Mercurial > hg > camir-aes2014
view toolboxes/FullBNT-1.0.7/netlab3.3/demnlab.m @ 0:e9a9cd732c1e tip
first hg version after svn
| author | wolffd |
|---|---|
| date | Tue, 10 Feb 2015 15:05:51 +0000 |
| parents | |
| children |
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function demnlab(action); %DEMNLAB A front-end Graphical User Interface to the demos % % Description % This function will start a user interface allowing the user to select % different demonstration functions to view. The demos are divided into % 4 groups, with the demo being executed by selecting the desired % option from a pop-up menu. % % See also % % Copyright (c) Ian T Nabney (1996-2001) % If run without parameters, initialise gui. if nargin<1, action='initialise'; end; if strcmp(action,'initialise'), % Create figure fig = figure( ... 'Name', 'Netlab Demos', ... 'NumberTitle', 'off', ... 'Color', [0.7529 0.7529 0.7529], ... 'Visible', 'on'); % Create GROUPS % Bottom of demo buttons group1_bot = 0.20; group1_top = 0.75; uicontrol(fig, ... 'Style', 'frame', ... 'Units', 'normalized', ... 'Position', [0.03 group1_bot 0.94 group1_top - group1_bot], ... 'BackgroundColor', [0.5 0.5 0.5]); % Bottom of help and close buttons group2_bot = 0.04; uicontrol(fig, ... 'Style', 'frame', ... 'Units', 'normalized', ... 'Position', [0.03 group2_bot 0.94 0.12], ... 'BackgroundColor', [0.5 0.5 0.5]); % Draw title hLogoAxis = axes( ... 'Units', 'normalized', ... 'Position', [0.05 0.82 0.90 0.14], ... 'Box', 'off', ... 'XColor', [0 0 0], ... 'YColor', [0 0 0], ... 'Visible', 'on'); load netlogo; % load image and colour map colormap(netcmap(1:3,:)); % change colour map: don't need many entries image(nlogo); % draw logo axis('image'); % ensures pixels on axis are square axis off; % turn axes off % Create static text uicontrol(fig, ... 'Style', 'text', ... 'Units', 'normalized', ... 'BackgroundColor', [0.5 0.5 0.5], ... 'Position', [0.05 group1_top-0.1 0.90 0.08], ... 'String', 'Select demo to run:'); % First row text offset tRow1Offset = 0.14; % Offset between text and button TBoffset = 0.07; % First row button offset bRow1Offset = tRow1Offset+TBoffset; % ONE text uicontrol(fig, ... 'Style', 'text', ... 'Units', 'normalized', ... 'BackgroundColor', [0.5 0.5 0.5], ... 'Position', [0.08 group1_top-tRow1Offset 0.36 0.05], ... 'String', 'Regression'); popup1str(1) = {'Select Option'}; popup1str(2) = {'Multi-Layer Perceptron'}; popup1str(3) = {'Radial Basis Function'}; popup1str(4) = {'Mixture Density Network'}; % ONE popup hPop1 = uicontrol(fig, ... 'Style','popup', ... 'Units','normalized', ... 'String', popup1str, ... 'Position', [0.08 group1_top-bRow1Offset 0.36 0.08], ... 'BackgroundColor', [0.7 0.7 0.7], ... 'Callback', 'demnlab popup1'); % TWO text uicontrol(fig, ... 'Style', 'text', ... 'Units', 'normalized', ... 'BackgroundColor', [0.5 0.5 0.5], ... 'Position', [0.56 group1_top-tRow1Offset 0.36 0.05], ... 'String', 'Classification'); popup2str(1) = popup1str(1); popup2str(2) = {'Generalised Linear Model (2 class)'}; popup2str(3) = {'Generalised Linear Model (3 class)'}; popup2str(4) = {'Multi-Layer Perceptron'}; popup2str(5) = {'K nearest neighbour'}; % TWO popup hPop2 = uicontrol(fig, ... 'Style','popup', ... 'Units','normalized', ... 'String', popup2str, ... 'Position', [0.56 group1_top-bRow1Offset 0.36 0.08], ... 'BackgroundColor', [0.7 0.7 0.7], ... 'Callback', 'demnlab popup2'); tRow2Offset = 0.30; bRow2Offset = tRow2Offset+TBoffset; % THREE text uicontrol(fig, ... 'Style', 'text', ... 'Units', 'normalized', ... 'BackgroundColor', [0.5 0.5 0.5], ... 'Position', [0.08 group1_top - tRow2Offset 0.36 0.05], ... 'String', 'Density Modelling and Clustering'); popup3str(1) = popup1str(1); popup3str(2) = {'Gaussian Mixture (EM training)'}; popup3str(3) = {'Gaussian Mixture (spherical)'}; popup3str(4) = {'Gaussian Mixture (diagonal)'}; popup3str(5) = {'Gaussian Mixture (full)'}; popup3str(6) = {'Neuroscale'}; popup3str(7) = {'GTM (EM training)'}; popup3str(8) = {'GTM (visualisation)'}; popup3str(9) = {'K-means clustering'}; popup3str(10) = {'Self-Organising Map'}; % TWO popup % THREE popup hPop3 = uicontrol(fig, ... 'Style','popup', ... 'Units','normalized', ... 'String', popup3str, ... 'Position', [0.08 group1_top - bRow2Offset 0.36 0.08], ... 'BackgroundColor', [0.7 0.7 0.7], ... 'Callback', 'demnlab popup3'); % FOUR text uicontrol(fig, ... 'Style', 'text', ... 'Units', 'normalized', ... 'BackgroundColor', [0.5 0.5 0.5], ... 'Position', [0.56 group1_top - tRow2Offset 0.36 0.05], ... 'String', 'Bayesian Methods'); popup4str(1) = popup1str(1); popup4str(2) = {'Sampling the MLP Prior'}; popup4str(3) = {'Evidence Approximation for MLP'}; popup4str(4) = {'Evidence Approximation for RBF'}; popup4str(5) = {'Evidence Approximation in Classification'}; popup4str(6) = {'ARD for MLP'}; popup4str(7) = {'Sampling the GP Prior'}; popup4str(8) = {'GPs for Regression'}; popup4str(9) = {'ARD for GP'}; % FOUR popup hPop4 = uicontrol(fig, ... 'Style','popup', ... 'Units','normalized', ... 'String', popup4str, ... 'Position', [0.56 group1_top - bRow2Offset 0.36 0.08], ... 'BackgroundColor', [0.7 0.7 0.7], ... 'Callback', 'demnlab popup4'); tRow3Offset = 0.45; bRow3Offset = tRow3Offset+TBoffset; % FIVE text uicontrol(fig, ... 'Style', 'text', ... 'Units', 'normalized', ... 'BackgroundColor', [0.5 0.5 0.5], ... 'Position', [0.08 group1_top - tRow3Offset 0.36 0.05], ... 'String', 'Optimisation and Visualisation'); popup5str(1) = popup1str(1); popup5str(2) = {'Algorithm Comparison'}; popup5str(3) = {'On-line Gradient Descent'}; popup5str(4) = {'Hinton Diagrams'}; % FIVE popup hPop5 = uicontrol(fig, ... 'Style','popup', ... 'Units','normalized', ... 'String',popup5str, ... 'Position', [0.08 group1_top - bRow3Offset 0.36 0.08], ... 'BackgroundColor', [0.7 0.7 0.7], ... 'Callback', 'demnlab popup5'); % SIX text uicontrol(fig, ... 'Style', 'text', ... 'Units', 'normalized', ... 'BackgroundColor', [0.5 0.5 0.5], ... 'Position', [0.56 group1_top - tRow3Offset 0.36 0.05], ... 'String', 'Sampling'); popup6str(1) = popup1str(1); popup6str(2) = {'Sampling a Gaussian'}; popup6str(3) = {'MCMC sampling (Metropolis)'}; popup6str(4) = {'Hybrid MC (Gaussian mixture)'}; popup6str(5) = {'Hybrid MC for MLP I'}; popup6str(6) = {'Hybrid MC for MLP II'}; % SIX popup hPop6 = uicontrol(fig, ... 'Style','popup', ... 'Units','normalized', ... 'String', popup6str, ... 'Position', [0.56 group1_top - bRow3Offset 0.36 0.08], ... 'BackgroundColor', [0.7 0.7 0.7], ... 'Callback', 'demnlab popup6'); % Create HELP button uicontrol(fig, ... 'Units', 'normalized', ... 'Position' , [0.05 group2_bot+0.02 0.40 0.08], ... 'String', 'Help', ... 'Callback', 'demnlab help'); % Create CLOSE button uicontrol(fig, ... 'Units', 'normalized', ... 'Position' , [0.55 group2_bot+0.02 0.40 0.08], ... 'String', 'Close', ... 'Callback', 'close(gcf)'); hndlList=[fig hPop1 hPop2 hPop3 hPop4 hPop5 hPop6]; set(fig, 'UserData', hndlList); set(fig, 'HandleVisibility', 'callback'); elseif strcmp(action, 'popup1'), hndlList=get(gcf,'UserData'); hPop = hndlList(2); selected = get(hPop, 'Val'); set(hPop, 'Val', [1]); switch selected case 2 demmlp1; case 3 demrbf1; case 4 demmdn1; end; elseif strcmp(action,'popup2'), hndlList=get(gcf,'UserData'); hPop = hndlList(3); selected = get(hPop, 'Val'); set(hPop, 'Val', [1]); switch selected case 2 demglm1; case 3 demglm2; case 4 demmlp2; case 5 demknn1; end elseif strcmp(action,'popup3'), hndlList=get(gcf,'UserData'); hPop = hndlList(4); selected = get(hPop, 'Val'); set(hPop, 'Val', [1]); switch selected case 2 demgmm1; case 3 demgmm2; case 4 demgmm3; case 5 demgmm4; case 6 demns1; case 7 demgtm1; case 8 demgtm2; case 9 demkmn1; case 10 demsom1; end elseif strcmp(action,'popup4'), hndlList=get(gcf,'UserData'); hPop = hndlList(5); selected = get(hPop, 'Val'); set(hPop, 'Val', [1]); switch selected case 2 demprior; case 3 demev1; case 4 demev3; case 5 demev2; case 6 demard; case 7 demprgp; case 8 demgp; case 9 demgpard; end elseif strcmp(action,'popup5'), hndlList=get(gcf,'UserData'); hPop = hndlList(6); selected = get(hPop, 'Val'); set(hPop, 'Val', [1]); switch selected case 2 demopt1; case 3 demolgd1; case 4 demhint; end elseif strcmp(action,'popup6'), hndlList=get(gcf,'UserData'); hPop = hndlList(7); selected = get(hPop, 'Val'); set(hPop, 'Val', [1]); switch selected case 2 demgauss; case 3 demmet1; case 4 demhmc1; case 5 demhmc2; case 6 demhmc3; end elseif strcmp(action, 'help'), helpStr = {'To run a demo, press the appropriate button.'; ... 'Instructions and information will appear in the Matlab';... 'command window.'}; hHelpDlg = helpdlg(helpStr, 'Netlab Demo Help'); end;