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https://github.com/TES3MP/openmw-tes3mp.git
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166 lines
5.2 KiB
C++
166 lines
5.2 KiB
C++
#include "water.hpp"
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#include <components/settings/settings.hpp>
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using namespace Ogre;
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namespace MWRender
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{
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Water::Water (Ogre::Camera *camera, const ESM::Cell* cell) :
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mCamera (camera), mViewport (camera->getViewport()), mSceneManager (camera->getSceneManager()),
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mIsUnderwater(false), mReflectDistance(0), mVisibilityFlags(0), mOldCameraFarClip(0),
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mReflectionTarget(0), mRefractionTarget(0), mActive(1)
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{
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try
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{
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CompositorManager::getSingleton().addCompositor(mViewport, "Water", -1);
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CompositorManager::getSingleton().setCompositorEnabled(mViewport, "Water", false);
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} catch(...) {}
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mTop = cell->water;
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mIsUnderwater = false;
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mWaterPlane = Plane(Vector3::UNIT_Y, 0);
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MeshManager::getSingleton().createPlane("water", ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME, mWaterPlane, CELL_SIZE*5, CELL_SIZE * 5, 10, 10, true, 1, 3,5, Vector3::UNIT_Z);
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mWater = mSceneManager->createEntity("water");
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mWater->setVisibilityFlags(RV_Water);
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mWater->setMaterialName("Examples/Water0");
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mVisibilityFlags = RV_Terrain * Settings::Manager::getBool("reflect terrain", "Water")
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+ RV_Statics * Settings::Manager::getBool("reflect statics", "Water")
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+ RV_StaticsSmall * Settings::Manager::getBool("reflect small statics", "Water")
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+ RV_Actors * Settings::Manager::getBool("reflect actors", "Water")
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+ RV_Misc * Settings::Manager::getBool("reflect misc", "Water");
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mReflectDistance = Settings::Manager::getInt("reflect distance", "Water");
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mWaterNode = mSceneManager->getRootSceneNode()->createChildSceneNode();
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mWaterNode->setPosition(0, mTop, 0);
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if(!(cell->data.flags & cell->Interior))
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{
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mWaterNode->setPosition(getSceneNodeCoordinates(cell->data.gridX, cell->data.gridY));
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}
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mWaterNode->attachObject(mWater);
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// Create rendertargets for reflection and refraction
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int rttsize = Settings::Manager::getInt("rtt size", "Water");
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for (unsigned int i = 0; i < 2; ++i)
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{
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if (i==0 && !Settings::Manager::getBool("reflection", "Water")) continue;
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if (i==1 && !Settings::Manager::getBool("refraction", "Water")) continue;
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TexturePtr tex = TextureManager::getSingleton().createManual(i == 0 ? "WaterReflection" : "WaterRefraction",
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ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME, TEX_TYPE_2D, rttsize, rttsize, 0, PF_R8G8B8, TU_RENDERTARGET);
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RenderTarget* rtt = tex->getBuffer()->getRenderTarget();
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Viewport* vp = rtt->addViewport(mCamera);
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vp->setOverlaysEnabled(false);
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vp->setBackgroundColour(ColourValue(0.8f, 0.9f, 1.0f));
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vp->setShadowsEnabled(false);
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vp->setVisibilityMask( (i == 0) ? mVisibilityFlags : RV_All);
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rtt->addListener(this);
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rtt->setActive(true);
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if (i == 0) mReflectionTarget = rtt;
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else mRefractionTarget = rtt;
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}
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}
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void Water::setActive(bool active)
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{
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mActive = active;
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if (mReflectionTarget) mReflectionTarget->setActive(active);
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if (mRefractionTarget) mRefractionTarget->setActive(active);
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mWater->setVisible(active);
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}
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Water::~Water()
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{
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MeshManager::getSingleton().remove("water");
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mWaterNode->detachObject(mWater);
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mSceneManager->destroyEntity(mWater);
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mSceneManager->destroySceneNode(mWaterNode);
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CompositorManager::getSingleton().removeCompositorChain(mViewport);
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}
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void Water::changeCell(const ESM::Cell* cell)
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{
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mTop = cell->water;
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if(!(cell->data.flags & cell->Interior))
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mWaterNode->setPosition(getSceneNodeCoordinates(cell->data.gridX, cell->data.gridY));
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else
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setHeight(mTop);
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}
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void Water::setHeight(const float height)
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{
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mTop = height;
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mWaterNode->setPosition(0, height, 0);
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}
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void Water::toggle()
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{
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if (mActive)
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mWater->setVisible(!mWater->getVisible());
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}
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void Water::checkUnderwater(float y)
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{
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if (!mActive) return;
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if ((mIsUnderwater && y > mTop) || !mWater->isVisible() || mCamera->getPolygonMode() != Ogre::PM_SOLID)
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{
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try {
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CompositorManager::getSingleton().setCompositorEnabled(mViewport, "Water", false);
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} catch(...) {}
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mIsUnderwater = false;
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}
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if (!mIsUnderwater && y < mTop && mWater->isVisible() && mCamera->getPolygonMode() == Ogre::PM_SOLID)
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{
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try {
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CompositorManager::getSingleton().setCompositorEnabled(mViewport, "Water", true);
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} catch(...) {}
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mIsUnderwater = true;
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}
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}
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Vector3 Water::getSceneNodeCoordinates(int gridX, int gridY)
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{
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return Vector3(gridX * CELL_SIZE + (CELL_SIZE / 2), mTop, -gridY * CELL_SIZE - (CELL_SIZE / 2));
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}
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void Water::preRenderTargetUpdate(const RenderTargetEvent& evt)
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{
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mWater->setVisible(false);
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mOldCameraFarClip = mCamera->getFarClipDistance();
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if (mReflectDistance != 0)
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mCamera->setFarClipDistance(mReflectDistance);
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if (evt.source == mReflectionTarget)
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{
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mCamera->enableCustomNearClipPlane(mWaterPlane);
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mCamera->enableReflection(Plane(Vector3::UNIT_Y, mWaterNode->_getDerivedPosition().y));
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}
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}
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void Water::postRenderTargetUpdate(const RenderTargetEvent& evt)
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{
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mWater->setVisible(true);
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mCamera->setFarClipDistance(mOldCameraFarClip);
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if (evt.source == mReflectionTarget)
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{
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mCamera->disableReflection();
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mCamera->disableCustomNearClipPlane();
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}
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}
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} // namespace
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