#include "debugdraw.hpp" #include #include #include #include #include #include #include #include #include static osg::Vec3 sphereCoordToCartesian(float theta, float phi, float r) { osg::Vec3 returnVec = osg::Vec3(0.0, 0.0, 0.0); float phiToHorizontal = osg::PI_2 - phi; returnVec.x() = std::cos(theta); returnVec.y() = std::sin(theta); returnVec.z() = std::sin(phiToHorizontal); returnVec.x() *= std::cos(phiToHorizontal); returnVec.y() *= std::cos(phiToHorizontal); returnVec.x() *= r; returnVec.z() *= r; returnVec.y() *= r; return returnVec; } static void generateWireCube(osg::Geometry& geom, float dim) { osg::ref_ptr vertices = new osg::Vec3Array; osg::ref_ptr normals = new osg::Vec3Array; osg::Vec2i indexPos[] = { osg::Vec2i(0, 0), osg::Vec2i(1, 0), osg::Vec2i(1, 1), osg::Vec2i(0, 1) }; for (int i = 0; i < 4; i++) { osg::Vec3 vert1 = osg::Vec3(indexPos[i].x() - 0.5, indexPos[i].y() - 0.5, 0.5); int next = (i + 1) % 4; osg::Vec3 vert2 = osg::Vec3(indexPos[next].x() - 0.5, indexPos[next].y() - 0.5, 0.5); vertices->push_back(vert1 * dim); vertices->push_back(vert2 * dim); vert1.z() *= -1; vert2.z() *= -1; vertices->push_back(vert1 * dim); vertices->push_back(vert2 * dim); auto vert3 = vert1; vert3.z() *= -1; vertices->push_back(vert1 * dim); vertices->push_back(vert3 * dim); } for (std::size_t i = 0; i < vertices->size(); i++) { normals->push_back(osg::Vec3(1., 1., 1.)); } geom.setVertexArray(vertices); geom.setNormalArray(normals, osg::Array::BIND_PER_VERTEX); geom.addPrimitiveSet(new osg::DrawArrays(osg::PrimitiveSet::LINES, 0, vertices->size())); } static void generateCube(osg::Geometry& geom, float dim) { osg::ref_ptr vertices = new osg::Vec3Array; osg::ref_ptr normals = new osg::Vec3Array; osg::ref_ptr indices = new osg::DrawElementsUShort(osg::DrawElementsUShort::TRIANGLES, 0); for (int i_face = 0; i_face < 6; i_face++) { osg::Vec3f normale(0., 0., 0.); osg::Vec3f u(0., 0., 0.); osg::Vec3f v(0., 0., 0.); int axis = i_face / 2; int dir = i_face % 2 == 0 ? -1 : 1; float float_dir = dir; normale[axis] = float_dir; u[(axis + 1) % 3] = 1.0; v[(axis + 2) % 3] = 1.0; for (int i_point = 0; i_point < 4; i_point++) { float iu = i_point % 2 == 1 ? float_dir : -float_dir; // This is to get the right triangle orientation when the normal changes* float iv = i_point / 2 == 1 ? 1.0 : -1.0; osg::Vec3f point = (u * iu) + (v * iv); point = (point + normale); point = point * (dim * 0.5f); vertices->push_back(point); normals->push_back(normale); } int start_vertex(i_face * 4); int newFace1[] = { start_vertex, start_vertex + 1, start_vertex + 2 }; for (int i = 0; i < 3; i++) { indices->push_back(newFace1[i]); } int newFace2[] = { start_vertex + 2, start_vertex + 1, start_vertex + 3 }; for (int i = 0; i < 3; i++) { indices->push_back(newFace2[i]); } } geom.setVertexArray(vertices); geom.setNormalArray(normals, osg::Array::BIND_PER_VERTEX); geom.addPrimitiveSet(indices); } static void generateCylinder(osg::Geometry& geom, float radius, float height, int subdiv) { osg::ref_ptr vertices = new osg::Vec3Array; osg::ref_ptr normals = new osg::Vec3Array; osg::ref_ptr indices = new osg::DrawElementsUShort(osg::DrawElementsUShort::TRIANGLES, 0); int vertexCount = subdiv * 4 + 2; // 2 discs + top and bottom + 2 center indices->reserve(vertexCount); int iVertex = 0; int beginTop = iVertex; auto topNormal = osg::Vec3(0., 0., 1.); // top disk for (int i = 0; i < subdiv; i++) { float theta = (float(i) / float(subdiv)) * osg::PI * 2.; osg::Vec3 pos = sphereCoordToCartesian(theta, osg::PI_2f, 1.); pos *= radius; pos.z() = height / 2.; vertices->push_back(pos); normals->push_back(topNormal); iVertex += 1; } auto centerTop = iVertex; // centerTop { vertices->push_back(osg::Vec3(0., 0., height / 2.)); normals->push_back(topNormal); iVertex += 1; } auto centerBot = iVertex; // centerBot { vertices->push_back(osg::Vec3(0., 0., -height / 2)); normals->push_back(-topNormal); iVertex += 1; } // bottom disk auto begin_bot = iVertex; for (int i = 0; i < subdiv; i++) { float theta = float(i) / float(subdiv) * osg::PI * 2.; osg::Vec3 pos = sphereCoordToCartesian(theta, osg::PI_2f, 1.); pos *= radius; pos.z() = -height / 2.; vertices->push_back(pos); normals->push_back(-topNormal); iVertex += 1; } // sides int beginSide = iVertex; for (int i = 0; i < subdiv; i++) { float theta = float(i) / float(subdiv) * osg::PI * 2.; osg::Vec3 normal = sphereCoordToCartesian(theta, osg::PI_2f, 1.); auto posTop = normal; posTop *= radius; auto posBot = posTop; posTop.z() = height / 2.; posBot.z() = -height / 2.; vertices->push_back(posTop); normals->push_back(normal); iVertex += 1; vertices->push_back(posBot); normals->push_back(normal); iVertex += 1; } // create triangles sides for (int i = 0; i < subdiv; i++) { auto next_vert = (i + 1) % subdiv; auto v1 = (beginSide + 2 * i); auto v2 = (beginSide + 2 * i + 1); auto v3 = (beginSide + 2 * next_vert); auto v4 = (beginSide + 2 * next_vert + 1); indices->push_back(v1); indices->push_back(v2); indices->push_back(v4); indices->push_back(v4); indices->push_back(v3); indices->push_back(v1); } for (int i = 0; i < subdiv; i++) { auto next_vert = (i + 1) % subdiv; auto top1 = (beginTop + i); auto top2 = (beginTop + next_vert); auto bot1 = (begin_bot + i); auto bot2 = (begin_bot + next_vert); indices->push_back(top2); indices->push_back(centerTop); indices->push_back(top1); indices->push_back(bot1); indices->push_back(centerBot); indices->push_back(bot2); } geom.setVertexArray(vertices); geom.setNormalArray(normals, osg::Array::BIND_PER_VERTEX); geom.addPrimitiveSet(indices); } static int getIndexBufferReadFromFrame(const unsigned int& nFrame) { return nFrame % 2; } static int getIndexBufferWriteFromFrame(const unsigned int& nFrame) { return (nFrame + 1) % 2; } namespace Debug { static void makeLineInstance(osg::Geometry& lines) { auto vertices = new osg::Vec3Array; auto color = new osg::Vec3Array; lines.setDataVariance(osg::Object::STATIC); lines.setUseVertexBufferObjects(true); lines.setUseDisplayList(false); lines.setCullingActive(false); lines.setVertexArray(vertices); lines.setNormalArray(color, osg::Array::BIND_PER_VERTEX); lines.addPrimitiveSet(new osg::DrawArrays(osg::PrimitiveSet::LINES, 0, vertices->size())); } DebugCustomDraw::DebugCustomDraw() { mLinesToDraw = new osg::Geometry(); makeLineInstance(*mLinesToDraw); } DebugCustomDraw::DebugCustomDraw(const DebugCustomDraw& copy, const osg::CopyOp& copyop) : Drawable(copy, copyop) , mShapesToDraw(copy.mShapesToDraw) , mLinesToDraw(copy.mLinesToDraw) , mCubeGeometry(copy.mCubeGeometry) , mCylinderGeometry(copy.mCylinderGeometry) , mWireCubeGeometry(copy.mWireCubeGeometry) { } void DebugCustomDraw::drawImplementation(osg::RenderInfo& renderInfo) const { auto state = renderInfo.getState(); osg::GLExtensions* ext = osg::GLExtensions::Get(state->getContextID(), true); const osg::StateSet* stateSet = getStateSet(); const osg::Program::PerContextProgram& pcp = *state->getLastAppliedProgramObject(); auto transLocation = pcp.getUniformLocation(stateSet->getUniform("trans")->getNameID()); auto colLocation = pcp.getUniformLocation(stateSet->getUniform("color")->getNameID()); auto scaleLocation = pcp.getUniformLocation(stateSet->getUniform("scale")->getNameID()); auto normalAsColorLocation = pcp.getUniformLocation(stateSet->getUniform("useNormalAsColor")->getNameID()); auto drawPrimitive = [&](const osg::Drawable* primitive, const osg::Vec3f& pos, const osg::Vec3f& color, const osg::Vec3f& scale, const bool normalAsColor) { ext->glUniform3f(transLocation, pos.x(), pos.y(), pos.z()); ext->glUniform3f(colLocation, color.x(), color.y(), color.z()); ext->glUniform3f(scaleLocation, scale.x(), scale.y(), scale.z()); ext->glUniform1i(normalAsColorLocation, normalAsColor); primitive->drawImplementation(renderInfo); }; drawPrimitive(mLinesToDraw, { 0.f, 0.f, 0.f }, { 1.f, 1.f, 1.f }, { 1.f, 1.f, 1.f }, true); for (const auto& shapeToDraw : mShapesToDraw) { const osg::Geometry* geometry = nullptr; switch (shapeToDraw.mDrawShape) { case DrawShape::Cube: geometry = mCubeGeometry; break; case DrawShape::Cylinder: geometry = mCylinderGeometry; break; case DrawShape::WireCube: geometry = mWireCubeGeometry; break; } drawPrimitive(geometry, shapeToDraw.mPosition, shapeToDraw.mColor, shapeToDraw.mDims, false); } mShapesToDraw.clear(); static_cast(mLinesToDraw->getVertexArray())->clear(); static_cast(mLinesToDraw->getNormalArray())->clear(); static_cast(mLinesToDraw->getPrimitiveSet(0))->setCount(0); pcp.resetAppliedUniforms(); } } Debug::DebugDrawer::DebugDrawer(const DebugDrawer& copy, const osg::CopyOp& copyop) : Node(copy, copyop) , mCurrentFrame(copy.mCurrentFrame) , mCustomDebugDrawer(copy.mCustomDebugDrawer) { } Debug::DebugDrawer::DebugDrawer(Shader::ShaderManager& shaderManager) { auto program = shaderManager.getProgram("debug"); setCullingActive(false); osg::StateSet* stateset = getOrCreateStateSet(); stateset->addUniform(new osg::Uniform("color", osg::Vec3f(1., 1., 1.))); stateset->addUniform(new osg::Uniform("trans", osg::Vec3f(0., 0., 0.))); stateset->addUniform(new osg::Uniform("scale", osg::Vec3f(1., 1., 1.))); stateset->addUniform(new osg::Uniform("useNormalAsColor", false)); stateset->addUniform(new osg::Uniform("useAdvancedShader", true)); stateset->setAttributeAndModes(program, osg::StateAttribute::ON); stateset->setMode(GL_DEPTH_TEST, GL_TRUE); stateset->setMode(GL_CULL_FACE, GL_TRUE); auto cubeGeometry = new osg::Geometry; cubeGeometry->setSupportsDisplayList(false); cubeGeometry->setUseVertexBufferObjects(true); generateCube(*cubeGeometry, 1.); auto cylinderGeom = new osg::Geometry; cylinderGeom->setSupportsDisplayList(false); cylinderGeom->setUseVertexBufferObjects(true); generateCylinder(*cylinderGeom, .5, 1., 20); auto wireCube = new osg::Geometry; wireCube->setSupportsDisplayList(false); wireCube->setUseVertexBufferObjects(true); generateWireCube(*wireCube, 1.); for (std::size_t i = 0; i < mCustomDebugDrawer.size(); i++) { mCustomDebugDrawer[i] = new DebugCustomDraw(); mCustomDebugDrawer[i]->setStateSet(stateset); mCustomDebugDrawer[i]->mWireCubeGeometry = wireCube; mCustomDebugDrawer[i]->mCubeGeometry = cubeGeometry; mCustomDebugDrawer[i]->mCylinderGeometry = cylinderGeom; } } void Debug::DebugDrawer::traverse(osg::NodeVisitor& nv) { mCurrentFrame = nv.getTraversalNumber(); mCustomDebugDrawer[getIndexBufferReadFromFrame(mCurrentFrame)]->accept(nv); } void Debug::DebugDrawer::drawCube(osg::Vec3f mPosition, osg::Vec3f mDims, osg::Vec3f mColor) { mCustomDebugDrawer[getIndexBufferWriteFromFrame(mCurrentFrame)]->mShapesToDraw.push_back( { mPosition, mDims, mColor, DrawShape::Cube }); } void Debug::DebugDrawer::drawCubeMinMax(osg::Vec3f min, osg::Vec3f max, osg::Vec3f color) { osg::Vec3 dims = max - min; osg::Vec3 pos = min + dims * 0.5f; drawCube(pos, dims, color); } void Debug::DebugDrawer::addDrawCall(const DrawCall& draw) { mCustomDebugDrawer[getIndexBufferWriteFromFrame(mCurrentFrame)]->mShapesToDraw.push_back(draw); } void Debug::DebugDrawer::addLine(const osg::Vec3& start, const osg::Vec3& end, const osg::Vec3 color) { const int indexWrite = getIndexBufferWriteFromFrame(mCurrentFrame); const auto& lines = mCustomDebugDrawer[indexWrite]->mLinesToDraw; auto vertices = static_cast(lines->getVertexArray()); auto colors = static_cast(lines->getNormalArray()); auto primitive = static_cast(lines->getPrimitiveSet(0)); vertices->push_back(start); vertices->push_back(end); vertices->dirty(); colors->push_back(color); colors->push_back(color); colors->dirty(); primitive->setCount(vertices->size()); }