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ai-content-maker/.venv/Lib/site-packages/sympy/parsing/autolev/_antlr/autolevparser.py

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# *** GENERATED BY `setup.py antlr`, DO NOT EDIT BY HAND ***
#
# Generated with antlr4
# antlr4 is licensed under the BSD-3-Clause License
# https://github.com/antlr/antlr4/blob/master/LICENSE.txt
from antlr4 import *
from io import StringIO
import sys
if sys.version_info[1] > 5:
from typing import TextIO
else:
from typing.io import TextIO
def serializedATN():
return [
4,1,49,431,2,0,7,0,2,1,7,1,2,2,7,2,2,3,7,3,2,4,7,4,2,5,7,5,2,6,7,
6,2,7,7,7,2,8,7,8,2,9,7,9,2,10,7,10,2,11,7,11,2,12,7,12,2,13,7,13,
2,14,7,14,2,15,7,15,2,16,7,16,2,17,7,17,2,18,7,18,2,19,7,19,2,20,
7,20,2,21,7,21,2,22,7,22,2,23,7,23,2,24,7,24,2,25,7,25,2,26,7,26,
2,27,7,27,1,0,4,0,58,8,0,11,0,12,0,59,1,1,1,1,1,1,1,1,1,1,1,1,1,
1,3,1,69,8,1,1,2,1,2,1,2,1,2,1,2,1,2,1,2,1,2,1,2,1,2,1,2,1,2,1,2,
3,2,84,8,2,1,2,1,2,1,2,3,2,89,8,2,1,3,1,3,1,4,1,4,1,4,5,4,96,8,4,
10,4,12,4,99,9,4,1,5,4,5,102,8,5,11,5,12,5,103,1,6,1,6,1,6,1,6,1,
6,5,6,111,8,6,10,6,12,6,114,9,6,3,6,116,8,6,1,6,1,6,1,6,1,6,1,6,
1,6,5,6,124,8,6,10,6,12,6,127,9,6,3,6,129,8,6,1,6,3,6,132,8,6,1,
7,1,7,1,7,1,7,5,7,138,8,7,10,7,12,7,141,9,7,1,8,1,8,1,8,1,8,1,8,
1,8,1,8,1,8,1,8,1,8,5,8,153,8,8,10,8,12,8,156,9,8,1,8,1,8,5,8,160,
8,8,10,8,12,8,163,9,8,3,8,165,8,8,1,9,1,9,1,9,1,9,1,9,1,9,3,9,173,
8,9,1,9,1,9,1,9,1,9,1,9,1,9,1,9,1,9,5,9,183,8,9,10,9,12,9,186,9,
9,1,9,3,9,189,8,9,1,9,1,9,1,9,3,9,194,8,9,1,9,3,9,197,8,9,1,9,5,
9,200,8,9,10,9,12,9,203,9,9,1,9,1,9,3,9,207,8,9,1,10,1,10,1,10,1,
10,1,10,1,10,1,10,1,10,5,10,217,8,10,10,10,12,10,220,9,10,1,10,1,
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12,1,12,1,12,1,13,1,13,1,13,1,13,1,13,3,13,242,8,13,1,13,1,13,4,
13,246,8,13,11,13,12,13,247,1,14,1,14,1,14,1,14,5,14,254,8,14,10,
14,12,14,257,9,14,1,14,1,14,1,15,1,15,1,15,1,15,3,15,265,8,15,1,
15,1,15,3,15,269,8,15,1,16,1,16,1,16,1,16,1,16,3,16,276,8,16,1,17,
1,17,3,17,280,8,17,1,18,1,18,1,18,1,18,5,18,286,8,18,10,18,12,18,
289,9,18,1,19,1,19,1,19,1,19,5,19,295,8,19,10,19,12,19,298,9,19,
1,20,1,20,3,20,302,8,20,1,21,1,21,1,21,1,21,3,21,308,8,21,1,22,1,
22,1,22,1,22,5,22,314,8,22,10,22,12,22,317,9,22,1,23,1,23,3,23,321,
8,23,1,24,1,24,1,24,1,24,1,24,1,24,5,24,329,8,24,10,24,12,24,332,
9,24,1,24,1,24,3,24,336,8,24,1,24,1,24,1,24,1,24,1,25,1,25,1,25,
1,25,1,25,1,25,1,25,1,25,5,25,350,8,25,10,25,12,25,353,9,25,3,25,
355,8,25,1,26,1,26,4,26,359,8,26,11,26,12,26,360,1,26,1,26,3,26,
365,8,26,1,27,1,27,1,27,1,27,1,27,1,27,1,27,1,27,5,27,375,8,27,10,
27,12,27,378,9,27,1,27,1,27,1,27,1,27,1,27,1,27,5,27,386,8,27,10,
27,12,27,389,9,27,1,27,1,27,1,27,1,27,1,27,1,27,1,27,1,27,1,27,3,
27,400,8,27,1,27,1,27,5,27,404,8,27,10,27,12,27,407,9,27,3,27,409,
8,27,1,27,1,27,1,27,1,27,1,27,1,27,1,27,1,27,1,27,1,27,1,27,1,27,
1,27,1,27,1,27,5,27,426,8,27,10,27,12,27,429,9,27,1,27,0,1,54,28,
0,2,4,6,8,10,12,14,16,18,20,22,24,26,28,30,32,34,36,38,40,42,44,
46,48,50,52,54,0,7,1,0,3,9,1,0,27,28,1,0,17,18,2,0,10,10,19,19,1,
0,44,45,2,0,44,46,48,48,1,0,25,26,483,0,57,1,0,0,0,2,68,1,0,0,0,
4,88,1,0,0,0,6,90,1,0,0,0,8,92,1,0,0,0,10,101,1,0,0,0,12,131,1,0,
0,0,14,133,1,0,0,0,16,164,1,0,0,0,18,166,1,0,0,0,20,208,1,0,0,0,
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48,322,1,0,0,0,50,354,1,0,0,0,52,364,1,0,0,0,54,408,1,0,0,0,56,58,
3,2,1,0,57,56,1,0,0,0,58,59,1,0,0,0,59,57,1,0,0,0,59,60,1,0,0,0,
60,1,1,0,0,0,61,69,3,14,7,0,62,69,3,12,6,0,63,69,3,32,16,0,64,69,
3,22,11,0,65,69,3,26,13,0,66,69,3,4,2,0,67,69,3,34,17,0,68,61,1,
0,0,0,68,62,1,0,0,0,68,63,1,0,0,0,68,64,1,0,0,0,68,65,1,0,0,0,68,
66,1,0,0,0,68,67,1,0,0,0,69,3,1,0,0,0,70,71,3,52,26,0,71,72,3,6,
3,0,72,73,3,54,27,0,73,89,1,0,0,0,74,75,5,48,0,0,75,76,5,1,0,0,76,
77,3,8,4,0,77,78,5,2,0,0,78,79,3,6,3,0,79,80,3,54,27,0,80,89,1,0,
0,0,81,83,5,48,0,0,82,84,3,10,5,0,83,82,1,0,0,0,83,84,1,0,0,0,84,
85,1,0,0,0,85,86,3,6,3,0,86,87,3,54,27,0,87,89,1,0,0,0,88,70,1,0,
0,0,88,74,1,0,0,0,88,81,1,0,0,0,89,5,1,0,0,0,90,91,7,0,0,0,91,7,
1,0,0,0,92,97,3,54,27,0,93,94,5,10,0,0,94,96,3,54,27,0,95,93,1,0,
0,0,96,99,1,0,0,0,97,95,1,0,0,0,97,98,1,0,0,0,98,9,1,0,0,0,99,97,
1,0,0,0,100,102,5,11,0,0,101,100,1,0,0,0,102,103,1,0,0,0,103,101,
1,0,0,0,103,104,1,0,0,0,104,11,1,0,0,0,105,106,5,48,0,0,106,115,
5,12,0,0,107,112,3,54,27,0,108,109,5,10,0,0,109,111,3,54,27,0,110,
108,1,0,0,0,111,114,1,0,0,0,112,110,1,0,0,0,112,113,1,0,0,0,113,
116,1,0,0,0,114,112,1,0,0,0,115,107,1,0,0,0,115,116,1,0,0,0,116,
117,1,0,0,0,117,132,5,13,0,0,118,119,7,1,0,0,119,128,5,12,0,0,120,
125,5,48,0,0,121,122,5,10,0,0,122,124,5,48,0,0,123,121,1,0,0,0,124,
127,1,0,0,0,125,123,1,0,0,0,125,126,1,0,0,0,126,129,1,0,0,0,127,
125,1,0,0,0,128,120,1,0,0,0,128,129,1,0,0,0,129,130,1,0,0,0,130,
132,5,13,0,0,131,105,1,0,0,0,131,118,1,0,0,0,132,13,1,0,0,0,133,
134,3,16,8,0,134,139,3,18,9,0,135,136,5,10,0,0,136,138,3,18,9,0,
137,135,1,0,0,0,138,141,1,0,0,0,139,137,1,0,0,0,139,140,1,0,0,0,
140,15,1,0,0,0,141,139,1,0,0,0,142,165,5,34,0,0,143,165,5,35,0,0,
144,165,5,36,0,0,145,165,5,37,0,0,146,165,5,38,0,0,147,165,5,39,
0,0,148,165,5,40,0,0,149,165,5,41,0,0,150,154,5,42,0,0,151,153,5,
11,0,0,152,151,1,0,0,0,153,156,1,0,0,0,154,152,1,0,0,0,154,155,1,
0,0,0,155,165,1,0,0,0,156,154,1,0,0,0,157,161,5,43,0,0,158,160,5,
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1,0,0,0,172,173,1,0,0,0,173,188,1,0,0,0,174,175,5,14,0,0,175,176,
5,44,0,0,176,177,5,16,0,0,177,184,5,44,0,0,178,179,5,10,0,0,179,
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210,5,44,0,0,210,211,5,16,0,0,211,218,5,44,0,0,212,213,5,10,0,0,
213,214,5,44,0,0,214,215,5,16,0,0,215,217,5,44,0,0,216,212,1,0,0,
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0,224,229,3,24,12,0,225,226,5,10,0,0,226,228,3,24,12,0,227,225,1,
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12,0,0,239,240,5,48,0,0,240,242,5,13,0,0,241,238,1,0,0,0,241,242,
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0,0,0,249,250,5,1,0,0,250,255,3,54,27,0,251,252,7,3,0,0,252,254,
3,54,27,0,253,251,1,0,0,0,254,257,1,0,0,0,255,253,1,0,0,0,255,256,
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0,0,0,260,261,5,48,0,0,261,262,5,48,0,0,262,264,5,3,0,0,263,265,
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5,45,0,0,267,269,5,44,0,0,268,260,1,0,0,0,268,266,1,0,0,0,268,267,
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3,44,22,0,273,276,3,48,24,0,274,276,3,50,25,0,275,270,1,0,0,0,275,
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305,5,3,0,0,305,307,3,54,27,0,306,308,3,54,27,0,307,306,1,0,0,0,
307,308,1,0,0,0,308,43,1,0,0,0,309,310,5,30,0,0,310,315,3,46,23,
0,311,312,5,10,0,0,312,314,3,46,23,0,313,311,1,0,0,0,314,317,1,0,
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351,5,48,0,0,347,348,5,10,0,0,348,350,5,48,0,0,349,347,1,0,0,0,350,
353,1,0,0,0,351,349,1,0,0,0,351,352,1,0,0,0,352,355,1,0,0,0,353,
351,1,0,0,0,354,341,1,0,0,0,354,345,1,0,0,0,355,51,1,0,0,0,356,358,
5,48,0,0,357,359,5,21,0,0,358,357,1,0,0,0,359,360,1,0,0,0,360,358,
1,0,0,0,360,361,1,0,0,0,361,365,1,0,0,0,362,365,5,22,0,0,363,365,
5,23,0,0,364,356,1,0,0,0,364,362,1,0,0,0,364,363,1,0,0,0,365,53,
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409,3,54,27,12,370,409,5,45,0,0,371,409,5,44,0,0,372,376,5,48,0,
0,373,375,5,11,0,0,374,373,1,0,0,0,375,378,1,0,0,0,376,374,1,0,0,
0,376,377,1,0,0,0,377,409,1,0,0,0,378,376,1,0,0,0,379,409,3,52,26,
0,380,381,5,48,0,0,381,382,5,1,0,0,382,387,3,54,27,0,383,384,5,10,
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2,0,0,391,409,1,0,0,0,392,409,3,12,6,0,393,409,3,28,14,0,394,395,
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400,5,48,0,0,399,398,1,0,0,0,399,400,1,0,0,0,400,401,1,0,0,0,401,
405,3,20,10,0,402,404,5,11,0,0,403,402,1,0,0,0,404,407,1,0,0,0,405,
403,1,0,0,0,405,406,1,0,0,0,406,409,1,0,0,0,407,405,1,0,0,0,408,
366,1,0,0,0,408,368,1,0,0,0,408,370,1,0,0,0,408,371,1,0,0,0,408,
372,1,0,0,0,408,379,1,0,0,0,408,380,1,0,0,0,408,392,1,0,0,0,408,
393,1,0,0,0,408,394,1,0,0,0,408,399,1,0,0,0,409,427,1,0,0,0,410,
411,10,16,0,0,411,412,5,24,0,0,412,426,3,54,27,17,413,414,10,15,
0,0,414,415,7,6,0,0,415,426,3,54,27,16,416,417,10,14,0,0,417,418,
7,2,0,0,418,426,3,54,27,15,419,420,10,3,0,0,420,421,5,3,0,0,421,
426,3,54,27,4,422,423,10,2,0,0,423,424,5,16,0,0,424,426,3,54,27,
3,425,410,1,0,0,0,425,413,1,0,0,0,425,416,1,0,0,0,425,419,1,0,0,
0,425,422,1,0,0,0,426,429,1,0,0,0,427,425,1,0,0,0,427,428,1,0,0,
0,428,55,1,0,0,0,429,427,1,0,0,0,50,59,68,83,88,97,103,112,115,125,
128,131,139,154,161,164,172,184,188,193,196,201,206,218,229,241,
247,255,264,268,275,279,287,296,301,307,315,320,330,335,351,354,
360,364,376,387,399,405,408,425,427
]
class AutolevParser ( Parser ):
grammarFileName = "Autolev.g4"
atn = ATNDeserializer().deserialize(serializedATN())
decisionsToDFA = [ DFA(ds, i) for i, ds in enumerate(atn.decisionToState) ]
sharedContextCache = PredictionContextCache()
literalNames = [ "<INVALID>", "'['", "']'", "'='", "'+='", "'-='", "':='",
"'*='", "'/='", "'^='", "','", "'''", "'('", "')'",
"'{'", "'}'", "':'", "'+'", "'-'", "';'", "'.'", "'>'",
"'0>'", "'1>>'", "'^'", "'*'", "'/'" ]
symbolicNames = [ "<INVALID>", "<INVALID>", "<INVALID>", "<INVALID>",
"<INVALID>", "<INVALID>", "<INVALID>", "<INVALID>",
"<INVALID>", "<INVALID>", "<INVALID>", "<INVALID>",
"<INVALID>", "<INVALID>", "<INVALID>", "<INVALID>",
"<INVALID>", "<INVALID>", "<INVALID>", "<INVALID>",
"<INVALID>", "<INVALID>", "<INVALID>", "<INVALID>",
"<INVALID>", "<INVALID>", "<INVALID>", "Mass", "Inertia",
"Input", "Output", "Save", "UnitSystem", "Encode",
"Newtonian", "Frames", "Bodies", "Particles", "Points",
"Constants", "Specifieds", "Imaginary", "Variables",
"MotionVariables", "INT", "FLOAT", "EXP", "LINE_COMMENT",
"ID", "WS" ]
RULE_prog = 0
RULE_stat = 1
RULE_assignment = 2
RULE_equals = 3
RULE_index = 4
RULE_diff = 5
RULE_functionCall = 6
RULE_varDecl = 7
RULE_varType = 8
RULE_varDecl2 = 9
RULE_ranges = 10
RULE_massDecl = 11
RULE_massDecl2 = 12
RULE_inertiaDecl = 13
RULE_matrix = 14
RULE_matrixInOutput = 15
RULE_codeCommands = 16
RULE_settings = 17
RULE_units = 18
RULE_inputs = 19
RULE_id_diff = 20
RULE_inputs2 = 21
RULE_outputs = 22
RULE_outputs2 = 23
RULE_codegen = 24
RULE_commands = 25
RULE_vec = 26
RULE_expr = 27
ruleNames = [ "prog", "stat", "assignment", "equals", "index", "diff",
"functionCall", "varDecl", "varType", "varDecl2", "ranges",
"massDecl", "massDecl2", "inertiaDecl", "matrix", "matrixInOutput",
"codeCommands", "settings", "units", "inputs", "id_diff",
"inputs2", "outputs", "outputs2", "codegen", "commands",
"vec", "expr" ]
EOF = Token.EOF
T__0=1
T__1=2
T__2=3
T__3=4
T__4=5
T__5=6
T__6=7
T__7=8
T__8=9
T__9=10
T__10=11
T__11=12
T__12=13
T__13=14
T__14=15
T__15=16
T__16=17
T__17=18
T__18=19
T__19=20
T__20=21
T__21=22
T__22=23
T__23=24
T__24=25
T__25=26
Mass=27
Inertia=28
Input=29
Output=30
Save=31
UnitSystem=32
Encode=33
Newtonian=34
Frames=35
Bodies=36
Particles=37
Points=38
Constants=39
Specifieds=40
Imaginary=41
Variables=42
MotionVariables=43
INT=44
FLOAT=45
EXP=46
LINE_COMMENT=47
ID=48
WS=49
def __init__(self, input:TokenStream, output:TextIO = sys.stdout):
super().__init__(input, output)
self.checkVersion("4.11.1")
self._interp = ParserATNSimulator(self, self.atn, self.decisionsToDFA, self.sharedContextCache)
self._predicates = None
class ProgContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def stat(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.StatContext)
else:
return self.getTypedRuleContext(AutolevParser.StatContext,i)
def getRuleIndex(self):
return AutolevParser.RULE_prog
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterProg" ):
listener.enterProg(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitProg" ):
listener.exitProg(self)
def prog(self):
localctx = AutolevParser.ProgContext(self, self._ctx, self.state)
self.enterRule(localctx, 0, self.RULE_prog)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 57
self._errHandler.sync(self)
_la = self._input.LA(1)
while True:
self.state = 56
self.stat()
self.state = 59
self._errHandler.sync(self)
_la = self._input.LA(1)
if not (((_la) & ~0x3f) == 0 and ((1 << _la) & 299067041120256) != 0):
break
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class StatContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def varDecl(self):
return self.getTypedRuleContext(AutolevParser.VarDeclContext,0)
def functionCall(self):
return self.getTypedRuleContext(AutolevParser.FunctionCallContext,0)
def codeCommands(self):
return self.getTypedRuleContext(AutolevParser.CodeCommandsContext,0)
def massDecl(self):
return self.getTypedRuleContext(AutolevParser.MassDeclContext,0)
def inertiaDecl(self):
return self.getTypedRuleContext(AutolevParser.InertiaDeclContext,0)
def assignment(self):
return self.getTypedRuleContext(AutolevParser.AssignmentContext,0)
def settings(self):
return self.getTypedRuleContext(AutolevParser.SettingsContext,0)
def getRuleIndex(self):
return AutolevParser.RULE_stat
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterStat" ):
listener.enterStat(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitStat" ):
listener.exitStat(self)
def stat(self):
localctx = AutolevParser.StatContext(self, self._ctx, self.state)
self.enterRule(localctx, 2, self.RULE_stat)
try:
self.state = 68
self._errHandler.sync(self)
la_ = self._interp.adaptivePredict(self._input,1,self._ctx)
if la_ == 1:
self.enterOuterAlt(localctx, 1)
self.state = 61
self.varDecl()
pass
elif la_ == 2:
self.enterOuterAlt(localctx, 2)
self.state = 62
self.functionCall()
pass
elif la_ == 3:
self.enterOuterAlt(localctx, 3)
self.state = 63
self.codeCommands()
pass
elif la_ == 4:
self.enterOuterAlt(localctx, 4)
self.state = 64
self.massDecl()
pass
elif la_ == 5:
self.enterOuterAlt(localctx, 5)
self.state = 65
self.inertiaDecl()
pass
elif la_ == 6:
self.enterOuterAlt(localctx, 6)
self.state = 66
self.assignment()
pass
elif la_ == 7:
self.enterOuterAlt(localctx, 7)
self.state = 67
self.settings()
pass
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class AssignmentContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def getRuleIndex(self):
return AutolevParser.RULE_assignment
def copyFrom(self, ctx:ParserRuleContext):
super().copyFrom(ctx)
class VecAssignContext(AssignmentContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.AssignmentContext
super().__init__(parser)
self.copyFrom(ctx)
def vec(self):
return self.getTypedRuleContext(AutolevParser.VecContext,0)
def equals(self):
return self.getTypedRuleContext(AutolevParser.EqualsContext,0)
def expr(self):
return self.getTypedRuleContext(AutolevParser.ExprContext,0)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterVecAssign" ):
listener.enterVecAssign(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitVecAssign" ):
listener.exitVecAssign(self)
class RegularAssignContext(AssignmentContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.AssignmentContext
super().__init__(parser)
self.copyFrom(ctx)
def ID(self):
return self.getToken(AutolevParser.ID, 0)
def equals(self):
return self.getTypedRuleContext(AutolevParser.EqualsContext,0)
def expr(self):
return self.getTypedRuleContext(AutolevParser.ExprContext,0)
def diff(self):
return self.getTypedRuleContext(AutolevParser.DiffContext,0)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterRegularAssign" ):
listener.enterRegularAssign(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitRegularAssign" ):
listener.exitRegularAssign(self)
class IndexAssignContext(AssignmentContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.AssignmentContext
super().__init__(parser)
self.copyFrom(ctx)
def ID(self):
return self.getToken(AutolevParser.ID, 0)
def index(self):
return self.getTypedRuleContext(AutolevParser.IndexContext,0)
def equals(self):
return self.getTypedRuleContext(AutolevParser.EqualsContext,0)
def expr(self):
return self.getTypedRuleContext(AutolevParser.ExprContext,0)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterIndexAssign" ):
listener.enterIndexAssign(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitIndexAssign" ):
listener.exitIndexAssign(self)
def assignment(self):
localctx = AutolevParser.AssignmentContext(self, self._ctx, self.state)
self.enterRule(localctx, 4, self.RULE_assignment)
self._la = 0 # Token type
try:
self.state = 88
self._errHandler.sync(self)
la_ = self._interp.adaptivePredict(self._input,3,self._ctx)
if la_ == 1:
localctx = AutolevParser.VecAssignContext(self, localctx)
self.enterOuterAlt(localctx, 1)
self.state = 70
self.vec()
self.state = 71
self.equals()
self.state = 72
self.expr(0)
pass
elif la_ == 2:
localctx = AutolevParser.IndexAssignContext(self, localctx)
self.enterOuterAlt(localctx, 2)
self.state = 74
self.match(AutolevParser.ID)
self.state = 75
self.match(AutolevParser.T__0)
self.state = 76
self.index()
self.state = 77
self.match(AutolevParser.T__1)
self.state = 78
self.equals()
self.state = 79
self.expr(0)
pass
elif la_ == 3:
localctx = AutolevParser.RegularAssignContext(self, localctx)
self.enterOuterAlt(localctx, 3)
self.state = 81
self.match(AutolevParser.ID)
self.state = 83
self._errHandler.sync(self)
_la = self._input.LA(1)
if _la==11:
self.state = 82
self.diff()
self.state = 85
self.equals()
self.state = 86
self.expr(0)
pass
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class EqualsContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def getRuleIndex(self):
return AutolevParser.RULE_equals
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterEquals" ):
listener.enterEquals(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitEquals" ):
listener.exitEquals(self)
def equals(self):
localctx = AutolevParser.EqualsContext(self, self._ctx, self.state)
self.enterRule(localctx, 6, self.RULE_equals)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 90
_la = self._input.LA(1)
if not(((_la) & ~0x3f) == 0 and ((1 << _la) & 1016) != 0):
self._errHandler.recoverInline(self)
else:
self._errHandler.reportMatch(self)
self.consume()
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class IndexContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def expr(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.ExprContext)
else:
return self.getTypedRuleContext(AutolevParser.ExprContext,i)
def getRuleIndex(self):
return AutolevParser.RULE_index
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterIndex" ):
listener.enterIndex(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitIndex" ):
listener.exitIndex(self)
def index(self):
localctx = AutolevParser.IndexContext(self, self._ctx, self.state)
self.enterRule(localctx, 8, self.RULE_index)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 92
self.expr(0)
self.state = 97
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==10:
self.state = 93
self.match(AutolevParser.T__9)
self.state = 94
self.expr(0)
self.state = 99
self._errHandler.sync(self)
_la = self._input.LA(1)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class DiffContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def getRuleIndex(self):
return AutolevParser.RULE_diff
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterDiff" ):
listener.enterDiff(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitDiff" ):
listener.exitDiff(self)
def diff(self):
localctx = AutolevParser.DiffContext(self, self._ctx, self.state)
self.enterRule(localctx, 10, self.RULE_diff)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 101
self._errHandler.sync(self)
_la = self._input.LA(1)
while True:
self.state = 100
self.match(AutolevParser.T__10)
self.state = 103
self._errHandler.sync(self)
_la = self._input.LA(1)
if not (_la==11):
break
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class FunctionCallContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def ID(self, i:int=None):
if i is None:
return self.getTokens(AutolevParser.ID)
else:
return self.getToken(AutolevParser.ID, i)
def expr(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.ExprContext)
else:
return self.getTypedRuleContext(AutolevParser.ExprContext,i)
def Mass(self):
return self.getToken(AutolevParser.Mass, 0)
def Inertia(self):
return self.getToken(AutolevParser.Inertia, 0)
def getRuleIndex(self):
return AutolevParser.RULE_functionCall
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterFunctionCall" ):
listener.enterFunctionCall(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitFunctionCall" ):
listener.exitFunctionCall(self)
def functionCall(self):
localctx = AutolevParser.FunctionCallContext(self, self._ctx, self.state)
self.enterRule(localctx, 12, self.RULE_functionCall)
self._la = 0 # Token type
try:
self.state = 131
self._errHandler.sync(self)
token = self._input.LA(1)
if token in [48]:
self.enterOuterAlt(localctx, 1)
self.state = 105
self.match(AutolevParser.ID)
self.state = 106
self.match(AutolevParser.T__11)
self.state = 115
self._errHandler.sync(self)
_la = self._input.LA(1)
if ((_la) & ~0x3f) == 0 and ((1 << _la) & 404620694540290) != 0:
self.state = 107
self.expr(0)
self.state = 112
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==10:
self.state = 108
self.match(AutolevParser.T__9)
self.state = 109
self.expr(0)
self.state = 114
self._errHandler.sync(self)
_la = self._input.LA(1)
self.state = 117
self.match(AutolevParser.T__12)
pass
elif token in [27, 28]:
self.enterOuterAlt(localctx, 2)
self.state = 118
_la = self._input.LA(1)
if not(_la==27 or _la==28):
self._errHandler.recoverInline(self)
else:
self._errHandler.reportMatch(self)
self.consume()
self.state = 119
self.match(AutolevParser.T__11)
self.state = 128
self._errHandler.sync(self)
_la = self._input.LA(1)
if _la==48:
self.state = 120
self.match(AutolevParser.ID)
self.state = 125
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==10:
self.state = 121
self.match(AutolevParser.T__9)
self.state = 122
self.match(AutolevParser.ID)
self.state = 127
self._errHandler.sync(self)
_la = self._input.LA(1)
self.state = 130
self.match(AutolevParser.T__12)
pass
else:
raise NoViableAltException(self)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class VarDeclContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def varType(self):
return self.getTypedRuleContext(AutolevParser.VarTypeContext,0)
def varDecl2(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.VarDecl2Context)
else:
return self.getTypedRuleContext(AutolevParser.VarDecl2Context,i)
def getRuleIndex(self):
return AutolevParser.RULE_varDecl
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterVarDecl" ):
listener.enterVarDecl(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitVarDecl" ):
listener.exitVarDecl(self)
def varDecl(self):
localctx = AutolevParser.VarDeclContext(self, self._ctx, self.state)
self.enterRule(localctx, 14, self.RULE_varDecl)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 133
self.varType()
self.state = 134
self.varDecl2()
self.state = 139
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==10:
self.state = 135
self.match(AutolevParser.T__9)
self.state = 136
self.varDecl2()
self.state = 141
self._errHandler.sync(self)
_la = self._input.LA(1)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class VarTypeContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def Newtonian(self):
return self.getToken(AutolevParser.Newtonian, 0)
def Frames(self):
return self.getToken(AutolevParser.Frames, 0)
def Bodies(self):
return self.getToken(AutolevParser.Bodies, 0)
def Particles(self):
return self.getToken(AutolevParser.Particles, 0)
def Points(self):
return self.getToken(AutolevParser.Points, 0)
def Constants(self):
return self.getToken(AutolevParser.Constants, 0)
def Specifieds(self):
return self.getToken(AutolevParser.Specifieds, 0)
def Imaginary(self):
return self.getToken(AutolevParser.Imaginary, 0)
def Variables(self):
return self.getToken(AutolevParser.Variables, 0)
def MotionVariables(self):
return self.getToken(AutolevParser.MotionVariables, 0)
def getRuleIndex(self):
return AutolevParser.RULE_varType
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterVarType" ):
listener.enterVarType(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitVarType" ):
listener.exitVarType(self)
def varType(self):
localctx = AutolevParser.VarTypeContext(self, self._ctx, self.state)
self.enterRule(localctx, 16, self.RULE_varType)
self._la = 0 # Token type
try:
self.state = 164
self._errHandler.sync(self)
token = self._input.LA(1)
if token in [34]:
self.enterOuterAlt(localctx, 1)
self.state = 142
self.match(AutolevParser.Newtonian)
pass
elif token in [35]:
self.enterOuterAlt(localctx, 2)
self.state = 143
self.match(AutolevParser.Frames)
pass
elif token in [36]:
self.enterOuterAlt(localctx, 3)
self.state = 144
self.match(AutolevParser.Bodies)
pass
elif token in [37]:
self.enterOuterAlt(localctx, 4)
self.state = 145
self.match(AutolevParser.Particles)
pass
elif token in [38]:
self.enterOuterAlt(localctx, 5)
self.state = 146
self.match(AutolevParser.Points)
pass
elif token in [39]:
self.enterOuterAlt(localctx, 6)
self.state = 147
self.match(AutolevParser.Constants)
pass
elif token in [40]:
self.enterOuterAlt(localctx, 7)
self.state = 148
self.match(AutolevParser.Specifieds)
pass
elif token in [41]:
self.enterOuterAlt(localctx, 8)
self.state = 149
self.match(AutolevParser.Imaginary)
pass
elif token in [42]:
self.enterOuterAlt(localctx, 9)
self.state = 150
self.match(AutolevParser.Variables)
self.state = 154
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==11:
self.state = 151
self.match(AutolevParser.T__10)
self.state = 156
self._errHandler.sync(self)
_la = self._input.LA(1)
pass
elif token in [43]:
self.enterOuterAlt(localctx, 10)
self.state = 157
self.match(AutolevParser.MotionVariables)
self.state = 161
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==11:
self.state = 158
self.match(AutolevParser.T__10)
self.state = 163
self._errHandler.sync(self)
_la = self._input.LA(1)
pass
else:
raise NoViableAltException(self)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class VarDecl2Context(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def ID(self):
return self.getToken(AutolevParser.ID, 0)
def INT(self, i:int=None):
if i is None:
return self.getTokens(AutolevParser.INT)
else:
return self.getToken(AutolevParser.INT, i)
def expr(self):
return self.getTypedRuleContext(AutolevParser.ExprContext,0)
def getRuleIndex(self):
return AutolevParser.RULE_varDecl2
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterVarDecl2" ):
listener.enterVarDecl2(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitVarDecl2" ):
listener.exitVarDecl2(self)
def varDecl2(self):
localctx = AutolevParser.VarDecl2Context(self, self._ctx, self.state)
self.enterRule(localctx, 18, self.RULE_varDecl2)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 166
self.match(AutolevParser.ID)
self.state = 172
self._errHandler.sync(self)
la_ = self._interp.adaptivePredict(self._input,15,self._ctx)
if la_ == 1:
self.state = 167
self.match(AutolevParser.T__13)
self.state = 168
self.match(AutolevParser.INT)
self.state = 169
self.match(AutolevParser.T__9)
self.state = 170
self.match(AutolevParser.INT)
self.state = 171
self.match(AutolevParser.T__14)
self.state = 188
self._errHandler.sync(self)
la_ = self._interp.adaptivePredict(self._input,17,self._ctx)
if la_ == 1:
self.state = 174
self.match(AutolevParser.T__13)
self.state = 175
self.match(AutolevParser.INT)
self.state = 176
self.match(AutolevParser.T__15)
self.state = 177
self.match(AutolevParser.INT)
self.state = 184
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==10:
self.state = 178
self.match(AutolevParser.T__9)
self.state = 179
self.match(AutolevParser.INT)
self.state = 180
self.match(AutolevParser.T__15)
self.state = 181
self.match(AutolevParser.INT)
self.state = 186
self._errHandler.sync(self)
_la = self._input.LA(1)
self.state = 187
self.match(AutolevParser.T__14)
self.state = 193
self._errHandler.sync(self)
_la = self._input.LA(1)
if _la==14:
self.state = 190
self.match(AutolevParser.T__13)
self.state = 191
self.match(AutolevParser.INT)
self.state = 192
self.match(AutolevParser.T__14)
self.state = 196
self._errHandler.sync(self)
_la = self._input.LA(1)
if _la==17 or _la==18:
self.state = 195
_la = self._input.LA(1)
if not(_la==17 or _la==18):
self._errHandler.recoverInline(self)
else:
self._errHandler.reportMatch(self)
self.consume()
self.state = 201
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==11:
self.state = 198
self.match(AutolevParser.T__10)
self.state = 203
self._errHandler.sync(self)
_la = self._input.LA(1)
self.state = 206
self._errHandler.sync(self)
_la = self._input.LA(1)
if _la==3:
self.state = 204
self.match(AutolevParser.T__2)
self.state = 205
self.expr(0)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class RangesContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def INT(self, i:int=None):
if i is None:
return self.getTokens(AutolevParser.INT)
else:
return self.getToken(AutolevParser.INT, i)
def getRuleIndex(self):
return AutolevParser.RULE_ranges
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterRanges" ):
listener.enterRanges(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitRanges" ):
listener.exitRanges(self)
def ranges(self):
localctx = AutolevParser.RangesContext(self, self._ctx, self.state)
self.enterRule(localctx, 20, self.RULE_ranges)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 208
self.match(AutolevParser.T__13)
self.state = 209
self.match(AutolevParser.INT)
self.state = 210
self.match(AutolevParser.T__15)
self.state = 211
self.match(AutolevParser.INT)
self.state = 218
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==10:
self.state = 212
self.match(AutolevParser.T__9)
self.state = 213
self.match(AutolevParser.INT)
self.state = 214
self.match(AutolevParser.T__15)
self.state = 215
self.match(AutolevParser.INT)
self.state = 220
self._errHandler.sync(self)
_la = self._input.LA(1)
self.state = 221
self.match(AutolevParser.T__14)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class MassDeclContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def Mass(self):
return self.getToken(AutolevParser.Mass, 0)
def massDecl2(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.MassDecl2Context)
else:
return self.getTypedRuleContext(AutolevParser.MassDecl2Context,i)
def getRuleIndex(self):
return AutolevParser.RULE_massDecl
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterMassDecl" ):
listener.enterMassDecl(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitMassDecl" ):
listener.exitMassDecl(self)
def massDecl(self):
localctx = AutolevParser.MassDeclContext(self, self._ctx, self.state)
self.enterRule(localctx, 22, self.RULE_massDecl)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 223
self.match(AutolevParser.Mass)
self.state = 224
self.massDecl2()
self.state = 229
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==10:
self.state = 225
self.match(AutolevParser.T__9)
self.state = 226
self.massDecl2()
self.state = 231
self._errHandler.sync(self)
_la = self._input.LA(1)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class MassDecl2Context(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def ID(self):
return self.getToken(AutolevParser.ID, 0)
def expr(self):
return self.getTypedRuleContext(AutolevParser.ExprContext,0)
def getRuleIndex(self):
return AutolevParser.RULE_massDecl2
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterMassDecl2" ):
listener.enterMassDecl2(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitMassDecl2" ):
listener.exitMassDecl2(self)
def massDecl2(self):
localctx = AutolevParser.MassDecl2Context(self, self._ctx, self.state)
self.enterRule(localctx, 24, self.RULE_massDecl2)
try:
self.enterOuterAlt(localctx, 1)
self.state = 232
self.match(AutolevParser.ID)
self.state = 233
self.match(AutolevParser.T__2)
self.state = 234
self.expr(0)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class InertiaDeclContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def Inertia(self):
return self.getToken(AutolevParser.Inertia, 0)
def ID(self, i:int=None):
if i is None:
return self.getTokens(AutolevParser.ID)
else:
return self.getToken(AutolevParser.ID, i)
def expr(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.ExprContext)
else:
return self.getTypedRuleContext(AutolevParser.ExprContext,i)
def getRuleIndex(self):
return AutolevParser.RULE_inertiaDecl
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterInertiaDecl" ):
listener.enterInertiaDecl(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitInertiaDecl" ):
listener.exitInertiaDecl(self)
def inertiaDecl(self):
localctx = AutolevParser.InertiaDeclContext(self, self._ctx, self.state)
self.enterRule(localctx, 26, self.RULE_inertiaDecl)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 236
self.match(AutolevParser.Inertia)
self.state = 237
self.match(AutolevParser.ID)
self.state = 241
self._errHandler.sync(self)
_la = self._input.LA(1)
if _la==12:
self.state = 238
self.match(AutolevParser.T__11)
self.state = 239
self.match(AutolevParser.ID)
self.state = 240
self.match(AutolevParser.T__12)
self.state = 245
self._errHandler.sync(self)
_la = self._input.LA(1)
while True:
self.state = 243
self.match(AutolevParser.T__9)
self.state = 244
self.expr(0)
self.state = 247
self._errHandler.sync(self)
_la = self._input.LA(1)
if not (_la==10):
break
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class MatrixContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def expr(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.ExprContext)
else:
return self.getTypedRuleContext(AutolevParser.ExprContext,i)
def getRuleIndex(self):
return AutolevParser.RULE_matrix
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterMatrix" ):
listener.enterMatrix(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitMatrix" ):
listener.exitMatrix(self)
def matrix(self):
localctx = AutolevParser.MatrixContext(self, self._ctx, self.state)
self.enterRule(localctx, 28, self.RULE_matrix)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 249
self.match(AutolevParser.T__0)
self.state = 250
self.expr(0)
self.state = 255
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==10 or _la==19:
self.state = 251
_la = self._input.LA(1)
if not(_la==10 or _la==19):
self._errHandler.recoverInline(self)
else:
self._errHandler.reportMatch(self)
self.consume()
self.state = 252
self.expr(0)
self.state = 257
self._errHandler.sync(self)
_la = self._input.LA(1)
self.state = 258
self.match(AutolevParser.T__1)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class MatrixInOutputContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def ID(self, i:int=None):
if i is None:
return self.getTokens(AutolevParser.ID)
else:
return self.getToken(AutolevParser.ID, i)
def FLOAT(self):
return self.getToken(AutolevParser.FLOAT, 0)
def INT(self):
return self.getToken(AutolevParser.INT, 0)
def getRuleIndex(self):
return AutolevParser.RULE_matrixInOutput
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterMatrixInOutput" ):
listener.enterMatrixInOutput(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitMatrixInOutput" ):
listener.exitMatrixInOutput(self)
def matrixInOutput(self):
localctx = AutolevParser.MatrixInOutputContext(self, self._ctx, self.state)
self.enterRule(localctx, 30, self.RULE_matrixInOutput)
self._la = 0 # Token type
try:
self.state = 268
self._errHandler.sync(self)
token = self._input.LA(1)
if token in [48]:
self.enterOuterAlt(localctx, 1)
self.state = 260
self.match(AutolevParser.ID)
self.state = 261
self.match(AutolevParser.ID)
self.state = 262
self.match(AutolevParser.T__2)
self.state = 264
self._errHandler.sync(self)
_la = self._input.LA(1)
if _la==44 or _la==45:
self.state = 263
_la = self._input.LA(1)
if not(_la==44 or _la==45):
self._errHandler.recoverInline(self)
else:
self._errHandler.reportMatch(self)
self.consume()
pass
elif token in [45]:
self.enterOuterAlt(localctx, 2)
self.state = 266
self.match(AutolevParser.FLOAT)
pass
elif token in [44]:
self.enterOuterAlt(localctx, 3)
self.state = 267
self.match(AutolevParser.INT)
pass
else:
raise NoViableAltException(self)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class CodeCommandsContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def units(self):
return self.getTypedRuleContext(AutolevParser.UnitsContext,0)
def inputs(self):
return self.getTypedRuleContext(AutolevParser.InputsContext,0)
def outputs(self):
return self.getTypedRuleContext(AutolevParser.OutputsContext,0)
def codegen(self):
return self.getTypedRuleContext(AutolevParser.CodegenContext,0)
def commands(self):
return self.getTypedRuleContext(AutolevParser.CommandsContext,0)
def getRuleIndex(self):
return AutolevParser.RULE_codeCommands
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterCodeCommands" ):
listener.enterCodeCommands(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitCodeCommands" ):
listener.exitCodeCommands(self)
def codeCommands(self):
localctx = AutolevParser.CodeCommandsContext(self, self._ctx, self.state)
self.enterRule(localctx, 32, self.RULE_codeCommands)
try:
self.state = 275
self._errHandler.sync(self)
token = self._input.LA(1)
if token in [32]:
self.enterOuterAlt(localctx, 1)
self.state = 270
self.units()
pass
elif token in [29]:
self.enterOuterAlt(localctx, 2)
self.state = 271
self.inputs()
pass
elif token in [30]:
self.enterOuterAlt(localctx, 3)
self.state = 272
self.outputs()
pass
elif token in [48]:
self.enterOuterAlt(localctx, 4)
self.state = 273
self.codegen()
pass
elif token in [31, 33]:
self.enterOuterAlt(localctx, 5)
self.state = 274
self.commands()
pass
else:
raise NoViableAltException(self)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class SettingsContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def ID(self, i:int=None):
if i is None:
return self.getTokens(AutolevParser.ID)
else:
return self.getToken(AutolevParser.ID, i)
def EXP(self):
return self.getToken(AutolevParser.EXP, 0)
def FLOAT(self):
return self.getToken(AutolevParser.FLOAT, 0)
def INT(self):
return self.getToken(AutolevParser.INT, 0)
def getRuleIndex(self):
return AutolevParser.RULE_settings
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterSettings" ):
listener.enterSettings(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitSettings" ):
listener.exitSettings(self)
def settings(self):
localctx = AutolevParser.SettingsContext(self, self._ctx, self.state)
self.enterRule(localctx, 34, self.RULE_settings)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 277
self.match(AutolevParser.ID)
self.state = 279
self._errHandler.sync(self)
la_ = self._interp.adaptivePredict(self._input,30,self._ctx)
if la_ == 1:
self.state = 278
_la = self._input.LA(1)
if not(((_la) & ~0x3f) == 0 and ((1 << _la) & 404620279021568) != 0):
self._errHandler.recoverInline(self)
else:
self._errHandler.reportMatch(self)
self.consume()
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class UnitsContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def UnitSystem(self):
return self.getToken(AutolevParser.UnitSystem, 0)
def ID(self, i:int=None):
if i is None:
return self.getTokens(AutolevParser.ID)
else:
return self.getToken(AutolevParser.ID, i)
def getRuleIndex(self):
return AutolevParser.RULE_units
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterUnits" ):
listener.enterUnits(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitUnits" ):
listener.exitUnits(self)
def units(self):
localctx = AutolevParser.UnitsContext(self, self._ctx, self.state)
self.enterRule(localctx, 36, self.RULE_units)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 281
self.match(AutolevParser.UnitSystem)
self.state = 282
self.match(AutolevParser.ID)
self.state = 287
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==10:
self.state = 283
self.match(AutolevParser.T__9)
self.state = 284
self.match(AutolevParser.ID)
self.state = 289
self._errHandler.sync(self)
_la = self._input.LA(1)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class InputsContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def Input(self):
return self.getToken(AutolevParser.Input, 0)
def inputs2(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.Inputs2Context)
else:
return self.getTypedRuleContext(AutolevParser.Inputs2Context,i)
def getRuleIndex(self):
return AutolevParser.RULE_inputs
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterInputs" ):
listener.enterInputs(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitInputs" ):
listener.exitInputs(self)
def inputs(self):
localctx = AutolevParser.InputsContext(self, self._ctx, self.state)
self.enterRule(localctx, 38, self.RULE_inputs)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 290
self.match(AutolevParser.Input)
self.state = 291
self.inputs2()
self.state = 296
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==10:
self.state = 292
self.match(AutolevParser.T__9)
self.state = 293
self.inputs2()
self.state = 298
self._errHandler.sync(self)
_la = self._input.LA(1)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class Id_diffContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def ID(self):
return self.getToken(AutolevParser.ID, 0)
def diff(self):
return self.getTypedRuleContext(AutolevParser.DiffContext,0)
def getRuleIndex(self):
return AutolevParser.RULE_id_diff
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterId_diff" ):
listener.enterId_diff(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitId_diff" ):
listener.exitId_diff(self)
def id_diff(self):
localctx = AutolevParser.Id_diffContext(self, self._ctx, self.state)
self.enterRule(localctx, 40, self.RULE_id_diff)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 299
self.match(AutolevParser.ID)
self.state = 301
self._errHandler.sync(self)
_la = self._input.LA(1)
if _la==11:
self.state = 300
self.diff()
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class Inputs2Context(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def id_diff(self):
return self.getTypedRuleContext(AutolevParser.Id_diffContext,0)
def expr(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.ExprContext)
else:
return self.getTypedRuleContext(AutolevParser.ExprContext,i)
def getRuleIndex(self):
return AutolevParser.RULE_inputs2
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterInputs2" ):
listener.enterInputs2(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitInputs2" ):
listener.exitInputs2(self)
def inputs2(self):
localctx = AutolevParser.Inputs2Context(self, self._ctx, self.state)
self.enterRule(localctx, 42, self.RULE_inputs2)
try:
self.enterOuterAlt(localctx, 1)
self.state = 303
self.id_diff()
self.state = 304
self.match(AutolevParser.T__2)
self.state = 305
self.expr(0)
self.state = 307
self._errHandler.sync(self)
la_ = self._interp.adaptivePredict(self._input,34,self._ctx)
if la_ == 1:
self.state = 306
self.expr(0)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class OutputsContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def Output(self):
return self.getToken(AutolevParser.Output, 0)
def outputs2(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.Outputs2Context)
else:
return self.getTypedRuleContext(AutolevParser.Outputs2Context,i)
def getRuleIndex(self):
return AutolevParser.RULE_outputs
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterOutputs" ):
listener.enterOutputs(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitOutputs" ):
listener.exitOutputs(self)
def outputs(self):
localctx = AutolevParser.OutputsContext(self, self._ctx, self.state)
self.enterRule(localctx, 44, self.RULE_outputs)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 309
self.match(AutolevParser.Output)
self.state = 310
self.outputs2()
self.state = 315
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==10:
self.state = 311
self.match(AutolevParser.T__9)
self.state = 312
self.outputs2()
self.state = 317
self._errHandler.sync(self)
_la = self._input.LA(1)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class Outputs2Context(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def expr(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.ExprContext)
else:
return self.getTypedRuleContext(AutolevParser.ExprContext,i)
def getRuleIndex(self):
return AutolevParser.RULE_outputs2
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterOutputs2" ):
listener.enterOutputs2(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitOutputs2" ):
listener.exitOutputs2(self)
def outputs2(self):
localctx = AutolevParser.Outputs2Context(self, self._ctx, self.state)
self.enterRule(localctx, 46, self.RULE_outputs2)
try:
self.enterOuterAlt(localctx, 1)
self.state = 318
self.expr(0)
self.state = 320
self._errHandler.sync(self)
la_ = self._interp.adaptivePredict(self._input,36,self._ctx)
if la_ == 1:
self.state = 319
self.expr(0)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class CodegenContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def ID(self, i:int=None):
if i is None:
return self.getTokens(AutolevParser.ID)
else:
return self.getToken(AutolevParser.ID, i)
def functionCall(self):
return self.getTypedRuleContext(AutolevParser.FunctionCallContext,0)
def matrixInOutput(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.MatrixInOutputContext)
else:
return self.getTypedRuleContext(AutolevParser.MatrixInOutputContext,i)
def getRuleIndex(self):
return AutolevParser.RULE_codegen
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterCodegen" ):
listener.enterCodegen(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitCodegen" ):
listener.exitCodegen(self)
def codegen(self):
localctx = AutolevParser.CodegenContext(self, self._ctx, self.state)
self.enterRule(localctx, 48, self.RULE_codegen)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 322
self.match(AutolevParser.ID)
self.state = 323
self.functionCall()
self.state = 335
self._errHandler.sync(self)
_la = self._input.LA(1)
if _la==1:
self.state = 324
self.match(AutolevParser.T__0)
self.state = 325
self.matrixInOutput()
self.state = 330
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==10:
self.state = 326
self.match(AutolevParser.T__9)
self.state = 327
self.matrixInOutput()
self.state = 332
self._errHandler.sync(self)
_la = self._input.LA(1)
self.state = 333
self.match(AutolevParser.T__1)
self.state = 337
self.match(AutolevParser.ID)
self.state = 338
self.match(AutolevParser.T__19)
self.state = 339
self.match(AutolevParser.ID)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class CommandsContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def Save(self):
return self.getToken(AutolevParser.Save, 0)
def ID(self, i:int=None):
if i is None:
return self.getTokens(AutolevParser.ID)
else:
return self.getToken(AutolevParser.ID, i)
def Encode(self):
return self.getToken(AutolevParser.Encode, 0)
def getRuleIndex(self):
return AutolevParser.RULE_commands
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterCommands" ):
listener.enterCommands(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitCommands" ):
listener.exitCommands(self)
def commands(self):
localctx = AutolevParser.CommandsContext(self, self._ctx, self.state)
self.enterRule(localctx, 50, self.RULE_commands)
self._la = 0 # Token type
try:
self.state = 354
self._errHandler.sync(self)
token = self._input.LA(1)
if token in [31]:
self.enterOuterAlt(localctx, 1)
self.state = 341
self.match(AutolevParser.Save)
self.state = 342
self.match(AutolevParser.ID)
self.state = 343
self.match(AutolevParser.T__19)
self.state = 344
self.match(AutolevParser.ID)
pass
elif token in [33]:
self.enterOuterAlt(localctx, 2)
self.state = 345
self.match(AutolevParser.Encode)
self.state = 346
self.match(AutolevParser.ID)
self.state = 351
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==10:
self.state = 347
self.match(AutolevParser.T__9)
self.state = 348
self.match(AutolevParser.ID)
self.state = 353
self._errHandler.sync(self)
_la = self._input.LA(1)
pass
else:
raise NoViableAltException(self)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class VecContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def ID(self):
return self.getToken(AutolevParser.ID, 0)
def getRuleIndex(self):
return AutolevParser.RULE_vec
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterVec" ):
listener.enterVec(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitVec" ):
listener.exitVec(self)
def vec(self):
localctx = AutolevParser.VecContext(self, self._ctx, self.state)
self.enterRule(localctx, 52, self.RULE_vec)
try:
self.state = 364
self._errHandler.sync(self)
token = self._input.LA(1)
if token in [48]:
self.enterOuterAlt(localctx, 1)
self.state = 356
self.match(AutolevParser.ID)
self.state = 358
self._errHandler.sync(self)
_alt = 1
while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
if _alt == 1:
self.state = 357
self.match(AutolevParser.T__20)
else:
raise NoViableAltException(self)
self.state = 360
self._errHandler.sync(self)
_alt = self._interp.adaptivePredict(self._input,41,self._ctx)
pass
elif token in [22]:
self.enterOuterAlt(localctx, 2)
self.state = 362
self.match(AutolevParser.T__21)
pass
elif token in [23]:
self.enterOuterAlt(localctx, 3)
self.state = 363
self.match(AutolevParser.T__22)
pass
else:
raise NoViableAltException(self)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.exitRule()
return localctx
class ExprContext(ParserRuleContext):
__slots__ = 'parser'
def __init__(self, parser, parent:ParserRuleContext=None, invokingState:int=-1):
super().__init__(parent, invokingState)
self.parser = parser
def getRuleIndex(self):
return AutolevParser.RULE_expr
def copyFrom(self, ctx:ParserRuleContext):
super().copyFrom(ctx)
class ParensContext(ExprContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.ExprContext
super().__init__(parser)
self.copyFrom(ctx)
def expr(self):
return self.getTypedRuleContext(AutolevParser.ExprContext,0)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterParens" ):
listener.enterParens(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitParens" ):
listener.exitParens(self)
class VectorOrDyadicContext(ExprContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.ExprContext
super().__init__(parser)
self.copyFrom(ctx)
def vec(self):
return self.getTypedRuleContext(AutolevParser.VecContext,0)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterVectorOrDyadic" ):
listener.enterVectorOrDyadic(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitVectorOrDyadic" ):
listener.exitVectorOrDyadic(self)
class ExponentContext(ExprContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.ExprContext
super().__init__(parser)
self.copyFrom(ctx)
def expr(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.ExprContext)
else:
return self.getTypedRuleContext(AutolevParser.ExprContext,i)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterExponent" ):
listener.enterExponent(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitExponent" ):
listener.exitExponent(self)
class MulDivContext(ExprContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.ExprContext
super().__init__(parser)
self.copyFrom(ctx)
def expr(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.ExprContext)
else:
return self.getTypedRuleContext(AutolevParser.ExprContext,i)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterMulDiv" ):
listener.enterMulDiv(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitMulDiv" ):
listener.exitMulDiv(self)
class AddSubContext(ExprContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.ExprContext
super().__init__(parser)
self.copyFrom(ctx)
def expr(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.ExprContext)
else:
return self.getTypedRuleContext(AutolevParser.ExprContext,i)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterAddSub" ):
listener.enterAddSub(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitAddSub" ):
listener.exitAddSub(self)
class FloatContext(ExprContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.ExprContext
super().__init__(parser)
self.copyFrom(ctx)
def FLOAT(self):
return self.getToken(AutolevParser.FLOAT, 0)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterFloat" ):
listener.enterFloat(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitFloat" ):
listener.exitFloat(self)
class IntContext(ExprContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.ExprContext
super().__init__(parser)
self.copyFrom(ctx)
def INT(self):
return self.getToken(AutolevParser.INT, 0)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterInt" ):
listener.enterInt(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitInt" ):
listener.exitInt(self)
class IdEqualsExprContext(ExprContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.ExprContext
super().__init__(parser)
self.copyFrom(ctx)
def expr(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.ExprContext)
else:
return self.getTypedRuleContext(AutolevParser.ExprContext,i)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterIdEqualsExpr" ):
listener.enterIdEqualsExpr(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitIdEqualsExpr" ):
listener.exitIdEqualsExpr(self)
class NegativeOneContext(ExprContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.ExprContext
super().__init__(parser)
self.copyFrom(ctx)
def expr(self):
return self.getTypedRuleContext(AutolevParser.ExprContext,0)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterNegativeOne" ):
listener.enterNegativeOne(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitNegativeOne" ):
listener.exitNegativeOne(self)
class FunctionContext(ExprContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.ExprContext
super().__init__(parser)
self.copyFrom(ctx)
def functionCall(self):
return self.getTypedRuleContext(AutolevParser.FunctionCallContext,0)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterFunction" ):
listener.enterFunction(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitFunction" ):
listener.exitFunction(self)
class RangessContext(ExprContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.ExprContext
super().__init__(parser)
self.copyFrom(ctx)
def ranges(self):
return self.getTypedRuleContext(AutolevParser.RangesContext,0)
def ID(self):
return self.getToken(AutolevParser.ID, 0)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterRangess" ):
listener.enterRangess(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitRangess" ):
listener.exitRangess(self)
class ColonContext(ExprContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.ExprContext
super().__init__(parser)
self.copyFrom(ctx)
def expr(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.ExprContext)
else:
return self.getTypedRuleContext(AutolevParser.ExprContext,i)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterColon" ):
listener.enterColon(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitColon" ):
listener.exitColon(self)
class IdContext(ExprContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.ExprContext
super().__init__(parser)
self.copyFrom(ctx)
def ID(self):
return self.getToken(AutolevParser.ID, 0)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterId" ):
listener.enterId(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitId" ):
listener.exitId(self)
class ExpContext(ExprContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.ExprContext
super().__init__(parser)
self.copyFrom(ctx)
def EXP(self):
return self.getToken(AutolevParser.EXP, 0)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterExp" ):
listener.enterExp(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitExp" ):
listener.exitExp(self)
class MatricesContext(ExprContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.ExprContext
super().__init__(parser)
self.copyFrom(ctx)
def matrix(self):
return self.getTypedRuleContext(AutolevParser.MatrixContext,0)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterMatrices" ):
listener.enterMatrices(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitMatrices" ):
listener.exitMatrices(self)
class IndexingContext(ExprContext):
def __init__(self, parser, ctx:ParserRuleContext): # actually a AutolevParser.ExprContext
super().__init__(parser)
self.copyFrom(ctx)
def ID(self):
return self.getToken(AutolevParser.ID, 0)
def expr(self, i:int=None):
if i is None:
return self.getTypedRuleContexts(AutolevParser.ExprContext)
else:
return self.getTypedRuleContext(AutolevParser.ExprContext,i)
def enterRule(self, listener:ParseTreeListener):
if hasattr( listener, "enterIndexing" ):
listener.enterIndexing(self)
def exitRule(self, listener:ParseTreeListener):
if hasattr( listener, "exitIndexing" ):
listener.exitIndexing(self)
def expr(self, _p:int=0):
_parentctx = self._ctx
_parentState = self.state
localctx = AutolevParser.ExprContext(self, self._ctx, _parentState)
_prevctx = localctx
_startState = 54
self.enterRecursionRule(localctx, 54, self.RULE_expr, _p)
self._la = 0 # Token type
try:
self.enterOuterAlt(localctx, 1)
self.state = 408
self._errHandler.sync(self)
la_ = self._interp.adaptivePredict(self._input,47,self._ctx)
if la_ == 1:
localctx = AutolevParser.ExpContext(self, localctx)
self._ctx = localctx
_prevctx = localctx
self.state = 367
self.match(AutolevParser.EXP)
pass
elif la_ == 2:
localctx = AutolevParser.NegativeOneContext(self, localctx)
self._ctx = localctx
_prevctx = localctx
self.state = 368
self.match(AutolevParser.T__17)
self.state = 369
self.expr(12)
pass
elif la_ == 3:
localctx = AutolevParser.FloatContext(self, localctx)
self._ctx = localctx
_prevctx = localctx
self.state = 370
self.match(AutolevParser.FLOAT)
pass
elif la_ == 4:
localctx = AutolevParser.IntContext(self, localctx)
self._ctx = localctx
_prevctx = localctx
self.state = 371
self.match(AutolevParser.INT)
pass
elif la_ == 5:
localctx = AutolevParser.IdContext(self, localctx)
self._ctx = localctx
_prevctx = localctx
self.state = 372
self.match(AutolevParser.ID)
self.state = 376
self._errHandler.sync(self)
_alt = self._interp.adaptivePredict(self._input,43,self._ctx)
while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
if _alt==1:
self.state = 373
self.match(AutolevParser.T__10)
self.state = 378
self._errHandler.sync(self)
_alt = self._interp.adaptivePredict(self._input,43,self._ctx)
pass
elif la_ == 6:
localctx = AutolevParser.VectorOrDyadicContext(self, localctx)
self._ctx = localctx
_prevctx = localctx
self.state = 379
self.vec()
pass
elif la_ == 7:
localctx = AutolevParser.IndexingContext(self, localctx)
self._ctx = localctx
_prevctx = localctx
self.state = 380
self.match(AutolevParser.ID)
self.state = 381
self.match(AutolevParser.T__0)
self.state = 382
self.expr(0)
self.state = 387
self._errHandler.sync(self)
_la = self._input.LA(1)
while _la==10:
self.state = 383
self.match(AutolevParser.T__9)
self.state = 384
self.expr(0)
self.state = 389
self._errHandler.sync(self)
_la = self._input.LA(1)
self.state = 390
self.match(AutolevParser.T__1)
pass
elif la_ == 8:
localctx = AutolevParser.FunctionContext(self, localctx)
self._ctx = localctx
_prevctx = localctx
self.state = 392
self.functionCall()
pass
elif la_ == 9:
localctx = AutolevParser.MatricesContext(self, localctx)
self._ctx = localctx
_prevctx = localctx
self.state = 393
self.matrix()
pass
elif la_ == 10:
localctx = AutolevParser.ParensContext(self, localctx)
self._ctx = localctx
_prevctx = localctx
self.state = 394
self.match(AutolevParser.T__11)
self.state = 395
self.expr(0)
self.state = 396
self.match(AutolevParser.T__12)
pass
elif la_ == 11:
localctx = AutolevParser.RangessContext(self, localctx)
self._ctx = localctx
_prevctx = localctx
self.state = 399
self._errHandler.sync(self)
_la = self._input.LA(1)
if _la==48:
self.state = 398
self.match(AutolevParser.ID)
self.state = 401
self.ranges()
self.state = 405
self._errHandler.sync(self)
_alt = self._interp.adaptivePredict(self._input,46,self._ctx)
while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
if _alt==1:
self.state = 402
self.match(AutolevParser.T__10)
self.state = 407
self._errHandler.sync(self)
_alt = self._interp.adaptivePredict(self._input,46,self._ctx)
pass
self._ctx.stop = self._input.LT(-1)
self.state = 427
self._errHandler.sync(self)
_alt = self._interp.adaptivePredict(self._input,49,self._ctx)
while _alt!=2 and _alt!=ATN.INVALID_ALT_NUMBER:
if _alt==1:
if self._parseListeners is not None:
self.triggerExitRuleEvent()
_prevctx = localctx
self.state = 425
self._errHandler.sync(self)
la_ = self._interp.adaptivePredict(self._input,48,self._ctx)
if la_ == 1:
localctx = AutolevParser.ExponentContext(self, AutolevParser.ExprContext(self, _parentctx, _parentState))
self.pushNewRecursionContext(localctx, _startState, self.RULE_expr)
self.state = 410
if not self.precpred(self._ctx, 16):
from antlr4.error.Errors import FailedPredicateException
raise FailedPredicateException(self, "self.precpred(self._ctx, 16)")
self.state = 411
self.match(AutolevParser.T__23)
self.state = 412
self.expr(17)
pass
elif la_ == 2:
localctx = AutolevParser.MulDivContext(self, AutolevParser.ExprContext(self, _parentctx, _parentState))
self.pushNewRecursionContext(localctx, _startState, self.RULE_expr)
self.state = 413
if not self.precpred(self._ctx, 15):
from antlr4.error.Errors import FailedPredicateException
raise FailedPredicateException(self, "self.precpred(self._ctx, 15)")
self.state = 414
_la = self._input.LA(1)
if not(_la==25 or _la==26):
self._errHandler.recoverInline(self)
else:
self._errHandler.reportMatch(self)
self.consume()
self.state = 415
self.expr(16)
pass
elif la_ == 3:
localctx = AutolevParser.AddSubContext(self, AutolevParser.ExprContext(self, _parentctx, _parentState))
self.pushNewRecursionContext(localctx, _startState, self.RULE_expr)
self.state = 416
if not self.precpred(self._ctx, 14):
from antlr4.error.Errors import FailedPredicateException
raise FailedPredicateException(self, "self.precpred(self._ctx, 14)")
self.state = 417
_la = self._input.LA(1)
if not(_la==17 or _la==18):
self._errHandler.recoverInline(self)
else:
self._errHandler.reportMatch(self)
self.consume()
self.state = 418
self.expr(15)
pass
elif la_ == 4:
localctx = AutolevParser.IdEqualsExprContext(self, AutolevParser.ExprContext(self, _parentctx, _parentState))
self.pushNewRecursionContext(localctx, _startState, self.RULE_expr)
self.state = 419
if not self.precpred(self._ctx, 3):
from antlr4.error.Errors import FailedPredicateException
raise FailedPredicateException(self, "self.precpred(self._ctx, 3)")
self.state = 420
self.match(AutolevParser.T__2)
self.state = 421
self.expr(4)
pass
elif la_ == 5:
localctx = AutolevParser.ColonContext(self, AutolevParser.ExprContext(self, _parentctx, _parentState))
self.pushNewRecursionContext(localctx, _startState, self.RULE_expr)
self.state = 422
if not self.precpred(self._ctx, 2):
from antlr4.error.Errors import FailedPredicateException
raise FailedPredicateException(self, "self.precpred(self._ctx, 2)")
self.state = 423
self.match(AutolevParser.T__15)
self.state = 424
self.expr(3)
pass
self.state = 429
self._errHandler.sync(self)
_alt = self._interp.adaptivePredict(self._input,49,self._ctx)
except RecognitionException as re:
localctx.exception = re
self._errHandler.reportError(self, re)
self._errHandler.recover(self, re)
finally:
self.unrollRecursionContexts(_parentctx)
return localctx
def sempred(self, localctx:RuleContext, ruleIndex:int, predIndex:int):
if self._predicates == None:
self._predicates = dict()
self._predicates[27] = self.expr_sempred
pred = self._predicates.get(ruleIndex, None)
if pred is None:
raise Exception("No predicate with index:" + str(ruleIndex))
else:
return pred(localctx, predIndex)
def expr_sempred(self, localctx:ExprContext, predIndex:int):
if predIndex == 0:
return self.precpred(self._ctx, 16)
if predIndex == 1:
return self.precpred(self._ctx, 15)
if predIndex == 2:
return self.precpred(self._ctx, 14)
if predIndex == 3:
return self.precpred(self._ctx, 3)
if predIndex == 4:
return self.precpred(self._ctx, 2)
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