mirror of
https://github.com/SickGear/SickGear.git
synced 2024-12-18 08:43:37 +00:00
e56303798c
Initial SickGear for Python 3.
327 lines
9.8 KiB
Python
327 lines
9.8 KiB
Python
"""
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The process of translating JS will go like that: # TOP = 'imports and scope set'
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1. Remove all the comments
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2. Replace number, string and regexp literals with markers
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4. Remove global Functions and move their translation to the TOP. Also add register code there.
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5. Replace inline functions with lvals
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6. Remove List and Object literals and replace them with lvals
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7. Find and remove var declarations, generate python register code that would go on TOP.
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Here we should be left with global code only where 1 line of js code = 1 line of python code.
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Routine translating this code should be called glob_translate:
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1. Search for outer structures and translate them using glob and inside using exps_translate
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exps_translate routine:
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1. Remove outer {}
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2. Split lines at ;
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3. Convert line by line using exp_translate
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4. In case of error in 3 try to insert ; according to ECMA rules and repeat 3.
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exp_translate routine:
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It takes a single line of JS code and returns a SINGLE line of Python code.
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Note var is not present here because it was removed in previous stages.
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If case of parsing errors it must return a pos of error.
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1. Convert all assignment operations to put operations, this may be hard :(
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2. Convert all gets and calls to get and callprop.
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3. Convert unary operators like typeof, new, !, delete.
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Delete can be handled by replacing last get method with delete.
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4. Convert remaining operators that are not handled by python eg: === and ,
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lval format PyJsLvalNR
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marker PyJs(TYPE_NAME)(NR)
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TODO
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1. Number literal replacement
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2. Array literal replacement
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3. Object literal replacement
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5. Function replacement
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4. Literal replacement translators
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"""
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from __future__ import print_function
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from utils import *
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OP_METHODS = {
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'*': '__mul__',
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'/': '__div__',
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'%': '__mod__',
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'+': '__add__',
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'-': '__sub__',
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'<<': '__lshift__',
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'>>': '__rshift__',
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'&': '__and__',
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'^': '__xor__',
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'|': '__or__'
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}
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def dbg(source):
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try:
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with open(r'C:\Users\Piotrek\Desktop\dbg.py', 'w') as f:
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f.write(source)
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except:
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pass
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def indent(lines, ind=4):
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return ind * ' ' + lines.replace('\n', '\n' + ind * ' ').rstrip(' ')
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def inject_before_lval(source, lval, code):
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if source.count(lval) > 1:
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dbg(source)
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print()
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print(lval)
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raise RuntimeError('To many lvals (%s)' % lval)
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elif not source.count(lval):
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dbg(source)
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print()
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print(lval)
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assert lval not in source
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raise RuntimeError('No lval found "%s"' % lval)
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end = source.index(lval)
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inj = source.rfind('\n', 0, end)
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ind = inj
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while source[ind + 1] == ' ':
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ind += 1
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ind -= inj
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return source[:inj + 1] + indent(code, ind) + source[inj + 1:]
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def bracket_split(source, brackets=('()', '{}', '[]'), strip=False):
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"""DOES NOT RETURN EMPTY STRINGS (can only return empty bracket content if strip=True)"""
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starts = [e[0] for e in brackets]
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in_bracket = 0
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n = 0
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last = 0
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while n < len(source):
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e = source[n]
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if not in_bracket and e in starts:
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in_bracket = 1
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start = n
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b_start, b_end = brackets[starts.index(e)]
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elif in_bracket:
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if e == b_start:
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in_bracket += 1
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elif e == b_end:
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in_bracket -= 1
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if not in_bracket:
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if source[last:start]:
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yield source[last:start]
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last = n + 1
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yield source[start + strip:n + 1 - strip]
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n += 1
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if source[last:]:
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yield source[last:]
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def pass_bracket(source, start, bracket='()'):
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"""Returns content of brackets with brackets and first pos after brackets
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if source[start] is followed by some optional white space and brackets.
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Otherwise None"""
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e = bracket_split(source[start:], [bracket], False)
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try:
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cand = e.next()
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except StopIteration:
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return None, None
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if not cand.strip(): #white space...
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try:
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res = e.next()
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return res, start + len(cand) + len(res)
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except StopIteration:
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return None, None
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elif cand[-1] == bracket[1]:
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return cand, start + len(cand)
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else:
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return None, None
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def startswith_keyword(start, keyword):
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start = start.lstrip()
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if start.startswith(keyword):
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if len(keyword) < len(start):
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if start[len(keyword)] in IDENTIFIER_PART:
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return False
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return True
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return False
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def endswith_keyword(ending, keyword):
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ending = ending.rstrip()
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if ending.endswith(keyword):
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if len(keyword) < len(ending):
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if ending[len(ending) - len(keyword) - 1] in IDENTIFIER_PART:
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return False
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return True
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return False
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def pass_white(source, start):
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n = start
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while n < len(source):
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if source[n] in SPACE:
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n += 1
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else:
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break
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return n
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def except_token(source, start, token, throw=True):
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"""Token can be only a single char. Returns position after token if found. Otherwise raises syntax error if throw
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otherwise returns None"""
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start = pass_white(source, start)
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if start < len(source) and source[start] == token:
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return start + 1
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if throw:
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raise SyntaxError('Missing token. Expected %s' % token)
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return None
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def except_keyword(source, start, keyword):
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""" Returns position after keyword if found else None
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Note: skips white space"""
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start = pass_white(source, start)
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kl = len(keyword) #keyword len
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if kl + start > len(source):
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return None
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if source[start:start + kl] != keyword:
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return None
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if kl + start < len(source) and source[start + kl] in IDENTIFIER_PART:
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return None
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return start + kl
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def parse_identifier(source, start, throw=True):
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"""passes white space from start and returns first identifier,
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if identifier invalid and throw raises SyntaxError otherwise returns None"""
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start = pass_white(source, start)
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end = start
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if not end < len(source):
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if throw:
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raise SyntaxError('Missing identifier!')
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return None
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if source[end] not in IDENTIFIER_START:
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if throw:
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raise SyntaxError('Invalid identifier start: "%s"' % source[end])
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return None
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end += 1
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while end < len(source) and source[end] in IDENTIFIER_PART:
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end += 1
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if not is_valid_lval(source[start:end]):
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if throw:
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raise SyntaxError(
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'Invalid identifier name: "%s"' % source[start:end])
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return None
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return source[start:end], end
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def argsplit(args, sep=','):
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"""used to split JS args (it is not that simple as it seems because
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sep can be inside brackets).
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pass args *without* brackets!
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Used also to parse array and object elements, and more"""
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parsed_len = 0
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last = 0
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splits = []
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for e in bracket_split(args, brackets=['()', '[]', '{}']):
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if e[0] not in {'(', '[', '{'}:
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for i, char in enumerate(e):
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if char == sep:
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splits.append(args[last:parsed_len + i])
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last = parsed_len + i + 1
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parsed_len += len(e)
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splits.append(args[last:])
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return splits
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def split_add_ops(text):
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"""Specialized function splitting text at add/sub operators.
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Operands are *not* translated. Example result ['op1', '+', 'op2', '-', 'op3']"""
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n = 0
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text = text.replace('++', '##').replace(
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'--', '@@') #text does not normally contain any of these
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spotted = False # set to true if noticed anything other than +- or white space
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last = 0
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while n < len(text):
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e = text[n]
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if e == '+' or e == '-':
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if spotted:
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yield text[last:n].replace('##', '++').replace('@@', '--')
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yield e
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last = n + 1
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spotted = False
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elif e == '/' or e == '*' or e == '%':
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spotted = False
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elif e != ' ':
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spotted = True
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n += 1
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yield text[last:n].replace('##', '++').replace('@@', '--')
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def split_at_any(text,
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lis,
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translate=False,
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not_before=[],
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not_after=[],
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validitate=None):
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""" doc """
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lis.sort(key=lambda x: len(x), reverse=True)
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last = 0
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n = 0
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text_len = len(text)
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while n < text_len:
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if any(text[:n].endswith(e)
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for e in not_before): #Cant end with end before
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n += 1
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continue
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for e in lis:
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s = len(e)
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if s + n > text_len:
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continue
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if validitate and not validitate(e, text[:n], text[n + s:]):
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continue
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if any(text[n + s:].startswith(e)
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for e in not_after): #Cant end with end before
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n += 1
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break
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if e == text[n:n + s]:
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yield text[last:n] if not translate else translate(
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text[last:n])
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yield e
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n += s
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last = n
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break
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else:
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n += 1
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yield text[last:n] if not translate else translate(text[last:n])
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def split_at_single(text, sep, not_before=[], not_after=[]):
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"""Works like text.split(sep) but separated fragments
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cant end with not_before or start with not_after"""
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n = 0
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lt, s = len(text), len(sep)
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last = 0
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while n < lt:
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if not s + n > lt:
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if sep == text[n:n + s]:
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if any(text[last:n].endswith(e) for e in not_before):
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pass
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elif any(text[n + s:].startswith(e) for e in not_after):
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pass
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else:
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yield text[last:n]
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last = n + s
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n += s - 1
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n += 1
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yield text[last:]
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