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#extension GL_ARB_gpu_shader5 : enable
#ifdef GL_ARB_gpu_shader5
#define USE_INVOC_EXT
#endif
#ifdef DOUBLE_MANIFOLD
# ifdef USE_INVOC_EXT
# define invoc_len 2
# else
# define vert_len 6
# endif
#else
# ifdef USE_INVOC_EXT
# define invoc_len 2
# else
# define vert_len 6
# endif
#endif
#ifdef USE_INVOC_EXT
layout(triangles, invocations = invoc_len) in;
layout(triangle_strip, max_vertices = 3) out;
#else
layout(triangles) in;
layout(triangle_strip, max_vertices = vert_len) out;
#endif
uniform vec3 lightDirection = vec3(0.57, 0.57, -0.57);
in VertexData {
vec3 pos; /* local position */
vec4 frontPosition; /* final ndc position */
vec4 backPosition;
} vData[];
vec4 get_pos(int v, bool backface)
{
return (backface) ? vData[v].backPosition : vData[v].frontPosition;
}
void emit_cap(const bool front, bool reversed)
{
if (front) {
gl_Position = vData[0].frontPosition; EmitVertex();
gl_Position = vData[reversed ? 2 : 1].frontPosition; EmitVertex();
gl_Position = vData[reversed ? 1 : 2].frontPosition; EmitVertex();
}
else {
gl_Position = vData[0].backPosition; EmitVertex();
gl_Position = vData[reversed ? 1 : 2].backPosition; EmitVertex();
gl_Position = vData[reversed ? 2 : 1].backPosition; EmitVertex();
}
EndPrimitive();
}
void main()
{
vec3 v10 = vData[0].pos - vData[1].pos;
vec3 v12 = vData[2].pos - vData[1].pos;
vec3 n = cross(v12, v10);
float facing = dot(n, lightDirection);
bool backface = facing > 0.0;
#ifdef DOUBLE_MANIFOLD
/* In case of non manifold geom, we only increase/decrease
* the stencil buffer by one but do every faces as they were facing the light. */
bool invert = backface;
#else
const bool invert = false;
if (!backface) {
#endif
#ifdef USE_INVOC_EXT
bool do_front = (gl_InvocationID & 1) == 0;
emit_cap(do_front, invert);
#else
emit_cap(true, invert);
emit_cap(false, invert);
#endif
#ifndef DOUBLE_MANIFOLD
}
#endif
}
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