I can't make my code read the entire file even though I've used readlines() already.
global i
i = 1
def main( go ):
print("Enter barcode")
f = open("test.txt","r")
bar = input()
global i
while i == 1:
first = f.readlines()
if bar in first:
print(first)
print("y")
main("go")
else:
print("no")
main("go")
main("go")
When you use 'readlines()', you get an array with all the lines of the file and you can use. Try this:
first=f.readlines()
for line in first:
print (line)
and you will get all lines printed.
This is your code fixed:
global i
i = 1
def main( go ):
print("Enter barcode")
f = open("test.txt","r")
bar = input()
global i
first = f.readlines()
for line in first:
if bar in line:
print(line)
print("y")
else:
print("no")
main("go")
Related
The problem I am faced with regards to llvmlite is producing a simple hello world example.
I am unable to display the string global variable value in the function I created.
It appears to always print out the number one.
I have already tried to return the stringtype which produced a error.
from llvmlite import ir
i64 = ir.IntType(64)
i8 = ir.IntType(16)
hellostr = 'hello, world!'
stringtype = ir.ArrayType(i64, len(hellostr))
module = ir.Module( name="m_hello_example" )
hello = ir.GlobalVariable(module, stringtype, '.str4')
fn_int_to_int_type = ir.FunctionType(i64, [stringtype.as_pointer()] )
fn_hel = ir.Function( module, fn_int_to_int_type, name="fn_hel" )
fn_hel_block = fn_hel.append_basic_block( name="fn_hel_entry" )
builder = ir.IRBuilder(fn_hel_block )
# zero = builder.constant(i64, 0)
# const_1 = ir.Constant(stringtype,1);
# builder.ret(const_1)
const_1 = ir.Constant(i64,1);
# print(const_1)
builder.ret(const_1)
print( module )
I was expecting the output to print out the string 'hello, world!'.
Any help would be much appreciated.
Thanks.
It ended up that I was able to solve my problem with the following code:
import llvmlite.ir as ir
import llvmlite.binding as llvm
from ctypes import CFUNCTYPE
def main():
m = ir.Module()
func_ty = ir.FunctionType(ir.VoidType(), []) #defining printer function as type void
func = ir.Function(m, func_ty, name="printer") #define function as printer
builder = ir.IRBuilder(func.append_basic_block('entry')) #defining the entry point of the function printer
fmt = "%s\n\0" #in function printf allows for inserting arg in, next global_fmt statements allow for creating #"fstr" assignment
c_fmt = ir.Constant(ir.ArrayType(ir.IntType(8), len(fmt)),
bytearray(fmt.encode("utf8")))
global_fmt = ir.GlobalVariable(m, c_fmt.type, name="fstr")
global_fmt.linkage = 'internal'
global_fmt.global_constant = True
global_fmt.initializer = c_fmt
arg = "Hello, World!\0" #args will be passed into printf function.
c_str_val = ir.Constant(ir.ArrayType(ir.IntType(8), len(arg)),
bytearray(arg.encode("utf8"))) #creates the c_str_value as a constant
printf_ty = ir.FunctionType(ir.IntType(32), [], var_arg=True) #creation of the printf function begins here and specifies the passing of a argument
printf = ir.Function(m, printf_ty, name="printf")
c_str = builder.alloca(c_str_val.type) #creation of the allocation of the %".2" variable
builder.store(c_str_val, c_str) #store as defined on the next line below %".2"
voidptr_ty = ir.IntType(8).as_pointer()
fmt_arg = builder.bitcast(global_fmt, voidptr_ty) #creates the %".4" variable with the point pointing to the fstr
builder.call(printf, [fmt_arg, c_str]) #We are calling the prinf function with the fmt and arg and returning the value as defiend on the next line
builder.ret_void()
#Next lines are for calling llvm and returning the assembly.
llvm.initialize()
llvm.initialize_native_target()
llvm.initialize_native_asmprinter()
print(str(m)) #PRINTING OUT THE ASSEMBLY
llvm_module = llvm.parse_assembly(str(m)) #Parsing teh assembly
tm = llvm.Target.from_default_triple().create_target_machine() #creating the target machine
with llvm.create_mcjit_compiler(llvm_module, tm) as ee:
ee.finalize_object() #Making sure all modules owned by the execution engine are fully processed and usable for execution
fptr = ee.get_function_address("printer") #fptr will reference the printer function
py_func = CFUNCTYPE(None)(fptr)
py_func() #run the function printer
if __name__ == "__main__":
main()
It appears that I didn't correctly assign the variable and hence why I wasn't returning anything.
pyparsing: The below is the code i put up which can parse a nested function call , a logical function call or a hybrid call which nests both the function and a logical function call. The dump() data adds too many unnecessary levels of braces because of grouping. Removing the Group() results in a wrong output. Is there a guideline to use Group(parsers)?
Also the Pyparsing document does'nt detail on how to walk the tree created and not much of data is available out there. Please point me to a link/guide which helps me write the tree walker for recursively parsed data for my test cases.
I will be translating this parsed data to a valid tcl code.
from pyparsing import *
from pyparsing import OneOrMore, Optional, Word, delimitedList, Suppress
# parse action -maker; # from Paul's example
def makeLRlike(numterms):
if numterms is None:
# None operator can only by binary op
initlen = 2
incr = 1
else:
initlen = {0:1,1:2,2:3,3:5}[numterms]
incr = {0:1,1:1,2:2,3:4}[numterms]
# define parse action for this number of terms,
# to convert flat list of tokens into nested list
def pa(s,l,t):
t = t[0]
if len(t) > initlen:
ret = ParseResults(t[:initlen])
i = initlen
while i < len(t):
ret = ParseResults([ret] + t[i:i+incr])
i += incr
return ParseResults([ret])
return pa
line = Forward()
fcall = Forward().setResultsName("fcall")
flogical = Forward()
lparen = Literal("(").suppress()
rparen = Literal(")").suppress()
arg = Word(alphas,alphanums+"_"+"."+"+"+"-"+"*"+"/")
args = delimitedList(arg).setResultsName("arg")
fargs = delimitedList(OneOrMore(flogical) | OneOrMore(fcall) |
OneOrMore(arg))
fname = Word(alphas,alphanums+"_")
fcall << Group(fname.setResultsName('func') + Group(lparen +
Optional(fargs) + rparen).setResultsName('fargs'))
flogic = Keyword("or") | Keyword("and") | Keyword("not")
logicalArg = delimitedList(Group(fcall.setResultsName("fcall")) |
Group(arg.setResultsName("arg")))
#logicalArg.setDebug()
flogical << Group(logicalArg.setResultsName('larg1') +
flogic.setResultsName('flogic') + logicalArg.setResultsName('larg2'))
#logical = operatorPrecedence(flogical, [(not, 1, opAssoc.RIGHT,
makeLRlike(2)),
# (and, 2, opAssoc.LEFT,
makeLRlike(2)),
# (or , 2, opAssoc.LEFT,
makeLRlike(2))])
line = flogical | fcall #change to logical if operatorPrecedence is used
# Works fine
print line.parseString("f(x, y)").dump()
print line.parseString("f(h())").dump()
print line.parseString("a and b").dump()
print line.parseString("f(a and b)").dump()
print line.parseString("f(g(x))").dump()
print line.parseString("f(a and b) or h(b not c)").dump()
print line.parseString("f(g(x), y)").dump()
print line.parseString("g(f1(x), a, b, f2(x,y, k(x,y)))").dump()
print line.parseString("f(a not c) and g(f1(x), a, b, f2(x,y,
k(x,y)))").dump()
#Does'nt work fine yet;
#try changing flogical assignment to logicalArg | flogic
#print line.parseString("a or b or c").dump()
#print line.parseString("f(a or b(x) or c)").dump()
I want to print out the elements in the list in reverse order recursively.
def f3(alist):
if alist == []:
print()
else:
print(alist[-1])
f3(alist[:-1])
I know it is working well, but I don't know the difference between
return f3(alist[:-1])
and
f3(alist[:-1])
Actually both are working well.
My inputs are like these.
f3([1,2,3])
f3([])
f3([3,2,1])
There is a difference between the two although it isn't noticeable in this program. Look at the following example where all I am doing is passing a value as an argument and incrementing it thereby making it return the value once it hits 10 or greater:
from sys import exit
a = 0
def func(a):
a += 1
if a >= 10:
return a
exit(1)
else:
# Modifications are made to the following line
return func(a)
g = func(3)
print(g)
Here the output is 10
Now if I re-write the code the second way without the "return" keyword like this :
from sys import exit
a = 0
def func(a):
a += 1
if a >= 10:
return a
exit(1)
else:
# Modifications are made to the following line
func(a)
g = func(3)
print(g)
The output is "None".
This is because we are not returning any value to handle.
In short, return is like internal communication within the function that can be possibly handled versus just running the function again.
On a simple grammar I am in the bad situation that one of my ParseActions is not called.
For me this is strange as parseActions of a base symbol ("logic_oper") and a derived symbol ("cmd_line") are called correctly. Just "pa_logic_cmd" is not called. You can see this on the output which is included at the end of the code.
As there is no exception on parsing the input string, I am assuming that the grammar is (basically) correct.
import io, sys
import pyparsing as pp
def diag(msg, t):
print("%s: %s" % (msg , str(t)) )
def pa_logic_oper(t): diag('logic_oper', t)
def pa_operand(t): diag('operand', t)
def pa_ident(t): diag('ident', t)
def pa_logic_cmd(t): diag('>>>>>> logic_cmd', t)
def pa_cmd_line(t): diag('cmd_line', t)
def make_grammar():
semi = pp.Literal(';')
ident = pp.Word(pp.alphas, pp.alphanums).setParseAction(pa_ident)
operand = (ident).setParseAction(pa_operand)
op_and = pp.Keyword('A')
op_or = pp.Keyword('O')
logic_oper = (( op_and | op_or) + pp.Optional(operand))
logic_oper.setParseAction(pa_logic_oper)
logic_cmd = logic_oper + pp.Suppress(semi)
logic_cmd.setParseAction(pa_logic_cmd)
cmd_line = (logic_cmd)
cmd_line.setParseAction(pa_cmd_line)
grammar = pp.OneOrMore(cmd_line) + pp.StringEnd()
return grammar
if __name__ == "__main__":
inp_str = '''
A param1;
O param2;
A ;
'''
grammar = make_grammar()
print( "pp-version:" + pp.__version__)
parse_res = grammar.parseString( inp_str )
'''USAGE/Output: python test_4.py
pp-version:2.0.3
operand: ['param1']
logic_oper: ['A', 'param1']
cmd_line: ['A', 'param1']
operand: ['param2']
logic_oper: ['O', 'param2']
cmd_line: ['O', 'param2']
logic_oper: ['A']
cmd_line: ['A']
'''
Can anybody give me a hint on this parseAction problem?
Thanks,
The problem is here:
cmd_line = (logic_cmd)
cmd_line.setParseAction(pa_cmd_line)
The first line assigns cmd_line to be the same expression as logic_cmd. You can verify by adding this line:
print("???", cmd_line is logic_cmd)
Then the second line calls setParseAction, which overwrites the parse action of logic_cmd, so the pa_logic_cmd will never get called.
Remove the second line, since you are already testing the calling of the parse action with pa_logic_cmd. You could change to using the addParseAction method instead, but to my mind that is an invalid test (adding 2 parse actions to the same pyparsing expression object).
Or, change the definition of cmd_line to:
cmd_line = pp.Group(logic_cmd)
Now you will have wrapped logic_cmd inside another expression, and you can then independently set and test the running of parse actions on the two different expressions.
Using the PyQT library I am currently having issues with binding a function to the dinamically generated pushbuttons resulting from a loop.
So far I have managed to generate the buttons and bind a function to them with the lambda command. The problem is that since I need every single button to open a different file I find myself in an odd situation as all the button do open the same one. The last value assigned to the variable.
Any idea on how to fix the situation? As a last note, sorry in case of stupid mistakes. I am new to OOP and PyQT.
def searchTheStuff(self):
found = 0
data = MainWindow.intermediateCall()
f1 = open('Path.txt', 'r')
path = f1.read()
f1.close()
Yinc = 25
Y = 40
X = 20
results = 0
for path, dirs, files in os.walk(path, topdown=True):
for name in files:
if name.endswith('.txt'):
fullpath = os.path.join(path, name)
mail = open_close(fullpath)
if mail.find(data) != -1 and results<3:
found = 1
self.buttons.append(QtGui.QPushButton(self))
print fullpath
command = lambda : webbrowser.open()
self.buttons[-1].clicked.connect(command)
self.buttons[-1].setText(_translate("self", name, None))
self.buttons[-1].setGeometry(QtCore.QRect(X, Y, 220, 20))
results = results+1
if results == 33:
X = 260
Y = 15
Y = Y + Yinc
if found == 0:
self.label = QtGui.QLabel(self)
self.label.setGeometry(QtCore.QRect(20, 40, 321, 21))
self.label.setText(_translate("self", "No templates have been found:", None))