OpenGL ES GLSL马赛克滤镜实现(3)

precision mediump float;

varying vec2 TextureCoordsVarying;
uniform sampler2D Texture;
const vec2 TexSize = vec2(400.0, 400.0);
const vec2 mosaicSize = vec2(16.0, 16.0);

void main()
{
    vec2 intXY = vec2(TextureCoordsVarying.x*TexSize.x, TextureCoordsVarying.y*TexSize.y);
    vec2 XYMosaic = vec2(floor(intXY.x/mosaicSize.x)*mosaicSize.x, floor(intXY.y/mosaicSize.y)*mosaicSize.y);
    vec2 UVMosaic = vec2(XYMosaic.x/TexSize.x, XYMosaic.y/TexSize.y);
    vec4 color = texture2D(Texture, UVMosaic);
    gl_FragColor = color;
}

precision highp float;
uniform sampler2D Texture;
varying vec2 TextureCoordsVarying;

const float mosaicSize = 0.03;

void main (void)
{
    float length = mosaicSize;
    float TR = 0.866025;
    
    float x = TextureCoordsVarying.x;
    float y = TextureCoordsVarying.y;
    
    int wx = int(x / 1.5 / length);
    int wy = int(y / TR / length);
    vec2 v1, v2, vn;
    
    if (wx/2 * 2 == wx) {
        if (wy/2 * 2 == wy) {
            //(0,0),(1,1)
            v1 = vec2(length * 1.5 * float(wx), length * TR * float(wy));
            v2 = vec2(length * 1.5 * float(wx + 1), length * TR * float(wy + 1));
        } else {
            //(0,1),(1,0)
            v1 = vec2(length * 1.5 * float(wx), length * TR * float(wy + 1));
            v2 = vec2(length * 1.5 * float(wx + 1), length * TR * float(wy));
        }
    }else {
        if (wy/2 * 2 == wy) {
            //(0,1),(1,0)
            v1 = vec2(length * 1.5 * float(wx), length * TR * float(wy + 1));
            v2 = vec2(length * 1.5 * float(wx + 1), length * TR * float(wy));
        } else {
            //(0,0),(1,1)
            v1 = vec2(length * 1.5 * float(wx), length * TR * float(wy));
            v2 = vec2(length * 1.5 * float(wx + 1), length * TR * float(wy + 1));
        }
    }
    
    float s1 = sqrt(pow(v1.x - x, 2.0) + pow(v1.y - y, 2.0));
    float s2 = sqrt(pow(v2.x - x, 2.0) + pow(v2.y - y, 2.0));
    if (s1 < s2) {
        vn = v1;
    } else {
        vn = v2;
    }
    vec4 color = texture2D(Texture, vn);
    
    gl_FragColor = color;
    
}

precision highp float;
uniform sampler2D Texture;
varying vec2 TextureCoordsVarying;

float mosaicSize = 0.03;

void main (void){
    const float TR = 0.866025;
    const float PI6 = 0.523599;
    
    float x = TextureCoordsVarying.x;
    float y = TextureCoordsVarying.y;
    
 
    int wx = int(x/(1.5 * mosaicSize));
    int wy = int(y/(TR * mosaicSize));
    
    vec2 v1, v2, vn;
    
    if (wx / 2 * 2 == wx) {
        if (wy/2 * 2 == wy) {
            v1 = vec2(mosaicSize * 1.5 * float(wx), mosaicSize * TR * float(wy));
            v2 = vec2(mosaicSize * 1.5 * float(wx + 1), mosaicSize * TR * float(wy + 1));
        } else {
            v1 = vec2(mosaicSize * 1.5 * float(wx), mosaicSize * TR * float(wy + 1));
            v2 = vec2(mosaicSize * 1.5 * float(wx + 1), mosaicSize * TR * float(wy));
        }
    } else {
        if (wy/2 * 2 == wy) {
            v1 = vec2(mosaicSize * 1.5 * float(wx), mosaicSize * TR * float(wy + 1));
            v2 = vec2(mosaicSize * 1.5 * float(wx+1), mosaicSize * TR * float(wy));
        } else {
            v1 = vec2(mosaicSize * 1.5 * float(wx), mosaicSize * TR * float(wy));
            v2 = vec2(mosaicSize * 1.5 * float(wx + 1), mosaicSize * TR * float(wy+1));
        }
    }

    float s1 = sqrt(pow(v1.x - x, 2.0) + pow(v1.y - y, 2.0));
    float s2 = sqrt(pow(v2.x - x, 2.0) + pow(v2.y - y, 2.0));

    if (s1 < s2) {
        vn = v1;
    } else {
        vn = v2;
    }
    
    vec4 mid = texture2D(Texture, vn);
    float a = atan((x - vn.x)/(y - vn.y));

    vec2 area1 = vec2(vn.x, vn.y - mosaicSize * TR / 2.0);
    vec2 area2 = vec2(vn.x + mosaicSize / 2.0, vn.y - mosaicSize * TR / 2.0);
    vec2 area3 = vec2(vn.x + mosaicSize / 2.0, vn.y + mosaicSize * TR / 2.0);
    vec2 area4 = vec2(vn.x, vn.y + mosaicSize * TR / 2.0);
    vec2 area5 = vec2(vn.x - mosaicSize / 2.0, vn.y + mosaicSize * TR / 2.0);
    vec2 area6 = vec2(vn.x - mosaicSize / 2.0, vn.y - mosaicSize * TR / 2.0);
    

    if (a >= PI6 && a < PI6 * 3.0) {
        vn = area1;
    } else if (a >= PI6 * 3.0 && a < PI6 * 5.0) {
        vn = area2;
    } else if ((a >= PI6 * 5.0 && a <= PI6 * 6.0) || (a < -PI6 * 5.0 && a > -PI6 * 6.0)) {
        vn = area3;
    } else if (a < -PI6 * 3.0 && a >= -PI6 * 5.0) {
        vn = area4;
    } else if(a <= -PI6 && a> -PI6 * 3.0) {
        vn = area5;
    } else if (a > -PI6 && a < PI6) {
        vn = area6;
    }
    
    vec4 color = texture2D(Texture, vn);
    gl_FragColor = color;
}

precision mediump float;
varying vec2 TextureCoordsVarying;
uniform sampler2D Texture;
const vec2 TexSize = vec2(400.0, 400.0);
const vec2 mosaicSize = vec2(16.0, 16.0);

void main()
{
    vec2 intXY = vec2(TextureCoordsVarying.x*TexSize.x, TextureCoordsVarying.y*TexSize.y);
    
    vec2 XYMosaic = vec2(floor(intXY.x/mosaicSize.x)*mosaicSize.x,floor(intXY.y/mosaicSize.y)*mosaicSize.y) + 0.5*mosaicSize;
    
    vec2 delXY = XYMosaic - intXY;
    float delL = length(delXY);
    vec2 UVMosaic = vec2(XYMosaic.x/TexSize.x,XYMosaic.y/TexSize.y);
   
    vec4 _finalColor;
    if(delL< 0.5*mosaicSize.x)
        _finalColor = texture2D(Texture,UVMosaic);
    else
        _finalColor = texture2D(Texture,TextureCoordsVarying);
    
    gl_FragColor = _finalColor;
}