reactphysics3d/testbed/scenes/concavemesh/ConcaveMeshScene.cpp

/********************************************************************************
* ReactPhysics3D physics library, http://www.reactphysics3d.com                 *
* Copyright (c) 2010-2016 Daniel Chappuis                                       *
*********************************************************************************
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* This software is provided 'as-is', without any express or implied warranty.   *
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* use of this software.                                                         *
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*    appreciated but is not required.                                           *
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*    misrepresented as being the original software.                             *
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* 3. This notice may not be removed or altered from any source distribution.    *
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// Libraries
#include "ConcaveMeshScene.h"

// Namespaces
using namespace openglframework;
using namespace trianglemeshscene;

// Constructor
ConcaveMeshScene::ConcaveMeshScene(const std::string& name)
      : SceneDemo(name, SCENE_RADIUS) {

    std::string meshFolderPath("meshes/");

    // Compute the radius and the center of the scene
    openglframework::Vector3 center(0, 5, 0);

    // Set the center of the scene
    setScenePosition(center, SCENE_RADIUS);

    // Gravity vector in the dynamics world
    rp3d::Vector3 gravity(0, rp3d::decimal(-9.81), 0);

    // Create the dynamics world for the physics simulation
    mDynamicsWorld = new rp3d::DynamicsWorld(gravity);

    // Set the number of iterations of the constraint solver
    mDynamicsWorld->setNbIterationsVelocitySolver(15);

    // ---------- Create the boxes ----------- //

    for (int i=0; i<NB_BOXES_X; i++) {

        for (int j=0; j<NB_BOXES_Z; j++) {

            // Position
            openglframework::Vector3 boxPosition(-NB_BOXES_X * BOX_SIZE * BOXES_SPACE / 2 + i * BOX_SIZE * BOXES_SPACE, 30, -NB_BOXES_Z * BOX_SIZE * BOXES_SPACE / 2 + j * BOX_SIZE * BOXES_SPACE);

            // Create a sphere and a corresponding rigid in the dynamics world
            mBoxes[i * NB_BOXES_Z + j] = new Box(Vector3(BOX_SIZE, BOX_SIZE, BOX_SIZE) * 0.5f, boxPosition, 80.1, mDynamicsWorld);

            // Set the sphere color
            mBoxes[i * NB_BOXES_Z + j]->setColor(mDemoColors[0]);
            mBoxes[i * NB_BOXES_Z + j]->setSleepingColor(mRedColorDemo);

            // Change the material properties of the rigid body
            rp3d::Material& boxMaterial = mBoxes[i * NB_BOXES_Z + j]->getRigidBody()->getMaterial();
            boxMaterial.setBounciness(rp3d::decimal(0.2));
        }
    }

    // ---------- Create the triangular mesh ---------- //

    // Position
    openglframework::Vector3 position(0, 0, 0);
    rp3d::decimal mass = 1.0;

    // Create a convex mesh and a corresponding rigid in the dynamics world
    mConcaveMesh = new ConcaveMesh(position, mass, mDynamicsWorld, meshFolderPath + "city.obj");

    // Set the mesh as beeing static
    mConcaveMesh->getRigidBody()->setType(rp3d::STATIC);

    // Set the box color
    mConcaveMesh->setColor(mGreyColorDemo);
    mConcaveMesh->setSleepingColor(mGreyColorDemo);

    // Change the material properties of the rigid body
    rp3d::Material& material = mConcaveMesh->getRigidBody()->getMaterial();
    material.setBounciness(rp3d::decimal(0.2));
    material.setFrictionCoefficient(0.1);

    // Get the physics engine parameters
    mEngineSettings.isGravityEnabled = mDynamicsWorld->isGravityEnabled();
    rp3d::Vector3 gravityVector = mDynamicsWorld->getGravity();
    mEngineSettings.gravity = openglframework::Vector3(gravityVector.x, gravityVector.y, gravityVector.z);
    mEngineSettings.isSleepingEnabled = mDynamicsWorld->isSleepingEnabled();
    mEngineSettings.sleepLinearVelocity = mDynamicsWorld->getSleepLinearVelocity();
    mEngineSettings.sleepAngularVelocity = mDynamicsWorld->getSleepAngularVelocity();
    mEngineSettings.nbPositionSolverIterations = mDynamicsWorld->getNbIterationsPositionSolver();
    mEngineSettings.nbVelocitySolverIterations = mDynamicsWorld->getNbIterationsVelocitySolver();
    mEngineSettings.timeBeforeSleep = mDynamicsWorld->getTimeBeforeSleep();
}

// Destructor
ConcaveMeshScene::~ConcaveMeshScene() {

    // Destroy the corresponding rigid body from the dynamics world
    mDynamicsWorld->destroyRigidBody(mConcaveMesh->getRigidBody());

    // Destroy the boxes
    for (int i=0; i<NB_BOXES_X * NB_BOXES_Z; i++) {
        mDynamicsWorld->destroyRigidBody(mBoxes[i]->getRigidBody());
        delete mBoxes[i];
    }

    // Destroy the convex mesh
    delete mConcaveMesh;

    // Destroy the dynamics world
    delete mDynamicsWorld;
}

// Update the physics world (take a simulation step)
void ConcaveMeshScene::updatePhysics() {

    // Update the physics engine parameters
    mDynamicsWorld->setIsGratityEnabled(mEngineSettings.isGravityEnabled);
    rp3d::Vector3 gravity(mEngineSettings.gravity.x, mEngineSettings.gravity.y,
                                     mEngineSettings.gravity.z);
    mDynamicsWorld->setGravity(gravity);
    mDynamicsWorld->enableSleeping(mEngineSettings.isSleepingEnabled);
    mDynamicsWorld->setSleepLinearVelocity(mEngineSettings.sleepLinearVelocity);
    mDynamicsWorld->setSleepAngularVelocity(mEngineSettings.sleepAngularVelocity);
    mDynamicsWorld->setNbIterationsPositionSolver(mEngineSettings.nbPositionSolverIterations);
    mDynamicsWorld->setNbIterationsVelocitySolver(mEngineSettings.nbVelocitySolverIterations);
    mDynamicsWorld->setTimeBeforeSleep(mEngineSettings.timeBeforeSleep);

    // Take a simulation step
    mDynamicsWorld->update(mEngineSettings.timeStep);
}

// Update the scene
void ConcaveMeshScene::update() {

    SceneDemo::update();

    // Update the transform used for the rendering
    mConcaveMesh->updateTransform(mInterpolationFactor);

    for (int i=0; i<NB_BOXES_X * NB_BOXES_Z; i++) {
        mBoxes[i]->updateTransform(mInterpolationFactor);
    }
}

// Render the scene in a single pass
void ConcaveMeshScene::renderSinglePass(Shader& shader, const openglframework::Matrix4& worldToCameraMatrix) {

    // Bind the shader
    shader.bind();

    mConcaveMesh->render(shader, worldToCameraMatrix);

    for (int i=0; i<NB_BOXES_X * NB_BOXES_Z; i++) {
        mBoxes[i]->render(shader, worldToCameraMatrix);
    }

    // Unbind the shader
    shader.unbind();
}

// Reset the scene
void ConcaveMeshScene::reset() {

    // Reset the transform
    rp3d::Transform transform(rp3d::Vector3::zero(), rp3d::Quaternion::identity());
    mConcaveMesh->resetTransform(transform);

    for (int i=0; i<NB_BOXES_X; i++) {
        for (int j=0; j<NB_BOXES_Z; j++) {

            // Position
            rp3d::Vector3 boxPosition(-NB_BOXES_X * BOX_SIZE * BOXES_SPACE / 2 + i * BOX_SIZE * BOXES_SPACE, 30, -NB_BOXES_Z * BOX_SIZE * BOXES_SPACE / 2 + j * BOX_SIZE * BOXES_SPACE);

            rp3d::Transform boxTransform(boxPosition, rp3d::Quaternion::identity());
            mBoxes[i * NB_BOXES_Z + j]->resetTransform(boxTransform);
        }
    }

}