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prpr_human.py
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prpr_human.py
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#!/usr/bin/env python3
# prpr_human.py, a part of PR-PR (previously known as PaR-PaR), a biology-friendly language for liquid-handling robots
# Author: Nina Stawski, [email protected], [email protected]
# Copyright 2012-2013, Lawrence Berkeley National Laboratory
# http://github.com/JBEI/prpr/blob/master/license.txt
__author__ = 'Nina Stawski'
__version__ = '1.1'
import os
from prpr import *
class PRPR:
wash = 'Wash or change the tips.'
dictionary = {
'en' : {
'transfer' : 'transfer',
'of' : 'of',
'from' : 'from',
'well' : 'well',
'tube' : 'tube',
'to' : 'to',
'mix' : 'mix',
'in' : 'in',
'wait' : 'wait',
'seconds' : 'seconds',
'transfer method descriptions' : 'transfer method descriptions'
},
'ru' : {
'transfer' : 'перенести',
'of' : '',
'from' : 'из',
'well' : 'лунка',
'tube' : 'пробирка',
'to' : 'в',
'mix' : 'перемешать',
'in' : 'в',
'wait' : 'подождать',
'seconds' : 'секунд',
'transfer method descriptions' : 'описание способов переноса'
}
}
defaultMethodDescriptions = {
'en' : {
'LC_W_Bot_Bot' : {
'short': 'bottom to bottom',
'long': 'Aspirate from bottom of the source well, dispense to the bottom of the destination well.'
},
'LC_W_Bot_Air' : {
'short': 'bottom to air',
'long': 'Aspirate from bottom of the source well, dispense from above the liquid level to the destination well.'
},
'LC_W_Bot_Lev' : {
'short': 'bottom to level',
'long': 'Aspirate from bottom of the source well, dispense at the liquid level of the destination well.'
},
'LC_W_Lev_Bot' : {
'short': 'level to bottom',
'long': 'Aspirate from the liquid level of the source well, dispense to the bottom of the destination well.'
},
'LC_W_Lev_Air' : {
'short': 'level to air',
'long': 'Aspirate from the liquid level of the source well, dispense from above the liquid level to the destination well.'
},
'LC_W_Lev_Lev' : {
'short': 'level to level',
'long': 'Aspirate from the liquid level of the source well, dispense at the liquid level of the destination well.'
}
},
'ru' : {
'LC_W_Bot_Bot' : {
'short': 'со дна на дно',
'long': 'Забрать реагент со дна исходной лунки, внести его на дно в лунке назначения'
},
'LC_W_Bot_Air' : {
'short': 'со дна над уровнем',
'long': 'Забрать реагент со дна исходной лунки, внести его над уровнем реагента в лунке назначения'
},
'LC_W_Bot_Lev' : {
'short': 'со дна на уровень',
'long': 'Забрать реагент со дна исходной лунки, внести его на уровне реагента в лунке назначения'
},
'LC_W_Lev_Bot' : {
'short': 'с уровня на дно',
'long': 'Забрать реагент с уровня реагента в исходной лунке, внести его на дно в лунке назначения'
},
'LC_W_Lev_Air' : {
'short': 'с уровня над уровнем',
'long': 'Забрать реагент с уровня реагента в исходной лунке, внести его над уровнем реагента в лунке назначения'
},
'LC_W_Lev_Lev' : {
'short': 'с уровня на уровень',
'long': 'Забрать реагент с уровня реагента в исходной лунке, внести его на уровне реагента в лунке назначения'
}
}
}
def __init__(self, ID):
self.expID = ID
self.usedMethods = []
db = DatabaseHandler(ID)
self.language = db.language
self.transfers = db.transfers
self.logger = []
self.robotConfig = []
self.transactions = []
self.volumesList = []
self.createTransfer()
#self.addWash()
self.addMethodDescriptions()
self.saveLog()
self.saveConfig()
def addMethodDescriptions(self):
info = [self.dictionary[self.language]['transfer method descriptions'].capitalize() + ':', '']
for method in self.usedMethods:
info.append(self.defaultMethodDescriptions[self.language][method]['short'].capitalize() + ': ' + self.defaultMethodDescriptions[self.language][method]['long'])
info.append('')
self.robotConfig = info + self.robotConfig
def createTransfer(self):
allTransfers = self.transfers
print('allTransfers', allTransfers)
for transfer in allTransfers:
print('transffffferrrr', transfer)
trType = transfer['type']
els = transfer['info']
if trType == 'transfer':
self.constructTransaction(els)
elif trType == 'command':
self.parseCommand(els)
def checkIfWellsAreConsequent(self, well1Info, well2Info):
if well1Info['plate'] == well2Info['plate']:
well1 = well1Info['well']
well2 = well2Info['well']
if int(well1[1]) == int(well2[1]):
if int(well1[0]) == (int(well2[0]) - 1):
return True
return False
def config(self, line):
self.robotConfig.append(line)
def addWash(self):
if not len(self.robotConfig):
self.config(self.wash)
else:
if not self.robotConfig[-1].startswith('Wash'):
self.config(self.wash)
def saveConfig(self):
def writeLines(file):
for line in self.robotConfig:
file.write(line.rstrip() + '\r\n')
fileName = ''
for key in defaults.fileExtensions:
file_ = 'esc' + os.sep + 'config' + self.expID + '.' + defaults.fileExtensions[key]
fileName = file_
with open(fileName, 'a', encoding='utf8') as myfile:
writeLines(myfile)
def log(self, item):
from datetime import datetime
time = str(datetime.now())
self.logger.append(time + ': ' + item)
def saveLog(self):
logname = 'logs/experiment' + self.expID + '.log'
self.log('Translation log location: ' + logname)
writefile = open(logname, "a")
writefile.writelines( "%s\n" % item for item in self.logger )
print('Translation log location: ' + logname)
def message(self, message):
self.addWash()
command = '# ' + message
self.config(command)
def comment(self, comment):
command = '# ' + comment
self.config(command)
def getLetterForWell(self, wellInfo):
well = eval(wellInfo)
alphabet = 'ABCDEFGHJKLMNOPQRSTUVWXYZ'
wellLetter = alphabet[well[0]-1]
wellString = wellLetter + str(well[1])
return wellString
def getNumberForTube(self, wellInfo):
well = eval(wellInfo)
return str(well[1])
def constructTransaction(self, transferList):
"""
Creating the aspirate / dispense strings from the list of transfers
"""
for tr in transferList:
print('tr________________________', tr)
volume = tr['volume']
method = tr['method']
if method not in self.usedMethods:
self.usedMethods.append(method)
if tr['source']['plateName'] == 'Tubes':
sourceLocation = ' (' + self.dictionary[self.language]['tube'] + ' ' + self.getNumberForTube(tr['source']['well']) + ') '
else:
sourceLocation = ' (' + tr['source']['plateName'] + ' ' + self.dictionary[self.language]['well'] + ' ' + self.getLetterForWell(tr['source']['well']) + ') '
if tr['destination']['plateName'] == 'Tubes':
destinationLocation = ' (' + self.dictionary[self.language]['tube'] + ' ' + self.getNumberForTube(tr['destination']['well']) + ')'
else:
destinationLocation = ' (' + tr['destination']['plateName'] + ' ' + self.dictionary[self.language]['well'] + ' ' + self.getLetterForWell(tr['destination']['well']) + ')'
transfer = self.dictionary[self.language]['transfer'].capitalize() + ' ' + volume + ' uL ' + self.dictionary[self.language]['of'] + ' "' + tr['source']['componentName'] + '" ' + self.dictionary[self.language]['from'] + sourceLocation + self.dictionary[self.language]['to'] + destinationLocation + ': ' + self.defaultMethodDescriptions[self.language][method]['short']
self.config(transfer)
def parseCommand(self, transferList):
tr = transferList
trList = []
for option in tr:
if option['command'] == 'mix':
wellInfo = option['target']
componentName = ''
if ':' not in wellInfo['componentName']:
componentName = ' "' + wellInfo['componentName'] + '" ' + self.dictionary[self.language]['in']
if wellInfo['plateName'] == 'Tubes':
mixLocation = ' (' + self.dictionary[self.language]['tube'] + ' ' + self.getNumberForTube(wellInfo['well']) + ') '
else:
mixLocation = ' (' + wellInfo['plateName'] + ' ' + self.dictionary[self.language]['well'] + ' ' + self.getLetterForWell(wellInfo['well']) + ') '
mix = self.dictionary[self.language]['mix'].capitalize() + componentName + mixLocation
self.config(mix)
elif (option['command'] == 'message') or (option['command'] == 'comment'):
if option['message']:
if option['message'] != '$':
if len(self.robotConfig) and self.robotConfig[-1] != '':
self.config('')
self.config('# ' + option['message'])
if len(self.robotConfig) and self.robotConfig[-1] != '':
self.config('')
else:
self.config('')
elif option['command'] == 'wait':
if option['wait']:
if len(self.robotConfig) and self.robotConfig[-1] != '':
self.config('')
self.config(self.dictionary[self.language]['wait'].capitalize() + ' ' + str(int(option['wait'])*0.001) + ' ' + self.dictionary[self.language]['seconds'] + '.')
if len(self.robotConfig) and self.robotConfig[-1] != '':
self.config('')
self.transactions.append(trList)
def parseLocation(self, location):
"""
Parses the given location, i.e. PL3:A1+4 to individual wells
"""
def ParseWells(wells, plateDimensions):
wellsLargeList = wells.split(',')
wellsNewlist = []
for well in wellsLargeList:
wellsList = well.split('+')
direction = 'vertical'
if '-' in well:
wellsList = well.split('-')
direction = 'horizontal'
elif '~' in well:
tempWellsList = well.split('~')
startWellCoords = GetWellCoordinates(tempWellsList[0], plateDimensions, str(location))
endWellCoords = GetWellCoordinates(tempWellsList[1], plateDimensions, str(location))
wellsAmount = (endWellCoords[0] - startWellCoords[0]) * plateDimensions[0] + endWellCoords[1] - startWellCoords[1] + 1
wellsList = (tempWellsList[0], wellsAmount)
direction = 'vertical'
if wellsList[0]:
startWell = wellsList[0]
rowsMax = plateDimensions[0]
colsMax = plateDimensions[1]
if len(wellsList) == 2:
assert (wellsList[1] != ''), "Well number after '+' can't be empty."
numberWells = int(wellsList[1])
startCoords = GetWellCoordinates(startWell, plateDimensions, str(location))
for i in range(0, numberWells):
addedWells = WellsRename(startCoords, i, plateDimensions, direction)
assert(addedWells[1] <= colsMax), 'Wells locations are out of range'
wellsNewlist.append(addedWells)
elif len(wellsList) == 1:
wellsNewlist.append(GetWellCoordinates(wellsList[0], plateDimensions, str(location)))
else:
self.errorLog('Error. Can\'t be more than one \'+\'. Correct syntax in ' + str(location) + ' and run again. \n')
else:
self.errorLog('Error. Well can\'t be empty in locaton "' + str(location) + '"')
return wellsNewlist
def WellsRename(startCoords, i, plateDimensions, direction):
rowsMax = plateDimensions[0]
colsMax = plateDimensions[1]
currentNum = startCoords[0] + i
if direction == 'vertical':
if currentNum <= rowsMax:
newCol = startCoords[1]
return currentNum, newCol
elif currentNum > rowsMax:
times = int(currentNum / rowsMax)
newCol = startCoords[1] + times
newRow = currentNum - (times * rowsMax)
if newRow == 0:
return newRow + rowsMax, newCol - 1
else:
return newRow, newCol
if direction == 'horizontal':
if currentNum <= colsMax:
newRow = startCoords[1]
return newRow, currentNum
elif currentNum > colsMax:
times = int(currentNum / colsMax)
newRow = startCoords[1] + times
newCol = currentNum - (times * colsMax)
if newCol == 0:
return newRow - 1, newCol + colsMax
else:
return newRow, newCol
def GetWellCoordinates(well, plateDimensions, location):
"""
Takes the well coordinates entered by the user and dimensions of the plate and returns the wells plate coordinates
"""
if well:
rowsMax = plateDimensions[0]
colsMax = plateDimensions[1]
try:
int(well)
well = int(well)
if well > rowsMax * colsMax:
self.errorLog('Error. Well "' + str(well) + '" in location "' + location + '" is out of range')
else:
if well <= rowsMax:
newCol = 1
newRow = well
else:
times = int(well / rowsMax)
newCol = times + 1
newRow = well - (times * rowsMax)
if newRow == 0:
return newRow + rowsMax, newCol - 1
else:
return newRow, newCol
except ValueError:
alphabet = 'ABCDEFGHJKLMNOPQRSTUVWXYZ'
letterIndex = alphabet.find(well[:1]) + 1
if letterIndex > rowsMax:
self.errorLog('Error. Well "' + well + '" letter coordinate in location "' + location + '" is out of range')
elif int(well[1:]) > colsMax:
self.errorLog('Error. Well "' + well + '" number coordinate in location "' + location + '" is out of range')
else:
return letterIndex, int(well[1:])
else:
self.errorLog('Error. No well defined in location "' + location + '"')
loc = []
if '/' in location:
newLoc = location.split('/')
else:
newLoc = [location]
for line in newLoc:
if ':' in location:
plateAndWells = line.split(':')
if plateAndWells[0]:
if plateAndWells[0] in self.plates:
plateName = self.plates[plateAndWells[0]].name
plateDms = self.plates[plateAndWells[0]].dimensions
plateLocation = self.plates[plateAndWells[0]].location
if plateAndWells[1]:
wells = ParseWells(plateAndWells[1], plateDms)
for well in wells:
if (plateName, location) in filter(lambda x: (x.plate, x.location), self.wells):
print('aiaiaiaiaiaiaiai!!!!')
w = Well({'Plate': plateName, 'Location': well}) #todo: append well only if there are no same wells registered; otherwise error
loc.append(w)
self.wells.append(w)
else:
self.errorLog('Error. No such plate in the system "' + str(plateAndWells[0]) + '"')
else:
self.errorLog('Error. No plate in location "' + str(location) + '"')
else:
plate = self.platform
wellLocation = location
w = Well({'Plate' : plate, 'Location' : wellLocation})
self.wells.append(w)
loc.append(w)
return loc
class defaults:
fileExtensions = {'txt' : 'txt'}
if __name__ == '__main__':
prpr = PRPR(310)
print('Config:')
for element in prpr.robotConfig:
print(element)