源码天空：第二人生的源码分析(12)天空显示的实现

在虚拟世界里，自然现象的实现是最需要实现的，比如天空的实现，以便反映是白天还是晚上，这样才逼真反映现实世界。在第二人生里实现的天空，还是比较好的，如下图所示：

蔡军生 2008/01/10 QQ:9073204 深圳 从上面的图片里，可以看到太阳在远处，并具有雾化的效果，这是早上太阳升起的效果。看到远处是浅蓝色的天空，与海边连接成一体。在室外场境的模拟中，最重要的就是天空体的实现。目前实现天空体有两种不同的实现方式：天体盒和天空穹。而第二人生里是采用天空盒的实现方式，这种方式是渲染的速度比较快，但纹理需要特别处理，才让人们看到的所有地方一样远的感觉。跟实现地面是一样的，都是使用网格和纹理来实现。下面就来通过代码仔细地分析怎么创建天空盒的网格，以及纹理的坐标设置。   #001  #002 BOOL LLVOSky::updateGeometry(LLDrawable *drawable) #003 { #004       if (mFace[FACE_REFLECTION] == NULL) #005       { #006              LLDrawPoolWater *poolp = (LLDrawPoolWater*) gPipeline.getPool(LLDrawPool::POOL_WATER); #007              mFace[FACE_REFLECTION] = drawable->addFace(poolp, NULL); #008       } 创建反射表面。   #009  #010       mCameraPosAgent = drawable->getPositionAgent(); #011       mEarthCenter.mV[0] = mCameraPosAgent.mV[0]; #012       mEarthCenter.mV[1] = mCameraPosAgent.mV[1]; #013  #014       LLVector3 v_agent[8]; #015       for (S32 i = 0; i < 8; ++i) #016       { #017               F32 x_sgn = (i&1) ? 1.f : -1.f; #018               F32 y_sgn = (i&2) ? 1.f : -1.f; #019               F32 z_sgn = (i&4) ? 1.f : -1.f; #020              v_agent[i] = HORIZON_DIST*0.25f * LLVector3(x_sgn, y_sgn, z_sgn); #021       } #022  #023       LLStrider<LLVector3> verticesp; #024       LLStrider<LLVector3> normalsp; #025       LLStrider<LLVector2> texCoordsp; #026       LLStrider<U32> indicesp; #027       S32 index_offset; #028       LLFace *face;      #029    下面开始创建天空盒的6个平面。 #030       for (S32 side = 0; side < 6; ++side) #031       { #032              face = mFace[FACE_SIDE0 + side]; #033  #034              if (face->mVertexBuffer.isNull()) #035              { #036                     face->setSize(4, 6); 设置每个表面有4个顶点构成，共有6个索引顶点。   #037                     face->setGeomIndex(0); #038                     face->setIndicesIndex(0); #039                     face->mVertexBuffer = new LLVertexBuffer(LLDrawPoolSky::VERTEX_DATA_MASK, GL_STREAM_DRAW_ARB); #040                     face->mVertexBuffer->allocateBuffer(4, 6, TRUE); 上面分配顶点缓冲区和索引缓冲区。   #041                     #042                     index_offset = face->getGeometry(verticesp,normalsp,texCoordsp, indicesp); #043                     #044                     S32 vtx = 0; #045                     S32 curr_bit = side >> 1; // 0/1 = Z axis, 2/3 = Y, 4/5 = X #046                     S32 side_dir = side & 1; // even - 0, odd - 1 #047                     S32 i_bit = (curr_bit + 2) % 3; #048                     S32 j_bit = (i_bit + 2) % 3; #049  #050                     LLVector3 axis; #051                     axis.mV[curr_bit] = 1; #052                     face->mCenterAgent = (F32)((side_dir << 1) - 1) * axis * HORIZON_DIST; #053  #054                     vtx = side_dir << curr_bit; #055                     *(verticesp++) = v_agent[vtx]; #056                     *(verticesp++) = v_agent[vtx | 1 << j_bit]; #057                     *(verticesp++) = v_agent[vtx | 1 << i_bit]; #058                     *(verticesp++) = v_agent[vtx | 1 << i_bit | 1 << j_bit]; 上面计算4个顶点坐标。   #059  #060                     *(texCoordsp++) = TEX00; #061                     *(texCoordsp++) = TEX01; #062                     *(texCoordsp++) = TEX10; #063                     *(texCoordsp++) = TEX11; #064  设置4个顶点的纹理坐标。   #065                     // Triangles for each side #066                     *indicesp++ = index_offset + 0; #067                     *indicesp++ = index_offset + 1; #068                     *indicesp++ = index_offset + 3; #069  #070                     *indicesp++ = index_offset + 0; #071                     *indicesp++ = index_offset + 3; #072                     *indicesp++ = index_offset + 2; 上面设置每个表面由两个三角形构成索引。   #073              } #074       } #075  #076       const LLVector3 &look_at = gCamera->getAtAxis(); #077       LLVector3 right = look_at % LLVector3::z_axis; #078       LLVector3 up = right % look_at; #079       right.normVec(); #080       up.normVec(); #081  #082       const static F32 elevation_factor = 0.0f/sResolution; #083       const F32 cos_max_angle = cosHorizon(elevation_factor); #084       mSun.setDraw(updateHeavenlyBodyGeometry(drawable, FACE_SUN, TRUE, mSun, cos_max_angle, up, right)); #085       mMoon.setDraw(updateHeavenlyBodyGeometry(drawable, FACE_MOON, FALSE, mMoon, cos_max_angle, up, right)); #086  #087       const F32 water_height = gAgent.getRegion()->getWaterHeight() + 0.01f; #088              // gWorldPointer->getWaterHeight() + 0.01f; #089       const F32 camera_height = mCameraPosAgent.mV[2]; #090       const F32 height_above_water = camera_height - water_height; #091  #092       BOOL sun_flag = FALSE; #093  #094       if (mSun.isVisible()) #095       { #096              if (mMoon.isVisible()) #097              { #098                     sun_flag = look_at * mSun.getDirection() > 0; #099              } #100              else #101              { #102                     sun_flag = TRUE; #103              } #104       } #105       #106       if (height_above_water > 0) #107       { #108 #if 1 //1.9.1 #109              BOOL render_ref = gPipeline.getPool(LLDrawPool::POOL_WATER)->getVertexShaderLevel() == 0; #110 #else #111              BOOL render_ref = !(gPipeline.getVertexShaderLevel(LLPipeline::SHADER_ENVIRONMENT) >= LLDrawPoolWater::SHADER_LEVEL_RIPPLE); #112 #endif #113              if (sun_flag) #114              { #115                     setDrawRefl(0); #116                     if (render_ref) #117                     { #118                            updateReflectionGeometry(drawable, height_above_water, mSun); #119                     } #120              } #121              else #122              { #123                     setDrawRefl(1); #124                     if (render_ref) #125                     { #126                            updateReflectionGeometry(drawable, height_above_water, mMoon); #127                     } #128              } #129       } #130       else #131       { #132              setDrawRefl(-1); #133       } #134  #135  #136       LLPipeline::sCompiles++; #137       return TRUE; #138 } #139  上面计算太阳和月亮的出现位置以及光照效果。   通过上面的分析，了解天空体的网格创建，纹理坐标的设置，以及太阳、月亮的效果计算。  

转载于:https://www.cnblogs.com/ajuanabc/archive/2008/01/10/2464173.html