How do I make all the code execute in MATLAB using Psychtoolbox?

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Cai Chin el 19 de Ag. de 2020

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https://es.mathworks.com/matlabcentral/answers/581624-how-do-i-make-all-the-code-execute-in-matlab-using-psychtoolbox

Comentada: Geoff Hayes el 20 de Ag. de 2020

I am using MATLAB 2020 Psychtoolbox on Mac OS and everytime I run this code, they screen turns grey followed by an error sound, however, no error message is displayed in the command window. How do I make all the code execute?

% Clear the workspace
close all;
clearvars;
sca;
% Setup PTB with some default values
PsychDefaultSetup(2);
% Seed the random number generator. Here we use the an older way to be
% compatible with older systems. Newer syntax would be rng('shuffle'). Look
% at the help function of rand "help rand" for more information
rand('seed', sum(100 * clock));
% Set the screen number to the external secondary monitor if there is one
% connected
screenNumber = max(Screen('Screens'));
% Define white, grey and black
white = WhiteIndex(screenNumber);
grey = white / 2;
black = BlackIndex(screenNumber);
% Open an on screen window
[window, windowRect] = PsychImaging('OpenWindow', screenNumber, grey);
% Get the size of the on screen window
[screenXpixels, screenYpixels] = Screen('WindowSize', window);
% Query the frame duration
ifi = Screen('GetFlipInterval', window);
% Set up alpha-blending for smooth (anti-aliased) lines
Screen('BlendFunction', window, 'GL_SRC_ALPHA', 'GL_ONE_MINUS_SRC_ALPHA');
% Setup the text type for the window
Screen('TextFont', window, 'Ariel');
Screen('TextSize', window, 36);
% Get the centre coordinate of the window
[xCenter, yCenter] = RectCenter(windowRect);
%----------------------------------------------------------------------
%                       Keyboard information
%----------------------------------------------------------------------
% Define the keyboard keys that are listened for. We will be using the left
% and right arrow keys as response keys for the task and the escape key as
% a exit/reset key
escapeKey = KbName('ESCAPE');
leftKey = KbName('LeftArrow');
rightKey = KbName('RightArrow');
downKey = KbName('DownArrow');
%----------------------------------------------------------------------
%                       Fixation cross
%----------------------------------------------------------------------
% Here we set the size of the arms of our fixation cross
fixCrossDimPix = 10;
% Now we set the coordinates (these are all relative to zero we will let
% the drawing routine center the cross in the center of our monitor for us)
xCoords = [-fixCrossDimPix fixCrossDimPix 0 0];
yCoords = [0 0 -fixCrossDimPix fixCrossDimPix];
allCoords = [xCoords; yCoords];
% Set the line width for our fixation cross
lineWidthPix = 4;
%----------------------------------------------------------------------
%                            Colors
%----------------------------------------------------------------------
% We are going to use three colors for this demo. Red, Green and blue.
wordList = {'Green', 'Magenta', 'Orange'};
Colors = [0 1 0; 1 0 1; 0.8500 0.3250 0.0980];
%----------------------------------------------------------------------
%                  Define positions of sequences
%----------------------------------------------------------------------
leftX = screenXpixels/2.5;
leftY = screenXpixels/1.6;
rightX = screenXpixels/1.7;
rightY = screenYpixels/1.6;
upX = screenXpixels/2.1;
upY = screenYpixels/2.6;
left = [leftX leftY];
right = [rightX rightY];
up = [upX upY];
%----------------------------------------------------------------------
%                  Randomise temporal order of trials
%----------------------------------------------------------------------
 
trialorder = [1 0 0 0 0];
randtemp = Shuffle(trialorder);
%----------------------------------------------------------------------
%                           Trial loop
%----------------------------------------------------------------------
nTrials = 5;
for trial = 1:randtemp
    
    % randomise position of sequences
    randpos = Shuffle(left, right, up);
    
    % fixation cross
    % Draw the fixation cross in white, set it to the center of our screen and
    % set good quality antialiasing
    Screen('DrawLines', window, allCoords,...
    lineWidthPix, white, [xCenter yCenter], 2);
    % Derive distributions
    seq1 = distribution(0.02, 0.126, 0.146, 0.106, 5); % high variance
    seq2 = distribution(0.02, 0.126, 0.146, 0.106, 5); % low variance
    seq3 = distribution(0.02, 0.126, 0.146, 0.106, 5); % low variance
    
    seq4 = distribution(0.02, 0.126, 0.146, 0.106, 5);
    seq5 = distribution(0.02, 0.126, 0.146, 0.106, 5);
    seq6 = distribution(0.02, 0.126, 0.146, 0.106, 5);
    
    seq7 = distribution(0.02, 0.126, 0.146, 0.106, 5);
    seq8 = distribution(0.02, 0.126, 0.146, 0.106, 5);
    seq9 = distribution(0.02, 0.126, 0.146, 0.106, 5);
    
    seq10 = distribution(0.02, 0.126, 0.146, 0.106, 5);
    seq11 = distribution(0.02, 0.126, 0.146, 0.106, 5);
    seq12 = distribution(0.02, 0.126, 0.146, 0.106, 5);
    
    seq13 = distribution(0.02, 0.126, 0.146, 0.106, 5);
    seq14 = distribution(0.02, 0.126, 0.146, 0.106, 5);
    seq15 = distribution(0.02, 0.126, 0.146, 0.106, 5);
    if trial == 1 
       DrawFormattedText(window, 'Name the color \n\n Press Any Key To Begin',...
       'center', 'center', black);
       Screen('Flip', window);
       KbStrokeWait;
    end
    
    if randtemp() == 0
        % trail 1
        Screen('DrawText', num2str(seq1), white, randpos(1));
        Screen('DrawText', num2str(seq2), white, randpos(2));
        Screen('DrawText', num2str(seq3), white, randpos(3));
        WaitSecs(0.75)
        Screen('Flip', window);
        KbStrokeWait;
           
        Screen('DrawText', num2str(seq2), white, randpos(1));
        Screen('DrawText', num2str(seq3), white, randpos(2));
        WaitSecs(0.75)
        Screen('Flip', window);
        KbStrokeWait;
        
        %trial 2
        %repeat
        
    else 
        Screen('DrawText', num2str(seq13), white, randpos(1));
        Screen('DrawText', num2str(seq14), white, randpos(2));
        Screen('DrawText', num2str(seq15), white, randpos(3));
        WaitSecs(0.75)
        Screen('Flip', window);
        KbStrokeWait;
           
        Screen('DrawText', num2str(seq13), white, randpos(1));
        Screen('DrawText', num2str(seq14), white, randpos(2));
        WaitSecs(0.75)
        Screen('Flip', window);
        KbStrokeWait;
    end
end       
% Flip to the screen
Screen('Flip', window);
% Wait for a key press
KbStrokeWait;
% Clear the screen
sca;
function distribution(va, mu, ul, ll, nvals)
 multiplier=10;
 x = mu + randi(multiplier*nvals,1)*sqrt(va); % Generate sufficient random numbers
 idx = (ll <= x) & (x <= ul); % Extract the value in the given range [min max]
 while sum(idx)<nvals
    multiplier=multiplier+1;
    x = mu + randi(multiplier*nvals,1)*sqrt(va); % Generate sufficient random numbers
    idx = (ll <= x) & (x <= ul); % Extract the value in the given range [min max]
 end
 x = x(idx);
 x = x(1:nvals); % Extract numbers