2024-04-09 12:30:03 +00:00
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import os
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from openpyxl import *
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def read(filepath):
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def read_datasheet(workbook):
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#reset lists
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k=[]
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m=[]
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workbook = load_workbook(filepath, data_only=True)
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datasheet = workbook["Data sheet"]
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version = datasheet.cell(row=1, column=1).value
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#max index
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max = 72
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if version == "V23.01":
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for i in range(max):
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k.append(0)
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m.append(0)
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results["version_datasheet"] = version
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results["general data"] = {}
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results["product details"] = {}
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results["paper based material data"] = {}
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results["functional application out"] = {}
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results["functional application in"] = {}
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results["functional application mid"] = {}
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results["printing"] = {}
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results["varnish"] = {}
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results["glue"] = {}
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results["sealing"] = {}
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results["non paper based"] = {}
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results["other remarks"] = {}
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results["date of production"] = {}
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results["barrier perfomance out"] = {}
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results["barrier perfomance in"] = {}
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results["compostability and biodegradability"] = {}
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results["general data"]["company name"] = cell(datasheet, 4, 6, 0)
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results["general data"]["product name"] = cell(datasheet, 5, 6, 1)
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results["general data"]["desription"] = cell(datasheet, 6, 6, 2)
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results["general data"]["material/product"] = cell(datasheet, 7, 6, 3)
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results["product details"]["width and tolerance"] = cell(datasheet, 10, 6, 4)
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results["product details"]["length and tolerance"] = cell(datasheet, 11, 6, 5)
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results["product details"]["height and tolerance"] = cell(datasheet, 12, 6, 6)
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results["product details"]["weight of product"] = cell(datasheet, 13, 6, 7)
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results["product details"]["is it a used product"] = cell(datasheet, 14, 6, 8)
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results["paper based material data"]["base material"] = cell(datasheet, 17, 6, 9)
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results["paper based material data"]["grammage"] = cell(datasheet, 18, 6, 10)
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results["paper based material data"]["thickness"] = cell(datasheet, 19, 6, 11)
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results["paper based material data"]["pigments"] = cell(datasheet, 20, 6, 12)
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results["paper based material data"]["fillers"] = cell(datasheet, 21, 6, 13)
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results["paper based material data"]["wet streght polymers"] = cell(datasheet, 22, 6, 14)
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results["paper based material data"]["artificial fibres"] = cell(datasheet, 23, 6, 15)
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results["paper based material data"]["printed, varnished, lacquered,..."] = cell(datasheet, 24, 6, 16)
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results["paper based material data"]["printing"] = cell(datasheet, 25, 6, 17)
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results["paper based material data"]["varnish"] = cell(datasheet, 26, 6, 18)
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results["paper based material data"]["adhesive"] = cell(datasheet, 27, 6, 19)
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results["paper based material data"]["additional sealing"] = cell(datasheet, 28, 6, 20)
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results["paper based material data"]["functional app out"] = cell(datasheet, 29, 6, 21)
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results["paper based material data"]["functional app in"] = cell(datasheet, 30, 6, 22)
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results["paper based material data"]["functional app mid"] = cell(datasheet, 31, 6, 23)
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results["paper based material data"]["addtional information"] = cell(datasheet, 32, 6, 23)
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results["functional application out"]["description"] = cell(datasheet, 34, 6, 24)
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results["functional application out"]["grammage"] = cell(datasheet, 35, 6, 25)
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results["functional application out"]["thickness"] = cell(datasheet, 36, 6, 26)
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results["functional application out"]["related area"] = cell(datasheet, 37, 6, 27)
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results["functional application in"]["description"] = cell(datasheet, 40, 6, 28)
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results["functional application in"]["grammage"] = cell(datasheet, 41, 6, 29)
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results["functional application in"]["thickness"] = cell(datasheet, 42, 6, 30)
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results["functional application in"]["related area"] = cell(datasheet, 43, 6, 31)
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results["functional application mid"]["description"] = cell(datasheet, 46, 6, 32)
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results["functional application mid"]["grammage"] = cell(datasheet, 47, 6, 33)
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results["functional application mid"]["thickness"] = cell(datasheet, 48, 6, 34)
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results["functional application mid"]["related area"] = cell(datasheet, 49, 6, 35)
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results["functional application mid"]["overall grammage"] = cell(datasheet, 51, 6, 36)
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results["functional application mid"]["overall thickness"] = cell(datasheet, 52, 6, 37)
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results["functional application mid"]["additional specs"] = cell(datasheet, 53, 6, 38)
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results["printing"]["type description"] = cell(datasheet, 56, 6, 39)
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results["printing"]["weight"] = cell(datasheet, 57, 6, 40)
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results["printing"]["printing area"] = cell(datasheet, 58, 6, 41)
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results["varnish"]["type description"] = cell(datasheet, 61, 6, 42)
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results["varnish"]["weight"] = cell(datasheet, 62, 6, 43)
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results["varnish"]["varnish area"] = cell(datasheet, 63, 6, 44)
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results["glue"]["type description"] = cell(datasheet, 66, 6, 45)
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results["glue"]["use description"] = cell(datasheet, 67, 6, 46)
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results["glue"]["weight"] = cell(datasheet, 68, 6, 47)
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results["sealing"]["type description"] = cell(datasheet, 71, 6, 48)
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results["sealing"]["weight"] = cell(datasheet, 72, 6, 49)
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results["sealing"]["sealing"] = cell(datasheet, 73, 6, 50)
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results["non paper based"]["description"] = cell(datasheet, 76, 6, 51)
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results["non paper based"]["weight"] = cell(datasheet, 77, 6, 52)
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results["non paper based"]["removability"] = cell(datasheet, 78, 6, 53)
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results["other remarks"]["other remarks"] = cell(datasheet, 81, 6, 54)
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results["date of production"]["date of production"] = cell(datasheet, 84, 6, 55)
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results["barrier perfomance out"]["otr"] = cell(datasheet, 87, 6, 56)
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results["barrier perfomance out"]["wvtr"] = cell(datasheet, 88, 6, 57)
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results["barrier perfomance out"]["grease/oil/fat"] = cell(datasheet, 89, 6, 58)
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results["barrier perfomance out"]["mosh/moah"] = cell(datasheet, 90, 6, 59)
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results["barrier perfomance out"]["water barrier"] = cell(datasheet, 91, 6, 60)
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results["barrier perfomance out"]["nature of coating"] = cell(datasheet, 92, 6, 61)
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results["barrier perfomance in"]["otr"] = cell(datasheet, 95, 6, 62)
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results["barrier perfomance in"]["wvtr"] = cell(datasheet, 96, 6, 63)
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results["barrier perfomance in"]["grease/oil/fat"] = cell(datasheet, 97, 6, 64)
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results["barrier perfomance in"]["mosh/moah"] = cell(datasheet, 98, 6, 65)
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results["barrier perfomance in"]["water barrier"] = cell(datasheet, 99, 6, 66)
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results["barrier perfomance in"]["nature of coating"] = cell(datasheet, 100, 6, 67)
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results["compostability and biodegradability"]["compost"] = cell(datasheet, 103, 6, 68)
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results["compostability and biodegradability"]["home compost"] = cell(datasheet, 104, 6, 69)
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results["compostability and biodegradability"]["biodeg aqua"] = cell(datasheet, 105, 6, 70)
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results["compostability and biodegradability"]["biodeg soil"] = cell(datasheet, 106, 6, 71)
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def cell(worksheet, row, column, index):
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return str(worksheet.cell(row=row + k[index], column=column + m[index]).value)
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def versioncheck(workbook):
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ubersicht = workbook["Übersicht"]
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columnb = []
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for cell in ubersicht["B"]:
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columnb.append(cell.value)
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#clean list
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version = []
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for i in columnb:
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if i is not None:
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version.append(i)
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return version[-1]
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results = {}
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if filepath.endswith('.xlsx'): # sicherstellen, dass es sich um eine Excel-Datei handelt
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#load Excelfile from path
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workbook = load_workbook(filepath, data_only=True)
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#lil thingi so it doesn't crash
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if "Übersicht" in workbook.sheetnames and "Nasslaborteil" in workbook.sheetnames and "Blattklebetest" in workbook.sheetnames and "visuelle Beurteilung" in workbook.sheetnames:
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print(filepath + " vollständig")
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else:
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#avoid crashing due to wrong .xlsx
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return results
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version = versioncheck(workbook)
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print(version)
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max_index = 126
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k = []
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m = []
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def shift_ars2(k,m):
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m[62] = 10
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m[63] = 10
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m[64] = 10
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m[65] = -1
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m[66] = -1
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m[67] = -1
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m[68] = 10
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m[69] = 10
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m[69] = 10
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2024-04-20 06:36:44 +00:00
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2024-04-09 12:30:03 +00:00
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def shift_pH_lf(k,m):
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m[71] = 10
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m[72] = 10
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m[73] = 10
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m[74] = 10
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#corrects the k and m lists so it matches the bkt and vb of the cepi sheets < V22.8
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def correct_bkt_vb_old(k,m):
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for i in range(107, 113):
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k.append(0)
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m.append(0)
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k[108] = 5
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k[111] = 5
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k[109] = 5
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k[112] = 5
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for i in range(113, 119):
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k.append(5)
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m.append(0)
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k[114] = 10
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k[115] = 10
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k[117] = 10
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k[118] = 10
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#vb
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for i in range(119, max_index+1):
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k.append(0)
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m.append(0)
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k[120] = -4
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2024-04-20 06:36:44 +00:00
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k[122] = -4
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2024-04-09 12:30:03 +00:00
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k[123] = -1
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k[125] = -1
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k[124] = -5
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k[126] = -5
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m[121] = -1
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m[122] = -1
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m[125] = -1
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m[126] = -1
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2024-04-20 06:36:44 +00:00
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2024-04-09 12:30:03 +00:00
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if version == "V22.1" or version == "V22.2" or version == "V22.3":
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for i in range(0, 62):
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#normal till ARS 2
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k.append(0)
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m.append(0)
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for i in range (62, 75):
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#shift ARS 2 to 4 to the side so it gets blank
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k.append(0)
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m.append(50)
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for i in range(75, 93):
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k.append(-3)
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m.append(0)
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for i in range(93, 96):
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k.append(-1)
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m.append(0)
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for i in range(96, 107):
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k.append(-2)
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m.append(0)
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correct_bkt_vb_old(k,m)
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#verified
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elif version == "V22.6":
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for i in range(0, 75):
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k.append(0)
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m.append(0)
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shift_ars2(k,m)
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shift_pH_lf(k,m)
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2024-04-20 06:36:44 +00:00
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2024-04-09 12:30:03 +00:00
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for i in range(75,93):
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k.append(-4)
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m.append(0)
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2024-04-20 06:36:44 +00:00
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2024-04-09 12:30:03 +00:00
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for i in range(93,107):
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k.append(-2)
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m.append(0)
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correct_bkt_vb_old(k,m)
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#verified
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2024-04-20 06:36:44 +00:00
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2024-04-09 12:30:03 +00:00
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elif version == "V22.7":
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for i in range(0, 107):
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k.append(0)
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m.append(0)
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for i in range(75, 93):
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k[i] = -2
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m[62] = 10
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m[63] = 10
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m[64] = 10
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m[65] = -1
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m[66] = -1
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m[67] = -1
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correct_bkt_vb_old(k,m)
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#verfied
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elif version == "V22.8" or version == "V22.9":
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for i in range(0, max_index+1):
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k.append(0)
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m.append(0)
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#shift ARS
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m[62] = 10
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m[63] = 10
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m[64] = 10
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m[65] = -1
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m[66] = -1
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m[67] = -1
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for i in range(75, 93):
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k[i] = -2
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#verified
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elif version =="V23.02" or version == "V23.04" or version == "V23.05":
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for i in range(0, max_index+1):
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k.append(0)
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m.append(0)
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for i in range(75, 93):
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k[i] = -1
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for i in range(71, 75):
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k[i] = 1
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for i in range(93, 107):
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k[i] = 1
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m[73] = 1
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m[74] = 1
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#verified
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2024-04-20 08:28:45 +00:00
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elif version == "V23.07":
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print("23.07 needs extra testing")
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return results
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2024-04-20 06:36:44 +00:00
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#If version not supported
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else:
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2024-04-09 12:30:03 +00:00
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version = ""
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print("Version nicht unterstützt")
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return results
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2024-04-20 06:36:44 +00:00
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2024-04-09 12:30:03 +00:00
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#load all sheets
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ubersicht = workbook["Übersicht"]
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nasslabor = workbook["Nasslaborteil"]
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blattklebetest = workbook["Blattklebetest"]
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visual = workbook["visuelle Beurteilung"]
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#create keys
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results["version"] = {}
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results["übersicht"] = {}
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results["nasslaborteil"] = {}
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results["nasslaborteil_grob"] = {}
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results["nasslaborteil_fein"] = {}
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results["blattklebetest"] = {}
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results["visuelle beurteilung"] = {}
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#start the read
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results["version"]["version"] = version
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#first page
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results["übersicht"]["probeneingang_datum"] = cell(ubersicht, 3, 3, 0)
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results["übersicht"]["probeneingang_name"] = cell(ubersicht, 3, 4, 1)
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results["übersicht"]["probenvorbereitung_datum"] = cell(ubersicht, 4, 3, 2)
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results["übersicht"]["probenvorbereitung_name"] = cell(ubersicht, 4, 4, 3)
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results["übersicht"]["probenuntersuchung_datum"] = cell(ubersicht, 6, 3, 4)
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results["übersicht"]["probenuntersuchung_name"] = cell(ubersicht, 6, 4, 5)
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results["übersicht"]["auftrag"] = cell(ubersicht, 8, 3, 6)
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results["übersicht"]["labornummer"] = cell(ubersicht, 7, 3, 7)
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results["übersicht"]["firma"] = cell(ubersicht, 9, 3, 8)
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prob_nr = ubersicht.cell(row=10, column=3).value
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prob_bez = ubersicht.cell(row=10, column=4).value
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2024-04-20 06:36:44 +00:00
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if prob_nr == None:
|
2024-04-09 12:30:03 +00:00
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prob_nr = " "
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if prob_bez == None:
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prob_bez = " "
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results["übersicht"]["bezeichnung"] = prob_nr + " | " + prob_bez
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#second page
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results["nasslaborteil"]["bestandteil_1"] = cell(nasslabor, 15, 2, 10)
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results["nasslaborteil"]["bestandteil_2"] = cell(nasslabor, 16, 2, 11)
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results["nasslaborteil"]["bestandteil_3"] = cell(nasslabor, 17, 2, 12)
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results["nasslaborteil"]["bestandteil_4"] = cell(nasslabor, 18, 2, 13)
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results["nasslaborteil"]["bestandteil_5"] = cell(nasslabor, 19, 2, 14)
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results["nasslaborteil"]["bestandteil_6"] = cell(nasslabor, 20, 2, 15)
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results["nasslaborteil"]["bestandteil_7"] = cell(nasslabor, 21, 2, 16)
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results["nasslaborteil"]["bestandteil_8"] = cell(nasslabor, 22, 2, 17)
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#nicht schön aber selten
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results["nasslaborteil"]["masse_1"] = cell(nasslabor, 15, 4, 18)
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results["nasslaborteil"]["masse_2"] = cell(nasslabor, 16, 4, 19)
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results["nasslaborteil"]["masse_3"] = cell(nasslabor, 17, 4, 20)
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results["nasslaborteil"]["masse_4"] = cell(nasslabor, 18, 4, 21)
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results["nasslaborteil"]["masse_5"] = cell(nasslabor, 19, 4, 22)
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results["nasslaborteil"]["masse_6"] = cell(nasslabor, 20, 4, 23)
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results["nasslaborteil"]["masse_7"] = cell(nasslabor, 21, 4, 24)
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results["nasslaborteil"]["masse_8"] = cell(nasslabor, 22, 4, 25)
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results["nasslaborteil"]["trocken_entfernt_1"] = cell(nasslabor, 15, 6, 26)
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results["nasslaborteil"]["trocken_entfernt_2"] = cell(nasslabor, 16, 6, 27)
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results["nasslaborteil"]["trocken_entfernt_3"] = cell(nasslabor, 17, 6, 28)
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results["nasslaborteil"]["trocken_entfernt_4"] = cell(nasslabor, 18, 6, 29)
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results["nasslaborteil"]["trocken_entfernt_5"] = cell(nasslabor, 19, 6, 30)
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results["nasslaborteil"]["trocken_entfernt_6"] = cell(nasslabor, 20, 6, 31)
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results["nasslaborteil"]["trocken_entfernt_7"] = cell(nasslabor, 21, 6, 32)
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results["nasslaborteil"]["trocken_entfernt_8"] = cell(nasslabor, 22, 6, 33)
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results["nasslaborteil"]["tg_1_1"] = cell(nasslabor, 29, 3, 34)
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results["nasslaborteil"]["tg_1_2"] = cell(nasslabor, 30, 3, 35)
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results["nasslaborteil"]["tg_1_3"] = cell(nasslabor, 31, 3, 36)
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results["nasslaborteil"]["tg_1_4"] = cell(nasslabor, 32, 3, 37)
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results["nasslaborteil"]["tg_1_5"] = cell(nasslabor, 33, 3, 38)
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results["nasslaborteil"]["tg_1_6"] = cell(nasslabor, 34, 3, 39)
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results["nasslaborteil"]["tg_1_7"] = cell(nasslabor, 35, 3, 40)
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results["nasslaborteil"]["tg_1_8"] = cell(nasslabor, 36, 3, 41)
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results["nasslaborteil"]["tg_2_1"] = cell(nasslabor, 29, 4, 42)
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results["nasslaborteil"]["tg_2_2"] = cell(nasslabor, 30, 4, 43)
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results["nasslaborteil"]["tg_2_3"] = cell(nasslabor, 31, 4, 44)
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results["nasslaborteil"]["tg_2_4"] = cell(nasslabor, 32, 4, 45)
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results["nasslaborteil"]["tg_2_5"] = cell(nasslabor, 33, 4, 46)
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results["nasslaborteil"]["tg_2_6"] = cell(nasslabor, 34, 4, 47)
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results["nasslaborteil"]["tg_2_7"] = cell(nasslabor, 35, 4, 48)
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results["nasslaborteil"]["tg_2_8"] = cell(nasslabor, 36, 4, 49)
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results["nasslaborteil"]["einwaage"] = cell(nasslabor, 23, 8, 50)
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results["nasslaborteil"]["gerätetyp"] = cell(nasslabor, 41, 3, 51)
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results["nasslaborteil"]["labor"] = cell(nasslabor, 42, 3, 52)
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results["nasslaborteil"]["zerfaserungsdauer"] = cell(nasslabor, 43, 3, 53)
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results["nasslaborteil"]["umdrehungen"] = cell(nasslabor, 44, 3, 54)
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results["nasslaborteil"]["bemerkung"] = cell(nasslabor, 45, 3, 55)
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results["nasslaborteil"]["csb_verdünnung"] = cell(nasslabor, 59, 4, 56)
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results["nasslaborteil"]["csb_messbereich"] = cell(nasslabor, 60, 4, 57)
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results["nasslaborteil"]["csb_messwert"] = cell(nasslabor, 61, 4, 58)
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results["nasslaborteil"]["ars_filtrat1_einwaage"] = cell(nasslabor, 70, 3, 59)
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results["nasslaborteil"]["ars_filtrat1_masse_schale"] = cell(nasslabor, 71, 3, 60)
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results["nasslaborteil"]["ars_filtrat1_auswaage"] = cell(nasslabor, 72, 3, 61)
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results["nasslaborteil"]["ars_filtrat2_einwaage"] = cell(nasslabor, 70, 4, 62)
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results["nasslaborteil"]["ars_filtrat2_masse_schale"] = cell(nasslabor, 71, 4, 63)
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results["nasslaborteil"]["ars_filtrat2_auswaage"] = cell(nasslabor, 72, 4, 64)
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results["nasslaborteil"]["ars_wasser1_einwaage"] = cell(nasslabor, 70, 5, 65)
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results["nasslaborteil"]["ars_wasser1_masse_schale"] = cell(nasslabor, 71, 5, 66)
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results["nasslaborteil"]["ars_wasser1_auswaage"] = cell(nasslabor, 72, 5, 67)
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results["nasslaborteil"]["ars_wasser2_einwaage"] = cell(nasslabor, 70, 6, 68)
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results["nasslaborteil"]["ars_wasser2_masse_schale"] = cell(nasslabor, 71, 6, 69)
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results["nasslaborteil"]["ars_wasser2_auswaage"] = cell(nasslabor, 72, 6, 70)
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results["nasslaborteil"]["ph_filtrat"] = cell(nasslabor, 77, 3, 71)
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results["nasslaborteil"]["lf_filtrat"] = cell(nasslabor, 78, 3, 72)
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results["nasslaborteil"]["ph_wasser"] = cell(nasslabor, 77, 4, 73)
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results["nasslaborteil"]["lf_wasser"] = cell(nasslabor, 78, 4, 74)
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results["nasslaborteil_grob"]["labor"] = cell(nasslabor, 87, 3, 75)
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results["nasslaborteil_grob"]["reject_filtergewicht_grob"] = cell(nasslabor, 99, 3, 76)
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results["nasslaborteil_grob"]["reject_auswaage_grob"] = cell(nasslabor, 100, 3, 77)
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results["nasslaborteil_grob"]["faser-stippen-rückstand"] = cell(nasslabor, 108, 3, 78)
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results["nasslaborteil_grob"]["faser-stippen-rückstand_art-größe"] = cell(nasslabor, 109, 3, 79)
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results["nasslaborteil_grob"]["papierfremde-bestandteile"] = cell(nasslabor, 111, 3, 80)
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results["nasslaborteil_grob"]["papierfremde-art-größe"] = cell(nasslabor, 112, 3, 81)
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results["nasslaborteil_grob"]["papierfremde-zerkleinerung"] = cell(nasslabor, 113, 3, 82)
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results["nasslaborteil_grob"]["papierfremde-material"] = cell(nasslabor, 114, 3, 83)
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results["nasslaborteil_grob"]["sd_filterblatt"] = cell(nasslabor, 117, 3, 84)
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results["nasslaborteil_grob"]["sd_einwaage"] = cell(nasslabor, 118, 3, 85)
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results["nasslaborteil_grob"]["sd_auswaage"] = cell(nasslabor, 119, 3, 86)
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results["nasslaborteil_grob"]["sd_auswaage_ts"] = cell(nasslabor, 126, 3, 87)
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results["nasslaborteil_grob"]["volumen_ac1"] = cell(nasslabor, 131, 3, 88)
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results["nasslaborteil_grob"]["grammatur_ac1"] = cell(nasslabor, 131, 4, 89)
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results["nasslaborteil_grob"]["grammatur_ac2"] = cell(nasslabor, 132, 4, 90)
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results["nasslaborteil_grob"]["grammatur_ac3"] = cell(nasslabor, 133, 4, 91)
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results["nasslaborteil_grob"]["grammatur_ac4"] = cell(nasslabor, 134, 4, 92)
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results["nasslaborteil_fein"]["labor"] = cell(nasslabor, 143, 3, 93)
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results["nasslaborteil_fein"]["reject_filtergewicht_fein"] = cell(nasslabor, 155, 3, 94)
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results["nasslaborteil_fein"]["reject_auswaage_fein"] = cell(nasslabor, 156, 3, 95)
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results["nasslaborteil_fein"]["faser-stippen-rückstand"] = cell(nasslabor, 163, 3, 96)
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results["nasslaborteil_fein"]["faser-stippen-rückstand_art-größe"] = cell(nasslabor, 164, 3, 97)
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results["nasslaborteil_fein"]["papierfremde-bestandteile"] = cell(nasslabor, 166, 3, 98)
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results["nasslaborteil_fein"]["papierfremde-art-größe"] = cell(nasslabor, 167, 3, 99)
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results["nasslaborteil_fein"]["papierfremde-zerkleinerung"] = cell(nasslabor, 168, 3, 100)
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results["nasslaborteil_fein"]["papierfremde-material"] = cell(nasslabor, 169, 3, 101)
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results["nasslaborteil_fein"]["volumen_af1"] = cell(nasslabor, 172, 3, 102)
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results["nasslaborteil_fein"]["grammatur_af1"] = cell(nasslabor, 172, 4, 103)
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results["nasslaborteil_fein"]["grammatur_af2"] = cell(nasslabor, 173, 4, 104)
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results["nasslaborteil_fein"]["grammatur_af3"] = cell(nasslabor, 174, 4, 105)
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results["nasslaborteil_fein"]["grammatur_af4"] = cell(nasslabor, 175, 4, 106)
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results["blattklebetest"]["bewertung_grob_1_prüfer"] = cell(blattklebetest, 11, 3, 107)
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|
results["blattklebetest"]["bewertung_grob_1_bewertung"] = cell(blattklebetest, 17, 3, 108)
|
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|
results["blattklebetest"]["bewertung_grob_1_bemerkung"] = cell(blattklebetest, 18, 3, 109)
|
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|
results["blattklebetest"]["bewertung_grob_ges_prüfer"] = cell(blattklebetest, 11, 5, 110)
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results["blattklebetest"]["bewertung_grob_ges_bewertung"] = cell(blattklebetest, 17, 5, 111)
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results["blattklebetest"]["bewertung_grob_ges_bemerkung"] = cell(blattklebetest, 18, 5, 112)
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|
results["blattklebetest"]["bewertung_fein_1_prüfer"] = cell(blattklebetest, 21, 3, 113)
|
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|
results["blattklebetest"]["bewertung_fein_1_bewertung"] = cell(blattklebetest, 27, 3, 114)
|
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|
results["blattklebetest"]["bewertung_fein_1_bemerkung"] = cell(blattklebetest, 28, 3, 115)
|
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|
results["blattklebetest"]["bewertung_fein_ges_prüfer"] = cell(blattklebetest, 21, 5, 116)
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|
results["blattklebetest"]["bewertung_fein_ges_bewertung"] = cell(blattklebetest, 27, 5, 117)
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|
results["blattklebetest"]["bewertung_fein_ges_bemerkung"] = cell(blattklebetest, 28, 5, 118)
|
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|
results["visuelle beurteilung"]["bewertung_grob_1_prüfer"] = cell(visual, 11, 3, 119)
|
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|
results["visuelle beurteilung"]["bewertung_grob_1_bewertung"] = cell(visual, 20, 3, 120)
|
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|
results["visuelle beurteilung"]["bewertung_grob_ges_prüfer"] = cell(visual, 11, 6, 121)
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|
results["visuelle beurteilung"]["bewertung_grob_ges_bewertung"] = cell(visual, 20, 6, 122)
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|
results["visuelle beurteilung"]["bewertung_fein_1_prüfer"] = cell(visual, 23, 3, 123)
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|
results["visuelle beurteilung"]["bewertung_fein_1_bewertung"] = cell(visual, 32, 3, 124)
|
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|
|
results["visuelle beurteilung"]["bewertung_fein_ges_prüfer"] = cell(visual, 23, 6, 125)
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|
|
results["visuelle beurteilung"]["bewertung_fein_ges_bewertung"] = cell(visual, 32, 6, 126)
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|
|
#insert dummy values for pH & lf for older versions
|
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|
|
if version == "V22.1" or version == "V22.2" or version == "V22.3" or version == "V22.6":
|
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|
|
results["nasslaborteil"]["ph_filtrat"] = 0
|
|
|
|
results["nasslaborteil"]["lf_filtrat"] = 0
|
|
|
|
results["nasslaborteil"]["ph_wasser"] = 0
|
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|
|
results["nasslaborteil"]["lf_wasser"] = 0
|
|
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|
|
#TODO csb dummy value ergänzen
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|
|
if workbook["Data sheet"]:
|
|
|
|
#only uncommend for testing reasons or if it got implemented into the database
|
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|
|
read_datasheet(workbook)
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|
|
return results
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|
|
def read_all(path):
|
|
|
|
data = []
|
|
|
|
for filename in os.listdir(path):
|
|
|
|
data.append(read(path+filename))
|
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|
|
return data
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|
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|
|
def sheet_test(path):
|
|
|
|
list = read(path)
|
|
|
|
for value in list["übersicht"].values():
|
|
|
|
if value != "true":
|
|
|
|
print("Error Übersicht!")
|
|
|
|
for value in list["nasslaborteil"].values():
|
|
|
|
if value != "true":
|
|
|
|
print("Error Nasslaborteil!")
|
|
|
|
for value in list["nasslaborteil_grob"].values():
|
|
|
|
if value != "true":
|
|
|
|
print("Error Nasslaborteil_grob!")
|
|
|
|
for value in list["nasslaborteil_fein"].values():
|
|
|
|
if value != "true":
|
|
|
|
print("Error Nasslaborteil_fein!")
|
|
|
|
for value in list["blattklebetest"].values():
|
|
|
|
if value != "true":
|
|
|
|
print("Error BKT!")
|
|
|
|
for value in list["visuelle beurteilung"].values():
|
|
|
|
if value != "true":
|
|
|
|
print("Error VB!")
|
|
|
|
|
|
|
|
x = input("Full output? J/N: ")
|
|
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|
|
if x == "J" or x == "j":
|
|
|
|
print(list)
|
|
|
|
else:
|
|
|
|
print("ok.")
|
2024-04-20 06:36:44 +00:00
|
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|
|
2024-04-09 12:30:03 +00:00
|
|
|
|
|
|
|
if __name__ == "__main__":
|
|
|
|
print(read("C:/Users/T.Priebe/Documents/3/ExcelCepi/examples/CEPI-method_Laufzettel_Part I_V23.07.xlsx"))
|