plugin to use KE tool and report in order to create wip

dream/KnowledgeExtraction/PilotCases/BatchModel/WIPExtraction.py

@@ -5,12 +5,6 @@ Created on 24 Aug 2015
 '''
 import xlrd
 
-#Read from the given directory the Excel document with the input data
-workbook = xlrd.open_workbook('WIP_test report.xls')
-worksheets = workbook.sheet_names()
-main= workbook.sheet_by_name('WIP & Static Detail Section') 
-worksheet_WIP = worksheets[0]     #Define the worksheet with the production data
-
 # columns that are used (static)
 CONTAINERNAME=0
 STATIONNAME=16
@@ -19,65 +13,64 @@ WORKCELL=17
 def findStation(dictStory):
     for key,value in dictStory.iteritems():
         if value[0]=="Proximal Balloon Attach-CREFW" and value[1]=="CRE FW FRONT END LINE 1":
-            dictStory[key]=[]
-            dictStory[key].append("2_P_B_A_A")
+            dictStory[key]="2_P_B_A_A"
         elif value[0]=="Proximal Balloon Attach-CREFW" and value[1]=="CRE FW FRONT END LINE 2":
-            dictStory[key]=[]
-            dictStory[key].append("2_P_B_A_B")
+            dictStory[key]="2_P_B_A_B"
         elif value[0]=="RO/Exit Marker-CREFW" and value[1]=="CRE FW FRONT END LINE 1":
-            dictStory[key]=[]
-            dictStory[key].append("1_RO_E_M_A_A")
+            dictStory[key]="1_RO_E_M_A_A"
         elif value[0]=="RO/Exit Marker-CREFW" and value[1]=="CRE FW FRONT END LINE 2":
-            dictStory[key]=[]
-            dictStory[key].append("1_RO_E_M_A_B")
+            dictStory[key]="1_RO_E_M_A_B"
         elif value[0]=="Distal Balloon Attach-CREFW" and value[1]=="CRE FW FRONT END LINE 1":
-            dictStory[key]=[]
-            dictStory[key].append("3_D_B_A_A")
+            dictStory[key]="3_D_B_A_A"
         elif value[0]=="Distal Balloon Attach-CREFW" and value[1]=="CRE FW FRONT END LINE 2":
-            dictStory[key]=[]
-            dictStory[key].append("3_D_B_A_B")
+            dictStory[key]="3_D_B_A_B"
         elif value[0]=="Carding Cell-CREFW":
-            dictStory[key]=[]
-            dictStory[key].append("8_Carding")    
+            dictStory[key]="8_Carding"    
         elif value[0]=="Flag Label Attach-CREFW":
-            dictStory[key]=[]
-            dictStory[key].append("6_Flag Labelling")
+            dictStory[key]="6_Flag Labelling"
         elif value[0]=="Pressure Test-CREFW" and value[1]=="CRE FW BACK END LINE 2":
-            dictStory[key]=[]
-            dictStory[key].append("7_Pressure B")
+            dictStory[key]="7_Pressure B"
         elif value[0]=="Pressure Test-CREFW" and value[1]=="CRE FW BACK END LINE 1":
             dictStory[key]=[]
-            dictStory[key].append("7_Pressure A")
+            dictStory[key]="7_Pressure A"
         elif value[0]=="Moulding Cell-CREFW":
-            dictStory[key]=[]
-            dictStory[key].append("5_Moulding")
+            dictStory[key]="5_Moulding"
         elif value[0]=="Cut and Bend Corewire":
-            dictStory[key]=[]
-            dictStory[key].append("4_Cut & Bend")
+            dictStory[key]="4_Cut & Bend"
         elif value[0]=="Fixed Wire Pack Cell 1-CREFW" and value[1]=="CRE FW BACK END LINE 1":
-            dictStory[key]=[]
-            dictStory[key].append("9_Packaging A")
+            dictStory[key]="9_Packaging A"
         elif value[0]=="Fixed Wire Pack Cell 2-CRE" and value[1]=="CRE FW BACK END LINE 2":
-            dictStory[key]=[]
-            dictStory[key].append("9_Packaging B")
+            dictStory[key]="9_Packaging B"
+
     return dictStory
-        
+
+def main(input):
+    #Read from the given directory the Excel document with the input data
+    # workbook = xlrd.open_workbook('WIP_test report.xls')
     
-contIds=[]
-contDetails={}
-for sheet in workbook.sheets():
-    if worksheet_WIP:
-        for i in range(1,main.nrows):
-            Id=main.cell(i,CONTAINERNAME).value
-            if not Id in contIds:
-                contIds.append(Id) 
-            contDetails[Id]=[] 
-            statName=main.cell(i,STATIONNAME).value
-            workcell=main.cell(i,WORKCELL).value
-            contDetails[Id].append(statName)
-            contDetails[Id].append(workcell)
+    mime_type, attachement_data = input[len('data:'):].split(';base64,', 1)
+    attachement_data = attachement_data.decode('base64')
+    workbook = xlrd.open_workbook(file_contents=attachement_data)
+    
+    worksheets = workbook.sheet_names()
+    main= workbook.sheet_by_name('WIP & Static Detail Section') 
+    worksheet_WIP = worksheets[0]     #Define the worksheet with the production data      
+        
+    contIds=[]
+    contDetails={}
+    for sheet in workbook.sheets():
+        if worksheet_WIP:
+            for i in range(1,main.nrows):
+                Id=main.cell(i,CONTAINERNAME).value
+                if not Id in contIds:
+                    contIds.append(Id) 
+                contDetails[Id]=[] 
+                statName=main.cell(i,STATIONNAME).value
+                workcell=main.cell(i,WORKCELL).value
+                contDetails[Id].append(statName)
+                contDetails[Id].append(workcell)
             
-print findStation(contDetails)
+    return findStation(contDetails)
 
 
 

dream/plugins/Batches/BatchesWIPKEtool.py

@@ -6,6 +6,8 @@ import operator
 import datetime
 
 from dream.plugins import plugin
+from dream.KnowledgeExtraction.PilotCases.BatchModel.WIPExtraction import main as KEtoolWIP
+
 
 class BatchesWIPKEtool(plugin.InputPreparationPlugin):
     """ Input preparation 
@@ -14,8 +16,79 @@ class BatchesWIPKEtool(plugin.InputPreparationPlugin):
 
     def preprocess(self, data):
         nodes=data['graph']['node']
-        print 2
+        
+        # get the number of units for a standard batch
+        standardBatchUnits=0
+        for node_id, node in nodes.iteritems():
+            if node['_class']=='Dream.BatchSource':
+                standardBatchUnits=int(node['batchNumberOfUnits']) 
+            node['wip']=[]
+            
+        data_uri_encoded_input_data = data['input'].get(self.configuration_dict['input_id'], {})
+        wipData=KEtoolWIP(data_uri_encoded_input_data)
+        for batchId,stationId in wipData.iteritems():
+            nextBufferId=self.getNextBuffer(data, stationId)      
+            if not nextBufferId:
+                continue     
+            subline=self.checkIfSubline(data, stationId)
+                      
+            # for stations that we have to create sub-batches
+            if subline and (not self.checkIfNextStationIsReassembly(data, stationId)):
+                workingBatchSize=nodes[stationId]['workingBatchSize']
+                numberOfSubBatches=standardBatchUnits/workingBatchSize
+                
+                for i in range(numberOfSubBatches):
+                    data['graph']['node'][nextBufferId]['wip'].insert(0,{
+                          "_class": 'Dream.SubBatch',
+                          "id": 'Batch_'+str(batchId)+'_SB_'+str(i)+'_wip', 
+                          "name":'Batch_'+str(batchId)+'_SB_'+str(i)+'_wip', 
+                          "numberOfUnits":int(standardBatchUnits/numberOfSubBatches),
+                          "parentBatchId":'Batch_'+str(batchId),
+                          "parentBatchName":'Batch_'+str(batchId)                           
+                    })
+            # for stations that we have to create batches                                                                       
+            else:
+                data['graph']['node'][nextBufferId]['wip'].insert(0,{
+                      "_class": 'Dream.Batch',
+                      "id": 'Batch_'+str(batchId),
+                      "name":'Batch_'+str(batchId), 
+                      "numberOfUnits":int(standardBatchUnits)
+                })               
         return data    
         
         
-    
\ No newline at end of file
+    # returns true if the station is in a subline
+    def checkIfSubline(self,data,stationId):       
+        nodes=data['graph']['node']
+        current=stationId
+        # find all the predecessors that may share batches
+        while 1:
+            previous=self.getPredecessors(data, current)[0]
+            # when a decomposition is reached break  
+            if 'Decomposition' in nodes[previous]['_class']:
+                return True
+            if 'Reassembly' in nodes[previous]['_class']:
+                return False
+            current=previous     
+    
+    # returns true if the station is reassembly       
+    def checkIfNextStationIsReassembly(self,data,stationId):   
+        nodes=data['graph']['node']
+        next=self.getSuccessors(data, stationId)[0]
+        if 'Reassembly' in nodes[next]['_class']:
+            return True
+        return False
+    
+    def getNextBuffer(self,data,stationId):
+        nodes=data['graph']['node']
+        current=stationId
+        # find all the successors that may share batches
+        while 1:
+            next=self.getSuccessors(data, current)[0]   
+            if 'Queue' in nodes[next]['_class'] or 'Clearance' in nodes[next]['_class']:     
+                return next
+            if 'Exit' in nodes[next]['_class']:
+                return None
+            current=next 
+        
+        
\ No newline at end of file