335 lines
12 KiB
Python
335 lines
12 KiB
Python
#!/usr/bin/env python
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# -*- coding: utf-8 -*-
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"""Top-level package for spicemanip."""
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__author__ = """Sam Zick"""
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__email__ = 'sam@deathbybandaid.net'
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__version__ = '0.1.8'
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import random
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import collections
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# TODO 'this*that' or '1*that' replace either all strings matching, or an index value
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# TODO reverse sort z.sort(reverse = True)
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# list.extend adds lists to eachother
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class Spicemanip():
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def __init__(self):
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pass
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def __call__(self, inputs, outputtask, output_type='default'):
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mainoutputtask, suboutputtask = None, None
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# Input needs to be a list, but don't split a word into letters
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if not inputs:
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inputs = []
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if isinstance(inputs, collections.abc.KeysView):
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inputs = list(inputs)
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elif isinstance(inputs, dict):
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inputs = list(inputs.keys())
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if not isinstance(inputs, list):
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inputs = list(inputs.split(" "))
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inputs = [x for x in inputs if x and x not in ['', ' ']]
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inputs = [inputspart.strip() for inputspart in inputs]
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# Create return
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if outputtask == 'create':
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return inputs
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# Make temparray to preserve original order
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temparray = []
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for inputpart in inputs:
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temparray.append(inputpart)
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inputs = temparray
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# Convert outputtask to standard
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if outputtask in [0, 'complete']:
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outputtask = 'string'
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elif outputtask == 'index':
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mainoutputtask = inputs[1]
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suboutputtask = inputs[2]
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inputs = inputs[0]
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elif str(outputtask).isdigit():
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mainoutputtask, outputtask = int(outputtask), 'number'
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elif "^" in str(outputtask):
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mainoutputtask = str(outputtask).split("^", 1)[0]
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suboutputtask = str(outputtask).split("^", 1)[1]
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outputtask = 'rangebetween'
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if int(suboutputtask) < int(mainoutputtask):
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mainoutputtask, suboutputtask = suboutputtask, mainoutputtask
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elif str(outputtask).startswith("split_"):
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mainoutputtask = str(outputtask).replace("split_", "")
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outputtask = 'split'
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elif str(outputtask).endswith(tuple(["!", "+", "-", "<", ">"])):
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mainoutputtask = str(outputtask)
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if str(outputtask).endswith("!"):
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outputtask = 'exclude'
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if str(outputtask).endswith("+"):
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outputtask = 'incrange_plus'
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if str(outputtask).endswith("-"):
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outputtask = 'incrange_minus'
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if str(outputtask).endswith(">"):
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outputtask = 'excrange_plus'
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if str(outputtask).endswith("<"):
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outputtask = 'excrange_minus'
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for r in (("!", ""), ("+", ""), ("-", ""), ("<", ""), (">", "")):
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mainoutputtask = mainoutputtask.replace(*r)
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if mainoutputtask == 'last':
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mainoutputtask = len(inputs)
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if outputtask == 'string':
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returnvalue = inputs
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else:
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returnvalue = eval(
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'self.' + outputtask +
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'(inputs, outputtask, mainoutputtask, suboutputtask)')
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# default return if not specified
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if output_type == 'default':
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if outputtask in [
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'string', 'number', 'rangebetween', 'exclude', 'random',
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'incrange_plus', 'incrange_minus', 'excrange_plus',
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'excrange_minus'
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]:
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output_type = 'string'
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elif outputtask in ['count']:
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output_type = 'dict'
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# verify output is correct
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if output_type == 'return':
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return returnvalue
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if output_type == 'string':
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if isinstance(returnvalue, list):
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returnvalue = ' '.join(returnvalue)
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elif output_type in ['list', 'array']:
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if not isinstance(returnvalue, list):
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returnvalue = list(returnvalue.split(" "))
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returnvalue = [x for x in returnvalue if x and x not in ['', ' ']]
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returnvalue = [inputspart.strip() for inputspart in returnvalue]
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return returnvalue
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# compare 2 lists, based on the location of an index item, passthrough needs to be [indexitem, arraytoindex, arraytocompare]
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def index(self, indexitem, outputtask, arraytoindex, arraytocompare):
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item = ''
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for x, y in zip(arraytoindex, arraytocompare):
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if x == indexitem:
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item = y
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return item
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# split list by string
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def split(self, inputs, outputtask, mainoutputtask, suboutputtask):
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split_array = []
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restring = ' '.join(inputs)
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if mainoutputtask not in inputs:
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split_array = [restring]
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else:
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split_array = restring.split(mainoutputtask)
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split_array = [x for x in split_array if x and x not in ['', ' ']]
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split_array = [inputspart.strip() for inputspart in split_array]
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if split_array == []:
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split_array = [[]]
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return split_array
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# dedupe list
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def dedupe(self, inputs, outputtask, mainoutputtask, suboutputtask):
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newlist = []
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for inputspart in inputs:
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if inputspart not in newlist:
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newlist.append(inputspart)
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return newlist
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# Sort list
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def sort(self, inputs, outputtask, mainoutputtask, suboutputtask):
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return sorted(inputs)
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# reverse sort list
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def rsort(self, inputs, outputtask, mainoutputtask, suboutputtask):
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return sorted(inputs)[::-1]
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# count items in list, return dictionary
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def count(self, inputs, outputtask, mainoutputtask, suboutputtask):
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returndict = dict()
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if not len(inputs):
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return returndict
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uniqueinputitems, uniquecount = [], []
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for inputspart in inputs:
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if inputspart not in uniqueinputitems:
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uniqueinputitems.append(inputspart)
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for uniqueinputspart in uniqueinputitems:
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count = 0
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for ele in inputs:
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if (ele == uniqueinputspart):
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count += 1
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uniquecount.append(count)
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for inputsitem, unumber in zip(uniqueinputitems, uniquecount):
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returndict[inputsitem] = unumber
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return returndict
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# random item from list
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def random(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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randomselectlist = []
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for temppart in inputs:
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randomselectlist.append(temppart)
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while len(randomselectlist) > 1:
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random.shuffle(randomselectlist)
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randomselect = randomselectlist[random.randint(
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0,
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len(randomselectlist) - 1)]
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randomselectlist.remove(randomselect)
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randomselect = randomselectlist[0]
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return randomselect
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# remove random item from list
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def exrandom(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return []
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randremove = self.random(inputs, outputtask, mainoutputtask, suboutputtask)
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inputs.remove(randremove)
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return inputs
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# Convert list into lowercase
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def lower(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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return [inputspart.lower() for inputspart in inputs]
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# Convert list to uppercase
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def upper(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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return [inputspart.upper() for inputspart in inputs]
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# Convert list to uppercase
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def title(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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return [inputspart.title() for inputspart in inputs]
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# Reverse List Order
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def reverse(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return []
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return inputs[::-1]
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# comma seperated list
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def list(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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return ', '.join(str(x) for x in inputs)
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def list_nospace(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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return ','.join(str(x) for x in inputs)
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# comma seperated list with and
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def andlist(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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if len(inputs) < 2:
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return ' '.join(inputs)
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lastentry = str("and " + str(inputs[len(inputs) - 1]))
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del inputs[-1]
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inputs.append(lastentry)
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if len(inputs) == 2:
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return ' '.join(inputs)
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return ', '.join(str(x) for x in inputs)
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# comma seperated list with or
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def orlist(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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if len(inputs) < 2:
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return ' '.join(inputs)
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lastentry = str("or " + str(inputs[len(inputs) - 1]))
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del inputs[-1]
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inputs.append(lastentry)
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if len(inputs) == 2:
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return ' '.join(inputs)
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return ', '.join(str(x) for x in inputs)
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# exclude number
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def exclude(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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del inputs[int(mainoutputtask) - 1]
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return ' '.join(inputs)
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# Convert list to string
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def string(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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return ' '.join(inputs)
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# Get number item from list
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def number(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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elif int(mainoutputtask) > len(inputs) or int(mainoutputtask) < 0:
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return ''
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else:
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return inputs[int(mainoutputtask) - 1]
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# Get Last item from list
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def last(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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return inputs[len(inputs) - 1]
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# range between items in list
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def rangebetween(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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if not str(mainoutputtask).isdigit() or not str(
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suboutputtask).isdigit():
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return ''
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mainoutputtask, suboutputtask = int(mainoutputtask), int(suboutputtask)
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if suboutputtask == mainoutputtask:
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return self.number(inputs, outputtask, mainoutputtask, suboutputtask)
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if suboutputtask < mainoutputtask:
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return []
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if mainoutputtask < 0:
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mainoutputtask = 1
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if suboutputtask > len(inputs):
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suboutputtask = len(inputs)
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newlist = []
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for i in range(mainoutputtask, suboutputtask + 1):
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newlist.append(
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str(
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self.number(inputs, outputtask, i, suboutputtask)))
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if newlist == []:
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return ''
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return ' '.join(newlist)
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# Forward Range includes index number
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def incrange_plus(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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return self.rangebetween(inputs, outputtask, int(mainoutputtask), len(inputs))
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# Reverse Range includes index number
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def incrange_minus(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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return self.rangebetween(inputs, outputtask, 1, int(mainoutputtask))
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# Forward Range excludes index number
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def excrange_plus(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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return self.rangebetween(inputs, outputtask, int(mainoutputtask) + 1, len(inputs))
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# Reverse Range excludes index number
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def excrange_minus(self, inputs, outputtask, mainoutputtask, suboutputtask):
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if not len(inputs):
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return ''
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return self.rangebetween(inputs, outputtask, 1, int(mainoutputtask) - 1)
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spicemanip = Spicemanip()
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