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//- // ========================================================================== // Copyright 1995,2006,2008 Autodesk, Inc. All rights reserved. // // Use of this software is subject to the terms of the Autodesk // license agreement provided at the time of installation or download, // or which otherwise accompanies this software in either electronic // or hard copy form. // ========================================================================== //+ #include <stdio.h> #include <OpenGLViewportRenderer.h> #include <maya/MGlobal.h> #include <maya/MString.h> #include <maya/MRenderingInfo.h> #include <maya/MFnCamera.h> #include <maya/MAngle.h> #include <maya/MPoint.h> #include <maya/MVector.h> #include <maya/MItDag.h> #include <maya/MMatrix.h> #include <maya/MDagPath.h> #include <maya/MFnDagNode.h> #include <maya/MFnMesh.h> #include <maya/MBoundingBox.h> #include <maya/MHardwareRenderer.h> #include <stdio.h> #include <maya/MIOStream.h> #include <maya/MDrawTraversal.h> #include <maya/MGeometryManager.h> #include <maya/MGeometry.h> #include <maya/MGeometryData.h> #include <maya/MGeometryPrimitive.h> #include <maya/MHwTextureManager.h> #include <maya/MImageFileInfo.h> #include <maya/MFnSingleIndexedComponent.h> #if MAYA_API_VERSION > 800 #define _USE_MGL_FT_ #include <maya/MGLFunctionTable.h> static MGLFunctionTable *gGLFT = NULL; #else #if defined(OSMac_MachO_) #include <OpenGL/gl.h> #else #include <GL/gl.h> #endif #endif OpenGLViewportRendererHUD::OpenGLViewportRendererHUD() : OpenGLViewportRenderer( "OpenGLViewportRendererHUD" ) { fUIName.set( "Plugin OpenGL Renderer HUD"); fRenderingOverride = MViewportRenderer::kOverrideThenStandard; } unsigned int OpenGLViewportRendererHUD::overrideThenStandardExclusion() const { // exclude everything apart from manipulators return ~(unsigned int)kExcludeManipulators; } OpenGLViewportRenderer::OpenGLViewportRenderer( const MString & name ) : MViewportRenderer( name ) { // Set the ui name fUIName.set( "Plugin OpenGL Renderer"); // This renderer overrides all drawing fRenderingOverride = MViewportRenderer::kOverrideAllDrawing; // Set API and version number m_API = MViewportRenderer::kOpenGL; m_Version = 2.0f; } /* virtual */ OpenGLViewportRenderer::~OpenGLViewportRenderer() { uninitialize(); } /* virtual */ MStatus OpenGLViewportRenderer::initialize() { #if defined(_USE_MGL_FT) // Get a pointer to a GL function table Tboolean useMGLFT = false; MHardwareRenderer *rend = MHardwareRenderer::theRenderer(); if (rend) gGLFT = rend->glFunctionTable(); if (!gGLFT) return MStatus::kFailure; #endif return MStatus::kSuccess; } /* virtual */ MStatus OpenGLViewportRenderer::uninitialize() { gGLFT = NULL; return MStatus::kSuccess; } /* virtual */ MStatus OpenGLViewportRenderer::render(const MRenderingInfo &renderInfo) { //printf("Render using (%s : %s) renderer\n", fName.asChar(), fUIName.asChar()); // Support direct rendering to an OpenGL context only. // if (renderInfo.renderingAPI() == MViewportRenderer::kOpenGL) { // This is not required as the target has already been made current // before the render() call. // renderTarget.makeTargetCurrent(); // Do some rendering... renderToTarget( renderInfo ); } return MStatus::kSuccess; } /* virtual */ bool OpenGLViewportRenderer::nativelySupports( MViewportRenderer::RenderingAPI api, float version ) { // Do API check return (api == m_API); } /* virtual */ bool OpenGLViewportRenderer::override( MViewportRenderer::RenderingOverride override ) { // Check override return (override == fRenderingOverride); } // Rendering methods bool OpenGLViewportRenderer::drawSurface( const MDagPath &dagPath, bool active, bool templated ) { bool drewSurface = false; if ( dagPath.hasFn( MFn::kMesh )) { MObject object = dagPath.node(); MFnMesh mesh(object); // Figure out texturing // bool haveTexture = false; int numUVsets = mesh.numUVSets(); MString uvSetName; MObjectArray textures; if (numUVsets > 0) { mesh.getCurrentUVSetName( uvSetName ); MStatus status = mesh.getAssociatedUVSetTextures(uvSetName, textures); if (status == MS::kSuccess && textures.length()) { haveTexture = true; } } bool haveColors = false; int numColors = mesh.numColorSets(); MString colorSetName; if (numColors > 0) { haveColors = true; mesh.getCurrentColorSetName(colorSetName); } bool useNormals = false; // Setup our requirements needs. MGeometryRequirements requirements; requirements.addPosition(); if (useNormals) requirements.addNormal(); if (haveTexture) requirements.addTexCoord( uvSetName ); if (haveColors) requirements.addColor( colorSetName ); // Test for tangents and binormals bool testBinormal = false; if (testBinormal) requirements.addBinormal( uvSetName ); bool testTangent= false; if (testTangent) requirements.addTangent( uvSetName ); // Cheesy test for filtering out 3 components for drawing. #if defined(_TEST_OGL_RENDERER_COMPONENT_FILTER_) MFnSingleIndexedComponent components; MObject comp = components.create( MFn::kMeshPolygonComponent ); components.addElement( 1 ); components.addElement( 200 ); components.addElement( 5000 ); MGeometry geom = MGeometryManager::getGeometry( dagPath, requirements, &comp ); #else MGeometry geom = MGeometryManager::getGeometry( dagPath, requirements, NULL ); #endif unsigned int numPrims = geom.primitiveArrayCount(); if (numPrims) { const MGeometryPrimitive prim = geom.primitiveArray(0); unsigned int numElem = prim.elementCount(); if (numElem) { //MGeometryData::ElementType primType = prim.dataType(); unsigned int *idx = (unsigned int *) prim.data(); // Get the position data const MGeometryData pos = geom.position(); float * posPtr = (float * )pos.data(); bool haveData = idx && posPtr; // Get the normals data float * normPtr = NULL; if (useNormals) { const MGeometryData norm = geom.normal(); normPtr = (float * )norm.data(); } // Get the texture coordinate data float *uvPtr = NULL; if (haveTexture) { const MGeometryData uvs = geom.texCoord( uvSetName ); uvPtr = (float *)uvs.data(); } unsigned int numColorComponents = 4; float *clrPtr = NULL; if (haveColors) { const MGeometryData clrs = geom.color( colorSetName ); clrPtr = (float *)clrs.data(); } else if (testBinormal) { const MGeometryData binorm = geom.binormal( uvSetName ); clrPtr = (float *)binorm.data(); numColorComponents = 3; } else if (testTangent) { const MGeometryData tang = geom.tangent( uvSetName ); clrPtr = (float *)tang.data(); numColorComponents = 3; } if (haveData) { drewSurface = true; bool drawWire = false; MMatrix matrix = dagPath.inclusiveMatrix(); #if defined(_USE_MGL_FT_) gGLFT->glMatrixMode( MGL_MODELVIEW ); gGLFT->glPushMatrix(); gGLFT->glMultMatrixd( &(matrix.matrix[0][0]) ); #else ::glMatrixMode( GL_MODELVIEW ); ::glPushMatrix(); ::glMultMatrixd( &(matrix.matrix[0][0]) ); #endif // Setup state, and routing. // bool boundTexture = false; if (uvPtr) { MImageFileInfo::MHwTextureType hwType; if (MS::kSuccess == MHwTextureManager::glBind( textures[0], hwType )) { boundTexture = true; #if defined(_USE_MGL_FT_) gGLFT->glTexParameteri(MGL_TEXTURE_2D, MGL_TEXTURE_WRAP_S, MGL_REPEAT); gGLFT->glTexParameteri(MGL_TEXTURE_2D, MGL_TEXTURE_WRAP_T, MGL_REPEAT); gGLFT->glTexParameteri(MGL_TEXTURE_2D, MGL_TEXTURE_MIN_FILTER, MGL_LINEAR); gGLFT->glTexParameteri(MGL_TEXTURE_2D, MGL_TEXTURE_MAG_FILTER, MGL_LINEAR); if (!clrPtr) gGLFT->glColor4f( 1.0f, 1.0f, 1.0f, 1.0f ); gGLFT->glEnableClientState( MGL_TEXTURE_COORD_ARRAY ); gGLFT->glTexCoordPointer( 2, MGL_FLOAT, 0, uvPtr ); #else glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_REPEAT); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_REPEAT); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR); if (!clrPtr) glColor4f( 1.0f, 1.0f, 1.0f, 1.0f ); glEnableClientState( GL_TEXTURE_COORD_ARRAY ); glTexCoordPointer( 2, GL_FLOAT, 0, uvPtr ); #endif drawWire = false; } } if (clrPtr) { #if defined(_USE_MGL_FT_) gGLFT->glEnableClientState(MGL_COLOR_ARRAY); gGLFT->glColorPointer( numColorComponents, MGL_FLOAT, 0, clrPtr ); #else glEnableClientState(GL_COLOR_ARRAY); glColorPointer( numColorComponents, GL_FLOAT, 0, clrPtr ); #endif } #if defined(_USE_MGL_FT_) gGLFT->glEnableClientState( MGL_VERTEX_ARRAY ); gGLFT->glVertexPointer ( 3, MGL_FLOAT, 0, posPtr ); #else glEnableClientState( GL_VERTEX_ARRAY ); glVertexPointer ( 3, GL_FLOAT, 0, posPtr ); #endif if (normPtr) { #if defined(_USE_MGL_FT_) gGLFT->glEnableClientState( MGL_NORMAL_ARRAY ); gGLFT->glNormalPointer ( MGL_FLOAT, 0, normPtr ); #else glEnableClientState( GL_NORMAL_ARRAY ); glNormalPointer ( GL_FLOAT, 0, normPtr ); #endif drawWire = false; } // Draw if (drawWire) { #if defined(_USE_MGL_FT_) gGLFT->glPolygonMode(MGL_FRONT_AND_BACK, MGL_LINE); gGLFT->glDrawElements ( MGL_TRIANGLES, numElem, MGL_UNSIGNED_INT, idx ); gGLFT->glPolygonMode(MGL_FRONT_AND_BACK, MGL_FILL); if (clrPtr) { gGLFT->glDisableClientState(MGL_COLOR_ARRAY); } #else glPolygonMode(GL_FRONT_AND_BACK, GL_LINE); glDrawElements ( GL_TRIANGLES, numElem, GL_UNSIGNED_INT, idx ); glPolygonMode(GL_FRONT_AND_BACK, GL_FILL); if (clrPtr) { glDisableClientState(GL_COLOR_ARRAY); } #endif } else { #if defined(_USE_MGL_FT_) if (active) { gGLFT->glEnable(MGL_POLYGON_OFFSET_FILL); gGLFT->glPolygonOffset( 0.95f, 1.0f ); } gGLFT->glDrawElements ( MGL_TRIANGLES, numElem, MGL_UNSIGNED_INT, idx ); if (active) gGLFT->glDisable(MGL_POLYGON_OFFSET_FILL); if (normPtr) gGLFT->glDisableClientState( MGL_NORMAL_ARRAY ); if (boundTexture) { gGLFT->glDisableClientState( MGL_TEXTURE_COORD_ARRAY ); gGLFT->glDisable(MGL_TEXTURE_2D); gGLFT->glBindTexture(MGL_TEXTURE_2D, 0); } if (clrPtr) { gGLFT->glDisableClientState(MGL_COLOR_ARRAY); } if (active) { gGLFT->glColor3f( 1.0f, 1.0f, 1.0f ); gGLFT->glPolygonMode(MGL_FRONT_AND_BACK, MGL_LINE); gGLFT->glDrawElements ( MGL_TRIANGLES, numElem, MGL_UNSIGNED_INT, idx ); gGLFT->glPolygonMode(MGL_FRONT_AND_BACK, MGL_FILL); } #else if (active) { glEnable(GL_POLYGON_OFFSET_FILL); glPolygonOffset( 0.95f, 1.0f ); } glDrawElements ( GL_TRIANGLES, numElem, GL_UNSIGNED_INT, idx ); if (active) glDisable(GL_POLYGON_OFFSET_FILL); if (normPtr) glDisableClientState( GL_NORMAL_ARRAY ); if (boundTexture) { glDisableClientState( GL_TEXTURE_COORD_ARRAY ); glDisable(GL_TEXTURE_2D); glBindTexture(GL_TEXTURE_2D, 0); } if (clrPtr) { glDisableClientState(GL_COLOR_ARRAY); } if (active) { ::glColor3f( 1.0f, 1.0f, 1.0f ); glPolygonMode(GL_FRONT_AND_BACK, GL_LINE); glDrawElements ( GL_TRIANGLES, numElem, GL_UNSIGNED_INT, idx ); glPolygonMode(GL_FRONT_AND_BACK, GL_FILL); } #endif } // Reset state, and routing. #if defined(_USE_MGL_FT_) gGLFT->glDisableClientState( MGL_VERTEX_ARRAY ); gGLFT->glPopMatrix(); #else glDisableClientState( GL_VERTEX_ARRAY ); ::glPopMatrix(); #endif } } } } return drewSurface; } bool OpenGLViewportRenderer::drawBounds( const MDagPath &dagPath, const MBoundingBox &box) { MMatrix matrix = dagPath.inclusiveMatrix(); { MPoint minPt = box.min(); MPoint maxPt = box.max(); double bottomLeftFront[3] = { minPt.x, minPt.y, minPt.z }; double topLeftFront[3] = { minPt.x, maxPt.y, minPt.z }; double bottomRightFront[3] = { maxPt.x, minPt.y, minPt.z }; double topRightFront[3] = { maxPt.x, maxPt.y, minPt.z }; double bottomLeftBack[3] = { minPt.x, minPt.y, maxPt.z }; double topLeftBack[3] = { minPt.x, maxPt.y, maxPt.z }; double bottomRightBack[3] = { maxPt.x, minPt.y, maxPt.z }; double topRightBack[3] = { maxPt.x, maxPt.y, maxPt.z }; #if defined(_USE_MGL_FT_) gGLFT->glMatrixMode( MGL_MODELVIEW ); gGLFT->glPushMatrix(); gGLFT->glMultMatrixd( &(matrix.matrix[0][0]) ); gGLFT->glBegin(MGL_LINE_STRIP); gGLFT->glVertex3dv( bottomLeftFront ); gGLFT->glVertex3dv( bottomLeftBack ); gGLFT->glVertex3dv( topLeftBack ); gGLFT->glVertex3dv( topLeftFront ); gGLFT->glVertex3dv( bottomLeftFront ); gGLFT->glVertex3dv( bottomRightFront ); gGLFT->glVertex3dv( bottomRightBack); gGLFT->glVertex3dv( topRightBack ); gGLFT->glVertex3dv( topRightFront ); gGLFT->glVertex3dv( bottomRightFront ); gGLFT->glEnd(); gGLFT->glBegin(MGL_LINES); gGLFT->glVertex3dv(bottomLeftBack); gGLFT->glVertex3dv(bottomRightBack); gGLFT->glVertex3dv(topLeftBack); gGLFT->glVertex3dv(topRightBack); gGLFT->glVertex3dv(topLeftFront); gGLFT->glVertex3dv(topRightFront); gGLFT->glEnd(); gGLFT->glPopMatrix(); #else ::glMatrixMode( GL_MODELVIEW ); ::glPushMatrix(); ::glMultMatrixd( &(matrix.matrix[0][0]) ); ::glBegin(GL_LINE_STRIP); ::glVertex3dv( bottomLeftFront ); ::glVertex3dv( bottomLeftBack ); ::glVertex3dv( topLeftBack ); ::glVertex3dv( topLeftFront ); ::glVertex3dv( bottomLeftFront ); ::glVertex3dv( bottomRightFront ); ::glVertex3dv( bottomRightBack); ::glVertex3dv( topRightBack ); ::glVertex3dv( topRightFront ); ::glVertex3dv( bottomRightFront ); ::glEnd(); ::glBegin(GL_LINES); ::glVertex3dv(bottomLeftBack); ::glVertex3dv(bottomRightBack); ::glVertex3dv(topLeftBack); ::glVertex3dv(topRightBack); ::glVertex3dv(topLeftFront); ::glVertex3dv(topRightFront); ::glEnd(); ::glPopMatrix(); #endif } return true; } bool OpenGLViewportRenderer::setupLighting() { //glEnable(GL_LIGHT0); //glEnable(GL_LIGHTING); return false; } // Comment out #define to see how pruning works in this example // // #define _DEBUG_TRAVERSAL_PRUNING // Use a custom traverser class. class MsurfaceDrawTraversal : public MDrawTraversal { virtual bool filterNode( const MDagPath &traversalItem ) { bool prune = false; // Check to only prune shapes, not transforms. // #if defined(_DEBUG_TRAVERSAL_PRUNING) MString pname = traversalItem.fullPathName() ; #endif if ( traversalItem.childCount() == 0) { if ( !traversalItem.hasFn( MFn::kMesh) && !traversalItem.hasFn( MFn::kNurbsSurface) && !traversalItem.hasFn( MFn::kSubdiv) && !traversalItem.hasFn( MFn::kSketchPlane ) && !traversalItem.hasFn( MFn::kGroundPlane ) ) { #if defined(_DEBUG_TRAVERSAL_PRUNING) printf("Prune path [ %s ]\n", pname.asChar()); #endif prune = true; } } else { #if defined(_DEBUG_TRAVERSAL_PRUNING) printf("Don't prune path [ %s ]\n", pname.asChar()); #endif } return prune; } }; bool OpenGLViewportRenderer::renderToTarget( const MRenderingInfo &renderInfo ) // // Description: // Render directly to current OpenGL target. // { const MRenderTarget &renderTarget = renderInfo.renderTarget(); // Draw the world space axis // #if defined(_USE_MGL_FT_) gGLFT->glDisable(MGL_LIGHTING); gGLFT->glBegin(MGL_LINES); gGLFT->glColor3f( 1.0f, 0.0f, 0.0f ); gGLFT->glVertex3f( 0.0f, 0.0f, 0.0f ); gGLFT->glVertex3f( 3.0f, 0.0f, 0.0f ); gGLFT->glColor3f( 0.0f, 1.0f, 0.0f ); gGLFT->glVertex3f( 0.0f, 0.0f, 0.0f ); gGLFT->glVertex3f( 0.0f, 3.0f, 0.0f ); gGLFT->glColor3f( 0.0f, 0.0f, 1.0f ); gGLFT->glVertex3f( 0.0f, 0.0f, 0.0f ); gGLFT->glVertex3f( 0.0f, 0.0f, 3.0f ); gGLFT->glEnd(); gGLFT->glEnable(MGL_DEPTH_TEST); #else ::glDisable(GL_LIGHTING); ::glBegin(GL_LINES); ::glColor3f( 1.0f, 0.0f, 0.0f ); ::glVertex3f( 0.0f, 0.0f, 0.0f ); ::glVertex3f( 3.0f, 0.0f, 0.0f ); ::glColor3f( 0.0f, 1.0f, 0.0f ); ::glVertex3f( 0.0f, 0.0f, 0.0f ); ::glVertex3f( 0.0f, 3.0f, 0.0f ); ::glColor3f( 0.0f, 0.0f, 1.0f ); ::glVertex3f( 0.0f, 0.0f, 0.0f ); ::glVertex3f( 0.0f, 0.0f, 3.0f ); ::glEnd(); glEnable(GL_DEPTH_TEST); #endif // Draw some surfaces... // bool useDrawTraversal = true; if (useDrawTraversal) { #if defined(_DEBUG_TRAVERSAL_PRUNING) printf("==========================\n"); #endif const MDagPath &cameraPath = renderInfo.cameraPath(); if (cameraPath.isValid()) { bool pruneDuringTraversal = true; // You can actually keep the traverser classes around // if desired. Here we just create temporary traversers // on the fly. // MDrawTraversal *trav = NULL; if (pruneDuringTraversal) { trav = new MsurfaceDrawTraversal; trav->enableFiltering( true ); } else { trav = new MDrawTraversal; trav->enableFiltering( false ); } if (!trav) { printf("Warning: failed to create a traversal class !\n"); return true; } trav->setFrustum( cameraPath, renderTarget.width(), renderTarget.height() ); if (!trav->frustumValid()) printf("Warning : Frustum is invalid !\n"); trav->traverse(); unsigned int numItems = trav->numberOfItems(); #if defined(_DEBUG_TRAVERSAL_PRUNING) printf("There are %d items on the traversal list\n", numItems ); #endif if (numItems) { setupLighting(); } unsigned int i; for (i=0; i<numItems; i++) { MDagPath path; trav->itemPath(i, path); if (path.isValid()) { bool drawIt = false; // Default traverer may have view manips showing up. // This is currently a known Maya bug. if (!pruneDuringTraversal) if ( path.hasFn( MFn::kViewManip )) continue; #if defined(_DEBUG_TRAVERSAL_PRUNING) MString pname = path.fullPathName() ; printf("Draw path [%d][ %s ]\n", i, pname.asChar()); #endif // // Draw surfaces (polys, nurbs, subdivs) // bool active = false; bool templated = false; if ( path.hasFn( MFn::kMesh) || path.hasFn( MFn::kNurbsSurface) || path.hasFn( MFn::kSubdiv) ) { drawIt = true; if (trav->itemHasStatus( i, MDrawTraversal::kActiveItem )) { active = true; #if defined(_USE_MGL_FT_) gGLFT->glColor3f( 1.0f, 1.0f, 1.0f ); #else ::glColor3f( 1.0f, 1.0f, 1.0f ); #endif } else if (trav->itemHasStatus( i, MDrawTraversal::kTemplateItem )) { #if defined(_USE_MGL_FT_) gGLFT->glColor3f( 0.2f, 0.2f, 0.2f ); #else ::glColor3f( 0.2f, 0.2f, 0.2f ); #endif templated = true; } else { #if defined(_USE_MGL_FT_) if (path.hasFn( MFn::kMesh )) gGLFT->glColor3f( 0.286f, 0.706f, 1.0f ); else if (path.hasFn( MFn::kNurbsSurface)) gGLFT->glColor3f( 0.486f, 0.306f, 1.0f ); else gGLFT->glColor3f( 0.886f, 0.206f, 1.0f ); #else if (path.hasFn( MFn::kMesh )) ::glColor3f( 0.286f, 0.706f, 1.0f ); else if (path.hasFn( MFn::kNurbsSurface)) ::glColor3f( 0.486f, 0.306f, 1.0f ); else ::glColor3f( 0.886f, 0.206f, 1.0f ); #endif } } // // Draw the ground plane // else if (path.hasFn( MFn::kSketchPlane ) || path.hasFn( MFn::kGroundPlane )) { drawIt = true; #if defined(_USE_MGL_FT_) gGLFT->glColor3f( 0.0f, 1.0f, 0.0f ); #else ::glColor3f( 0.0f, 1.0f, 0.0f ); #endif } if (drawIt) { MFnDagNode dagNode(path); if (!drawSurface( path, active, templated )) { MBoundingBox box = dagNode.boundingBox(); drawBounds( path, box ); } } } } if (trav) delete trav; } } // Draw everything in the scene, without any culling or visibility // testing. This is just comparison code, and should never be // enabled, unless you want to do post-filtering... else { MItDag::TraversalType traversalType = MItDag::kDepthFirst; MFn::Type filter = MFn::kMesh; MStatus status; MItDag dagIterator( traversalType, filter, &status); for ( ; !dagIterator.isDone(); dagIterator.next() ) { MDagPath dagPath; status = dagIterator.getPath(dagPath); if ( !status ) { status.perror("MItDag::getPath"); continue; } MFnDagNode dagNode(dagPath, &status); if ( !status ) { status.perror("MFnDagNode constructor"); continue; } MBoundingBox box = dagNode.boundingBox(); #if defined(_USE_MGL_FT_) gGLFT->glColor3f( 1.0f, 0.0f, 0.0f ); #else ::glColor3f( 1.0f, 0.0f, 0.0f ); #endif drawBounds( dagPath, box ); } } return true; }