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TegraExplorer/ts-minifier.py

392 lines
17 KiB
Python

# Copyright (c) 2021 bleck9999
# https://github.com/bleck9999/ts-minifier
# Version: b201eb4d
import argparse
import itertools
from string import ascii_letters
auto_replace = False
verbose = False
stdlib = ['if', 'while', 'print', 'println', 'mountsys', 'mountemu', 'readsave', 'exit', 'break', 'dict', 'setpixel',
'readdir', 'copyfile', 'mkdir', 'ncatype', 'pause', 'color', 'menu', 'emu', 'clear', 'timer', 'deldir',
'fsexists', 'delfile', 'copydir', 'movefile', 'payload', 'readfile', 'writefile', 'setpixels', 'printpos',
'emmcread', 'emmcwrite', 'emummcread', 'emummcwrite', 'escapepath', 'combinepath', 'cwd', 'power',
'fuse_patched', 'fuse_hwtype']
class Code:
def __init__(self, strings, comments, script):
counter = 0
strings_comments = sorted(strings + comments)
bounds = [0] if strings_comments[0][0] != 0 else []
for val in strings_comments:
if counter and (bounds[counter - 1] == val[0]):
bounds[counter - 1] = val[1]
else:
bounds += [val[0], val[1]]
counter += 2
bounds.append(len(script))
code = []
i = 2 if len(bounds) % 2 else 1
while i < len(bounds):
code.append((bounds[i - 1], bounds[i], script[bounds[i - 1]:bounds[i]]))
i += 2
self.sections = sorted(strings_comments + code)
self.strings = strings
self.comments = comments
self.code = code
self.varstrs = []
self.rawcode = "".join([x[2] for x in sorted(self.code+self.strings)])
def getafter(self, ch: int):
ch += self.comments[-1][1] if self.comments else 0
for strcom in self.strings:
if strcom[0] >= ch:
return strcom
return None
def nextch(self, ch: int, reverse: bool):
rawcontent = self.rawcode
if ((ch+1 >= len(rawcontent)) and not reverse) or \
((ch-1 < 0) and reverse):
return ''
return rawcontent[ch-1] if reverse else rawcontent[ch+1]
def isidentifier(s: str):
for c in s:
if c not in (ascii_letters + '_'):
return False
return True
def hascomment(s: str):
quoted = False
for c in range(len(s)):
if s[c] == '"':
quoted = not quoted
if s[c] == '#' and not quoted:
return c
return None
def parser(script: str):
comments = [] # [(start, end, content)]
strings = []
commented = False
quoted = False
strstart = -1
commentstart = -1
for c in range(len(script)):
if script[c] == '#' and not quoted:
commented = True
commentstart = c
elif (script[c] == '\n' and not quoted) and commented:
comments.append((commentstart, c + 1, script[commentstart:c + 1]))
commented = False
elif script[c] == '"' and not commented:
if not quoted:
strstart = c
quoted = True
else:
strings.append((strstart, c + 1, script[strstart:c + 1]))
quoted = False
script = Code(strings, comments, script)
# couple notes:
# we minify the script a little before parsing, so there is no unnecessary whitespace or comments
# we are assuming the input script is valid syntax
userobjects = {}
usages = {}
hexxed = False
ismember = False
quoted = False
strscript = script.rawcode
start = len(strscript) + 1
for ch in range(len(strscript)):
if (strscript[ch-1] == '0' and strscript[ch] == 'x') and not quoted:
hexxed = True
elif isidentifier(strscript[ch]) and not (hexxed or quoted):
if start > ch:
start = ch
else:
pass
elif hexxed and strscript[ch].upper() not in "0123456789ABCDEF":
hexxed = False
elif strscript[ch] == '"':
quoted = not quoted
elif not quoted:
if start != len(strscript)+1: # if we actually had an identifier before this char
identifier = strscript[start:ch]
if identifier in usages:
usages[identifier].append(start)
elif strscript[ch] == '=' and strscript[ch+1] != '=':
isfunc = script.nextch(ch, False) == '{'
userobjects[identifier] = "func" if isfunc else "var"
usages[identifier] = [start] # declaration is a usage because i cant be arsed
elif not ismember: # not an assignment (or member) but also haven't seen this name before
usages[identifier] = [start]
# fuck it we are using a fucking list of fucking stdlib functions i just fucking cant im adding tsv3
# to the fucking esolangs wiki have a good day
if identifier not in stdlib:
userobjects[identifier] = "var"
if strscript[ch] == '.':
ismember = True
elif strscript[ch] == '(':
if ismember:
if "foreach" == strscript[start:ch]: # array.foreach takes a variable name as an arg (blame meme)
for i, string in enumerate(script.strings):
if string[0] == ch + (script.comments[-1][1] if script.comments else 0) + 1:
script.varstrs.append(string)
script.strings.pop(i)
break
else:
pass
elif strscript[ch] == ')':
ismember = script.nextch(ch, False) == '.'
start = len(strscript) + 1
return minify(script, userobjects, usages)
def minify(script: Code, userobjects, usages):
# the space saved by an alias is the amount of characters currently used by calling the function (uses*len(func))
# minus the amount of characters it would take to define an alias (len(alias)+len(func)+2), with the 2 being for the
# equals and the whitespace needed for a definition
# the same principle also applies to introducing a variable for string literals, though since a literal requires
# having "s around it then it's uses*(len(str)+2) - (len(minName)+len(str)+4)
# ^ 2 for = and whitespace, 2 for ""
#
# obviously for a rename you're already defining it so it's just the difference between lengths multiplied by uses
short_idents = [x for x in (ascii_letters+'_')] + [x[0]+x[1] for x in itertools.product(ascii_letters+'_', repeat=2)]
short_idents.pop(short_idents.index("if"))
mcode = script.rawcode
aliases = []
for uo in [x for x in userobjects]:
if userobjects[uo] not in ["var", "func"]:
continue
tmpcode = ""
otype = userobjects[uo]
uses = len(usages[uo])
uolen = len(uo)
if uolen > 1:
candidates = short_idents
minName = ''
if uolen == 2:
candidates = short_idents[:53]
for i in candidates:
if i not in userobjects:
minName = i
userobjects[minName] = "TRN"
break
if verbose and not minName:
print(f"{'Function' if otype == 'func' else 'Variable'} name {uo} could be shortened but "
f"no available names found (would save {uses} bytes)")
continue
# we assume that nobody is insane enough to exhaust all *2,808* 2 character names,
# instead that uo is len 2 and all the 1 character names are in use (because of that we dont multiply
# uses by anything as multiplying by a difference of 1 would be redundant)
if not auto_replace:
print(f"{'Function' if otype == 'func' else 'Variable'} name {uo} could be shortened ({uo}->{minName}, "
f"would save {uses*(uolen - len(minName))} bytes)")
continue
else:
print(f"Renaming {'Function' if otype == 'func' else 'Variable'} {uo} to {minName} "
f"(saving {uses*(uolen - len(minName))} bytes)")
diff = uolen - len(minName)
# the foreach syntax is literally the worst part of ts
if otype == "var":
struo = f'"{uo}"'
for varstr in script.varstrs:
if varstr[2] == struo:
if verbose:
print(f"Replacing declaration of {varstr[2]} at {varstr[0]}-{varstr[1]}")
start = varstr[0] - (script.comments[-1][1] if script.comments else 0)
end = varstr[1] - (script.comments[-1][1] if script.comments else 0)
newend = start + len(minName)
mcode = mcode[:newend] + f'{minName}"' + (' ' * diff) + mcode[end:]
# rather than just blindly str.replace()ing we're going to actually use the character indices that we stored
prev = 0
for bound in usages[uo]:
tmpcode += mcode[prev:bound] + minName + ' '*diff
prev = bound + diff + len(minName)
# actually shut up about "bound might be referenced before assignment" or show me what possible
# execution path that could lead to usages[uo] being an empty list
mcode = tmpcode + mcode[bound+diff+len(minName):]
for func in usages:
tmpcode = ""
candidates = short_idents
minName = ''
savings = 0
uses = len(usages[func])
if func in userobjects or uses < 2: # we only want stdlib functions used more than once
continue
elif func == "if":
candidates = short_idents[:53]
savings = uses * 2 - 5 # the 5 is how many characters an alias declaration would use (a=if<space>)
for i in candidates:
if i not in userobjects:
minName = i
userobjects[minName] = "TRP"
break
# once again we assume it's only `if` that could trigger this message
# uses - 4 is the minimum amount of uses needed to save space, 1*(uses - 4) is the space it would save
if verbose and (not minName and (uses - 4) > 0):
print(f"Standard library function {func} could be aliased but no available names found "
f"(would save {uses-4} bytes)")
else:
if not savings:
savings = uses*len(func) - (len(func)+len(minName)+2)
if (verbose and savings <= 0) or (not auto_replace and savings > 0):
print(f"Not aliasing standard library function {func} (would save {savings} bytes)")
elif auto_replace and savings > 0:
if verbose:
print(f"Aliasing standard library function {func} to {minName} (saving {savings} bytes)")
diff = len(func) - len(minName)
prev = 0
for bound in usages[func]:
tmpcode += mcode[prev:bound] + minName + ' ' * diff
prev = bound + diff + len(minName)
mcode = tmpcode + mcode[bound + diff + len(minName):]
aliases.append(f"{minName}={func} ")
str_reuse = {}
for string in script.strings:
if string[2] in str_reuse:
str_reuse[string[2]].append(string[0])
else:
str_reuse[string[2]] = [string[0]]
for string in str_reuse:
tmpcode = ""
candidates = short_idents
minName = ""
uses = len(str_reuse[string])
if uses > 1:
if len(string) == 2:
candidates = short_idents[:53]
for i in candidates:
if i not in userobjects:
minName = i
userobjects[minName] = "TIV"
break
# the quotation marks are included in string
savings = uses * len(string) - (len(string) + len(minName) + 2)
if (verbose and savings <= 0) or (not auto_replace and savings > 0):
print(f"Not introducing variable for string {string} reused {uses} times (would save {savings} bytes)")
elif auto_replace and savings > 0:
# "duplicated code fragment" do i look like i give a shit
if verbose:
print(f"Introducing variable {minName} with value {string} (saving {savings} bytes)")
diff = len(string) - len(minName)
prev = 0
for bound in str_reuse[string]:
bound -= script.comments[-1][1] if script.comments else 0
tmpcode += mcode[prev:bound] + minName + ' ' * diff
prev = bound + diff + len(minName)
mcode = tmpcode + mcode[bound + diff + len(minName):]
aliases.append(f"{minName}={string}")
elif verbose:
print(f"Not introducing variable for string {string} (only used once)")
print("Reintroducing REQUIREs")
mcode = "".join([x[2] for x in script.comments]) + "".join(aliases) + mcode
print("Stripping whitespace")
return whitespacent(mcode)
def whitespacent(script: str):
# also removes unneeded comments and push REQUIREs to the top of the file
requires = ""
mcode = ""
for line in script.split(sep='\n'):
start = hascomment(line)
if start is None:
start = -1
if "REQUIRE " in line[start:]:
requires += line[start:] + '\n' # leave REQUIREs unmodified
# comments are terminated by a newline so we need to add one back in
# *deep breath*
# slicing is exclusive on the right side of the colon so the "no comment" value of start=-1 would cut off
# the last character of the line which would lead to several issues
# however this is desirable when there *is* a comment, since it being exclusive means there isn't a trailing #
# and if you're wondering about the above check that uses line[start:] this doesn't matter,
# one character cant contain an 8 character substring so it's not like it'll ever false positive
if start != -1:
line = line[:start]
line = line.split(sep='"')
if len(line) % 2 == 0:
raise Exception("Unmatched quote or hard newline in string")
part = 0
while part < len(line):
# all the odd numbered indexes should be inside quotes
if part % 2 == 0:
if not line[part]:
break
# turn lots of whitespace into one whitespace with one easy trick!
mcode += ' '.join(line[part].split()) + ' '
else:
mcode += f'"{line[part]}"'
part += 1
# tsv3 is still an absolute nightmare
# so spaces are required under two situations
# 1. the minus operator which requires space between the right operand but only if the right operand is a literal
# 2. between 2 characters that are either valid identifiers (aA-zZ or _) or integers
inquote = False
mmcode = ""
index = 0
newline = list(mcode)
while index < (len(mcode) - 3):
sec = mcode[index:index + 3]
if sec[1] == '"':
inquote = not inquote
if (sec[1] == ' ') and not inquote:
if (isidentifier(sec[0]) or sec[0].isnumeric()) and (isidentifier(sec[2]) or sec[2].isnumeric()):
pass
elif sec[0] == '-' and sec[2].isnumeric():
pass
else:
newline[index + 1] = ''
index += 1
mmcode += ''.join(newline).strip()
return requires + mmcode.strip().replace('\n', ' ')
if __name__ == '__main__':
argparser = argparse.ArgumentParser(description="Minify tsv3 scripts, useful for embedding",
formatter_class=argparse.RawTextHelpFormatter)
argparser.add_argument("source", type=str, nargs='+', help="source files to minify")
argparser.add_argument("-d", type=str, nargs='?', help="destination folder for minified scripts"
"\ndefault: ./", default='./')
argparser.add_argument("--auto-replace", action="store_true", default=False,
help="automatically replace reused functions, variables and strings instead of just warning\n"
"and attempt to generate shorter names for reused variables \ndefault: false")
argparser.add_argument("-v", action="store_true", default=False,
help="prints even more information to the console than usual")
args = argparser.parse_args()
files = args.source
dest = args.d[:-1] if args.d[-1] == '/' else args.d
auto_replace = args.auto_replace
verbose = args.v
for file in files:
print(f"\nMinifying {file}")
with open(file, 'r') as f:
print("Stripping comments")
r = parser(whitespacent(f.read()))
file = file.split(sep='.')[0].split(sep='/')[-1]
if dest != '.':
f = open(f"{dest}/{file}.te", 'w')
else:
f = open(f"{dest}/{file}_min.te", 'w')
f.write(r)