#version 120 in vec4 i; // ERROR out vec4 o; // ERROR attribute vec2 attv2; attribute vec4 attv4; uniform sampler2D s2D; invariant varying vec2 centTexCoord; invariant gl_Position; centroid gl_Position; // ERROR centroid centroid foo; // ERROR invariant gl_Position, gl_PointSize; void main() { centTexCoord = attv2; gl_Position = attv4; gl_ClipVertex = attv4; gl_ClipDistance[1] = 0.2; // ERROR vec3[12] a; vec4[a.length()] b; gl_Position = b[b.length()-1]; float f[]; int a1 = f.length(); // ERROR float f[7]; int aa = f.length(); int a2 = f.length; // ERROR int a3 = f.length(a); // ERROR int a4 = f.flizbit; // ERROR int a4 = f.flizbit(); // ERROR float md[2][4]; // ERROR float[2] md2[4]; // ERROR float[2][4] md3; // ERROR float md5, md6[2][3]; // ERROR float[2] md4, md7[4]; // ERROR float md9[2][3] = float[2][3](1, 2, 3, 4, 5, 6); // ERROR float md10, md11[2][3] = float[2][3](1, 2, 3, 4, 5, 6); // ERROR gl_PointSize = 3.8; } uniform float initted = 3.4; // okay const float concall = sin(0.3); int[2][3] foo( // ERROR float[2][3] a, // ERROR float[2] b[3], // ERROR float c[2][3]); // ERROR int overloadA(in float f); int overloadA(out float f); // ERROR, different qualifiers float overloadA(float); // ERROR, different return value for same signature float overloadA(out float f, int); float overloadA(int i); void overloadB(float, const in float) { } vec2 overloadC(int, int); vec2 overloadC(const in int, float); vec2 overloadC(float, int); vec2 overloadC(vec2, vec2); vec3 overloadD(int, float); vec3 overloadD(float, in int); vec3 overloadE(float[2]); vec3 overloadE(mat2 m); vec3 overloadE(vec2 v); vec3 overloadF(int); vec3 overloadF(float); void foo() { float f; int i; overloadB(f, f); overloadB(f, 2); overloadB(1, i); overloadC(1); // ERROR overloadC(1, i); overloadC(vec2(1), vec2(2)); overloadC(f, 3.0); // ERROR, no way overloadC(ivec2(1), vec2(2)); overloadD(i, f); overloadD(f, i); overloadD(i, i); // ERROR, ambiguous int overloadB; // hiding overloadB(1, i); // ERROR sin(1); texture2D(s2D, ivec2(0)); clamp(attv4, 0, 1); clamp(ivec4(attv4), 0, 1); int a[2]; overloadC(a, 3); // ERROR overloadE(a); // ERROR overloadE(3.3); // ERROR overloadE(vec2(3.3)); overloadE(mat2(0.5)); overloadE(ivec4(1)); // ERROR overloadE(ivec2(1)); float b[2]; overloadE(b); overloadF(1, 1); // ERROR overloadF(1); } varying vec4 gl_TexCoord[35]; // ERROR, size too big // tests for output conversions void outFun(in float, out ivec2, in int, out float); int outFunRet(in float, out int, const in int, out ivec4); ivec2 outFunRet(in float, out ivec4, in int, out ivec4); void foo2() { vec2 v2; vec4 v4; float f; int i; outFun(i, v2, i, f); outFunRet(i, f, i, v4); float ret = outFunRet(i, f, i, v4); vec2 ret2 = outFunRet(i, v4, i, v4); bool b = any(lessThan(v4, attv4)); // tests aggregate arg to unary built-in } // version 130 features uniform int c; attribute ivec2 x; attribute vec2 v2a; attribute float c1D; attribute vec2 c2D; attribute vec3 c3D; uniform vec4 v4; void foo213() { float f = 3; switch (c) { // ERRORs... case 1: f = sin(f); break; case 2: f = f * f; default: f = 3.0; } int i; i << 3 | 0x8A >> 1 & 0xFF; // ERRORs... vec3 modfOut, modfIn; vec3 v11 = modf(modfIn, modfOut); // ERRORS... float t = trunc(f); vec2 v12 = round(v2a); vec2 v13 = roundEven(v2a); bvec2 b10 = isnan(v2a); bvec4 b11 = isinf(v4); sinh(c1D) + // ERRORS... cosh(c1D) * tanh(c2D); asinh(c4D) + acosh(c4D); atanh(c3D); int id = gl_VertexID; // ERROR gl_ClipDistance[1] = 0.3; // ERROR } // token pasting (ERRORS...) #define mac abc##def int mac; #define macr(A,B) A ## B int macr(qrs,tuv);