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223 lines
7.8 KiB
C++
223 lines
7.8 KiB
C++
// This file is part of Eigen, a lightweight C++ template library
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// for linear algebra. Eigen itself is part of the KDE project.
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//
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// Copyright (C) 2008 Gael Guennebaud <g.gael@free.fr>
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//
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// Eigen is free software; you can redistribute it and/or
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// modify it under the terms of the GNU Lesser General Public
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// License as published by the Free Software Foundation; either
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// version 3 of the License, or (at your option) any later version.
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//
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// Alternatively, you can redistribute it and/or
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// modify it under the terms of the GNU General Public License as
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// published by the Free Software Foundation; either version 2 of
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// the License, or (at your option) any later version.
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//
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// Eigen is distributed in the hope that it will be useful, but WITHOUT ANY
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// WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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// FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License or the
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// GNU General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public
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// License and a copy of the GNU General Public License along with
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// Eigen. If not, see <http://www.gnu.org/licenses/>.
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#ifndef EIGEN_GPUHELPER_H
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#define EIGEN_GPUHELPER_H
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#include <Eigen/Geometry>
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#include <GL/gl.h>
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#include <vector>
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using namespace Eigen;
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typedef Vector4f Color;
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class GpuHelper
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{
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public:
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GpuHelper();
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~GpuHelper();
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enum ProjectionMode2D { PM_Normalized = 1, PM_Viewport = 2 };
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void pushProjectionMode2D(ProjectionMode2D pm);
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void popProjectionMode2D();
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/** Multiply the OpenGL matrix \a matrixTarget by the matrix \a mat.
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Essentially, this helper function automatically calls glMatrixMode(matrixTarget) if required
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and does a proper call to the right glMultMatrix*() function according to the scalar type
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and storage order.
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\warning glMatrixMode() must never be called directly. If your're unsure, use forceMatrixMode().
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\sa Matrix, loadMatrix(), forceMatrixMode()
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*/
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template<typename Scalar, int _Flags>
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void multMatrix(const Matrix<Scalar,4,4, _Flags, 4,4>& mat, GLenum matrixTarget);
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/** Load the matrix \a mat to the OpenGL matrix \a matrixTarget.
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Essentially, this helper function automatically calls glMatrixMode(matrixTarget) if required
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and does a proper call to the right glLoadMatrix*() or glLoadIdentity() function according to the scalar type
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and storage order.
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\warning glMatrixMode() must never be called directly. If your're unsure, use forceMatrixMode().
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\sa Matrix, multMatrix(), forceMatrixMode()
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*/
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template<typename Scalar, int _Flags>
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void loadMatrix(const Eigen::Matrix<Scalar,4,4, _Flags, 4,4>& mat, GLenum matrixTarget);
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template<typename Scalar, typename Derived>
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void loadMatrix(
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const Eigen::CwiseNullaryOp<Eigen::ei_scalar_identity_op<Scalar>,Derived>&,
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GLenum matrixTarget);
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/** Make the matrix \a matrixTarget the current OpenGL matrix target.
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Call this function before loadMatrix() or multMatrix() if you cannot guarrantee that glMatrixMode()
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has never been called after the last loadMatrix() or multMatrix() calls.
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\todo provides a debug mode checking the sanity of the cached matrix mode.
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*/
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inline void forceMatrixTarget(GLenum matrixTarget) {glMatrixMode(mCurrentMatrixTarget=matrixTarget);}
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inline void setMatrixTarget(GLenum matrixTarget);
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/** Push the OpenGL matrix \a matrixTarget and load \a mat.
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*/
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template<typename Scalar, int _Flags>
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inline void pushMatrix(const Matrix<Scalar,4,4, _Flags, 4,4>& mat, GLenum matrixTarget);
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template<typename Scalar, typename Derived>
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void pushMatrix(
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const Eigen::CwiseNullaryOp<Eigen::ei_scalar_identity_op<Scalar>,Derived>&,
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GLenum matrixTarget);
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/** Push and clone the OpenGL matrix \a matrixTarget
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*/
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inline void pushMatrix(GLenum matrixTarget);
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/** Pop the OpenGL matrix \a matrixTarget
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*/
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inline void popMatrix(GLenum matrixTarget);
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void drawVector(const Vector3f& position, const Vector3f& vec, const Color& color, float aspect = 50.);
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void drawVectorBox(const Vector3f& position, const Vector3f& vec, const Color& color, float aspect = 50.);
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void drawUnitCube(void);
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void drawUnitLightSphere(int level=0);
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/// draw the \a nofElement first elements
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inline void draw(GLenum mode, uint nofElement);
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/// draw a range of elements
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inline void draw(GLenum mode, uint start, uint end);
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/// draw an indexed subset
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inline void draw(GLenum mode, const std::vector<uint>* pIndexes);
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protected:
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void update(void);
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GLuint mColorBufferId;
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int mVpWidth, mVpHeight;
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GLenum mCurrentMatrixTarget;
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bool mInitialized;
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};
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/** Singleton shortcut
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*/
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extern GpuHelper gpu;
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/** \internal
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*/
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template<bool RowMajor, int _Flags> struct GlMatrixHelper;
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template<int _Flags> struct GlMatrixHelper<false,_Flags>
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{
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static void loadMatrix(const Matrix<float, 4,4, _Flags, 4,4>& mat) { glLoadMatrixf(mat.data()); }
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static void loadMatrix(const Matrix<double,4,4, _Flags, 4,4>& mat) { glLoadMatrixd(mat.data()); }
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static void multMatrix(const Matrix<float, 4,4, _Flags, 4,4>& mat) { glMultMatrixf(mat.data()); }
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static void multMatrix(const Matrix<double,4,4, _Flags, 4,4>& mat) { glMultMatrixd(mat.data()); }
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};
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template<int _Flags> struct GlMatrixHelper<true,_Flags>
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{
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static void loadMatrix(const Matrix<float, 4,4, _Flags, 4,4>& mat) { glLoadMatrixf(mat.transpose().eval().data()); }
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static void loadMatrix(const Matrix<double,4,4, _Flags, 4,4>& mat) { glLoadMatrixd(mat.transpose().eval().data()); }
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static void multMatrix(const Matrix<float, 4,4, _Flags, 4,4>& mat) { glMultMatrixf(mat.transpose().eval().data()); }
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static void multMatrix(const Matrix<double,4,4, _Flags, 4,4>& mat) { glMultMatrixd(mat.transpose().eval().data()); }
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};
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inline void GpuHelper::setMatrixTarget(GLenum matrixTarget)
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{
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if (matrixTarget != mCurrentMatrixTarget)
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glMatrixMode(mCurrentMatrixTarget=matrixTarget);
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}
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template<typename Scalar, int _Flags>
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void GpuHelper::multMatrix(const Matrix<Scalar,4,4, _Flags, 4,4>& mat, GLenum matrixTarget)
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{
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setMatrixTarget(matrixTarget);
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GlMatrixHelper<_Flags&Eigen::RowMajorBit, _Flags>::multMatrix(mat);
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}
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template<typename Scalar, typename Derived>
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void GpuHelper::loadMatrix(
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const Eigen::CwiseNullaryOp<Eigen::ei_scalar_identity_op<Scalar>,Derived>&,
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GLenum matrixTarget)
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{
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setMatrixTarget(matrixTarget);
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glLoadIdentity();
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}
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template<typename Scalar, int _Flags>
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void GpuHelper::loadMatrix(const Eigen::Matrix<Scalar,4,4, _Flags, 4,4>& mat, GLenum matrixTarget)
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{
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setMatrixTarget(matrixTarget);
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GlMatrixHelper<(_Flags&Eigen::RowMajorBit)!=0, _Flags>::loadMatrix(mat);
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}
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inline void GpuHelper::pushMatrix(GLenum matrixTarget)
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{
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setMatrixTarget(matrixTarget);
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glPushMatrix();
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}
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template<typename Scalar, int _Flags>
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inline void GpuHelper::pushMatrix(const Matrix<Scalar,4,4, _Flags, 4,4>& mat, GLenum matrixTarget)
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{
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pushMatrix(matrixTarget);
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GlMatrixHelper<_Flags&Eigen::RowMajorBit,_Flags>::loadMatrix(mat);
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}
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template<typename Scalar, typename Derived>
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void GpuHelper::pushMatrix(
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const Eigen::CwiseNullaryOp<Eigen::ei_scalar_identity_op<Scalar>,Derived>&,
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GLenum matrixTarget)
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{
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pushMatrix(matrixTarget);
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glLoadIdentity();
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}
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inline void GpuHelper::popMatrix(GLenum matrixTarget)
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{
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setMatrixTarget(matrixTarget);
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glPopMatrix();
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}
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inline void GpuHelper::draw(GLenum mode, uint nofElement)
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{
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glDrawArrays(mode, 0, nofElement);
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}
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inline void GpuHelper::draw(GLenum mode, const std::vector<uint>* pIndexes)
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{
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glDrawElements(mode, pIndexes->size(), GL_UNSIGNED_INT, &(pIndexes->front()));
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}
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inline void GpuHelper::draw(GLenum mode, uint start, uint end)
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{
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glDrawArrays(mode, start, end-start);
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}
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#endif // EIGEN_GPUHELPER_H
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