Exemple #1
0
def graph(results):
    output = []
    sorted_keys = results.keys()
    sorted_keys.sort()
    for test in sorted_keys:
        data = results[test]
        datalist = [data[host[0]] for host in HOSTS]

        plots = []
        dates = []
        max_points = max([len(d) for d in datalist])
        for hostlist in datalist:
            hostplots = []
            hostdates = []
            for hostitem in hostlist:
                hostplots.append(hostitem[0])
                hostdates.append(hostitem[1])
            if len(hostplots) < max_points:
                hostplots.extend([hostlist[-1][0] for i in xrange(max_points-len(hostplots))])
            plots.append(hostplots)
            dates.append(hostdates)
        first_day = dates[0][0]
        last_day = dates[0][-1]
        delta = last_day - first_day
        diff = delta.days*60*60*24 + delta.seconds

        days = []
        days.append(first_day.strftime("%a"))
        days.append((first_day+timedelta(seconds=int(diff*0.2))).strftime("%a"))
        days.append((first_day+timedelta(seconds=int(diff*0.4))).strftime("%a"))
        days.append((first_day+timedelta(seconds=int(diff*0.6))).strftime("%a"))
        days.append((first_day+timedelta(seconds=int(diff*0.8))).strftime("%a"))
        days.append(last_day.strftime("%a"))

        maximum = max([max(d) for d in plots])
        minimum = min([min(d) for d in plots])

        def scale(value, scale=4095):
            return (value - minimum) * scale / abs(maximum - minimum)

        scaled_plots = []
        for hostplots in plots:
            scaled_plots.append([scale(v) for v in hostplots])

        g = Line(scaled_plots, encoding='extended')
        g.legend(*[host[1] for host in HOSTS])
        g.legend_pos('b')
        g.color("edc240", "afd8f8", "cb4b4b", "4da74d", "f8afe8", "4066ed", )
        for i in range(3):
            g.line(2.5, 1, 0)
        g.size(500, 300)
        #g.scale(minimum, maximum)
        g.axes.type('xy')
        labels = range(minimum, maximum, (maximum-minimum)/5)
        g.axes.label(0, *days)
        g.axes.label(1, *labels)
        #g.show()
        print test
        print g
        output.append("%s" % g)
Exemple #2
0
 def legend(self):
     # Add legend to the data set which follows collors
     G = Line(['FOETHECat', 'leafgreen', 'IRON4YOUs'])
     G.color('ff0000', '00ff00', '0000ff')
     G.legend('Animals', 'Vegetables', 'Minerals')
     G.axes.type('y')
     return G
Exemple #3
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def margins_test():
   G = Line([[8,12,11,16,22],[7,8,10,12,19,23]], encoding='simple')   #实际数据
   G.size(1000, 200) #整个图大小
   G.label(1,5,10,20,40,60,100,160,260,420,68,1100,1780) #下标量
   G.fill('bg', 's', 'e0e0e0') #背景
   G.color('black', 'blue')  #线颜色
   G.margin(20,20,20,30,80,20)  #图位置
   G.legend('Merge', 'BigTable')  #线标签
   print G
Exemple #4
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def line_test():
   G = Line([[0,10,20], [0,20,25]], encoding='text')  #数据  simple模式和text模式
   G.size(1000, 200)  #整个图的大小
   G.axes.type('xy')  #XY两轴,可用xyz
   G.axes.label(0, 30) #设置0(x)轴标签
   #G.axes.label(1, '5', '10', '15', '20', '25', '30')  #设置1(Y)轴标签
   #G.axes.range(0, 0, 5, 1)  #设置0(x)轴范围
   G.axes.range(1, 0, 50)   #设置1(Y)轴范围
   G.scale(0, 50)  #设置放大比率,最小最大
   G.fill('bg', 's', 'e0e0e0') #背景色
   G.color('black', 'blue')  #两条线的颜色
   G.margin(20, 20, 20, 30, 80, 20)  #表在图中的位置
   G.legend('Merge', 'BigTable')  #两标签名字
   G.show()  #网页显示
Exemple #5
0
def graph(results):
    output = []
    sorted_keys = results.keys()
    sorted_keys.sort()
    for test in sorted_keys:
        data = results[test]
        datalist = [data[host[0]] for host in HOSTS]

        plots = []
        dates = []
        max_points = max([len(d) for d in datalist])
        for hostlist in datalist:
            hostplots = []
            hostdates = []
            for hostitem in hostlist:
                hostplots.append(hostitem[0])
                hostdates.append(hostitem[1])
            if len(hostplots) < max_points:
                hostplots.extend([
                    hostlist[-1][0]
                    for i in xrange(max_points - len(hostplots))
                ])
            plots.append(hostplots)
            dates.append(hostdates)
        first_day = dates[0][0]
        last_day = dates[0][-1]
        delta = last_day - first_day
        diff = delta.days * 60 * 60 * 24 + delta.seconds

        days = []
        days.append(first_day.strftime("%a"))
        days.append(
            (first_day + timedelta(seconds=int(diff * 0.2))).strftime("%a"))
        days.append(
            (first_day + timedelta(seconds=int(diff * 0.4))).strftime("%a"))
        days.append(
            (first_day + timedelta(seconds=int(diff * 0.6))).strftime("%a"))
        days.append(
            (first_day + timedelta(seconds=int(diff * 0.8))).strftime("%a"))
        days.append(last_day.strftime("%a"))

        maximum = max([max(d) for d in plots])
        minimum = min([min(d) for d in plots])

        def scale(value, scale=4095):
            return (value - minimum) * scale / abs(maximum - minimum)

        scaled_plots = []
        for hostplots in plots:
            scaled_plots.append([scale(v) for v in hostplots])

        g = Line(scaled_plots, encoding='extended')
        g.legend(*[host[1] for host in HOSTS])
        g.legend_pos('b')
        g.color(
            "edc240",
            "afd8f8",
            "cb4b4b",
            "4da74d",
            "f8afe8",
            "4066ed",
        )
        for i in range(3):
            g.line(2.5, 1, 0)
        g.size(500, 300)
        #g.scale(minimum, maximum)
        g.axes.type('xy')
        labels = range(minimum, maximum, (maximum - minimum) / 5)
        g.axes.label(0, *days)
        g.axes.label(1, *labels)
        #g.show()
        print test
        print g
        output.append("%s" % g)