Merge pull request #245 from erwincoumans/master

split Wavefront .obj to graphics conversion in a reusable file (Wavefron...

Demos3/AllBullet2Demos/CMakeLists.txt

@@ -42,6 +42,7 @@ SET(App_AllBullet2Demos_SRCS
 	../ImportURDFDemo/ImportURDFSetup.cpp
 	../ImportURDFDemo/ImportURDFSetup.h
 	../ImportObjDemo/ImportObjSetup.cpp
+	../ImportObjDemo/Wavefront2GLInstanceGraphicsShape.cpp
 	 	../ImportSTLDemo/ImportSTLSetup.cpp
 		../Wavefront/tiny_obj_loader.cpp
 		../Wavefront/tiny_obj_loader.h

Demos3/AllBullet2Demos/premake4.lua

@@ -60,6 +60,7 @@
   		"../bullet2/ConstraintDemo/ConstraintPhysicsSetup.h",
 		"../ImportURDFDemo/ImportURDFSetup.cpp",
 		"../ImportObjDemo/ImportObjSetup.cpp",
+		"../ImportObjDemo/Wavefront2GLInstanceGraphicsShape.cpp",
 	 	"../ImportSTLDemo/ImportSTLSetup.cpp",	
 		"../Wavefront/tiny_obj_loader.cpp",
 		"../Wavefront/tiny_obj_loader.h",	

Demos3/ImportObjDemo/ImportObjSetup.cpp

@@ -5,6 +5,7 @@
 #include "OpenGLWindow/GLInstanceGraphicsShape.h"
 #include "btBulletDynamicsCommon.h"
 #include "OpenGLWindow/SimpleOpenGL3App.h"
+#include "Wavefront2GLInstanceGraphicsShape.h"
 
 ImportObjDemo::ImportObjDemo(SimpleOpenGL3App* app)
 :m_app(app)
@@ -19,101 +20,6 @@ ImportObjDemo::~ImportObjDemo()
 
 
 
-static GLInstanceGraphicsShape* gCreateGraphicsShapeFromWavefrontObj(std::vector<tinyobj::shape_t>& shapes)
-{
-	
-	b3AlignedObjectArray<GLInstanceVertex>* vertices = new b3AlignedObjectArray<GLInstanceVertex>;
-	{
-		//		int numVertices = obj->vertexCount;
-		//	int numIndices = 0;
-		b3AlignedObjectArray<int>* indicesPtr = new b3AlignedObjectArray<int>;
-		
-		for (int s=0;s<(int)shapes.size();s++)
-		{
-			tinyobj::shape_t& shape = shapes[s];
-			int faceCount = shape.mesh.indices.size();
-			
-			
-			for (int f=0;f<faceCount;f+=3)
-			{
-				
-				//btVector3 normal(face.m_plane[0],face.m_plane[1],face.m_plane[2]);
-				if (1)
-				{
-					btVector3 normal(0,1,0);
-					int vtxBaseIndex = vertices->size();
-					
-					
-					
-					
-					GLInstanceVertex vtx0;
-					vtx0.xyzw[0] = shape.mesh.positions[shape.mesh.indices[f]*3+0];
-					vtx0.xyzw[1] = shape.mesh.positions[shape.mesh.indices[f]*3+1];
-					vtx0.xyzw[2] = shape.mesh.positions[shape.mesh.indices[f]*3+2];
-					vtx0.xyzw[3] = 0.f;
-					
-					vtx0.uv[0] = 0.5f;//shape.mesh.positions[shape.mesh.indices[f]*3+2];?
-					vtx0.uv[1] = 0.5f;
-					
-					GLInstanceVertex vtx1;
-					vtx1.xyzw[0] = shape.mesh.positions[shape.mesh.indices[f+1]*3+0];
-					vtx1.xyzw[1] = shape.mesh.positions[shape.mesh.indices[f+1]*3+1];
-					vtx1.xyzw[2] = shape.mesh.positions[shape.mesh.indices[f+1]*3+2];
-					vtx1.xyzw[3]= 0.f;
-					vtx1.uv[0] = 0.5f;//obj->textureList[face->vertex_index[1]]->e[0];
-					vtx1.uv[1] = 0.5f;//obj->textureList[face->vertex_index[1]]->e[1];
-					
-					GLInstanceVertex vtx2;
-					vtx2.xyzw[0] = shape.mesh.positions[shape.mesh.indices[f+2]*3+0];
-					vtx2.xyzw[1] = shape.mesh.positions[shape.mesh.indices[f+2]*3+1];
-					vtx2.xyzw[2] = shape.mesh.positions[shape.mesh.indices[f+2]*3+2];
-					vtx2.xyzw[3] = 0.f;
-					vtx2.uv[0] = 0.5f;
-					vtx2.uv[1] = 0.5f;
-					
-					
-					btVector3 v0(vtx0.xyzw[0],vtx0.xyzw[1],vtx0.xyzw[2]);
-					btVector3 v1(vtx1.xyzw[0],vtx1.xyzw[1],vtx1.xyzw[2]);
-					btVector3 v2(vtx2.xyzw[0],vtx2.xyzw[1],vtx2.xyzw[2]);
-					
-					normal = (v1-v0).cross(v2-v0);
-                    btScalar len2 = normal.length2();
-                    //skip degenerate triangles
-                    if (len2 > SIMD_EPSILON)
-                    {
-                        normal.normalize();
-                        vtx0.normal[0] = normal[0];
-                        vtx0.normal[1] = normal[1];
-                        vtx0.normal[2] = normal[2];
-                        vtx1.normal[0] = normal[0];
-                        vtx1.normal[1] = normal[1];
-                        vtx1.normal[2] = normal[2];
-                        vtx2.normal[0] = normal[0];
-                        vtx2.normal[1] = normal[1];
-                        vtx2.normal[2] = normal[2];
-                        vertices->push_back(vtx0);
-                        vertices->push_back(vtx1);
-                        vertices->push_back(vtx2);
-                        indicesPtr->push_back(vtxBaseIndex);
-                        indicesPtr->push_back(vtxBaseIndex+1);
-                        indicesPtr->push_back(vtxBaseIndex+2);
-                    }
-                    
-				}
-			}
-		}
-		
-		
-		GLInstanceGraphicsShape* gfxShape = new GLInstanceGraphicsShape;
-		gfxShape->m_vertices = vertices;
-		gfxShape->m_numvertices = vertices->size();
-		gfxShape->m_indices = indicesPtr;
-		gfxShape->m_numIndices = indicesPtr->size();
-		for (int i=0;i<4;i++)
-			gfxShape->m_scaling[i] = 1;//bake the scaling into the vertices
-		return gfxShape;
-	}
-}
 
 
 
@@ -150,7 +56,7 @@ void ImportObjDemo::initPhysics(GraphicsPhysicsBridge& gfxBridge)
 		return;
 	
 	btVector3 shift(0,0,0);
-	btVector3 scaling(1,1,1);
+	btVector3 scaling(10,10,10);
 //	int index=10;
 	
 	{
@@ -158,7 +64,7 @@ void ImportObjDemo::initPhysics(GraphicsPhysicsBridge& gfxBridge)
 		std::vector<tinyobj::shape_t> shapes;
 		std::string err = tinyobj::LoadObj(shapes, relativeFileName, prefix[prefixIndex]);
 		
-		GLInstanceGraphicsShape* gfxShape = gCreateGraphicsShapeFromWavefrontObj(shapes);
+		GLInstanceGraphicsShape* gfxShape = btgCreateGraphicsShapeFromWavefrontObj(shapes);
 		
 		btTransform trans;
 		trans.setIdentity();

Demos3/ImportObjDemo/Wavefront2GLInstanceGraphicsShape.cpp

@@ -0,0 +1,109 @@
+#include "Wavefront2GLInstanceGraphicsShape.h"
+
+#include "OpenGLWindow/GLInstancingRenderer.h"
+#include "OpenGLWindow/GLInstanceGraphicsShape.h"
+#include "btBulletDynamicsCommon.h"
+#include "OpenGLWindow/SimpleOpenGL3App.h"
+#include "Wavefront2GLInstanceGraphicsShape.h"
+#include "OpenGLWindow/GLInstancingRenderer.h"
+#include "OpenGLWindow/GLInstanceGraphicsShape.h"
+
+GLInstanceGraphicsShape* btgCreateGraphicsShapeFromWavefrontObj(std::vector<tinyobj::shape_t>& shapes)
+{
+	
+	b3AlignedObjectArray<GLInstanceVertex>* vertices = new b3AlignedObjectArray<GLInstanceVertex>;
+	{
+		//		int numVertices = obj->vertexCount;
+		//	int numIndices = 0;
+		b3AlignedObjectArray<int>* indicesPtr = new b3AlignedObjectArray<int>;
+		
+		for (int s=0;s<(int)shapes.size();s++)
+		{
+			tinyobj::shape_t& shape = shapes[s];
+			int faceCount = shape.mesh.indices.size();
+			
+			
+			for (int f=0;f<faceCount;f+=3)
+			{
+				
+				//btVector3 normal(face.m_plane[0],face.m_plane[1],face.m_plane[2]);
+				if (1)
+				{
+					btVector3 normal(0,1,0);
+					int vtxBaseIndex = vertices->size();
+					
+					
+					
+					GLInstanceVertex vtx0;
+					vtx0.xyzw[0] = shape.mesh.positions[shape.mesh.indices[f]*3+0];
+					vtx0.xyzw[1] = shape.mesh.positions[shape.mesh.indices[f]*3+1];
+					vtx0.xyzw[2] = shape.mesh.positions[shape.mesh.indices[f]*3+2];
+					vtx0.xyzw[3] = 0.f;
+					
+					vtx0.uv[0] = 0.5f;//shape.mesh.positions[shape.mesh.indices[f]*3+2];?
+					vtx0.uv[1] = 0.5f;
+					
+					GLInstanceVertex vtx1;
+					vtx1.xyzw[0] = shape.mesh.positions[shape.mesh.indices[f+1]*3+0];
+					vtx1.xyzw[1] = shape.mesh.positions[shape.mesh.indices[f+1]*3+1];
+					vtx1.xyzw[2] = shape.mesh.positions[shape.mesh.indices[f+1]*3+2];
+					vtx1.xyzw[3]= 0.f;
+					vtx1.uv[0] = 0.5f;//obj->textureList[face->vertex_index[1]]->e[0];
+					vtx1.uv[1] = 0.5f;//obj->textureList[face->vertex_index[1]]->e[1];
+					
+					GLInstanceVertex vtx2;
+					vtx2.xyzw[0] = shape.mesh.positions[shape.mesh.indices[f+2]*3+0];
+					vtx2.xyzw[1] = shape.mesh.positions[shape.mesh.indices[f+2]*3+1];
+					vtx2.xyzw[2] = shape.mesh.positions[shape.mesh.indices[f+2]*3+2];
+					vtx2.xyzw[3] = 0.f;
+					vtx2.uv[0] = 0.5f;
+					vtx2.uv[1] = 0.5f;
+					
+					
+					btVector3 v0(vtx0.xyzw[0],vtx0.xyzw[1],vtx0.xyzw[2]);
+					btVector3 v1(vtx1.xyzw[0],vtx1.xyzw[1],vtx1.xyzw[2]);
+					btVector3 v2(vtx2.xyzw[0],vtx2.xyzw[1],vtx2.xyzw[2]);
+					
+					normal = (v1-v0).cross(v2-v0);
+                    btScalar len2 = normal.length2();
+                    //skip degenerate triangles
+                    if (len2 > SIMD_EPSILON)
+                    {
+                        normal.normalize();
+                    } else
+                    {
+                        normal.setValue(0,0,0);
+                    }
+                    vtx0.normal[0] = normal[0];
+                    vtx0.normal[1] = normal[1];
+                    vtx0.normal[2] = normal[2];
+                    vtx1.normal[0] = normal[0];
+                    vtx1.normal[1] = normal[1];
+                    vtx1.normal[2] = normal[2];
+                    vtx2.normal[0] = normal[0];
+                    vtx2.normal[1] = normal[1];
+                    vtx2.normal[2] = normal[2];
+                    vertices->push_back(vtx0);
+                    vertices->push_back(vtx1);
+                    vertices->push_back(vtx2);
+                    indicesPtr->push_back(vtxBaseIndex);
+                    indicesPtr->push_back(vtxBaseIndex+1);
+                    indicesPtr->push_back(vtxBaseIndex+2);
+                
+                    
+				}
+			}
+		}
+		
+		
+		GLInstanceGraphicsShape* gfxShape = new GLInstanceGraphicsShape;
+		gfxShape->m_vertices = vertices;
+		gfxShape->m_numvertices = vertices->size();
+		gfxShape->m_indices = indicesPtr;
+		gfxShape->m_numIndices = indicesPtr->size();
+		for (int i=0;i<4;i++)
+			gfxShape->m_scaling[i] = 1;//bake the scaling into the vertices
+		return gfxShape;
+	}
+}
+

Demos3/ImportObjDemo/Wavefront2GLInstanceGraphicsShape.h

@@ -0,0 +1,9 @@
+#ifndef WAVEFRONT2GRAPHICS_H
+#define WAVEFRONT2GRAPHICS_H
+
+#include"../Wavefront/tiny_obj_loader.h"
+#include <vector>
+
+struct GLInstanceGraphicsShape* btgCreateGraphicsShapeFromWavefrontObj(std::vector<tinyobj::shape_t>& shapes);
+
+#endif //WAVEFRONT2GRAPHICS_H