Fitxer:CIE1931xy blank.svg
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Mida d'aquesta previsualització PNG del fitxer SVG: 495 × 526 píxels. Altres resolucions: 226 × 240 píxels | 452 × 480 píxels | 723 × 768 píxels | 964 × 1.024 píxels | 1.927 × 2.048 píxels.
Fitxer original (fitxer SVG, nominalment 495 × 526 píxels, mida del fitxer: 6 Ko)
Resum
| Descripció |
English: CIE 1931 xy color space diagram. Drawn (or rather programmatically generated) from scratch, but the visual design is Own work based on: CIExy1931.png de PAR. Major differences:
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| Data | ||||
| Font |
Own work based on: CIExy1931.svg:  de Sakurambo |
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| Autor | BenRG | |||
| Altres versions |
Derivative works of this file: |
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| SVG genesis |  Aquesta imatge vectorial ha estat creada amb unknown tool
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Llicència
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S'ha alliberat aquesta obra al domini públic pel seu autor BenRG. Això s'aplica a tot el món. En alguns països això pot no ser legalment possible, en tal cas: BenRG concedeix a tothom el dret d'usar aquesta obra per a qualsevol propòsit, sense cap condició llevat d'aquelles requerides per la llei. |
Perl code
use strict;
use Svg;
use List::Util qw(min);
my @primaries;
my $whitepoint = '';
my $filename;
if (1) {
$filename = 'CIE1931xy_blank.svg';
} elsif (0) {
$filename = 'CIE1931xy_sRGB.svg';
@primaries = ([0.64,0.33],[0.30,0.60],[0.15,0.06]);
$whitepoint = [0.3127,0.3290,'D65'];
} elsif (0) {
$filename = 'CIE1931xy_AdobeRGB.svg';
@primaries = ([0.64,0.33],[0.21,0.71],[0.15,0.06]);
$whitepoint = [0.3127,0.3290,'D65'];
} elsif (0) {
@primaries = ([0.7347,0.2653],[0.2738,0.7174],[0.1666,0.0089]);
$whitepoint = [1/3, 1/3, 'E'];
$filename = 'CIE1931xy_CIERGB.svg';
}
# in 5 nm steps from 360 to 830 nm, from http://www-cvrl.ucsd.edu/database/data/cmfs/ciexyz31.txt
my @xcmf = (
0.0001299,0.0002321,0.0004149,0.0007416,0.001368,
0.002236,0.004243,0.00765,0.01431,0.02319,
0.04351,0.07763,0.13438,0.21477,0.2839,
0.3285,0.34828,0.34806,0.3362,0.3187,
0.2908,0.2511,0.19536,0.1421,0.09564,
0.05795001,0.03201,0.0147,0.0049,0.0024,
0.0093,0.0291,0.06327,0.1096,0.1655,
0.2257499,0.2904,0.3597,0.4334499,0.5120501,
0.5945,0.6784,0.7621,0.8425,0.9163,
0.9786,1.0263,1.0567,1.0622,1.0456,
1.0026,0.9384,0.8544499,0.7514,0.6424,
0.5419,0.4479,0.3608,0.2835,0.2187,
0.1649,0.1212,0.0874,0.0636,0.04677,
0.0329,0.0227,0.01584,0.01135916,0.008110916,
0.005790346,0.004109457,0.002899327,0.00204919,0.001439971,
0.0009999493,0.0006900786,0.0004760213,0.0003323011,0.0002348261,
0.0001661505,0.000117413,0.00008307527,0.00005870652,0.00004150994,
0.00002935326,0.00002067383,0.00001455977,0.00001025398,0.000007221456,
0.000005085868,0.000003581652,0.000002522525,0.000001776509,0.000001251141);
my @ycmf = (
0.000003917,0.000006965,0.00001239,0.00002202,0.000039,
0.000064,0.00012,0.000217,0.000396,0.00064,
0.00121,0.00218,0.004,0.0073,0.0116,
0.01684,0.023,0.0298,0.038,0.048,
0.06,0.0739,0.09098,0.1126,0.13902,
0.1693,0.20802,0.2586,0.323,0.4073,
0.503,0.6082,0.71,0.7932,0.862,
0.9148501,0.954,0.9803,0.9949501,1,
0.995,0.9786,0.952,0.9154,0.87,
0.8163,0.757,0.6949,0.631,0.5668,
0.503,0.4412,0.381,0.321,0.265,
0.217,0.175,0.1382,0.107,0.0816,
0.061,0.04458,0.032,0.0232,0.017,
0.01192,0.00821,0.005723,0.004102,0.002929,
0.002091,0.001484,0.001047,0.00074,0.00052,
0.0003611,0.0002492,0.0001719,0.00012,0.0000848,
0.00006,0.0000424,0.00003,0.0000212,0.00001499,
0.0000106,0.0000074657,0.0000052578,0.0000037029,0.0000026078,
0.0000018366,0.0000012934,0.00000091093,0.00000064153,0.00000045181);
my @zcmf = (
0.0006061,0.001086,0.001946,0.003486,0.006450001,
0.01054999,0.02005001,0.03621,0.06785001,0.1102,
0.2074,0.3713,0.6456,1.0390501,1.3856,
1.62296,1.74706,1.7826,1.77211,1.7441,
1.6692,1.5281,1.28764,1.0419,0.8129501,
0.6162,0.46518,0.3533,0.272,0.2123,
0.1582,0.1117,0.07824999,0.05725001,0.04216,
0.02984,0.0203,0.0134,0.008749999,0.005749999,
0.0039,0.002749999,0.0021,0.0018,0.001650001,
0.0014,0.0011,0.001,0.0008,0.0006,
0.00034,0.00024,0.00019,0.0001,0.00004999999,
0.00003,0.00002,0.00001,0,0,
0,0,0,0,0,
0,0,0,0,0,
0,0,0,0,0,
0,0,0,0,0,
0,0,0,0,0,
0,0,0,0,0,
0,0,0,0,0);
my @x = map { $xcmf[$_]/($xcmf[$_]+$ycmf[$_]+$zcmf[$_]) } 0..$#xcmf;
my @y = map { $ycmf[$_]/($xcmf[$_]+$ycmf[$_]+$zcmf[$_]) } 0..$#xcmf;
sub Normalize {
my @a = @_;
my $n = 0;
for my $i (@a) { $n += $i*$i }
$n = 1/sqrt($n);
for my $i (@a) { $i *= $n }
@a
}
sub Tick {
my $i = ($_[0] - 360) / 5;
my ($px,$py) = Normalize($x[$i]-$x[$i-1], $y[$i]-$y[$i-1]);
my ($qx,$qy) = Normalize($x[$i+1]-$x[$i], $y[$i+1]-$y[$i]);
my ($tx,$ty) = Normalize($px+$qx, $py+$qy);
return (X($x[$i]), Y($y[$i]), $ty * -$_[1], $tx * -$_[1]);
}
our $scale = 512;
our ($padleft,$padtop,$padright,$padbot) = (60,15,25,50);
our ($maxx, $maxy) = (0.8,0.9);
our ($origin_x, $origin_y) = ($padleft, $padtop + $maxy * $scale);
our ($imgwidth, $imgheight) = ($origin_x + $maxx * $scale + $padright, $origin_y + $padbot);
sub X { $origin_x + $scale * $_[0] }
sub Y { $origin_y - $scale * $_[0] }
my $svg = new Svg(width => $imgwidth, height => $imgheight);
#$svg->rect(width => $imgwidth, height => $imgheight, fill => 'gray');
# semitransparent grid
my $grid = new Svg::PathString;
for my $xx (1..$maxx*20) {
my $x = $xx * 0.05;
my $y = min($maxy, 1-$x);
$grid->M(halfpixel(X($x)), halfpixel(Y(0)))->l(0, -$scale*$y);
}
for my $yy (1..$maxy*20) {
my $y = $yy * 0.05;
my $x = min($maxx, 1-$y);
$grid->M(halfpixel(X(0)), halfpixel(Y($y)))->l($scale*$x, 0);
}
$grid->M(halfpixel(X(1-$maxy)), halfpixel(Y($maxy)))->L(halfpixel(X($maxx)), halfpixel(Y(1-$maxx)));
$svg->path(opacity => 1/8, stroke => 'black', 'stroke-width' => 1, fill => 'none', d => $grid->get());
$svg->defs->path(id => 'border', d => MakePath(\@x, \@y, $scale, -$scale, $origin_x, $origin_y, 1));
$svg->clipPath(id => 'clipborder')->use('border');
# black stroke on the monochromatic locus (the inner half of the stroke gets overwritten by the image)
$svg->use('border', stroke => 'black', 'stroke-width' => 4, fill => 'none');
# frequency tick marks on the monochromatic locus
my $ticks = '';
for (my $i = 410; $i <= 695; $i += 5) {
my ($x,$y,$tx,$ty) = Tick($i, $i % 20 ? 6 : 10);
$ticks .= 'M' . tenth($x) . ',' . tenth($y) . 'l' . tenth($tx) . ',' . tenth($ty);
}
$svg->path(d => $ticks, stroke => 'black', 'stroke-width' => 1);
# color PNG
my $pnggroup = $svg->group('clip-path' => 'url(#clipborder)');
$pnggroup->filter(id => 'blur')->feGaussianBlur(stdDeviation => 0.5);
$pnggroup->image('chromaticity1.png', width => 27, height => 28, filter => 'url(#blur)')->scale(1/32 * $scale)->translate($origin_x - 3/64 * $scale, $origin_y - 27.5/32 * $scale);
# coordinate axes
my $axes = new Svg::PathString;
$axes->M(round(X(0)), round(Y($maxy)))->l(0,round($scale*$maxy))->l(round($scale*$maxx),0);
for my $xx (0..$maxx*20) {
$axes->M(round(X($xx*0.05)), round(Y(0)))->l(0,4);
}
for my $yy (0..$maxy*20) {
$axes->M(round(X(0)), round(Y($yy*0.05)))->l(-4,0);
}
$svg->path(stroke => 'black', 'stroke-width' => 2, 'stroke-linecap' => 'square', fill => 'none', d => $axes->get());
my $alltext = $svg->group('font-family' => 'Nimbus Roman No9 L, Times, serif', 'font-size' => 19, stroke => 'none');
my $halfdigit = 6; # half the height of a digit, since Opera doesn't support dominant-baseline
# labels for frequency tick marks
my $freqs = $alltext->group(fill => 'blue');
for (my $i = 460; $i <= 620; $i += 20) {
my ($x,$y,$tx,$ty) = Tick($i,12);
my $xanchor = $ty < -2*abs($tx) ? 'middle' : $tx > 0 ? 'start' : 'end';
my $yshift = $tx < -2*abs($ty) || $ty > 0 ? $halfdigit : 0;
$freqs->text(x => tenth($x+$tx), y => tenth($y+$ty+$yshift), 'text-anchor' => $xanchor)->add($i);
}
# x,y axis labels
my $coords = $alltext->group(fill => 'black');
my $xcoords = $coords->group('text-anchor' => 'middle');
$xcoords->text(x => X($maxx/2), y => $origin_y + 40, 'font-style' => 'italic')->add('x');
for my $x (0..$maxx*10) {
$xcoords->text(x => X($x * 0.1), y => $origin_y + 20)->add("0.$x");
}
my $ycoords = $coords->group('text-anchor' => 'end');
$ycoords->text(x => $origin_x - 40, y => Y($maxy/2)+$halfdigit, 'font-style' => 'italic')->add('y');
for my $y (0..$maxy*10) {
$ycoords->text(x => $origin_x - 8, y => Y($y * 0.1)+$halfdigit)->add("0.$y");
}
# gamut polygon and whitepoint
if (@primaries || $whitepoint) {
my $primary_polygon = $svg->group(stroke => 'black', 'stroke-width' => 2, fill => 'none');
my $primary_polygon_circle_radius = 5;
for my $p (0..$#primaries) {
my ($a,$b) = @primaries[$p, $p == $#primaries ? 0 : $p+1];
$primary_polygon->circle(cx => X($$a[0]), cy => Y($$a[1]), r => $primary_polygon_circle_radius);
my ($dx,$dy) = ($scale * ($$a[0]-$$b[0]), -$scale * ($$a[1]-$$b[1]));
my $nudge = $primary_polygon_circle_radius / sqrt($dx*$dx + $dy*$dy);
my ($nudgex,$nudgey) = ($nudge * $dx, $nudge * $dy);
$primary_polygon->line(x1 => round(X($$a[0])-$nudgex), y1 => round(Y($$a[1])-$nudgey), x2 => round(X($$b[0])+$nudgex), y2 => round(Y($$b[1])+$nudgey));
}
if ($whitepoint) {
$primary_polygon->circle(cx => X($$whitepoint[0]), cy => Y($$whitepoint[1]), r => $primary_polygon_circle_radius);
if (defined $$whitepoint[2]) {
$alltext->text(x => X($$whitepoint[0]) + 8, y => Y($$whitepoint[1]) + 16, fill => 'black')->add($$whitepoint[2]);
}
}
}
$svg->write($filename);
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| Data/hora | Miniatura | Dimensions | Usuari/a | Comentari | |
|---|---|---|---|---|---|
| actual | 01:57, 25 set 2009 | | 495 × 526 (6 Ko) | wikimediacommons>BenRG | {{Information |Description=CIE 1931 xy color space diagram. Drawn (or rather programmatically generated) from scratch, but the visual design is based on File:CIExy1931.svg. Major differences: *Colors outside the sRGB triangle are clipped toward the s |
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