut = dPdu_tmp; dPdvt = dPdv_tmp; }
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float* ddPdudut = nullptr, *ddPdvdvt = nullptr, *ddPdudvt = nullptr;
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if (ddPdudu) { ddPdudut = ddPdudu_tmp; ddPdvdvt = ddPdvdv_tmp; ddPdudvt = ddPdudv_tmp; }
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for (unsigned int i=0; i<N; i++)
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{
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if (valid && !valid[i]) continue;
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RTCInterpolateArguments iargs;
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iargs.primID = primIDs[i];
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iargs.u = u[i];
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iargs.v = v[i];
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iargs.bufferType = bufferType;
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iargs.bufferSlot = bufferSlot;
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iargs.P = Pt;
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iargs.dPdu = dPdut;
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iargs.dPdv = dPdvt;
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iargs.ddPdudu = ddPdudut;
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iargs.ddPdvdv = ddPdvdvt;
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iargs.ddPdudv = ddPdudvt;
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iargs.valueCount = valueCount;
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interpolate(&iargs);
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if (likely(P)) {
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for (unsigned int j=0; j<valueCount; j++)
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P[j*N+i] = Pt[j];
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}
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if (likely(dPdu))
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{
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for (unsigned int j=0; j<valueCount; j++) {
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dPdu[j*N+i] = dPdut[j];
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dPdv[j*N+i] = dPdvt[j];
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}
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}
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if (likely(ddPdudu))
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{
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for (unsigned int j=0; j<valueCount; j++) {
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ddPdudu[j*N+i] = ddPdudut[j];
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ddPdvdv[j*N+i] = ddPdvdvt[j];
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ddPdudv[j*N+i] = ddPdudvt[j];
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}
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}
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}
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}
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bool Geometry::pointQuery(PointQuery* query, PointQueryContext* context)
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{
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assert(context->primID < size());
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RTCPointQueryFunctionArguments args;
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args.query = (RTCPointQuery*)context->query_ws;
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args.userPtr = context->userPtr;
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args.primID = context->primID;
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args.geomID = context->geomID;
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args.context = context->userContext;
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args.similarityScale = context->similarityScale;
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bool update = false;
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if(context->func) update |= context->func(&args);
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if(pointQueryFunc) update |= pointQueryFunc(&args);
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if (update && context->userContext->instStackSize > 0)
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{
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// update point query
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if (context->query_type == POINT_QUERY_TYPE_AABB) {
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context->updateAABB();
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} else {
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assert(context->similarityScale > 0.f);
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query->radius = context->query_ws->radius * context->similarityScale;
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}
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}
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return update;
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}
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}
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