如何在OpenGL ES 2或3上剪裁平面?

时间:2018-03-04 06:05:17

标签: opengl-es opengl-es-2.0 clipping opengl-es-3.0 opengl-es-1.1

在iOS或Android上,我可以选择切换到OpenGL ES 2或3。 我不知道为什么会这样,因为我没有开发3D游戏,但如果我要切换,我将如何实现剪裁平面?据称这些已在ES 2中删除。

我特别想避免在裁剪平面的矢量发生变化时重新编译任何着色器代码。

1 个答案:

答案 0 :(得分:2)

在OpenGL ES中,您必须使用EXT_clip_cull_distance扩展名。

在顶点着色器中,您必须设置gl_ClipDistance[i]输出。 gl_ClipDistance[i]指定每个用户剪辑平面 i 的剪辑距离。其中0.0表示顶点在剪裁平面上并且> 0.0表示它在剪裁平面内。

必须启用裁剪功能。例如

glEnable( CLIP_DISTANCE0_EXT );

使用gl_ClipDistance的顶点着色器可能如下所示,其中u_clipPlane Ax + By + Cz + D 形式的平面方程式(想象一下平面的法向量和到原点的距离):

#extension GL_EXT_clip_cull_distance : enable

precision highp float;

attribute vec3 inPos;   

uniform mat4 u_projectionMat44;
uniform mat4 u_viewMat44;
uniform mat4 u_modelMat44;
uniform vec4 u_clipPlane;

void main()
{   
    vec4 modelPos      = u_modelMat44 * vec4( inPos, 1.0 );
    gl_Position        = u_projectionMat44 * u_viewMat44 * modelPos;
    gl_ClipDistance[0] = dot(modelPos, u_clipPlane);
}

另请参阅Vertex Post-Processing - User-defined clippingThe little Grasshopper - Clip Planes教程。

如果扩展名不可用,则可以通过丢弃片段在片段着色器中模拟剪辑。请参阅Fragment Shader - Special operations

另见OpenGL ES Shading Language 1.00 Specification; 6.4 Jumps; page 58

  

discard 关键字仅允许在片段着色器中使用。它可以在片段着色器中使用,以放弃对当前片段的操作。此关键字会导致丢弃该片段,并且不会对任何缓冲区进行更新。它通常在条件语句中使用,例如:

if (intensity < 0.0)
    discard;

以下WebGL示例演示了这一点。请注意,WebGL 1.0上下文与OpenGL ES 2.0 API紧密相符。

&#13;
&#13;
var readInput = true;
  function changeEventHandler(event){
    readInput = true;
  }
  
  (function loadscene() {
  
  var gl, progDraw, vp_size;
  var bufCube = {};
  var clip = 0.0;
  
  function render(delteMS){

      if ( readInput ) {
          //readInput = false;
          clip = (document.getElementById( "clip" ).value - 50) / 50;
      }

      Camera.create();
      Camera.vp = vp_size;
          
      gl.viewport( 0, 0, vp_size[0], vp_size[1] );
      gl.enable( gl.DEPTH_TEST );
      gl.clearColor( 0.0, 0.0, 0.0, 1.0 );
      gl.clear( gl.COLOR_BUFFER_BIT | gl.DEPTH_BUFFER_BIT );

      // set up draw shader
      ShaderProgram.Use( progDraw );
      ShaderProgram.SetUniformM44( progDraw, "u_projectionMat44", Camera.Perspective() );
      ShaderProgram.SetUniformM44( progDraw, "u_viewMat44", Camera.LookAt() );
      var modelMat = IdentityMat44()
      modelMat = RotateAxis( modelMat, CalcAng( delteMS, 13.0 ), 0 );
      modelMat = RotateAxis( modelMat, CalcAng( delteMS, 17.0 ), 1 );
      ShaderProgram.SetUniformM44( progDraw, "u_modelMat44", modelMat );
      ShaderProgram.SetUniformF4( progDraw, "u_clipPlane", [1.0,-1.0,0.0,clip*1.7321] );
      
      // draw scene
      VertexBuffer.Draw( bufCube );

      requestAnimationFrame(render);
  }
  
  function resize() {
      //vp_size = [gl.drawingBufferWidth, gl.drawingBufferHeight];
      vp_size = [window.innerWidth, window.innerHeight]
      canvas.width = vp_size[0];
      canvas.height = vp_size[1];
  }
  
  function initScene() {
  
      canvas = document.getElementById( "canvas");
      gl = canvas.getContext( "experimental-webgl" );
      //gl = canvas.getContext( "webgl2" );
      if ( !gl )
        return null;
      
      /*
      var ext_frag_depth = gl.getExtension( "EXT_clip_cull_distance" );  // gl_ClipDistance gl_CullDistance
      if (!ext_frag_depth)
          alert('no gl_ClipDistance and gl_CullDistance support');
      */

      progDraw = ShaderProgram.Create( 
        [ { source : "draw-shader-vs", stage : gl.VERTEX_SHADER },
          { source : "draw-shader-fs", stage : gl.FRAGMENT_SHADER }
        ] );
      if ( !progDraw.progObj )
          return null;
      progDraw.inPos = ShaderProgram.AttributeIndex( progDraw, "inPos" );
      progDraw.inNV  = ShaderProgram.AttributeIndex( progDraw, "inNV" );
      progDraw.inCol = ShaderProgram.AttributeIndex( progDraw, "inCol" );
      
      // create cube
      var cubePos = [
        -1.0, -1.0,  1.0,  1.0, -1.0,  1.0,  1.0,  1.0,  1.0, -1.0,  1.0,  1.0,
        -1.0, -1.0, -1.0,  1.0, -1.0, -1.0,  1.0,  1.0, -1.0, -1.0,  1.0, -1.0 ];
      var cubeCol = [ 1.0, 0.0, 0.0, 1.0, 0.5, 0.0, 1.0, 0.0, 1.0, 1.0, 1.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0 ];
      var cubeHlpInx = [ 0, 1, 2, 3, 1, 5, 6, 2, 5, 4, 7, 6, 4, 0, 3, 7, 3, 2, 6, 7, 1, 0, 4, 5 ];  
      var cubePosData = [];
      for ( var i = 0; i < cubeHlpInx.length; ++ i ) {
        cubePosData.push( cubePos[cubeHlpInx[i]*3], cubePos[cubeHlpInx[i]*3+1], cubePos[cubeHlpInx[i]*3+2] );
      }
      var cubeNVData = [];
      for ( var i1 = 0; i1 < cubeHlpInx.length; i1 += 4 ) {
      var nv = [0, 0, 0];
      for ( i2 = 0; i2 < 4; ++ i2 ) {
          var i = i1 + i2;
          nv[0] += cubePosData[i*3]; nv[1] += cubePosData[i*3+1]; nv[2] += cubePosData[i*3+2];
      }
      for ( i2 = 0; i2 < 4; ++ i2 )
        cubeNVData.push( nv[0], nv[1], nv[2] );
      }
      var cubeColData = [];
      for ( var is = 0; is < 6; ++ is ) {
        for ( var ip = 0; ip < 4; ++ ip ) {
         cubeColData.push( cubeCol[is*3], cubeCol[is*3+1], cubeCol[is*3+2] ); 
        }
      }
      var cubeInxData = [];
      for ( var i = 0; i < cubeHlpInx.length; i += 4 ) {
        cubeInxData.push( i, i+1, i+2, i, i+2, i+3 );   
      }
      bufCube = VertexBuffer.Create(
      [ { data : cubePosData, attrSize : 3, attrLoc : progDraw.inPos },
        { data : cubeNVData,  attrSize : 3, attrLoc : progDraw.inNV },
        { data : cubeColData, attrSize : 3, attrLoc : progDraw.inCol } ],
        cubeInxData );
        
      window.onresize = resize;
      resize();
      requestAnimationFrame(render);
  }
  
  function Fract( val ) { 
      return val - Math.trunc( val );
  }
  function CalcAng( deltaTime, intervall ) {
      return Fract( deltaTime / (1000*intervall) ) * 2.0 * Math.PI;
  }
  function CalcMove( deltaTime, intervall, range ) {
      var pos = self.Fract( deltaTime / (1000*intervall) ) * 2.0
      var pos = pos < 1.0 ? pos : (2.0-pos)
      return range[0] + (range[1] - range[0]) * pos;
  }    
  function EllipticalPosition( a, b, angRag ) {
      var a_b = a * a - b * b
      var ea = (a_b <= 0) ? 0 : Math.sqrt( a_b );
      var eb = (a_b >= 0) ? 0 : Math.sqrt( -a_b );
      return [ a * Math.sin( angRag ) - ea, b * Math.cos( angRag ) - eb, 0 ];
  }
  
  glArrayType = typeof Float32Array !="undefined" ? Float32Array : ( typeof WebGLFloatArray != "undefined" ? WebGLFloatArray : Array );
  
  function IdentityMat44() {
    var m = new glArrayType(16);
    m[0]  = 1; m[1]  = 0; m[2]  = 0; m[3]  = 0;
    m[4]  = 0; m[5]  = 1; m[6]  = 0; m[7]  = 0;
    m[8]  = 0; m[9]  = 0; m[10] = 1; m[11] = 0;
    m[12] = 0; m[13] = 0; m[14] = 0; m[15] = 1;
    return m;
  };
  
  function RotateAxis(matA, angRad, axis) {
      var aMap = [ [1, 2], [2, 0], [0, 1] ];
      var a0 = aMap[axis][0], a1 = aMap[axis][1]; 
      var sinAng = Math.sin(angRad), cosAng = Math.cos(angRad);
      var matB = new glArrayType(16);
      for ( var i = 0; i < 16; ++ i ) matB[i] = matA[i];
      for ( var i = 0; i < 3; ++ i ) {
          matB[a0*4+i] = matA[a0*4+i] * cosAng + matA[a1*4+i] * sinAng;
          matB[a1*4+i] = matA[a0*4+i] * -sinAng + matA[a1*4+i] * cosAng;
      }
      return matB;
  }
  
  function Cross( a, b ) { return [ a[1] * b[2] - a[2] * b[1], a[2] * b[0] - a[0] * b[2], a[0] * b[1] - a[1] * b[0], 0.0 ]; }
  function Dot( a, b ) { return a[0]*b[0] + a[1]*b[1] + a[2]*b[2]; }
  function Normalize( v ) {
      var len = Math.sqrt( v[0] * v[0] + v[1] * v[1] + v[2] * v[2] );
      return [ v[0] / len, v[1] / len, v[2] / len ];
  }
  
  var Camera = {};
  Camera.create = function() {
      this.pos    = [0, 3, 0.0];
      this.target = [0, 0, 0];
      this.up     = [0, 0, 1];
      this.fov_y  = 90;
      this.vp     = [800, 600];
      this.near   = 0.5;
      this.far    = 100.0;
  }
  Camera.Perspective = function() {
      var fn = this.far + this.near;
      var f_n = this.far - this.near;
      var r = this.vp[0] / this.vp[1];
      var t = 1 / Math.tan( Math.PI * this.fov_y / 360 );
      var m = IdentityMat44();
      m[0]  = t/r; m[1]  = 0; m[2]  =  0;                              m[3]  = 0;
      m[4]  = 0;   m[5]  = t; m[6]  =  0;                              m[7]  = 0;
      m[8]  = 0;   m[9]  = 0; m[10] = -fn / f_n;                       m[11] = -1;
      m[12] = 0;   m[13] = 0; m[14] = -2 * this.far * this.near / f_n; m[15] =  0;
      return m;
  }
  Camera.LookAt = function() {
      var mz = Normalize( [ this.pos[0]-this.target[0], this.pos[1]-this.target[1], this.pos[2]-this.target[2] ] );
      var mx = Normalize( Cross( this.up, mz ) );
      var my = Normalize( Cross( mz, mx ) );
      var tx = Dot( mx, this.pos );
      var ty = Dot( my, this.pos );
      var tz = Dot( [-mz[0], -mz[1], -mz[2]], this.pos ); 
      var m = IdentityMat44();
      m[0]  = mx[0]; m[1]  = my[0]; m[2]  = mz[0]; m[3]  = 0;
      m[4]  = mx[1]; m[5]  = my[1]; m[6]  = mz[1]; m[7]  = 0;
      m[8]  = mx[2]; m[9]  = my[2]; m[10] = mz[2]; m[11] = 0;
      m[12] = tx;    m[13] = ty;    m[14] = tz;    m[15] = 1; 
      return m;
  } 
  
  var ShaderProgram = {};
  ShaderProgram.Create = function( shaderList ) {
      var shaderObjs = [];
      for ( var i_sh = 0; i_sh < shaderList.length; ++ i_sh ) {
          var shderObj = this.CompileShader( shaderList[i_sh].source, shaderList[i_sh].stage );
          if ( shderObj == 0 )
              return 0;
          shaderObjs.push( shderObj );
      }
      var prog = {}
      prog.progObj = this.LinkProgram( shaderObjs )
      if ( prog.progObj ) {
          prog.attribIndex = {};
          var noOfAttributes = gl.getProgramParameter( prog.progObj, gl.ACTIVE_ATTRIBUTES );
          for ( var i_n = 0; i_n < noOfAttributes; ++ i_n ) {
              var name = gl.getActiveAttrib( prog.progObj, i_n ).name;
              prog.attribIndex[name] = gl.getAttribLocation( prog.progObj, name );
          }
          prog.unifomLocation = {};
          var noOfUniforms = gl.getProgramParameter( prog.progObj, gl.ACTIVE_UNIFORMS );
          for ( var i_n = 0; i_n < noOfUniforms; ++ i_n ) {
              var name = gl.getActiveUniform( prog.progObj, i_n ).name;
              prog.unifomLocation[name] = gl.getUniformLocation( prog.progObj, name );
          }
      }
      return prog;
  }
  ShaderProgram.AttributeIndex = function( prog, name ) { return prog.attribIndex[name]; } 
  ShaderProgram.UniformLocation = function( prog, name ) { return prog.unifomLocation[name]; } 
  ShaderProgram.Use = function( prog ) { gl.useProgram( prog.progObj ); } 
  ShaderProgram.SetUniformI1  = function( prog, name, val ) { if(prog.unifomLocation[name]) gl.uniform1i( prog.unifomLocation[name], val ); }
  ShaderProgram.SetUniformF1  = function( prog, name, val ) { if(prog.unifomLocation[name]) gl.uniform1f( prog.unifomLocation[name], val ); }
  ShaderProgram.SetUniformF2  = function( prog, name, arr ) { if(prog.unifomLocation[name]) gl.uniform2fv( prog.unifomLocation[name], arr ); }
  ShaderProgram.SetUniformF3  = function( prog, name, arr ) { if(prog.unifomLocation[name]) gl.uniform3fv( prog.unifomLocation[name], arr ); }
  ShaderProgram.SetUniformF4  = function( prog, name, arr ) { if(prog.unifomLocation[name]) gl.uniform4fv( prog.unifomLocation[name], arr ); }
  ShaderProgram.SetUniformM33 = function( prog, name, mat ) { if(prog.unifomLocation[name]) gl.uniformMatrix3fv( prog.unifomLocation[name], false, mat ); }
  ShaderProgram.SetUniformM44 = function( prog, name, mat ) { if(prog.unifomLocation[name]) gl.uniformMatrix4fv( prog.unifomLocation[name], false, mat ); }
  ShaderProgram.CompileShader = function( source, shaderStage ) {
      var shaderScript = document.getElementById(source);
      if (shaderScript)
        source = shaderScript.text;
      var shaderObj = gl.createShader( shaderStage );
      gl.shaderSource( shaderObj, source );
      gl.compileShader( shaderObj );
      var status = gl.getShaderParameter( shaderObj, gl.COMPILE_STATUS );
      if ( !status ) alert(gl.getShaderInfoLog(shaderObj));
      return status ? shaderObj : null;
  } 
  ShaderProgram.LinkProgram = function( shaderObjs ) {
      var prog = gl.createProgram();
      for ( var i_sh = 0; i_sh < shaderObjs.length; ++ i_sh )
          gl.attachShader( prog, shaderObjs[i_sh] );
      gl.linkProgram( prog );
      status = gl.getProgramParameter( prog, gl.LINK_STATUS );
      if ( !status ) alert("Could not initialise shaders");
      gl.useProgram( null );
      return status ? prog : null;
  }
  
  var VertexBuffer = {};
  VertexBuffer.Create = function( attributes, indices ) {
      var buffer = {};
      buffer.buf = [];
      buffer.attr = []
      for ( var i = 0; i < attributes.length; ++ i ) {
          buffer.buf.push( gl.createBuffer() );
          buffer.attr.push( { size : attributes[i].attrSize, loc : attributes[i].attrLoc } );
          gl.bindBuffer( gl.ARRAY_BUFFER, buffer.buf[i] );
          gl.bufferData( gl.ARRAY_BUFFER, new Float32Array( attributes[i].data ), gl.STATIC_DRAW );
      }
      buffer.inx = gl.createBuffer();
      gl.bindBuffer( gl.ELEMENT_ARRAY_BUFFER, buffer.inx );
      gl.bufferData( gl.ELEMENT_ARRAY_BUFFER, new Uint16Array( indices ), gl.STATIC_DRAW );
      buffer.inxLen = indices.length;
      gl.bindBuffer( gl.ARRAY_BUFFER, null );
      gl.bindBuffer( gl.ELEMENT_ARRAY_BUFFER, null );
      return buffer;
  }
  VertexBuffer.Draw = function( bufObj ) {
    for ( var i = 0; i < bufObj.buf.length; ++ i ) {
          gl.bindBuffer( gl.ARRAY_BUFFER, bufObj.buf[i] );
          gl.vertexAttribPointer( bufObj.attr[i].loc, bufObj.attr[i].size, gl.FLOAT, false, 0, 0 );
          gl.enableVertexAttribArray( bufObj.attr[i].loc );
      }
      gl.bindBuffer( gl.ELEMENT_ARRAY_BUFFER, bufObj.inx );
      gl.drawElements( gl.TRIANGLES, bufObj.inxLen, gl.UNSIGNED_SHORT, 0 );
      for ( var i = 0; i < bufObj.buf.length; ++ i )
         gl.disableVertexAttribArray( bufObj.attr[i].loc );
      gl.bindBuffer( gl.ARRAY_BUFFER, null );
      gl.bindBuffer( gl.ELEMENT_ARRAY_BUFFER, null );
  }
  
  initScene();
  
  })();
&#13;
html,body {
    height: 100%;
    width: 100%;
    margin: 0;
    overflow: hidden;
}

#gui {
    position : absolute;
    top : 0;
    left : 0;
}
&#13;
<script id="draw-shader-vs" type="x-shader/x-vertex">
    precision highp float;
    
    attribute vec3 inPos;
    attribute vec3 inNV;
    attribute vec3 inCol;
  
    varying vec3  vertPos;
    varying vec3  vertNV;
    varying vec3  vertCol;
    varying float clip_distance;
    
    uniform mat4 u_projectionMat44;
    uniform mat4 u_viewMat44;
    uniform mat4 u_modelMat44;
    uniform vec4 u_clipPlane;
    
    void main()
    {   
        mat4 mv       = u_viewMat44 * u_modelMat44; 
        vertCol       = inCol;
        vertNV        = normalize(mat3(mv) * inNV);
        vec4 viewPos  = mv * vec4( inPos, 1.0 );
        vertPos       = viewPos.xyz;
        gl_Position   = u_projectionMat44 * viewPos;

        vec4 modelPos  = u_modelMat44 * vec4( inPos, 1.0 );
        vec4 clipPlane = vec4(normalize(u_clipPlane.xyz), u_clipPlane.w); 
        clip_distance  = dot(modelPos, clipPlane);
    }
</script>
  
<script id="draw-shader-fs" type="x-shader/x-fragment">
    precision mediump float;

    varying vec3  vertPos;
    varying vec3  vertNV;
    varying vec3  vertCol;
    varying float clip_distance;
    
    void main()
    {
        if ( clip_distance < 0.0 )
            discard;
        vec3 color   = vertCol;
        gl_FragColor = vec4( color.rgb, 1.0 );
    } 
</script>

<div>
    <form id="gui" name="inputs">
        <table>
            <tr> <td> <font color= #CCF>clipping</font> </td> 
                 <td> <input type="range" id="clip" min="0" max="100" value="50" onchange="changeEventHandler(event);"/></td> </tr>
        </table>
    </form>
</div>


<canvas id="canvas" style="border: none;" width="100%" height="100%"></canvas>
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