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See the recommended documentation of this function
colorbar
draws a vertical color bar
Syntax
colorbar colorbar(umin, umax) colorbar(umin, umax, colminmax) colorbar(umin, umax, -1) colorbar( , , [fmin fmax]) colorbar(.., Cformat)
Arguments
- Let U be the Z values of the plot for which a colorbar scale is needed, %inf, -%inf and %nan values being ignored.
- Let minU and maxU be the minimum and the maximum of U values.
- Let Nc be the Number of colors in the current color map:
Nc = size(gcf().color_map,1)
.
- umin
U's lowest data value covered by the colorbar.
Using
-%inf
setsumin = min(U)
.When underlaying plotted data exist in the current axes,
umin
may be skipped -- using colorbar(,..) -- in order to extract and implicitly use min(U).- umax
U's biggest data value covered by the colorbar.
Using
%inf
setsumax = max(U)
.When underlaying plotted data exist in the current axes,
umax
may be skipped -- using colorbar(.., ,..) -- in order to extract and implicitly use max(U).- colminmax
implicit or explicit vector
[colmin, colmax]
specifying the range of colors that span on the colorbar, corresponding to the[umin, umax]
chosen data bounds.colmin
andcolmax
are indices of colors in the current colormap, with1 ≤ colmin < colmax ≤ Nc
.Default setting:
[1,Nc]
The dollar $ symbol can be used, standing for Nc. For example,
colminmax=[1 $/2]
will use the first half of the colormap, andcolminmax=[$/2+1, $]
will use the second half.Fractional bounds
[fmin, fmax]
may also be specified, as well as using the special valuecolminmax=-1
. Please see the description section for more details.- Cformat
word providing a C-format formatting the display of graduated values along the colorbar. The formatting syntaxes are described in the printf_conversion page.
Description
colorbar(…)
draws a vertical color bar on the right side of
the current axes. The width of the targetted axes is priorly narrowed by 15%.
The freed room is used for the color bar, that is made of its own axes.
umin
and umax
set the data bounds scaling
the color bar at its bottom and top.
colminmax
set the color range mapping the
[umin,umax]
range, and used to fill the color bar.
When the current axes embeds an object of graphical type among
{"Matplot" "Fec" "Fac3d" "Plot3d" "Grayplot" "Champ"} and its related U data,
it is possible to skip umin
or/and umax
values.
min(U)
or/and max(U)
are then retrieved
from data and used to set the color bar. For a "Matplot" object, the case
.image_type=="index" is specifically processed.
Just after calling colorbar(…) , gce() returns
the graphical handle of the color bar. |
The possible syntaxes are the following:
colorbar()
sets umin=minU and umax=maxU.
- For a Matplot.image_type="index", sets colminmax = [minU maxU].
- Otherwise, sets colminmax = [1 Nc]
colorbar(umin, umax, , Format)
sets colminmax=[1, Nc]
.
colorbar(umin, umax, -1)
sets colmin
and colmax
such that "[colmin,colmax]/[1,Nc]" maps the "[umin,umax]/[minU,maxU]"
"ratio".
colorbar(,, [colmin colmax])
with integers such that 1 ≤ colmin < colmax ≤ Nc
or using
$
standing for Nc
.
Conversely to the previous one, this syntax sets
umin
and umax
such that "[umin,umax]/[minU,maxU]" maps "[colmin,colmax]/[1,Nc]".
colorbar(,, [fmin fmax])
with 0 ≤ fmin < fmax ≤ 1
, uses actual colors bounds
1+[fmin fmax]*(Nc-1)
, and uses proportional
umin
and umax
accordingly,
such that the relative range "[umin umax]/[min(U) max(U]" maps "[fmin, fmax]".
colorbar(-%inf, %inf, ..)
sets umin = minU, umax = maxU. Each one may be set to the U bound independently.
Examples
Example #1
Without underlaying U data : Direct umin and umax specifications.
clf reset // clears and resets the figure gcf().color_map = jetcolormap(100); // sets its color map // Axes on the left // ---------------- subplot(1,2,1) // Now the default current axes ax0 = gca(); // is on the half left ax0.axes_bounds(3) // Here is its initial width // The axes is clear. There is no plotted data. // We explicitely create a colorbar from scratch: colorbar(-2, 8, [1 100]) // It is inserted on the right // The current (empty) axes is still the same: gca() == ax0 // But its width has been shrunk (by -15%) to set the // colorbar on its right side. gca().axes_bounds // gce() returns the handle of the color bar, to postprocess and customize it. colbar1 = gce(); colbar1.type ylabel(colbar1, "Temperature [°C]") // Let's add a label title("°C") // or as title colbar1.title.font_size = 3; // .. with a bigger font // Beware: xlabel(), ylabel() title() moves the focus to the bar. sca(ax0); // Reset the focus to ax0 before going on // Now plot a frame in the empty axes: plotframe([0 0 1 1]) // Then add some other color bars, still for the current axes colorbar(-2, 5, [1 70]) // Set the labels in red gce().font_color = color("red"); // The current axes is shrunk. The bar's width is decreased accordingly. // axes on the right // ----------------- subplot(1,2,2), plotframe([0 0 1 1]) ax1 = gca(); // top half of the colormap, with another data scale: colorbar(0, 1.5, [$/2+1 $]) // Color bar post-processing colbar3 = gce(); // decrease its font size: set(colbar3, "fractional_font","on","font_size", 0.5); // vertically extend the bar, to match the axes height: colbar3.axes_bounds([2 4]) = ax1.axes_bounds([2 4]); colbar3.margins([3 4]) = ax1.margins([3 4]); // reverse its graduations top-down: colbar3.axes_reverse(2) = "on"; // put its graduations on the left side: colbar3.y_location = "left"; // Color bars are automatically redrawn and regraduated // when resizing the figure. Try it!
➞ Customized color bar style:
--> ax0.axes_bounds(3) // Here is its initial width ans = 0.5 --> ... --> // The current (empty) axes is still the same: --> gca() == ax0 ans = T --> ... --> // But its width has been shrunk (by -15%) ... --> gca().axes_bounds ans = 0. 0. 0.425 1. --> ... --> // gce() returns the handle of the color bar --> colbar1 = gce(); --> colbar1.type ans = Axes --> colbar1 == gcf().children(1) // Another way to retrieve the handle ans = T
Example #2 : Matplot
After Matplot() here used with the default colormap.
clf reset // Default colormap used // 1) Matplot: implicit minU, maxU, colminmax = [umin umax] subplot(2,2,1) Matplot([1 2 3; 4 5 7]); colorbar // [1 7] graduations covered by colors #[1 7]. // Ticks on middles of colored blocks // 2) Matplot: Default colminmax = [1 Nc] subplot(2,2,2) Matplot([1 2 3;4 5 7]); colorbar(1,7) // [1 7] covered with the whole colormap. // "1" at the very bottom. "7" at the very top. // 3) Matplot: another colors range, with explicit colminmax subplot(2,2,3) Matplot([1 2 3;4 5 7]) colorbar(3,7, [3 7]) // Ticks 2.5-7.5 expected: // - integer values ticked at the middle of colors blocks // - other .5 values ticked at the blocks separations
Example #3: After Sgrayplot()
U data are available from the underlaying Fec object.
Then umin
and umax
may be implicit.
Here we use a small number of colors, showing that a given [umin umax] data
range (here implicitly [-1, 1], is exactly covered by chosen colors.
x = linspace(0,1,81); z = cos(2*%pi*x)'*sin(2*%pi*x); n = 10; clf gcf().color_map = jetcolormap(n); Sgrayplot(x, x, z); contour(x,x,z,[-0.8 -0.6 -0.4 -0.2 0 0.2 0.4 0.6 0.8]); gce().children.children(1:2:$-1).foreground=-1; // contours in black colorbar // Default umin = minU, umax = maxU, colminmax = [1 Nc] // * "-1" tick at the very bottom of the scale // * "1" tick at the very top // * Nice subticks, at blocks middles & blocks limits // * The contours levels must be at the right levels on the color bar
Partial colors range: 8 colors used over 20:
x = linspace(0,1,81); z = cos(2*%pi*x)'*sin(2*%pi*x); n = 8; clf reset gcf().color_map = jetcolormap(20); gcf().axes_size = [770 320]; // 3.2) umin=minU and umax=maxU, covered by a subrange of colors subplot(1,2,1) Sgrayplot(x, x, z,colminmax=[3 n+2]); contour(x,x,z,[-0.75 -0.5 -0.25 0 0.25 0.5 0.75]); colorbar(-%inf,%inf,[3 n+2]); // * The contours levels must be at the right levels on the color bar // 3.3) Explicit umin and umax, with saturation for z values out of [umin, umax]: subplot(1,2,2) Sgrayplot(x, x, z, zminmax = [-0.6 0.8], colminmax = [5 11]); contour(x,x,z,[-0.6 -0.4 -0.2 0.2 0.4 0.6]); colorbar(-0.6, 0.8,[5 11]);
Example #4: for a Fac3d object
After plot3d1() or surf():
function [zz, zz1]=plotSphere() r = 0.3; orig = [1.5 0 0]; deff("[x,y,z]=sph(alp,tet)",["x=r*cos(alp).*cos(tet)+orig(1)*ones(tet)";.. "y=r*cos(alp).*sin(tet)+orig(2)*ones(tet)";.. "z=r*sin(alp)+orig(3)*ones(tet)"]); [xx,yy,zz] = eval3dp(sph,linspace(-%pi/2,%pi/2,40),linspace(0,%pi*2,20)); [xx1,yy1,zz1] = eval3dp(sph,linspace(-%pi/2,%pi/2,40),linspace(0,%pi*2,20)); cc = (xx+zz+2)*32; cc1 = (xx1-orig(1)+zz1/r+2)*32; plot3d1([xx xx1],[yy yy1],list([zz,zz1],[cc cc1]),theta=70,alpha=80,flag=[5,6,3]) endfunction clf reset gcf().color_map = jetcolormap(120); // 120 colors available gcf().axes_size = [670, 560]; // For these 4 plots of a sphere of radius 0.3, // the color-value relationship is the same. // 3.0) Implicit min(u), max(u), on the whole color map subplot(2,2,1) plotSphere(); colorbar; // graduations on [-0.3 0.3] // 3.1) Selection of a data range. Color range set accordingly subplot(2,2,2) plotSphere(); colorbar(0.0, 0.15, -1);// graduations on [0, 0.15] // 3.2) Selection of a colormap interval. umin & umax set accordingly subplot(2,2,3) plotSphere(); colorbar(,,[60 120]); // graduations on [0, 0.3] // 3.3) Selection of the first half of the colormap. umin & umax set accordingly subplot(2,2,4) plotSphere(); colorbar(,,[1 $/2]); // graduations on [-0.3, 0]
Example #5 : Plot3d object
After plot3d() or surf():
function plotSample() t=[-4:0.1:4]; plot3d(t,t,sin(t)'*cos(t)); e = gce(); e.color_flag = 1; e.color_mode = -2; endfunction clf gcf().color_map = rainbowcolormap(200); gcf().axes_size = [800 300]; // 5.1) Bar graduated from minU=-1 to maxU=1 with the full colormap subplot(1,2,1) plotSample(); colorbar; // 5.2) Consistent U/colors fractional selection (top 40%) subplot(1,2,2) plotSample(); colorbar(,,[0.6 1]); gcf().children([2 4]).rotation_angles = [55 45];
Example #6: Demo
exec("SCI/modules/graphics/demos/colormap/colormaps.dem.sce",-1)
See also
History
Версия | Описание |
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