#version 320 es layout(vertices = 4) out; out int outa[gl_out.length()]; layout(quads) in; // ERROR layout(ccw) out; // ERROR layout(fractional_even_spacing) in; // ERROR patch in vec4 patchIn; // ERROR patch out vec4 patchOut; void main() { barrier(); int a = gl_MaxTessControlInputComponents + gl_MaxTessControlOutputComponents + gl_MaxTessControlTextureImageUnits + gl_MaxTessControlUniformComponents + gl_MaxTessControlTotalOutputComponents; vec4 p = gl_in[1].gl_Position; float ps = gl_in[1].gl_PointSize; // ERROR, need point_size extension float cd = gl_in[1].gl_ClipDistance[2]; // ERROR, not in ES int pvi = gl_PatchVerticesIn; int pid = gl_PrimitiveID; int iid = gl_InvocationID; gl_out[gl_InvocationID].gl_Position = p; gl_out[gl_InvocationID].gl_PointSize = ps; // ERROR, need point_size extension gl_out[gl_InvocationID].gl_ClipDistance[1] = cd; // ERROR, not in ES gl_TessLevelOuter[3] = 3.2; gl_TessLevelInner[1] = 1.3; if (a > 10) barrier(); // ERROR else barrier(); // ERROR barrier(); do { barrier(); // ERROR } while (a > 10); switch (a) { default: barrier(); // ERROR break; } a < 12 ? a : (barrier(), a); // ERROR { barrier(); } return; barrier(); // ERROR } layout(vertices = 4) in; // ERROR, not on in layout(vertices = 5) out; // ERROR, changing # void foo() { gl_out[4].gl_Position; // ERROR, out of range barrier(); // ERROR, not in main } in vec2 ina; // ERROR, not array in vec2 inb[]; in vec2 inc[18]; // ERROR, wrong size in vec2 ind[gl_MaxPatchVertices]; patch out float implA[]; // ERROR, not sized #extension GL_ARB_separate_shader_objects : enable layout(location = 3) in vec4 ivla[]; layout(location = 4) in vec4 ivlb[]; layout(location = 4) in vec4 ivlc[]; // ERROR, overlapping layout(location = 3) out vec4 ovla[]; layout(location = 4) out vec4 ovlb[]; layout(location = 4) out vec4 ovlc[]; // ERROR, overlapping patch out pinbn { int a; } pinbi; centroid out vec3 myColor2[]; centroid in vec3 centr[]; sample out vec4 perSampleColor[]; layout(vertices = 4) out float badlay[]; // ERROR, not on a variable out float misSized[5]; // ERROR, size doesn't match out float okaySize[4]; void pointSize2() { float ps = gl_in[1].gl_PointSize; // ERROR, need point_size extension gl_out[gl_InvocationID].gl_PointSize = ps; // ERROR, need point_size extension } precise vec3 pv3; void goodfoop() { precise float d; pv3 *= pv3; pv3 = fma(pv3, pv3, pv3); d = fma(d, d, d); } void bb() { gl_BoundingBoxOES[0] = vec4(0.0); gl_BoundingBoxOES[1] = vec4(1.0); gl_BoundingBoxOES[2] = vec4(2.0); // ERROR, overflow } out patch badpatchBName { // ERROR, array size required float f; } badpatchIName[]; out patch patchBName { float f; } patchIName[4]; void outputtingOutparam(out int a) { a = 2; } void outputting() { outa[gl_InvocationID] = 2; outa[1] = 2; // ERROR, not gl_InvocationID gl_out[0].gl_Position = vec4(1.0); // ERROR, not gl_InvocationID outa[1]; gl_out[0]; outputtingOutparam(outa[0]); // ERROR, not gl_InvocationID outputtingOutparam(outa[gl_InvocationID]); patchIName[1].f = 3.14; outa[(gl_InvocationID)] = 2; }