Millisecond Forums

Hello, 
I am new to the world of inquisit and coding so my apologies if this is a fundamental question, but my code for the 'cuedgonogo/iqx' is not working and I was wondering if anyone had any insights into why it might be. I am just trying to add a practice trial at the beginning so that participants can get familiar with a practice block before going into the actual test block. 
I have put the full code and then the modified code below. Any help would be greatly appreciated. 

<usermanual>
___________________________________________________________________________________________________________________    

                                    Cued Go / No-Go Task
___________________________________________________________________________________________________________________

last updated: 02-23-2022 by K. Borchert (katjab@millisecond.com) for Millisecond Software, LLC
Script Copyright © 09-30-2022 Millisecond Software

___________________________________________________________________________________________________________________
BACKGROUND INFO     
___________________________________________________________________________________________________________________
Go/Nogo Tasks are used as behavioral measures of inhibition and cognitive control.                                             
This script implements a probability based cued Go / No-Go Task that presents
a) cues that predict go trials with a high probability ('go cue') and b) cues that predict nogo
trials with a high probability ('nogo cue').
In general, commission errors are of particular interest in all Go/Nogo tasks as a measure of cognitive
control. In cued Go/Nogo tasks, go-cues are thought to generate a response prepotency that
speed up correct responses in go-trials but add an additional difficulty to overcome in subsequent
nogo trials and therefore increase the likelihood of commission errors.
As a result, the cued go/nogo paradigm provides a sensitive measure of cognitive control.

The implemented procedure is based on:

Fillmore, M. T., Rush, C. R., & Hays, L. (2006). Acute effects of cocaine in two models of inhibitory control:
implications of non-linear dose effects. Addiction, 101, 1323–1332.

___________________________________________________________________________________________________________________
TASK DESCRIPTION    
___________________________________________________________________________________________________________________
Participants are asked to press the Spacebar when they see a green rectangle (=go) but refrain from pressing the Spacebar
when they see a blue rectangle (=nogo). The blue and green rectangles can be vertical or horizontal. The
vertical rectangle has a high probability of being green (a go trial) and the horizontal rectangle has a high probability of
being blue (a nogo trial). Participants get information about the orientation of the rectangle (=cue) shortly before
the color of the rectangle is revealed.

___________________________________________________________________________________________________________________    
DURATION
___________________________________________________________________________________________________________________    
the default set-up of the script takes appr. 10 minutes to complete

___________________________________________________________________________________________________________________    
DATA FILE INFORMATION
___________________________________________________________________________________________________________________
The default data stored in the data files are:

(1) Raw data file: 'cuedgonogo_raw*.iqdat' (a separate file for each participant)

build:                                The specific Inquisit version used (the 'build') that was run
computer.platform:                    the platform the script was run on (win/mac/ios/android)
date, time:                         date and time script was run
subject, group:                     with the current subject/groupnumber
session:                            with the current session id

blockcode, blocknum:                the name and number of the current block (built-in Inquisit variable)
trialcode, trialnum:                 the name and number of the currently recorded trial (built-in Inquisit variable)
                                        Note: trialnum is a built-in Inquisit variable; it counts all trials run; even those
                                        that do not store data to the data file such as feedback trials. Thus, trialnum
                                        may not reflect the number of main trials run per block.
                                        
trialcount:                            current trialcount

cuetype:                            1 = vertical cue (high probability of preceding a go-trial ~ a go cue)
                                    2 = horizontal cue (high probability of preceding a nogo-trial ~ a nogo cue)

targettype:                            1 = vertical go
                                    2 = vertical nogo
                                    3 = horizonal go
                                    4 = horizonal nogo
                                
targetcondition:                    1 = go target
                                    2 = nogo target
                                    
soa:                                current stimulus onset asynchrony
cuepic:                                the image file presented as the cue
targetpic:                            the image file presented as the target    

response:                            response made (either 57 = Spacebar or "" for no response)
correct:                            the accuracy of response (1 = correct; 0 = error)
latency:                            the latency (in ms) of the response (or if no response: trialduration); measured from onset of target


(2) Summary data file: 'cuedgonogo_summary*.iqdat' (a separate file for each participant)

inquisit.version:                         Inquisit version run
computer.platform:                    the platform the script was run on (win/mac/ios/android)
startdate:                            date script was run
starttime:                            time script was started
subjectid:                            assigned subject id number
groupid:                            assigned group id number
sessionid:                            assigned session id number
elapsedtime:                        time it took to run script (in ms); measured from onset to offset of script
completed:                            0 = script was not completed (prematurely aborted);
                                    1 = script was completed (all conditions run)

errorrate:                            overall error rate (omission + commission errors)
omissionrate:                        error rate in go-trials (participant missed to press Spacebar)
commission:                            error rate in nogo trials (participants hit the Spacebar)

error_verticalcue:                    error rate for trials in which cue = vertical
error_horizontalcue:                error rate for trials in which cue = horizontal
omissionerror_v:                    error rate for trials in which cue = vertical ('go' cue) and target = go
commission_v:                        error rate for trials in which cue = vertical ('go' cue) and target = nogo (DV of interest)
omissionerror_h:                    error rate for trials in which cue = horizontal ('nogo' cue) and target = go
commission_h:                        error rate for trials in which cue = horizontal ('nogo' cue) and target = nogo

meanrt:                                overall mean rt (in ms) for target = go (for hits = correct responses only)
meanrt_verticalcue_gotarget:        mean rt (in ms) for trial in which cue = vertical (go cue) and target = go (for hits = correct responses only)
meanrt_horizontalcue_gotarget:        mean rt (in ms) for trial in which cue = horizontal (nogo cue) and target = go (for hits = correct responses only)

___________________________________________________________________________________________________________________    
EXPERIMENTAL SET-UP
___________________________________________________________________________________________________________________    

Factorial design with
    5 x SOA (100,200,300,400,500)
    2 x Cue (1=vertical,2=horizontal)
    2 x Target (Go, No-Go)

    Vertical cue go / no-go ratio is 4:1 (80% go trials, 20% no-go trials) => higher probability of go trials after vertical cue
    Horizontal cue go / no-go ratio is 1:4 (20% go trials, 80% no-go trials) => higher probability of nogo trials after horizontal cue

    Minimum number of trials required to fulfill the above conditions is 50.
    Task runs 250 trials, i.e., each factor combination is repeated 5 times.

    => 100 vertical cue-go targets (20 for each SOA); 25 vertical cue-nogo targets (5 for each SOA)
    => 100 horizontal cue-nogo targets (20 for each SOA); 25 horizontal cue-go targets (5 for each SOA)
    
___________________________________________________________________________________________________________________    
STIMULI
___________________________________________________________________________________________________________________    
see section Editable Stimuli

___________________________________________________________________________________________________________________    
INSTRUCTIONS
___________________________________________________________________________________________________________________    
see section Editable Instructions

___________________________________________________________________________________________________________________    
EDITABLE CODE
___________________________________________________________________________________________________________________    
check below for (relatively) easily editable parameters, stimuli, instructions etc.
Keep in mind that you can use this script as a template and therefore always "mess" with the entire code
to further customize your experiment.

The parameters you can change are:

/ fixationduration:                duration of the fixation cross in ms (default: 800)
/ cue_delay:                    interstimulus interval between offset of fixation and onset of cue in ms (default: 500ms)
/ responsetimeout:                responsetimeout in ms (default: 1000)
/ iti:                            intertrial interval in ms (default: 700)

</usermanual>


**************************************************************************************************************
**************************************************************************************************************
    EDITABLE PARAMETERS: change editable parameters here
**************************************************************************************************************
**************************************************************************************************************

<parameters>
/ fixationduration = 800
/ cue_delay = 500
/ responsetimeout = 1000
/ iti = 700
</parameters>

**************************************************************************************************************
**************************************************************************************************************
    EDITABLE STIMULI: change editable stimuli here
**************************************************************************************************************
**************************************************************************************************************

<item cues>
/ 1 = "VCUE.jpg"
/ 2 = "HCUE.jpg"
</item>

<item targets>
/ 1 = "VGO.jpg"
/ 2 = "VNOGO.jpg"
/ 3 = "HGO.jpg"
/ 4 = "HNOGO.jpg"
</item>

**************************************************************************************************************
**************************************************************************************************************
    EDITABLE INSTRUCTIONS: change instructions here
**************************************************************************************************************
**************************************************************************************************************
<instruct>
/ fontstyle = ("Arial", 3%, false, false, false, false, 5, 1)
/ navigationbuttonfontstyle = ("Arial", 3%, false, false, false, false, 5, 1)
</instruct>

<page intro>
<br><br>
<h1>Welcome to the Go / No-Go Task!</h1><hr>
On each trial, a white rectangle will appear on the screen.<br>
After a short time, the rectangle will either turn <span style='color: green'>green</span> or <span style='color: blue'>blue</span>.<br><br>
<i>Press the spacebar <%expressions.buttoninstruct1%> as quickly as possible whenever the rectangle turns <span style='color: green'>green</span>.<br>
If the rectangle turns <span style='color: blue'>blue</span>, do not respond at all.</i><br><br>
Try to respond as quickly as possible while making as few errors as possible.<br>
There'll be no practice. The task will take about 10 minutes to complete.<br><br>
Press the spacebar to begin.
</page>

<page end>
<br><br><br><br><br><br><br><br>
<center>You have reached the end of the task.<br>
<h1>Thank you!</h1></center>
</page>

****************************************************************************************************
general instruction expressions: adjust the instruction text depending on device used to run script
****************************************************************************************************
<expressions>
/buttoninstruct1 = if (computer.touch && !computer.haskeyboard) {"button";} else {"key";}
</expressions>

**************************************************************************************************************
                                !!!REMAINING CODE: Customize after careful consideration only!!!
**************************************************************************************************************

**************************************************************************************************************
**************************************************************************************************************
    DEFAULTS
**************************************************************************************************************
**************************************************************************************************************
script requires Inquisit 6.6.1.0 or higher

<defaults >
/canvasaspectratio = (4,3)
/minimumversion = "6.6.1.0"
/ fontstyle = ("Arial", 3%, false, false, false, false, 5, 1)
/txbgcolor = white
/ txcolor = (0, 0, 0)
</defaults>


**************************************************************************************************************
**************************************************************************************************************
    DATA
**************************************************************************************************************
**************************************************************************************************************

Note: data file explanations under User Manual Information at the top

***********************
raw data file
***********************

<data>
/ columns = (build, computer.platform, date, time, subject, group, session, blockcode, blocknum,
trialcode, trialnum, values.trialcount,values.cuetype,values.targettype,
expressions.targetcondition, values.soa, values.cuepic,values.targetpic,response,correct,latency)
</data>

***********************
summary data file
***********************

<summarydata >
/ columns = (inquisit.version, computer.platform, script.startdate, script.starttime, script.subjectid, script.groupid, script.sessionid, script.elapsedtime,
script.completed,
expressions.errorrate, expressions.omissionrate, expressions.commission,
expressions.error_verticalcue, expressions.error_horizontalcue,
expressions.omissionerror_v, expressions.commission_v, expressions.omissionerror_h, expressions.commission_h,
expressions.meanrt, expressions.meanrt_verticalcue_gotarget, expressions.meanrt_horizontalcue_gotarget)
</summarydata>

**************************************************************************************************************
**************************************************************************************************************
    VALUES: automatically updated
**************************************************************************************************************
**************************************************************************************************************
            
/completed:                    0 = script was not completed; 1 = script was completed (all conditions were run)
/ soa:                        stimulus onset asynchrony
/ cuetype:                    1 = vertical cue; 2 = horizontal cue
/ targettype:                1 = vertical go
                            2 = vertical nogo
                            3 = horizonal go
                            4 = horizonal nogo
/ trialcount:                counts all trials
/cuepic:                    stores the current cue image
/targetpic:                    stores the current target image

<values taskparams>
/completed = 0
/ soa = 0
/ cuetype = 0
/ targettype = 0
/ trialcount = 0
/cuepic = ""
/targetpic = ""
</values>

**************************************************************************************************************
**************************************************************************************************************
    EXPRESSIONS
**************************************************************************************************************
**************************************************************************************************************

/targetcondition:                    1 = go target; 2 = nogo target
    
/errorrate:                            overall error rate
/omissionrate:                        error rate for go-trials
/commission:                        error rate for nogo-trials

/meanRT:                            overall mean rt for target = go (correct responses only)
/meanRT_verticalcue_gotarget:        mean rt for trial in which cue = vertical and target = go (correct responses only)
/meanRT_horizontalcue_gotarget:        mean rt for trial in which cue = horizontal and target = go (correct responses only)

/omissionerror_v:                    error rate for trials in which cue = vertical and target = go
/commission_v:                        error rate for trials in which cue = vertical and target = nogo
/omissionerror_h:                    error rate for trials in which cue = horizontal and target = go
/commission_h:                        error rate for trials in which cue = horizontal and target = nogo

/error_verticalcue :                error rate for trials in which cue = vertical
/error_horizontalcue :                error rate for trials in which cue = horizontal

<expressions>
/targetcondition = if (values.targettype == 1 || values.targettype == 3) 1 else 2

/errorrate = 1 - list.accuracy.mean
/omissionrate = 1 - list.accuracy_G.mean
/commission = 1 - list.accuracy_NG.mean

/meanRT = list.latencies_G.mean
/meanRT_verticalcue_gotarget = list.latencies_vG.mean
/meanRT_horizontalcue_gotarget = list.latencies_hG.mean

/omissionerror_v = 1 - list.accuracy_vG.mean
/commission_v = 1 - list.accuracy_vNG.mean
/omissionerror_h = 1 - list.accuracy_hG.mean
/commission_h = 1 - list.accuracy_hNG.mean

/error_verticalcue = 1 - list.accuracy_v.mean
/error_horizontalcue = 1 - list.accuracy_h.mean
</expressions>

**************************************************************************************************************
**************************************************************************************************************
    STIMULI
**************************************************************************************************************
**************************************************************************************************************
<picture verticalcue>
/ items = cues
/ select = 1
/ size = (25%,25%)
/ position = (50%,50%)
</picture>

<picture horizontalcue>
/ items = cues
/ select = 2
/ size = (25%,25%)
/ position = (50%,50%)
</picture>

<picture verticalgotarget>
/ items = targets
/ select = 1
/ size = (25%,25%)
/ position = (50%,50%)
</picture>

<picture verticalnogotarget>
/ items = targets
/ select = 2
/ size = (25%,25%)
/ position = (50%,50%)
</picture>

<picture horizontalgotarget>
/ items = targets
/ select = 3
/ size = (25%,25%)
/ position = (50%,50%)
</picture>

<picture horizontalnogotarget>
/ items = targets
/ select = 4
/ size = (25%,25%)
/ position = (50%,50%)
</picture>

<text fixation>
/ items = ("+")
/ fontstyle = ("Arial", 10.00%, true)
</text>

<shape blankscreen>
/ shape = rectangle
/ color = (white)
/ erase = false
/ size = (100%, 100%)
/ position = (50%, 50%)
</shape>

**************************************************************************************************************
**************************************************************************************************************
    LISTS:

    Note: Factorial design with
    5 x SOA (100,200,300,400,500)
    2 x Cue (1=vertical,2=horizontal)
    2 x Target (Go, No-Go)
    
    Vertical cue go / no-go ratio is 4:1 (80% go trials, 20% no-go trials)
    Horizontal cue go / no-go ratio is 1:4 (20% go trials, 80% no-go trials)

    Minimum number of trials required to fulfill the above conditions is 50.
    Task runs 250 trials, i.e., each factor combination is repeated 5 times.        
**************************************************************************************************************
**************************************************************************************************************

The following lists control the soa selections for the 4 experimental conditions

<list soa_verticalcue_go>
/items = (100, 200, 300, 400, 500)
/poolsize = 100
/replace = false
</list>

<list soa_verticalcue_nogo>
/items = (100, 200, 300, 400, 500)
/poolsize = 25
/replace = false
</list>

<list soa_horizontalcue_go>
/items = (100, 200, 300, 400, 500)
/poolsize = 25
/replace = false
</list>

<list soa_horizontalcue_nogo>
/items = (100, 200, 300, 400, 500)
/poolsize = 100
/replace = false
</list>

*************************************************
Data Lists: used for descriptive statistics
store correct latencies/accuracy data
fill up during runtime
*************************************************

The following lists store 1 = correct response; 0 = incorrect response for each relevant trial
overall (all test trials)
v = for all vertical trials
h = for all horizontal trials
G = for all Go trials
NG = for all Nogo trials
vG = for all vertical go trials
vNG = for all vertical nogo trials
hG = for all horizontal go trials
hNG = for all horizontal nogo trials

<list accuracy>
</list>

<list accuracy_v>
</list>

<list accuracy_h>
</list>

<list accuracy_G>
</list>

<list accuracy_NG>
</list>

<list accuracy_vG>
</list>

<list accuracy_vNG>
</list>

<list accuracy_hG>
</list>

<list accuracy_hNG>
</list>

The following lists store correct latency data
G = for all go trials
vG = vertical go trials
hG = horizontal go trials

<list latencies_G>
</list>

<list latencies_vG>
</list>

<list latencies_hG>
</list>


**************************************************************************************************************
**************************************************************************************************************
    TRIALS     
**************************************************************************************************************
**************************************************************************************************************

****************************************
vertical cue - go target
****************************************

<trial verticalcue_go>
/ ontrialbegin = [
    values.cuetype = 1;
    values.targettype = 1;
    values.soa=list.soa_verticalcue_go.nextvalue;
    values.trialcount+=1;

    trial.verticalcue_go.insertstimulustime(shape.blankscreen, parameters.fixationduration);
    trial.verticalcue_go.insertstimulustime(picture.verticalcue,(parameters.fixationduration+parameters.cue_delay));
    trial.verticalcue_go.insertstimulustime(picture.verticalgotarget,(parameters.fixationduration+parameters.cue_delay+values.soa));
]

/ stimulustimes = [0=blankscreen,fixation]
/ beginresponsetime = parameters.fixationduration + parameters.cue_delay + values.soa
/ responseinterrupt = immediate
/ validresponse = (" ", noresponse)
/ correctresponse = (" ")
/ response = timeout(parameters.responsetimeout)
/ ontrialend = [
    list.accuracy.appenditem(trial.verticalcue_go.correct);
    list.accuracy_G.appenditem(trial.verticalcue_go.correct);
    list.accuracy_v.appenditem(trial.verticalcue_go.correct);    
    list.accuracy_vG.appenditem(trial.verticalcue_go.correct);
    if (trial.verticalcue_go.correct) {
        list.latencies_G.appenditem(trial.verticalcue_go.latency);
        list.latencies_vG.appenditem(trial.verticalcue_go.latency);
    };
    values.cuepic = picture.verticalcue.currentitem;
    values.targetpic = picture.verticalgotarget.currentitem;
    trial.verticalcue_go.resetstimulusframes();
]
/ recorddata = true
/ posttrialpause = parameters.iti
</trial>

****************************************
vertical cue - nogo target
****************************************

<trial verticalcue_nogo>
/ ontrialbegin = [
    values.cuetype = 1;
    values.targettype = 2;
    values.soa=list.soa_verticalcue_nogo.nextvalue;
    values.trialcount+=1;

    trial.verticalcue_nogo.insertstimulustime(shape.blankscreen, parameters.fixationduration);
    trial.verticalcue_nogo.insertstimulustime(picture.verticalcue,(parameters.fixationduration+parameters.cue_delay));
    trial.verticalcue_nogo.insertstimulustime(picture.verticalnogotarget,(parameters.fixationduration+parameters.cue_delay+values.soa));
]
/ stimulustimes = [0=blankscreen,fixation]
/ beginresponsetime = parameters.fixationduration + parameters.cue_delay + values.soa
/ responseinterrupt = immediate
/ validresponse = (" ", noresponse)
/ correctresponse = (0)
/ response = timeout(parameters.responsetimeout)
/ ontrialend = [
    list.accuracy.appenditem(trial.verticalcue_nogo.correct);
    list.accuracy_NG.appenditem(trial.verticalcue_nogo.correct);
    list.accuracy_v.appenditem(trial.verticalcue_nogo.correct);    
    list.accuracy_vNG.appenditem(trial.verticalcue_nogo.correct);
    values.cuepic = picture.verticalcue.currentitem;
    values.targetpic = picture.verticalnogotarget.currentitem;
    trial.verticalcue_nogo.resetstimulusframes();    
]
/ recorddata = true
/ posttrialpause = parameters.iti
</trial>

****************************************
horizontal cue - go target
****************************************

<trial horizontalcue_go>
/ ontrialbegin = [
    values.cuetype = 2;
    values.targettype = 3;
    values.soa=list.soa_horizontalcue_go.nextvalue;
    values.trialcount+=1;

    trial.horizontalcue_go.insertstimulustime(shape.blankscreen, parameters.fixationduration);
    trial.horizontalcue_go.insertstimulustime(picture.horizontalcue,(parameters.fixationduration+parameters.cue_delay));
    trial.horizontalcue_go.insertstimulustime(picture.horizontalgotarget,(parameters.fixationduration+parameters.cue_delay+values.soa));
]
/ stimulustimes = [0=blankscreen,fixation]
/ beginresponsetime = parameters.fixationduration + parameters.cue_delay + values.soa
/ responseinterrupt = immediate
/ validresponse = (" ", noresponse)
/ correctresponse = (" ")
/ response = timeout(parameters.responsetimeout)
/ ontrialend = [
    list.accuracy.appenditem(trial.horizontalcue_go.correct);
    list.accuracy_G.appenditem(trial.horizontalcue_go.correct);
    list.accuracy_h.appenditem(trial.horizontalcue_go.correct);    
    list.accuracy_hG.appenditem(trial.horizontalcue_go.correct);
    if (trial.horizontalcue_go.correct) {
        list.latencies_G.appenditem(trial.horizontalcue_go.latency);
        list.latencies_hG.appenditem(trial.horizontalcue_go.latency);                    
    };
    values.cuepic = picture.horizontalcue.currentitem;
    values.targetpic = picture.horizontalgotarget.currentitem;
    trial.horizontalcue_go.resetstimulusframes();
]
/ recorddata = true
/ posttrialpause = parameters.iti
</trial>

****************************************
horizontal cue - nogo target
****************************************

<trial horizontalcue_nogo>
/ ontrialbegin = [
    values.cuetype = 2;
    values.targettype = 4;
    values.soa=list.soa_horizontalcue_nogo.nextvalue;
    values.trialcount+=1;

    trial.horizontalcue_nogo.insertstimulustime(shape.blankscreen, parameters.fixationduration);
    trial.horizontalcue_nogo.insertstimulustime(picture.horizontalcue,(parameters.fixationduration+parameters.cue_delay));
    trial.horizontalcue_nogo.insertstimulustime(picture.horizontalnogotarget,(parameters.fixationduration+parameters.cue_delay+values.soa));
]
/ stimulustimes = [0=blankscreen,fixation]
/ beginresponsetime = parameters.fixationduration + parameters.cue_delay + values.soa
/ responseinterrupt = immediate
/ validresponse = (" ", noresponse)
/ correctresponse = (0)
/ response = timeout(parameters.responsetimeout)
/ ontrialend = [
    list.accuracy.appenditem(trial.horizontalcue_nogo.correct);
    list.accuracy_NG.appenditem(trial.horizontalcue_nogo.correct);
    list.accuracy_h.appenditem(trial.horizontalcue_nogo.correct);    
    list.accuracy_hNG.appenditem(trial.horizontalcue_nogo.correct);
    values.cuepic = picture.horizontalcue.currentitem;
    values.targetpic = picture.horizontalnogotarget.currentitem;
    trial.horizontalcue_nogo.resetstimulusframes();    
]
/ recorddata = true
/ posttrialpause = parameters.iti
</trial>
/ timeout = parameters.fixationduration + parameters.cue_delay + values.soa + parameters.responsetimeout

**************************************************************************************************************
**************************************************************************************************************
    BLOCKS
**************************************************************************************************************
**************************************************************************************************************

<block testblock>
/ trials = [
    1-250=noreplace(verticalcue_go, verticalcue_go, verticalcue_go, verticalcue_go, verticalcue_nogo,
                    horizontalcue_nogo, horizontalcue_nogo, horizontalcue_nogo, horizontalcue_nogo, horizontalcue_go);
]
</block>

**************************************************************************************************************
**************************************************************************************************************
    EXPERIMENT
**************************************************************************************************************
**************************************************************************************************************

<expt cuedgonogo>
/ preinstructions = (intro)
/ postinstructions = (end)
/ blocks = [
    1=testblock;
]
</expt>


**************************************************************************************************************
                                                End of File
**************************************************************************************************************

---
**************************************************************************************************************
**************************************************************************************************************
    EDITABLE INSTRUCTIONS: change instructions here
**************************************************************************************************************
**************************************************************************************************************

<page endpractice>
<br><br><br><br><br><br><br><br>
<center>You have completed the practice block.<br>
The main task will begin shortly.<br><br>
Take a short break if needed.<br><br>
Press the spacebar to continue.
</center>
</page>

<page endtest>
<br><br><br><br><br><br><br><br>
<center>You have completed the main task.<br>
Thank you for your participation!<br><br>
Please inform the experimenter.<br><br>
Press the spacebar to finish.
</center>
</page>

**************************************************************************************************************
**************************************************************************************************************
    BLOCKS
**************************************************************************************************************
**************************************************************************************************************

<block practiceblock>
/ trials = [
    1-9=noreplace(verticalcue_go, verticalcue_nogo, horizontalcue_go, horizontalcue_nogo);
    10=endpractice;
]
</block>

<block testblock>
/ trials = [
    1-249=noreplace(verticalcue_go, verticalcue_go, verticalcue_go, verticalcue_go, verticalcue_nogo,
                    horizontalcue_nogo, horizontalcue_nogo, horizontalcue_nogo, horizontalcue_nogo, horizontalcue_go);
    250=endtest;
]
</block>

**************************************************************************************************************
**************************************************************************************************************
    EXPERIMENT
**************************************************************************************************************
**************************************************************************************************************

<expt cuedgonogo>
/ preinstructions = (intro)
/ postinstructions = (end)
/ blocks = [
    1=practiceblock;
    2=testblock;
]
</expt>