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func_final_feedback.m
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func_final_feedback.m
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function [global_accuracy_rate global_accuracy_rate_FEATURE global_accuracy_rate_TASK_2] =...
func_final_feedback(task_presentation,task_type,number_of_trial,MATRIX_data)
global win0 winclear
%global global_accuracy_rate global_accuracy_rate_FEATURE global_accuracy_rate_CONJUNCTION
global_accuracy_rate = 0;
global_accuracy_rate_FEATURE = 0;
global_accuracy_rate_TASK_2 = 0;
matrix_settings;
global_settings;
Screen(win0,'TextSize',16);%settings.LETTER_SIZE
Screen(win0,'TextFont',settings.LETTER_FONT);
if task_presentation == settings.BLOCKED_SEARCH
if task_type == settings.TASK_1
matrix_current_part = MATRIX_data(1:number_of_trial, :);
matrix_target_PRESENT = matrix_current_part(MATRIX_data((1:number_of_trial),column_target_presence) == 1, :);
matrix_target_ABSENT = matrix_current_part(MATRIX_data((1:number_of_trial),column_target_presence) == 0, :);
matrix_target_PRESENT_CORRECT = matrix_target_PRESENT(matrix_target_PRESENT(:,column_accuracy) == 1, :);
matrix_target_ABSENT_CORRECT = matrix_target_ABSENT(matrix_target_ABSENT(:,column_accuracy) == 1, :);
HIT_rate = sum(matrix_target_PRESENT_CORRECT(:,column_accuracy),1) / size(matrix_target_PRESENT,1) * 100;
CR_rate = sum(matrix_target_ABSENT_CORRECT(:,column_accuracy),1) / size(matrix_target_ABSENT,1) * 100;
HIT_rate_string = int2str(floor(HIT_rate));
CR_rate_string = int2str(floor(CR_rate));
global_accuracy_rate = (HIT_rate + CR_rate)/2;
global_accuracy_rate_string = int2str(floor(global_accuracy_rate));
average_RT_HIT_string = int2str(floor((sum(matrix_target_PRESENT_CORRECT(:,column_response_time),1))/size(matrix_target_PRESENT_CORRECT,1)));
average_RT_CR_string = int2str(floor((sum(matrix_target_ABSENT_CORRECT(:,column_response_time),1))/size(matrix_target_ABSENT_CORRECT,1)));
l=0;
matRT_HIT= ones(1,3);
matRT_CR = ones(1,3);
for setsize = settings.SET_SIZE
matrix_target_HIT_setsize = matrix_target_PRESENT_CORRECT(matrix_target_PRESENT_CORRECT(:,column_setsize) == setsize, :);
matrix_target_CR_setsize = matrix_target_ABSENT_CORRECT(matrix_target_ABSENT_CORRECT(:,column_setsize) == setsize, :);
average_RT_HIT_setsize = (sum(matrix_target_HIT_setsize(:,column_response_time),1))/size(matrix_target_HIT_setsize,1);
average_RT_CR_setsize = (sum(matrix_target_CR_setsize(:,column_response_time),1))/size(matrix_target_CR_setsize,1);
l=l+1;
matRT_HIT(1,l) = average_RT_HIT_setsize;
matRT_CR(1,l) = average_RT_CR_setsize;
end
setsize = settings.SET_SIZE';
matRT_HIT = matRT_HIT';
matRT_CR = matRT_CR';
mat_intercept_slope_HIT=[ones(3,1) setsize]\matRT_HIT;
mat_intercept_slope_CR=[ones(3,1) setsize]\matRT_CR;
slope_HIT_string = int2str(floor(mat_intercept_slope_HIT(2,1)));
slope_CR_string = int2str(floor(mat_intercept_slope_CR(2,1)));
Text_0 = 'Please ask the experimenter for further instructions.';
Text_1 = strcat('AVERAGE ACCURACY: ',global_accuracy_rate_string);
Text_2 = strcat('HIT rate: ',HIT_rate_string);
Text_3 = strcat('RT HIT: ',average_RT_HIT_string);
Text_4 = strcat('Slope HIT: ',slope_HIT_string);
Text_5 = strcat('Correct rejection rate: ',CR_rate_string);
Text_6 = strcat('RT Correct rejection: ',average_RT_CR_string);
Text_7 = strcat('Slope Correct rejection: ',slope_CR_string);
Screen(win0,'DrawText',Text_0,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y ,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_1,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+2*settings.CM ,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_2,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+4*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_3,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+5*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_4,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+6*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_5,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+8*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_6,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+9*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_7,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+10*settings.CM,settings.LETTER_COLOR);
end
if task_type == settings.TASK_2
matrix_current_part = MATRIX_data(1:number_of_trial, :);
matrix_correct_answers = matrix_current_part(MATRIX_data((1:number_of_trial),column_accuracy) == 1, :);
accuracy = sum(matrix_correct_answers(:,column_accuracy),1) / size(matrix_current_part,1) * 100;
accuracy_string = int2str(floor(accuracy));
average_RT_correct_answers_string = int2str(floor((sum(matrix_correct_answers(:,column_response_time),1))/size(matrix_correct_answers,1)));
l=0;
matRT= ones(1,3);
for setsize = settings.SET_SIZE
matrix_correct_answer_setsize = matrix_correct_answers(matrix_correct_answers(:,column_setsize) == setsize, :);
average_RT_correct_answer_setsize = (sum(matrix_correct_answer_setsize(:,column_response_time),1))/size(matrix_correct_answer_setsize,1);
l=l+1;
matRT(1,l) = average_RT_correct_answer_setsize;
end
setsize = settings.SET_SIZE';
matRT = matRT';
mat_intercept_slope=[ones(3,1) setsize]\matRT;
slope_string = int2str(floor(mat_intercept_slope(2,1)));
Text_0 = 'Please ask the experimenter for further instructions.';
Text_1 = strcat('AVERAGE ACCURACY: ',accuracy_string);
Text_2 = strcat('RT: ',average_RT_correct_answers_string);
Text_3 = strcat('Slope: ',slope_string);
Screen(win0,'DrawText',Text_0,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y ,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_1,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+2*settings.CM ,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_2,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+3*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_3,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+4*settings.CM,settings.LETTER_COLOR);
end
while 1
if KbCheck == 1
key = GetChar;
if lower(key) == settings.NEXT_KEY_FOR_EXPERIMENTER
break;
end
end
end
Screen('CopyWindow',winclear,win0);
elseif task_presentation == settings.MIXED_SEARCH
matrix_current_part = MATRIX_data(1:number_of_trial, :);
matrix_FEATURE = matrix_current_part(MATRIX_data((1:number_of_trial),column_task_type) == settings.TASK_1, :);
matrix_FEATURE_PRESENT = matrix_FEATURE(matrix_FEATURE(:,column_target_presence) == 1, :);
matrix_FEATURE_PRESENT_NON_SWITCH = matrix_FEATURE_PRESENT(matrix_FEATURE_PRESENT(:,column_trial_type) == 0, :);
matrix_FEATURE_PRESENT_SWITCH = matrix_FEATURE_PRESENT(matrix_FEATURE_PRESENT(:,column_trial_type) == 1, :);
matrix_FEATURE_ABSENT = matrix_FEATURE(matrix_FEATURE(:,column_target_presence) == 0, :);
matrix_FEATURE_ABSENT_NON_SWITCH = matrix_FEATURE_ABSENT(matrix_FEATURE_ABSENT(:,column_trial_type) == 0, :);
matrix_FEATURE_ABSENT_SWITCH = matrix_FEATURE_ABSENT(matrix_FEATURE_ABSENT(:,column_trial_type) == 1, :);
matrix_FEATURE_HIT = matrix_FEATURE_PRESENT(matrix_FEATURE_PRESENT(:,column_accuracy) == 1, :);
matrix_feature_HIT_NON_SWITCH = matrix_FEATURE_HIT(matrix_FEATURE_HIT(:,column_trial_type) == 0, :);
matrix_feature_HIT_SWITCH = matrix_FEATURE_HIT(matrix_FEATURE_HIT(:,column_trial_type) == 1, :);
matrix_FEATURE_CR = matrix_FEATURE_ABSENT(matrix_FEATURE_ABSENT(:,column_accuracy) == 1, :);
matrix_feature_CR_NON_SWITCH = matrix_FEATURE_CR(matrix_FEATURE_CR(:,column_trial_type) == 0, :);
matrix_feature_CR_SWITCH = matrix_FEATURE_CR(matrix_FEATURE_CR(:,column_trial_type) == 1, :);
HIT_rate_FEATURE = sum(matrix_FEATURE_HIT(:,column_accuracy),1) / size(matrix_FEATURE_PRESENT,1) * 100;
HIT_rate_feature_NON_SWITCH_string = int2str(floor(sum(matrix_feature_HIT_NON_SWITCH(:,column_accuracy),1) / size(matrix_FEATURE_PRESENT_NON_SWITCH,1)* 100));
HIT_rate_feature_SWITCH_string = int2str(floor(sum(matrix_feature_HIT_SWITCH(:,column_accuracy),1) / size(matrix_FEATURE_PRESENT_SWITCH,1)* 100));
CR_rate_FEATURE = sum(matrix_FEATURE_CR(:,column_accuracy),1) / size(matrix_FEATURE_ABSENT,1) * 100;
CR_rate_feature_NON_SWITCH_string = int2str(floor(sum(matrix_feature_CR_NON_SWITCH(:,column_accuracy),1) / size(matrix_FEATURE_ABSENT_NON_SWITCH,1)* 100));
CR_rate_feature_SWITCH_string = int2str(floor(sum(matrix_feature_CR_SWITCH(:,column_accuracy),1) / size(matrix_FEATURE_ABSENT_SWITCH,1)* 100));
HIT_rate_FEATURE_string = int2str(floor(HIT_rate_FEATURE));
CR_rate_FEATURE_string = int2str(floor(CR_rate_FEATURE));
global_accuracy_rate_FEATURE = floor((HIT_rate_FEATURE + CR_rate_FEATURE)/2);
global_accuracy_rate_FEATURE_string = int2str(floor((HIT_rate_FEATURE + CR_rate_FEATURE)/2));
average_RT_HIT_FEATURE_string = int2str(floor((sum(matrix_FEATURE_HIT(:,column_response_time),1))/size(matrix_FEATURE_HIT,1)));
average_RT_HIT_feature_NON_SWITCH_string = int2str(floor((sum(matrix_feature_HIT_NON_SWITCH(:,column_response_time),1))/size(matrix_feature_HIT_NON_SWITCH,1)));
average_RT_HIT_feature_SWITCH_string = int2str(floor((sum(matrix_feature_HIT_SWITCH(:,column_response_time),1))/size(matrix_feature_HIT_SWITCH,1)));
average_RT_CR_FEATURE_string = int2str(floor((sum(matrix_FEATURE_CR(:,column_response_time),1))/size(matrix_FEATURE_CR,1)));
average_RT_CR_feature_NON_SWITCH_string = int2str(floor((sum(matrix_feature_CR_NON_SWITCH(:,column_response_time),1))/size(matrix_feature_CR_NON_SWITCH,1)));
average_RT_CR_feature_SWITCH_string = int2str(floor((sum(matrix_feature_CR_SWITCH(:,column_response_time),1))/size(matrix_feature_CR_SWITCH,1)));
% task 2
matrix_TASK_2 = matrix_current_part(MATRIX_data((1:number_of_trial),column_task_type) == settings.TASK_2, :);
matrix_TASK_2_CORRECT_ANSWER = matrix_TASK_2(matrix_TASK_2(:,column_accuracy) == 1, :);
matrix_TASK_2_NON_SWITCH = matrix_TASK_2(matrix_TASK_2(:,column_trial_type) == 0, :);
matrix_TASK_2_SWITCH = matrix_TASK_2(matrix_TASK_2(:,column_trial_type) == 1, :);
matrix_TASK_2_NON_SWITCH_CORRECT_ANSWER = matrix_TASK_2_NON_SWITCH(matrix_TASK_2_NON_SWITCH(:,column_accuracy) == 1, :);
matrix_TASK_2_SWITCH_CORRECT_ANSWER = matrix_TASK_2_SWITCH(matrix_TASK_2_SWITCH(:,column_accuracy) == 1, :);
global_accuracy_rate_TASK_2 = sum(matrix_TASK_2_CORRECT_ANSWER(:,column_accuracy),1) / size(matrix_TASK_2,1) * 100;
accuracy_non_switch = sum(matrix_TASK_2_NON_SWITCH_CORRECT_ANSWER(:,column_accuracy),1) / size(matrix_TASK_2_NON_SWITCH,1) * 100;
accuracy_switch = sum(matrix_TASK_2_SWITCH_CORRECT_ANSWER(:,column_accuracy),1) / size(matrix_TASK_2_SWITCH,1) * 100;
accuracy_non_switch_string = int2str(floor(accuracy_non_switch));
accuracy_switch_string = int2str(floor(accuracy_switch));
average_RT_correct_answers_non_switch_string = int2str(floor((sum(matrix_TASK_2_NON_SWITCH_CORRECT_ANSWER(:,column_response_time),1))/size(matrix_TASK_2_NON_SWITCH_CORRECT_ANSWER,1)));
average_RT_correct_answers_switch_string = int2str(floor((sum(matrix_TASK_2_SWITCH_CORRECT_ANSWER(:,column_response_time),1))/size(matrix_TASK_2_SWITCH_CORRECT_ANSWER,1)));
l=0;
matRT_HIT_FEATURE = ones(1,3);
matRT_CR_FEATURE = ones(1,3);
matRT_TASK_2 = ones(1,3);
for setsize = settings.SET_SIZE
matrix_FEATURE_HIT_setsize = matrix_FEATURE_HIT(matrix_FEATURE_HIT(:,column_setsize) == setsize, :);
matrix_FEATURE_CR_setsize = matrix_FEATURE_CR(matrix_FEATURE_CR(:,column_setsize) == setsize, :);
matrix_TASK_2_correct_answer_setsize = matrix_TASK_2_CORRECT_ANSWER(matrix_TASK_2_CORRECT_ANSWER(:,column_setsize) == setsize, :);
average_RT_FEATURE_HIT_setsize = (sum(matrix_FEATURE_HIT_setsize(:,column_response_time),1))/size(matrix_FEATURE_HIT_setsize,1);
average_RT_FEATURE_CR_setsize = (sum(matrix_FEATURE_CR_setsize(:,column_response_time),1))/size(matrix_FEATURE_CR_setsize,1);
average_RT_TASK_2_correct_answer_setsize = (sum(matrix_TASK_2_correct_answer_setsize(:,column_response_time),1))/size(matrix_TASK_2_correct_answer_setsize,1);
l=l+1;
matRT_HIT_FEATURE (1,l)= average_RT_FEATURE_HIT_setsize;
matRT_CR_FEATURE (1,l)= average_RT_FEATURE_CR_setsize;
matRT_TASK_2(1,l)= average_RT_TASK_2_correct_answer_setsize;
end
setsize = settings.SET_SIZE';
matRT_HIT_FEATURE = matRT_HIT_FEATURE';
matRT_CR_FEATURE = matRT_CR_FEATURE';
matRT_TASK_2 = matRT_TASK_2';
mat_intercept_slope_HIT_FEATURE=[ones(3,1) setsize]\matRT_HIT_FEATURE;
mat_intercept_slope_CR_FEATURE=[ones(3,1) setsize]\matRT_CR_FEATURE;
mat_intercept_slope_TASK_2=[ones(3,1) setsize]\matRT_TASK_2;
slope_HIT_FEATURE_string = int2str(floor(mat_intercept_slope_HIT_FEATURE(2,1)));
slope_CR_FEATURE_string = int2str(floor(mat_intercept_slope_CR_FEATURE(2,1)));
slope_TASK_2_string = int2str(floor(mat_intercept_slope_TASK_2(2,1)));
Text_0 = 'Please ask the experimenter for further instructions.';
Text_1 = strcat('FEATURE SEARCH AVERAGE ACCURACY: ',global_accuracy_rate_FEATURE_string);
Text_3 = strcat('FEATURE - HIT rate: ',HIT_rate_FEATURE_string);
Text_3a = strcat('--- Non switch: ',HIT_rate_feature_NON_SWITCH_string);
Text_3b = strcat('--- Switch: ',HIT_rate_feature_SWITCH_string);
Text_4 = strcat('FEATURE - HIT rt: ',average_RT_HIT_FEATURE_string);
Text_4a = strcat('--- Non switch: ',average_RT_HIT_feature_NON_SWITCH_string);
Text_4b = strcat('--- Switch: ',average_RT_HIT_feature_SWITCH_string);
Text_5 = strcat('FEATURE - HIT slope: ',slope_HIT_FEATURE_string);
Text_6 = strcat('FEATURE - CR rate: ',CR_rate_FEATURE_string );
Text_6a = strcat('--- Non switch: ',CR_rate_feature_NON_SWITCH_string);
Text_6b = strcat('--- Switch: ',CR_rate_feature_SWITCH_string);
Text_7 = strcat('FEATURE - CR rt: ',average_RT_CR_FEATURE_string);
Text_7a = strcat('--- Non switch: ',average_RT_CR_feature_NON_SWITCH_string);
Text_7b = strcat('--- Switch: ',average_RT_CR_feature_SWITCH_string);
Text_8 = strcat('FEATURE - CR slope: ',slope_CR_FEATURE_string);
Text_9 = strcat('COUNTING - Accuracy:');
Text_9a = strcat('--- Non switch: ',accuracy_non_switch_string);
Text_9b = strcat('--- Switch: ',accuracy_switch_string);
Text_10 = strcat('COUNTING - RT: ');
Text_10a = strcat('--- Non switch: ', average_RT_correct_answers_non_switch_string);
Text_10b = strcat('--- Switch: ',average_RT_correct_answers_switch_string);
Text_11 = strcat('COUNTING - slope: ',slope_TASK_2_string);
Screen(win0,'DrawText',Text_0,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y ,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_1,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+2*settings.CM ,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_3,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+3.5*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_3a,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+4.5*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_3b,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+5.5*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_4,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+6.5*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_4a,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+7.5*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_4b,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+8.5*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_5,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+9.5*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_6,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+11*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_6a,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+12*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_6b,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+13*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_7,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+14*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_7a,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+15*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_7b,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+16*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_8,settings.LOCATION_TEXT_X,settings.LOCATION_TEXT_Y+17*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_9,settings.LOCATION_TEXT_X+13*settings.CM,settings.LOCATION_TEXT_Y+3.5*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_9a,settings.LOCATION_TEXT_X+13*settings.CM,settings.LOCATION_TEXT_Y+4.5*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_9b,settings.LOCATION_TEXT_X+13*settings.CM,settings.LOCATION_TEXT_Y+5.5*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_10,settings.LOCATION_TEXT_X+13*settings.CM,settings.LOCATION_TEXT_Y+6.5*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_10a,settings.LOCATION_TEXT_X+13*settings.CM,settings.LOCATION_TEXT_Y+7.5*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_10b,settings.LOCATION_TEXT_X+13*settings.CM,settings.LOCATION_TEXT_Y+8.5*settings.CM,settings.LETTER_COLOR);
Screen(win0,'DrawText',Text_11,settings.LOCATION_TEXT_X+13*settings.CM,settings.LOCATION_TEXT_Y+9.5*settings.CM,settings.LETTER_COLOR);
while 1
if KbCheck == 1
key = GetChar;
if lower(key) == settings.NEXT_KEY_FOR_EXPERIMENTER
break;
end
end
end
Screen('CopyWindow',winclear,win0);
end