爱华网1、uint CreateShader(enum type) : 创建空的shader object;
type: VERTEX_SHADER,
2、void ShaderSource(uint shader, sizeicount, const **string,const int *length):加载shader源码进shader object;可能多个字符串
3、void CompileShader(uint shader):编译shader object;
shader object有状态 表示编译结果
4、void DeleteShader( uint shader ):删除 shader object;
5、void ShaderBinary( sizei count, const uint *shaders,
enum binaryformat, const void *binary, sizei length ):加载预编译过的shader 二进制串;
6、uint CreateProgram( void ):创建空的program object, programeobject组织多个shader object,成为executable;
7、void AttachShader( uint program, uint shader ):关联shaderobject和program object;
8、void DetachShader( uint program, uint shader ):解除关联;
9、void LinkProgram( uint program ):program object准备执行,其关联的shaderobject必须编译正确且符合限制条件;
10、void UseProgram( uint program ):执行program object;
11、void ProgramParameteri( uint program, enum pname,
int value ): 设置program object的参数;
12、void DeleteProgram( uint program ):删除program object;
13、shader 变量的qualifier:
默认:无修饰符,普通变量读写,与外界无连接;
const:常量const vec3 zAxis = vec3(0.0, 0.0, 1.0);
attribute: 申明传给vertex shader的变量;只读;不能为array或struct;attribute vec4position;
uniform:表明整个图元处理中值相同;只读; uniform vec4 lightPos;
varying:被差值;读写; varying vec3 normal;
in, out,inout;
14、shader变量的精度:
highp,mediump, lowp
15、shader内置变量:
gl_Position:用于vertexshader, 写顶点位置;被图元收集、裁剪等固定操作功能所使用;
其内部声明是:highp vec4 gl_Position;
gl_PointSize: 用于vertex shader, 写光栅化后的点大小,像素个数;
其内部声明是:mediumpfloat gl_Position;
gl_FragColor: 用于Fragment shader,写fragment color;被后续的固定管线使用;
mediump vec4 gl_FragColor;
gl_FragData: 用于Fragment shader,是个数组,写gl_FragData[n] 为datan;被后续的固定管线使用;
mediump vec4 gl_FragData[gl_MaxDrawBuffers];
gl_FragColor和gl_FragData是互斥的,不会同时写入;
gl_FragCoord: 用于Fragment shader,只读, Fragment相对于窗口的坐标位置 x,y,z,1/w;这个是固定管线图元差值后产生的;z 是深度值; mediump vec4 gl_FragCoord;
gl_FrontFacing: 用于判断 fragment是否属于 front-facing primitive;只读;
boolgl_FrontFacing;
gl_PointCoord: 仅用于 point primitive; mediump vec2gl_PointCoord;
16、shader内置常量:
constmediump int gl_MaxVertexAttribs = 8;
constmediump int gl_MaxVertexUniformVectors = 128;
constmediump int gl_MaxVaryingVectors = 8;
constmediump int gl_MaxVertexTextureImageUnits = 0;
constmediump int gl_MaxCombinedTextureImageUnits = 8;
constmediump int gl_MaxTextureImageUnits = 8;
constmediump int gl_MaxFragmentUnitformVectors = 16;
constmediump int gl_MaxDrawBuffers = 1;
17、shader内置函数:
一般默认都用弧度;
radians(degree) : 角度变弧度;
degrees(radian) : 弧度变角度;
sin(angle), cos(angle), tan(angle)
asin(x):arc sine, 返回弧度 [-PI/2, PI/2];
acos(x):arc cosine,返回弧度 [0, PI];
atan(y,x): arc tangent, 返回弧度 [-PI, PI];
atan(y/x): arc tangent, 返回弧度 [-PI/2, PI/2];
pow(x,y): x的y次方;
exp(x):指数, log(x):
exp2(x):2的x次方, log2(x):
sqrt(x):x的根号; inversesqrt(x): x根号的倒数
abs(x):绝对值
sign(x):符号, 1, 0 或 -1
floor(x):底部取整
ceil(x):顶部取整
fract(x):取小数部分
mod(x,y): 取模, x - y*floor(x/y)
min(x,y): 取最小值
max(x,y): 取最大值
clamp(x,min, max): min(max(x, min), max);
mix(x, y,a): x, y的线性混叠, x(1-a) + y*a;
step(edge, x): 如 x<edge 则0.0, 否则 1.0
smoothstep(edge0, edge1, x): threshod smoothtransition时使用。edge0<x<edge1时平滑差值,x<=edge0时为0.0,x>=edge1时为1.0
length(x):向量长度
distance(p0, p1): 两点距离, length(p0-p1);
dot(x,y): 点积,各分量分别相乘 后 相加
cross(x,y): 差积,x[1]*y[2]-y[1]*x[2], x[2]*y[0] - y[2]*x[0], x[0]*y[1] -y[0]*x[1]
normalize(x): 归一化, length(x)=1;
faceforward(N, I, Nref): 如 dot(Nref, I)< 0则N, 否则-N
reflect(I, N): I的反射方向, I -2*dot(N, I)*N, N必须先归一化
refract(I, N, eta): 折射,k=1.0-eta*eta*(1.0 - dot(N, I) * dot(N, I));如k<0.0 则0.0,否则 eta*I - (eta*dot(N, I)+sqrt(k))*N
matrixCompMult(matX, matY): 矩阵相乘, 每个分量 自行相乘, 即 r[i][j] =x[i][j]*y[i][j];
矩阵线性相乘,直接用 *
lessThan(vecX, vecY): 向量 每个分量比较 x < y
lessThanEqual(vecX, vecY): 向量 每个分量比较 x<=y
greaterThan(vecX, vecY): 向量 每个分量比较 x>y
greaterThanEqual(vecX, vecY):向量 每个分量比较x>=y
equal(vecX, vecY): 向量 每个分量比较 x==y
notEqual(vecX, vexY): 向量 每个分量比较 x!=y
any(bvecX): 只要有一个分量是true, 则true
all(bvecX): 所有分量是true, 则true
not(bvecX): 所有分量取反
texture2D(sampler2D, coord): texture lookup
texture2D(sampler2D, coord, bias): LOD bias, mip-mapped texture
texture2DProj(sampler2D, coord):
texture2DProj(sampler2D,coord, bias):
texture2DLod(sampler2D, coord, lod):
texture2DProjLod(sampler2D, coord, lod):
textureCube(samplerCube, coord):
textureCube(samplerCube, coord, bias):
textureCubeLod(samplerCube, coord,lod):
