assimp/test/unit/utVertexTriangleAdjacency.cpp

/*
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Open Asset Import Library (assimp)
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#include "UnitTestPCH.h"

#include "assimp/types.h"
#include "assimp/mesh.h"

#include <VertexTriangleAdjacency.h>


using namespace std;
using namespace Assimp;

class VTAdjacencyTest : public ::testing::Test
{
protected:

    void checkMesh(const aiMesh& mesh);
};

// ------------------------------------------------------------------------------------------------
TEST_F(VTAdjacencyTest, largeRandomDataSet)
{
    // build a test mesh with randomized input data
    // *******************************************************************************
    aiMesh mesh;

    mesh.mNumVertices = 500;
    mesh.mNumFaces = 600;

    mesh.mFaces = new aiFace[600];
    unsigned int iCurrent = 0;
    for (unsigned int i = 0; i < 600;++i)
    {
        aiFace& face = mesh.mFaces[i];
        face.mNumIndices = 3;
        face.mIndices = new unsigned int[3];

        if (499 == iCurrent)iCurrent = 0;
        face.mIndices[0] = iCurrent++;


        while(face.mIndices[0] == ( face.mIndices[1] = (unsigned int)(((float)rand()/RAND_MAX)*499)));
        while(face.mIndices[0] == ( face.mIndices[2] = (unsigned int)(((float)rand()/RAND_MAX)*499)) ||
            face.mIndices[1] == face.mIndices[2]);
    }

    checkMesh(mesh);
}

// ------------------------------------------------------------------------------------------------
TEST_F(VTAdjacencyTest, smallDataSet)
{

    // build a test mesh - this one is extremely small
    // *******************************************************************************
    aiMesh mesh;

    mesh.mNumVertices = 5;
    mesh.mNumFaces = 3;

    mesh.mFaces = new aiFace[3];
    mesh.mFaces[0].mIndices = new unsigned int[3];
    mesh.mFaces[0].mNumIndices = 3;
    mesh.mFaces[1].mIndices = new unsigned int[3];
    mesh.mFaces[1].mNumIndices = 3;
    mesh.mFaces[2].mIndices = new unsigned int[3];
    mesh.mFaces[2].mNumIndices = 3;

    mesh.mFaces[0].mIndices[0] = 1;
    mesh.mFaces[0].mIndices[1] = 3;
    mesh.mFaces[0].mIndices[2] = 2;

    mesh.mFaces[1].mIndices[0] = 0;
    mesh.mFaces[1].mIndices[1] = 2;
    mesh.mFaces[1].mIndices[2] = 3;

    mesh.mFaces[2].mIndices[0] = 3;
    mesh.mFaces[2].mIndices[1] = 0;
    mesh.mFaces[2].mIndices[2] = 4;

    checkMesh(mesh);
}

// ------------------------------------------------------------------------------------------------
TEST_F(VTAdjacencyTest, unreferencedVerticesSet)
{
    // build a test mesh which does not reference all vertices
    // *******************************************************************************
    aiMesh mesh;

    mesh.mNumVertices = 500;
    mesh.mNumFaces = 600;

    mesh.mFaces = new aiFace[600];
    unsigned int iCurrent = 0;
    for (unsigned int i = 0; i < 600;++i)
    {
        aiFace& face = mesh.mFaces[i];
        face.mNumIndices = 3;
        face.mIndices = new unsigned int[3];

        if (499 == iCurrent)iCurrent = 0;
        face.mIndices[0] = iCurrent++;

        if (499 == iCurrent)iCurrent = 0;
        face.mIndices[1] = iCurrent++;

        if (499 == iCurrent)iCurrent = 0;
        face.mIndices[2] = iCurrent++;

        if (rand() > RAND_MAX/2 && face.mIndices[0])
        {
            face.mIndices[0]--;
        }
        else if (face.mIndices[1]) face.mIndices[1]--;
    }

    checkMesh(mesh);
}

// ------------------------------------------------------------------------------------------------
void VTAdjacencyTest::checkMesh(const aiMesh& mesh)
{
    VertexTriangleAdjacency adj(mesh.mFaces,mesh.mNumFaces,mesh.mNumVertices,true);

    unsigned int* const piNum = adj.mLiveTriangles;

    // check the primary adjacency table and check whether all faces
    // are contained in the list
    unsigned int maxOfs = 0;
    for (unsigned int i = 0; i < mesh.mNumFaces;++i)
    {
        aiFace& face = mesh.mFaces[i];
        for (unsigned int qq = 0; qq < 3 ;++qq)
        {
            const unsigned int idx = face.mIndices[qq];
            const unsigned int num = piNum[idx];

            // go to this offset
            const unsigned int ofs = adj.mOffsetTable[idx];
            maxOfs = std::max(ofs+num,maxOfs);
            unsigned int* pi = &adj.mAdjacencyTable[ofs];

            // and search for us ...
            unsigned int tt = 0;
            for (; tt < num;++tt,++pi)
            {
                if (i == *pi)
                {
                    // mask our entry in the table. Finally all entries should be masked
                    *pi = 0xffffffff;

                    // there shouldn't be two entries for the same face
                    break;
                }
            }
            // assert if *this* vertex has not been found in the table
            EXPECT_LT(tt, num);
        }
    }

    // now check whether there are invalid faces
    const unsigned int* pi = adj.mAdjacencyTable;
    for (unsigned int i = 0; i < maxOfs;++i,++pi)
    {
        EXPECT_EQ(0xffffffff, *pi);
    }

    // check the numTrianglesPerVertex table
    for (unsigned int i = 0; i < mesh.mNumFaces;++i)
    {
        aiFace& face = mesh.mFaces[i];
        for (unsigned int qq = 0; qq < 3 ;++qq)
        {
            const unsigned int idx = face.mIndices[qq];

            // we should not reach 0 here ...
            EXPECT_NE(0U, piNum[idx]);
            piNum[idx]--;
        }
    }

    // check whether we reached 0 in all entries
    for (unsigned int i = 0; i < mesh.mNumVertices;++i)
    {
        EXPECT_FALSE(piNum[i]);
    }
}