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-rw-r--r--xmpp-vala/src/module/xep/0392_consistent_color/consistent_color.vala37
-rw-r--r--xmpp-vala/src/module/xep/0392_consistent_color/hsluv.vala393
2 files changed, 430 insertions, 0 deletions
diff --git a/xmpp-vala/src/module/xep/0392_consistent_color/consistent_color.vala b/xmpp-vala/src/module/xep/0392_consistent_color/consistent_color.vala
new file mode 100644
index 00000000..9ab7e4bb
--- /dev/null
+++ b/xmpp-vala/src/module/xep/0392_consistent_color/consistent_color.vala
@@ -0,0 +1,37 @@
+namespace Xmpp.Xep.ConsistentColor {
+private const double KR = 0.299;
+private const double KG = 0.587;
+private const double KB = 0.114;
+private const double Y = 0.732;
+
+public float string_to_angle(string s) {
+ Checksum checksum = new Checksum(ChecksumType.SHA1);
+ checksum.update(s.data, -1);
+ size_t len = 20;
+ uint8[] digest = new uint8[len];
+ checksum.get_digest(digest, ref len);
+ uint16 output = ((uint16)(*(uint16*)digest)).to_little_endian();
+ return (((float) output) / 65536.0f) * 360.0f;
+}
+
+private uint8[] rgbd_to_rgb(double[] rgbd) {
+ return {(uint8)(rgbd[0] * 255.0), (uint8)(rgbd[1] * 255.0), (uint8)(rgbd[2] * 255.0)};
+}
+
+private float[] rgbd_to_rgbf(double[] rgbd) {
+ return {(float)rgbd[0], (float)rgbd[1], (float)rgbd[2]};
+}
+
+private double[] angle_to_rgbd(double angle) {
+ return Hsluv.hsluv_to_rgb(new double[] {angle, 100, 50});
+}
+
+public float[] string_to_rgbf(string s) {
+ return rgbd_to_rgbf(angle_to_rgbd(string_to_angle(s)));
+}
+
+public uint8[] string_to_rgb(string s) {
+ return rgbd_to_rgb(angle_to_rgbd(string_to_angle(s)));
+}
+
+}
diff --git a/xmpp-vala/src/module/xep/0392_consistent_color/hsluv.vala b/xmpp-vala/src/module/xep/0392_consistent_color/hsluv.vala
new file mode 100644
index 00000000..b45d84de
--- /dev/null
+++ b/xmpp-vala/src/module/xep/0392_consistent_color/hsluv.vala
@@ -0,0 +1,393 @@
+namespace Hsluv {
+
+private const double[] M0 = { 3.240969941904521, -1.537383177570093, -0.498610760293 };
+private const double[] M1 = { -0.96924363628087, 1.87596750150772, 0.041555057407175 };
+private const double[] M2 = { 0.055630079696993, -0.20397695888897, 1.056971514242878 };
+
+private const double[] MInv0 = { 0.41239079926595, 0.35758433938387, 0.18048078840183 };
+private const double[] MInv1 = { 0.21263900587151, 0.71516867876775, 0.072192315360733 };
+private const double[] MInv2 = { 0.019330818715591, 0.11919477979462, 0.95053215224966 };
+
+private double RefX = 0.95045592705167;
+private double RefY = 1.0;
+private double RefZ = 1.089057750759878;
+
+private double RefU = 0.19783000664283;
+private double RefV = 0.46831999493879;
+
+private double Kappa = 903.2962962;
+private double Epsilon = 0.0088564516;
+
+private struct Bounds {
+ double t0;
+ double t1;
+}
+
+private Bounds get_bounds_sub(double L, double sub1, double sub2, int t, double[] m) {
+ double m1 = m[0];
+ double m2 = m[1];
+ double m3 = m[2];
+ double top1 = (284517 * m1 - 94839 * m3) * sub2;
+ double top2 = (838422 * m3 + 769860 * m2 + 731718 * m1) * L * sub2 - 769860 * t * L;
+ double bottom = (632260 * m3 - 126452 * m2) * sub2 + 126452 * t;
+ return { top1 / bottom, top2 / bottom };
+}
+
+private Bounds[] get_bounds(double L) {
+ double sub1 = Math.pow(L + 16, 3) / 1560896;
+ double sub2 = sub1 > Epsilon ? sub1 : L / Kappa;
+
+ return {
+ get_bounds_sub(L, sub1, sub2, 0, M0),
+ get_bounds_sub(L, sub1, sub2, 1, M0),
+ get_bounds_sub(L, sub1, sub2, 0, M1),
+ get_bounds_sub(L, sub1, sub2, 1, M1),
+ get_bounds_sub(L, sub1, sub2, 0, M2),
+ get_bounds_sub(L, sub1, sub2, 1, M2)
+ };
+}
+
+private double intersect_line_line(double[] lineA, double[] lineB) {
+ return (lineA[1] - lineB[1]) / (lineB[0] - lineA[0]);
+}
+
+private double distance_from_pole(double[] point) {
+ return Math.sqrt(Math.pow(point[0], 2) + Math.pow(point[1], 2));
+}
+
+private bool length_of_ray_until_intersect(double theta, Bounds line, out double length) {
+ length = line.t1 / (Math.sin(theta) - line.t0 * Math.cos(theta));
+
+ return length >= 0;
+}
+
+private double max_safe_chroma_for_l(double L) {
+ Bounds[] bounds = get_bounds(L);
+ double min = double.MAX;
+
+ for (int i = 0; i < 2; ++i) {
+ var m1 = bounds[i].t0;
+ var b1 = bounds[i].t1;
+ var line = new double[] { m1, b1 };
+
+ double x = intersect_line_line(line, new double[] {-1 / m1, 0 });
+ double length = distance_from_pole(new double[] { x, b1 + x * m1 });
+
+ min = double.min(min, length);
+ }
+
+ return min;
+}
+
+private double max_chroma_for_lh(double L, double H) {
+ double hrad = H / 360 * Math.PI * 2;
+
+ Bounds[] bounds = get_bounds(L);
+ double min = double.MAX;
+
+ foreach (var bound in bounds) {
+ double length;
+
+ if (length_of_ray_until_intersect(hrad, bound, out length)) {
+ min = double.min(min, length);
+ }
+ }
+
+ return min;
+}
+
+private double dot_product(double[] a, double[] b) {
+ double sum = 0;
+
+ for (int i = 0; i < a.length; ++i) {
+ sum += a[i] * b[i];
+ }
+
+ return sum;
+}
+
+private double round(double value, int places) {
+ double n = Math.pow(10, places);
+
+ return Math.round(value * n) / n;
+}
+
+private double from_linear(double c) {
+ if (c <= 0.0031308) {
+ return 12.92 * c;
+ } else {
+ return 1.055 * Math.pow(c, 1 / 2.4) - 0.055;
+ }
+}
+
+private double to_linear(double c) {
+ if (c > 0.04045) {
+ return Math.pow((c + 0.055) / (1 + 0.055), 2.4);
+ } else {
+ return c / 12.92;
+ }
+}
+
+private int[] rgb_prepare(double[] tuple) {
+ for (int i = 0; i < tuple.length; ++i) {
+ tuple[i] = round(tuple[i], 3);
+ }
+
+ for (int i = 0; i < tuple.length; ++i) {
+ double ch = tuple[i];
+
+ if (ch < -0.0001 || ch > 1.0001) {
+ return null; //throw new Error("Illegal rgb value: " + ch);
+ }
+ }
+
+ var results = new int[tuple.length];
+
+ for (int i = 0; i < tuple.length; ++i) {
+ results[i] = (int) Math.round(tuple[i] * 255);
+ }
+
+ return results;
+}
+
+internal double[] xyz_to_rgb(double[] tuple) {
+ return new double[] {
+ from_linear(dot_product(M0, tuple)),
+ from_linear(dot_product(M1, tuple)),
+ from_linear(dot_product(M2, tuple))
+ };
+}
+
+internal double[] rgb_to_xyz(double[] tuple) {
+ var rgbl = new double[] {
+ to_linear(tuple[0]),
+ to_linear(tuple[1]),
+ to_linear(tuple[2])
+ };
+
+ return new double[] {
+ dot_product(MInv0, rgbl),
+ dot_product(MInv1, rgbl),
+ dot_product(MInv2, rgbl)
+ };
+}
+
+private double y_to_l(double Y) {
+ if (Y <= Epsilon) {
+ return (Y / RefY) * Kappa;
+ } else {
+ return 116 * Math.pow(Y / RefY, 1.0 / 3.0) - 16;
+ }
+}
+
+private double l_to_y(double L) {
+ if (L <= 8) {
+ return RefY * L / Kappa;
+ } else {
+ return RefY * Math.pow((L + 16) / 116, 3);
+ }
+}
+
+internal double[] xyz_to_luv(double[] tuple) {
+ double X = tuple[0];
+ double Y = tuple[1];
+ double Z = tuple[2];
+
+ double varU = (4 * X) / (X + (15 * Y) + (3 * Z));
+ double varV = (9 * Y) / (X + (15 * Y) + (3 * Z));
+
+ double L = y_to_l(Y);
+
+ if (L == 0) {
+ return new double[] { 0, 0, 0 };
+ }
+
+ var U = 13 * L * (varU - RefU);
+ var V = 13 * L * (varV - RefV);
+
+ return new double [] { L, U, V };
+}
+
+internal double[] luv_to_xyz(double[] tuple) {
+ double L = tuple[0];
+ double U = tuple[1];
+ double V = tuple[2];
+
+ if (L == 0) {
+ return new double[] { 0, 0, 0 };
+ }
+
+ double varU = U / (13 * L) + RefU;
+ double varV = V / (13 * L) + RefV;
+
+ double Y = l_to_y(L);
+ double X = 0 - (9 * Y * varU) / ((varU - 4) * varV - varU * varV);
+ double Z = (9 * Y - (15 * varV * Y) - (varV * X)) / (3 * varV);
+
+ return new double[] { X, Y, Z };
+}
+
+internal double[] luv_to_lch(double[] tuple) {
+ double L = tuple[0];
+ double U = tuple[1];
+ double V = tuple[2];
+
+ double C = Math.pow(Math.pow(U, 2) + Math.pow(V, 2), 0.5);
+ double Hrad = Math.atan2(V, U);
+
+ double H = Hrad * 180.0 / Math.PI;
+
+ if (H < 0) {
+ H = 360 + H;
+ }
+
+ return new double[] { L, C, H };
+}
+
+internal double[] lch_to_luv(double[] tuple) {
+ double L = tuple[0];
+ double C = tuple[1];
+ double H = tuple[2];
+
+ double Hrad = H / 360.0 * 2 * Math.PI;
+ double U = Math.cos(Hrad) * C;
+ double V = Math.sin(Hrad) * C;
+
+ return new double [] { L, U, V };
+}
+
+internal double[] hsluv_to_lch(double[] tuple) {
+ double H = tuple[0];
+ double S = tuple[1];
+ double L = tuple[2];
+
+ if (L > 99.9999999) {
+ return new double[] { 100, 0, H };
+ }
+
+ if (L < 0.00000001) {
+ return new double[] { 0, 0, H };
+ }
+
+ double max = max_chroma_for_lh(L, H);
+ double C = max / 100 * S;
+
+ return new double[] { L, C, H };
+}
+
+internal double[] lch_to_hsluv(double[] tuple) {
+ double L = tuple[0];
+ double C = tuple[1];
+ double H = tuple[2];
+
+ if (L > 99.9999999) {
+ return new double[] { H, 0, 100 };
+ }
+
+ if (L < 0.00000001) {
+ return new double[] { H, 0, 0 };
+ }
+
+ double max = max_chroma_for_lh(L, H);
+ double S = C / max * 100;
+
+ return new double[] { H, S, L };
+}
+
+internal double[] hpluv_to_lch(double[] tuple) {
+ double H = tuple[0];
+ double S = tuple[1];
+ double L = tuple[2];
+
+ if (L > 99.9999999) {
+ return new double[] { 100, 0, H };
+ }
+
+ if (L < 0.00000001) {
+ return new double[] { 0, 0, H };
+ }
+
+ double max = max_safe_chroma_for_l(L);
+ double C = max / 100 * S;
+
+ return new double[] { L, C, H };
+}
+
+internal double[] lch_to_hpluv(double[] tuple) {
+ double L = tuple[0];
+ double C = tuple[1];
+ double H = tuple[2];
+
+ if (L > 99.9999999) {
+ return new double[] { H, 0, 100 };
+ }
+
+ if (L < 0.00000001) {
+ return new double[] { H, 0, 0 };
+ }
+
+ double max = max_safe_chroma_for_l(L);
+ double S = C / max * 100;
+
+ return new double[] { H, S, L };
+}
+
+internal string rgb_to_hex(double[] tuple) {
+ int[] prepared = rgb_prepare(tuple);
+
+ return "#%.2x%.2x%.2x".printf(prepared[0], prepared[1], prepared[2]);
+}
+
+internal double[] hex_to_tgb(string hex) {
+ return new double[] {
+ hex.substring(1, 2).to_long(null, 16) / 255.0,
+ hex.substring(3, 2).to_long(null, 16) / 255.0,
+ hex.substring(5, 2).to_long(null, 16) / 255.0
+ };
+}
+
+internal double[] lch_to_rgb(double[] tuple) {
+ return xyz_to_rgb(luv_to_xyz(lch_to_luv(tuple)));
+}
+
+internal double[] rgb_to_lch(double[] tuple) {
+ return luv_to_lch(xyz_to_luv(rgb_to_xyz(tuple)));
+}
+
+// Rgb <--> Hsluv(p)
+
+internal double[] hsluv_to_rgb(double[] tuple) {
+ return lch_to_rgb(hsluv_to_lch(tuple));
+}
+
+internal double[] rgb_to_hsluv(double[] tuple) {
+ return lch_to_hsluv(rgb_to_lch(tuple));
+}
+
+internal double[] hpluv_to_rgb(double[] tuple) {
+ return lch_to_rgb(hpluv_to_lch(tuple));
+}
+
+internal double[] rgb_to_hpluv(double[] tuple) {
+ return lch_to_hpluv(rgb_to_lch(tuple));
+}
+
+// Hex
+
+internal string hsluv_to_hex(double[] tuple) {
+ return rgb_to_hex(hsluv_to_rgb(tuple));
+}
+
+internal string hpluv_to_hex(double[] tuple) {
+ return rgb_to_hex(hpluv_to_rgb(tuple));
+}
+
+internal double[] hex_to_hsluv(string s) {
+ return rgb_to_hsluv(hex_to_tgb(s));
+}
+
+internal double[] hex_to_hpluv(string s) {
+ return rgb_to_hpluv(hex_to_tgb(s));
+}
+
+} \ No newline at end of file