def main(argv):
inputStr = argv[0]
try:
if os.path.isdir(inputStr):
files = [
file for file in os.listdir(inputStr) if file.endswith('.jack')
]
for file in files:
tokenizedArray = tokenizeFile(inputStr + '/' + file)
compilerObj = Compiler.Compiler(
Compiler.handleTabsArray(tokenizedArray))
compilerObj.compileEngine()
outputFileName = file.replace(".jack", ".xml")
outputStr = inputStr + '/' + outputFileName
# writeArrayToFile(tokenizedArray, outputFileName, True)
writeArrayToFile(compilerObj.compiledArray, outputStr, False)
else:
tokenizedArray = tokenizeFile(inputStr)
compilerObj = Compiler.Compiler(
Compiler.handleTabsArray(tokenizedArray))
compilerObj.compileEngine()
outputFileName = inputStr.replace(".jack", ".xml")
# writeArrayToFile(tokenizedArray, outputFileName, True)
writeArrayToFile(compilerObj.compiledArray, outputFileName, False)
except TypeError:
print("I Love Nand")
def __init__(self,
sparql=None,
compiler=None,
evaluator=None,
multiline_parser=None,
options=['time'],
debug=False,
load_translations=True):
self.sparql = sparql
if self.sparql:
self.n = sparql.n
else:
self.n = Namespaces.Namespaces()
# self.translator = translator
if compiler:
self.compiler = compiler
else:
self.compiler = Compiler.Compiler(self.n)
if evaluator == None:
evaluator = Evaluator.Evaluator(self.n)
self.evaluator = evaluator
self.parser = Parser.Parser(self.n)
self.urigen = UniqueURIGenerator()
if multiline_parser == None:
multiline_parser = MultilineParser.MultilineParser(self.n, self)
self.multiline_parser = multiline_parser
self.options = options
self.cum_comp_time = 0
self.cum_eval_time = 0
if not debug:
self.compiler.debug_off()
if load_translations:
from loadTranslations import loadTranslations
loadTranslations(self)
def __init__(self):
self.instructionstream = []
self.compiler =\
Compiler.Compiler(self.instructionstream)
self.instructionStreamOffset = 0
self.pcTest = 0
self.pc = 0
self.memory = Memory.Memory()
self.pins = {
"Vdd": 0,
"D7": 0,
"D6": 0,
"D5": 0,
"D4": 0,
"D3": 0,
"D2": 0,
"D1": 0,
"D0": 0,
"Vcc": 0,
"S2": 0,
"S1": 0,
"S0": 0,
"Sync": 0,
"Phase 2": 0,
"Phase 1": 0,
"Ready": 0,
"Interrupt": 0,
}
def __init__(self, parser, name):
Node.__init__(self, parser)
self.name = name
try:
p = Parser.Parser(name + '.lam')
compiler = Compiler.Compiler(p)
compiler.compile()
except IOError:
pass #No lam module found, python modules will be sought by the python code
except (SyntacticError, SemanticError) as se:
print "In module " + name + ": "
raise se
def SetCompilerByName(self, cmpl, name):
'''设置编译器,例如修改了编译器的配置
cmpl 是 Compiler 实例或者字典'''
if isinstance(cmpl, dict):
cmpl = Compiler.Compiler(cmpl)
dstIdx = -1
for idx, elm in enumerate(self.compilers):
if elm["name"] == name:
dstIdx = idx
break
if dstIdx != -1:
self.compilers[dstIdx] = cmpl.ToDict()
def compile_dir(dir_path):
comiler = Compiler()
for filePath in os.listdir(dir_path):
filePath = dir_path + '/' + filePath
if filePath.endswith('.h') is False:
continue
print(filePath)
contents = comiler.compile(filePath)
print(contents)
output_file = filePath.replace('.h', '.m')
print(output_file)
with open(output_file, 'w+') as fw:
fw.write(contents)
def init():
index()
config = load_configuration()
processor = Putil(config)
processor.run_data_import()
comp = Compiler(processor.data, config)
comp.run_compilation()
newFilenameSeventhTable = "DataAnalytics"
freshfilename = newFilenameSeventhTable+'.csv'
tablenew = "DataAnalytics"
pathNew = './CsvData/'+freshfilename
(ret, out, err)= run_cmd(['hdfs', 'dfs', '-rm','/tmp/Wheeltrue/CsvData/'+newFilenameSeventhTable+'.csv'])
(ret, out, err)= run_cmd(['hdfs', 'dfs', '-copyFromLocal',pathNew,'/tmp/Wheeltrue/CsvData'])
if (err != ''):
print "Script Errored out while copying data into HWX"
print "Original Error message:"+ err
sys.exit(1)
HwxConnection(tablenew , pathNew)
def GetCompilerByName(self, name):
'''返回的是实例'''
for i in self.compilers:
if i["name"] == name:
return Compiler.Compiler(i)
return None
#!/usr/bin/env python
from Compiler import *
from Earley_Parser import *
from VirtualMachine import *
import KeywordSub
def separate_a_section():
print "="*100
if __name__ == "__main__":
c, vm = Compiler(), VM()
source, rules = Tokenizer.get_list(), Tokenizer.get_rules()
s = EarleyParser(rules).parse(KeywordSub.keywords_substitution(source))
if(s is None):
print
print "Syntax error."
sys.exit(1)
# separate_a_section()
# PrintTree(s)
# separate_a_section()
c.Compile(s)
c.program += [EXIT]
separate_a_section()
vm.Execute(c.program)
separate_a_section()
print 'Values : ' + str(vm.var_values)
def printNode(node, deep):
if node.kind != Parser.EMPTY:
print("-" * deep + Parser.TYPES[node.kind])
if node.operand1:
printNode(node.operand1, deep + 1)
if node.operand2:
printNode(node.operand2, deep + 1)
if node.operand3:
printNode(node.operand3, deep + 1)
prog = parser.parse()
printNode(prog, 0)
compiler = Compiler()
program = compiler.compile(prog)
i = 0
while i < len(program):
operation = VMTYPES[program[i]]
if operation in VMTYPESWithARG:
print(str(i) + ": " + operation)
i += 1
print(str(i) + ": " + str(program[i]))
i += 1
else:
print(str(i) + ": " + operation)
i = i + 1
vm = VM()
import math import sys import Parser as prs import PrePro as pp import SymbolTable as st import Compiler as cp file = open(sys.argv[1], "r") code = file.read() file.close() filtered = pp.PrePro.filter(code) symbolTable = st.SymbolTable() compiler = cp.Compiler() node = prs.Parser.run(filtered) node.Evaluate(symbolTable, compiler) compiler.flush()
# Generated from Nmod.g4 by ANTLR 4.7
from antlr4 import *
if __name__ is not None and "." in __name__:
from .NmodParser import NmodParser
else:
from NmodParser import NmodParser
from Compiler import *
c = Compiler()
# This class defines a complete listener for a parse tree produced by NmodParser.
class NmodListener(ParseTreeListener):
# Enter a parse tree produced by NmodParser#program.
def enterProgram(self, ctx:NmodParser.ProgramContext):
pass
# Exit a parse tree produced by NmodParser#program.
def exitProgram(self, ctx:NmodParser.ProgramContext):
pass
# Enter a parse tree produced by NmodParser#f_type.
def enterF_type(self, ctx:NmodParser.F_typeContext):
pass
# Exit a parse tree produced by NmodParser#f_type.
def exitF_type(self, ctx:NmodParser.F_typeContext):
pass
import tkinter as tk
from PIL import ImageTk
from PIL import Image
from ScrollFrame import VerticalScrolledFrame
import csv
from Histogram import *
from Compiler import *
sheetData = Compiler()
default_logo = 'first_logo.jpg'
default_image = 'kachow.gif'
''' Reads and creates the list of dictionaries of the teams info '''
inf = []
with open('CSVTest.csv') as csvfile:
reader = csv.DictReader(csvfile, delimiter='/')
for column in reader:
file = {'Team':column['Team'], 'Name':column['Name'], 'Drive':column['Drive'],
'Chassis':column['Chassis'], 'Mechs':column['Mechs'], 'MechD':column['MechD'],
'Autonomous Gear':column['aGear'], 'Autonomous Gear Positon':column['aGearPos'],
'Autonomous Position Start':column['aPosStart'], 'Autonomous Position End':column['aPosEnd'],
'Image':column['Image'], 'Logo':column['Logo'], 'aGearHist':None, 'tGearHist':None, 'presHist':None}
inf.append(file)
for rob in inf:
rob['Mechs'] = rob['Mechs'].split(',')
rob['MechD'] = rob['MechD'].split(',')
for rob in inf:
#print(rob['Team'])
import os
import sys
sys.path.append('./Imports')
import Putil
from Putil import Putil
import Compiler
from Compiler import Compiler
#from WeeklyUtilization import WeeklyUtilization
import json
def load_configuration():
'''Simply loads the json register lookup file'''
with open('register-lookup.json', 'r') as inputFile:
config = json.load(inputFile)
return config
config = load_configuration()
processor = Putil(config)
processor.run_data_import()
comp = Compiler(processor.data, config)
comp.run_compilation()
## First section looking at a week by week breakdown of wheel true utilization
#analyzer = WeeklyUtilization(processor.data)
#analyzer.run_utilization_study()
#!/usr/bin/python -tt
import sys
from Compiler import *
DEBUG = False
for arg in sys.argv:
if arg == "-d":
DEBUG = True
doc = sys.stdin.read()
compiler = Compiler(DEBUG)
result = compiler.compile(doc)
print(result)