Пример #1
0
def display_instructions(text="text instructions",
                         text_end="Shoot to start the mission.",
                         background=(13, 71, 161),
                         display_trigger=False):
    n.newpage(background, auto_refresh=False)
    n.write("\n\n\n" + text, color="white", long_text=True)
    n.write(text_end, color="white", y=-9)
    if display_trigger is True:
        trigger.stop()
    n.refresh()
    n.response(allow=["DOWN", "RIGHT", "LEFT", "SPACE"])
Пример #2
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def prime(side="RIGHT", duration=1000, conflict=False, testmode=False):
    display_background()
    display_ship()
    display_cue(side=side, conflict=conflict)
    n.refresh()
    time = datetime.datetime.now()
    response = np.nan
    RT = np.nan
    if testmode is False:
        while (datetime.datetime.now() -
               time).total_seconds() * 1000 < duration:
            current_response = n.response(
                time_max=duration -
                (datetime.datetime.now() - time).total_seconds() * 1000,
                get_RT=False)
            if (current_response != "Time_Max_Exceeded"):
                response = str(current_response)
                RT = datetime.datetime.now()
    if isinstance(RT, datetime.datetime):
        return ({
            "Cue_Response":
            response,
            "Cue_Response_RT":
            -1 * (datetime.datetime.now() - RT).total_seconds() * 1000
        })
    else:
        return ({"Cue_Response": response, "Cue_Response_RT": RT})
Пример #3
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def ITI(duration=1000, testmode=False, display_trigger=False):
    display_background()
    display_ship()
    if display_trigger is True:
        trigger.stop()
    n.refresh()
    time = datetime.datetime.now()
    response = np.nan
    RT = np.nan
    if testmode is False:
        while (datetime.datetime.now() -
               time).total_seconds() * 1000 < duration:
            current_response = n.response(
                time_max=duration -
                (datetime.datetime.now() - time).total_seconds() * 1000,
                get_RT=False)
            if (current_response != "Time_Max_Exceeded"):
                response = str(current_response)
                RT = datetime.datetime.now()
    if isinstance(RT, datetime.datetime):
        return ({
            "Previous_Response":
            response,
            "Previous_RT":
            -1 * (datetime.datetime.now() - RT).total_seconds() * 1000
        })
    else:
        return ({"Previous_Response": response, "Previous_RT": RT})
Пример #4
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def run_trials(cache, trials):

    prestim_interval = list(np.random.uniform(33.333333, 2000, len(trials)-1))
    prestim_interval.insert(0, 2000)


    for order, trial in enumerate(trials):
        n.refresh()
        trial["Order"] = order+1
        trial["Time_Trial_Onset"] = datetime.datetime.now()

        # Wait
        trial["Prestimulus_Interval"] = int(prestim_interval[order])
        if testmode is False:
            trial["Prestimulus_Interval"] = n.time.wait(int(prestim_interval[order]))

        # Diplay stuff
        n.image(trial["Global_Color"] + "_" + trial["Global_Shape"], size=8, extension = ".png", cache = cache, path = "./Stimuli/", rotate=trial["Global_Angle"])
        n.image(trial["Local_Color"] + "_" + trial["Local_Shape"], size=8, extension = ".png", cache = cache, path = "./Stimuli/", rotate=trial["Local_Angle"])

        n.refresh()
        trial["Time_Stimulus_Onset"] = datetime.datetime.now()

        if testmode is False:
            answer, RT = n.response(time_max = 1750, allow=["DOWN", "RIGHT", "LEFT"])
            if answer == "Time_Max_Exceeded":
                answer = "NA"
        else:
            answer = np.random.choice(["DOWN", "RIGHT", "LEFT", "NA"])
            RT = np.random.uniform(100, 1750)
        trial["Response"] = answer
        trial["RT"] = RT


        n.newpage('grey', auto_refresh=False)


    return(trials)
Пример #5
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n.instructions("Press LEFT when RED, DOWN when GREEN and RIGHT when BLUE.")

n_trials = 10
for trial in range(n_trials):
    n.newpage("grey")  # Neutral grey background
    n.write("+")  # Fixation cross
    n.refresh()  # Display it
    n.time.wait(250)  # Wait 250 ms

    stim_color = np.random.choice(["raw_red", "raw_green", "raw_blue"])  # Choose a color
    stim = "XXXX"
    n.newpage("grey")  # Neutral grey background
    n.write(stim, style="bold", color=stim_color, size=3)  # Load the stimulus
    n.refresh()  # Display it
    answer, RT = n.response()  # Record response and response time

    # Append trial info to
    data["Stimulus"].append(stim)
    data["Stimulus_Color"].append(stim_color)
    data["Answer"].append(answer)
    data["RT"].append(RT)
    data["Condition"].append("Neutral")

    # Categorize the response
    if answer == "LEFT" and stim_color == "raw_red":
        data["Correct"].append(1)
    elif answer == "DOWN" and stim_color == "raw_green":
        data["Correct"].append(1)
    elif answer == "RIGHT" and stim_color == "raw_blue":
        data["Correct"].append(1)
Пример #6
0
        "ISI":[],
        "RT":[],
        "Response":[]}

for trial in range(5):  # Iterate over the number of trials
    stimulus = random.choice(["green", "red"])  # Select a stimulus type
    ISI = random.randrange(start=500, stop=2000, step=500)  # Select the inter-stimuli interval (ISI)

    n.newpage("grey")  # Fill the screen
    n.write("+")  # Fixation cross
    n.refresh()  # Diplay it on screen
    n.time.wait(ISI)  # Wait

    n.circle(size=2, fill_color=stimulus)  # Display the stimulus (filled with the color selected above)
    n.refresh()  # Diplay it on screen
    response, RT = n.response(time_max=1500)  # Wait until 1.5s and collect the response and its time

    # Categorize the response
    if response == "SPACE" and stimulus == "green":
        response_type = "HIT"  # Hit
    if response != "SPACE" and stimulus == "green":
        response_type = "MISS"  # Miss
    if response == "SPACE" and stimulus == "red":
        response_type = "FA"  # False Alarm
    if response != "SPACE" and stimulus == "red":
        response_type = "CR"  # Correct Rejection

    # Store data by appending each item to its list
    data["Trial"].append(trial)
    data["Stimulus"].append(stimulus)
    data["ISI"].append(ISI)
Пример #7
0
        "RT":[],
        "Response":[]}

n_trials = 10  # Number of trials
for trial in range(n_trials):  # Iterate over the number of trials
    stimulus = random.choice(["green", "green", "green", "red"])  # Select a stimulus type
    ISI = random.randrange(start=250, stop=1250, step=250)  # Select the inter-stimuli interval (ISI)

    n.newpage("grey")  # Fill the screen
    n.write("+")  # Fixation cross
    n.refresh()  # Diplay it on screen
    n.time.wait(ISI)  # Wait

    n.circle(size=2, fill_color=stimulus)  # Display the stimulus (filled with the color selected above)
    n.refresh()  # Diplay it on screen
    response, RT = n.response(time_max=1000)  # Wait until 1 s and collect the response and its time

    # Categorize the response
    if response == "SPACE" and stimulus == "green":
        response_type = "HIT"  # Hit
    if response != "SPACE" and stimulus == "green":
        response_type = "MISS"  # Miss
    if response == "SPACE" and stimulus == "red":
        response_type = "FA"  # False Alarm
    if response != "SPACE" and stimulus == "red":
        response_type = "CR"  # Correct Rejection

    # Store data by appending each item to its list
    data["Trial"].append(trial)
    data["Stimulus"].append(stimulus)
    data["ISI"].append(ISI)
Пример #8
0
def response_inhibition(n_trials=200,
                        min_SSRT=0,
                        max_SSRT=300,
                        frame=16.66667,
                        staircase=False,
                        testmode=False,
                        display_trigger=False):
    def generate_data(n_trials,
                      min_SSRT=0,
                      max_SSRT=300,
                      frame=16.66667,
                      adaptive=False):
        data = {
            "Stimulus_Side":
            ["RIGHT"] * int(n_trials / 2) + ["LEFT"] * int(n_trials / 2),
            "ITI":
            list(generate_interval_frames(500, 1500, n_trials / 2)) * 2
        }

        # SSRT
        ss = np.array(
            randomize_and_repeat([False, False, True], int(n_trials / 3)) +
            [False] * int(n_trials - int(n_trials / 3) * 3))
        data["Stop_Signal"] = ss
        data["Stop_Signal_RT"] = np.array([np.nan] * int(n_trials))

        if adaptive is False:
            ssrt = generate_interval_frames(min_SSRT, max_SSRT, int(sum(ss)))
            data["Stop_Signal_RT"][ss == True] = randomize_without_repetition(
                list(ssrt))
        else:
            data["Stop_Signal_RT"][ss == True] = np.array(
                [-1] * len(data["Stop_Signal_RT"][ss == True]))

        data = pd.DataFrame.from_dict(data)
        data = data.sample(len(data)).reset_index(drop=True)
        data = data.to_dict(orient="index")
        return (data)

    # First
    if testmode is False:
        ITI(2000, testmode=testmode, display_trigger=display_trigger)
        display_enemy()
        if display_trigger is True:
            trigger.stop()
        n.refresh()
        n.time.wait(150)
        display_enemy(stop=True)
        if display_trigger is True:
            trigger.stop()
        n.refresh()
        n.response(allow=["RIGHT", "LEFT"], time_max=1500)
        n.time.wait(1500)

        # Instructions
        n.newpage((24, 4, 64), auto_refresh=False)
        n.write("Wait! What's that?!", color="white", y=5, size=1.2)
        if display_trigger is True:
            trigger.stop()
        n.refresh()
        n.time.wait(2000)
        display_instructions(
            """Bad news, rookie, it seems like the rebels have upgraded some of their ships!\n\nIf we do not manage to shoot as SOON as the ennemy appears, they'll have time to activate counter-measures that will return our bullets and damage our ship.""",
            text_end="Press SPACE to continue.",
            display_trigger=display_trigger)
        display_instructions(
            """Shoot the incoming ships as FAST as possible, before a RED CROSS appears.\n\nDo not shoot at the RED CROSS, or it will harm us too!""",
            display_trigger=display_trigger)

    # Generate data
    if staircase is True:
        staircase = nk.staircase(signal=generate_interval_frames(
            0, max_SSRT, int(max_SSRT / frame)),
                                 treshold=0.5,
                                 burn=0)
        data = generate_data(int(n_trials / 2), min_SSRT, max_SSRT, frame)
    else:
        data = generate_data(int(n_trials), min_SSRT, max_SSRT, frame)

    # Run trials
    if staircase is False:
        for trial in range(0, n_trials):
            data[trial].update(
                ITI(data[trial]["ITI"],
                    testmode=testmode,
                    display_trigger=display_trigger))
            data[trial].update(
                display_stimulus(side=data[trial]["Stimulus_Side"],
                                 stop=data[trial]["Stop_Signal_RT"],
                                 testmode=testmode,
                                 display_trigger=display_trigger))
            data[trial]["Trial_Order"] = trial + 1

#    # With staircase
#    else:
#        for trial in range(0, int(n_trials/2)):
#            data[trial].update(ITI(data[trial]["ITI"], testmode = testmode, display_trigger = display_trigger))
#            data[trial].update(display_stimulus(side=data[trial]["Stimulus_Side"], stop=data[trial]["Stop_Signal_RT"], testmode = testmode, display_trigger = display_trigger))
#            if staircase is True:
#                if data[trial]["Stop_Signal"] is True:
#                    if data[trial]['RT'] >= data[trial]["Stop_Signal_RT"]:
#                        if data[trial]["Response"] == "Time_Max_Exceeded":
#                            staircase.add_response(response=0, value=data[trial]["Stop_Signal_RT"])
#                        else:
#                            staircase.add_response(response=1, value=data[trial]["Stop_Signal_RT"])
#            data[trial]["Trial_Order"] = trial + 1
#
#        data_staircase = generate_data(int(n_trials/2), min_SSRT, max_SSRT, adaptive=True)
#        for i in list(data_staircase.keys()): # Replace keys
#            data_staircase[i + int(n_trials/2)] = data_staircase.pop(i)
#        data.update(data_staircase)
#        for trial in range(int(n_trials/2), n_trials):
#            data[trial].update(ITI(data[trial]["ITI"], testmode = testmode, display_trigger = display_trigger))
#            if data[trial]["Stop_Signal_RT"] == -1:
#                data[trial]["Stop_Signal_RT"] = staircase.predict_next_value()
#            data[trial].update(display_stimulus(side=data[trial]["Stimulus_Side"], stop=data[trial]["Stop_Signal_RT"], testmode = testmode, display_trigger = display_trigger))
#            if data[trial]["Stop_Signal"] is True:
#                if data[trial]['RT'] >= data[trial]["Stop_Signal_RT"]:
#                    if data[trial]["Response"] == "Time_Max_Exceeded":
#                        staircase.add_response(response=0, value=data[trial]["Stop_Signal_RT"])
#                    else:
#                        staircase.add_response(response=1, value=data[trial]["Stop_Signal_RT"])
#            data[trial]["Trial_Order"] = trial + 1

    data = pd.DataFrame.from_dict(data, orient="index")
    return (data)
Пример #9
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n.instructions("Press LEFT when RED, DOWN when GREEN and RIGHT when BLUE.")

n_trials = 10
for trial in range(n_trials):
    n.newpage("grey")  # Neutral grey background
    n.write("+")  # Fixation cross
    n.refresh()  # Display it
    n.time.wait(250)  # Wait 250 ms

    stim_color = np.random.choice(["raw_red", "raw_green",
                                   "raw_blue"])  # Choose a color
    stim = "XXXX"
    n.newpage("grey")  # Neutral grey background
    n.write(stim, style="bold", color=stim_color, size=3)  # Load the stimulus
    n.refresh()  # Display it
    answer, RT = n.response()  # Record response and response time

    # Append trial info to
    data["Stimulus"].append(stim)
    data["Stimulus_Color"].append(stim_color)
    data["Answer"].append(answer)
    data["RT"].append(RT)
    data["Condition"].append("Neutral")

    # Categorize the response
    if answer == "LEFT" and stim_color == "raw_red":
        data["Correct"].append(1)
    elif answer == "DOWN" and stim_color == "raw_green":
        data["Correct"].append(1)
    elif answer == "RIGHT" and stim_color == "raw_blue":
        data["Correct"].append(1)
Пример #10
0
def display_stimulus(side="RIGHT",
                     always_right=False,
                     allies=False,
                     stop=np.nan,
                     time_max=1500,
                     testmode=False,
                     display_trigger=False):
    if stop == 0:
        if allies is False:
            display_enemy(side=side, stop=True)
        elif allies is True:
            display_enemy(side=side, stop=True, allies=True)
    else:
        if allies is False:
            display_enemy(side=side)
        elif allies is True:
            display_enemy(side=side, allies=True)
    if display_trigger is True:
        trigger.start()
    n.refresh()
    time = datetime.datetime.now()

    if always_right is True:
        if testmode is False:
            response, RT = n.response(allow="DOWN", time_max=time_max)
        else:
            response, RT = "DOWN", np.random.normal(750, 250)
        display_fire(side=side)
        display_explosion(side=side)
    else:
        if np.isnan(stop) or stop == 0:
            if testmode is False:
                response, RT = n.response(allow=["LEFT", "RIGHT"],
                                          time_max=time_max)
            else:
                response, RT = np.random.choice(["LEFT",
                                                 "RIGHT"]), np.random.normal(
                                                     750, 250)
        else:
            if testmode is True:
                response = np.random.choice(["LEFT", "RIGHT", np.nan])
                if pd.isna(response):
                    RT = np.nan
                else:
                    RT = np.random.normal(750, 250)
            else:
                RT = 0
                response, RT = n.response(allow=["LEFT", "RIGHT"],
                                          time_max=stop)
                if response not in ["LEFT", "RIGHT"]:
                    display_enemy(side=side, stop=True)
                    n.refresh()
                    response, RT = n.response(allow=["LEFT", "RIGHT"],
                                              time_max=time_max - stop)
                    RT += stop

    if response in ["LEFT", "RIGHT", "DOWN"]:
        display_fire(side=response)
        display_explosion(side=response)

    if testmode is False:
        if response in ["LEFT", "RIGHT", "DOWN"]:
            if display_trigger is True:
                trigger.stop()
            n.refresh()
            n.time.wait(200)
    return ({
        "Response": response,
        "RT": RT,
        "Trial_Time_Onset": time,
        "Trial_Time_End": datetime.datetime.now()
    })