565 lines
22 KiB
Python
565 lines
22 KiB
Python
import pandas as pd
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import numpy as np
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import os
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import io
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import json
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from multiprocessing import Process
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import transport
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import sqlite3 as lite
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import numpy as np
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import transport
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import matplotlib.pyplot as plt
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import re, base64
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from weasyprint import HTML, CSS
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COLORS = ["#f79256","#7dcfb6","#fbd1a2","#00b2ca","#1d4e89","#4682B4","#c5c3c6","#4c5c68","#1985a1","#f72585","#7209b7","#3a0ca3","#4361ee","#4cc9f0","#ff595e","#ffca3a","#8ac926","#1982c4","#6a4c93"]
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class stdev :
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def __init__(self) :
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self.values = []
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def step(self,value):
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if value : #and type in [np.int64, np.int32,np.float64,np.float32, int]:
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self.values.append(value)
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def finalize(self):
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return np.std(self.values) if self.values else None
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# conn = lite.connect("/home/steve/healthcare-io/healthcare-io.db3")
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# conn.create_aggregate("stdev",1,stdev)
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# df = pd.read_sql("select count(distinct (json_extract(data,'$.patient_id'))) as patient_count, avg(json_array_length(data,'$.procedures')) mean, stdev(json_array_length(data,'$.procedures')) stdev from claims",conn)
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ROOT_FOLDER = 'stats'
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# plt.gcf().subplots_adjust(bottom=0.15)
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# from matplotlib import rcParams
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# rcParams.update({'figure.autolayout': True})
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class Chart :
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@staticmethod
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def remove_borders(axes,wedges,labels,item) :
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# plt.axes()
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axes.spines["top"].set_visible(False)
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# plt.axes().
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axes.spines["right"].set_visible(False)
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axes.legend(wedges, labels #,title=item['label']
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,loc="upper right",fontsize=12,bbox_to_anchor=(1, 0, 0.5, 1),fancybox=True,framealpha=0.2)
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# plt.axes().
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# axes.spines["left"].set_visible(False)
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if 'axis' in item['chart'] :
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axes.set_ylabel(item['chart']['axis']['y'])
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axes.set_xlabel(item['chart']['axis']['x'])
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@staticmethod
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def donut(item,**args) :
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df = item['data']
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x = item['chart']['x'] #args['x']
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labels = item['chart']['y']
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labels = df[labels]
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# figure = plt.figure()
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figure, axes = plt. subplots()
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# wedges, texts = plt.pie(df[x],labels=labels)
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colors = COLORS[:len(labels)] #np.random.choice(COLORS,len(labels),replace=False)
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wedges = axes.pie(df[x],labels=labels,wedgeprops=dict(width=0.3),colors=colors,autopct=lambda pct: "{:.2f}%\n({:.0f})".format(pct,int((pct/100)*df[x].sum() ))) #,autopct=lambda pct: func(pct, df[x].values))
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# my_circle=plt.Circle( (0,0), 0.7, color='#ffffff',fill=True)
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# p=plt.gcf()
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# p.gca().add_artist(my_circle)
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# plt.legend(wedges, labels,title=item['label'],loc="upper right",bbox_to_anchor=(1, 0, 0.5, 1))
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# axes.legend(wedges[0], labels,title=item['label'],loc="upper right",bbox_to_anchor=(1, 0, 0.5, 1),framealpha=0,edgecolor='#CAD5E0',
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# )
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# x = plt.show()
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Chart.remove_borders(axes,wedges[0],labels,item)
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plt.close()
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return figure
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@staticmethod
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def barh(item,**args):
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"""
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This function will return/render a bar chart (horizontal) which is conducive to showing distributions of things like diagnosis codes
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"""
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# figure = plt.figure()
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figure, axes = plt. subplots()
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y_labels = item['chart']['y'][0]
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x_labels = item['chart']['x'] #[args['x']] if type(args['x']) == str else args['x']
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df = item['data'].iloc[:9].copy()
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# odf = item['data'].iloc[9:].copy().mean().to_frame().T
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# odf[y_labels] = 'Other'
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# df = df.append(odf)
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wedges = []
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# COLORS = ['#003f5c','#7a5195','#374c80','#bc5090','#ef5675','#ff764a','#ffa600']
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for x_ in x_labels:
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index = x_labels.index(x_)
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color = COLORS[index]
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w = axes.barh(df[y_labels],df[x_],align='edge',label='counts' ,color=color)
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wedges += [w]
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# labels = [name.replace('_',' ') for name in x_labels]
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# axes.legend(wedges,[name.replace('_',' ') for name in x_labels],
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# title=item['label'],
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# framealpha=0,
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# edgecolor='#CAD5E0',
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# loc="upper right",bbox_to_anchor=(1, 0, 0.5, 1)
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# )
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Chart.remove_borders(axes,wedges,[name.replace('_',' ') for name in x_labels],item)
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plt.close()
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return figure
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@staticmethod
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def spline(item,**args):
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"""
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"""
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df = item['data']
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# figure = plt.figure()
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figure, axes = plt. subplots()
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wedges = []
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item['chart']['x'] = [item['chart']['x']]if type(item['chart']['x']) == str else item['chart']['x']
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# COLORS = ['#003f5c','#7a5195','#374c80','#bc5090','#ef5675','#ff764a','#ffa600']
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for xl in item['chart']['x'] :
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x = df[xl]
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index = 0
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for yl in item['chart']['y'] :
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y = df[yl]
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color = COLORS[index]
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if 'scatter' in args :
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w = plt.plot(x,y,'o',color=color)
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else:
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w = plt.plot(x,y,color=color,marker='o')
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wedges += w
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index += 1
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# print (item['chart']['x'])
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# if 'axis' in item :
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# axes.set_ylabel(item['axis']['y'])
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# axes.set_xlabel(item['axis']['x'])
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# plt.title(item['label'])
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# axes.legend(wedges,[name.replace('_',' ') for name in item['chart']['y']],
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# title=item['label'],
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# framealpha=0,
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# edgecolor='#CAD5E0',
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# loc="upper right",bbox_to_anchor=(1, 0, 0.5, 1)
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# )
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axes.grid(b=False,which='major',axis='x')
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Chart.remove_borders(axes,wedges,[name.replace('_',' ') for name in item['chart']['y']],item)
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plt.close()
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return figure
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@staticmethod
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def scatter(item,**args):
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return Chart.spline(item,scatter=True)
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class Apex :
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"""
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This class will format a data-frame to work with Apex charting engine
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"""
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@staticmethod
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def apply(item):
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pointer = item['chart']['type']
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if hasattr(Apex,pointer) :
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pointer = getattr(Apex,pointer)
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options = pointer(item)
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options['responsive']= [
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{
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'breakpoint': 1,
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'options': {
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'plotOptions':item['plotOptions'] if 'plotOptions' in item else None,
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}
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}
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]
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return options
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else:
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print ("Oops")
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pass
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@staticmethod
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def scatter(item):
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options = Apex.spline(item)
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options['apex']['chart']['type'] = 'scatter'
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return options
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@staticmethod
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def scalar(item):
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_df = item['data']
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print (_df)
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name = _df.columns.tolist()[0]
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value = _df[name].values.round(2)[0]
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html = '<div class="scalar"><div class="value">:value</div><div class="label">:label</div></div>'
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if value > 999 and value < 1000000 :
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value = " ".join([str(np.divide(value,1000).round(2)),"K"])
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elif value > 999999 :
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#@ Think of considering the case of a billion ...
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value = " ".join([str(np.divide(value,1000000).round(2)),"M"])
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else:
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value = str(value)
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unit = name.replace('_',' ') if 'unit' not in item else item['unit']
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return {'html':html.replace(':value',value).replace(":label",unit)}
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@staticmethod
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def column(item):
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df = item['data']
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N = df.shape[0] if df.shape[0] < 10 else 10
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axis = item['chart']['axis']
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x = axis['x']
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if type(x) == list :
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x = x[0]
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axis['y'] = [axis['y']] if type(axis['y']) != list else axis['y']
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series = []
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for y in axis['y'] :
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series += [{"data": df[y].values.tolist()[:N],"name":y.upper().replace('_',' ')}]
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xtitle,ytitle = Apex.get_labels(item)
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options = {"chart":{"type":"bar"},"plotOptions":{"bar":{"horizontal":False,"width:":2,"color":["transparent"]}},"dataLabels":{"enabled":False},"legend":{"position":"right"}}
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options['xaxis'] = {"categories":df[x].values.tolist()[:N],"title":xtitle['title']}
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options['yaxis'] = ytitle
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options['series'] = series
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options['colors'] = COLORS[:df[x].size]
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return {"apex":options}
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# options = Apex.barh(item)
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# options['chart']['type'] = 'column'
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# options['plotOptions']['bar'] = {'horizontal':False,'columnWidth':'55%'}
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# options['stroke']={'show':True,'width':2,'colors':['transparent']}
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# return {"apex":options}
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@staticmethod
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def get_labels(item):
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xtitle = ytitle = ""
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if "labels" not in item['chart'] :
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xtitle = item['chart']['axis']['x']
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ytitle = item['chart']['axis']['y']
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else:
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xtitle = item['chart']['labels']['x']
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ytitle = item['chart']['labels']['y']
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xtitle = xtitle if type(xtitle) != list else xtitle[0]
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ytitle = ytitle if type(ytitle) != list else ytitle[0]
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return {"title":{"text":xtitle.lower().replace('_',' '),"style":{"fontWeight":"lighter"}}},{"title":{"text":ytitle.lower().replace('_',' '),"style":{"fontWeight":"lighter"}}}
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@staticmethod
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def bar(item):
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return Apex.barh(item)
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@staticmethod
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def barh(item):
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"""
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rendering a horizontal bar chart assuming for now that only one series is involved
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@TODO: alias this with bar (!= column)
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"""
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df = item['data']
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N = df.shape[0] if df.shape[0] < 10 else 10
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axis = item['chart']['axis']
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y = axis['y']
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if type(y) == list :
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y = y[0]
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axis['x'] = [axis['x']] if type(axis['x']) != list else axis['x']
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if not set(axis['x']) & set(df.columns.tolist()) :
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print (set(axis['x']) & set(df.columns.tolist()))
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print (axis['x'])
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print (df.columns)
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# df.columns = axis['x']
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series = []
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_min=_max = 0
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for x in axis['x'] :
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series += [{"data": df[x].values.tolist()[:N],"name":x.upper().replace('_',' ')}]
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_min = df[x].min() if df[x].min() < _min else _min
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_max = df[x].max() if df[x].max() > _max else _max
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xtitle , ytitle = Apex.get_labels(item)
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options = {"chart":{"type":"bar"},"plotOptions":{"bar":{"horizontal":True}},"dataLabels":{"enabled":False},"legend":{"position":"right"}}
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options['xaxis'] = {"categories":df[y].values.tolist()[:N],"title":xtitle['title']}
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options['yaxis'] = ytitle
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options['series'] = series
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options['colors'] = COLORS[:df[x].size]
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return {"apex":options}
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@staticmethod
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def spline(item):
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series = []
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df = item['data']
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N = df.shape[0] if df.shape[0] < 10 else 10
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axis = item['chart']['axis']
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x = axis['x']
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_min=_max = 0
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for y in axis['y'] :
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series += [{"data":df[y].values[:N].tolist(),"name":y.upper().replace('_',' ')}]
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_min = df[y].min() if df[y].min() < _min else _min
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_max = df[y].max() if df[y].max() > _max else _max
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colors = COLORS[:len(axis['y'])]
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options = {"chart":{"type":"line"},"series":series,"stroke":{"curve":"smooth"},"colors":colors,"legend":{"position":"right"}}
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xtitle , ytitle = Apex.get_labels(item)
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options['xaxis'] = {"categories":df[x].values[:N].tolist(),"title":xtitle['title']}
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options['yaxis'] = ytitle
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return {"apex":options}
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@staticmethod
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def donut(item):
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"""
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:pre data must have more than one item otherwise just make it a scalar
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here we will use the key as labels and the values as the values (obviously)
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labels are y-axis
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values are x-axis
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"""
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df = item['data']
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if df.shape [0]> 1 :
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y_cols,x_cols = item['chart']['axis']['y'],item['chart']['axis']['x']
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labels = df[y_cols].values.tolist()
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values = df[x_cols].values.round(2).tolist()
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else:
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labels = [name.upper().replace('_',' ') for name in df.columns.tolist()]
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values = df.values.round(2).tolist()[0] if df.shape[1] > 1 else df.values.round(2).tolist()
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colors = COLORS[:len(values)]
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options = {"series":values,"colors":colors,"labels":labels,"chart":{"type":"donut"},"plotOptions":{"pie":{"customScale":.8}},"legend":{"position":"right"}}
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return {"apex":options}
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pass
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class engine :
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"""
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This engine is designed to load the configuration and run the queries given they are remittance or claims
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@TODO:
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- make sure the readers of the queries are configurable i.e use data-transport
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"""
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def __init__(self,path) :
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"""
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Loading configuration file from a designated location ...
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"""
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f = open(path) ;
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_config = json.loads(f.read())
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self.store_config = _config['store']
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self.info = _config['analytics']
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_args = self.store_config
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if self.store_config['type'] == 'mongo.MongoWriter' :
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_args['type'] = 'mongo.MongoReader'
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else:
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_args['type'] = 'disk.SQLiteReader'
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self.reader = transport.factory.instance(**_args)
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def apply (self,**args) :
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"""
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type: claims or remits
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filter optional identifier claims, procedures, taxonomy, ...
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"""
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_m = {'claim':'837','claims':'837','remits':'835','remit':'835'}
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# key = '837' if args['type'] == 'claims' else '835'
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table = _m[ args['type']]
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analytics = self.info[table]
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if 'index' in args :
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index = int(args['index'])
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analytics = [analytics[index]]
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_info = list(analytics) if 'filter' not in args else [item for item in analytics if args['filter'] == item['id']]
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# conn = lite.connect(self.store_config['args']['path'],isolation_level=None)
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# conn.create_aggregate("stdev",1,stdev)
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DB_TYPE = 'mongo' if (type(self.reader) == transport.mongo.MongoReader) else 'sql'
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r = []
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for row in _info :
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for item in row['pipeline'] :
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# item['data'] = pd.read_sql(item['sql'],conn)
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query = {DB_TYPE:item[DB_TYPE]}
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item['data'] = self.reader.read(**item)
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if 'serialize' in args :
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item['data'] = json.dumps(item['data'].to_dict(orient='record')) if type(item['data']) == pd.DataFrame else item['data']
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else:
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item['data'] = (pd.DataFrame(item['data']))
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# if 'info' in item:
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# item['info'] = item['info'].replace(":rows",str(item["data"].shape[0]))
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# conn.close()
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return _info
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def _html(self,item) :
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figure = None
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df = item['data']
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label = ['<div class="label">',item['label'],'</div>']
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text = ['<div class="grid">',df.describe().iloc[:].round(2).to_html().replace('_',' '),'</div>']
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info = ['<div class="info">',item['info'],'</div>'] if 'info' in item else []
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if item['chart']['type'] in ['pie','donut','doughnut'] :
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figure = Chart.donut(item)
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text = ['<div class="grid">',df.to_html(index=False).replace('_',' '),'</div>']
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elif item['chart']['type'] == 'scatter' :
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figure = Chart.scatter(item)
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elif item['chart']['type'] == 'spline' :
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figure = Chart.spline(item)
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elif item['chart']['type'] in ['barh','hbar'] :
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figure = Chart.barh(item)
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elif item['chart']['type'] == 'scalar' :
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figure = (item['data'].apply(lambda col: '<div class="scalar"><div class="value bold">'+str(col.values[0].round(2))+'</div><div class="value-text">'+col.name.replace('_', ' ')+'</div></div>' ).tolist())
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label = text = []
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pass
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if figure and item['chart']['type'] != 'scalar':
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stream = io.BytesIO()
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figure.savefig(stream,format='png',dpi=300,quality=95, bbox_inches = "tight",transparent=True)
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stream.seek(0)
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stream = base64.b64encode(stream.getvalue()).decode("utf-8")
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stream = "data:image/png;base64,"+stream
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figure = ['<div class="figure"><img src="'+stream+'">',"</div>"]
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# figure.canvas.draw()
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# figure = "".join( map(chr,figure.canvas.tostring_argb())) #--bytes
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# else:
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# figure = [ ]
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if item['chart']['type'] != 'scalar':
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return ['<div class="frame"><div class="chart '+ item['chart']['type']+'">'] + [ " ".join(row) for row in [label,figure,text,info] if row] + ["</div></div>"]
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else:
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return [ " ".join(row) for row in [label,figure,text,info] if row]
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pass
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def _csv(self,item):
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pass
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def export(self,item,format):
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"""
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We have a pipeline here and we should attempt to build a figure using seaborn within an html template using jinja2
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This is considered a page (or an item) of an analysis where we will have both data and rendering information with accompanying text
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"""
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html = []
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for row in item['pipeline'] :
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p = [ "<h2>",row['label'].replace('_',' '),"</h2>"]
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y_label = [name for name in row['data'].columns if 'count' in name]
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x_label = list(set(row['data'].columns) - set(y_label))
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N = row.shape[0]
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if 'info' in row :
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p += ["<div class='info'>",row['info'],'</div>']
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pass
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class LogAnalytics :
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def __init__(self,path):
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logs = open(path).read().split('\n')
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logs = [json.loads(row) for row in logs if row.strip() != '']
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self.remits = {
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"completed": np.sum([1 for row in logs if row['completed'] == True]),
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"files":len(logs)
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}
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# m = LogAnalytics('/home/steve/healthcare-io/remits.log')
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css = """
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<meta charset="utf-8">
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<meta name="viewport" content="width=device-width, initial-scale=1.0">
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<title>HealthcareIO - :title </title>
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<style>
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body{
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padding:8px;
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padding-left:4%;
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padding-right:4%;
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}
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.pane{
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padding:4px;
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display:grid;
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gap:16px;
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grid-template-columns:repeat(2,1fr) ;
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}
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.numbers {
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display:grid;
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grid-template-columns:repeat(2,1fr);
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gap:16px;
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/*padding:2px;*/
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/*border:1px solid #CAD5E0;*/
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}
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.numbers .scalar {
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padding:8px;
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background-image: linear-gradient(to bottom, #f3f3f3,#d3d3d3, #ffffff);
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border:1px solid #CAD5E0;
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font-family:sans-serif;
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text-transform:capitalize;
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text-align:right;
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font-size:12px;
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display:grid;
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grid-template-rows:auto 28px; gap:2px;
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}
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.numbers .scalar .value-text {
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border-top:1px solid #CAD5E0;
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padding:8px;
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font-weight:bold;
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align-items:center;
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font-size:14px;
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display:grid;
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}
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.numbers .scalar .value {
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display:grid;
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color:#004b79;
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align-content:center;
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font-size:48px; text-align:right; font-weight:bold;}
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.frame {
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background-image: linear-gradient(to bottom, #f3f3f3,#d3d3d3, #ffffff);
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padding:2px;
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border:1px solid #CAD5E0;
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}
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.figure {grid-area:figure; width:500px; height:350px; display:grid; align-items:center}
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.info {height:28px; width:100%; grid-area:info;
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display:grid;
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align-items:center;
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text-align:center; text-transform:capitalize; padding:4px; font-size:12px; font-family:sans-serif; border-top:1px solid #CAD5E0;}
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.grid {grid-area:grid; }
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.label {grid-area:label; font-weight:bold; font-size: 22px; text-align:center; text-transform:capitalize}
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.chart {
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padding:4px;
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padding:8px;
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display:grid; grid-template-areas:
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"label label label"
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"figure grid grid"
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"info info info" ;
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gap:2px;
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}
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img {height:auto; max-width:100% ;}
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table {width:100%; border-collapse: collapse;}
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table , TH, TD{ font-size:14px; padding:8px; font-family:sans-serif; border:1px; border:1px solid #CAD5E0;}
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table thead, tbody th { padding:4px; text-transform:capitalize; background-color:#4682B4; color:#ffffff; text-align:center}
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table thead tr th {text-align:center}
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table tbody td {text-align:right; font-weight: lighter}
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table tbody tr:nth-child(odd) {background: #95bce0}
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table tbody tr:nth-child(even) {background: #c8e5ff}
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</style>
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"""
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# folder = '/home/steve/.healthcareio/config.json'
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# e = engine(path=folder)
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# p = e.apply(type='claims')
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# values = []
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# html = [css]
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# for row in p :
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# frame = []
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# for item in row['pipeline'] :
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# if row['pipeline'].index(item) == 0 :
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# if item['chart']['type'] != 'scalar' :
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# # frame = ['<div class="frame">']
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# pass
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# else:
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# frame = ['<div><div class="numbers">']
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# frame += e._html(item) #p[3]['pipeline'][0])
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# frame += ['</div></div>'] if item['chart']['type'] == 'scalar' else []
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# html += frame
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# html = '<div class="pane">' + "\n".join(html) + "</div></div>"
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# f = open('out.html','w')
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# f.write(html.replace(":title","Claims"))
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#
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# HTML(string=html).write_pdf('out.pdf',stylesheets=[CSS(string=css)])
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# x.write_pdf('./out.pdf')
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# print (p[2]['pipeline'][0]['data'])
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# e.export (p[0])
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# features = ['diagnosis.code']
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# split(folder = folder, features=features)
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