示例#1
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    def _plot_pie(self, options, args, fh):
        """Plot a pie chart"""
        from pygooglechart import PieChart3D, PieChart2D

        delimiter = options.delimiter
        field = options.field - 1

        chart = PieChart2D(options.width, options.height)
        pts = []
        for l in imap(lambda x: x.strip(), fh):
            splitted_line = l.split(delimiter)
            k = int(splitted_line.pop(field))
            pts.append(
                (k, ' '.join(splitted_line), locale.format('%d', k, True)))

        if options.get('limit', None):
            # Only wanna use top N samples by key, sort and truncate
            pts = sorted(pts, key=itemgetter(0), reverse=True)[:options.limit]

        if not pts:
            raise ValueError("No data to plot")

        data, labels, legend = zip(*pts)
        chart.add_data(data)
        chart.set_pie_labels(labels)
        if options.get('legend', None) is True:
            chart.set_legend(map(str, legend))

        return chart
def graph_participation(q):
    #question = get_object_or_404(Question, pk=q.pk)
    question = Question.objects.get(pk=q.pk)

    # grab ALL entries for this question
    entries = Entry.objects.filter(question=question)

    # look up how many people were asked this question
    # and make a ratio
    # if None, use 0
    if question.sent_to:
        participation = float(len(entries)) / float(question.sent_to)
    else:
        participation = 0.0

    # normalize data
    pending = 100 * (1.0 - participation)
    participants = 100 - pending

    for size in GRAPH_SIZES:
        # configure and save the graph
        pie = PieChart2D(int(size), golden(int(size)))
        pie.add_data([pending, participants])
        pie.set_legend(['Pending', 'Respondants'])
        pie.set_colours(['0091C7', '0FBBD0'])
        filename = GRAPH_DIR + str(
            question.pk) + '-' + size + '-participation.png'
        pie.download(filename)
        print 'saved ' + filename

    return 'graphed participation ' + question.text
示例#3
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文件: Gcov.py 项目: cmacmackin/FoBiS
    def pie(size, title, labels, legend, data, colors):
      """
      Function for creating a pie chart.

      Parameters
      ----------
      size : list
        width and height
      title : str
        title of the graph
      lables : list
        list of string containing labels of the data
      legend : list
        list of string containing legend of the data
      data : list
        data to be plotted
      colors : list
        list of string containing the colors of each data in PRGB format

      Returns
      -------
      PieChart2D object
      """
      graph = PieChart2D(size[0], size[1])
      graph.set_title(title)
      graph.set_legend(legend)
      graph.set_pie_labels(labels)
      graph.add_data(data)
      graph.set_colours(colors)
      return graph
示例#4
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def pie_chart_cve(data, filename, title):
    chart = PieChart2D(int(settings.width * 1.7), settings.height)
    chart.set_legend(['Baixo', 'Médio', 'Alto', 'Crítico'])
    chart.set_title(title)
    chart.add_data(data)
    chart.set_colours(['00ff00', '0000ff', 'ffff00', 'ff0000'])
    #chart.set_pie_labels([ 'Baixo', 'Médio', 'Alto', 'Crítico'])
    chart.download(filename)
示例#5
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def chart_MF(gruppo, data):
    f = sum(1 for i in data['data'] if i[0] == 'F' and i[1] == gruppo)
    m = sum(1 for i in data['data'] if i[0] == 'M' and i[1] == gruppo)
    chart = PieChart2D(400, 200)
    chart.add_data([f, m])
    chart.set_pie_labels(['F=' + str(f), 'M=' + str(m)])
    chart.set_title(gruppo)
    chart.set_colours(['FF0000', '0000FF'])
    print "<img src='%s'>" % chart.get_url()
def graph_boolean(q):
    # this method is not very DRY with respect to
    # graph_multiple_choice
    # will probably combine these once we figure
    # out how they will be used

    #question = get_object_or_404(Question, pk=q.pk)
    question = Question.objects.get(pk=q.pk)

    # collect answers to this question
    answers = Answer.objects.filter(question=question)

    # only two choices unless we accept maybies
    choices = {0: 0, 1: 0}

    # grab the parsed entries for this question
    entries = Entry.objects.filter(question=question,\
        is_unparseable=False)

    # i'm assuming here that the Entry.text is the
    # same thing as the Answer.choice, presumably
    # 0 for false/no and 1 for true/yes
    #
    # iterate entries and tally the choices
    for e in entries:
        if int(e.text) in choices:
            choices[int(e.text)] += 1

    # collect the long, textual representation
    # of the answer choice for labelling the graph
    # along with the choice counts of each choice
    # for display on large graphs
    long_answers_big = []
    long_answers_small = []
    for a in answers:
        long_answers_small.append(a.text)
        long_answers_big.append(a.text + ' (' + str(choices[int(a.choice)]) +
                                ')')

    for size in GRAPH_SIZES:
        # configure and save the graph
        pie = PieChart2D(int(size), golden(int(size)))
        # TODO normalize values
        pie.add_data(choices.values())
        if (size == GRAPH_SIZES[0]):
            pie.set_legend(long_answers_small)
        else:
            pie.set_legend(long_answers_big)
        pie.set_colours(['0091C7', '0FBBD0'])
        filename = GRAPH_DIR + str(question.pk) + '-' + size + '-entries.png'
        pie.download(filename)
        print 'saved ' + filename

    return 'graphed entries ' + question.text
示例#7
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    def mk_chart(self):
        from pygooglechart import PieChart2D
        chart = PieChart2D(self.width, self.height)

        data = self.data[:self.max_entries]
        if len(self.data) > len(data):
            remainder = sum(d[1] for d in self.data[self.max_entries:])
            data.append(('Other', remainder))

        chart.add_data([d[1] for d in data])
        chart.set_pie_labels([d[0].split()[0] for d in data])
        return chart
示例#8
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def create_diagram_requests(count_bad, count_good):
    chart = PieChart2D(650, 300)
    chart.set_title('HTTP Requests')
    chart.add_data([count_good, count_bad])
    chart.set_pie_labels(["Bad Requests", "Good Requests"])
    chart.set_legend([
        f'Count XSS, SQL INJ Requests - {count_good}',
        f'Good Requests - {count_bad}'
    ])
    chart.set_colours(['8e5ea2', '3e95cd'])
    url = chart.get_url()
    return url
示例#9
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def house_explosions():
    """
    Data from http://indexed.blogspot.com/2007/12/meltdown-indeed.html
    """
    chart = PieChart2D(int(width * 1.7), height)
    chart.add_data([10, 10, 30, 200])
    chart.set_pie_labels([
        'Budding Chemists',
        'Propane issues',
        'Meth Labs',
        'Attempts to escape morgage',
    ])
    chart.download('pie-house-explosions.png')
示例#10
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def piechart(d):
    #medduppercent = dups[len(dups)/2][0]*100.0/len(valuelist)
    keys = []
    values = []
    vcount = sum(e.get("v") for e in d)
    for i in range(min(5, len(d))):
        keys.append("%s (%s%%)" % (d[i]["k"],d[i]["v"]*100/vcount ))
        values.append(d[i]["v"])
    if len(d) > 5:
        val = sum(e.get("v") for e in d[5:])
        values.append(val)
        keys.append("All Other (%s%%)" % (val*100/vcount))
    chart = PieChart2D(380, 180)
    chart.add_data(values)
    chart.set_legend(keys)
    return chart.get_url()
示例#11
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def pie_chart(data_dict, title=None):
        
    chart = PieChart2D(500, 225)
    
    chart_data = []
    chart_labels = []
    for label, value in data_dict.items():
        if value > 0:
            chart_labels.append(str(label))
            chart_data.append(value)
            
    if title:
        chart.title = title
        
    chart.add_data(chart_data)
    chart.set_pie_labels(chart_labels)
    chart.set_colours(colours[:len(data_dict)])
    return chart
示例#12
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    def buildPieChart2D(self, data, addValueToLabel=False, sortByKeys=False):
        chart = PieChart2D(self.defaultWidth, self.defaultHeight)

        labels = list()
        dataPoints = list()

        keys = sorted(data.keys()) if sortByKeys else data.keys()
        for key in keys:
            value = data[key]
            label = key

            if addValueToLabel: label += ' (' + str(value) + ')'

            labels.append(label)
            dataPoints.append(value)

        chart.add_data(dataPoints)
        chart.set_pie_labels(labels)

        return chart
示例#13
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    def __get_pie_chart(self, results, width, height):

        # Create a chart object of 200x100 pixels
        pchart = PieChart2D(width, height)

        # Add some data
        votes = []
        labels = []
        for prli in results:
            votes.append(prli.votes)
            labels.append(prli.answer.answer)
        print votes
        print labels
        # Add some data
        pchart.add_data(votes)

        # Assign the labels to the pie data
        pchart.set_pie_labels(labels)

        return pchart
示例#14
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    def _pie(self, results):
        width = self.request.GET.get('width')
        height = self.request.GET.get('height')
        if width:
            width = int(width)
        else:
            width = 300

        if height:
            height = int(height)
        else:
            height = 220

        chart = PieChart2D(width, height)
        data = defaultdict(int)
        if self.request.GET.get('entity_type') == 'party':
            to_include = [
                'R',
                'D',
            ]
            for result in results:
                if result['party'] in to_include:
                    data[result['party']] = result['count']
                else:
                    data['Other'] += result['count']

        data = data.items()
        counts = [x[1] for x in data]
        labels = [x[0] for x in data]

        party_colors = {'R': 'bb3110', 'D': '295e72', 'Other': 'efefef'}
        colors = [party_colors.get(label) for label in labels]

        chart.add_data(counts)
        if self.request.GET.get('labels', 'true') != 'false':
            chart.set_pie_labels(labels)
        chart.set_colours(colors)
        chart.fill_solid('bg', '00000000')  # Make the background transparent
        if self.request.GET.get('output') == 'data':
            return (labels, counts)
        return chart.get_url()
示例#15
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def month_breakdown(file):

    #open file
    f = open(file)
    #create two lists
    values = []
    labels = []
    #populate lists
    for line in f:
        l, v = line.split('\t')
        values.append(float(v))
        labels.append(l)

    # Create a chart object of 200x100 pixels
    chart = PieChart2D(width, height)

    # Add some data
    chart.add_data(values)

    # Assign the labels to the pie data
    chart.set_pie_labels(labels)

    # Download the chart
    chart.download(file.replace('txt', 'png'))
示例#16
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        return render('pollngo/question.html', payload, request)


def results(request, slug):
    try:
        question = Question.objects.get(slug=slug)
    except ObjectDoesNotExist, e:
        raise Http404
    total_votes = 0
    choice_name = []
    choice_val = []
    for choice in question.choice_set.all():
        total_votes += choice.total_votes
        choice_name.append(choice.text)
        choice_val.append(choice.total_votes)
    chart = PieChart2D(400, 200)
    chart.add_data(choice_val)
    choice_name = [choice_obj.encode('utf8') for choice_obj in choice_name]
    chart.set_pie_labels(choice_name)
    chart_url = chart.get_url()
    payload = {
        'question': question,
        'total_votes': total_votes,
        'chart_url': chart_url
    }
    return render('pollngo/results.html', payload, request)


def create(request):
    if request.method == 'POST':
        form = pforms.CreatePoll(request, request.POST)
def generateGraphs():
	version()
        
        conndio = sqlite3.connect(dbfiledionaea)
	c = conndio.cursor()

        connglas = sqlite3.connect(dbfileglastopf)
        x = connglas.cursor()
        
        #
        #
        # Dionaea Queries starting here!
        #
        #

        #Most attacked ports - Dionaea
        querySQL = 'SELECT COUNT(local_port) AS hitcount,local_port AS port FROM connections WHERE connection_type = "accept" GROUP BY local_port HAVING COUNT(local_port) > 10'
        print querySQL
        c.execute(querySQL)
        
        #Count attacks on port 80 - Glastopf
        querySQL = "SELECT COUNT(request_url) AS hitcount,'80 - http' AS port FROM events"
        print querySQL
        x.execute(querySQL)
        
        chart = PieChart2D(pieChartWidth, pieChartHeight, colours=pieColours)
        
        flist = []
        seclist = []
        
	for row in c:
		print(row)
                flist.append(row[0])
                seclist.append(str(row[1]))

        for row in x:
                print(row)
                flist.append(row[0])
                seclist.append(str(row[1]))      
                  
        seclist = [port.replace('21','21 - ftp') for port in seclist]
        seclist = [port.replace('42','42 - wins') for port in seclist]
        seclist = [port.replace('135','135 - msrpc') for port in seclist]
        seclist = [port.replace('445','445 - smb') for port in seclist]
        seclist = [port.replace('1433','1433 - ms-sql') for port in seclist]
        seclist = [port.replace('3306','3306 - mysql') for port in seclist]
        seclist = [port.replace('5060','5060 - sip') for port in seclist]

        chart.add_data(flist)
        chart.set_legend(seclist)

        chart.download('attacked_ports.png')

        #Top10 Malware
        querySQL = 'SELECT COUNT(download_md5_hash), download_md5_hash FROM downloads GROUP BY download_md5_hash ORDER BY COUNT(download_md5_hash) DESC LIMIT 10'
        print querySQL
        c.execute(querySQL)
			
        chart = PieChart2D(pieChartWidth, pieChartHeight, colours=pieColours)
        
        flist = []
        seclist = []
        
	for row in c:
		print(row)
                flist.append(row[0])
                seclist.append(str(row[1]))
                
        chart.add_data(flist)
        chart.set_legend(seclist)

        chart.download('popular_malware.png')
        
        #Connections per Day Dionaea and Glastopf - 7 Days - Dionaea
        querySQL = "SELECT strftime('%Y', connection_timestamp,'unixepoch') as 'year', strftime('%m', connection_timestamp,'unixepoch') as 'month', strftime('%d', connection_timestamp,'unixepoch') as 'day', count(strftime('%m', connection_timestamp,'unixepoch')) as 'num' FROM connections GROUP BY strftime('%Y', connection_timestamp,'unixepoch'), strftime('%m', connection_timestamp,'unixepoch'), strftime('%d', connection_timestamp,'unixepoch') ORDER BY strftime('%Y', connection_timestamp,'unixepoch') DESC, strftime('%m', connection_timestamp,'unixepoch') DESC, strftime('%d', connection_timestamp,'unixepoch') DESC LIMIT 7"
        print querySQL
        c.execute(querySQL)
        
        #Connections per Day Dionaea and Glastopf - 7 Days - Glastopf
        querySQL = "SELECT COUNT(time), SUBSTR(time,-20,12) AS stripped FROM events GROUP BY stripped ORDER BY stripped DESC LIMIT 7"
        print querySQL
        x.execute(querySQL)
        
        chart = SimpleLineChart(pieChartWidth, pieChartHeight, y_range=[0, 5000])
        
        flist = []
        seclist = []
        
	for (row,rowx) in zip(c,x):
                 print(row)
                 print(rowx)
                 l = list(row)
                 l[3]=row[3]+rowx[0]
                 flist.append(l[3])
                 date = '%s-%s-%s' % (str(row[0]),str(row[1]),str(row[2]))
                 seclist.append(date)
                
        flist.reverse()
        seclist.reverse()
                
        chart.add_data(flist)
        chart.set_axis_labels(Axis.BOTTOM,seclist)
        
        chart.set_colours(['0000FF'])
        chart.fill_linear_stripes(Chart.CHART, 0, 'CCCCCC', 0.2, 'FFFFFF', 0.2)
        chart.set_grid(0, 20, 5, 5)
        
        left_axis = range(0, 5001, 1000)
        left_axis[0] = ''
        chart.set_axis_labels(Axis.LEFT, left_axis)
         
        chart.download('connections_per_day.png')
        
        #
        #
        # Glastopf Queries starting here!
        #
        #
        
        #Top15 intext requests
        querySQL = 'SELECT count, content FROM intext ORDER BY count DESC LIMIT 15'
        print querySQL
        x.execute(querySQL)
        
        chart = PieChart2D(pieChartWidth, pieChartHeight, colours=pieColours)
        
        flist = []
        seclist = []
        
        for row in x:
		print(row)
                flist.append(row[0])
                seclist.append(str(row[1]))
                
        chart.add_data(flist)
        chart.set_legend(seclist)

        chart.download('popular_intext.png')
        
        #Top15 intitle requests
        querySQL = 'SELECT count, content FROM intitle ORDER BY count DESC LIMIT 15'
        print querySQL
        x.execute(querySQL)
        
        chart = PieChart2D(pieChartWidth, pieChartHeight, colours=pieColours)
        
        flist = []
        seclist = []
        
        for row in x:
		print(row)
                flist.append(row[0])
                seclist.append(str(row[1]))
                
        chart.add_data(flist)
        chart.set_legend(seclist)

        chart.download('popular_intitle.png')
        
        #Top10 inurl requests
        querySQL = 'SELECT count, SUBSTR(content,0,40) FROM inurl ORDER BY count DESC LIMIT 10'
        print querySQL
        x.execute(querySQL)
        
        chart = PieChart2D(pieChartWidth, pieChartHeight, colours=pieColours)
        
        flist = []
        seclist = []
        
        for row in x:
		print(row)
                flist.append(row[0])
                seclist.append(str(row[1]))
                
        chart.add_data(flist)
        chart.set_legend(seclist)

        chart.download('popular_inurl.png')
    print '<tr class="', "odd" if rank % 2 else "even", '">'
    print "<td>", rank, "</td>"
    print "<td>", d["amount"], "</td>"
    print "<td class='country'>", d["country"], "</td>"
    print "<td>", d["matchesPlayedSum"], "</td>"
    print "<td class='matcheswon'>", d["matchesWonSum"], "</td>"
    print "</tr>"

    rank += 1
    chartData.append(d["amount"])
    labels.append(str(d["country"]))

print "</table>"
print "<br /><br />"

chart = PieChart2D(480, 300)
chart.add_data(chartData)
chart.set_pie_labels(labels)

print "<img src='%s' />" % chart.get_url()
print "</div><br /><br />"
print "<div id='chart_div'></div>"
import scraperwiki, string
from pygooglechart import PieChart2D

scraperwiki.sqlite.attach("cuetrackernet", "src")
data = scraperwiki.sqlite.select(
    'COUNT(id) AS amount, country, SUM(matchesPlayed) AS matchesPlayedSum, SUM(matchesWon) AS matchesWonSum FROM src.cuetracker GROUP BY country ORDER BY amount DESC'
)
gb = scraperwiki.sqlite.select(
    'COUNT(id) AS amount, "GB" as country, SUM(matchesPlayed) AS matchesPlayedSum, SUM(matchesWon) AS matchesWonSum FROM src.cuetracker WHERE country IN ("England", "Scotland", "Wales", "Northern Ireland") ORDER BY amount DESC'
示例#19
0
def summary(request, formID):
    """for rendering the index page for any user who has just logged in"""

    if 'username' not in request.session or request.session['username'] == None:
        request.session['redirect'] = request.get_full_path()
        return redirect('%s/ldap_login' % ROOT)
    """summary of feedback for a form..."""
    #select a form
    f = feedbackForm.objects.get(pk=formID)
    print 'we got %s in summary wala view' % (f)

    # check if the user is actually allowed to view the form..!!
    u = user.objects.get(username=request.session['username'])
    feedbackAbout = u.allowed_viewing_feedback_about.values()
    allowed = False
    for a in feedbackAbout:
        if str(a['title']) == str(f.title):
            allowed = True
    if allowed is False:
        return HttpResponse("You are not allowed to see this submission ")
    #do we have any submissions for this form ?
    submissions = feedbackSubmission.objects.filter(feedbackForm=f).count()
    print "no of submissions are..!!!", submissions
    #if number of submissions is less than 0,
    if submissions <= 0:
        return redirect("%s/manage_feedback/5/error" % ROOT)

    #print whether deadline is gone or not for submitting...
    if f.deadline_for_filling < datetime.now():
        deadlineGone = True
    else:
        deadlineGone = False

    summary_outer_dict = dict()
    #for each feedbackQuestion in the form
    from pygooglechart import PieChart2D

    for q in f.questions.all():
        summary_inner_dict = dict()
        Options = feedbackQuestionOption.objects.filter(question=q)
        # to set the dictionalry initial value to 0. and the key to the question options
        for o in Options:
            summary_inner_dict[o] = 0

        #find all AnswerOptions corresponding to it.

        sub = feedbackSubmission.objects.filter(feedbackForm=f)
        for s in sub:
            # the options to be counted is to be related to a partcular submission made for this partucal form.
            qwaleOptions = feedbackSubmissionAnswer.objects.filter(
                question=q).filter(submission=s)
            #for each AnswerOption:
            for opt in qwaleOptions:
                #count the number of total feedbackSubmissionAnswer...
                # adding the count to the inner dictionry
                if opt.answer_text is not None:
                    summary_inner_dict[opt.answer_text] = None
                    continue
                else:
                    summary_inner_dict[opt.answer_option] = summary_inner_dict[
                        opt.answer_option] + 1
        try:
            chart = PieChart2D(450, 200)

            def text(x):
                return x.text

            print summary_inner_dict.values()
            print summary_inner_dict.keys()

            chart.add_data(summary_inner_dict.values())
            chart.set_pie_labels(list(map(text, summary_inner_dict.keys())))
            try:
                chart.download('%s/piecharts/%s.png' % (MEDIA_ROOT, q.id))
            except:
                pass
        except:
            pass

        summary_outer_dict[q] = summary_inner_dict
    t = loader.get_template('manage_feedback/summary.html')
    c = Context({
        'deadlinegone':
        deadlineGone,  # idk why we had put this condition...!! ??
        'formName': f.title,
        'summaryDict': summary_outer_dict,
        'ROOT': ROOT,
        'MEDIA_URL': MEDIA_URL
    })

    return HttpResponse(t.render(c))