void CCoherentUISystem::ChangeEntityDiffuseTextureForMaterial( CCoherentViewListener* pViewListener, const char* entityName, const char* materialName )
    {
        IMaterial* pMaterial = gEnv->p3DEngine->GetMaterialManager()->FindMaterial( materialName );
        IEntity* pEntity = gEnv->pEntitySystem->FindEntityByName( entityName );

        if ( pEntity && !pMaterial )
        {
            pMaterial = pEntity->GetMaterial();
        }

        if ( pMaterial )
        {
            STexSamplerRT& sampler = pMaterial->GetShaderItem().m_pShaderResources->GetTexture( EFTT_DIFFUSE )->m_Sampler;

            // Create a new texture and scrap the old one
            void* pD3DTextureDst = NULL;
            ITexture* pCryTex = gD3DSystem->CreateTexture(
                                    &pD3DTextureDst,
                                    sampler.m_pITex->GetWidth(),
                                    sampler.m_pITex->GetHeight(),
                                    1,
                                    eTF_A8R8G8B8,
                                    FT_USAGE_DYNAMIC
                                );

            int oldTextureID = sampler.m_pITex->GetTextureID();
            gEnv->pRenderer->RemoveTexture( oldTextureID );
            sampler.m_pITex = pCryTex;
            pCryTex->AddRef();

            pViewListener->SetTexture( pD3DTextureDst, pCryTex->GetTextureID() );
        }
    }
예제 #2
0
void CUIEntityDynTexTag::OnAddTaggedEntity(EntityId entityId, const char *uiElementName, const char *entityClass, const char *materialTemplate, const Vec3 &offset, const char *idx)
{
    OnRemoveTaggedEntity(entityId, idx);

    IEntityClass *pEntClass = gEnv->pEntitySystem->GetClassRegistry()->FindClass(entityClass);

    if(pEntClass)
    {
        SEntitySpawnParams params;
        params.nFlags = ENTITY_FLAG_CLIENT_ONLY;
        params.pClass = pEntClass;

        IEntity *pTagEntity = gEnv->pEntitySystem->SpawnEntity(params);
        IUIElement *pElement = gEnv->pFlashUI->GetUIElement(uiElementName);

        if(pTagEntity && pElement)
        {
            IMaterial *pMatTemplate = gEnv->p3DEngine->GetMaterialManager()->LoadMaterial(materialTemplate, false);

            if(pMatTemplate && pMatTemplate->GetShaderItem().m_pShaderResources->GetTexture(0))
            {
                pMatTemplate->GetShaderItem().m_pShaderResources->GetTexture(0)->m_Name.Format("%s@%d.ui", uiElementName, entityId);
                IMaterial *pMat = gEnv->p3DEngine->GetMaterialManager()->CloneMaterial(pMatTemplate);
                pTagEntity->SetMaterial(pMat);
            }

            IEntityRenderProxy *pRenderProxy = (IEntityRenderProxy *) pTagEntity->GetProxy(ENTITY_PROXY_RENDER);

            if(pRenderProxy)
            {
                IRenderNode *pRenderNode = pRenderProxy->GetRenderNode();

                if(pRenderNode)
                {
                    pRenderNode->SetViewDistRatio(256);
                }
            }

            pElement->RemoveEventListener(this); // first remove to avoid assert if already registered!
            pElement->AddEventListener(this, "CUIEntityDynTexTag");
            gEnv->pEntitySystem->AddEntityEventListener(entityId, ENTITY_EVENT_DONE, this);
            m_Tags.push_back(STagInfo(entityId, pTagEntity->GetId(), idx, offset, pElement->GetInstance((uint)entityId)));
        }
    }
}
void CGameVolume_Water::SetupVolume()
{
	IGameVolumes::VolumeInfo volumeInfo;
	if (GetVolumeInfoForEntity(GetEntityId(), volumeInfo) == false)
		return;

	if (volumeInfo.verticesCount < 3)
		return;

	WaterProperties waterProperties(GetEntity()); 

	if(waterProperties.isRiver)
	{
		if(volumeInfo.verticesCount < 4 || volumeInfo.verticesCount % 2 != 0)
			return;

		int numSegments = (volumeInfo.verticesCount / 2) - 1;

		m_segments.resize(numSegments);

		for(int i = 0; i < numSegments; ++i)
		{
			SetupVolumeSegment(waterProperties, i, &volumeInfo.pVertices[0], volumeInfo.verticesCount);
		}
	}
	else
	{
		SetupVolumeSegment(waterProperties, 0, &volumeInfo.pVertices[0], volumeInfo.verticesCount);
	}

#if CRY_PLATFORM_WINDOWS && !defined(_RELEASE)
	{
		if (gEnv->IsEditor())
		{
			IEntity* pEnt = GetEntity();
			IMaterial* pMat = pEnt ? pEnt->GetMaterial() : 0;
			if (pMat)
			{
				const SShaderItem& si = pMat->GetShaderItem();
				if (si.m_pShader && si.m_pShader->GetShaderType() != eST_Water)
				{
					CryWarning(VALIDATOR_MODULE_3DENGINE, VALIDATOR_ERROR, "Incorrect shader set for water / water fog volume \"%s\"!", pEnt->GetName());
				}
			}
		}
	}
#endif

	m_baseMatrix = GetEntity()->GetWorldTM();
	m_initialMatrix = m_baseMatrix;
	m_volumeDepth = waterProperties.depth;
	m_streamSpeed = waterProperties.streamSpeed;
	m_awakeAreaWhenMoving = waterProperties.awakeAreaWhenMoving;
	m_isRiver = waterProperties.isRiver;
}
예제 #4
0
//------------------------------------------------------------------------
bool CVehiclePartTread::Init(IVehicle* pVehicle, const CVehicleParams& table, IVehiclePart* parent, CVehicle::SPartInitInfo& initInfo, int partType)
{
	if (!CVehiclePartBase::Init(pVehicle, table, parent, initInfo, eVPT_Tread))
		return false;

	CVehicleParams subTable = table.findChild("Tread"); // Tread subtable
	if (!subTable)
		return false;

	string filename = subTable.getAttr("filename");
	if (filename.empty())
		return false;

	subTable.getAttr("uvSpeedMultiplier", m_uvSpeedMultiplier);

	if (table.haveAttr("component"))
	{
		if (CVehicleComponent* pComponent = static_cast<CVehicleComponent*>(m_pVehicle->GetComponent(table.getAttr("component"))))
			pComponent->AddPart(this);
	}

	m_slot = GetEntity()->LoadCharacter(m_slot, filename);

	m_pCharInstance = GetEntity()->GetCharacter(m_slot);
	if (!m_pCharInstance)
		return false;

	if (subTable.haveAttr("materialName"))
	{
		string materialName = subTable.getAttr("materialName");
		materialName.MakeLower();

		IMaterial* pMaterial = 0;
		const char* subMtlName = 0;
		int subMtlSlot = -1;

		// find tread material
		IEntityRenderProxy *pRenderProxy = (IEntityRenderProxy*)GetEntity()->GetProxy(ENTITY_PROXY_RENDER);
		if (pRenderProxy)
		{
			pMaterial = pRenderProxy->GetRenderMaterial(m_slot);
			if (pMaterial)
			{
				// if matname doesn't fit, look in submaterials
				if (string(pMaterial->GetName()).MakeLower().find(materialName) == string::npos)
				{
					for (int i=0; i < pMaterial->GetSubMtlCount(); ++i)
					{
						if (string(pMaterial->GetSubMtl(i)->GetName()).MakeLower().find(materialName) != string::npos)
						{
							subMtlName = pMaterial->GetSubMtl(i)->GetName();
							subMtlSlot = i;
							break;
						}
					}
				}
			}
		}

		if (pMaterial)
		{
			// clone
			IMaterial *pCloned = pMaterial->GetMaterialManager()->CloneMultiMaterial(pMaterial, subMtlName);
			if (pCloned)
			{
				pRenderProxy->SetSlotMaterial(m_slot, pCloned);
				pMaterial = pCloned;
				m_pMaterial = pMaterial;
			}

			if (subMtlSlot > -1)
				m_pShaderResources = pMaterial->GetShaderItem(subMtlSlot).m_pShaderResources;
			else
				m_pShaderResources = pMaterial->GetShaderItem().m_pShaderResources;
		}

		if (m_pShaderResources)
		{
			for (int i = 0; i < EFTT_MAX; ++i)
			{
				if (!m_pShaderResources->GetTexture(i))
					continue;

				SEfTexModificator& modif = *m_pShaderResources->GetTexture(i)->AddModificator();

				modif.SetMember("m_eMoveType[0]", 1.0f);  // ETMM_Fixed: u = m_OscRate[0] + sourceU

				modif.SetMember("m_OscRate[0]", 0.0f);
			}
		}
	}

	char wheelName[256];

	IDefaultSkeleton& rIDefaultSkeleton = m_pCharInstance->GetIDefaultSkeleton();
	for (int i=0; i<rIDefaultSkeleton.GetJointCount(); ++i)
	{
		const char* boneName = rIDefaultSkeleton.GetJointNameByID(i);
		if (0 != boneName)
		{
			// extract wheel name
			const size_t len = strcspn(boneName, "_");
			if (len < strlen(boneName) && len < sizeof(wheelName))
			{
				cry_strcpy(wheelName, boneName, len);

				CVehiclePartSubPartWheel* pWheel = (CVehiclePartSubPartWheel*)m_pVehicle->GetPart(wheelName);
				if (pWheel)
				{
					SWheelInfo wheelInfo;
					wheelInfo.slot = pWheel->m_slot;
					wheelInfo.jointId = i;
					wheelInfo.pWheel = pWheel;
					m_wheels.push_back(wheelInfo);

					m_lastWheelIndex = pWheel->GetWheelIndex();
				}
			}
		}
	}

	m_pVehicle->SetObjectUpdate(this, IVehicle::eVOU_AlwaysUpdate);

	m_state = eVGS_Default;
	return true;
}
예제 #5
0
    virtual void ProcessEvent( EFlowEvent event, SActivationInfo *pActInfo )
    {
        switch (event)
        {
        case eFE_Initialize:
            break;
        case eFE_Activate:
            IGameFramework* pGameFramework = gEnv->pGame->GetIGameFramework();

            if(IsPortActive(pActInfo, EIP_Cast))
            {
                // setup ray + optionally skip 1 entity
                ray_hit rayHit;
                static const float maxRayDist = 100.f;
                const unsigned int flags = rwi_stop_at_pierceable|rwi_colltype_any;
                IPhysicalEntity	*skipList[1];
                int skipCount = 0;
                IEntity* skipEntity = gEnv->pEntitySystem->GetEntity(GetPortEntityId(pActInfo, EIP_SkipEntity));
                if(skipEntity)
                {
                    skipList[0] = skipEntity->GetPhysics();
                    skipCount = 1;
                }

                Vec3 rayPos = GetPortVec3(pActInfo, EIP_RayPos);
                Vec3 rayDir = GetPortVec3(pActInfo, EIP_RayDir);

                // Check if the ray hits an entity
                if(gEnv->pSystem->GetIPhysicalWorld()->RayWorldIntersection(rayPos, rayDir * 100, ent_all, flags, &rayHit, 1, skipList, skipCount))
                {
                    int type = rayHit.pCollider->GetiForeignData();

                    if (type == PHYS_FOREIGN_ID_ENTITY)
                    {
                        IEntity* pEntity = (IEntity*)rayHit.pCollider->GetForeignData(PHYS_FOREIGN_ID_ENTITY);
                        IEntityRenderProxy* pRenderProxy = pEntity ? (IEntityRenderProxy*)pEntity->GetProxy(ENTITY_PROXY_RENDER) : 0;

                        // Get the renderproxy, and use it to check if the material is a DynTex, and get the UIElement if so
                        if(pRenderProxy)
                        {
                            IRenderNode *pRenderNode = pRenderProxy->GetRenderNode();
                            IMaterial* pMaterial = pRenderProxy->GetRenderMaterial();
                            SEfResTexture* texture = 0;
                            if(pMaterial && pMaterial->GetShaderItem().m_pShaderResources)
                                texture= pMaterial->GetShaderItem().m_pShaderResources->GetTexture(EFTT_DIFFUSE);
                            IUIElement* pElement = texture ? gEnv->pFlashUI->GetUIElementByInstanceStr(texture->m_Name) : 0;

                            if(pElement && pRenderNode)
                            {
                                int m_dynTexGeomSlot = 0;
                                IStatObj* pObj = pRenderNode->GetEntityStatObj(m_dynTexGeomSlot);

                                // result
                                bool hasHit = false;
                                Vec2 uv0, uv1, uv2;
                                Vec3 p0, p1, p2;
                                Vec3 hitpos;


                                // calculate ray dir
                                CCamera cam = gEnv->pRenderer->GetCamera();
                                if (pEntity->GetSlotFlags(m_dynTexGeomSlot) & ENTITY_SLOT_RENDER_NEAREST)
                                {
                                    ICVar *r_drawnearfov = gEnv->pConsole->GetCVar("r_DrawNearFoV");
                                    assert(r_drawnearfov);
                                    cam.SetFrustum(cam.GetViewSurfaceX(),cam.GetViewSurfaceZ(),DEG2RAD(r_drawnearfov->GetFVal()),cam.GetNearPlane(),cam.GetFarPlane(), cam.GetPixelAspectRatio());
                                }

                                Vec3 vPos0 = rayPos;
                                Vec3 vPos1 = rayPos + rayDir;

                                // translate into object space
                                const Matrix34 m = pEntity->GetWorldTM().GetInverted();
                                vPos0 = m * vPos0;
                                vPos1 = m * vPos1;

                                // walk through all sub objects
                                const int objCount = pObj->GetSubObjectCount();
                                for (int obj = 0; obj <= objCount && !hasHit; ++obj)
                                {
                                    Vec3 vP0, vP1;
                                    IStatObj* pSubObj = NULL;

                                    if (obj == objCount)
                                    {
                                        vP0 = vPos0;
                                        vP1 = vPos1;
                                        pSubObj = pObj;
                                    }
                                    else
                                    {
                                        IStatObj::SSubObject* pSub = pObj->GetSubObject(obj);
                                        const Matrix34 mm = pSub->tm.GetInverted();
                                        vP0 = mm * vPos0;
                                        vP1 = mm * vPos1;
                                        pSubObj = pSub->pStatObj;
                                    }

                                    IRenderMesh* pMesh = pSubObj ? pSubObj->GetRenderMesh() : NULL;
                                    if (pMesh)
                                    {
                                        const Ray ray(vP0, (vP1-vP0).GetNormalized() * maxRayDist);
                                        hasHit = RayIntersectMesh(pMesh, pMaterial, pElement, ray, hitpos, p0, p1, p2, uv0, uv1, uv2);
                                    }
                                }

                                // skip if not hit
                                if (!hasHit)
                                {
                                    ActivateOutput(pActInfo, EOP_Failed, 1);
                                    return;
                                }

                                // calculate vectors from hitpos to vertices p0, p1 and p2:
                                const Vec3 v0 = p0-hitpos;
                                const Vec3 v1 = p1-hitpos;
                                const Vec3 v2 = p2-hitpos;

                                // calculate factors
                                const float h = (p0-p1).Cross(p0-p2).GetLength();
                                const float f0 = v1.Cross(v2).GetLength() / h;
                                const float f1 = v2.Cross(v0).GetLength() / h;
                                const float f2 = v0.Cross(v1).GetLength() / h;

                                // find the uv corresponding to hitpos
                                Vec3 uv = uv0 * f0 + uv1 * f1 + uv2 * f2;

                                // translate to flash space
                                int x, y, width, height;
                                float aspect;
                                pElement->GetFlashPlayer()->GetViewport(x, y, width, height, aspect);
                                int iX = int_round(uv.x * (float)width);
                                int iY = int_round(uv.y * (float)height);

                                // call the function provided if it is present in the UIElement description
                                string funcName = GetPortString(pActInfo, EIP_CallFunction);
                                const SUIEventDesc* eventDesc = pElement->GetFunctionDesc(funcName);
                                if(eventDesc)
                                {
                                    SUIArguments arg;
                                    arg.AddArgument(iX);
                                    arg.AddArgument(iY);
                                    pElement->CallFunction(eventDesc->sName, arg);
                                }

                                ActivateOutput(pActInfo, EOP_Success, 1);
                            }
                        }
                    }
                }

                ActivateOutput(pActInfo, EOP_Failed, 1);
            }

            break;
        }
    }