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%_______________________________________________________________________
%
% Run random dot motion experiment defined in createDotInfo
%_______________________________________________________________________
%
% Input
%
% dotInfo | experiment configuration (struct)
% subj | identifier of subject (string)
% condSet | conditions (cell array of strings)
%_______________________________________________________________________
%
% adapted from dotsExperiment_JQK_170327
% 170704 | cleanup, adapted
function MAT_experiment_170704(dotInfo, subj, DEBUG, opacity)
%%
%% sanitize function parameters
%%
if nargin == 0
eval('help dotsExperiment')
return
end
if not(exist('dotInfo','var'))
error('Missing input: dotInfo')
elseif isempty(dotInfo) || not(isstruct(dotInfo))
error('Invalid input: dotInfo (requires non-empty struct)')
end
if not(exist('subj','var'))
error('Missing input: subj')
elseif not(isempty(subj)) && ischar(subj)
dotInfo.subj = subj;
else
error('Invalid input: subj (requires non-empty string)')
end
if not(isfield(dotInfo,'deployed'))
dotInfo.deployed = true;
end
%%
%% for saving behavioural data
%%
sessionFile = [dotInfo.dataDir, subj '_' datestr(now, 'yymmdd_HHMM'), '.mat'];
%%
%% prepare presentation
%%
displayList = Screen('screens');
displayIdx = displayList(1);
KbName('UnifyKeyNames'); % use portable key naming scheme
oldVerbosityLevel = Screen('Preference', 'Verbosity', 2); % show errors and warnings
arrowKeys = [dotInfo.keyLeft dotInfo.keyRight];
baseDotInfo = dotInfo; % keep for saving later
if DEBUG == 1
Screen('Preference', 'SkipSyncTests', 1);
PsychDebugWindowConfiguration(0, opacity);
else
clear Screen; %PsychDebugWindowConfiguration([], 1);
end;
try
%%
%% prepare canvas
%%
screenInfo = openExperiment(50,50,displayIdx); clc; % open drawing canvas
if numel(Screen('screens')) == 1 || dotInfo.deployed
HideCursor(screenInfo.curWindow);
end
Screen('TextFont', screenInfo.curWindow, 'Helvetica');
Screen('TextSize', screenInfo.curWindow, 20);
Screen('TextStyle', screenInfo.curWindow, 0); % regular
Screen('TextColor', screenInfo.curWindow, 255); % white
sessStartTime = GetSecs;
ResultMat = NaN(dotInfo.totalTrials,4);
DisplayInfo = [];
ExperimentProtocol = cell(0);
ExperimentProtocol = [ExperimentProtocol; {'SessionOnset'}, {sessStartTime}, {[]}, {[]}, {[]},{NaN}, {[]}];
%%
%% block start
%%
% have the subject get ready for the next condition
DrawFormattedText(screenInfo.curWindow, 'Bereit?', 'center', 'center');
Screen('Flip', screenInfo.curWindow);
% wait for experimenter to resume session
while true
[exitSession, resumeSession] = checkKeys(dotInfo);
if resumeSession
break
elseif exitSession
closeExperiment;
return
end
end
for indTrial = 1:dotInfo.totalTrials
fprintf(' (%i)\n', indTrial)
TrialInitiation = GetSecs;
ExperimentProtocol = [ExperimentProtocol; {'TrialInitiation'}, {TrialInitiation}, {[]}, {[]}, {[]}, {indTrial}, {[]}];
% create fixation
targets = makeDotTargets(screenInfo, dotInfo); % initialize targets
%showTargets(screenInfo, targets, 1);
[~, dotInfo, ExperimentProtocol,ResultMat,DisplayInfo] = dotsX_JQK_MAT_170704(screenInfo, dotInfo, targets, indTrial, ExperimentProtocol,ResultMat,DisplayInfo);
% take a break when specified
if ismember(indTrial, dotInfo.PauseAfterTrials)
PauseStart = GetSecs();
ExperimentProtocol = [ExperimentProtocol; {'PauseStart'}, {PauseStart}, {[]}, {[]}, {[]}, {indTrial}, {[]}];
while (GetSecs()-PauseStart) < dotInfo.breakTime
% have the subject get ready for the next condition
pause(.1);
remain = dotInfo.breakTime-round(GetSecs - PauseStart,0);
DrawFormattedText(screenInfo.curWindow, ['Pause: continue in ',num2str(remain),' s'], 'center', 'center');
Screen('Flip', screenInfo.curWindow);
end
end
save(sessionFile, 'ExperimentProtocol', 'dotInfo','ResultMat');
end % block
sessEndTime = GetSecs;
ExperimentProtocol = [ExperimentProtocol; {'SessionEnd'}, {sessEndTime}, {[]}, {[]}, {[]}, {indTrial}, {[]}];
save(sessionFile, 'ExperimentProtocol', 'dotInfo', 'ResultMat');
% inform the subject that the experiment is over
DrawFormattedText(screenInfo.curWindow, 'task complete!', 'center', 'center');
Screen('Flip', screenInfo.curWindow);
% sessTime = GetSecs - sessStartTime;
% meanFixTime = mean([trialData.fixTime]);
% numCorrect = numel(find([trialData.correct]));
% numTrial = numel([trialData.correct]);
% numResponded = numel(find(~isnan([trialData.rxtime])));
%
% fprintf('\nTotal Time: %.2f\n', sessTime) % incl. block startup waits
% fprintf('Average fixation: %.2fs\n', meanFixTime)
% fprintf('Responded: %i/%i\n', numResponded, numTrial)
% fprintf('Correct: %i/%i\n', numCorrect, numTrial)
% fprintf('Accuracy: %.1f\n', 100*numCorrect/numResponded)
% wait for experimenter to close screen
while true
[exitKeyPressed, resumeKeyPressed] = checkKeys(dotInfo);
if exitKeyPressed || resumeKeyPressed
break
end
end
catch exception
getReport(exception) % show stack trace
end
closeExperiment; % close drawing canvas
Screen('Preference', 'Verbosity', oldVerbosityLevel); % restore verbosity
end