export_fig
==========
A toolbox for exporting figures from MATLAB to standard image and document formats nicely.
### Overview
Exporting a figure from MATLAB the way you want it (hopefully the way it looks on screen), can be a real headache for the unitiated, thanks to all the settings that are required, and also due to some eccentricities (a.k.a. features and bugs) of functions such as `print`. The first goal of export_fig is to make transferring a plot from screen to document, just the way you expect (again, assuming that's as it appears on screen), a doddle.
The second goal is to make the output media suitable for publication, allowing you to publish your results in the full glory that you originally intended. This includes embedding fonts, setting image compression levels (including lossless), anti-aliasing, cropping, setting the colourspace, alpha-blending and getting the right resolution.
Perhaps the best way to demonstrate what export_fig can do is with some examples.
### Examples
**Visual accuracy** - MATLAB's exporting functions, namely `saveas` and `print`, change many visual properties of a figure, such as size, axes limits and ticks, and background colour, in unexpected and unintended ways. Export_fig aims to faithfully reproduce the figure as it appears on screen. For example:
```Matlab
plot(cos(linspace(0, 7, 1000)));
set(gcf, 'Position', [100 100 150 150]);
saveas(gcf, 'test.png');
export_fig test2.png
```
generates the following:
| Figure: | test.png: | test2.png: |
|:-------:|:---------:|:----------:|
|![](https://farm6.staticflickr.com/5616/15589249291_16e485c29a_o_d.png)|![](https://farm4.staticflickr.com/3944/15406302850_4d2e1c7afa_o_d.png)|![](https://farm6.staticflickr.com/5607/15568225476_8ce9bd5f6b_o_d.png)|
Note that the size and background colour of test2.png (the output of export_fig) are the same as those of the on screen figure, in contrast to test.png. Of course, if you want the figure background to be white (or any other colour) in the exported file then you can set this prior to exporting using:
```Matlab
set(gcf, 'Color', 'w');
```
Notice also that export_fig crops and anti-aliases (smooths, for bitmaps only) the output by default. However, these options can be disabled; see the Tips section below for details.
**Resolution** - by default, export_fig exports bitmaps at screen resolution. However, you may wish to save them at a different resolution. You can do this using either of two options: `-m<val>`, where <val> is a positive real number, magnifies the figure by the factor <val> for export, e.g. `-m2` produces an image double the size (in pixels) of the on screen figure; `-r<val>`, again where <val> is a positive real number, specifies the output bitmap to have <val> pixels per inch, the dimensions of the figure (in inches) being those of the on screen figure. For example, using:
```Matlab
export_fig test.png -m2.5
```
on the figure from the example above generates:
![](https://farm4.staticflickr.com/3937/15591910915_dc7040c477_o_d.png)
Sometimes you might have a figure with an image in. For example:
```Matlab
imshow(imread('cameraman.tif'))
hold on
plot(0:255, sin(linspace(0, 10, 256))*127+128);
set(gcf, 'Position', [100 100 150 150]);
```
generates this figure:
![](https://farm4.staticflickr.com/3942/15589249581_ff87a56a3f_o_d.png)
Here the image is displayed in the figure at resolution lower than its native resolution. However, you might want to export the figure at a resolution such that the image is output at its native (i.e. original) size (in pixels). Ordinarily this would require some non-trivial computation to work out what that resolution should be, but export_fig has an option to do this for you. Using:
```Matlab
export_fig test.png -native
```
produces:
![](https://farm6.staticflickr.com/5604/15589249591_da2b2652e4_o_d.png)
with the image being the size (in pixels) of the original image. Note that if you want an image to be a particular size, in pixels, in the output (other than its original size) then you can resize it to this size and use the `-native` option to achieve this.
All resolution options (`-m<val>`, `-q<val>` and `-native`) correctly set the resolution information in PNG and TIFF files, as if the image were the dimensions of the on screen figure.
**Shrinking dots & dashes** - when exporting figures with dashed or dotted lines using either the ZBuffer or OpenGL (default for bitmaps) renderers, the dots and dashes can appear much shorter, even non-existent, in the output file, especially if the lines are thick and/or the resolution is high. For example:
```Matlab
plot(sin(linspace(0, 10, 1000)), 'b:', 'LineWidth', 4);
hold on
plot(cos(linspace(0, 7, 1000)), 'r--', 'LineWidth', 3);
grid on
export_fig test.png
```
generates:
![](https://farm4.staticflickr.com/3956/15592747732_f943d4aa0a_o_d.png)
This problem can be overcome by using the painters renderer. For example:
```Matlab
export_fig test.png -painters
```
used on the same figure generates:
![](https://farm4.staticflickr.com/3945/14971168504_77692f11f5_o_d.png)
Note that not only are the plot lines correct, but the grid lines are too.
**Transparency** - sometimes you might want a figure and axes' backgrounds to be transparent, so that you can see through them to a document (for example a presentation slide, with coloured or textured background) that the exported figure is placed in. To achieve this, first (optionally) set the axes' colour to 'none' prior to exporting, using:
```Matlab
set(gca, 'Color', 'none'); % Sets axes background
```
then use export_fig's `-transparent` option when exporting:
```Matlab
export_fig test.png -transparent
```
This will make the background transparent in PDF, EPS and PNG outputs. You can additionally save fully alpha-blended semi-transparent patch objects to the PNG format. For example:
```Matlab
logo;
alpha(0.5);
```
generates a figure like this:
![](https://farm4.staticflickr.com/3933/15405290339_b08de33528_o_d.png)
If you then export this to PNG using the `-transparent` option you can then put the resulting image into, for example, a presentation slide with fancy, textured background, like so:
![](https://farm6.staticflickr.com/5599/15406302920_59beaefff1_o_d.png)
and the image blends seamlessly with the background.
**Image quality** - when publishing images of your results, you want them to look as good as possible. By default, when outputting to lossy file formats (PDF, EPS and JPEG), export_fig uses a high quality setting, i.e. low compression, for images, so little information is lost. This is in contrast to MATLAB's print and saveas functions, whose default quality settings are poor. For example:
```Matlab
A = im2double(imread('peppers.png'));
B = randn(ceil(size(A, 1)/6), ceil(size(A, 2)/6), 3) * 0.1;
B = cat(3, kron(B(:,:,1), ones(6)), kron(B(:,:,2), ones(6)), kron(B(:,:,3), ones(6)));
B = A + B(1:size(A, 1),1:size(A, 2),:);
imshow(B);
print -dpdf test.pdf
```
generates a PDF file, a sub-window of which looks (when zoomed in) like this:
![](https://farm6.staticflickr.com/5613/15405290309_881b2774d6_o_d.png)
while the command
```Matlab
export_fig test.pdf
```
on the same figure produces this:
![](https://farm4.staticflickr.com/3947/14971168174_687473133f_o_d.png)
While much better, the image still contains some compression artifacts (see the low level noise around the edge of the pepper). You may prefer to export with no artifacts at all, i.e. lossless compression. Alternatively, you might need a smaller file, and be willing to accept more compression. Either way, export_fig has an option that can suit your needs: `-q<val>`, where <val> is a number from 0-100, will set the level of lossy image compression (again in PDF, EPS and JPEG outputs only; other formats are lossless), from high compression (0) to low compression/high quality (100). If you want lossless compression in any of those formats then specify a <val> greater than 100. For examp
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毕业设计&课设-分析单分子FRET数据的MATLAB软件包.zip (2000个子文件)
2020.avi 3.81MB
2chan2exc_2.bet 44B
2chan2exc_3.bet 31B
2chan2exc_1.bet 20B
please_wait.bmp 51KB
FilterArray.c 15KB
trainPH.c 13KB
baumwelch.c 9KB
calcmdlconfiv.c 9KB
trainGMM.c 6KB
vectop.c 5KB
SPEImport.c 4KB
SIFImport.c 4KB
AVIImport.c 4KB
FileImport.c 4KB
TrackPoints.c 4KB
fwdbwd.c 3KB
forloop.c 2KB
ConvertToAVI.c 1003B
coord_vp.coord 5KB
2020_3chan.coord 3KB
2020_2chan.coord 2KB
2020_2chan_256.coord 2KB
2020_2chan_512.coord 2KB
2020_3chan_sglchan.coord 2KB
2020_2chan_sglchan.coord 1KB
2chan.coord 219B
2chan2exc_2.gam 44B
2chan2exc_3.gam 31B
2chan2exc_1.gam 20B
2020.gif 203KB
.gitattributes 12B
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type_def.h 2KB
trainPH.h 1KB
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tutorial_toc.html 589B
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ImageSelection.java 1016B
lunr.min.js 15KB
just-the-docs.js 5KB
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.release_version.json 55B
export_fig.m 61KB
saveProcAscii.m 42KB
saveResults.m 41KB
print2eps.m 26KB
plotSettings.m 25KB
openExpTtpr.m 22KB
getStrPrm.m 22KB
myimread.m 19KB
advancedAnalysisSettings.m 18KB
FRETanalysis.m 17KB
intAscii2mash.m 17KB
setSimPrm.m 16KB
routinetest_TP_traceManager.m 16KB
export_thm.m 16KB
loadData.m 15KB
checkField.m 15KB
save_tdpDat.m 15KB
concatenateData.m 15KB
routinetest_TA_stateConfiguration.m 14KB
ud_optExpTr.m 14KB
buildFitSettingsWin.m 14KB
menu_projMenu_merge_Callback.m 14KB
exportResults.m 14KB
buildPanelTPfindStates.m 13KB
saveTraces.m 13KB
buildTrsfOpt.m 13KB
deleteTraces.m 13KB
setDefPrm_traces.m 13KB
debleachTraces.m 13KB
getIntTrace.m 12KB
hist2D.m 12KB
ud_TTprojPrm.m 11KB
clustTrans.m 11KB
routinetest_TA_stateLifetimes.m 11KB
readSif.m 11KB
setInfoIcons.m 10KB
downCompatibilityTDP.m 10KB
plotData.m 10KB
menu_kinAna_Callback.m 10KB
ud_HA_statePop.m 10KB
print2array.m 10KB
downCompatibilityTP.m 10KB
calcFRET0.m 10KB
buildPanelHAfittingParameters.m 10KB
buildMASHfig.m 10KB
build_ESlinRegOpt.m 10KB
getDefault_TP.m 9KB
buildPanelVPspotfinder.m 9KB
find_best_model.m 9KB
routinetest_VP.m 9KB
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