cpp
/
urho3d
mirror of https://github.com/urho3d/urho3d.git


			
				
					
						
						
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							//
// Copyright (c) 2008-2013 the Urho3D project.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
//

#include "Precompiled.h"
#include "Camera.h"
#include "Context.h"
#include "Geometry.h"
#include "IndexBuffer.h"
#include "Material.h"
#include "Node.h"
#include "OcclusionBuffer.h"
#include "OctreeQuery.h"
#include "Profiler.h"
#include "Terrain.h"
#include "TerrainPatch.h"
#include "VertexBuffer.h"

#include "DebugNew.h"

namespace Urho3D
{

static const float LOD_CONSTANT = 1.0f / 150.0f;

extern const char* ENVIRONMENT_CATEGORY;

OBJECTTYPESTATIC(TerrainPatch);

TerrainPatch::TerrainPatch(Context* context) :
    Drawable(context, DRAWABLE_GEOMETRY),
    geometry_(new Geometry(context)),
    maxLodGeometry_(new Geometry(context)),
    minLodGeometry_(new Geometry(context)),
    vertexBuffer_(new VertexBuffer(context)),
    coordinates_(IntVector2::ZERO),
    lodLevel_(0),
    occlusionOffset_(0.0f)
{
    geometry_->SetVertexBuffer(0, vertexBuffer_, MASK_POSITION | MASK_NORMAL | MASK_TEXCOORD1 | MASK_TANGENT);
    maxLodGeometry_->SetVertexBuffer(0, vertexBuffer_, MASK_POSITION | MASK_NORMAL | MASK_TEXCOORD1 | MASK_TANGENT);
    minLodGeometry_->SetVertexBuffer(0, vertexBuffer_, MASK_POSITION | MASK_NORMAL | MASK_TEXCOORD1 | MASK_TANGENT);
    
    batches_.Resize(1);
    batches_[0].geometry_ = geometry_;
    batches_[0].geometryType_ = GEOM_STATIC_NOINSTANCING;
}

TerrainPatch::~TerrainPatch()
{
}

void TerrainPatch::RegisterObject(Context* context)
{
    context->RegisterFactory<TerrainPatch>(ENVIRONMENT_CATEGORY);
}

void TerrainPatch::ProcessRayQuery(const RayOctreeQuery& query, PODVector<RayQueryResult>& results)
{
    RayQueryLevel level = query.level_;
    
    switch (level)
    {
    case RAY_AABB_NOSUBOBJECTS:
    case RAY_AABB:
        Drawable::ProcessRayQuery(query, results);
        break;
        
    case RAY_OBB:
    case RAY_TRIANGLE:
        Matrix3x4 inverse(node_->GetWorldTransform().Inverse());
        Ray localRay(inverse * query.ray_.origin_, inverse * Vector4(query.ray_.direction_, 0.0f));
        float distance = localRay.HitDistance(boundingBox_);
        if (distance < query.maxDistance_)
        {
            if (level == RAY_TRIANGLE)
            {
                distance = geometry_->GetHitDistance(localRay);
                if (distance < query.maxDistance_)
                {
                    RayQueryResult result;
                    result.drawable_ = this;
                    result.node_ = node_;
                    result.distance_ = distance;
                    result.subObject_ = M_MAX_UNSIGNED;
                    results.Push(result);
                    break;
                }
            }
            else
            {
                RayQueryResult result;
                result.drawable_ = this;
                result.node_ = node_;
                result.distance_ = distance;
                result.subObject_ = M_MAX_UNSIGNED;
                results.Push(result);
            }
        }
        break;
    }
}

void TerrainPatch::UpdateBatches(const FrameInfo& frame)
{
    const Matrix3x4& worldTransform = node_->GetWorldTransform();
    distance_ = frame.camera_->GetDistance(GetWorldBoundingBox().Center());
    
    float scale = worldTransform.Scale().DotProduct(DOT_SCALE);
    lodDistance_ = frame.camera_->GetLodDistance(distance_, scale, lodBias_);
    
    batches_[0].distance_ = distance_;
    batches_[0].worldTransform_ = &worldTransform;
    
    unsigned newLodLevel = 0;
    for (unsigned i = 0; i < lodErrors_.Size(); ++i)
    {
        if (lodErrors_[i] / lodDistance_ > LOD_CONSTANT)
            break;
        else
            newLodLevel = i;
    }
    
    lodLevel_ = GetCorrectedLodLevel(newLodLevel);
}

void TerrainPatch::UpdateGeometry(const FrameInfo& frame)
{
    if (vertexBuffer_->IsDataLost())
    {
        if (owner_)
            owner_->CreatePatchGeometry(this);
        else
            vertexBuffer_->ClearDataLost();
    }
    
    if (owner_)
        owner_->UpdatePatchLod(this);
}

UpdateGeometryType TerrainPatch::GetUpdateGeometryType()
{
    // Because there is a latency in starting worker thread updates, and the update of terrain patch LOD should not take
    // much time, always update in the main thread
    return UPDATE_MAIN_THREAD;
}

Geometry* TerrainPatch::GetLodGeometry(unsigned batchIndex, unsigned level)
{
    if (!level)
        return maxLodGeometry_;
    else
        return geometry_;
}

unsigned TerrainPatch::GetNumOccluderTriangles()
{
    // Check that the material is suitable for occlusion (default material always is)
    Material* mat = batches_[0].material_;
    if (mat && !mat->GetOcclusion())
        return 0;
    else
        return minLodGeometry_->GetIndexCount() / 3;
}

bool TerrainPatch::DrawOcclusion(OcclusionBuffer* buffer)
{
    // Check that the material is suitable for occlusion (default material always is) and set culling mode
    Material* material = batches_[0].material_;
    if (material)
    {
        if (!material->GetOcclusion())
            return true;
        buffer->SetCullMode(material->GetCullMode());
    }
    else
        buffer->SetCullMode(CULL_CCW);
    
    const unsigned char* vertexData;
    unsigned vertexSize;
    const unsigned char* indexData;
    unsigned indexSize;
    unsigned elementMask;
    
    minLodGeometry_->GetRawData(vertexData, vertexSize, indexData, indexSize, elementMask);
    // Check for valid geometry data
    if (!vertexData || !indexData)
        return true;
    
    Matrix3x4 occlusionTransform(node_->GetWorldPosition() + node_->GetWorldTransform() * Vector4(0.0f, occlusionOffset_, 0.0f,
        0.0f), node_->GetWorldRotation(), node_->GetWorldScale());
    
    // Draw and check for running out of triangles
    return buffer->Draw(occlusionTransform, vertexData, vertexSize, indexData, indexSize, minLodGeometry_->GetIndexStart(),
        minLodGeometry_->GetIndexCount());
}

void TerrainPatch::SetOwner(Terrain* terrain)
{
    owner_ = terrain;
}

void TerrainPatch::SetNeighbors(TerrainPatch* north, TerrainPatch* south, TerrainPatch* west, TerrainPatch* east)
{
    north_ = north;
    south_ = south;
    west_ = west;
    east_ = east;
}

void TerrainPatch::SetMaterial(Material* material)
{
    batches_[0].material_ = material;
}

void TerrainPatch::SetBoundingBox(const BoundingBox& box)
{
    boundingBox_ = box;
    OnMarkedDirty(node_);
}

void TerrainPatch::SetCoordinates(const IntVector2& coordinates)
{
    coordinates_ = coordinates;
}

void TerrainPatch::SetOcclusionOffset(float offset)
{
    occlusionOffset_ = offset;
}

void TerrainPatch::ResetLod()
{
    lodLevel_ = 0;
}

Geometry* TerrainPatch::GetGeometry() const
{
    return geometry_;
}

Geometry* TerrainPatch::GetMaxLodGeometry() const
{
    return maxLodGeometry_;
}

Geometry* TerrainPatch::GetMinLodGeometry() const
{
    return minLodGeometry_;
}

VertexBuffer* TerrainPatch::GetVertexBuffer() const
{
    return vertexBuffer_;
}

Terrain* TerrainPatch::GetOwner() const
{
    return owner_;
}

void TerrainPatch::OnWorldBoundingBoxUpdate()
{
    worldBoundingBox_ = boundingBox_.Transformed(node_->GetWorldTransform());
}

unsigned TerrainPatch::GetCorrectedLodLevel(unsigned lodLevel)
{
    if (north_)
        lodLevel = Min((int)lodLevel, north_->GetLodLevel() + 1);
    if (south_)
        lodLevel = Min((int)lodLevel, south_->GetLodLevel() + 1);
    if (west_)
        lodLevel = Min((int)lodLevel, west_->GetLodLevel() + 1);
    if (east_)
        lodLevel = Min((int)lodLevel, east_->GetLodLevel() + 1);
    
    return lodLevel;
}

}