diff options
Diffstat (limited to 'src')
-rw-r--r-- | src/libclut.c | 775 | ||||
-rw-r--r-- | src/libclut.h | 2704 | ||||
-rw-r--r-- | src/test.c | 540 |
3 files changed, 0 insertions, 4019 deletions
diff --git a/src/libclut.c b/src/libclut.c deleted file mode 100644 index 934ed88..0000000 --- a/src/libclut.c +++ /dev/null @@ -1,775 +0,0 @@ -/** - * Copyright © 2016 Mattias Andrée <maandree@member.fsf.org> - * - * This program is free software: you can redistribute it and/or modify - * it under the terms of the GNU General Public License as published by - * the Free Software Foundation, either version 3 of the License, or - * (at your option) any later version. - * - * This program is distributed in the hope that it will be useful, - * but WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - * GNU General Public License for more details. - * - * You should have received a copy of the GNU General Public License - * along with this program. If not, see <http://www.gnu.org/licenses/>. - */ -#include "libclut.h" - -#include <errno.h> - - - -/** - * Convert one component from [0, 1] linear sRGB to [0, 1] sRGB. - * - * @param c The linear sRGB value. - * @return Corresponding sRGB value. - */ -double (libclut_model_linear_to_standard1)(double c) -{ - return libclut_model_linear_to_standard1(c); -} - - -/** - * Convert [0, 1] linear sRGB to [0, 1] sRGB. - * - * @param r Pointer to the linear red component, - * and output parameter for the red component. - * @param g Pointer to the linear green component, - * and output parameter for the green component. - * @param b Pointer to the linear blue component, - * and output parameter for the blue component. - */ -void (libclut_model_linear_to_standard)(double* r, double* g, double* b) -{ - libclut_model_linear_to_standard(r, g, b); -} - - -/** - * Convert one component from [0, 1] sRGB to [0, 1] linear sRGB. - * - * @param c The sRGB value. - * @return Corresponding linear sRGB value. - */ -double (libclut_model_standard_to_linear1)(double c) -{ - return libclut_model_standard_to_linear1(c); -} - - -/** - * Convert [0, 1] sRGB to [0, 1] linear sRGB. - * - * @param r Pointer to the red component, and output - * parameter for the linear red component. - * @param g Pointer to the green component, and output - * parameter for the linear green component. - * @param b Pointer to the blue component, and output - * parameter for the linear blue component. - */ -void (libclut_model_standard_to_linear)(double* r, double* g, double* b) -{ - libclut_model_standard_to_linear(r, g, b); -} - - -/** - * Convert CIE xyY to CIE XYZ. - * - * @param x The x parameter. - * @param y The y parameter. - * @param Y The Y parameter. This is also the Y (middle) parameter for the CIE XYZ colour. - * @param X Output parameter for the X parameter. - * @param Z Output parameter for the Z parameter. - */ -void (libclut_model_ciexyy_to_ciexyz)(double x, double y, double Y, double* X, double* Z) -{ - libclut_model_ciexyy_to_ciexyz(x, y, Y, X, Z); -} - - -/** - * Convert CIE XYZ to CIE xyY. - * - * @param X The X parameter. - * @param Y The Y parameter. This is also the Y (last) parameter for the CIE xyY colour. - * @param Z The Z parameter. - * @param x Output parameter for the x parameter. - * @param y Output parameter for the y parameter. - */ -void (libclut_model_ciexyz_to_ciexyy)(double X, double Y, double Z, double* x, double* y) -{ - libclut_model_ciexyz_to_ciexyy(X, Y, Z, x, y); -} - - -/** - * Convert CIE XYZ to [0, 1] linear sRGB. - * - * @param X The X parameter. - * @param Y The Y parameter. - * @param Z The Z parameter. - * @param r Output parameter for the red component. - * @param g Output parameter for the green component. - * @param b Output parameter for the blue component. - */ -void (libclut_model_ciexyz_to_linear)(double X, double Y, double Z, double* r, double* g, double* b) -{ - libclut_model_ciexyz_to_linear(X, Y, Z, r, g, b); -} - - -/** - * Convert [0, 1] linear sRGB to CIE XYZ. - * - * @param r The red component. - * @param g The green component. - * @param b The blue component. - * @param X Output parameter for the X parameter. - * @param Y Output parameter for the Y parameter. - * @param Z Output parameter for the Z parameter. - */ -void (libclut_model_linear_to_ciexyz)(double r, double g, double b, double* X, double* Y, double* Z) -{ - libclut_model_linear_to_ciexyz(r, g, b, X, Y, Z); -} - - -/** - * Convert [0, 1] linear sRGB to CIE xyY. - * - * @param r The red component. - * @param g The green component. - * @param b The blue component. - * @param x Output parameter for the x parameter. - * @param y Output parameter for the y parameter. - * @param Y Output parameter for the Y parameter. - */ -void (libclut_model_srgb_to_ciexyy)(double r, double g, double b, double* x, double* y, double* Y) -{ - libclut_model_srgb_to_ciexyy(r, g, b, x, y, Y); -} - - -/** - * Convert CIE xyY to [0, 1] sRGB. - * - * @param x The x parameter. - * @param y The y parameter. - * @param Y The Y parameter. - * @param r Output parameter for the red component. - * @param g Output parameter for the green component. - * @param b Output parameter for the blue component. - */ -void (libclut_model_ciexyy_to_srgb)(double x, double y, double Y, double* r, double* g, double* b) -{ - libclut_model_ciexyy_to_srgb(x, y, Y, r, g, b); -} - - -/** - * Convert from CIE XYZ to CIE L*a*b*. - * - * @param X The X parameter. - * @param Y The Y parameter. - * @param Z The Z parameter. - * @param L Output parameter for the L* component. - * @param a Output parameter for the a* component. - * @param b Output parameter for the b* component. - */ -void (libclut_model_ciexyz_to_cielab)(double X, double Y, double Z, double* L, double* a, double* b) -{ - libclut_model_ciexyz_to_cielab(X, Y, Z, L, a, b); -} - - -/** - * Convert from CIE L*a*b* to CIE XYZ. - * - * @param L The L* component. - * @param a The a* component. - * @param b The b* component. - * @param X Output parameter for the X parameter. - * @param Y Output parameter for the Y parameter. - * @param Z Output parameter for the Z parameter. - */ -void (libclut_model_cielab_to_ciexyz)(double L, double a, double b, double* X, double* Y, double* Z) -{ - libclut_model_cielab_to_ciexyz(L, a, b, X, Y, Z); -} - - -/** - * Convert from CIE XYZ to CIE L*u*v*. - * - * @param X The X parameter. - * @param Y The Y parameter. - * @param Z The Z parameter. - * @param Xn The X component of the specified white object (white point). - * @param Yn The Y component of the specified white object (white point). - * @param Zn The Z component of the specified white object (white point). - * @param L Output parameter for the L* component. - * @param u Output parameter for the u* component. - * @param v Output parameter for the v* component. - */ -void (libclut_model_ciexyz_to_cieluv)(double X, double Y, double Z, double Xn, double Yn, double Zn, - double* L, double* u, double* v) -{ - libclut_model_ciexyz_to_cieluv(X, Y, Z, Xn, Yn, Zn, L, u, v); -} - - -/** - * Convert from CIE L*u*v* to CIE XYZ. - * - * @param L The L* component. - * @param u The u* component. - * @param v The v* component. - * @param Xn The X component of the specified white object (white point). - * @param Yn The Y component of the specified white object (white point). - * @param Zn The Z component of the specified white object (white point). - * @param X Output parameter for the X parameter. - * @param Y Output parameter for the Y parameter. - * @param Z Output parameter for the Z parameter. - */ -void (libclut_model_cieluv_to_ciexyz)(double L, double u, double v, double Xn, double Yn, double Zn, - double* X, double* Y, double* Z) -{ - libclut_model_cieluv_to_ciexyz(L, u, v, Xn, Yn, Zn, X, Y, Z); -} - - -/** - * Convert from CIELCh to CIE L*u*v*. - * - * @param L The L* component. - * @param C The C*_uv component. - * @param h The h_uv component. - * @param u Output parameter for the u* parameter. - * @param v Output parameter for the v* parameter. - */ -void (libclut_model_cielch_to_cieluv)(double C, double h, double* u, double* v) -{ - libclut_model_cielch_to_cieluv(C, h, u, v); -} - - -/** - * Convert from CIE L*u*v* to CIELCh. - * - * @param L The L* component. - * @param u The u* component. - * @param v The v* component. - * @param C Output parameter for the C*_uv parameter. - * @param h Output parameter for the h_uv parameter. - */ -void (libclut_model_cieluv_to_cielch)(double u, double v, double* C, double* h) -{ - libclut_model_cieluv_to_cielch(u, v, C, h); -} - - -/** - * Convert from sRGB to YIQ. - * - * @param r The R component. - * @param g The G component. - * @param b The B component. - * @param y Output parameter for the Y parameter. - * @param i Output parameter for the I parameter. - * @param q Output parameter for the Q parameter. - */ -void (libclut_model_srgb_to_yiq)(double r, double g, double b, double* y, double* i, double* q) -{ - libclut_model_srgb_to_yiq(r, g, b, y, i, q); -} - - -/** - * Convert from YIQ to sRGB. - * - * @param y The Y component. - * @param i The I component. - * @param q The Q component. - * @param r Output parameter for the R parameter. - * @param g Output parameter for the G parameter. - * @param b Output parameter for the B parameter. - */ -void (libclut_model_yiq_to_srgb)(double y, double i, double q, double* r, double* g, double* b) -{ - libclut_model_yiq_to_srgb(y, i, q, r, g, b); -} - - -/** - * Convert from sRGB to YDbDr. - * - * @param r The R component. - * @param g The G component. - * @param b The B component. - * @param y Output parameter for the Y parameter. - * @param db Output parameter for the Db parameter. - * @param dr Output parameter for the Dr parameter. - */ -void (libclut_model_srgb_to_ydbdr)(double r, double g, double b, double* y, double* db, double* dr) -{ - libclut_model_srgb_to_ydbdr(r, g, b, y, db, dr); -} - - -/** - * Convert from YDbDr to sRGB. - * - * @param y The Y component. - * @param db The Db component. - * @param dr The Dr component. - * @param r Output parameter for the R parameter. - * @param g Output parameter for the G parameter. - * @param b Output parameter for the B parameter. - */ -void (libclut_model_ydbdr_to_srgb)(double y, double db, double dr, double* r, double* g, double* b) -{ - libclut_model_ydbdr_to_srgb(y, db, dr, r, g, b); -} - -/** - * Convert from YUV to YDbDr. - * - * @param u The U component. - * @param v The V component. - * @param db Output parameter for the Db parameter. - * @param dr Output parameter for the Dr parameter. - */ -void (libclut_model_yuv_to_ydbdr)(double u, double v, double* db, double* dr) -{ - libclut_model_yuv_to_ydbdr(u, v, db, dr); -} - - -/** - * Convert from YDbDr to YUV. - * - * @param db The Db component. - * @param dr The Dr component. - * @param u Output parameter for the U parameter. - * @param v Output parameter for the V parameter. - */ -void (libclut_model_ydbdr_to_yuv)(double db, double dr, double* u, double* v) -{ - libclut_model_ydbdr_to_yuv(db, dr, u, v); -} - - -/** - * Convert from sRGB to YPbPr. - * - * @param r The R component. - * @param g The G component. - * @param b The B component. - * @param y Output parameter for the Y parameter. - * @param pb Output parameter for the Pb parameter. - * @param pr Output parameter for the Pr parameter. - */ -void (libclut_model_srgb_to_ypbpr)(double r, double g, double b, double* y, double* pb, double* pr) -{ - libclut_model_srgb_to_ypbpr(r, g, b, y, pb, pr); -} - - -/** - * Convert from YPbPr to sRGB. - * - * @param y The Y component. - * @param pb The Pb component. - * @param pr The Pr component. - * @param r Output parameter for the R parameter. - * @param g Output parameter for the G parameter. - * @param b Output parameter for the B parameter. - */ -void (libclut_model_ypbpr_to_srgb)(double y, double pb, double pr, double* r, double* g, double* b) -{ - libclut_model_ypbpr_to_srgb(y, pb, pr, r, g, b); -} - - -/** - * Convert from sRGB to YCgCo. - * - * @param r The R component. - * @param g The G component. - * @param b The B component. - * @param y Output parameter for the Y parameter. - * @param cg Output parameter for the Cg parameter. - * @param co Output parameter for the Co parameter. - */ -void (libclut_model_srgb_to_ycgco)(double r, double g, double b, double* y, double* cg, double* co) -{ - libclut_model_srgb_to_ycgco(r, g, b, y, cg, co); -} - - -/** - * Convert from YCgCo to sRGB. - * - * @param y The Y component. - * @param cg The Cg component. - * @param co The Co component. - * @param r Output parameter for the R parameter. - * @param g Output parameter for the G parameter. - * @param b Output parameter for the B parameter. - */ -void (libclut_model_ycgco_to_srgb)(double y, double cg, double co, double* r, double* g, double* b) -{ - libclut_model_ycgco_to_srgb(y, cg, co, r, g, b); -} - - -/** - * Convert from CIE 1960 UCS to CIE XYZ. - * - * @param u The u component. - * @param v The v component. - * @param Y The Y component. - * @param x Output parameter for the X parameter. - * @param y Output parameter for the Y parameter. - * @param z Output parameter for the Z parameter. - */ -void (libclut_model_cie_1960_ucs_to_ciexyz)(double u, double v, double Y, double* x, double* y, double* z) -{ - libclut_model_cie_1960_ucs_to_ciexyz(u, v, Y, x, y, z); -} - - -/** - * Convert from CIE XYZ to CIE 1960 UCS. - * - * @param x The X component. - * @param y The Y component. - * @param z The Z component. - * @param u Output parameter for the u parameter. - * @param v Output parameter for the v parameter. - * @param Y Output parameter for the Y parameter. - */ -void (libclut_model_ciexyz_to_cie_1960_ucs)(double x, double y, double z, double* u, double* v, double* Y) -{ - libclut_model_ciexyz_to_cie_1960_ucs(x, y, z, u, v, Y); -} - - -/** - * Convert from CIEUVW to CIE 1960 UCS. - * - * @param U The U* component. - * @param V The V* component. - * @param W The W* component. - * @param u0 The u parameter for the white point. - * @param v0 The v parameter for the white point. - * @param u Output parameter for the u parameter. - * @param v Output parameter for the v parameter. - * @param Y Output parameter for the Y parameter. - */ -void (libclut_model_cieuvw_to_cie_1960_ucs)(double U, double V, double W, double u0, double v0, - double* u, double* v, double* Y) -{ - libclut_model_cieuvw_to_cie_1960_ucs(U, V, W, u0, v0, u, v, Y); -} - - -/** - * Convert from CIE 1960 UCS to CIEUVW. - * - * Requires linking with `-lm`. - * - * @param u The u component. - * @param v The v component. - * @param Y The Y component. - * @param u0 The u parameter for the white point. - * @param v0 The v parameter for the white point. - * @param U Output parameter for the U* parameter. - * @param V Output parameter for the V* parameter. - * @param W Output parameter for the W* parameter. - */ -void (libclut_model_cie_1960_ucs_to_cieuvw)(double u, double v, double Y, double u0, double v0, - double* U, double* V, double* W) -{ - libclut_model_cie_1960_ucs_to_cieuvw(u, v, Y, u0, v0, U, V, W); -} - - - -/** - * Divide all values in a row by a divisor. - * - * @param m The first part of the row. - * @param a The second part of the row. - * @param d The divisor. - */ -static void divrow(double m[3], double a[3], double d) -{ - m[0] /= d, m[1] /= d, m[2] /= d; - a[0] /= d, a[1] /= d, a[2] /= d; -} - -/** - * Subtract all values in a row by corresponding value - * in another row multiplied by a common value. - * - * @param a1 The first part of the minuend/difference row. - * @param a2 The second part of the minuend/difference row. - * @param b1 The first part of the subtrahend row. - * @param b2 The second part of the subtrahend row. - * @param m The multiplier. - */ -static void subrow(double a1[3], double a2[3], double b1[3], double b2[3], double m) -{ - a1[0] -= b1[0] * m, a1[1] -= b1[1] * m, a1[2] -= b1[2] * m; - a2[0] -= b2[0] * m, a2[1] -= b2[1] * m, a2[2] -= b2[2] * m; -} - - -/** - * Invert a matrix. - * - * @param M The matrix to invert, will be modified to an - * identity matrix, possibly with reordered rows. - * @param A The inversion of M (as input). - * @return 1 on success, 0 if the matrix is not invertible. - */ -static int invert(libclut_colour_space_conversion_matrix_t M, libclut_colour_space_conversion_matrix_t A) -{ - int r0 = 0, r1 = 1, r2 = 2, t, swapped = 0; - libclut_colour_space_conversion_matrix_t T; - - A[0][0] = A[1][1] = A[2][2] = 1; - A[0][1] = A[0][2] = A[1][0] = A[1][2] = A[2][0] = A[2][1] = 0; - - if (libclut_0__(M[r0][0])) - { - if (libclut_0__(M[r1][0])) - { - if (libclut_0__(M[r2][0])) - return 0; - t = r0, r0 = r2, r2 = t; - } - else - t = r0, r0 = r1, r1 = t; - swapped = 1; - } - - divrow(M[r0], A[r0], M[r0][0]); - subrow(M[r1], A[r1], M[r0], A[r0], M[r1][0]); - subrow(M[r2], A[r2], M[r0], A[r0], M[r2][0]); - - if (libclut_0__(M[r1][1])) - { - if (libclut_0__(M[r2][1])) - return 0; - t = r1, r1 = r2, r2 = t; - swapped = 1; - } - - divrow(M[r1], A[r1], M[r1][1]); - subrow(M[r2], A[r2], M[r1], A[r1], M[r2][1]); - - if (libclut_0__(M[r2][2])) - return 0; - - divrow(M[r2], A[r2], M[r2][2]); - - subrow(M[r1], A[r1], M[r2], A[r2], M[r1][2]); - subrow(M[r0], A[r0], M[r2], A[r2], M[r0][2]); - - subrow(M[r0], A[r0], M[r1], A[r1], M[r0][1]); - - if (swapped) - { - memcpy(T, A, sizeof(T)); - memcpy(A[0], T[r0], sizeof(*T)); - memcpy(A[1], T[r1], sizeof(*T)); - memcpy(A[2], T[r2], sizeof(*T)); - } - - return 1; -} - - -/** - * Create an RGB to CIE XYZ conversion matrix. - * - * @param cs The colour space. - * @param M The output matrix. - * @return Zero on success, -1 on error. - * - * @throws EINVAL The colour space cannot be used. - */ -static int get_conversion_matrix(const libclut_rgb_colour_space_t* cs, libclut_colour_space_conversion_matrix_t M) -{ -#define XYY_TO_XYZ(x, y, Y, Xp, Yp, Zp) \ - (libclut_0__(Y)) ? \ - (*(Xp) = *(Zp) = *(Yp) = (Y)) : \ - (*(Xp) = (x) * (Y) / (y), \ - *(Yp) = (Y), \ - *(Zp) = (1 - (x) - (y)) * (Y) / (y)) - - double Xr, Yr, Zr, Xg, Yg, Zg, Xb, Yb, Zb, Xw, Yw, Zw, Sr, Sg, Sb; - libclut_colour_space_conversion_matrix_t M2; - - XYY_TO_XYZ(cs->red_x, cs->red_y, 1, &Xr, &Yr, &Zr); - XYY_TO_XYZ(cs->green_x, cs->green_y, 1, &Xg, &Yg, &Zg); - XYY_TO_XYZ(cs->blue_x, cs->blue_y, 1, &Xb, &Yb, &Zb); - XYY_TO_XYZ(cs->white_x, cs->white_y, cs->white_Y, &Xw, &Yw, &Zw); - - M2[0][0] = Xr, M2[0][1] = Xg, M2[0][2] = Xb; - M2[1][0] = Yr, M2[1][1] = Yg, M2[1][2] = Yb; - M2[2][0] = Zr, M2[2][1] = Zg, M2[2][2] = Zb; - - if (!invert(M2, M)) - return errno = EINVAL, -1; - - Sr = M[0][0] * Xw + M[0][1] * Yw + M[0][2] * Zw; - Sg = M[1][0] * Xw + M[1][1] * Yw + M[1][2] * Zw; - Sb = M[2][0] * Xw + M[2][1] * Yw + M[2][2] * Zw; - - M[0][0] = Sr * Xr, M[0][1] = Sg * Xg, M[0][2] = Sb * Xb; - M[1][0] = Sr * Yr, M[1][1] = Sg * Yg, M[1][2] = Sb * Yb; - M[2][0] = Sr * Zr, M[2][1] = Sg * Zg, M[2][2] = Sb * Zb; - - return 0; - -#undef XYY_TO_XYZ -} - - -/** - * Create a matrix for converting values between - * two RGB colour spaces. - * - * @param from The input colour space, the Y-component is only necessary - * for the white point, `NULL` for CIE XYZ. - * @param to The output colour space, the Y-component is only necessary - * for the white point, `NULL` for CIE XYZ. - * @param M Output matrix for conversion from `from` to `to`. - * @param Minv Output matrix for conversion from `to` to `from`, may be `NULL`. - * @return Zero on success, -1 on error. - * - * @throws EINVAL The colour space cannot be used. - */ -int libclut_model_get_rgb_conversion_matrix(const libclut_rgb_colour_space_t* from, - const libclut_rgb_colour_space_t* to, - libclut_colour_space_conversion_matrix_t M, - libclut_colour_space_conversion_matrix_t Minv) -{ - libclut_colour_space_conversion_matrix_t A, B; - - if (from != NULL) - { - if (get_conversion_matrix(from, A)) - return -1; - } - else - { - A[0][0] = A[1][1] = A[2][2] = 1; - A[0][1] = A[1][0] = A[2][0] = 0; - A[0][2] = A[1][2] = A[2][1] = 0; - } - - if (to != NULL) - { - if (get_conversion_matrix(to, M)) - return -1; - if (!invert(M, B)) - return errno = EINVAL, -1; - - if (from != NULL) - { - M[0][0] = B[0][0] * A[0][0] + B[0][1] * A[1][0] + B[0][2] * A[2][0]; - M[0][1] = B[0][0] * A[0][1] + B[0][1] * A[1][1] + B[0][2] * A[2][1]; - M[0][2] = B[0][0] * A[0][2] + B[0][1] * A[1][2] + B[0][2] * A[2][2]; - - M[1][0] = B[1][0] * A[0][0] + B[1][1] * A[1][0] + B[1][2] * A[2][0]; - M[1][1] = B[1][0] * A[0][1] + B[1][1] * A[1][1] + B[1][2] * A[2][1]; - M[1][2] = B[1][0] * A[0][2] + B[1][1] * A[1][2] + B[1][2] * A[2][2]; - - M[2][0] = B[2][0] * A[0][0] + B[2][1] * A[1][0] + B[2][2] * A[2][0]; - M[2][1] = B[2][0] * A[0][1] + B[2][1] * A[1][1] + B[2][2] * A[2][1]; - M[2][2] = B[2][0] * A[0][2] + B[2][1] * A[1][2] + B[2][2] * A[2][2]; - } - else - memcpy(M, B, sizeof(B)); - } - else - memcpy(M, A, sizeof(A)); - - if (Minv != NULL) - { - memcpy(A, M, sizeof(A)); - if (!invert(A, Minv)) - return errno = EINVAL, -1; - } - - return 0; -} - - -/** - * Convert an RGB colour into another RGB colour space. - * - * Both RGB colour spaces must have same gamma functions as sRGB. - * - * @param r The red component of the colour to convert. - * @param g The green component of the colour to convert. - * @param b The blue component of the colour to convert. - * @param M Conversion matrix, create with `libclut_model_get_rgb_conversion_matrix`. - * @param out_r Output parameter for the new red component. - * @param out_g Output parameter for the new green component. - * @param out_b Output parameter for the new blue component. - */ -void (libclut_model_convert_rgb)(double r, double g, double b, libclut_colour_space_conversion_matrix_t M, - double* out_r, double* out_g, double* out_b) -{ - libclut_model_convert_rgb(r, g, b, M, out_r, out_g, out_b); -} - - -/** - * Convert an RGB colour of a custom RGB colour space to CIE XYZ. - * - * The RGB colour space must have same gamma functions as sRGB. - * - * @param r The red component. - * @param g The green component. - * @param b The blue component. - * @param M Conversion matrix, create with `libclut_model_get_rgb_conversion_matrix`. - * @param x Output parameter for the X component. - * @param y Output parameter for the Y component. - * @param z Output parameter for the Z component. - */ -void (libclut_model_rgb_to_ciexyz)(double r, double g, double b, libclut_colour_space_conversion_matrix_t M, - double* x, double* y, double* z) -{ - libclut_model_rgb_to_ciexyz(r, g, b, M, x, y, z); -} - - -/** - * Convert a CIE XYZ colour to a custom RGB colour space. - * - * The RGB colour space must have same gamma functions as sRGB. - * - * @param x The X component. - * @param y The Y component. - * @param z The Z component. - * @param M Conversion matrix, create with `libclut_model_get_rgb_conversion_matrix`. - * @param r Output parameter for the red component. - * @param g Output parameter for the green component - * @param b Output parameter for the blue component. - */ -void (libclut_model_ciexyz_to_rgb)(double x, double y, double z, libclut_colour_space_conversion_matrix_t M, - double* r, double* g, double* b) -{ - libclut_model_ciexyz_to_rgb(x, y, z, M, r, g, b); -} - diff --git a/src/libclut.h b/src/libclut.h deleted file mode 100644 index 6daec11..0000000 --- a/src/libclut.h +++ /dev/null @@ -1,2704 +0,0 @@ -/** - * Copyright © 2016 Mattias Andrée <maandree@member.fsf.org> - * - * This program is free software: you can redistribute it and/or modify - * it under the terms of the GNU General Public License as published by - * the Free Software Foundation, either version 3 of the License, or - * (at your option) any later version. - * - * This program is distributed in the hope that it will be useful, - * but WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - * GNU General Public License for more details. - * - * You should have received a copy of the GNU General Public License - * along with this program. If not, see <http://www.gnu.org/licenses/>. - */ -#ifndef LIBCLUT_H -#define LIBCLUT_H - -#include <stddef.h> -#include <string.h> -#include <math.h> - - - -/* Not documented, may be removed or modified in the future. */ -#define LIBCLUT_ILLUMINANT_A .white_x = 0.44757, .white_y = 0.40745, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_B .white_x = 0.34842, .white_y = 0.35161, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_C .white_x = 0.31006, .white_y = 0.31616, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_D50 .white_x = 0.34567, .white_y = 0.35850, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_D55 .white_x = 0.33242, .white_y = 0.34743, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_D65 .white_x = 0.31271, .white_y = 0.32902, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_D75 .white_x = 0.29902, .white_y = 0.31485, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_E .white_x = 1. / 3, .white_y = 1. / 3, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_F1 .white_x = 0.31310, .white_y = 0.33727, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_F2 .white_x = 0.37208, .white_y = 0.37529, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_F3 .white_x = 0.40910, .white_y = 0.39430, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_F4 .white_x = 0.44018, .white_y = 0.40329, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_F5 .white_x = 0.31379, .white_y = 0.34531, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_F6 .white_x = 0.37790, .white_y = 0.38835, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_F7 .white_x = 0.31292, .white_y = 0.32933, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_F8 .white_x = 0.34588, .white_y = 0.35875, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_F9 .white_x = 0.37417, .white_y = 0.37281, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_F10 .white_x = 0.34609, .white_y = 0.35986, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_F11 .white_x = 0.38052, .white_y = 0.37713, .white_Y = 1 -#define LIBCLUT_ILLUMINANT_F12 .white_x = 0.43695, .white_y = 0.40441, .white_Y = 1 - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the sRGB colour space. - * - * sRGB does not use a regular gamma function, but rather two different - * functions. `libclut_model_linear_to_standard1` and - * and `libclut_model_standard_to_linear1` can be used so to convert - * between sRGB and linear sRGB. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_SRGB_INITIALISER \ - { \ - .red_x = 0.6400, .red_y = 0.3300, .red_Y = 0.212656, \ - .green_x = 0.3000, .green_y = 0.6000, .green_Y = 0.715158, \ - .blue_x = 0.1500, .blue_y = 0.0600, .blue_Y = 0.072186, \ - LIBCLUT_ILLUMINANT_D65 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the Adobe RGB (1998) colour space. - * - * This colour space's gamma is 2.2. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_ADOBE_RGB_INITIALISER \ - { \ - .red_x = 0.6400, .red_y = 0.3300, .red_Y = 0.297361, \ - .green_x = 0.2100, .green_y = 0.7100, .green_Y = 0.627355, \ - .blue_x = 0.1500, .blue_y = 0.0600, .blue_Y = 0.075285, \ - LIBCLUT_ILLUMINANT_D65 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the Apple RGB colour space. - * - * This colour space's gamma is 1.8. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_APPLE_RGB_INITIALISER \ - { \ - .red_x = 0.6250, .red_y = 0.3400, .red_Y = 0.244634, \ - .green_x = 0.2800, .green_y = 0.5950, .green_Y = 0.672034, \ - .blue_x = 0.1550, .blue_y = 0.0700, .blue_Y = 0.083332, \ - LIBCLUT_ILLUMINANT_D65 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the Best RGB colour space. - * - * This colour space's gamma is 2.2. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_BEST_RGB_INITIALISER \ - { \ - .red_x = 0.7347, .red_y = 0.2653, .red_Y = 0.228457, \ - .green_x = 0.2150, .green_y = 0.7750, .green_Y = 0.737352, \ - .blue_x = 0.1300, .blue_y = 0.0350, .blue_Y = 0.034191, \ - LIBCLUT_ILLUMINANT_D50 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the Beta RGB colour space. - * - * This colour space's gamma is 2.2. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_BETA_RGB_INITIALISER \ - { \ - .red_x = 0.6888, .red_y = 0.3112, .red_Y = 0.303273, \ - .green_x = 0.1986, .green_y = 0.7551, .green_Y = 0.663786, \ - .blue_x = 0.1265, .blue_y = 0.0352, .blue_Y = 0.032941, \ - LIBCLUT_ILLUMINANT_D50 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the Bruce RGB colour space. - * - * This colour space's gamma is 2.2. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_BRUCE_RGB_INITIALISER \ - { \ - .red_x = 0.6400, .red_y = 0.3300, .red_Y = 0.240995, \ - .green_x = 0.2800, .green_y = 0.6500, .green_Y = 0.683554, \ - .blue_x = 0.1500, .blue_y = 0.0600, .blue_Y = 0.075452, \ - LIBCLUT_ILLUMINANT_D65 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the CIE RGB colour space. - * - * This colour space's gamma is 2.2. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_CIE_RGB_INITIALISER \ - { \ - .red_x = 0.7350, .red_y = 0.2650, .red_Y = 0.176204, \ - .green_x = 0.2740, .green_y = 0.7170, .green_Y = 0.812985, \ - .blue_x = 0.1670, .blue_y = 0.0090, .blue_Y = 0.010811, \ - LIBCLUT_ILLUMINANT_E \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the ColorMatch RGB colour space. - * - * This colour space's gamma is 1.8. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_COLORMATCH_RGB_INITIALISER \ - { \ - .red_x = 0.6300, .red_y = 0.3400, .red_Y = 0.274884, \ - .green_x = 0.2950, .green_y = 0.6050, .green_Y = 0.658132, \ - .blue_x = 0.1500, .blue_y = 0.0750, .blue_Y = 0.066985, \ - LIBCLUT_ILLUMINANT_D50 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the DCI-P3 D65 colour space. - * - * This colour space's gamma is 2.6. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_DCI_P3_D65_INITIALISER \ - { \ - .red_x = 0.680, .red_y = 0.320, .red_Y = 0.22897344, \ - .green_x = 0.265, .green_y = 0.690, .green_Y = 0.69175166, \ - .blue_x = 0.150, .blue_y = 0.060, .blue_Y = 0.07927490, \ - LIBCLUT_ILLUMINANT_D50 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the DCI-P3 Theater colour space. - * - * This colour space's gamma is 2.6. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_DCI_P3_THEATER_INITIALISER \ - { \ - .red_x = 0.680, .red_y = 0.320, .red_Y = 0.20949168, \ - .green_x = 0.265, .green_y = 0.690, .green_Y = 0.72159525, \ - .blue_x = 0.150, .blue_y = 0.060, .blue_Y = 0.06891307, \ - .white_x = 0.314, .white_y = 0.351, .white_Y = 1 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the Don RGB 4 colour space. - * - * This colour space's gamma is 2.2. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_DON_RGB_4_INITIALISER \ - { \ - .red_x = 0.6960, .red_y = 0.3000, .red_Y = 0.278350, \ - .green_x = 0.2150, .green_y = 0.7650, .green_Y = 0.687970, \ - .blue_x = 0.1300, .blue_y = 0.0350, .blue_Y = 0.033680, \ - LIBCLUT_ILLUMINANT_D50 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the ECI RGB v2 colour space. - * - * This colour space's used the L* gamma function. It cannot - * be used with RGB colour space conversion unless the values are - * tranlated into using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_ECI_RGB_V2_INITIALISER \ - { \ - .red_x = 0.6700, .red_y = 0.3300, .red_Y = 0.320250, \ - .green_x = 0.2100, .green_y = 0.7100, .green_Y = 0.602071, \ - .blue_x = 0.1400, .blue_y = 0.0800, .blue_Y = 0.077679, \ - LIBCLUT_ILLUMINANT_D50 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the Ekta Space PS5 colour space. - * - * This colour space's gamma is 2.2. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_EKTA_SPACE_PS5_INITIALISER \ - { \ - .red_x = 0.6950, .red_y = 0.3050, .red_Y = 0.260629, \ - .green_x = 0.2600, .green_y = 0.7000, .green_Y = 0.734946, \ - .blue_x = 0.1100, .blue_y = 0.0050, .blue_Y = 0.004425, \ - LIBCLUT_ILLUMINANT_D50 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the ITU-R Recommendation BT.601 (ITU-R BT.601), 625 line colour - * space. - * - * This colour space uses a custom gamma function. It cannot be used - * with RGB colour space conversion unless the values are tranlated - * into using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_ITU_R_BT_601_625_LINE_INITIALISER \ - { \ - .red_x = 0.640, .red_y = 0.330, .red_Y = 0.2220023, \ - .green_x = 0.290, .green_y = 0.600, .green_Y = 0.7066689, \ - .blue_x = 0.150, .blue_y = 0.060, .blue_Y = 0.0713288, \ - LIBCLUT_ILLUMINANT_D65 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the ITU-R Recommendation BT.601 (ITU-R BT.601), 525 line colour - * space. - * - * This colour space uses a custom gamma function. It cannot be used - * with RGB colour space conversion unless the values are tranlated - * into using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_ITU_R_BT_601_525_LINE_INITIALISER \ - { \ - .red_x = 0.630, .red_y = 0.340, .red_Y = 0.2220023, \ - .green_x = 0.310, .green_y = 0.595, .green_Y = 0.7066689, \ - .blue_x = 0.155, .blue_y = 0.070, .blue_Y = 0.0713288, \ - LIBCLUT_ILLUMINANT_D65 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the ITU-R Recommendation BT.709 (ITU-R BT.709) colour space. - * - * This colour space's gamma is 2._. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_ITU_R_BT_709_INITIALISER \ - { \ - .red_x = 0.6400, .red_y = 0.3300, .red_Y = 0.212656, \ - .green_x = 0.3000, .green_y = 0.6000, .green_Y = 0.715158, \ - .blue_x = 0.1500, .blue_y = 0.0600, .blue_Y = 0.072186, \ - LIBCLUT_ILLUMINANT_D65 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the ITU-R Recommendation BT.2020 (ITU-R BT.2020) colour space. - * - * This colour space uses a custom gamma function. It cannot be used - * with RGB colour space conversion unless the values are tranlated - * into using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_ITU_R_BT_2020_INITIALISER \ - { \ - .red_x = 0.7080, .red_y = 0.2920, .red_Y = 0.2627296, \ - .green_x = 0.1700, .green_y = 0.7970, .green_Y = 0.6767483, \ - .blue_x = 0.1310, .blue_y = 0.0460, .blue_Y = 0.0605221, \ - LIBCLUT_ILLUMINANT_D65 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the ITU-R Recommendation BT.2100 (ITU-R BT.2100) colour space. - * - * This colour space uses a custom gamma function. It cannot be used - * with RGB colour space conversion unless the values are tranlated - * into using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_ITU_R_BT_2100_INITIALISER \ - { \ - .red_x = 0.7080, .red_y = 0.2920, .red_Y = 0.2627296, \ - .green_x = 0.1700, .green_y = 0.7970, .green_Y = 0.6767483, \ - .blue_x = 0.1310, .blue_y = 0.0460, .blue_Y = 0.0605221, \ - LIBCLUT_ILLUMINANT_D65 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the Lightroom RGB colour space. - * - * This colour space's gamma is 1 (linear). It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_LIGHTROOM_RGB_INITIALISER \ - { \ - .red_x = 0.7347, .red_y = 0.2653, .red_Y = 0.288040, \ - .green_x = 0.1596, .green_y = 0.8404, .green_Y = 0.711874, \ - .blue_x = 0.0366, .blue_y = 0.0001, .blue_Y = 0.000086, \ - LIBCLUT_ILLUMINANT_D50 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the NTSC RGB colour space. - * - * This colour space's gamma is 2.2. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_NTSC_RGB_INITIALISER \ - { \ - .red_x = 0.6700, .red_y = 0.3300, .red_Y = 0.298839, \ - .green_x = 0.2100, .green_y = 0.7100, .green_Y = 0.586811, \ - .blue_x = 0.1400, .blue_y = 0.0800, .blue_Y = 0.114350, \ - LIBCLUT_ILLUMINANT_C \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the PAL/SECAM RGB colour space. - * - * This colour space's gamma is 2.2. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_PAL_SECAM_RGB_INITIALISER \ - { \ - .red_x = 0.6400, .red_y = 0.3300, .red_Y = 0.222021, \ - .green_x = 0.2900, .green_y = 0.6000, .green_Y = 0.706645, \ - .blue_x = 0.1500, .blue_y = 0.0600, .blue_Y = 0.071334, \ - LIBCLUT_ILLUMINANT_D65 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the ProPhoto RGB colour space. - * - * This colour space's gamma is 1.8. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_PROPHOTO_RGB_INITIALISER \ - { \ - .red_x = 0.7347, .red_y = 0.2653, .red_Y = 0.288040, \ - .green_x = 0.1596, .green_y = 0.8404, .green_Y = 0.711874, \ - .blue_x = 0.0366, .blue_y = 0.0001, .blue_Y = 0.000086, \ - LIBCLUT_ILLUMINANT_D50 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the SMPTE-C RGB colour space. - * - * This colour space's gamma is 2.2. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_SMPTE_C_RGB_INITIALISER \ - { \ - .red_x = 0.6300, .red_y = 0.3400, .red_Y = 0.212395, \ - .green_x = 0.3100, .green_y = 0.5950, .green_Y = 0.701049, \ - .blue_x = 0.1550, .blue_y = 0.0700, .blue_Y = 0.086556, \ - LIBCLUT_ILLUMINANT_D65 \ - } - -/** - * Initialiser for `struct libclut_rgb_colour_space` with the values - * of the Wide Gamut RGB colour space. - * - * This colour space's gamma is 2.2. It cannot be used with - * RGB colour space conversion unless the values are tranlated into - * using the sRGB gamma function. - */ -#define LIBCLUT_RGB_COLOUR_SPACE_WIDE_GAMUT_RGB_INITIALISER \ - { \ - .red_x = 0.7350, .red_y = 0.2650, .red_Y = 0.258187, \ - .green_x = 0.1150, .green_y = 0.8260, .green_Y = 0.724938, \ - .blue_x = 0.1570, .blue_y = 0.0180, .blue_Y = 0.016875, \ - LIBCLUT_ILLUMINANT_D50 \ - } - -/* - * TODO gamma functions: - * https://en.wikipedia.org/wiki/Rec._2020#Transfer_characteristics - * http://www.itu.int/dms_pubrec/itu-r/rec/bt/R-REC-BT.2100-0-201607-I!!PDF-E.pdf - * https://en.wikipedia.org/wiki/Rec._601 - */ - - - -/** - * RGB colour space structure. - */ -typedef struct libclut_rgb_colour_space -{ - /** - * The x-component of the red colour's xyY value. - */ - double red_x; - - /** - * The y-component of the red colour's xyY value. - */ - double red_y; - - /** - * The Y-component of the red colour's xyY value. - */ - double red_Y; - - /** - * The x-component of the green colour's xyY value. - */ - double green_x; - - /** - * The y-component of the green colour's xyY value. - */ - double green_y; - - /** - * The Y-component of the green colour's xyY value. - */ - double green_Y; - - /** - * The x-component of the blue colour's xyY value. - */ - double blue_x; - - /** - * The y-component of the blue colour's xyY value. - */ - double blue_y; - - /** - * The Y-component of the blue colour's xyY value. - */ - double blue_Y; - - /** - * The x-component of the white point's xyY value. - */ - double white_x; - - /** - * The y-component of the white point's xyY value. - */ - double white_y; - - /** - * The Y-component of the white point's xyY value. - */ - double white_Y; -} libclut_rgb_colour_space_t; - - - -/** - * Matrix date-type for colour space conversion. - */ -typedef double libclut_colour_space_conversion_matrix_t[3][3]; - - - -/* This is to avoid warnings about comparing double, These are only - * used when it is safe, for example to test whether optimisations - * are possible. { */ -#if defined(__GNUC__) || defined(__clang__) -# pragma GCC diagnostic push -# pragma GCC diagnostic ignored "-Wfloat-equal" -#endif -static inline int libclut_eq__(double a, double b) { return a == b; } -static inline int libclut_1__(double x) { return libclut_eq__(x, 1); } -static inline int libclut_0__(double x) { return libclut_eq__(x, 0); } -#if defined(__GNUC__) || defined(__clang__) -# pragma GCC diagnostic pop -#endif -/* } */ - - -#if defined(__clang__) -# pragma GCC diagnostic push -# pragma GCC diagnostic ignored "-Wdocumentation" -#endif - - - -/** - * Apply contrast correction on the colour curves using sRGB. - * - * In this context, contrast is a measure of difference between - * the whitepoint and blackpoint, if the difference is 0 than - * they are both grey. - * - * None of the parameter may have side-effects. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param r The contrast parameter for the red curve. - * @param g The contrast parameter for the green curve. - * @param b The contrast parameter for the blue curve. - */ -#define libclut_rgb_contrast(clut, max, type, r, g, b) \ - do \ - { \ - const double h__ = (double)5 / 10; \ - if (!libclut_1__(r)) \ - libclut__(clut, red, type, (LIBCLUT_VALUE - (max) * h__) * (r) + (max) * h__); \ - if (!libclut_1__(g)) \ - libclut__(clut, green, type, (LIBCLUT_VALUE - (max) * h__) * (g) + (max) * h__); \ - if (!libclut_1__(b)) \ - libclut__(clut, blue, type, (LIBCLUT_VALUE - (max) * h__) * (b) + (max) * h__); \ - } \ - while (0) - - -/** - * Apply contrast correction on the colour curves using CIE xyY. - * - * In this context, contrast is a measure of difference between - * the whitepoint and blackpoint, if the difference is 0 than - * they are both grey. - * - * None of the parameter may have side-effects. - * - * Requires linking with '-lclut'. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param r The contrast parameter for the red curve. - * @param g The contrast parameter for the green curve. - * @param b The contrast parameter for the blue curve. - */ -#define libclut_cie_contrast(clut, max, type, r, g, b) \ - do \ - { \ - const double h__ = (double)5 / 10; \ - libclut_cie__(clut, max, type, libclut_eq__((r), (g)) && libclut_eq__((g), (b)), \ - !libclut_1__(r), !libclut_1__(g), !libclut_1__(b), \ - (Y__ - h__) * (r) + h__, (Y__ - h__) * (g) + h__, (Y__ - h__) * (b) + h__); \ - } \ - while (0) - - -/** - * Apply brightness correction on the colour curves using sRGB. - * - * In this context, brightness is a measure of the whiteness of the whitepoint. - * - * None of the parameter may have side-effects. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param r The brightness parameter for the red curve. - * @param g The brightness parameter for the green curve. - * @param b The brightness parameter for the blue curve. - */ -#define libclut_rgb_brightness(clut, max, type, r, g, b) \ - do \ - { \ - if (!libclut_1__(r)) libclut__(clut, red, type, LIBCLUT_VALUE * (r)); \ - if (!libclut_1__(g)) libclut__(clut, green, type, LIBCLUT_VALUE * (g)); \ - if (!libclut_1__(b)) libclut__(clut, blue, type, LIBCLUT_VALUE * (b)); \ - } \ - while (0) - - -/** - * Apply brightness correction on the colour curves using CIE xyY. - * - * In this context, brightness is a measure of the whiteness of the whitepoint. - * - * None of the parameter may have side-effects. - * - * Requires linking with '-lclut'. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param r The brightness parameter for the red curve. - * @param g The brightness parameter for the green curve. - * @param b The brightness parameter for the blue curve. - */ -#define libclut_cie_brightness(clut, max, type, r, g, b) \ - libclut_cie__(clut, max, type, libclut_eq__((r), (g)) && libclut_eq__((g), (b)), \ - !libclut_1__(r), !libclut_1__(g), !libclut_1__(b), \ - Y__ * (r), Y__ * (g), Y__ * (b)) - - -/** - * Convert the curves from formatted in standard RGB to linear sRGB. - * - * None of the parameter may have side-effects. - * - * Requires linking with '-lclut', or '-lm' if - * `libclut_model_standard_to_linear1` is not undefined. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param r Whether to convert the red colour curve. - * @param g Whether to convert the green colour curve. - * @param b Whether to convert the blue colour curve. - */ -#define libclut_linearise(clut, max, type, r, g, b) \ - do \ - { \ - double m__ = (double)(max); \ - if (r) \ - libclut__(clut, red, type, m__ * libclut_model_standard_to_linear1(LIBCLUT_VALUE / m__)); \ - if (g) \ - libclut__(clut, green, type, m__ * libclut_model_standard_to_linear1(LIBCLUT_VALUE / m__)); \ - if (b) \ - libclut__(clut, blue, type, m__ * libclut_model_standard_to_linear1(LIBCLUT_VALUE / m__)); \ - } \ - while (0) - - -/** - * Convert the curves from formatted in linear sRGB to standard RGB. - * - * None of the parameter may have side-effects. - * - * Requires linking with '-lclut', or '-lm' if - * `libclut_model_linear_to_standard1` is not undefined. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param r Whether to convert the red colour curve. - * @param g Whether to convert the green colour curve. - * @param b Whether to convert the blue colour curve. - */ -#define libclut_standardise(clut, max, type, r, g, b) \ - do \ - { \ - double m__ = (double)(max); \ - if (r) \ - libclut__(clut, red, type, m__ * libclut_model_linear_to_standard1(LIBCLUT_VALUE / m__)); \ - if (g) \ - libclut__(clut, green, type, m__ * libclut_model_linear_to_standard1(LIBCLUT_VALUE / m__)); \ - if (b) \ - libclut__(clut, blue, type, m__ * libclut_model_linear_to_standard1(LIBCLUT_VALUE / m__)); \ - } \ - while (0) - - -/** - * Convert the curves between two RGB colour spaces. - * - * Both RGB colour spaces must have same gamma functions as sRGB. - * - * Requires that `clut->red_size`, `clut->green_size` - * and `clut->blue_size` are equal. - * - * None of the parameter may have side-effects. - * - * Requires linking with '-lclut', or '-lm' if - * `libclut_model_linear_to_standard1`, - * `libclut_model_standard_to_linear1`, or - * `libclut_model_convert_rgb` is not undefined. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param m Conversion matrix. Can be created with - * `libclut_model_get_rgb_conversion_matrix`. - * @param trunc Truncate values that are out of gamut. - */ -#define libclut_convert_rgb_inplace(clut, max, type, m, trunc) \ - do \ - { \ - double m__ = (double)(max), r__, g__, b__; \ - size_t i__, n__ = (clut)->red_size; \ - for (i__ = 0; i__ < n__; i__++) \ - { \ - r__ = (clut)->red[i__] / m__; \ - g__ = (clut)->green[i__] / m__; \ - b__ = (clut)->blue[i__] / m__; \ - libclut_model_convert_rgb(r__, g__, b__, m, &r__, &g__, &b__); \ - r__ *= m__; \ - g__ *= m__; \ - b__ *= m__; \ - if (trunc) \ - { \ - if (r__ < 0) \ - r__ = 0; \ - else if (r__ > m__) \ - r__ = m__; \ - if (g__ < 0) \ - g__ = 0; \ - else if (g__ > m__) \ - g__ = m__; \ - if (b__ < 0) \ - b__ = 0; \ - else if (b__ > m__) \ - b__ = m__; \ - } \ - (clut)->red[i__] = (type)r__; \ - (clut)->green[i__] = (type)g__; \ - (clut)->blue[i__] = (type)b__; \ - } \ - } \ - while (0) - - -/** - * Convert the curves between two RGB colour spaces. - * - * Both RGB colour spaces must have same gamma functions as sRGB. - * - * None of the parameter may have side-effects. - * - * Requires linking with '-lclut' if - * `libclut_model_linear_to_standard1`, - * `libclut_model_standard_to_linear1`, or - * `libclut_model_convert_rgb` is not undefined. - * Always requires linking with '-lm'. - * - * @param clut Pointer to the input gamma ramps, must have the - * arrays `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param m Conversion matrix. Can be created with - * `libclut_model_get_rgb_conversion_matrix`. - * @param trunc Truncate values that are out of gamut. - * @param out Pointer to the output gamma ramps, must have the - * arrays `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - */ -#define libclut_convert_rgb(clut, max, type, m, trunc, out) \ - do \ - { \ - double m__ = (double)(max), r__, g__, b__, x__, y__; \ - size_t rn__ = (clut)->red_size; \ - size_t gn__ = (clut)->green_size; \ - size_t bn__ = (clut)->blue_size; \ - double w__; \ - size_t i__, j__, jj__; \ - for (i__ = 0; i__ < rn__; i__++) \ - { \ - w__ = (double)i__ * gn__ / rn__; \ - j__ = (size_t)w__; \ - jj__ = j__ == gn__ ? j__ : (j__ + 1); \ - w__ = fmod(j__, (double)1); \ - x__ = (clut)->green[j__] / m__; \ - y__ = (clut)->green[jj__] / m__; \ - x__ = libclut_model_standard_to_linear1(x__); \ - y__ = libclut_model_standard_to_linear1(y__); \ - g__ = x__ * (1 - w__) + y__ * w__; \ - \ - w__ = (double)i__ * bn__ / rn__; \ - j__ = (size_t)w__; \ - jj__ = j__ == bn__ ? j__ : (j__ + 1); \ - w__ = fmod(j__, (double)1); \ - x__ = (clut)->blue[j__] / m__; \ - y__ = (clut)->blue[jj__] / m__; \ - x__ = libclut_model_standard_to_linear1(x__); \ - y__ = libclut_model_standard_to_linear1(y__); \ - b__ = x__ * (1 - w__) + y__ * w__; \ - \ - r__ = (M)[0][0] * r__ + (M)[0][1] * g__ + (M)[0][2] * b__; \ - r__ = libclut_model_linear_to_standard1(r__); \ - r__ *= m__; \ - if (trunc) \ - { \ - if (r__ < 0) \ - r__ = 0; \ - else if (r__ > m__) \ - r__ = m__; \ - } \ - (out)->red[i__] = (type)r__; \ - } \ - for (i__ = 0; i__ < gn__; i__++) \ - { \ - w__ = (double)i__ * rn__ / gn__; \ - j__ = (size_t)w__; \ - jj__ = j__ == rn__ ? j__ : (j__ + 1); \ - w__ = fmod(j__, (double)1); \ - x__ = (clut)->red[j__] / m__; \ - y__ = (clut)->red[jj__] / m__; \ - x__ = libclut_model_standard_to_linear1(x__); \ - y__ = libclut_model_standard_to_linear1(y__); \ - r__ = x__ * (1 - w__) + y__ * w__; \ - \ - w__ = (double)i__ * bn__ / gn__; \ - j__ = (size_t)w__; \ - jj__ = j__ == bn__ ? j__ : (j__ + 1); \ - w__ = fmod(j__, (double)1); \ - x__ = (clut)->blue[j__] / m__; \ - y__ = (clut)->blue[jj__] / m__; \ - x__ = libclut_model_standard_to_linear1(x__); \ - y__ = libclut_model_standard_to_linear1(y__); \ - b__ = x__ * (1 - w__) + y__ * w__; \ - \ - g__ = (M)[1][0] * r__ + (M)[0][1] * g__ + (M)[1][2] * b__; \ - g__ = libclut_model_linear_to_standard1(g__); \ - g__ *= m__; \ - if (trunc) \ - { \ - if (g__ < 0) \ - g__ = 0; \ - else if (g__ > m__) \ - g__ = m__; \ - } \ - (out)->green[i__] = (type)g__; \ - } \ - for (i__ = 0; i__ < bn__; i__++) \ - { \ - w__ = (double)i__ * rn__ / bn__; \ - j__ = (size_t)w__; \ - jj__ = j__ == rn__ ? j__ : (j__ + 1); \ - w__ = fmod(j__, (double)1); \ - x__ = (clut)->red[j__] / m__; \ - y__ = (clut)->red[jj__] / m__; \ - x__ = libclut_model_standard_to_linear1(x__); \ - y__ = libclut_model_standard_to_linear1(y__); \ - r__ = x__ * (1 - w__) + y__ * w__; \ - \ - w__ = (double)i__ * gn__ / bn__; \ - j__ = (size_t)w__; \ - jj__ = j__ == gn__ ? j__ : (j__ + 1); \ - w__ = fmod(j__, (double)1); \ - x__ = (clut)->green[j__] / m__; \ - y__ = (clut)->green[jj__] / m__; \ - x__ = libclut_model_standard_to_linear1(x__); \ - y__ = libclut_model_standard_to_linear1(y__); \ - g__ = x__ * (1 - w__) + y__ * w__; \ - \ - b__ = (M)[2][0] * r__ + (M)[2][1] * g__ + (M)[2][2] * b__; \ - b__ = libclut_model_linear_to_standard1(b__); \ - b__ *= m__; \ - if (trunc) \ - { \ - if (b__ < 0) \ - b__ = 0; \ - else if (b__ > m__) \ - b__ = m__; \ - } \ - (out)->blue[i__] = (type)b__; \ - } \ - } \ - while (0) - - -/** - * Apply gamma correction on the colour curves. - * - * None of the parameter may have side-effects. - * - * Requires linking with '-lm'. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param r The gamma parameter the red colour curve. - * @param g The gamma parameter the green colour curve. - * @param b The gamma parameter the blue colour curve. - */ -#define libclut_gamma(clut, max, type, r, g, b) \ - do \ - { \ - double m__ = (double)(max); \ - if (!libclut_1__(r)) \ - libclut__(clut, red, type, m__ * pow(LIBCLUT_VALUE / m__, 1 / (double)(r))); \ - if (!libclut_1__(g)) \ - libclut__(clut, green, type, m__ * pow(LIBCLUT_VALUE / m__, 1 / (double)(g))); \ - if (!libclut_1__(b)) \ - libclut__(clut, blue, type, m__ * pow(LIBCLUT_VALUE / m__, 1 / (double)(b))); \ - } \ - while (0) - - -/** - * Reverse the colour curves (negative image with gamma preservation.) - * - * None of the parameter may have side-effects. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * This parameter is not used, it is just a dummy, to unify - * the API with the other functions. - * @param type The data type used for each stop in the ramps. - * @param r Whether to invert the red colour curve. - * @param g Whether to invert the green colour curve. - * @param b Whether to invert the blue colour curve. - */ -#define libclut_negative(clut, max, type, r, g, b) \ - do \ - { \ - size_t i__, n__; \ - type t__; \ - if (r) \ - for (i__ = 0, n__ = (clut)->red_size; i__ < (n__ >> 1); i__++) \ - { \ - t__ = (clut)->red[i__]; \ - (clut)->red[i__] = (clut)->red[n__ - i__ - 1]; \ - (clut)->red[n__ - i__ - 1] = t__; \ - } \ - if (g) \ - for (i__ = 0, n__ = (clut)->green_size; i__ < (n__ >> 1); i__++) \ - { \ - t__ = (clut)->green[i__]; \ - (clut)->green[i__] = (clut)->green[n__ - i__ - 1]; \ - (clut)->green[n__ - i__ - 1] = t__; \ - } \ - if (b) \ - for (i__ = 0, n__ = (clut)->blue_size; i__ < (n__ >> 1); i__++) \ - { \ - t__ = (clut)->blue[i__]; \ - (clut)->blue[i__] = (clut)->blue[n__ - i__ - 1]; \ - (clut)->blue[n__ - i__ - 1] = t__; \ - } \ - } \ - while (0) - - -/** - * Invert the colour curves (negative image with gamma invertion), using sRGB. - * - * None of the parameter may have side-effects. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param r Whether to invert the red colour curve. - * @param g Whether to invert the green colour curve. - * @param b Whether to invert the blue colour curve. - */ -#define libclut_rgb_invert(clut, max, type, r, g, b) \ - do \ - { \ - if (r) libclut__(clut, red, type, (max) - LIBCLUT_VALUE); \ - if (g) libclut__(clut, green, type, (max) - LIBCLUT_VALUE); \ - if (b) libclut__(clut, blue, type, (max) - LIBCLUT_VALUE); \ - } \ - while (0) - - -/** - * Invert the colour curves (negative image with gamma invertion), using CIE xyY. - * - * None of the parameter may have side-effects. - * - * Requires linking with '-lclut'. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param r Whether to invert the red colour curve. - * @param g Whether to invert the green colour curve. - * @param b Whether to invert the blue colour curve. - */ -#define libclut_cie_invert(clut, max, type, r, g, b) \ - libclut_cie__(clut, max, type, (r) && (g) && (b), r, g, b, 1 - Y__, 1 - Y__, 1 - Y__) - - -/** - * Apply S-curve correction on the colour curves. - * This is intended for fine tuning LCD monitors, - * 4.5 is good value start start testing at. - * You would probably like to use rgb_limits before - * this to adjust the blackpoint as that is the - * only way to adjust the blackpoint on many LCD - * monitors. - * - * None of the parameter may have side-effects. - * - * Requires linking with '-lm'. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param rp Pointer to the sigmoid parameter for the red curve. `NULL` for no adjustment. - * @param gp Pointer to the sigmoid parameter for the green curve. `NULL` for no adjustment. - * @param bp Pointer to the sigmoid parameter for the blue curve. `NULL` for no adjustment. - */ -#define libclut_sigmoid(clut, max, type, rp, gp, bp) \ - do \ - { \ - double *gcc_6_1_1_workaround, m__ = (double)(max); \ - const double h__ = (double)5 / 10; \ - gcc_6_1_1_workaround = rp; \ - if (gcc_6_1_1_workaround) \ - libclut_sigmoid__(clut, max, type, red); \ - gcc_6_1_1_workaround = gp; \ - if (gcc_6_1_1_workaround) \ - libclut_sigmoid__(clut, max, type, green); \ - gcc_6_1_1_workaround = bp; \ - if (gcc_6_1_1_workaround) \ - libclut_sigmoid__(clut, max, type, blue); \ - } \ - while (0) - - -/** - * Apply S-curve correction on the colour curves. - * This is intended for fine tuning LCD monitors, - * 4.5 is good value start start testing at. - * You would probably like to use rgb_limits before - * this to adjust the blackpoint as that is the - * only way to adjust the blackpoint on many LCD - * monitors. - * - * None of the parameter may have side-effects. - * - * Requires linking with '-lm'. - * - * Intended for internal use. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param channel The channel, must be either "red", "green", or "blue". - */ -#define libclut_sigmoid__(clut, max, type, channel) \ - do \ - { \ - double s__ = *gcc_6_1_1_workaround, l__; \ - size_t i__; \ - for (i__ = 0; i__ < (clut)->channel##_size; i__++) \ - { \ - l__ = log(m__ / (clut)->channel[i__] - 1); \ - if (isnan(l__) || isinf(l__)) \ - l__ = 37.024483 * (isinf(l__) > 0 ? +1 : -1); \ - (clut)->channel[i__] = (type)(m__ * (h__ - l__ / s__)); \ - } \ - } \ - while (0) - - -/** - * Changes the blackpoint and the whitepoint, using sRGB. - * - * None of the parameter may have side-effects. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param rmin The red component value of the blackpoint. - * @param rmax The red component value of the whitepoint. - * @param gmin The green component value of the blackpoint. - * @param gmax The green component value of the whitepoint. - * @param bmin The blue component value of the blackpoint. - * @param bmax The blue component value of the whitepoint. - */ -#define libclut_rgb_limits(clut, max, type, rmin, rmax, gmin, gmax, bmin, bmax) \ - do \ - { \ - double diff__; \ - if (!libclut_0__(rmin) || !libclut_1__(rmax)) \ - { \ - diff__ = (double)(rmax) - (double)(rmin); \ - libclut__(clut, red, type, LIBCLUT_VALUE / (double)(max) * diff__ + (rmin)); \ - } \ - if (!libclut_0__(gmin) || !libclut_1__(gmax)) \ - { \ - diff__ = (double)(gmax) - (double)(gmin); \ - libclut__(clut, green, type, LIBCLUT_VALUE / (double)(max) * diff__ + (gmin)); \ - } \ - if (!libclut_0__(bmin) || !libclut_1__(bmax)) \ - { \ - diff__ = (double)(bmax) - (double)(bmin); \ - libclut__(clut, blue, type, LIBCLUT_VALUE / (double)(max) * diff__ + (bmin)); \ - } \ - } \ - while (0) - - -/** - * Changes the blackpoint and the whitepoint, using CIE xyY. - * - * None of the parameter may have side-effects. - * - * Requires linking with '-lclut'. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param rmin The red component value of the blackpoint. - * @param rmax The red component value of the whitepoint. - * @param gmin The green component value of the blackpoint. - * @param gmax The green component value of the whitepoint. - * @param bmin The blue component value of the blackpoint. - * @param bmax The blue component value of the whitepoint. - */ -#define libclut_cie_limits(clut, max, type, rmin, rmax, gmin, gmax, bmin, bmax) \ - do \ - { \ - double rd__ = (rmax) - (rmin), gd__ = (gmax) - (gmin), bd__ = (bmax) - (bmin); \ - libclut_cie__(clut, max, type, \ - libclut_eq__((rmin), (gmin)) && libclut_eq__((gmin), (bmin)) && \ - libclut_eq__((rmax), (gmax)) && libclut_eq__((gmax), (bmax)), \ - !libclut_0__(rmin) || !libclut_1__(rmax), \ - !libclut_0__(gmin) || !libclut_1__(gmax), \ - !libclut_0__(bmin) || !libclut_1__(bmax), \ - Y__ * rd__ + (rmin), Y__ * gd__ + (gmin), Y__ * bd__ + (bmin)); \ - } \ - while (0) - - -/** - * Manipulate the colour curves using a function on the sRGB colour space. - * - * None of the parameter may have side-effects. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param r Function to manipulate the red colour curve, should either - * be `NULL` or map a [0, 1] `double` to a [0, 1] `double`. - * @param g Function to manipulate the green colour curve, should either - * be `NULL` or map a [0, 1] `double` to a [0, 1] `double`. - * @param b Function to manipulate the blue colour curve, should either - * be `NULL` or map a [0, 1] `double` to a [0, 1] `double`. - */ -#define libclut_manipulate(clut, max, type, r, g, b) \ - do \ - { \ - double m__ = (double)(max); \ - double (*gcc_6_1_1_workaround__)(double); \ - gcc_6_1_1_workaround__ = r; \ - if (gcc_6_1_1_workaround__) \ - libclut__(clut, red, type, m__ * (gcc_6_1_1_workaround__)(LIBCLUT_VALUE / m__)); \ - gcc_6_1_1_workaround__ = g; \ - if (gcc_6_1_1_workaround__) \ - libclut__(clut, green, type, m__ * (gcc_6_1_1_workaround__)(LIBCLUT_VALUE / m__)); \ - gcc_6_1_1_workaround__ = b; \ - if (gcc_6_1_1_workaround__) \ - libclut__(clut, blue, type, m__ * (gcc_6_1_1_workaround__)(LIBCLUT_VALUE / m__)); \ - } \ - while (0) - - -/** - * Manipulate the colour curves using a function on the CIE xyY colour space. - * - * None of the parameter may have side-effects. - * - * Requires linking with '-lclut'. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param r Function to manipulate the red colour curve, should either - * be `NULL` or map a [0, 1] `double` to a [0, 1] `double`. - * @param g Function to manipulate the green colour curve, should either - * be `NULL` or map a [0, 1] `double` to a [0, 1] `double`. - * @param b Function to manipulate the blue colour curve, should either - * be `NULL` or map a [0, 1] `double` to a [0, 1] `double`. - */ -#define libclut_cie_manipulate(clut, max, type, r, g, b) \ - libclut_cie__(clut, max, type, (r) && (g) && (b), r, g, b, (r)(Y__), (g)(Y__), (b)(Y__)) - - -/** - * Resets colour curvers to linear mappings. - * (Identity mapping if imaginged to map from [0, 1] to [0, 1].) - * - * None of the parameter may have side-effects. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param r Whether to reset the red colour curve. - * @param g Whether to reset the green colour curve. - * @param b Whether to reset the blue colour curve. - */ -#define libclut_start_over(clut, max, type, r, g, b) \ - do \ - { \ - size_t i__; \ - double m__, max__ = (double)(max); \ - if (r) \ - { \ - m__ = (double)((clut)->red_size - 1); \ - for (i__ = 0; i__ < (clut)->red_size; i__++) \ - (clut)->red[i__] = (type)(((double)i__ / m__) * max__); \ - } \ - if (g) \ - { \ - m__ = (double)((clut)->green_size - 1); \ - for (i__ = 0; i__ < (clut)->green_size; i__++) \ - (clut)->green[i__] = (type)(((double)i__ / m__) * max__); \ - } \ - if (b) \ - { \ - m__ = (double)((clut)->blue_size - 1); \ - for (i__ = 0; i__ < (clut)->blue_size; i__++) \ - (clut)->blue[i__] = (type)(((double)i__ / m__) * max__); \ - } \ - } \ - while (0) - - -/** - * Clip colour curves to only map to values between the minimum and maximum. - * This should be done, before apply the curves, and before applying changes - * with limited domain. - * - * Values below 0 are set to 0, and values above `max` are set to `max`. - * - * None of the parameter may have side-effects. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param r Whether to clip the red colour curve. - * @param g Whether to clip the green colour curve. - * @param b Whether to clip the blue colour curve. - */ -#define libclut_clip(clut, max, type, r, g, b) \ - do \ - { \ - if (r) libclut__(clut, red, type, libclut_clip__(0, LIBCLUT_VALUE, max)); \ - if (g) libclut__(clut, green, type, libclut_clip__(0, LIBCLUT_VALUE, max)); \ - if (b) libclut__(clut, blue, type, libclut_clip__(0, LIBCLUT_VALUE, max)); \ - } \ - while (0) - -/** - * Truncates a value to fit a boundary. - * - * None of the parameter may have side-effects. - * - * Intended for internal use. - * - * @param min The minimum allowed value. - * @param val The current value. - * @param max The maximum allowed value. - * @return The value truncated into its boundary. - */ -#define libclut_clip__(min, val, max) \ - (LIBCLUT_VALUE < (min) ? (min) : LIBCLUT_VALUE > (max) ? (max) : LIBCLUT_VALUE) - - -/** - * Emulates low colour resolution. - * - * None of the parameter may have side-effects. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param rx The desired emulated red encoding resolution, 0 for unchanged. - * @param ry The desired emulated red output resolution, 0 for unchanged. - * @param gx The desired emulated green encoding resolution, 0 for unchanged. - * @param gy The desired emulated green output resolution, 0 for unchanged. - * @param bx The desired emulated blue encoding resolution, 0 for unchanged. - * @param by The desired emulated blue output resolution, 0 for unchanged. - */ -#define libclut_lower_resolution(clut, max, type, rx, ry, gx, gy, bx, by) \ - do \ - { \ - libclut_lower_resolution__(clut, red, max, type, rx, ry); \ - libclut_lower_resolution__(clut, green, max, type, gx, gy); \ - libclut_lower_resolution__(clut, blue, max, type, bx, by); \ - } \ - while (0) - - -/** - * Emulates low colour resolution of a channel. - * - * None of the parameter may have side-effects. - * - * Intended for internal use. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param channel The channel, must be either "red", "green", or "blue". - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param x The desired emulated encoding resolution, 0 for unchanged. - * @param y The desired emulated output resolution, 0 for unchanged. - */ -#define libclut_lower_resolution__(clut, channel, max, type, x, y) \ - do \ - if ((x) || (y)) \ - { \ - size_t x__, y__, i__, n__ = (clut)->channel##_size; \ - double xm__ = (double)((x) - 1), ym__ = (double)((y) - 1); \ - double m__ = (double)(max), nm__ = (double)(n__ - 1); \ - type c__[n__]; /* Do not use alloca! */ \ - const double h__ = (double)5 / 10; \ - for (i__ = 0; i__ < n__; i__++) \ - { \ - if ((x__ = i__), (x)) \ - { \ - x__ = (size_t)((double)i__ * (double)(x) / (double)n__); \ - x__ = (size_t)((double)x__ * nm__ / xm__); \ - } \ - if (!(y)) \ - c__[i__] = (clut)->channel[x__]; \ - else \ - { \ - y__ = (size_t)((double)((clut)->channel[x__]) / (max) * ym__ + h__); \ - c__[i__] = (type)((double)y__ / ym__ * m__); \ - } \ - } \ - memcpy((clut)->channel, c__, n__ * sizeof(type)); \ - } \ - while (0) - - -/** - * Translates a gamma ramp structure to another gamma ramp structure type. - * - * None of the parameter may have side-effects. - * - * @param dclut Pointer to the desired gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars `red_size`, - * `green_size`, and `blue_size`. Ramp structures from - * libgamma or libcoopgamma can be used. - * @param dmax The maximum value on each stop in the ramps in `dclut`. - * @param dtype The data type used for each stop in the ramps in `dclut`. - * @param sclut Pointer to the set gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars `red_size`, - * `green_size`, and `blue_size`. Ramp structures from - * libgamma or libcoopgamma can be used. - * @param smax The maximum value on each stop in the ramps in `sclut`. - * @param stype The data type used for each stop in the ramps in `sclut`. - * (Not actually used.) - */ -#define libclut_translate(dclut, dmax, dtype, sclut, smax, stype) \ - do \ - { \ - libclut_translate__(dclut, dmax, dtype, sclut, smax, stype, red); \ - libclut_translate__(dclut, dmax, dtype, sclut, smax, stype, green); \ - libclut_translate__(dclut, dmax, dtype, sclut, smax, stype, blue); \ - } \ - while (0) - -/** - * Translates a gamma ramp structure to another gamma ramp structure type. - * - * None of the parameter may have side-effects. - * - * This is intended for internal use. - * - * @param dclut Pointer to the desired gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars `red_size`, - * `green_size`, and `blue_size`. Ramp structures from - * libgamma or libcoopgamma can be used. - * @param dmax The maximum value on each stop in the ramps in `dclut`. - * @param dtype The data type used for each stop in the ramps in `dclut`. - * @param sclut Pointer to the set gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars `red_size`, - * `green_size`, and `blue_size`. Ramp structures from - * libgamma or libcoopgamma can be used. - * @param smax The maximum value on each stop in the ramps in `sclut`. - * @param stype The data type used for each stop in the ramps in `sclut`. - * (Not actually used.) - * @param channel The channel, must be either "red", "green", or "blue". - */ -#define libclut_translate__(dclut, dmax, dtype, sclut, smax, stype, channel) \ - do \ - { \ - size_t di__, si__, sj__; \ - size_t dn__ = (dclut)->channel##_size; \ - size_t sn__ = (sclut)->channel##_size; \ - double dm__ = (double)(dmax); \ - double sm__ = (double)(smax); \ - double dmsm__ = dm__ / sm__; \ - double x__, y__; \ - if (dn__ == sn__) \ - for (di__ = 0; di__ < dn__; di__++) \ - { \ - y__ = (double)((sclut)->channel[di__]) * dmsm__; \ - (dclut)->channel[di__] = (dtype)y__; \ - } \ - else \ - for (di__ = 0; di__ < dn__; di__++) \ - { \ - x__ = di__ / (dn__ - 1) * (sn__ - 1); \ - si__ = (size_t)(x__); \ - sj__ = si__ + (si__ != sn__); \ - x__ -= (double)si__; \ - y__ = (double)((sclut)->channel[si__]) * (1 - x__); \ - y__ += (double)((sclut)->channel[sj__]) * (x__); \ - y__ *= dmsm__; \ - (dclut)->channel[di__] = (dtype)y__; \ - } \ - } \ - while (0) - - -/** - * Applies a filter or calibration. - * - * None of the parameter may have side-effects. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param filter Same as `clut`, but for the filter to apply. - * @param fmax Same as `max`, but for the filter to apply. - * @param ftype Same as `type`, but for the filter to apply. (Not actually used). - * @param r Whether to apply the filter for the red curve. - * @param g Whether to apply the filter for the green curve. - * @param b Whether to apply the filter for the blue curve. - */ -#define libclut_apply(clut, max, type, filter, fmax, ftype, r, g, b) \ - do \ - { \ - if (r) libclut_apply__(clut, max, type, filter, fmax, ftype, red); \ - if (g) libclut_apply__(clut, max, type, filter, fmax, ftype, green); \ - if (b) libclut_apply__(clut, max, type, filter, fmax, ftype, blue); \ - } \ - while (0) - - -/** - * Applies a filter or calibration for one channel. - * - * None of the parameter may have side-effects. - * - * Intended for internal use. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param filter Same as `clut`, but for the filter to apply. - * @param fmax Same as `max`, but for the filter to apply. - * @param ftype Same as `type`, but for the filter to apply. (Not actually used). - * @param channel The channel, must be either "red", "green", or "blue". - */ -#define libclut_apply__(clut, max, type, filter, fmax, ftype, channel) \ - do \ - { \ - size_t i__, rn__ = (clut)->channel##_size, fn__ = (filter)->channel##_size - 1; \ - double x__, rm__ = (double)(max), m__ = (double)(max) / (double)(fmax); \ - for (i__ = 0; i__ < rn__; i__++) \ - { \ - x__ = (double)((clut)->channel[i__]) / rm__ * (double)fn__; \ - (clut)->channel[i__] = (type)((double)((filter)->channel[(size_t)x__]) * m__); \ - } \ - } \ - while (0) - - -/** - * Applies a filter or calibration, using CIE xyY. - * - * None of the parameter may have side-effects. - * - * Requires linking with '-lclut'. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param filter Same as `clut`, but for the filter to apply. - * @param fmax Same as `max`, but for the filter to apply. - * @param ftype Same as `type`, but for the filter to apply. (Not actually used). - * @param r Whether to apply the filter for the red curve. - * @param g Whether to apply the filter for the green curve. - * @param b Whether to apply the filter for the blue curve. - */ -#define libclut_cie_apply(clut, max, type, filter, fmax, ftype, r, g, b) \ - do \ - { \ - size_t rfn__ = (filter)->red_size - 1, gfn__ = (filter)->green_size - 1; \ - size_t bfn__ = (filter)->blue_size - 1, x__; \ - size_t rm__ = (double)(max), fm__ = (double)(fmax); \ - libclut_cie__(clut, max, type, 0, r, g, b, \ - (x__ = (size_t)(Y__ / rm__ * rfn__), (double)((filter)->red[x__]) / fm__), \ - (x__ = (size_t)(Y__ / rm__ * gfn__), (double)((filter)->green[x__]) / fm__), \ - (x__ = (size_t)(Y__ / rm__ * bfn__), (double)((filter)->blue[x__]) / fm__)); \ - } \ - while (0) - - -/** - * Modify a ramp. - * - * None of the parameter may have side-effects. - * - * This is intended for internal use. - * - * @param clut Pointer to the gamma ramps, must have and array - * named `channel` and a scalar named `channel` followed - * by "_size". - * @param channel The channel, must be either "red", "green", or "blue". - * @param type The data type used for each stop in the ramps. - * @param expr Expression that evalutes the value a stop should have. - * It can use the variable `LIBCLUT_VALUE` to get the - * current value of the stop. - */ -#define libclut__(clut, channel, type, expr) \ - do \ - { \ - size_t i__, n__ = (clut)->channel##_size; \ - type LIBCLUT_VALUE; \ - for (i__ = 0; i__ < n__; i__++) \ - { \ - LIBCLUT_VALUE = (clut)->channel[i__]; \ - (clut)->channel[i__] = (type)(expr); \ - } \ - } \ - while (0) - - -/** - * Modify a ramp set in CIE xyY. - * - * None of the parameter may have side-effects. - * - * Requires linking with '-lclut'. - * - * This is intended for internal use. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param utest Whether all channels can be modified at the same time. - * This test does not have to include the ramp size. - * @param rtest Whether the red channel have to be modified. - * @param gtest Whether the green channel have to be modified. - * @param btest Whether the blue channel have to be modified. - * @param rexpr Expression calculating the intensity of the red channel. - * The current value is stored in `Y__`. - * @param gexpr Expression calculating the intensity of the green channel. - * The current value is stored in `Y__`. - * @param bexpr Expression calculating the intensity of the blue channel. - * The current value is stored in `Y__`. - */ -#define libclut_cie__(clut, max, type, utest, rtest, gtest, btest, rexpr, gexpr, bexpr) \ - do \ - { \ - size_t rn__ = (clut)->red_size; \ - size_t gn__ = (clut)->green_size; \ - size_t bn__ = (clut)->blue_size; \ - size_t i__; \ - double x__, y__, Y__, r__, g__, b__; \ - double m__ = (double)(max); \ - type* rs__ = (clut)->red; \ - type* gs__ = (clut)->green; \ - type* bs__ = (clut)->blue; \ - if ((rn__ == gn__) && (gn__ == bn__) && (utest)) \ - { \ - if (!(rtest)) \ - break; \ - for (i__ = 0; i__ < rn__; i__++) \ - { \ - libclut_model_srgb_to_ciexyy(rs__[i__] / m__, gs__[i__] / m__, \ - bs__[i__] / m__, &x__, &y__, &Y__); \ - libclut_model_ciexyy_to_srgb(x__, y__, rexpr, &r__, &g__, &b__); \ - rs__[i__] = (type)(r__ * m__); \ - gs__[i__] = (type)(g__ * m__); \ - bs__[i__] = (type)(b__ * m__); \ - } \ - } \ - else if ((rn__ == gn__) && (gn__ == bn__)) \ - { \ - if (!(rtest) && !(gtest) && !(btest)) \ - break; \ - for (i__ = 0; i__ < rn__; i__++) \ - { \ - libclut_model_srgb_to_ciexyy(rs__[i__] / m__, gs__[i__] / m__, \ - bs__[i__] / m__, &x__, &y__, &Y__); \ - if (rtest) \ - { \ - libclut_model_ciexyy_to_srgb(x__, y__, rexpr, &r__, &g__, &b__); \ - rs__[i__] = (type)(r__ * m__); \ - } \ - if (gtest) \ - { \ - libclut_model_ciexyy_to_srgb(x__, y__, gexpr, &r__, &g__, &b__); \ - gs__[i__] = (type)(g__ * m__); \ - } \ - if (btest) \ - { \ - libclut_model_ciexyy_to_srgb(x__, y__, bexpr, &r__, &g__, &b__); \ - bs__[i__] = (type)(b__ * m__); \ - } \ - } \ - } \ - else \ - { \ - if (rtest) \ - for (i__ = 0; i__ < rn__; i__++) \ - libclut_cie___(clut, max, type, r, rexpr, i__, \ - libclut_i__(i__, rn__, gn__), \ - libclut_i__(i__, rn__, bn__)); \ - if (gtest) \ - for (i__ = 0; i__ < rn__; i__++) \ - libclut_cie___(clut, max, type, g, gexpr, \ - libclut_i__(i__, gn__, rn__), i__, \ - libclut_i__(i__, gn__, bn__)); \ - if (btest) \ - for (i__ = 0; i__ < rn__; i__++) \ - libclut_cie___(clut, max, type, b, bexpr, \ - libclut_i__(i__, bn__, rn__), \ - libclut_i__(i__, bn__, gn__), i__); \ - } \ - } \ - while (0) - - -/** - * Modify a ramp stop in CIE xyY. - * - * None of the parameter may have side-effects. - * - * Requires linking with '-lclut'. - * - * This is intended for internal use. - * Assumes the existence of variables defined in `libclut_cie__`. - * - * @param clut Pointer to the gamma ramps, must have the arrays - * `red`, `green`, and `blue`, and the scalars - * `red_size`, `green_size`, and `blue_size`. Ramp - * structures from libgamma or libcoopgamma can be used. - * @param max The maximum value on each stop in the ramps. - * @param type The data type used for each stop in the ramps. - * @param c Either "r" for red, "g" for green, or "b" for blue. - * @param expr Expression calculating the intensity of the channel. - * @param ri The index of the stop translated to the red channel. - * @param gi The index of the stop translated to the green channel. - * @param bi The index of the stop translated to the blue channel. - */ -#define libclut_cie___(clut, max, type, c, expr, ri, gi, bi) \ - do \ - { \ - for (i__ = 0; i__ < c##n__; i__++) \ - { \ - libclut_model_srgb_to_ciexyy(rs__[(ri)] / m__, gs__[(gi)] / m__, \ - bs__[(bi)] / m__, &x__, &y__, &Y__); \ - libclut_model_ciexyy_to_srgb(x__, y__, expr, &r__, &g__, &b__); \ - c##s__[i__] = (type)(c##__ * m__); \ - } \ - } \ - while (0) - - -/** - * Translate an index from one channel to another. - * - * @param i The index in the input channel. - * @param in The size of the input channel. - * @param out The size of the output channel. - * @return The index in the output channel. - */ -#define libclut_i__(i, in, out) \ - (size_t)((double)(i) * (double)(out) / (double)(in)) - - - -#if defined(__GNUC__) && !defined(__clang__) -# define LIBCLUT_GCC_ONLY__(x) x -#else -# define LIBCLUT_GCC_ONLY__(x) /* do nothing */ -#endif - - - -/** - * Convert one component from [0, 1] linear sRGB to [0, 1] sRGB. - * - * If the macro variant is used, the argument must not have - * any side-effects. The macro variant requires linking with - * '-lm'. - * - * @param c The linear sRGB value. - * @return Corresponding sRGB value. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__const__, __leaf__))) -double (libclut_model_linear_to_standard1)(double); -#define libclut_model_linear_to_standard1(c) \ - (((double)(c) <= 0.0031308) ? (12.92 * (double)(c)) : ((1.055) * pow((double)(c), 1 / 2.4) - 0.055)) - - -/** - * Convert [0, 1] linear sRGB to [0, 1] sRGB. - * - * The macro variant requires linking with '-lm', - * if the 'libclut_model_linear_to_standard1' is defined, - * otherwise it requires linking with '-lclut'. - * - * @param r Pointer to the linear red component, - * and output parameter for the red component. - * @param g Pointer to the linear green component, - * and output parameter for the green component. - * @param b Pointer to the linear blue component, - * and output parameter for the blue component. - */ -void (libclut_model_linear_to_standard)(double*, double*, double*); -#define libclut_model_linear_to_standard(r, g, b) \ - do \ - { \ - double *r__ = (r), *g__ = (g), *b__ = (b); \ - *r__ = libclut_model_linear_to_standard1(*r__); \ - *g__ = libclut_model_linear_to_standard1(*g__); \ - *b__ = libclut_model_linear_to_standard1(*b__); \ - } \ - while (0) - - -/** - * Convert one component from [0, 1] sRGB to [0, 1] linear sRGB. - * - * If the macro variant is used, the argument must not have - * any side-effects. The macro variant requires linking with - * '-lm'. - * - * @param c The sRGB value. - * @return Corresponding linear sRGB value. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__const__, __leaf__))) -double (libclut_model_standard_to_linear1)(double); -#define libclut_model_standard_to_linear1(c) \ - (((double)(c) <= 0.04045) ? ((double)(c) / 12.92) : pow(((double)(c) + 0.055) / 1.055, 2.4)) - - -/** - * Convert [0, 1] sRGB to [0, 1] linear sRGB. - * - * The macro variant requires linking with '-lm', - * if the 'libclut_model_standard_to_linear1' is defined, - * otherwise it requires linking with '-lclut'. - * - * @param r Pointer to the red component, and output - * parameter for the linear red component. - * @param g Pointer to the green component, and output - * parameter for the linear green component. - * @param b Pointer to the blue component, and output - * parameter for the linear blue component. - */ -void (libclut_model_standard_to_linear)(double*, double*, double*); -#define libclut_model_standard_to_linear(r, g, b) \ - do \ - { \ - double *r__ = (r), *g__ = (g), *b__ = (b); \ - *r__ = libclut_model_standard_to_linear1(*r__); \ - *g__ = libclut_model_standard_to_linear1(*g__); \ - *b__ = libclut_model_standard_to_linear1(*b__); \ - } \ - while (0) - - -/** - * Convert CIE xyY to CIE XYZ. - * - * @param x The x parameter. - * @param y The y parameter. - * @param Y The Y parameter. This is also the Y (middle) parameter for the CIE XYZ colour. - * @param X Output parameter for the X parameter. - * @param Z Output parameter for the Z parameter. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__leaf__))) -void (libclut_model_ciexyy_to_ciexyz)(double, double, double, double*, double*); -#define libclut_model_ciexyy_to_ciexyz(x, y, Y, X, Z) \ - do \ - { \ - double x__ = (x), y__ = (y), Y__ = (Y), *X__ = (X), *Z__ = (Z); \ - *X__ = libclut_0__(y__) ? Y__ : (Y__ * x__ / y__); \ - *Z__ = libclut_0__(y__) ? Y__ : (Y__ * (1 - x__ - y__) / y__); \ - } \ - while (0) - - -/** - * Convert CIE XYZ to CIE xyY. - * - * @param X The X parameter. - * @param Y The Y parameter. This is also the Y (last) parameter for the CIE xyY colour. - * @param Z The Z parameter. - * @param x Output parameter for the x parameter. - * @param y Output parameter for the y parameter. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__leaf__))) -void (libclut_model_ciexyz_to_ciexyy)(double, double, double, double*, double*); -#define libclut_model_ciexyz_to_ciexyy(X, Y, Z, x, y) \ - do \ - { \ - double X__ = (X), Y__ = (Y), Z__ = (Z), *x__ = (x), *y__ = (y); \ - double s__ = X__ + Y__ + Z__; \ - if (libclut_0__(s__)) \ - *x__ = *y__ = 0; \ - else \ - *x__ = X__ / s__, *y__ = Y__ / s__; \ - } \ - while (0) - - -/** - * Convert CIE XYZ to [0, 1] linear sRGB. - * - * @param X The X parameter. - * @param Y The Y parameter. - * @param Z The Z parameter. - * @param r Output parameter for the red component. - * @param g Output parameter for the green component. - * @param b Output parameter for the blue component. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__leaf__))) -void (libclut_model_ciexyz_to_linear)(double, double, double, double*, double*, double*); -#define libclut_model_ciexyz_to_linear(X, Y, Z, r, g, b) \ - do \ - { \ - double X__ = (X), Y__ = (Y), Z__ = (Z); \ - *(r) = ( 3.2404500 * X__) + (-1.537140 * Y__) + (-0.4985320 * Z__); \ - *(g) = (-0.9692660 * X__) + ( 1.876010 * Y__) + ( 0.0415561 * Z__); \ - *(b) = ( 0.0556434 * X__) + (-0.204026 * Y__) + ( 1.0572300 * Z__); \ - } \ - while (0) - - -/** - * Convert [0, 1] linear sRGB to CIE XYZ. - * - * @param r The red component. - * @param g The green component. - * @param b The blue component. - * @param X Output parameter for the X parameter. - * @param Y Output parameter for the Y parameter. - * @param Z Output parameter for the Z parameter. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__leaf__))) -void (libclut_model_linear_to_ciexyz)(double, double, double, double*, double*, double*); -#define libclut_model_linear_to_ciexyz(r, g, b, X, Y, Z) \ - do \ - { \ - double r__ = (r), g__ = (g), b__ = (b); \ - *(X) = (0.4124564 * r__) + (0.3575761 * g__) + (0.1804375 * b__); \ - *(Y) = (0.2126729 * r__) + (0.7151522 * g__) + (0.0721750 * b__); \ - *(Z) = (0.0193339 * r__) + (0.1191920 * g__) + (0.9503041 * b__); \ - } \ - while (0) - - -/** - * Convert [0, 1] sRGB to CIE xyY. - * - * The macro variant requires linking with '-lclut' - * if any of `libclut_model_ciexyz_to_ciexyy`, - * `libclut_model_linear_to_ciexyz`, and - * `libclut_model_standard_to_linear` are undefined. - * The macro variant requires linking with '-lm' if - * neither `libclut_model_standard_to_linear` nor - * `libclut_model_standard_to_linear1` are undefined. - * - * @param r The red component. - * @param g The green component. - * @param b The blue component. - * @param x Output parameter for the x parameter. - * @param y Output parameter for the y parameter. - * @param Y Output parameter for the Y parameter. - */ -void (libclut_model_srgb_to_ciexyy)(double, double, double, double*, double*, double*); -#define libclut_model_srgb_to_ciexyy(r, g, b, x, y, Y) \ - do \ - { \ - double r___ = (r), g___ = (g), b___ = (b); \ - double *x___ = (x), *y___ = (y), *Y___ = (Y); \ - double X___, Z___; \ - libclut_model_standard_to_linear(&r___, &g___, &b___); \ - libclut_model_linear_to_ciexyz(r___, g___, b___, &X___, Y___, &Z___); \ - libclut_model_ciexyz_to_ciexyy(X___, *Y___, Z___, x___, y___); \ - } \ - while (0) - - -/** - * Convert CIE xyY to [0, 1] sRGB. - * - * The macro variant requires linking with '-lclut' - * if any of `libclut_model_ciexyy_to_ciexyz`, - * `libclut_model_ciexyz_to_linear`, and - * `libclut_model_linear_to_standard` are undefined. - * The macro variant requires linking with '-lm' if - * neither `libclut_model_linear_to_standard` nor - * `libclut_model_linear_to_standard1` are undefined. - * - * @param x The x parameter. - * @param y The y parameter. - * @param Y The Y parameter. - * @param r Output parameter for the red component. - * @param g Output parameter for the green component. - * @param b Output parameter for the blue component. - */ -void (libclut_model_ciexyy_to_srgb)(double, double, double, double*, double*, double*); -#define libclut_model_ciexyy_to_srgb(x, y, Y, r, g, b) \ - do \ - { \ - double x___ = (x), y___ = (y), Y___ = (Y); \ - double *r___ = (r), *g___ = (g), *b___ = (b); \ - double X___, Z___; \ - libclut_model_ciexyy_to_ciexyz(x___, y___, Y___, &X___, &Z___); \ - libclut_model_ciexyz_to_linear(X___, Y___, Z___, r___, g___, b___); \ - libclut_model_linear_to_standard(r___, g___, b___); \ - } \ - while(0) - - -/** - * Convert from CIE XYZ to CIE L*a*b*. - * - * The macro variant requires linking with '-lm'. - * - * @param X The X parameter. - * @param Y The Y parameter. - * @param Z The Z parameter. - * @param L Output parameter for the L* component. - * @param a Output parameter for the a* component. - * @param b Output parameter for the b* component. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__leaf__))) -void (libclut_model_ciexyz_to_cielab)(double, double, double, double*, double*, double*); -#define libclut_model_ciexyz_to_cielab(X, Y, Z, L, a, b) \ - do \ - { \ - double X__ = (X), Y__ = (Y), Z__ = (Z); \ - X__ /= 0.95047, Z__ /= 1.08883; \ - X__ = LIBCLUT_MODEL_CIEXYZ_TO_CIELAB__(X__); \ - Y__ = LIBCLUT_MODEL_CIEXYZ_TO_CIELAB__(Y__); \ - Z__ = LIBCLUT_MODEL_CIEXYZ_TO_CIELAB__(Z__); \ - *(L) = 116 * Y__ - 16; \ - *(a) = 500 * (X__ - Y__); \ - *(b) = 200 * (Y__ - Z__); \ - } \ - while (0) -#define LIBCLUT_MODEL_CIEXYZ_TO_CIELAB__(C) \ - (((C) > 0.00885642) ? pow((C), 1.0 / 3) : ((7.78 + 703.0 / 99900) * (C) + 0.1379310)) - - -/** - * Convert from CIE L*a*b* to CIE XYZ. - * - * @param L The L* component. - * @param a The a* component. - * @param b The b* component. - * @param X Output parameter for the X parameter. - * @param Y Output parameter for the Y parameter. - * @param Z Output parameter for the Z parameter. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__leaf__))) -void (libclut_model_cielab_to_ciexyz)(double, double, double, double*, double*, double*); -#define libclut_model_cielab_to_ciexyz(L, a, b, X, Y, Z) \ - do \ - { \ - double L__ = (L), a__ = (a), b__ = (b); \ - double *X__ = (X), *Y__ = (Y), *Z__ = (Z); \ - *Y__ = (L__ + 16) / 116; \ - *X__ = a__ / 500 + *Y__; \ - *Z__ = *Y__ - b__ / 200; \ - *X__ = LIBCLUT_MODEL_CIELAB_TO_CIEXYZ__(*X__) * 0.95047; \ - *Y__ = LIBCLUT_MODEL_CIELAB_TO_CIEXYZ__(*Y__) * 1.08883; \ - *Z__ = LIBCLUT_MODEL_CIELAB_TO_CIEXYZ__(*Z__); \ - } \ - while (0) -#define LIBCLUT_MODEL_CIELAB_TO_CIEXYZ__(C) \ - (((C)*(C)*(C) > 0.00885642) ? ((C)*(C)*(C)) : (((C) - 0.1379310) / (7.78 + 703.0 / 99900))) - - -/** - * Convert from CIE XYZ to CIELUV. - * - * Requires linking with `-lm`. - * - * @param X The X component. - * @param Y The Y component. - * @param Z The Z component. - * @param Xn The X component of the specified white object (white point). - * @param Yn The Y component of the specified white object (white point). - * @param Zn The Z component of the specified white object (white point). - * @param L Output parameter for the L* parameter. - * @param u Output parameter for the u* parameter. - * @param v Output parameter for the v* parameter. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__leaf__))) -void (libclut_model_ciexyz_to_cieluv)(double, double, double, double, double, - double, double*, double*, double*); -#define libclut_model_ciexyz_to_cieluv(X, Y, Z, Xn, Yn, Zn, L, u, v) \ - do \ - { \ - double xn__ = (Xn), yn__ = (Yn); \ - double t__ = xn__ + 15 * yn__ + 3 * (Zn); \ - double u__ = 4 * xn__ / t__; \ - double v__ = 9 * yn__ / t__; \ - double x__ = (X), y__ = (Y); \ - t__ = x__ + 15 * y__ + 3 * (Z); \ - u__ = 4 * x__ / t__ - u__; \ - v__ = 9 * y__ / t__ - v__; \ - y__ /= yn__; \ - if (y__ * 24389 <= (double)216) \ - y__ *= 24389, y__ /= 27; \ - else \ - y__ = cbrt(y__) * 116 - 16; \ - *(L) = y__; \ - y__ *= 13; \ - *(u) = y__ * u__; \ - *(v) = y__ * v__; \ - } \ - while (0) - - -/** - * Convert from CIELUV to CIE XYZ. - * - * @param L The L* component. - * @param u The u* component. - * @param v The v* component. - * @param Xn The X component of the specified white object (white point). - * @param Yn The Y component of the specified white object (white point). - * @param Zn The Z component of the specified white object (white point). - * @param X Output parameter for the X parameter. - * @param Y Output parameter for the Y parameter. - * @param Z Output parameter for the Z parameter. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__leaf__))) -void (libclut_model_cieluv_to_ciexyz)(double, double, double, double, double, - double, double*, double*, double*); -#define libclut_model_cieluv_to_ciexyz(L, u, v, Xn, Yn, Zn, X, Y, Z) \ - do \ - { \ - double x__ = (Xn), y__ = (Yn), l__ = (L), l13__ = l__ * 13; \ - double t__ = x__ + 15 * y__ + 3 * (Zn); \ - double u__ = 4 * x__ / t__; \ - double v__ = 9 * y__ / t__; \ - u__ = (u) / l13__ + u__; \ - v__ = (v) / l13__ + v__; \ - if (l__ <= (double)8) \ - y__ *= l__ * 27 / 24389; \ - else \ - { \ - l__ += 16, l__ /= 116; \ - y__ *= l__ *= l__ * l__; \ - } \ - *(Y) = y__; \ - *(X) = y__ * 9 * u__ / (4 * v__); \ - *(Z) = y__ * (12 - 3 * u__ - 20 * v__) / (4 * v__); \ - } \ - while (0) - - -/** - * Convert from CIELCh to CIE L*u*v*. - * - * Requires linking with `-lm`. - * - * @param C The C*_uv component. - * @param h The h_uv component. - * @param u Output parameter for the u* parameter. - * @param v Output parameter for the v* parameter. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__leaf__))) -void (libclut_model_cielch_to_cieluv)(double, double, double*, double*); -#define libclut_model_cielch_to_cieluv(C, h, u, v) \ - do \ - { \ - double h__ = (h), C__ = (C); \ - *(v) = sin(h__) * C__; \ - *(u) = cos(h__) * C__; \ - } \ - while (0) - - -/** - * Convert from CIE L*u*v* to CIELCh. - * - * Requires linking with `-lm`. - * - * @param u The u* component. - * @param v The v* component. - * @param C Output parameter for the C*_uv parameter. - * @param h Output parameter for the h_uv parameter. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__leaf__))) -void (libclut_model_cieluv_to_cielch)(double, double, double*, double*); -#define libclut_model_cieluv_to_cielch(u, v, C, h) \ - do \ - { \ - double u__ = (u), v__ = (v); \ - *(C) = sqrt(u__ * u__ + v__ * v__); \ - *(h) = atan2(v__, u__); \ - } \ - while (0) - - -/** - * Convert from sRGB to YIQ. - * - * Requires linking with '-lclut', or '-lm' if - * `libclut_model_standard_to_linear1` is not undefined. - * - * @param r The R component. - * @param g The G component. - * @param b The B component. - * @param y Output parameter for the Y parameter. - * @param i Output parameter for the I parameter. - * @param q Output parameter for the Q parameter. - */ -void (libclut_model_srgb_to_yiq)(double, double, double, double*, double*, double*); -#define libclut_model_srgb_to_yiq(r, g, b, y, i, q) \ - do \ - { \ - double r__ = libclut_model_standard_to_linear1(r) / 100000000000000000ULL; \ - double g__ = libclut_model_standard_to_linear1(g) / 10000000000000000ULL; \ - double b__ = libclut_model_standard_to_linear1(b) / 100000000000000000ULL; \ - *(y) = r__ * 29893602129377540ULL + g__ * 5870430744511212ULL + b__ * 11402090425510336ULL; \ - *(i) = r__ * 59594574307079930ULL - g__ * 2743886357457892ULL - b__ * 32155710732501010ULL; \ - *(q) = r__ * 21149734030682846ULL - g__ * 5229106903029739ULL + b__ * 31141334999614540ULL; \ - } \ - while (0) - - -/** - * Convert from YIQ to sRGB. - * - * Requires linking with '-lclut', or '-lm' if - * `libclut_model_linear_to_standard1` is not undefined. - * - * @param y The Y component. - * @param i The I component. - * @param q The Q component. - * @param r Output parameter for the R parameter. - * @param g Output parameter for the G parameter. - * @param b Output parameter for the B parameter. - */ -void (libclut_model_yiq_to_srgb)(double, double, double, double*, double*, double*); -#define libclut_model_yiq_to_srgb(y, i, q, r, g, b) \ - do \ - { \ - double y__ = (y), i__ = (i), q__ = (q), r__, g__, b__; \ - r__ = y__ + i__ * 956 / 1000 + q__ * 621 / 1000; \ - g__ = y__ - i__ * 272 / 1000 - q__ * 647 / 1000; \ - b__ = y__ - i__ * 1106 / 1000 + q__ * 1703 / 1000; \ - *(r) = libclut_model_linear_to_standard1(r__); \ - *(g) = libclut_model_linear_to_standard1(g__); \ - *(b) = libclut_model_linear_to_standard1(b__); \ - } \ - while (0) - - -/** - * Convert from sRGB to YDbDr. - * - * Requires linking with '-lclut', or '-lm' if - * `libclut_model_standard_to_linear1` is not undefined. - * - * @param r The R component. - * @param g The G component. - * @param b The B component. - * @param y Output parameter for the Y parameter. - * @param db Output parameter for the Db parameter. - * @param dr Output parameter for the Dr parameter. - */ -void (libclut_model_srgb_to_ydbdr)(double, double, double, double*, double*, double*); -#define libclut_model_srgb_to_ydbdr(r, g, b, y, db, dr) \ - do \ - { \ - double r__ = libclut_model_standard_to_linear1(r); \ - double g__ = libclut_model_standard_to_linear1(g); \ - double b__ = libclut_model_standard_to_linear1(b); \ - *(y) = r__ * 299 / 1000 + g__ * 587 / 1000 + b__ * 114 / 1000; \ - *(db) = -r__ * 450 / 1000 - g__ * 883 / 1000 + b__ * 1333 / 1000; \ - *(dr) = -r__ * 1333 / 1000 + g__ * 1116 / 1000 + b__ * 217 / 1000; \ - } \ - while (0) - - -/** - * Convert from YDbDr to sRGB. - * - * Requires linking with '-lclut', or '-lm' if - * `libclut_model_linear_to_standard1` is not undefined. - * - * @param y The Y component. - * @param db The Db component. - * @param dr The Dr component. - * @param r Output parameter for the R parameter. - * @param g Output parameter for the G parameter. - * @param b Output parameter for the B parameter. - */ -void (libclut_model_ydbdr_to_srgb)(double, double, double, double*, double*, double*); -#define libclut_model_ydbdr_to_srgb(y, db, dr, r, g, b) \ - do \ - { \ - double y__ = (y), db__ = (db), dr__ = (dr), r__, g__, b__; \ - db__ /= 1000000000000000ULL; \ - dr__ /= 1000000000000000ULL; \ - r__ = y__ + db__ * 92303716148ULL - dr__ * 525912630661865ULL; \ - g__ = y__ - db__ * 129132898890509ULL + dr__ * 267899328207599ULL; \ - b__ = y__ + db__ * 664679059978955ULL - dr__ * 79202543533ULL; \ - *(r) = libclut_model_linear_to_standard1(r__); \ - *(g) = libclut_model_linear_to_standard1(g__); \ - *(b) = libclut_model_linear_to_standard1(b__); \ - } \ - while (0) - - -/** - * Convert from YUV to YDbDr. - * - * @param u The U component. - * @param v The V component. - * @param db Output parameter for the Db parameter. - * @param dr Output parameter for the Dr parameter. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__leaf__))) -void (libclut_model_yuv_to_ydbdr)(double, double, double*, double*); -#define libclut_model_yuv_to_ydbdr(u, v, db, dr) \ - do \ - { \ - *(db) = 3069 * (u) / 1000; \ - *(dr) = -2169 * (v) / 1000; \ - } \ - while (0) - - -/** - * Convert from YDbDr to YUV. - * - * @param db The Db component. - * @param dr The Dr component. - * @param u Output parameter for the U parameter. - * @param v Output parameter for the V parameter. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__leaf__))) -void (libclut_model_ydbdr_to_yuv)(double, double, double*, double*); -#define libclut_model_ydbdr_to_yuv(db, dr, u, v) \ - do \ - { \ - *(u) = (db) * 1000 / 3069; \ - *(v) = (dr) * 1000 / -2169; \ - } \ - while (0) - - -/** - * Convert from sRGB to YPbPr. - * - * Requires linking with '-lclut', or '-lm' if - * `libclut_model_standard_to_linear1` is not undefined. - * - * @param r The R component. - * @param g The G component. - * @param b The B component. - * @param y Output parameter for the Y parameter. - * @param pb Output parameter for the Pb parameter. - * @param pr Output parameter for the Pr parameter. - */ -void (libclut_model_srgb_to_ypbpr)(double, double, double, double*, double*, double*); -#define libclut_model_srgb_to_ypbpr(r, g, b, y, pb, pr) \ - do \ - { \ - double r__ = libclut_model_standard_to_linear1(r); \ - double g__ = libclut_model_standard_to_linear1(g); \ - double b__ = libclut_model_standard_to_linear1(b); \ - double y__; \ - y__ = r__ * 2126 / 10000; \ - y__ += g__ * 7152 / 10000; \ - y__ += b__ * 722 / 10000; \ - *(y) = y__; \ - *(pb) = b__ - y__; \ - *(pr) = r__ - y__; \ - ; \ - } \ - while (0) - - -/** - * Convert from YPbPr to sRGB. - * - * Requires linking with '-lclut', or '-lm' if - * `libclut_model_linear_to_standard1` is not undefined. - * - * @param y The Y component. - * @param pb The Pb component. - * @param pr The Pr component. - * @param r Output parameter for the R parameter. - * @param g Output parameter for the G parameter. - * @param b Output parameter for the B parameter. - */ -void (libclut_model_ypbpr_to_srgb)(double, double, double, double*, double*, double*); -#define libclut_model_ypbpr_to_srgb(y, pb, pr, r, g, b) \ - do \ - { \ - double y__ = (y), r__ = (pr) + y__, g__, b__ = (pb) + y__; \ - y__ -= r__ * 2126 / 10000; \ - y__ -= b__ * 722 / 10000; \ - g__ = y__ * 10000 / 7152; \ - *(r) = libclut_model_linear_to_standard1(r__); \ - *(g) = libclut_model_linear_to_standard1(g__); \ - *(b) = libclut_model_linear_to_standard1(b__); \ - } \ - while (0) - - -/** - * Convert from sRGB to YCgCo. - * - * Requires linking with '-lclut', or '-lm' if - * `libclut_model_standard_to_linear1` is not undefined. - * - * @param r The R component. - * @param g The G component. - * @param b The B component. - * @param y Output parameter for the Y parameter. - * @param cg Output parameter for the Cg parameter. - * @param co Output parameter for the Co parameter. - */ -void (libclut_model_srgb_to_ycgco)(double, double, double, double*, double*, double*); -#define libclut_model_srgb_to_ycgco(r, g, b, y, cg, co) \ - do \ - { \ - double r__ = libclut_model_standard_to_linear1(r); \ - double g__ = libclut_model_standard_to_linear1(g); \ - double b__ = libclut_model_standard_to_linear1(b); \ - *(y) = r__ / 4 + g__ / 2 + b__ / 4; \ - *(cg) = r__ / -4 + g__ / 2 - b__ / 4; \ - *(co) = r__ / 2 - b__ / 2; \ - } \ - while (0) - - -/** - * Convert from YCgCo to sRGB. - * - * Requires linking with '-lclut', or '-lm' if - * `libclut_model_linear_to_standard1` is not undefined. - * - * @param y The Y component. - * @param cg The Cg component. - * @param co The Co component. - * @param r Output parameter for the R parameter. - * @param g Output parameter for the G parameter. - * @param b Output parameter for the B parameter. - */ -void (libclut_model_ycgco_to_srgb)(double, double, double, double*, double*, double*); -#define libclut_model_ycgco_to_srgb(y, cg, co, r, g, b) \ - do \ - { \ - double y__ = (y), cg__ = (cg), co__ = (co); \ - double r__ = y__ - cg__ + co__; \ - double g__ = y__ + cg__; \ - double b__ = y__ - cg__ - co__; \ - *(r) = libclut_model_linear_to_standard1(r__); \ - *(g) = libclut_model_linear_to_standard1(g__); \ - *(b) = libclut_model_linear_to_standard1(b__); \ - } \ - while (0) - - -/** - * Convert from CIE 1960 UCS to CIE XYZ. - * - * @param u The u component. - * @param v The v component. - * @param Y The Y component. - * @param x Output parameter for the X parameter. - * @param y Output parameter for the Y parameter. - * @param z Output parameter for the Z parameter. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__leaf__))) -void (libclut_model_cie_1960_ucs_to_ciexyz)(double, double, double, double*, double*, double*); -#define libclut_model_cie_1960_ucs_to_ciexyz(u, v, Y, x, y, z) \ - do \ - { \ - double u__ = (u), v__ = (v), y__ = (Y); \ - *(y) = y__; \ - *(x) = 3 * y__ * u__ / (2 * v__); \ - *(z) = (4 * y__ - y__ * u__ - 10 * y__ * v__) / (2 * v__); \ - } \ - while (0) - - -/** - * Convert from CIE XYZ to CIE 1960 UCS. - * - * @param x The X component. - * @param y The Y component. - * @param z The Z component. - * @param u Output parameter for the u parameter. - * @param v Output parameter for the v parameter. - * @param Y Output parameter for the Y parameter. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__leaf__))) -void (libclut_model_ciexyz_to_cie_1960_ucs)(double, double, double, double*, double*, double*); -#define libclut_model_ciexyz_to_cie_1960_ucs(x, y, z, u, v, Y) \ - do \ - { \ - double x__ = (x), y__ = (y); \ - double d__ = x__ + 15 * y__ + 3 * (z); \ - *(u) = 4 * x__ / d__; \ - *(v) = 6 * y__ / d__; \ - *(Y) = y__; \ - } \ - while (0) - - -/** - * Convert from CIEUVW to CIE 1960 UCS. - * - * @param U:double The U* component. - * @param V:double The V* component. - * @param W:double The W* component. - * @param u0:double The u parameter for the white point. - * @param v0:double The v parameter for the white point. - * @param u:double* Output parameter for the u parameter. - * @param v:double* Output parameter for the v parameter. - * @param Y:double* Output parameter for the Y parameter. - */ -LIBCLUT_GCC_ONLY__(__attribute__((__leaf__))) -void (libclut_model_cieuvw_to_cie_1960_ucs)(double, double, double, double, double, - double*, double*, double*); -#define libclut_model_cieuvw_to_cie_1960_ucs(U, V, W, u0, v0, u, v, Y) \ - do \ - { \ - double w__ = (W), y__ = (w__ + 17) / 25; \ - *(Y) = y__ *= y__ * y__; \ - w__ *= 13; \ - *(u) = (U) / w__ + (u0); \ - *(v) = (V) / w__ + (v0); \ - } \ - while (0) - - -/** - * Convert from CIE 1960 UCS to CIEUVW. - * - * Requires linking with `-lm`. - * - * @param u:double The u component. - * @param v:double The v component. - * @param Y:double The Y component. - * @param u0:double The u parameter for the white point. - * @param v0:double The v parameter for the white point. - * @param U:double* Output parameter for the U* parameter. - * @param V:double* Output parameter for the V* parameter. - * @param W:double* Output parameter for the W* parameter. - */ -void (libclut_model_cie_1960_ucs_to_cieuvw)(double, double, double, double, double, - double*, double*, double*); -#define libclut_model_cie_1960_ucs_to_cieuvw(u, v, Y, u0, v0, U, V, W) \ - do \ - { \ - double w__ = 25 * cbrt(Y) - 17; \ - *(W) = w__; \ - w__ *= 13; \ - *(U) = w__ * ((u) - (u0)); \ - *(V) = w__ * ((v) - (v0)); \ - } \ - while (0) - - -/** - * Create a matrix for converting values between - * two RGB colour spaces. - * - * @param from The input colour space, the Y-component is only necessary - * for the white point, `NULL` for CIE XYZ. - * @param to The output colour space, the Y-component is only necessary - * for the white point, `NULL` for CIE XYZ. - * @param M Output matrix for conversion from `from` to `to`. - * @param Minv Output matrix for conversion from `to` to `from`, may be `NULL`. - * @return Zero on success, -1 on error. - * - * @throws EINVAL The colour space cannot be used. - */ -int libclut_model_get_rgb_conversion_matrix(const libclut_rgb_colour_space_t*, - const libclut_rgb_colour_space_t*, - libclut_colour_space_conversion_matrix_t, - libclut_colour_space_conversion_matrix_t); - - -/** - * Convert an RGB colour into another RGB colour space. - * - * Both RGB colour spaces must have same gamma functions as sRGB. - * - * Requires linking with '-lclut', or '-lm' if - * `libclut_model_standard_to_linear1` or - * `libclut_model_linear_to_standard1` is not undefined. - * - * @param r The red component of the colour to convert. - * @param g The green component of the colour to convert. - * @param b The blue component of the colour to convert. - * @param M Conversion matrix, create with `libclut_model_get_rgb_conversion_matrix`, - * must not have side-effects. - * @param out_r Output parameter for the new red component. - * @param out_g Output parameter for the new green component. - * @param out_b Output parameter for the new blue component. - */ -void (libclut_model_convert_rgb)(double, double, double, libclut_colour_space_conversion_matrix_t, - double*, double*, double*); -#define libclut_model_convert_rgb(r, g, b, M, out_r, out_g, out_b) \ - do \ - { \ - double r__ = libclut_model_standard_to_linear1(r); \ - double g__ = libclut_model_standard_to_linear1(g); \ - double b__ = libclut_model_standard_to_linear1(b); \ - *(out_r) = libclut_model_linear_to_standard1((M)[0][0] * r__ + (M)[0][1] * g__ + (M)[0][2] * b__); \ - *(out_g) = libclut_model_linear_to_standard1((M)[1][0] * r__ + (M)[1][1] * g__ + (M)[1][2] * b__); \ - *(out_b) = libclut_model_linear_to_standard1((M)[2][0] * r__ + (M)[2][1] * g__ + (M)[2][2] * b__); \ - } \ - while (0) - - -/** - * Convert an RGB colour of a custom RGB colour space to CIE XYZ. - * - * The RGB colour space must have same gamma functions as sRGB. - * - * Requires linking with '-lclut', or '-lm' if - * `libclut_model_standard_to_linear1` is not undefined. - * - * @param r The red component. - * @param g The green component. - * @param b The blue component. - * @param M Conversion matrix, create with `libclut_model_get_rgb_conversion_matrix`, - * must not have side-effects. - * @param x Output parameter for the X component. - * @param y Output parameter for the Y component - * @param z Output parameter for the Z component. - */ -void (libclut_model_rgb_to_ciexyz)(double, double, double, libclut_colour_space_conversion_matrix_t, - double*, double*, double*); -#define libclut_model_rgb_to_ciexyz(r, g, b, M, x, y, z) \ - do \ - { \ - double r__ = libclut_model_standard_to_linear1(r); \ - double g__ = libclut_model_standard_to_linear1(g); \ - double b__ = libclut_model_standard_to_linear1(b); \ - *(x) = (M)[0][0] * r__ + (M)[0][1] * g__ + (M)[0][2] * b__; \ - *(y) = (M)[1][0] * r__ + (M)[1][1] * g__ + (M)[1][2] * b__; \ - *(z) = (M)[2][0] * r__ + (M)[2][1] * g__ + (M)[2][2] * b__; \ - } \ - while (0) - - -/** - * Convert a CIE XYZ colour to a custom RGB colour space. - * - * The RGB colour space must have same gamma functions as sRGB. - * - * Requires linking with '-lclut', or '-lm' if - * `libclut_model_linear_to_standard1` is not undefined. - * - * @param x The X component. - * @param y The Y component. - * @param z The Z component. - * @param M Conversion matrix, create with `libclut_model_get_rgb_conversion_matrix`, - * must not have side-effects. - * @param r Output parameter for the red component. - * @param g Output parameter for the green component - * @param b Output parameter for the blue component. - */ -void (libclut_model_ciexyz_to_rgb)(double, double, double, libclut_colour_space_conversion_matrix_t, - double*, double*, double*); -#define libclut_model_ciexyz_to_rgb(x, y, z, M, r, g, b) \ - do \ - { \ - double x__ = (x), y__ = (y), z__ = (z); \ - *(r) = libclut_model_linear_to_standard1((M)[0][0] * x__ + (M)[0][1] * y__ + (M)[0][2] * z__); \ - *(g) = libclut_model_linear_to_standard1((M)[1][0] * x__ + (M)[1][1] * y__ + (M)[1][2] * z__); \ - *(b) = libclut_model_linear_to_standard1((M)[2][0] * x__ + (M)[2][1] * y__ + (M)[2][2] * z__); \ - } \ - while (0) - - - -#if defined(__clang__) -# pragma GCC diagnostic pop -#endif - - -#endif - diff --git a/src/test.c b/src/test.c deleted file mode 100644 index 0ae2d50..0000000 --- a/src/test.c +++ /dev/null @@ -1,540 +0,0 @@ -/** - * Copyright © 2016 Mattias Andrée <maandree@member.fsf.org> - * - * This program is free software: you can redistribute it and/or modify - * it under the terms of the GNU General Public License as published by - * the Free Software Foundation, either version 3 of the License, or - * (at your option) any later version. - * - * This program is distributed in the hope that it will be useful, - * but WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - * GNU General Public License for more details. - * - * You should have received a copy of the GNU General Public License - * along with this program. If not, see <http://www.gnu.org/licenses/>. - */ -#include "libclut.h" - -#include <stddef.h> -#include <stdint.h> -#include <stdio.h> -#include <stdlib.h> -#include <string.h> - -#include <math.h> - - - -struct clut -{ - size_t red_size; - size_t green_size; - size_t blue_size; - uint16_t *red; - uint16_t *green; - uint16_t *blue; -}; - -struct dclut -{ - size_t red_size; - size_t green_size; - size_t blue_size; - double *red; - double *green; - double *blue; -}; - - - -static int clutcmp(const struct clut *a, const struct clut *b, uint16_t tol) -{ - size_t i; - if (tol == 0) - return memcmp(a->red, b->red, 3 * 256 * sizeof(uint16_t)); - for (i = 0; i < 3 * 256; i++) - if (a->red[i] > b->red[i]) - { - if (a->red[i] - b->red[i] > tol) - return +1; - } - else if (a->red[i] < b->red[i]) - { - if (b->red[i] - a->red[i] > tol) - return -1; - } - return 0; -} - - -static int dclutcmp(const struct dclut *a, const struct dclut *b, double tol) -{ - size_t i; - for (i = 0; i < 3 * 256; i++) - if (a->red[i] > b->red[i]) - { - if (a->red[i] - b->red[i] > tol) - return +1; - } - else if (a->red[i] < b->red[i]) - { - if (b->red[i] - a->red[i] > tol) - return -1; - } - return 0; -} - - -static void dumpcluts(const struct clut *a, const struct clut *b, int tol) -{ - size_t i; - uint16_t *r1 = a->red, *r2 = b->red, *g1 = a->green, *g2 = b->green, *b1 = a->blue, *b2 = b->blue; - for (i = 0; i < 256; i++) - { - if ((tol >= 0) && - (((r1[i] > r2[i]) ? (r1[i] - r2[i]) : (r2[i] - r1[i])) <= tol) && - (((g1[i] > g2[i]) ? (g1[i] - g2[i]) : (g2[i] - g1[i])) <= tol) && - (((b1[i] > b2[i]) ? (b1[i] - b2[i]) : (b2[i] - b1[i])) <= tol)) - continue; - printf("%3zu (%02zx) :: %04x - %04x ---- %04x - %04x ---- %04x - %04x\n", - i, i, r1[i], r2[i], g1[i], g2[i], b1[i], b2[i]); - } -} - - -static void dumpdcluts(const struct dclut *a, const struct dclut *b, double tol) -{ - size_t i; - double *r1 = a->red, *r2 = b->red, *g1 = a->green, *g2 = b->green, *b1 = a->blue, *b2 = b->blue; - for (i = 0; i < 256; i++) - { - if ((tol >= 0) && - (((r1[i] > r2[i]) ? (r1[i] - r2[i]) : (r2[i] - r1[i])) <= tol) && - (((g1[i] > g2[i]) ? (g1[i] - g2[i]) : (g2[i] - g1[i])) <= tol) && - (((b1[i] > b2[i]) ? (b1[i] - b2[i]) : (b2[i] - b1[i])) <= tol)) - continue; - printf("%3zu (%02zx) :: %lf - %lf ---- %lf - %lf ---- %lf - %lf\n", - i, i, r1[i], r2[i], g1[i], g2[i], b1[i], b2[i]); - } -} - - -static double make_double(double x) -{ - return x * 2; -} - - -/** - * Test libclut - * - * @return 0: All tests passed - * 1: At least one test fail - * 2: An error occurred - */ -int main(int argc, char *argv[]) -{ -#define HALF ((double)5 / 10) -#define TENTHS(x) ((double)x / 10) - - libclut_colour_space_conversion_matrix_t M, Minv; - libclut_rgb_colour_space_t srgb = LIBCLUT_RGB_COLOUR_SPACE_SRGB_INITIALISER; - libclut_rgb_colour_space_t wgrgb = LIBCLUT_RGB_COLOUR_SPACE_WIDE_GAMUT_RGB_INITIALISER; - struct clut t1, t2, t3; - struct dclut d1, d2; - size_t i, j; - int rc = 0; - double param, r, g, b, x, y, z; - - t1. red_size = t2. red_size = t3. red_size = d1. red_size = d2. red_size = 256; - t1.green_size = t2.green_size = t3.green_size = d1.green_size = d2.green_size = 256; - t1. blue_size = t2. blue_size = t3. blue_size = d1. blue_size = d2. blue_size = 256; - if (!(t1.red = malloc(3 * 256 * sizeof(uint16_t)))) goto fail; - if (!(t2.red = malloc(3 * 256 * sizeof(uint16_t)))) goto fail; - if (!(t3.red = malloc(3 * 256 * sizeof(uint16_t)))) goto fail; - if (!(d1.red = malloc(3 * 256 * sizeof(double)))) goto fail; - if (!(d2.red = malloc(3 * 256 * sizeof(double)))) goto fail; - t1.blue = (t1.green = t1.red + 256) + 256; - t2.blue = (t2.green = t2.red + 256) + 256; - t3.blue = (t3.green = t3.red + 256) + 256; - d1.blue = (d1.green = d1.red + 256) + 256; - d2.blue = (d2.green = d2.red + 256) + 256; - - - libclut_start_over(&t1, UINT16_MAX, uint16_t, 1, 1, 1); - for (i = 0; i < 256; i++) - t2.blue[i] = t2.green[i] = t2.red[i] = (uint16_t)((i << 8) | i); - if (clutcmp(&t1, &t2, 0)) - printf("libclut_start_over failed\n"), rc = 1; - - - for (i = 0, j = 255; i < 256; i++, j--) - { - t1.blue[i] = t1.green[i] = t1.red[i] = (uint16_t)i; - t2.blue[j] = t2.green[j] = t2.red[j] = (uint16_t)i; - } - libclut_negative(&t1, UINT16_MAX, uint16_t, 1, 1, 1); - if (clutcmp(&t1, &t2, 0)) - printf("libclut_negative failed\n"), rc = 1; - - - for (i = 0; i < 256; i++) - { - t1.blue[i] = t1.green[i] = t1.red[i] = (uint16_t)i; - t2.blue[i] = t2.green[i] = t2.red[i] = (uint16_t)(UINT16_MAX - (uint16_t)i); - } - libclut_rgb_invert(&t1, UINT16_MAX, uint16_t, 1, 1, 1); - if (clutcmp(&t1, &t2, 0)) - printf("libclut_rgb_invert failed\n"), rc = 1; - - - for (i = 0; i < 256; i++) - { - t1.blue[i] = t1.green[i] = t1.red[i] = (uint16_t)((i << 8) | i); - t2.blue[i] = (uint16_t)(1 + (t2.green[i] = (uint16_t)(1 + (t2.red[i] = (uint16_t)(1000 + i))))); - } - libclut_rgb_limits(&t1, UINT16_MAX, uint16_t, 1000, 1255, 1001, 1256, 1002, 1257); - if (clutcmp(&t1, &t2, 0)) - printf("libclut_rgb_limits failed\n"), rc = 1; - - - for (i = 0; i < 256; i++) - { - t1.blue[i] = t1.green[i] = t1.red[i] = (uint16_t)i; - t2.red[i] = (uint16_t)(t1.blue[i] * 2); - t2.green[i] = (uint16_t)(t1.green[i] * 3); - t2.blue[i] = (uint16_t)(t1.blue[i] * 4); - } - libclut_rgb_brightness(&t1, UINT16_MAX, uint16_t, 2, 3, 4); - if (clutcmp(&t1, &t2, 0)) - printf("libclut_rgb_brightness failed\n"), rc = 1; - - - for (i = 0; i < 256; i++) - { - t1.blue[i] = t1.green[i] = t1.red[i] = (uint16_t)i; - t2.blue[i] = t2.green[i] = (uint16_t)(2 * (t2.red[i] = (uint16_t)i)); - } - libclut_manipulate(&t1, UINT16_MAX, uint16_t, (double (*)(double))(NULL), make_double, make_double); - if (clutcmp(&t1, &t2, 0)) - printf("libclut_manipulate failed\n"), rc = 1; - - - for (i = 0; i < 256; i++) - { - t1.blue[i] = t1.green[i] = t1.red[i] = (uint16_t)i; - t2.blue[i] = t2.green[i] = t2.red[i] = (uint16_t)(pow((double)i / UINT16_MAX, (double)10 / 11) * UINT16_MAX); - } - libclut_gamma(&t1, UINT16_MAX, uint16_t, TENTHS(11), TENTHS(11), TENTHS(11)); - if (clutcmp(&t1, &t2, 0)) - printf("libclut_gamma failed\n"), rc = 1; - - - for (i = 0; i < 256; i++) - { - t1.blue[i] = t1.green[i] = t1.red[i] = (uint16_t)((i << 8) | i); - t2.blue[i] = t2.green[i] = t2.red[i] = (uint16_t)((t1.red[i] - UINT16_MAX / 2) / 2 + UINT16_MAX / 2); - } - libclut_rgb_contrast(&t1, UINT16_MAX, uint16_t, HALF, HALF, HALF); - if (clutcmp(&t1, &t2, 1)) - printf("libclut_rgb_contrast failed\n"), rc = 1; - - - param = 2; - for (i = 0; i < 256; i++) - { - double x = (double)i / 255; - if (i % 255) - { - x = 1 / x - 1; - x = log(x); - x = HALF - x / param; - } - t1.blue[i] = t1.green[i] = t1.red[i] = (uint16_t)((i << 8) | i); - t2.blue[i] = t2.green[i] = t2.red[i] = (uint16_t)(x * UINT16_MAX); - } - libclut_sigmoid(&t1, UINT16_MAX, uint16_t, ¶m, ¶m, ¶m); - t1.blue[0] = t1.green[0] = t1.red[0] = t2.red[0]; - t1.blue[255] = t1.green[255] = t1.red[255] = t2.red[255]; - if (clutcmp(&t1, &t2, 0)) - printf("libclut_sigmoid failed\n"), rc = 1; - - - for (i = 0; i < 256; i++) - { - t1.blue[i] = t1.green[i] = t1.red[i] = (uint16_t)((i << 8) | i); - t2.blue[i] = t2.green[i] = t2.red[i] = t1.red[i & 0xF0] | (t1.red[i & 0xF0] >> 4); - } - libclut_lower_resolution(&t1, UINT16_MAX, uint16_t, 16, 0, 16, 0, 16, 0); - if (clutcmp(&t1, &t2, 0)) - printf("libclut_lower_resolution (x) failed\n"), rc = 1; - - - for (i = 0; i < 256; i++) - { - t1.blue[i] = t1.green[i] = t1.red[i] = (uint16_t)((i << 8) | i); - t2.blue[i] = t2.green[i] = t2.red[i] = (uint16_t)((uint16_t)((double)i / 255 * 15 + HALF) * UINT16_MAX / 15); - } - libclut_lower_resolution(&t1, UINT16_MAX, uint16_t, 0, 16, 0, 16, 0, 16); - if (clutcmp(&t1, &t2, 0)) - printf("libclut_lower_resolution (y) failed\n"), rc = 1; - - - for (i = 0; i < 256; i++) - { - t1.blue[i] = t1.green[i] = t1.red[i] = (uint16_t)((i << 8) | i); - t2.blue[i] = t2.green[i] = t2.red[i] = (uint16_t)((i << 8) | i); - } - libclut_linearise(&t1, UINT16_MAX, uint16_t, 1, 1, 1); - if (!clutcmp(&t1, &t2, 1)) - printf("libclut_linearise failed\n"), rc = 1; - libclut_standardise(&t1, UINT16_MAX, uint16_t, 1, 1, 1); - if (clutcmp(&t1, &t2, 12)) - printf("libclut_linearise/libclut_standardise failed\n"), rc = 1; - /* High error rate, especially at low values, are expected due - * to low precision and truncated values rather rounded values. */ - - - for (i = 0; i < 256; i++) - { - d1.blue[i] = d1.green[i] = d1.red[i] = (i & 1) ? -1 : 2; - d2.blue[i] = d2.green[i] = d2.red[i] = (i & 1) ? 0 : 1; - } - libclut_clip(&d1, 1, double, 1, 1, 1); - if (dclutcmp(&d1, &d2, 0)) - printf("libclut_clip failed\n"), rc = 1; - - - for (i = 0; i < 256; i++) - { - t1.blue[i] = t1.green[i] = t1.red[i] = (uint16_t)(((255 - i) << 8) | (255 - i)); - t2.blue[i] = t2.green[i] = t2.red[i] = (uint16_t)(pow((double)i / 255, (double)10 / 11) * UINT16_MAX); - } - for (i = 0; i < 256; i++) - t3.blue[i] = t3.green[i] = t3.red[i] = t2.red[255 - i]; - libclut_apply(&t1, UINT16_MAX, uint16_t, &t2, UINT16_MAX, uint16_t, 1, 1, 1); - if (clutcmp(&t1, &t3, 0)) - printf("libclut_apply failed\n"), rc = 1; - - - if (libclut_model_get_rgb_conversion_matrix(&srgb, &wgrgb, M, Minv)) - { - printf("libclut_model_get_rgb_conversion_matrix failed\n"), rc = 1; - goto rgb_conversion_done; - } - if (0.5587 > M[0][0] || M[0][0] > 0.5589 || - 0.3587 > M[0][1] || M[0][1] > 0.3588 || - -.0101 > M[0][2] || M[0][2] > -.0099 || - 0.0938 > M[1][0] || M[1][0] > 0.0939 || - 0.8564 > M[1][1] || M[1][1] > 0.8566 || - 0.0746 > M[1][2] || M[1][2] > 0.0747 || - 0.0186 > M[2][0] || M[2][0] > 0.0188 || - 0.0967 > M[2][1] || M[2][1] > 0.0968 || - 1.2237 > M[2][2] || M[2][2] > 1.2239) - { - printf("libclut_model_get_rgb_conversion_matrix failed\n"), rc = 1; - goto rgb_conversion_done; - } - - - libclut_model_convert_rgb(0.1, 0.5, 0.9, M, &r, &g, &b); - if (0.3024 > r || r > 0.3025 || - 0.5301 > g || g > 0.5302 || - 0.9931 > b || b > 0.9932) - { - printf("libclut_model_convert_rgb failed\n"), rc = 1; - goto rgb_conversion_done; - } - - - libclut_model_convert_rgb(0.1, 0.5, 0.9, Minv, &r, &g, &b); - if (-1.3341 > r || r > -1.3339 || - 0.4916 > g || g > 0.4917 || - 0.8144 > b || b > 0.8145) - { - printf("libclut_model_convert_rgb failed\n"), rc = 1; - goto rgb_conversion_done; - } - - - libclut_convert_rgb_inplace(&t1, 1, double, M, trunc); /* TODO test */ - libclut_convert_rgb(&t1, 1, double, M, trunc, &t2); /* TODO test */ - - - if (libclut_model_get_rgb_conversion_matrix(&srgb, NULL, M, Minv)) - { - printf("libclut_model_get_rgb_conversion_matrix failed\n"), rc = 1; - goto rgb_conversion_done; - } - libclut_model_rgb_to_ciexyz(0.1, 0.5, 0.9, M, &x, &y, &z); - if (0.2227 > x || x > 0.2228 || - 0.2120 > y || y > 0.2121 || - 0.7739 > z || z > 0.7741) - { - printf("libclut_model_get_rgb_conversion_matrix or libclut_model_rgb_to_ciexyz failed\n"), rc = 1; - goto rgb_conversion_done; - } - libclut_model_ciexyz_to_rgb(x, y, z, Minv, &r, &g, &b); - if (0.0999 > r || r > 1.0001 || - 0.4999 > g || g > 0.5001 || - 0.8999 > b || b > 0.9001) - { - printf("libclut_model_get_rgb_conversion_matrix or libclut_model_ciexyz_to_rgb failed\n"), rc = 1; - goto rgb_conversion_done; - } - - - if (libclut_model_get_rgb_conversion_matrix(NULL, &srgb, Minv, M)) - { - printf("libclut_model_get_rgb_conversion_matrix failed\n"), rc = 1; - goto rgb_conversion_done; - } - libclut_model_rgb_to_ciexyz(0.1, 0.5, 0.9, M, &r, &g, &b); - libclut_model_ciexyz_to_rgb(r, g, b, Minv, &r, &g, &b); - if (0.0999 > r || r > 1.0001 || - 0.4999 > g || g > 0.5001 || - 0.8999 > b || b > 0.9001) - { - printf("libclut_model_get_rgb_conversion_matrix failed\n"), rc = 1; - goto rgb_conversion_done; - } - - - if (libclut_model_get_rgb_conversion_matrix(NULL, NULL, M, Minv)) - { - printf("libclut_model_get_rgb_conversion_matrix failed\n"), rc = 1; - goto rgb_conversion_done; - } - if (0.999999 > M[0][0] || M[0][0] > 1.000001 || - -.999999 > M[0][1] || M[0][1] > 0.000001 || - -.999999 > M[0][2] || M[0][2] > 0.000001 || - -.999999 > M[1][0] || M[1][0] > 0.000001 || - 0.999999 > M[1][1] || M[1][1] > 1.000001 || - -.999999 > M[1][2] || M[1][2] > 0.000001 || - -.999999 > M[2][0] || M[2][0] > 0.000001 || - -.999999 > M[2][1] || M[2][1] > 0.000001 || - 0.999999 > M[2][2] || M[2][2] > 1.000001) - { - printf("libclut_model_get_rgb_conversion_matrix failed\n"), rc = 1; - goto rgb_conversion_done; - } - if (0.999999 > Minv[0][0] || Minv[0][0] > 1.000001 || - -.999999 > Minv[0][1] || Minv[0][1] > 0.000001 || - -.999999 > Minv[0][2] || Minv[0][2] > 0.000001 || - -.999999 > Minv[1][0] || Minv[1][0] > 0.000001 || - 0.999999 > Minv[1][1] || Minv[1][1] > 1.000001 || - -.999999 > Minv[1][2] || Minv[1][2] > 0.000001 || - -.999999 > Minv[2][0] || Minv[2][0] > 0.000001 || - -.999999 > Minv[2][1] || Minv[2][1] > 0.000001 || - 0.999999 > Minv[2][2] || Minv[2][2] > 1.000001) - { - printf("libclut_model_get_rgb_conversion_matrix failed\n"), rc = 1; - goto rgb_conversion_done; - } - - - libclut_model_get_rgb_conversion_matrix(&srgb, &wgrgb, M, NULL); /* Just testing that we don't get a segfault. */ - rgb_conversion_done: - - - libclut_model_ciexyz_to_cieluv(0.4, 1.0, 0.7, 0.33, 1, 0.32, &x, &y, &z); /* TODO test */ - libclut_model_cieluv_to_ciexyz(x, y, z, 0.33, 1, 0.32, &x, &y, &z); - if (0.3999 > x || x > 0.4001 || - 0.9999 > y || y > 1.0001 || - 0.6999 > z || z > 0.7001) - printf("libclut_model_cieluv_to_ciexyz failed\n"), rc = 1; - - - libclut_model_cieluv_to_cielch(0.5, 0.6, &r, &g); /* TODO test */ - libclut_model_cielch_to_cieluv(r, g, &r, &g); - if (0.4999 > r || r > 0.5001 || - 0.5999 > g || g > 0.6001) - printf("libclut_model_cielch_to_cieluv failed\n"), rc = 1; - - - libclut_model_srgb_to_yiq(0.1, 0.6, 0.9, &r, &g, &b); /* TODO test */ - libclut_model_yiq_to_srgb(r, g, b, &r, &g, &b); - if (0.0999 > r || r > 0.1001 || - 0.5999 > g || g > 0.6001 || - 0.8999 > b || b > 0.9001) - printf("libclut_model_yiq_to_srgb failed\n"), rc = 1; - - - libclut_model_srgb_to_ydbdr(0.1, 0.6, 0.9, &r, &g, &b); /* TODO test */ - libclut_model_ydbdr_to_srgb(r, g, b, &r, &g, &b); - if (0.0999 > r || r > 0.1001 || - 0.5999 > g || g > 0.6001 || - 0.8999 > b || b > 0.9001) - printf("libclut_model_ydbdr_to_srgb failed\n"), rc = 1; - - - libclut_model_ydbdr_to_yuv(0.1, 0.6, &r, &g); /* TODO test */ - libclut_model_yuv_to_ydbdr(r, g, &r, &g); - if (0.0999 > r || r > 0.1001 || - 0.5999 > g || g > 0.6001) - printf("libclut_model_yuv_to_ydbdr failed\n"), rc = 1; - - - libclut_model_srgb_to_ypbpr(0.1, 0.6, 0.9, &r, &g, &b); /* TODO test */ - libclut_model_ypbpr_to_srgb(r, g, b, &r, &g, &b); - if (0.0999 > r || r > 0.1001 || - 0.5999 > g || g > 0.6001 || - 0.8999 > b || b > 0.9001) - printf("libclut_model_ypbpr_to_srgb failed\n"), rc = 1; - - - libclut_model_srgb_to_ycgco(0.1, 0.6, 0.9, &r, &g, &b); /* TODO test */ - libclut_model_ycgco_to_srgb(r, g, b, &r, &g, &b); - if (0.0999 > r || r > 0.1001 || - 0.5999 > g || g > 0.6001 || - 0.8999 > b || b > 0.9001) - printf("libclut_model_ycgco_to_srgb failed\n"), rc = 1; - - - libclut_model_ciexyz_to_cie_1960_ucs(0.4, 0.7, 0.6, &x, &y, &z); /* TODO test */ - libclut_model_cie_1960_ucs_to_ciexyz(x, y, z, &x, &y, &z); - if (0.3999 > x || x > 0.4001 || - 0.6999 > y || y > 0.7001 || - 0.5999 > z || z > 0.6001) - printf("libclut_model_cie_1960_ucs_to_ciexyz failed\n"), rc = 1; - - - libclut_model_cie_1960_ucs_to_cieuvw(0.1, 0.7, 0.9, 0.3, 0.4, &x, &y, &z); /* TODO test */ - libclut_model_cieuvw_to_cie_1960_ucs(x, y, z, 0.3, 0.4, &x, &y, &z); - if (0.0999 > x || x > 0.1001 || - 0.6999 > y || y > 0.7001 || - 0.8999 > z || z > 0.9001) - printf("libclut_model_cieuvw_to_cie_1960_ucs failed\n"), rc = 1; - - - if (!rc) - printf("everything is fine\n"); - free(t1.red); - free(t2.red); - free(t3.red); - free(d1.red); - free(d2.red); - return rc; - fail: - perror(*argv); - return 2; - (void) argc; - - (void) dumpcluts; - (void) dumpdcluts; -} - - -/* - TODO test these too: (also add this to the makefile) - - libclut_translate - libclut_cie_contrast - libclut_cie_brightness - libclut_cie_invert - libclut_cie_limits - libclut_cie_manipulate - libclut_cie_apply -*/ - |