/* Copyright (c) 2019 The Khronos Group Inc. Use of this source code is governed by an MIT-style license that can be found in the LICENSE.txt file. */ attribute vec4 gtf_Vertex; attribute vec4 gtf_Color; uniform mat4 gtf_ModelViewProjectionMatrix; varying vec4 color; void main (void) { const float M_PI = 3.14159265358979323846; vec2 x = 2.0 * (gtf_Color.gg - 0.5); vec2 y = 2.0 * (gtf_Color.bb - 0.5); vec2 c; vec2 atan_c = vec2(0.0); vec2 scale = vec2(1.0); vec2 sign = vec2(1.0); vec4 result = vec4(0.0, 0.0, 0.0, 1.0); const float epsilon = 1.0e-4; // Avoid evaluating atan(0, x) for x < epsilon because it's implementation-dependent if(x[0] > epsilon || abs(y[0]) > epsilon) { if(x[0] < 0.0 ^^ y[0] < 0.0) { sign[0] = -1.0; } if(abs(y[0]) <= abs(x[0])) { c[0] = abs(y[0] / x[0]); // Taylors series expansion for atan atan_c[0] += scale[0] * pow(c[0], float(1)) / float(1); scale[0] *= -1.0; atan_c[0] += scale[0] * pow(c[0], float(3)) / float(3); scale[0] *= -1.0; atan_c[0] += scale[0] * pow(c[0], float(5)) / float(5); scale[0] *= -1.0; atan_c[0] += scale[0] * pow(c[0], float(7)) / float(7); scale[0] *= -1.0; atan_c[0] += scale[0] * pow(c[0], float(9)) / float(9); scale[0] *= -1.0; atan_c[0] += scale[0] * pow(c[0], float(11)) / float(11); scale[0] *= -1.0; result[0] = sign[0] * atan_c[0] / (2.0 * M_PI) + 0.5; } else { c[0] = abs(x[0] / y[0]); // Taylors series expansion for atan atan_c[0] += scale[0] * pow(c[0], float(1)) / float(1); scale[0] *= -1.0; atan_c[0] += scale[0] * pow(c[0], float(3)) / float(3); scale[0] *= -1.0; atan_c[0] += scale[0] * pow(c[0], float(5)) / float(5); scale[0] *= -1.0; atan_c[0] += scale[0] * pow(c[0], float(7)) / float(7); scale[0] *= -1.0; atan_c[0] += scale[0] * pow(c[0], float(9)) / float(9); scale[0] *= -1.0; atan_c[0] += scale[0] * pow(c[0], float(11)) / float(11); scale[0] *= -1.0; result[0] = sign[0] * (M_PI / 2.0 - atan_c[0]) / (2.0 * M_PI) + 0.5; } if(x[0] < 0.0) if(y[0] < 0.0) result[0] -= 0.5; else if(y[0] > 0.0) result[0] += 0.5; } if(x[1] > epsilon || abs(y[1]) > epsilon) { if(x[1] < 0.0 ^^ y[1] < 0.0) { sign[1] = -1.0; } if(abs(y[1]) <= abs(x[1])) { c[1] = abs(y[1] / x[1]); // Taylors series expansion for atan atan_c[1] += scale[1] * pow(c[1], float(1)) / float(1); scale[1] *= -1.0; atan_c[1] += scale[1] * pow(c[1], float(3)) / float(3); scale[1] *= -1.0; atan_c[1] += scale[1] * pow(c[1], float(5)) / float(5); scale[1] *= -1.0; atan_c[1] += scale[1] * pow(c[1], float(7)) / float(7); scale[1] *= -1.0; atan_c[1] += scale[1] * pow(c[1], float(9)) / float(9); scale[1] *= -1.0; atan_c[1] += scale[1] * pow(c[1], float(11)) / float(11); scale[1] *= -1.0; result[1] = sign[1] * atan_c[1] / (2.0 * M_PI) + 0.5; } else { c[1] = abs(x[1] / y[1]); // Taylors series expansion for atan atan_c[1] += scale[1] * pow(c[1], float(1)) / float(1); scale[1] *= -1.0; atan_c[1] += scale[1] * pow(c[1], float(3)) / float(3); scale[1] *= -1.0; atan_c[1] += scale[1] * pow(c[1], float(5)) / float(5); scale[1] *= -1.0; atan_c[1] += scale[1] * pow(c[1], float(7)) / float(7); scale[1] *= -1.0; atan_c[1] += scale[1] * pow(c[1], float(9)) / float(9); scale[1] *= -1.0; atan_c[1] += scale[1] * pow(c[1], float(11)) / float(11); scale[1] *= -1.0; result[1] = sign[1] * (M_PI / 2.0 - atan_c[1]) / (2.0 * M_PI) + 0.5; } if(x[1] < 0.0) if(y[1] < 0.0) result[1] -= 0.5; else if(y[1] > 0.0) result[1] += 0.5; } color = result; gl_Position = gtf_ModelViewProjectionMatrix * gtf_Vertex; }