Example #1
0
def update_graph(test, n):
    """
   update graph in time and dropdown 
"""
    #ADD MORE FIGURES FOR MORE GRAPHICS
    fig = plotly.tools.make_subplots()

    if test != TEST:
        # callback input was value, so has changed test type
        print(f'FILNAME {file_name}')
        TEST = test
        if file_name != None and save_file == False:
            shell.run(['rm', file_name])
            file_name = 'T' + str(TEST) + 'csv'
            data['y'] = []
            data['x'] = []

    if pass_interval != n:
        new_data = rd.uniform(-10 * TEST, 10 * TEST)  #get_data_from_test
        pass_interval = n

        if n > LENGHT:
            data['y'] = data['y'][1:] + [new_data]
            data['x'] = list(map(lambda x: x + 1, data['x']))

            # all data are new, so save into the cvs file
        if n % SAVE_LENGHT == 0:
            my_csv.save_csv(file_name, [data['x'], data['y']])
            print("Updating in data.cvs")
        else:
            data['x'].append(new_data)

    fig.append_trace({'x': data['x'], 'y': data['y'], 'type': 'scatter'}, 1, 1)

    return fig
Example #2
0
def update_data(data,test):
    """update data of a particular test
"""
    data['time'].append(time.time())
    for i in PARAMETERS:
        # add here comunication
        data[test][i].append( rd.randrange(MIN_Y ,MAX_Y) )
    #sabe data
    my_csv.save_csv(test ,[ data['time'] , data[test]['voltage'] , data[test]['current'] , data[test]['capacity']  ] )
    return data
Example #3
0
def update_graph(n):
    fig = plotly.tools.make_subplots()
    new_data = rd.uniform(-10, 10)
    if n > LENGHT:
        data['y'] = data['y'][1:] + [new_data]
        data['x'] = list(map(lambda x: x + 1, data['x']))

        # all data are new, so save into the cvs file
        if n % LENGHT == 0:
            my_csv.save_csv("data.cvs", [data['x'], data['y']])
            print("Updating in data.cvs")
    else:
        data['x'].append(new_data)

    fig.append_trace({'x': data['x'], 'y': data['y'], 'type': 'scatter'}, 1, 1)

    return fig