axmol/extensions/Particle3D/CCParticle3DRender.cpp

/****************************************************************************
 Copyright (c) 2015 Chukong Technologies Inc.
 
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 of this software and associated documentation files (the "Software"), to deal
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 all copies or substantial portions of the Software.
 
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 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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 THE SOFTWARE.
 ****************************************************************************/

#include "extensions/Particle3D/CCParticleSystem3D.h"
#include "extensions/Particle3D/CCParticle3DRender.h"
#include "renderer/CCMeshCommand.h"
#include "renderer/CCRenderer.h"
#include "renderer/CCTextureCache.h"
#include "renderer/CCGLProgramState.h"
#include "renderer/CCGLProgramCache.h"
#include "renderer/CCVertexIndexBuffer.h"
#include "renderer/CCVertexAttribBinding.h"
#include "base/CCDirector.h"
#include "3d/CCSprite3D.h"
#include "2d/CCCamera.h"

NS_CC_BEGIN

Particle3DQuadRender::Particle3DQuadRender()
: _meshCommand(nullptr)
, _texture(nullptr)
, _glProgramState(nullptr)
, _indexBuffer(nullptr)
, _vertexBuffer(nullptr)
{
}

Particle3DQuadRender::~Particle3DQuadRender()
{
    CC_SAFE_DELETE(_meshCommand);
    //CC_SAFE_RELEASE(_texture);
    CC_SAFE_RELEASE(_glProgramState);
    CC_SAFE_RELEASE(_vertexBuffer);
    CC_SAFE_RELEASE(_indexBuffer);
}

Particle3DQuadRender* Particle3DQuadRender::create(const std::string& texFile)
{
    auto ret = new (std::nothrow)Particle3DQuadRender();
    if (ret && ret->initQuadRender(texFile))
    {
        ret->autorelease();
    }
    else
    {
        CC_SAFE_DELETE(ret);
    }

    return ret;
}

void Particle3DQuadRender::render(Renderer* renderer, const Mat4 &transform, ParticleSystem3D* particleSystem)
{
    //batch and generate draw
    const ParticlePool &particlePool = particleSystem->getParticlePool();
    if (!_isVisible || particlePool.empty())
        return;
    
    if (_vertexBuffer == nullptr){
        GLsizei stride = sizeof(Particle3DQuadRender::posuvcolor);
        _vertexBuffer = VertexBuffer::create(stride, 4 * particleSystem->getParticleQuota());
        if (_vertexBuffer == nullptr)
        {
            CCLOG("Particle3DQuadRender::render create vertex buffer failed");
            return;
        }
        _vertexBuffer->retain();
    }

    if (_indexBuffer == nullptr){
        _indexBuffer = IndexBuffer::create(IndexBuffer::IndexType::INDEX_TYPE_SHORT_16, 6 * particleSystem->getParticleQuota());
        if (_indexBuffer == nullptr)
        {
            CCLOG("Particle3DQuadRender::render create index buffer failed");
            return;
        }
        _indexBuffer->retain();
    }
    ParticlePool::PoolList activeParticleList = particlePool.getActiveDataList();
    if (_posuvcolors.size() < activeParticleList.size() * 4)
    {
        _posuvcolors.resize(activeParticleList.size() * 4);
        _indexData.resize(activeParticleList.size() * 6);
    }

    auto camera = Camera::getVisitingCamera();
    auto cameraMat = camera->getNodeToWorldTransform();
    const Mat4 &viewMat = cameraMat.getInversed();
    
    Mat4 pRotMat;
    Vec3 right(cameraMat.m[0], cameraMat.m[1], cameraMat.m[2]);
    Vec3 up(cameraMat.m[4], cameraMat.m[5], cameraMat.m[6]);
    Vec3 backward(cameraMat.m[8], cameraMat.m[9], cameraMat.m[10]);
    
    Vec3 position; //particle position
    int vertexindex = 0;
    int index = 0;
    for (auto iter : activeParticleList)
    {
        auto particle = iter;
        Vec3 halfwidth = particle->width * 0.5f * right;
        Vec3 halfheight = particle->height * 0.5f * up;
        //transform.transformPoint(particle->position, &position);
        position = particle->position;
        _posuvcolors[vertexindex].position = (position + (- halfwidth - halfheight));
        _posuvcolors[vertexindex].color = particle->color;
        _posuvcolors[vertexindex].uv.set(particle->lb_uv);

        _posuvcolors[vertexindex + 1].position = (position + (halfwidth - halfheight));
        _posuvcolors[vertexindex + 1].color = particle->color;
        _posuvcolors[vertexindex + 1].uv.set(particle->rt_uv.x, particle->lb_uv.y);
        
        _posuvcolors[vertexindex + 2].position = (position + (- halfwidth + halfheight));
        _posuvcolors[vertexindex + 2].color = particle->color;
        _posuvcolors[vertexindex + 2].uv.set(particle->lb_uv.x, particle->rt_uv.y);
        
        _posuvcolors[vertexindex + 3].position = (position + (halfwidth + halfheight));
        _posuvcolors[vertexindex + 3].color = particle->color;
        _posuvcolors[vertexindex + 3].uv.set(particle->rt_uv);
        
        
        _indexData[index] = vertexindex;
        _indexData[index + 1] = vertexindex + 1;
        _indexData[index + 2] = vertexindex + 3;
        _indexData[index + 3] = vertexindex;
        _indexData[index + 4] = vertexindex + 3;
        _indexData[index + 5] = vertexindex + 2;
        
        index += 6;
        vertexindex += 4;
    }
    
    _posuvcolors.erase(_posuvcolors.begin() + vertexindex, _posuvcolors.end());
    _indexData.erase(_indexData.begin() + index, _indexData.end());
    
    _vertexBuffer->updateVertices(&_posuvcolors[0], vertexindex/* * sizeof(_posuvcolors[0])*/, 0);
    _indexBuffer->updateIndices(&_indexData[0], index/* * sizeof(unsigned short)*/, 0);
    
    GLuint texId = (_texture ? _texture->getName() : 0);
    float depthZ = -(viewMat.m[2] * transform.m[12] + viewMat.m[6] * transform.m[13] + viewMat.m[10] * transform.m[14] + viewMat.m[14]);

    _meshCommand->init(
                       depthZ,
                       texId,
                       _glProgramState,
                       _stateBlock,
                       _vertexBuffer->getVBO(),
                       _indexBuffer->getVBO(),
                       GL_TRIANGLES,
                       GL_UNSIGNED_SHORT,
                       index,
                       transform,
                       0);
    _glProgramState->setUniformVec4("u_color", Vec4(1,1,1,1));
    renderer->addCommand(_meshCommand);
}

bool Particle3DQuadRender::initQuadRender( const std::string& texFile )
{
    GLProgram* glProgram = GLProgramCache::getInstance()->getGLProgram(GLProgram::SHADER_3D_PARTICLE_COLOR);
    if (!texFile.empty())
    {
        auto tex = Director::getInstance()->getTextureCache()->addImage(texFile);
        if (tex)
        {
            _texture = tex;
            glProgram = GLProgramCache::getInstance()->getGLProgram(GLProgram::SHADER_3D_PARTICLE_TEXTURE);
        }
    }
    auto glProgramState = GLProgramState::create(glProgram);
    glProgramState->retain();

    GLsizei stride = sizeof(Particle3DQuadRender::posuvcolor);

    glProgramState->setVertexAttribPointer(s_attributeNames[GLProgram::VERTEX_ATTRIB_POSITION], 3, GL_FLOAT, GL_FALSE, stride, (GLvoid*)offsetof(posuvcolor, position));
    glProgramState->setVertexAttribPointer(s_attributeNames[GLProgram::VERTEX_ATTRIB_TEX_COORD], 2, GL_FLOAT, GL_FALSE, stride, (GLvoid*)offsetof(posuvcolor, uv));
    glProgramState->setVertexAttribPointer(s_attributeNames[GLProgram::VERTEX_ATTRIB_COLOR], 4, GL_FLOAT, GL_FALSE, stride, (GLvoid*)offsetof(posuvcolor, color));

    _glProgramState = glProgramState;
    //ret->_vertexBuffer = VertexBuffer::create(stride, 4 * 10000);
    //ret->_vertexBuffer->retain();
    //ret->_indexBuffer = IndexBuffer::create(IndexBuffer::IndexType::INDEX_TYPE_SHORT_16, 6 * 10000);
    //ret->_indexBuffer->retain();

    _meshCommand = new (std::nothrow) MeshCommand();
    _meshCommand->setSkipBatching(true);
    _meshCommand->setTransparent(true);
    _stateBlock->setDepthTest(_depthTest);
    _stateBlock->setDepthWrite(_depthWrite);
    _stateBlock->setCullFace(true);
    _stateBlock->setCullFaceSide(RenderState::CULL_FACE_SIDE_BACK);
    return true;
}

//////////////////////////////////////////////////////////////////////////////
Particle3DModelRender::Particle3DModelRender()
    : _spriteSize(Vec3::ONE)
{
    
}
Particle3DModelRender::~Particle3DModelRender()
{
    for (auto iter : _spriteList){
        iter->release();
    }
}


Particle3DModelRender* Particle3DModelRender::create(const std::string& modelFile, const std::string &texFile)
{
    auto ret = new (std::nothrow) Particle3DModelRender();
    ret->_modelFile = modelFile;
    ret->_texFile = texFile;
    return ret;
}

void Particle3DModelRender::render(Renderer* renderer, const Mat4 &transform, ParticleSystem3D* particleSystem)
{
    if (!_isVisible)
        return;
    
    if (_spriteList.empty()){
        for (unsigned int i = 0; i < particleSystem->getParticleQuota(); ++i){
            Sprite3D *sprite = Sprite3D::create(_modelFile);
            if (sprite == nullptr)
            {
                CCLOG("failed to load file %s", _modelFile.c_str());
                continue;
            }
            sprite->setTexture(_texFile);
            sprite->retain();
            _spriteList.push_back(sprite);
        }
        if (!_spriteList.empty()){
            const AABB &aabb = _spriteList[0]->getAABB();
            Vec3 corners[8];
            aabb.getCorners(corners);
            _spriteSize = corners[3] - corners[6];
        }
    }


    const ParticlePool& particlePool = particleSystem->getParticlePool();
    ParticlePool::PoolList activeParticleList = particlePool.getActiveDataList();
    Mat4 mat;
    Mat4 rotMat;
    Mat4 sclMat;
    Quaternion q;
    transform.decompose(nullptr, &q, nullptr);
    unsigned int index = 0;
    for (auto iter : activeParticleList)
    {
        auto particle = iter;
        Mat4::createRotation(q * particle->orientation, &rotMat);
        sclMat.m[0] = particle->width / _spriteSize.x;
        sclMat.m[5]  = particle->height / _spriteSize.y; 
        sclMat.m[10] = particle->depth / _spriteSize.z;
        mat = rotMat * sclMat;
        mat.m[12] = particle->position.x;
        mat.m[13] = particle->position.y;
        mat.m[14] = particle->position.z;
        _spriteList[index++]->draw(renderer, mat, 0);
    }
}

// MARK: Particle3DRender

Particle3DRender::Particle3DRender()
: _particleSystem(nullptr)
, _isVisible(true)
, _rendererScale(Vec3::ONE)
, _depthTest(true)
, _depthWrite(false)
{
    _stateBlock = RenderState::StateBlock::create();
    _stateBlock->retain();

    _stateBlock->setCullFace(false);
    _stateBlock->setCullFaceSide(RenderState::CULL_FACE_SIDE_BACK);
    _stateBlock->setDepthTest(false);
    _stateBlock->setDepthWrite(false);
    _stateBlock->setBlend(true);
};

Particle3DRender::~Particle3DRender()
{
    _stateBlock->release();
}

void Particle3DRender::copyAttributesTo (Particle3DRender *render)
{
    CC_SAFE_RELEASE(render->_stateBlock);
    render->_stateBlock = _stateBlock;
    CC_SAFE_RETAIN(render->_stateBlock);

    render->_isVisible = _isVisible;
    render->_rendererScale = _rendererScale;
    render->_depthTest = _depthTest;
    render->_depthWrite = _depthWrite;
}

void Particle3DRender::notifyStart()
{
    setVisible(true);
}

void Particle3DRender::notifyStop()
{
    setVisible(false);
}

void Particle3DRender::notifyRescaled( const Vec3& scale )
{
    _rendererScale = scale;
}

void Particle3DRender::setDepthTest( bool isDepthTest )
{
    _depthTest = isDepthTest;
    _stateBlock->setDepthTest(_depthTest);
}

void Particle3DRender::setDepthWrite( bool isDepthWrite )
{
    _depthWrite = isDepthWrite;
    _stateBlock->setDepthWrite(_depthWrite);
}

void Particle3DRender::setBlendFunc(const BlendFunc &blendFunc)
{
    _stateBlock->setBlendFunc(blendFunc);
}

NS_CC_END