#version 430 | |
#extension GL_3DL_array_objects : enable | |
out Vertex { | |
vec4 Position; // API transform/feedback will use Vertex.Position | |
vec2 Texture; | |
} Coords; // shader will use Coords.Position | |
out Vertex2 { | |
vec4 Color; // API will use Color | |
}; | |
uniform Transform { // API uses Transform[2] to refer to instance 2 | |
mat4 ModelViewMatrix; | |
mat4 ModelViewProjectionMatrix; | |
vec4 a[]; // array will get implicitly sized | |
float Deformation; | |
} transforms[4]; | |
layout(location = 3) in vec4 normal; | |
layout(location = 6) in vec4 colors[3]; | |
layout(location = 9) in mat4 transforms[2]; | |
layout(location = 3) struct S { | |
vec3 a1; | |
mat2 b; | |
vec4 c[2]; | |
} s; | |
layout(triangles, invocations = 6) in; | |
layout(lines) in; // legal for Color2, input size is 2, matching Color2 | |
layout(triangle_strip, max_vertices = 60) out; // order does not matter | |
layout(max_vertices = 60) out; // redeclaration okay | |
layout(triangle_strip) out; // redeclaration okay | |
//layout(points) out; // error, contradicts triangle_strip | |
//layout(max_vertices = 30) out; // error, contradicts 60 | |
layout(stream = 1) out; | |
layout(stream=1) out; // default is now stream 1 | |
out vec4 var1; // var1 gets default stream (1) | |
layout(stream=2) out Block1 { // "Block1" belongs to stream 2 | |
layout(stream=2) vec4 var2; // redundant block member stream decl | |
layout(stream=3) vec2 var3; // ILLEGAL (must match block stream) | |
vec3 var4; // belongs to stream 2 | |
}; | |
layout(stream=0) out; // default is now stream 0 | |
out vec4 var5; // var5 gets default stream (0) | |
out Block2 { // "Block2" gets default stream (0) | |
vec4 var6; | |
}; | |
layout(stream=3) out vec4 var7; // var7 belongs to stream 3 | |
layout(shared, column_major) uniform; | |
layout(shared, column_major) buffer; | |
layout(row_major, column_major) | |
layout(shared, row_major) uniform; // default is now shared and row_major | |
layout(std140) uniform Transform2 { // layout of this block is std140 | |
mat4 M1; // row_major | |
layout(column_major) mat4 M2; // column major | |
mat3 N1; // row_major | |
}; | |
layout(column_major) uniform T3 { // shared and column_major | |
mat4 M13; // column_major | |
layout(row_major) mat4 m14; // row major | |
mat3 N12; // column_major | |
}; | |
// in one compilation unit... | |
layout(binding=3) uniform sampler2D s17; // s bound to unit 3 | |
// in another compilation unit... | |
uniform sampler2D s17; // okay, s still bound at 3 | |
// in another compilation unit... | |
//layout(binding=4) uniform sampler2D s; // ERROR: contradictory bindings | |
layout (binding = 2, offset = 4) uniform atomic_uint a2; | |
layout (binding = 2) uniform atomic_uint bar; | |
layout (binding = 2, offset = 4) uniform atomic_uint; | |
layout (binding = 2) uniform atomic_uint bar; // offset is 4 | |
layout (offset = 8) uniform atomic_uint bar; // error, no default binding | |
layout (binding=3, offset=4) uniform atomic_uint a2; // offset = 4 | |
layout (binding=2) uniform atomic_uint b2; // offset = 0 | |
layout (binding=3) uniform atomic_uint c2; // offset = 8 | |
layout (binding=2) uniform atomic_uint d2; // offset = 4 | |
//layout (offset=4) // error, must include binding | |
//layout (binding=1, offset=0) a; // okay | |
//layout (binding=2, offset=0) b; // okay | |
//layout (binding=1, offset=0) c; // error, offsets must not be shared | |
// // between a and c | |
//layout (binding=1, offset=2) d; // error, overlaps offset 0 of a | |
flat in vec4 gl_FrontColor; // input to geometry shader, no gl_in[] | |
flat out vec4 gl_FrontColor; // output from geometry shader | |
invariant gl_Position; // make existing gl_Position be invariant | |
out vec3 ColorInv; | |
invariant ColorIvn; // make existing Color be invariant | |
invariant centroid out vec3 Color4; | |
precise out vec4 position; | |
out vec3 Color5; | |
precise Color5; // make existing Color be precise | |
in vec4 a, b, c, d; | |
precise out vec4 v; | |
coherent buffer Block { | |
readonly vec4 member1; | |
vec4 member2; | |
}; | |
buffer Block2a { | |
coherent readonly vec4 member1A; | |
coherent vec4 member2A; | |
}; | |
shared vec4 shv; | |
vec4 funcA(restrict image2D a) { } | |
vec4 funcB(image2D a) { } | |
layout(rgba32f) uniform image2D img1; | |
layout(rgba32f) coherent uniform image2D img2; | |
float func(float e, float f, float g, float h) | |
{ | |
return (e*f) + (g*h); // no constraint on order or | |
// operator consistency | |
} | |
float func2(float e, float f, float g, float h) | |
{ | |
precise float result = (e*f) + (g*h); // ensures same precision for | |
// the two multiplies | |
return result; | |
} | |
float func3(float i, float j, precise out float k) | |
{ | |
k = i * i + j; // precise, due to <k> declaration | |
} | |
void main() | |
{ | |
vec3 r = vec3(a * b); // precise, used to compute v.xyz | |
vec3 s = vec3(c * d); // precise, used to compute v.xyz | |
v.xyz = r + s; // precise | |
v.w = (a.w * b.w) + (c.w * d.w); // precise | |
v.x = func(a.x, b.x, c.x, d.x); // values computed in func() | |
// are NOT precise | |
v.x = func2(a.x, b.x, c.x, d.x); // precise! | |
func3(a.x * b.x, c.x * d.x, v.x); // precise! | |
funcA(img1); // OK, adding "restrict" is allowed | |
funcB(img2); // illegal, stripping "coherent" is not | |
{ | |
struct light { | |
float intensity; | |
vec3 position; | |
}; | |
light lightVar = light(3.0, vec3(1.0, 2.0, 3.0)); | |
} | |
{ | |
const float c[3] = float[3](5.0, 7.2, 1.1); | |
const float d[3] = float[](5.0, 7.2, 1.1); | |
float g; | |
float a[5] = float[5](g, 1, g, 2.3, g); | |
float b[3]; | |
b = float[3](g, g + 1.0, g + 2.0); | |
} | |
{ | |
vec4 b[2] = { vec4(1.0), vec4(1.0) }; | |
vec4[3][2](b, b, b); // constructor | |
vec4[][2](b, b, b); // constructor, valid, size deduced | |
vec4[3][](b, b, b); // compile-time error, invalid type constructed | |
} | |
} |