%% Cost Confict adapted for Joystick and Brain Vision: JFC 12/13/11 % Re-adapted for Beh for PdDys: JFC 02/11/15 clear all; close all; command = 'echo orp | sudo -S ifconfig en0 down'; system(command); fprintf('\n\nShutting down internet to protect timing\n\n'); % Find Gamepad and USB-FS2019 devs = PsychHID('Devices'); DAQindx = DaqDeviceIndex(); err0 = DaqDConfigPort(DAQindx, 0, 0); % Port A GPindx = find(strcmp('Logitech(R) Precision(TM) Gamepad', {devs.product})); if isempty(GPindx) error('No Gamepad attached! Stick one in me so we can play. Then restart Matlab') end if isempty(DAQindx) error('No DAQ attached! Stick one in me or the EEG will be lonely. Then restart Matlab') end % Test fire? DaqDOut(DAQindx, 0, 69); WaitSecs(0.2); DaqDOut(DAQindx, 0, 0); fprintf('\n\n\n') TriggerYN = input('Did you see a trigger? And was it a lonely 69\n','s'); % if any(strcmp(TriggerYN, {'N' 'n' 'No' 'no'})) error('Ahhhhhhh!!!! No triggers. Please fix so people know when I am stimulated') end % Get directories taskdir = pwd; % Change directory to this script's dir p = pwd; subject_number = input('Enter the subject number :','s'); subject_group = input('Patient, Control or Pilot ("SZ", "NC", anything else) :\n', 's'); if length(subject_group) == 0 subject_group = 'Pilots'; end if any(strcmp(subject_group, {'SZ', 'sz', 's', 'S', 'Patient', 'patient', 'pat', 'Pat', 'scz', 'schz', 'SCZ', 'SCHZ', 'Schz', 'Scz'})) subject_group = 'Patients'; elseif any(strcmp(subject_group, {'NC', 'c', 'C', 'HC', 'nc', 'hc', 'control', 'Control', 'healthy', 'healthy control', 'Healthy Control'})) subject_group = 'Normal Controls'; else subject_group = 'Pilots'; end run_resting = input('\nDo you need to run the resting state?\n(This is a part of the cost conflict experiment):','s'); contacts = input('\nDoes the participant wear contacts?', 's'); datadir = [taskdir '/Data/' subject_group '/M' subject_number '/Cost Conflict/']; mkdir(datadir); % $$$$$$$$$$$$ $$$$$$$$$$$$ $$$$$$$$$$$$ $$$$$$$$$$$$ % % % % PREPRACT_RESPDEADLINE=3; % % % % RESPDEADLINE=1.5; % % % % TSTDEADLINE=5; PREPRACT_RESPDEADLINE=1; RESPDEADLINE=0.85; TSTDEADLINE=3; FUDGE = 10; % fraction of a second to jitter feedback and response, i.e. = 0.17 + rand/FUDGE % This version adds error/missed trials to the END of the TRN run. % And 'D' is 0% reward % Remember there is some odd coding in the beh for condi - use old beh analysis scripts! % $$$$$$$$$$$$ $$$$$$$$$$$$ $$$$$$$$$$$$ $$$$$$$$$$$$ % hide the cursor HideCursor(); % disable user responses from being displayed ListenChar(2); % Stim A=1; B=2; C=3; D=4; % Color y=1; b=2; % Congru c=1; i=2; % Set up the screen display % get the screen pointer screens = Screen('Screens'); screen = max(screens); % Stimuli will be drawn on the highest screen number % ##################### % screenRect = [0,0,1000,800]; % screen for debugging screenRect = []; % full screen % ##################### [wPtr,rect] = Screen('OpenWindow',screen, [], screenRect); black=BlackIndex(wPtr); Screen('FillRect',wPtr,black); Screen(wPtr, 'Flip'); % get the center point for presentation purposes X_center = rect(3)/2; Y_center = rect(4)/2; % define the boundries of the right and left stims image_width = 200; image_height = 200; % a pixel buffer from the center point pixel_buffer = 325; pixel_buffer_test = 75; pixel_buffer_up = 100; % define center rect x_Right = X_center - image_width/2; X_Left = X_center + image_width/2; Y_Top = Y_center - image_height/2; left_Ybottom = Y_Top + image_height; center_rect = [x_Right, Y_Top, X_Left, left_Ybottom]; % define the left image rect x_Right = X_center - image_width - pixel_buffer; X_Left = x_Right + image_width; Y_Top = Y_center - image_height/2; left_Ybottom = Y_Top + image_height; left_rect = [x_Right, Y_Top, X_Left, left_Ybottom]; % and the right image rect x_Right = X_center + pixel_buffer; X_Left = x_Right + image_width; Y_Top = Y_center - image_height/2; left_Ybottom = Y_Top + image_height; right_rect = [x_Right, Y_Top, X_Left, left_Ybottom]; % TEST: left image rect x_Right = X_center - image_width - pixel_buffer_test; X_Left = x_Right + image_width; Y_Top = Y_center - image_height/2; left_Ybottom = Y_Top + image_height; left_rect_test = [x_Right, Y_Top, X_Left, left_Ybottom]; % TEST: right image rect x_Right = X_center + pixel_buffer_test; X_Left = x_Right + image_width; Y_Top = Y_center - image_height/2; left_Ybottom = Y_Top + image_height; right_rect_test = [x_Right, Y_Top, X_Left, left_Ybottom]; % input keys left_key = KbName('d'); right_key = KbName('k'); left_button = 5; right_button = 6; up_button = 4; down_button = 2; %********************************************************************** % RESTING STATE for eye blinks for dopamine if any(strcmp(run_resting, {'yes' 'y' 'Y' 'Yes' 'YE' 'ye' 'YES' 'Ye'})) save([datadir 'contacts.mat'], 'contacts') restopentext = 'Experimenter: Prepare for 2 minutes resting state EEG'; reststarttext = 'Experimenter: Start EEG data saving.\nNew EEG file label = REST######\n\n###### = Participant Code\n\n\nThen press any key to continue.'; restparttext = 'Participant: Please relax while focussing gently on the cross hair for two minutes\n\n\n\nExperimenter: press any key to start.'; restendtext = 'Finished Resting State\nGet ready for Cost Conflict.\n\nHave fun!\n\n\nExperimenter: Press any key to go onto cost conflict'; Screen('TextSize',wPtr,50); Screen('TextFont',wPtr,'Times'); Screen('TextStyle',wPtr,0); Screen('TextColor',wPtr,[255 255 255]); DrawFormattedText(wPtr,restopentext,'center','center'); Screen(wPtr, 'Flip'); KbWait([],3); %Waits for keyboard(any) press DrawFormattedText(wPtr,reststarttext,'center','center'); Screen(wPtr, 'Flip'); KbWait([],3); %Waits for keyboard(any) press DrawFormattedText(wPtr,restparttext,'center','center'); Screen(wPtr, 'Flip'); KbWait([],3); %Waits for keyboard(any) press DrawFormattedText(wPtr,'+','center','center'); Screen(wPtr, 'Flip'); WaitSecs(2); for tl = 1:62 DaqDOut(DAQindx, 0, tl); WaitSecs(1); DaqDOut(DAQindx, 0, 0); WaitSecs(1); end WaitSecs(1); DrawFormattedText(wPtr, restendtext,'center','center'); Screen(wPtr, 'Flip'); KbWait([],3); %Waits for keyboard(any) press end %******************************************************************** Instructions; % Pract were stims 1,2 session = round(rand+1); if session==1 STIMS{1}=[4,8,15,17]; STIMS{2}=[11,5,3,10]; STIMS{3}=[7,12,13,18]; STIMS{4}=[16,21,19,20]; elseif session==2 STIMS{1}=[14,22,23,25]; STIMS{2}=[24,29,27,28]; STIMS{3}=[30,6,9,26]; STIMS{4}=[31,32,33,34]; end starttext = 'Experimenter: Start EEG data saving.\nNew EEG file label = CC######_B1\n\n\nThen press any key to begin experiment'; Screen('TextSize',wPtr,50); Screen('TextFont',wPtr,'Times'); Screen('TextStyle',wPtr,0); Screen('TextColor',wPtr,[255 255 255]); DrawFormattedText(wPtr,starttext,'center','center'); Screen(wPtr, 'Flip'); KbWait([],3); %Waits for keyboard(any) press setNum = 0; sets=randperm(4); for Block=sets setNum = setNum + 1; % Set Stims S1=num2str(STIMS{Block}(1)); S2=num2str(STIMS{Block}(2)); S3=num2str(STIMS{Block}(3)); S4=num2str(STIMS{Block}(4)); data_block = []; TRAINING; load([datadir 'M' num2str(subject_number),'_B',num2str(Block),'_CC_train.mat']); points = sum(data_block(:,11)); fprintf(['#########################################\n\n\Points for that block = '... num2str(points) '\n\n\n'... '#########################################\n\n\n']); % ######################## Screen('TextSize',wPtr,50); Screen('TextFont',wPtr,'Times'); Screen('TextStyle',wPtr,0); Screen('TextColor',wPtr,[255 255 255]); beginningText1 = 'Good Job. \n\n\nGet Ready For the test phase. \n\n\n\n\n Experimenter: Press [Space] to continue '; DrawFormattedText(wPtr,beginningText1,'center','center'); Screen(wPtr, 'Flip'); KbWait([],3); %Waits for keyboard(any) press beginningText1 = 'The pictures will be presented in pairs again. \n\n\nPick the picture that was MOST REWARDING during the task \n\n\n\n\n Experimenter: Press space to continue '; DrawFormattedText(wPtr,beginningText1,'center','center'); Screen(wPtr, 'Flip'); KbWait([],3); %Waits for keyboard(any) press % ######################## data_test = []; TESTING; clear global B_textures; clear S1 S2 S3 S4; if any(Block == sets(1:3)) Screen('TextSize',wPtr,50); Screen('TextFont',wPtr,'Times'); Screen('TextStyle',wPtr,0); Screen('TextColor',wPtr,[255 255 255]); beginningText1 = 'Great! Get ready for a new training phase...\n\n\n\n\nExperimenter: Press [Space] to continue'; DrawFormattedText(wPtr,beginningText1,'center','center'); Screen(wPtr, 'Flip'); KbWait([],3); %Waits for keyboard(any) press end if Block==sets(2) breaktext = 'Please have a short break while the experimenter \n starts a new EEG file \n\n\n\n New file label = CC######_B2'; DrawFormattedText(wPtr, breaktext,'center','center'); Screen(wPtr, 'Flip'); KbWait([],3); %Waits for keyboard(any) press end blocknumbertext = num2str(find(Block==sets)+1); if any(Block == sets(1:3)) startblocktext = ['Experimenter, press any key to start new block\n\n\n Block ' blocknumbertext ' of/4']; DrawFormattedText(wPtr, startblocktext,'center','center'); Screen(wPtr, 'Flip'); KbWait([],3); %Waits for keyboard(any) press end % ######################## end %*******FORCE STOP********** wait_text = 'Done!\n\nThank you for participating!\n\n\nPlease wait for the experimenter.'; Screen('TextFont',wPtr,'Times New Roman'); Screen('TextStyle',wPtr,0); Screen('TextColor',wPtr,[255 255 255]); Screen('TextSize',wPtr,80); DrawFormattedText(wPtr,wait_text,'center','center'); Screen(wPtr, 'Flip'); KbWait([],3); %Waits for keyboard(any) press %*******FORCE STOP********** sca; ShowCursor; fprintf('\nEnd of Task.\n'); close all; fprintf('\n\nStarting up internet to sync data\n'); command = 'echo orp | sudo -S ifconfig en0 up'; system(command); WaitSecs(1); fprintf('\n\nConnecting to the mothership......\n'); WaitSecs(1); fprintf('\nConnection probably established......\n'); WaitSecs(2); fprintf('\nI think I just touched E.T.\n\n\n\n'); WaitSecs(1); command = 'rsync -avzhe ssh /Users/orp/Documents/MATLAB/REEG2/\!Cost\ Conflict_4/data/ malbrecht@orp-12212-MAPC\:/local/Dropbox/REEG_Data/REEG2_BehaviorBySub/'; system(command); fprintf('\n\n\nOoooooohhhhh YEAH!!!! Synchronicity!.......\n'); ListenChar(0); % Calculate total points load([datadir 'M' num2str(subject_number),'_B',num2str(1),'_CC_train.mat']); points = sum(data_block(:,11)); load([datadir 'M' num2str(subject_number),'_B',num2str(2),'_CC_train.mat']); points = points + sum(data_block(:,11)); load([datadir 'M' num2str(subject_number),'_B',num2str(3),'_CC_train.mat']); points = points + sum(data_block(:,11)); load([datadir 'M' num2str(subject_number),'_B',num2str(4),'_CC_train.mat']); points = points + sum(data_block(:,11)); winnings = points*5/100; if winnings < 2 winnings = 2; elseif winnings > 8 winnings = 8; end fprintf(['#########################################\n\n\nTotal Points = '... num2str(points) '\n\n\nParticipant won $' num2str(winnings) '\n\n\n'... '#########################################\n\n\n']);