X-Git-Url: https://git.sesse.net/?p=movit;a=blobdiff_plain;f=util.h;h=082d1146a7f4c86c2d935ffeaa62307f6575b884;hp=da2bf50b1283a1060020c47f33b2e20c50bd65fc;hb=34f5f331bd3b643949ccbb0c3488af2823634d59;hpb=cfe0bc4fa1e2a56eeb12c33e596f79c1292292c8 diff --git a/util.h b/util.h index da2bf50..082d114 100644 --- a/util.h +++ b/util.h @@ -7,6 +7,7 @@ #include #include +#include #include "opengl.h" @@ -15,8 +16,9 @@ // Converts a HSV color to RGB. Assumes h in [0, 2pi> or [-pi, pi> void hsv2rgb(float h, float s, float v, float *r, float *g, float *b); -// Column major (same as OpenGL). -typedef double Matrix3x3[9]; +// Converts a HSV color to RGB, but keeps luminance constant +// (ie. color luminance is as if S=0). +void hsv2rgb_normalized(float h, float s, float v, float *r, float *g, float *b); // Read a file from disk and return its contents. // Dies if the file does not exist. @@ -26,17 +28,20 @@ std::string read_file(const std::string &filename); // and return the object number. GLuint compile_shader(const std::string &shader_src, GLenum type); -// Compute a * b. -void multiply_3x3_matrices(const Matrix3x3 a, const Matrix3x3 b, Matrix3x3 result); - -// Compute M * [x0 x1 x2]'. -void multiply_3x3_matrix_float3(const Matrix3x3 M, float x0, float x1, float x2, float *y0, float *y1, float *y2); - -// Compute m^-1. Result is undefined if the matrix is singular or near-singular. -void invert_3x3_matrix(const Matrix3x3 m, Matrix3x3 result); - // Print a 3x3 matrix to standard output. Useful for debugging. -void print_3x3_matrix(const Matrix3x3 m); +void print_3x3_matrix(const Eigen::Matrix3d &m); + +// Output a GLSL 3x3 matrix declaration. +std::string output_glsl_mat3(const std::string &name, const Eigen::Matrix3d &m); + +// Calculate where to sample, and with what weight, if one wants to use +// the GPU's bilinear hardware to sample w1 * x[0] + w2 * x[1]. +// +// Note that since the GPU might have limited precision in its linear +// interpolation, the effective weights might be different from the ones you +// asked for. sum_sq_error, if not NULL, will contain the sum of the +// (estimated) squared errors of the two weights. +void combine_two_samples(float w1, float w2, float *offset, float *total_weight, float *sum_sq_error); #ifdef NDEBUG #define check_error()