#include "meshbuilder.h"

void MeshBuilder::addPosition(float x, float y, float z)
{
    addPosition(glm::vec3(x, y, z));
}

void MeshBuilder::addPosition(const glm::vec3 &position)
{
    positions.push_back(position);
}

void MeshBuilder::addNormal(float x, float y, float z)
{
    addNormal(glm::vec3(x, y, z));
}

void MeshBuilder::addNormal(const glm::vec3 &normal)
{
    normals.push_back(normal);
}

void MeshBuilder::addTexCoord(float u, float v)
{
    addTexCoord(glm::vec2(u, v));
}

void MeshBuilder::addTexCoord(const glm::vec2 &texCoord)
{
    texCoords.push_back(texCoord);
}


void MeshBuilder::addVertex(glm::vec3 &position, glm::vec3 &normal)
{
    addPosition(position);
    addNormal(normal);
}

void MeshBuilder::addVertex(glm::vec3 &position, glm::vec2 &texCoord)
{
    addPosition(position);
    addTexCoord(texCoord);
}

void MeshBuilder::addVertex(glm::vec3 &position, glm::vec3 &normal, glm::vec2 &texCoord)
{
    addVertex(position, normal);
    addTexCoord(texCoord);
}


void MeshBuilder::addTriangle(int i1, int i2, int i3)
{
    indices.push_back(i1);
    indices.push_back(i2);
    indices.push_back(i3);
}

void MeshBuilder::addGroup(Material* myMaterial)
{
    Group g;
    g.material = myMaterial;
    setCurrentGroup(getNbGroups());
    indiceGroups.push_back(g);
}

void MeshBuilder::setCurrentGroup(int groupId)
{
    currentGroup = groupId;
}

int MeshBuilder::getNbGroups()
{
    return indiceGroups.size();
}

void MeshBuilder::computeTangents()
{
    if(!hasTexCoords())
        return;
    tangents = std::vector<Tangents>(positions.size());

    for (int i=0; i < indices.size(); i += 3)
    {
        const glm::vec3 &v1 = positions[i];
        const glm::vec3 &v2 = positions[i+1];
        const glm::vec3 &v3 = positions[i+2];

        const glm::vec2& w1 = texCoords[i];
        const glm::vec2& w2 = texCoords[i+1];
        const glm::vec2& w3 = texCoords[i+2];

        float x1 = v2.x - v1.x;
        float x2 = v3.x - v1.x;
        float y1 = v2.y - v1.y;
        float y2 = v3.y - v1.y;
        float z1 = v2.z - v1.z;
        float z2 = v3.z - v1.z;

        float s1 = w2.x - w1.x;
        float s2 = w3.x - w1.x;
        float t1 = w2.y - w1.y;
        float t2 = w3.y - w1.y;

        float r = 1.0f / (s1 * t2 - s2 * t1);
        glm::vec3 sdir((t2 * x1 - t1 * x2) * r, (t2 * y1 - t1 * y2) * r,
                (t2 * z1 - t1 * z2) * r);
        glm::vec3 tdir((s1 * x2 - s2 * x1) * r, (s1 * y2 - s2 * y1) * r,
                (s1 * z2 - s2 * z1) * r);

        Tangents& tan1 = tangents[i];
        Tangents& tan2 = tangents[i+1];
        Tangents& tan3 = tangents[i+2];

        tan1.tangent += sdir;
        tan2.tangent += sdir;
        tan3.tangent += sdir;

        tan1.binormal += tdir;
        tan2.binormal += tdir;
        tan3.binormal += tdir;
    }

    // building tangent matrix
    /*
    for (long a = 0; a < vertexCount; a++)
    {
        const Vector3D& n = normal[a];
        const Vector3D& t = tan1[a];

        // Gram-Schmidt orthogonalize
        tangent[a] = (t - n * Dot(n, t)).Normalize();

        // Calculate handedness
        tangent[a].w = (Dot(Cross(n, t), tan2[a]) < 0.0F) ? -1.0F : 1.0F;
    }*/
}