import re

#Get the number of operands of each instruction

reg = r"%[0-9]+"

class GET_IN_OUT:

def __init__(self,ins_name,str1):

self.input = []

self.output = []

self.name = ins_name #Name

self.str1 = str1

# print(str1)

self.lines = re.findall(reg, self.str1)

if ins_name == "alloca":

self.get_alloca()

elif ins_name == "store":

self.get_store()

elif ins_name == "br":

self.get_br()

elif ins_name == "load":

self.get_load()

elif ins_name == "icmp":

self.get_icmp()

elif ins_name == "add":

self.get_add()

elif ins_name == "sub":

self.get_sub()

elif ins_name == "call":

self.get_call()

elif ins_name == "ret":

self.get_ret()

elif ins_name == 'bitcast':

self.get_bitcast()

elif ins_name == 'getelementptr':

self.get_getelementptr()

elif ins_name == 'sext':

self.get_sext()

elif ins_name == 'srem':

self.get_srem()

elif ins_name == 'mul':

self.get_mul()

elif ins_name == 'phi':

self.get_phi()

elif ins_name == 'select':

self.get_select()

elif ins_name == 'trunc':

self.get_trunc()

elif ins_name == 'ashr':

self.get_ashr()

elif ins_name == 'and':

self.get_and()

elif ins_name == 'fmul':

self.get_fmul()

elif ins_name == 'fdiv':

self.get_fdiv()

elif ins_name == 'fcmp':

self.get_fcmp()

elif ins_name == 'fadd':

self.get_fadd()

elif ins_name == 'sdiv':

self.get_sdiv()

elif ins_name == 'xor':

self.get_xor()

elif ins_name == 'shl':

self.get_shl()

elif ins_name == 'lshr':

self.get_lshr()

elif ins_name == 'zext':

self.get_zext()

elif ins_name == 'fpext':

self.get_fpext()

elif ins_name == 'fptrunc':

self.get_fptrunc()

elif ins_name == 'sitofp':

self.get_sitofp()

elif ins_name == 'fptosi':

self.get_fptosi()

elif ins_name == 'switch':

self.get_switch()

elif ins_name == 'xor':

self.get_xor()

#alloca

def get_alloca(self):

self.output.append(self.lines[0])

#store

def get_store(self):

# print(self.lines)

if not self.lines:

return

if len(self.lines) == 2:

self.input.append(self.lines[0])

self.output.append(self.lines[1])

else:

self.output.append(self.lines[0])

#br

def get_br(self):

if(len(self.lines) == 1):

self.output.append(self.lines[0])

else:

self.input.append(self.lines[0])

for i in range(1,len(self.lines)):

self.output.append(self.lines[i])

#load

def get_load(self):

if(len(self.lines) == 1):

self.output.append(self.lines[0])

else:

self.input.append(self.lines[1])

self.output.append(self.lines[0])

#icmp

def get_icmp(self):

self.output.append(self.lines[0])

self.input.append(self.lines[1])

#add

def get_add(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#sub

def get_sub(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#ret

def get_ret(self):

if self.lines:

self.input.append(self.lines[0])

else:

self.input.append(0)

#call

def get_call(self):

if self.lines:

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#bitcast

def get_bitcast(self):

self.output.append(self.lines[0])

self.input.append(self.lines[1])

#getelementptr

def get_getelementptr(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#sext

def get_sext(self):

self.output.append(self.lines[0])

self.input.append(self.lines[1])

#srem

def get_srem(self):

self.output.append(self.lines[0])

self.input.append(self.lines[1])

#mul

def get_mul(self):

self.output.append(self.lines[0])

self.input.append(self.lines[1])

#phi

def get_phi(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#select

def get_select(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#trunc

def get_trunc(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#ashr

def get_ashr(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#and

def get_and(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#fmul

def get_fmul(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#fdiv

def get_fdiv(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#fcmp

def get_fcmp(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#fadd

def get_fadd(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#sdiv

def get_sdiv(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#xor

def get_xor(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#shl

def get_shl(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#lshr

def get_lshr(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#zext

def get_zext(self):

self.output.append(self.lines[0])

self.input.append(self.lines[1])

#fpext

def get_fpext(self):

self.output.append(self.lines[0])

self.input.append(self.lines[1])

#fptrunc

def get_fptrunc(self):

self.output.append(self.lines[0])

self.input.append(self.lines[1])

#sitofp

def get_sitofp(self):

self.output.append(self.lines[0])

self.input.append(self.lines[1])

#fptosi

def get_fptosi(self):

self.output.append(self.lines[0])

self.input.append(self.lines[1])

#switch

def get_switch(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#xor

def get_xor(self):

self.output.append(self.lines[0])

for i in range(1,len(self.lines)):

self.input.append(self.lines[i])

#

def get_input_output(self):

return self.input, self.output