def visitExpression(self, ctx: GrammarParser.ExpressionContext):
tyype = Type.VOID
cte_value = None
ir_register = None
if len(ctx.expression()) == 0:
if ctx.integer() != None:
tyype = Type.INT
cte_value = int(ctx.integer().getText())
elif ctx.floating() != None:
tyype = Type.FLOAT
cte_value = float(ctx.floating().getText())
elif ctx.string() != None:
tyype = Type.STRING
elif ctx.identifier() != None:
name = ctx.identifier().getText()
try:
tyype, _, cte_value, ir_register = self.ids_defined[name]
except:
token = ctx.identifier().IDENTIFIER().getPayload()
err("ERROR: undefined variable '" + name + "' in line " +
str(token.line) + " and column " + str(token.column) +
"\n")
exit(-1)
elif ctx.array() != None:
name = ctx.array().identifier().getText()
try:
tyype, array_length, cte_values_array, ir_registers_array = self.ids_defined[
name]
except:
token = ctx.array().identifier().IDENTIFIER().getPayload()
err("ERROR: undefined array '" + name + "' in line " +
str(token.line) + " and column " + str(token.column) +
"\n")
exit(-1)
array_index_cte, array_index_ir = self.visit(ctx.array())
if array_index_cte != None:
if array_index_cte < 0 or array_index_cte >= array_length:
err("ERROR: array '" + name +
"' index out of bounds in line " +
str(token.line) + " and column " +
str(token.column) + "\n")
exit(-1)
else:
cte_value = cte_values_array[array_index_cte]
ir_register = ir_registers_array[array_index_cte]
elif ctx.function_call() != None:
tyype, cte_value, ir_register = self.visit(ctx.function_call())
elif len(ctx.expression()) == 1:
if ctx.OP != None: #unary operators
text = ctx.OP.text
token = ctx.OP
tyype, cte_value, ir_register = self.visit(ctx.expression(0))
if tyype == Type.VOID:
err("ERROR: unary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column) + "\n")
exit(-1)
elif cte_value != None:
if text == '-':
cte_value = -cte_value
if ir_register != None and text == '-':
out = " %" + str(self.next_ir_register) + " = "
self.filee.write(out)
out = "sub nsw " + llvm_type(tyype) + " 0, %" + str(
ir_register) + "\n"
self.filee.write(out)
ir_register = self.next_ir_register
self.next_ir_register += 1
else: # parentheses
tyype, cte_value, ir_register = self.visit(ctx.expression(0))
elif len(ctx.expression()) == 2: # binary operators
text = ctx.OP.text
token = ctx.OP
left_type, left_cte_value, left_ir_register = self.visit(
ctx.expression(0))
right_type, right_cte_value, right_ir_register = self.visit(
ctx.expression(1))
if left_type == Type.VOID or right_type == Type.VOID:
err("ERROR: binary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column) + "\n")
exit(-1)
if text == '*' or text == '/' or text == '+' or text == '-':
if left_type == Type.FLOAT or right_type == Type.FLOAT:
tyype = Type.FLOAT
else:
tyype = Type.INT
if left_ir_register != None or right_ir_register != None:
out = " %" + str(self.next_ir_register) + " = "
self.filee.write(out)
ir_register = self.next_ir_register
self.next_ir_register += 1
if text == '*':
if left_ir_register != None and right_ir_register != None:
out = "mul nsw " + llvm_type(tyype) + " %" + str(
left_ir_register) + ", %" + str(
right_ir_register) + "\n"
self.filee.write(out)
elif left_ir_register != None and right_ir_register == None:
out = "mul nsw " + llvm_type(tyype) + " %" + str(
left_ir_register) + ", " + str(
right_cte_value) + "\n"
self.filee.write(out)
elif left_ir_register == None and right_ir_register != None:
out = "mul nsw " + llvm_type(tyype) + " " + str(
left_cte_value) + ", %" + str(
right_ir_register) + "\n"
self.filee.write(out)
elif text == '/':
if left_ir_register != None and right_ir_register != None:
out = "sdiv nsw " + llvm_type(tyype) + " %" + str(
left_ir_register) + ", %" + str(
right_ir_register) + "\n"
self.filee.write(out)
elif left_ir_register != None and right_ir_register == None:
out = "sdiv nsw " + llvm_type(tyype) + " %" + str(
left_ir_register) + ", " + str(
right_cte_value) + "\n"
self.filee.write(out)
elif left_ir_register == None and right_ir_register != None:
out = "sdiv nsw " + llvm_type(tyype) + " " + str(
left_cte_value) + ", %" + str(
right_ir_register) + "\n"
self.filee.write(out)
elif text == '+':
if left_ir_register != None and right_ir_register != None:
out = "add nsw " + llvm_type(tyype) + " %" + str(
left_ir_register) + ", %" + str(
right_ir_register) + "\n"
self.filee.write(out)
elif left_ir_register != None and right_ir_register == None:
out = "add nsw " + llvm_type(tyype) + " %" + str(
left_ir_register) + ", " + str(
right_cte_value) + "\n"
self.filee.write(out)
elif left_ir_register == None and right_ir_register != None:
out = "add nsw " + llvm_type(tyype) + " " + str(
left_cte_value) + ", %" + str(
right_ir_register) + "\n"
self.filee.write(out)
elif text == '-':
if left_ir_register != None and right_ir_register != None:
out = "sub nsw " + llvm_type(tyype) + " %" + str(
left_ir_register) + ", %" + str(
right_ir_register) + "\n"
self.filee.write(out)
elif left_ir_register != None and right_ir_register == None:
out = "sub nsw " + llvm_type(tyype) + " %" + str(
left_ir_register) + ", " + str(
right_cte_value) + "\n"
self.filee.write(out)
elif left_ir_register == None and right_ir_register != None:
out = "sub nsw " + llvm_type(tyype) + " " + str(
left_cte_value) + ", %" + str(
right_ir_register) + "\n"
self.filee.write(out)
if left_cte_value != None and right_cte_value != None:
if text == '*':
cte_value = left_cte_value * right_cte_value
elif text == '/':
cte_value = left_cte_value / right_cte_value
elif text == '+':
cte_value = left_cte_value + right_cte_value
elif text == '-':
cte_value = left_cte_value - right_cte_value
else:
cte_value = None
else:
tyype = Type.INT
if left_cte_value != None and right_cte_value != None:
if text == '<':
if left_cte_value < right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '>':
if left_cte_value > right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '==':
if left_cte_value == right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '!=':
if left_cte_value != right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '<=':
if left_cte_value <= right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '>=':
if left_cte_value >= right_cte_value:
cte_value = 1
else:
cte_value = 0
else:
cte_value = None
#err(tyype + ": " + str(cte_value) + ", " + str(ir_register) + "\n")
return tyype, cte_value, ir_register
def visitExpression(self, ctx: GrammarParser.ExpressionContext):
print('Visiting an expression')
# ids_defined[self.visitIdentifier()] = [self.visitTyype]
# quando checar uma expression devo verificar a exsitencia das variaveis, se elas nao exxistirem eu emito um erro.
tyype = Type.VOID
if len(ctx.expression()) == 0:
if ctx.integer() != None:
text = ctx.integer().getText()
token = ctx.integer().INTEGER().getPayload()
print('integer ' + text + ':' + str(token.line) + '.' +
str(token.column))
tyype = Type.INT
#print(ids_defined)
elif ctx.floating() != None:
text = ctx.floating().getText()
token = ctx.floating().FLOATING().getPayload()
print('floating ' + text + ':' + str(token.line) + '.' +
str(token.column))
tyype = Type.FLOAT
elif ctx.string() != None:
tyype = Type.STRING
elif ctx.identifier() != None:
text = ctx.identifier().getText()
token = ctx.identifier().IDENTIFIER().getPayload()
print('identifier ' + text + ':' + str(token.line) + '.' +
str(token.column))
# try: #se for acessar usa sempre o try
tyype = self.ids_defined[text]
print(self.ids_defined)
print('Imprimindo o dicionario')
# except:
# print('Identifier nao existe?')
elif ctx.array() != None:
print('éntrou')
print(ctx.array().identifier().getText() + '[]')
# tyype = self.visitArray(ctx.array())
tyype = self.visit(ctx.array())
elif ctx.function_call() != None:
print("Function call " +
ctx.function_call().identifier().getText() + '()')
for i in range(len(ctx.function_call().expression())):
arg_type = self.visit(ctx.function_call().expression(i))
print('arg[' + str[i] + ']')
print(arg_type)
tyype = self.visit(ctx.function_call())
elif len(ctx.expression()) == 1:
if ctx.OP != None: #binary operators
text = ctx.OP.text
token = ctx.OP
print('Operador unario ' + text + ':' + str(token.line) + '.' +
str(token.column))
tyype = self.visit(ctx.expression(0))
else: #parenteses
print('(')
tyype = self.visit(ctx.expression(1))
print(')')
elif len(ctx.expression()) == 2: # operadores binarios
text = ctx.OP.text
token = ctx.OP
print('Operador binario ' + text + ':' + str(token.line) + '.' +
str(token.column))
left = self.visit(ctx.expression(0))
right = self.visit(ctx.expression(1))
if left != right:
if left == Type.INT and right == Type.FLOAT:
return Type.FLOAT
elif left == Type.FLOAT and right == Type.INT:
return Type.FLOAT
else:
print("Erro de tipo nas operacoes")
else:
right = left
else:
print(
'Atencao: Numero de operadores é maior que 2 ou diferente do range [0..2]'
)
return tyype
def visitExpression(self, ctx: GrammarParser.ExpressionContext):
tyype = Type.VOID
value = None
is_constant = True
function_type = None
params = []
#pegamos os paramentros pra checar se a variavel foi declarada nos args
if self.inside_what_function != "":
function_type, params = self.ids_defined.get(
self.inside_what_function)
# print(params)
if len(ctx.expression()) == 0:
if ctx.integer() != None:
tyype = Type.INT
value = int(ctx.integer().getText())
elif ctx.floating() != None:
tyype = Type.FLOAT
value = float(ctx.floating().getText())
elif ctx.string() != None:
tyype = Type.STRING
value = ctx.string().getText()
elif ctx.identifier() != None:
name = ctx.identifier().getText()
try:
tyype, _, value, is_constant = self.ids_defined[name]
except:
try:
#se n tiver no ids_defined é pra estar nos parametros né
tyype = params[name]
is_constant = False
except:
token = ctx.identifier().IDENTIFIER().getPayload()
print("ERROR: undefined variable '" + name +
"' in line " + str(token.line) + " and column " +
str(token.column))
elif ctx.array() != None:
name = ctx.array().identifier().getText()
tyype, array_length = None, None
try:
tyype, array_length, array_values = self.ids_defined[name]
except:
token = ctx.array().identifier().IDENTIFIER().getPayload()
print("ERROR: undefined array '" + name + "' in line " +
str(token.line) + " and column " + str(token.column))
array_index = self.visit(ctx.array())
if array_index < 0 or array_index >= array_length:
print("ERROR: array '" + name +
"' index out of bounds in line " + str(token.line) +
" and column " + str(token.column))
else:
tyype, value, is_constant = array_values[array_index]
#print("array index = " + str(array_index))
elif ctx.function_call() != None:
tyype = self.visit(ctx.function_call())
elif len(ctx.expression()) == 1:
if ctx.OP != None: #unary operators
text = ctx.OP.text
token = ctx.OP
tyype, old_value, is_constant = self.visit(ctx.expression(0))
#se ja nao for constante é xau xau
if is_constant == False:
return tyype, None, False
if text == '-':
value = -old_value
else:
value = old_value
print("line {} Expression {} {} simplified to: {}".format(
str(token.line), str(text), str(old_value), str(value)))
if tyype == Type.VOID:
print("ERROR: unary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column))
else: # parentheses
tyype, value, is_constant = self.visit(ctx.expression(0))
elif len(ctx.expression()) == 2: # binary operators
text = ctx.OP.text
token = ctx.OP
left_tyype, left_value, left_constant = self.visit(
ctx.expression(0))
right_tyype, right_value, right_constant = self.visit(
ctx.expression(1))
is_constant = left_constant and right_constant
if left_tyype == Type.VOID or right_tyype == Type.VOID:
print("ERROR: binary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column))
if text == '*' or text == '/' or text == '+' or text == '-':
if left_tyype == Type.FLOAT or right_tyype == Type.FLOAT:
tyype = Type.FLOAT
else:
tyype = Type.INT
# print("my type = ", tyype)
# print(left_value, text, right_value)
# print(ctx.getText())
else:
tyype = Type.INT
#se ja nao for constante é xau xau não é pra nem se dar o trabalho
if left_value == None or right_value == None:
return tyype, None, False
if text == '*':
value = left_value * right_value
elif text == '/':
value = left_value / right_value
elif text == '+':
value = left_value + right_value
elif text == '-':
value = left_value - right_value
elif text == '<':
value = int(left_value < right_value)
elif text == '<=':
value = int(left_value <= right_value)
elif text == '>':
value = int(left_value > right_value)
elif text == '>=':
value = int(left_value >= right_value)
elif text == '==':
value = int(left_value == right_value)
elif text == '!=':
value = int(left_value != right_value)
# print("final value = ", value)
if is_constant:
print("line {} Expression {} {} {} simplified to: {}".format(
str(token.line), str(left_value), str(text),
str(right_value), str(value)))
# print("final final value = ", value)
return tyype, value, is_constant
def visitExpression(self, ctx: GrammarParser.ExpressionContext):
tyype = Type.VOID
cte_value = None
ir_register = None
if len(ctx.expression()) == 0:
if ctx.integer() != None:
tyype = Type.INT
cte_value = int(ctx.integer().getText())
elif ctx.floating() != None:
tyype = Type.FLOAT
cte_value = float(ctx.floating().getText())
elif ctx.string() != None:
tyype = Type.STRING
elif ctx.identifier() != None:
name = ctx.identifier().getText()
try:
tyype, _, cte_value, ir_register = self.ids_defined[name]
modifier = "%"
if name in self.global_vars:
modifier = "@"
cte_value = None
ir_register = None
search_register = [
b for a, b in self.ids_defined[
self.inside_what_function][3]
if a == ctx.getText()
]
if search_register:
ir_register = search_register[0]
elif not cte_value:
f.write("\t%" + str(self.next_ir_register) +
" = load " + llvm_type(tyype) + ", " +
llvm_type(tyype) + "* " + modifier +
ctx.getText() + ", align 4\n")
self.ids_defined[self.inside_what_function][3].append(
(ctx.getText(), self.next_ir_register))
ir_register = self.next_ir_register
self.next_ir_register += 1
except:
token = ctx.identifier().IDENTIFIER().getPayload()
err("ERROR: undefined variable '" + name + "' in line " +
str(token.line) + " and column " + str(token.column) +
"\n")
exit(-1)
elif ctx.array() != None:
name = ctx.array().identifier().getText()
try:
tyype, array_length, cte_values_array, ir_registers_array = self.ids_defined[
name]
except:
token = ctx.array().identifier().IDENTIFIER().getPayload()
err("ERROR: undefined array '" + name + "' in line " +
str(token.line) + " and column " + str(token.column) +
"\n")
exit(-1)
array_index_cte, array_index_ir = self.visit(ctx.array())
if array_index_cte != None:
if array_index_cte < 0 or array_index_cte >= array_length:
err("ERROR: array '" + name +
"' index out of bounds in line " +
str(token.line) + " and column " +
str(token.column) + "\n")
exit(-1)
else:
cte_value = cte_values_array[array_index_cte]
ir_register = ir_registers_array[array_index_cte]
elif ctx.function_call() != None:
tyype, cte_value, ir_register = self.visit(ctx.function_call())
elif len(ctx.expression()) == 1:
if ctx.OP != None: #unary operators
text = ctx.OP.text
token = ctx.OP
tyype, cte_value, ir_register = self.visit(ctx.expression(0))
if tyype == Type.VOID:
err("ERROR: unary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column) + "\n")
exit(-1)
elif cte_value != None:
if text == "-":
cte_value = -cte_value
else: # parentheses
tyype, cte_value, ir_register = self.visit(ctx.expression(0))
elif len(ctx.expression()) == 2: # binary operators
text = ctx.OP.text
token = ctx.OP
left_type, left_cte_value, left_ir_register = self.visit(
ctx.expression(0))
right_type, right_cte_value, right_ir_register = self.visit(
ctx.expression(1))
if left_type == Type.VOID or right_type == Type.VOID:
err("ERROR: binary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column) + "\n")
exit(-1)
if text == "*" or text == "/" or text == "+" or text == "-":
if left_type == Type.FLOAT or right_type == Type.FLOAT:
tyype = Type.FLOAT
else:
tyype = Type.INT
if text == "*":
cte_value, ir_register = process_operations(
self, "mul", cte_value, left_type, right_type,
left_ir_register, right_ir_register, left_cte_value,
right_cte_value, tyype, ctx)
elif text == "/":
cte_value, ir_register = process_operations(
self, "div", cte_value, left_type, right_type,
left_ir_register, right_ir_register, left_cte_value,
right_cte_value, tyype, ctx)
elif text == "+":
cte_value, ir_register = process_operations(
self, "add", cte_value, left_type, right_type,
left_ir_register, right_ir_register, left_cte_value,
right_cte_value, tyype, ctx)
elif text == "-":
cte_value, ir_register = process_operations(
self, "sub", cte_value, left_type, right_type,
left_ir_register, right_ir_register, left_cte_value,
right_cte_value, tyype, ctx)
if not (left_cte_value != None and right_cte_value != None):
cte_value = None
else:
tyype = Type.INT
if left_cte_value != None and right_cte_value != None:
if text == "<":
if left_cte_value < right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == ">":
if left_cte_value > right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == "==":
if left_cte_value == right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == "!=":
if left_cte_value != right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == "<=":
if left_cte_value <= right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == ">=":
if left_cte_value >= right_cte_value:
cte_value = 1
else:
cte_value = 0
else:
cte_value = None
return tyype, cte_value, ir_register
def visitExpression(self, ctx: GrammarParser.ExpressionContext):
tyype = Type.VOID
token = None
cte_value = None # RETORNAR OS VALORES DAS CONTANTES, OU NONE SE NAO FOR CONSTANTE
if len(ctx.expression()) == 0:
if ctx.integer() != None:
tyype = Type.INT
cte_value = int(ctx.integer().getText())
elif ctx.floating() != None:
tyype = Type.FLOAT
cte_value = float(ctx.floating().getText())
elif ctx.string() != None:
tyype = Type.STRING
cte_value = str(ctx.string().getText())
elif ctx.identifier() != None:
name = ctx.identifier().getText()
try:
tyype, _, cte_value = self.ids_defined[name]
except:
token = ctx.identifier().IDENTIFIER().getPayload()
print("ERROR: undefined variable '" + name + "' in line " +
str(token.line) + " and column " + str(token.column))
elif ctx.array() != None:
name = ctx.array().identifier().getText()
try:
tyype, array_length, cte_values_array = self.ids_defined[
name]
except:
token = ctx.array().identifier().IDENTIFIER().getPayload()
print("ERROR: undefined array '" + name + "' in line " +
str(token.line) + " and column " + str(token.column))
array_index = self.visit(ctx.array())
if array_index != None and array_length != None:
if (array_index > array_length - 1):
token = ctx.array().identifier().IDENTIFIER(
).getPayload()
print("ERROR: array index out of bounds '" + name +
"' in line " + str(token.line) + " and column " +
str(token.column))
elif cte_values_array is not None:
cte_value = cte_values_array[array_index]
elif ctx.function_call() != None:
tyype, cte_value = self.visit(ctx.function_call())
elif len(ctx.expression()) == 1:
if ctx.OP != None: #unary operators
text = ctx.OP.text
token = ctx.OP
tyype, cte_value = self.visit(ctx.expression(0))
cte_value = eval("{}{}".format(text, cte_value))
if tyype == Type.VOID:
print("ERROR: unary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column))
else: # parentheses
tyype, cte_value = self.visit(ctx.expression(0))
elif len(ctx.expression()) == 2: # binary operators
text = ctx.OP.text
token = ctx.OP
left, left_cte_value = self.visit(ctx.expression(0))
right, right_cte_value = self.visit(ctx.expression(1))
if left == Type.VOID or right == Type.VOID:
print("ERROR: binary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column))
if text == '*' or text == '/' or text == '+' or text == '-':
if left == Type.FLOAT or right == Type.FLOAT:
tyype = Type.FLOAT
else:
tyype = Type.INT
else:
tyype = Type.INT
if left_cte_value != None and right_cte_value != None and left != Type.STRING and right != Type.STRING:
#print("{} {} {}".format(left_cte_value, text, right_cte_value))
cte_value = eval("{} {} {}".format(left_cte_value, text,
right_cte_value))
if isinstance(cte_value, bool):
cte_value = int(cte_value)
#if token is not None:
# print(str(tyype) + ": " + str(cte_value) + ' - at: ' + str(token.line))
#else:
print(str(tyype) + ": " + str(cte_value))
return tyype, cte_value
def visitExpression(self, ctx: GrammarParser.ExpressionContext):
tyype = Type.VOID
if len(ctx.expression()) == 0:
if ctx.integer() != None:
text = ctx.integer().getText()
token = ctx.integer().INTEGER().getPayload()
#print("Integer: '" + text + "' => line: " + str(token.line) + " , col: " + str(token.column))
tyype = Type.INT
elif ctx.floating() != None:
text = ctx.floating().getText()
token = ctx.floating().FLOATING().getPayload()
#print("Floating: '" + text + "' => line: " + str(token.line) + " , col: " + str(token.column))
tyype = Type.FLOAT
elif ctx.string() != None:
tyype = Type.STRING
elif ctx.identifier() != None:
text = ctx.identifier().getText()
token = ctx.identifier().IDENTIFIER().getPayload()
#print("Identifier: '" + text + "' => line: " + str(token.line) + " , col: " + str(token.column))
#print(self.ids_defined)
tyype = self.ids_defined.get(text, Type.VOID)
elif ctx.array() != None:
text = ctx.array().identifier().getText()
token = ctx.array().identifier().IDENTIFIER().getPayload()
tyype = self.ids_defined.get(text, Type.VOID)
#print("Array Identifier: '" + ctx.array().identifier().getText() + "[]' => line: " + str(token.line) + " , col: " + str(token.column))
#print("Array type: [{}]".format(tyype))
elif ctx.function_call() != None:
#print("Function Call: '" + ctx.function_call().identifier().getText() + "()'")
for i in range(len(ctx.function_call().expression())):
arg_type = self.visit(ctx.function_call().expression(i))
#print("arg[" + str(i) + "]")
elif len(ctx.expression()) == 1:
if ctx.OP != None:
text = ctx.OP.text
token = ctx.OP
#print("Unary Operator: '" + text + "' => line : " + str(token.line) + ", col: " + str(token.column))
tyype = self.visit(ctx.expression(0))
else:
#print("(")
tyype = self.visit(ctx.expression(0))
#print(")")
elif len(ctx.expression()) == 2:
text = ctx.OP.text
token = ctx.OP
#print("Binary Operator: '" + text + "' => line: " + str(token.line) + " , col: " + str(token.column))
left = self.visit(ctx.expression(0))
right = self.visit(ctx.expression(1))
if ctx.OP.text in ['<', '<=', '==', '>=', '>', '!=']:
if left != right:
print(
"[ERROR]::[Good lord, what were you thinking trying to do a '{} {} {}' operation? Please, fix that type error. But do it right this time, yes?] ({},{})"
.format(left, ctx.OP.text, right, str(token.line),
str(token.column)))
elif ctx.OP.text in ['+', '-', '*', '/']:
if not (left == right or
(left == Type.INT and right == Type.FLOAT)):
#print("left = {}".format(left))
#print("right = {}".format(right))
#print(self.ids_defined)
print(
"[ERROR]::[Good lord, what were you thinking trying to do a '{} {} {}' operation? Please, fix that type error. But do it right this time, yes?] ({},{})"
.format(left, ctx.OP.text, right, str(token.line),
str(token.column)))
tyype = right
return tyype
def visitExpression(self, ctx: GrammarParser.ExpressionContext):
tyype = Type.VOID
llvm_tyype = llvm_type(tyype)
cte_value = None
ir_register = None
is_inside = self.inside_what_function != ""
if len(ctx.expression()) == 0:
if ctx.integer() != None:
tyype = Type.INT
cte_value = int(ctx.integer().getText())
elif ctx.floating() != None:
tyype = Type.FLOAT
cte_value = float(ctx.floating().getText())
elif ctx.string() != None:
tyype = Type.STRING
elif ctx.identifier() != None:
name = ctx.identifier().getText()
try:
tyype, _, cte_value, ir_register = self.ids_defined[name]
if ir_register == None and cte_value == None:
temp = list(self.ids_defined[name])
temp[3] = self.next_ir_register
self.ids_defined[name] = tuple(temp)
ir_register = self.next_ir_register
printLoad(self.next_ir_register,
tyype,
name,
tyype,
4,
has_tab=is_inside)
self.next_ir_register += 1
# elif cte_value != None:
# ir_register = name
except:
token = ctx.identifier().IDENTIFIER().getPayload()
err("ERROR: undefined variable '" + name + "' in line " +
str(token.line) + " and column " + str(token.column) +
"\n")
exit(-1)
elif ctx.array() != None:
name = ctx.array().identifier().getText()
try:
tyype, array_length, cte_values_array, ir_registers_array = self.ids_defined[
name]
except:
token = ctx.array().identifier().IDENTIFIER().getPayload()
err("ERROR: undefined array '" + name + "' in line " +
str(token.line) + " and column " + str(token.column) +
"\n")
exit(-1)
array_index_cte, array_index_ir = self.visit(ctx.array())
if array_index_cte != None:
if array_index_cte < 0 or array_index_cte >= array_length:
err("ERROR: array '" + name +
"' index out of bounds in line " +
str(token.line) + " and column " +
str(token.column) + "\n")
exit(-1)
else:
cte_value = cte_values_array[array_index_cte]
ir_register = ir_registers_array[array_index_cte]
elif ctx.function_call() != None:
tyype, cte_value, ir_register = self.visit(ctx.function_call())
elif len(ctx.expression()) == 1:
if ctx.OP != None: #unary operators
text = ctx.OP.text
token = ctx.OP
tyype, cte_value, ir_register = self.visit(ctx.expression(0))
ll_oper = "sub"
llvm_tyype = llvm_type(tyype)
if tyype == Type.VOID:
err("ERROR: unary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column) + "\n")
exit(-1)
elif tyype == Type.FLOAT:
ll_oper = "fsub"
elif cte_value != None:
if text == '-':
cte_value = -cte_value
elif text == '-':
printOper(ll_oper,
self.next_ir_register,
llvm_tyype,
0,
ir_register,
has_tab=True,
r1_is_constant=True,
r2_is_constant=False)
ir_register = self.next_ir_register
self.next_ir_register += 1
else: # parentheses
tyype, cte_value, ir_register = self.visit(ctx.expression(0))
elif len(ctx.expression()) == 2: # binary operators
text = ctx.OP.text
llvm_op = None
token = ctx.OP
left_type, left_cte_value, left_ir_register = self.visit(
ctx.expression(0))
right_type, right_cte_value, right_ir_register = self.visit(
ctx.expression(1))
if left_type == Type.VOID or right_type == Type.VOID:
err("ERROR: binary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column) + "\n")
exit(-1)
if text == '*' or text == '/' or text == '+' or text == '-':
if left_type == Type.FLOAT or right_type == Type.FLOAT:
tyype = Type.FLOAT
else:
tyype = Type.INT
if left_type == Type.INT and tyype == Type.FLOAT and left_cte_value == None:
printIntToFloat(self.next_ir_register,
left_ir_register,
has_tab=True)
left_ir_register = self.next_ir_register
self.next_ir_register += 1
if right_type == Type.INT and tyype == Type.FLOAT and right_cte_value == None:
printIntToFloat(self.next_ir_register,
right_ir_register,
has_tab=True)
right_ir_register = self.next_ir_register
self.next_ir_register += 1
if left_cte_value != None and right_cte_value != None:
if text == '*':
cte_value = left_cte_value * right_cte_value
elif text == '/':
cte_value = left_cte_value / right_cte_value
elif text == '+':
cte_value = left_cte_value + right_cte_value
elif text == '-':
cte_value = left_cte_value - right_cte_value
else:
cte_value = None
left_cte_value_str = str(left_cte_value)
right_cte_value_str = str(right_cte_value)
if (left_type == Type.FLOAT) or (right_type == Type.FLOAT):
if left_cte_value != None:
left_cte_value_str = float_to_hex(
float(left_cte_value))
if right_cte_value != None:
right_cte_value_str = float_to_hex(
float(right_cte_value))
if text == '+':
if (left_type == Type.FLOAT
or right_type == Type.FLOAT):
llvm_op = "fadd"
else:
llvm_op = "add"
elif text == '-':
if (left_type == Type.FLOAT
or right_type == Type.FLOAT):
llvm_op = "fsub"
else:
llvm_op = "sub"
elif text == '*':
if (left_type == Type.FLOAT
or right_type == Type.FLOAT):
llvm_op = "fmul"
else:
llvm_op = "mul"
elif text == '/':
if (left_type == Type.INT and right_type == Type.INT):
llvm_op = "sdiv"
elif (left_type == Type.FLOAT
or right_type == Type.FLOAT):
llvm_op = "fdiv"
else:
llvm_op = "udiv"
if left_cte_value != None and right_cte_value == None:
printOper(llvm_op, self.next_ir_register, tyype,
left_cte_value_str, right_ir_register,
is_inside, True, False)
elif left_cte_value == None and right_cte_value != None:
printOper(llvm_op, self.next_ir_register, tyype,
left_ir_register, right_cte_value_str,
is_inside, False, True)
elif left_cte_value == None and right_cte_value == None:
printOper(llvm_op, self.next_ir_register, tyype,
left_ir_register, right_ir_register,
is_inside, False, False)
ir_register = self.next_ir_register
self.next_ir_register += 1
else:
tyype = Type.INT
if left_cte_value != None and right_cte_value != None:
if text == '<':
if left_cte_value < right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '>':
if left_cte_value > right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '==':
if left_cte_value == right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '!=':
if left_cte_value != right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '<=':
if left_cte_value <= right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '>=':
if left_cte_value >= right_cte_value:
cte_value = 1
else:
cte_value = 0
else:
cte_value = None
return tyype, cte_value, ir_register
def visitExpression(self, ctx: GrammarParser.ExpressionContext):
tyype = Type.VOID
if len(ctx.expression()) == 0:
if ctx.integer() != None:
tyype = Type.INT
elif ctx.floating() != None:
tyype = Type.FLOAT
elif ctx.string() != None:
tyype = Type.STRING
elif ctx.identifier() != None:
name = ctx.identifier().getText()
try:
tyype, _ = self.ids_defined[name]
except:
token = ctx.identifier().IDENTIFIER().getPayload()
print("ERROR: undefined variable '" + name + "' in line " +
str(token.line) + " and column " + str(token.column))
elif ctx.array() != None:
name = ctx.array().identifier().getText()
tyype, array_length = 0, 0
try:
tyype, array_length = self.ids_defined[name]
except:
token = ctx.array().identifier().IDENTIFIER().getPayload()
print("ERROR: undefined array '" + name + "' in line " +
str(token.line) + " and column " + str(token.column))
self.visit(ctx.array())
#print("array index = " + str(array_index))
elif ctx.function_call() != None:
tyype = self.visit(ctx.function_call())
elif len(ctx.expression()) == 1:
if ctx.OP != None: #unary operators
text = ctx.OP.text
token = ctx.OP
tyype = self.visit(ctx.expression(0))
if tyype == Type.VOID:
print("ERROR: unary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column))
else: # parentheses
tyype = self.visit(ctx.expression(0))
elif len(ctx.expression()) == 2: # binary operators
text = ctx.OP.text
token = ctx.OP
left = self.visit(ctx.expression(0))
right = self.visit(ctx.expression(1))
if left == Type.VOID or right == Type.VOID:
print("ERROR: binary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column))
if text == '*' or text == '/' or text == '+' or text == '-':
if left == Type.FLOAT or right == Type.FLOAT:
tyype = Type.FLOAT
else:
tyype = Type.INT
else:
tyype = Type.INT
return tyype
def visitExpression(self, ctx: GrammarParser.ExpressionContext):
tyype = Type.VOID
const_value = None
if len(ctx.expression()) == 0:
if ctx.integer():
tyype = Type.INT
# forced a cast type
const_value = int(ctx.integer().getText())
elif ctx.floating():
tyype = Type.FLOAT
const_value = float(ctx.floating().getText())
elif ctx.string():
tyype = Type.STRING
const_value = str(ctx.string().getText())
elif ctx.identifier():
name = ctx.identifier().getText()
try:
tyype, _, const_value = self.ids_defined[name]
except:
token = ctx.identifier().IDENTIFIER().getPayload()
print("ERROR: undefined variable '" + name + "' in line " +
str(token.line) + " and column " + str(token.column))
elif ctx.array():
name = ctx.array().identifier().getText()
try:
tyype, array_length, const_array_values = self.ids_defined[
name]
except:
token = ctx.array().identifier().IDENTIFIER().getPayload()
print("ERROR: undefined array '" + name + "' in line " +
str(token.line) + " and column " + str(token.column))
array_index = self.visit(ctx.array())
if array_index and array_length:
if array_index < 0 or array_index >= array_length:
token = ctx.array().identifier().IDENTIFIER(
).getPayload()
print("ERROR: array '" + name +
"' index out of bounds in line " +
str(token.line) + " and column " +
str(token.column))
elif const_array_values:
const_value = const_array_values[array_index]
elif ctx.function_call() != None:
tyype, const_value = self.visit(ctx.function_call())
elif len(ctx.expression()) == 1:
if ctx.OP != None: # unary operators
text = ctx.OP.text
token = ctx.OP
tyype, unary_expression_const_value = self.visit(
ctx.expression(0))
const_value = eval(f"{text} unary_expression_const_value")
print(
f"line {token.line} Expression {text} {unary_expression_const_value} "
f"simplified to: {const_value}")
if tyype == Type.VOID:
print("ERROR: unary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column))
else: # parentheses
tyype, const_value = self.visit(ctx.expression(0))
elif len(ctx.expression()) == 2: # binary operators
text = ctx.OP.text
token = ctx.OP
left, left_const_value = self.visit(ctx.expression(0))
right, right_const_value = self.visit(ctx.expression(1))
if left == Type.VOID or right == Type.VOID:
print("ERROR: binary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column))
if text == '*' or text == '/' or text == '+' or text == '-':
if left == Type.FLOAT or right == Type.FLOAT:
tyype = Type.FLOAT
else:
tyype = Type.INT
else:
tyype = Type.INT
# check if both is not string
if Type.STRING not in [left, right]:
if left_const_value and right_const_value:
const_value = eval(
f"left_const_value {text} right_const_value")
# if const_value is a boolean just convert it to int
if isinstance(const_value, bool):
const_value = int(const_value)
print(
f"line {token.line} Expression {left_const_value} {text} {right_const_value} "
f"simplified to: {const_value}")
# anything * 0 = 0
elif 0 in [left_const_value, right_const_value
] and text in ["*"]:
const_value = 0
print(
f"line {token.line} Expression {left_const_value} {text} {right_const_value} "
f"simplified to: {const_value}")
return tyype, const_value
def visitExpression(self, ctx: GrammarParser.ExpressionContext):
tyype = Type.VOID
token = None
cte_value = None
if len(ctx.expression()) == 0:
if ctx.integer() != None:
tyype = Type.INT
cte_value = int(ctx.integer().getText())
elif ctx.floating() != None:
tyype = Type.FLOAT
cte_value = float(ctx.floating().getText())
elif ctx.string() != None:
tyype = Type.STRING
cte_value = str(ctx.string().getText())
elif ctx.identifier() != None:
name = ctx.identifier().getText()
if name in self.global_variables:
try:
tyype, _ = self.ids_defined[name]
except:
token = ctx.identifier().IDENTIFIER().getPayload()
print("ERROR: undefined variable '" + name +
"' in line " + str(token.line) + " and column " +
str(token.column))
else:
try:
tyype, _, cte_value = self.ids_defined[name]
except:
token = ctx.identifier().IDENTIFIER().getPayload()
print("ERROR: undefined variable '" + name +
"' in line " + str(token.line) + " and column " +
str(token.column))
elif ctx.array() != None:
name = ctx.array().identifier().getText()
try:
tyype, array_length, cte_values_array = self.ids_defined[
name]
except:
token = ctx.array().identifier().IDENTIFIER().getPayload()
print("ERROR: undefined array '" + name + "' in line " +
str(token.line) + " and column " + str(token.column))
array_index = self.visit(ctx.array())
elif ctx.function_call() != None:
tyype, cte_value = self.visit(ctx.function_call())
elif len(ctx.expression()) == 1:
if ctx.OP != None:
name = ctx.expression(0)
print(name)
if name in self.global_variables:
text = ctx.OP.text
token = ctx.OP
tyype = self.visit(ctx.expression(0))
if tyype == Type.VOID:
print("ERROR: unary operator '" + text +
"' used on type void in line " +
str(token.line) + " and column " +
str(token.column))
else:
text = ctx.OP.text
token = ctx.OP
tyype, cte_value = self.visit(ctx.expression(0))
cte_value = eval("{}{}".format(text, cte_value))
if tyype == Type.VOID:
print("ERROR: unary operator '" + text +
"' used on type void in line " +
str(token.line) + " and column " +
str(token.column))
else:
tyype, cte_value = self.visit(ctx.expression(0))
elif len(ctx.expression()) == 2:
text = ctx.OP.text
token = ctx.OP
left, left_cte_value = self.visit(ctx.expression(0))
right, right_cte_value = self.visit(ctx.expression(1))
if left == Type.VOID or right == Type.VOID:
print("ERROR: binary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column))
if text == '*' or text == '/' or text == '+' or text == '-':
if left == Type.FLOAT or right == Type.FLOAT:
tyype = Type.FLOAT
else:
tyype = Type.INT
else:
tyype = Type.INT
if left_cte_value != None and right_cte_value != None and left != Type.STRING and right != Type.STRING:
cte_value = eval("{} {} {}".format(left_cte_value, text,
right_cte_value))
if isinstance(cte_value, bool):
cte_value = int(cte_value)
if token is not None:
if cte_value is not None:
print('line ' + str(token.line) + ' Expression ' +
'simplified to ' + str(cte_value))
return tyype, cte_value
def visitExpression(self, ctx: GrammarParser.ExpressionContext):
if len(ctx.expression()) == 0:
if ctx.integer() != None:
return Type.INT
elif ctx.floating() != None:
return Type.FLOAT
elif ctx.string() != None:
return Type.STRING
elif ctx.identifier() != None:
variable_name = ctx.identifier().getText()
return self._variable_type(variable_name)
elif ctx.array() != None:
return self.visit(ctx.array())
elif ctx.function_call() != None:
function_call = self.visit(ctx.function_call())
return function_call
elif len(ctx.expression()) == 1:
return self.visit(ctx.expression()[0])
elif len(ctx.expression()) == 2:
left = self.visit(ctx.expression()[0])
right = self.visit(ctx.expression()[1])
# print("hello: ",left, right)
if (left == Type.FLOAT or right == Type.FLOAT):
return Type.FLOAT
elif (left == Type.VOID or right == Type.VOID):
OP = ctx.OP.text
token = ctx.OP
line = token.line
column = token.column
print(
f"ERROR: binary operator '{OP}' used on type void in line {line} and column {column}"
)
return Type.INT
return self.visitChildren(ctx)
def visitExpression(self, ctx: GrammarParser.ExpressionContext):
tyype = None
token = None
cte_value = None
if len(ctx.expression()) == 0:
if ctx.integer() != None:
tyype = Type.INT
cte_value = int(ctx.integer().getText())
elif ctx.floating() != None:
tyype = Type.FLOAT
cte_value = float(ctx.floating().getText())
elif ctx.string() != None:
tyype = Type.STRING
elif ctx.identifier() != None:
name = ctx.identifier().getText()
try:
tyype, _, cte_value = self.ids_defined[name]
except:
token = ctx.identifier().IDENTIFIER().getPayload()
print("ERROR: undefined variable '" + name + "' in line " +
str(token.line) + " and column " + str(token.column))
elif ctx.array() != None:
name = ctx.array().identifier().getText()
try:
tyype, array_length, cte_values_array = self.ids_defined[
name]
except:
token = ctx.array().identifier().IDENTIFIER().getPayload()
print("ERROR: undefined array '" + name + "' in line " +
str(token.line) + " and column " + str(token.column))
array_index = self.visit(ctx.array())
elif ctx.function_call() != None:
tyype, cte_value = self.visit(ctx.function_call())
elif len(ctx.expression()) == 1:
if ctx.OP != None:
text = ctx.OP.text
token = ctx.OP
tyype, cte_value = self.visit(ctx.expression(0))
if tyype == Type.VOID:
print("ERROR: unary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column))
elif cte_value != None:
if text == '-':
cte_value = -cte_value
else:
cte_value = None
else:
tyype, cte_value = self.visit(ctx.expression(0))
elif len(ctx.expression()) == 2:
text = ctx.OP.text
token = ctx.OP
left, left_cte_value = self.visit(ctx.expression(0))
right, right_cte_value = self.visit(ctx.expression(1))
if left == Type.VOID or right == Type.VOID:
print("ERROR: binary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column))
if text == '*' or text == '/' or text == '+' or text == '-':
if left == Type.FLOAT or right == Type.FLOAT:
tyype = Type.FLOAT
else:
tyype = Type.INT
if left_cte_value != None and right_cte_value != None:
if text == '*':
cte_value = left_cte_value * right_cte_value
elif text == '/':
cte_value = left_cte_value / right_cte_value
elif text == '+':
cte_value = left_cte_value + right_cte_value
elif text == '-':
cte_value = left_cte_value - right_cte_value
else:
tyype = Type.INT
if left_cte_value != None and right_cte_value != None:
if text == '<':
if left_cte_value < right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '>':
if left_cte_value > right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '==':
if left_cte_value == right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '!=':
if left_cte_value != right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '<=':
if left_cte_value <= right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '>=':
if left_cte_value >= right_cte_value:
cte_value = 1
else:
cte_value = 0
else:
cte_value = None
return tyype, cte_value
def visitExpression(self, ctx:GrammarParser.ExpressionContext):
tyype = Type.VOID
cte_value = None
ir_register = None
if len(ctx.expression()) == 0:
if ctx.integer() != None:
tyype = Type.INT
cte_value = int(ctx.integer().getText())
elif ctx.floating() != None:
tyype = Type.FLOAT
cte_value = float(ctx.floating().getText())
elif ctx.string() != None:
tyype = Type.STRING
elif ctx.identifier() != None:
name = ctx.identifier().getText()
try:
tyype, val, cte_value, ir_register = self.ids_defined[name]
except:
token = ctx.identifier().IDENTIFIER().getPayload()
err("ERROR: undefined variable '" + name + "' in line " + str(token.line) + " and column " + str(token.column) + "\n")
exit(-1)
if (not name in self.in_expr and cte_value == None) or name in self.global_var:
if self.func_count[self.inside_what_function] == None:
self.func_count[self.inside_what_function] = 1
self.func_count[self.inside_what_function] += 1
print(' ' +"%"+str(self.func_count[self.inside_what_function])+" = load "+str(llvm_type(tyype))+", "+str(llvm_type(tyype))+"* %"+str(name)+", align 4")
#print(val)
self.in_expr += [name]
ir_register = self.func_count[self.inside_what_function]
cte_value = None if name in self.global_var else cte_value
self.ids_defined[name] = tyype, val, cte_value, ir_register
#print(self.in_expr)
elif ctx.array() != None:
name = ctx.array().identifier().getText()
try:
tyype, array_length, cte_values_array, ir_registers_array = self.ids_defined[name]
except:
token = ctx.array().identifier().IDENTIFIER().getPayload()
err("ERROR: undefined array '" + name + "' in line " + str(token.line) + " and column " + str(token.column) + "\n")
exit(-1)
array_index_cte, array_index_ir = self.visit(ctx.array())
if array_index_cte != None:
if array_index_cte < 0 or array_index_cte >= array_length:
err("ERROR: array '" + name + "' index out of bounds in line " + str(token.line) + " and column " + str(token.column) + "\n")
exit(-1)
else:
cte_value = cte_values_array[array_index_cte]
ir_register = ir_registers_array[array_index_cte]
elif ctx.function_call() != None:
tyype, cte_value, ir_register, name, params = self.visit(ctx.function_call())
if(self.func_count[name] == None):
self.func_count[name] = 1
# params: pares = tipos, ímpares = valores
#print('ir '+ str(self.next_ir_register))
if(tyype == Type.VOID):
print(' ' +'call',tyype + ' @'+name +" (",end="")
else:
self.func_count[self.inside_what_function] += 1
print(' ' +'%'+ str(self.func_count[self.inside_what_function]) +' = call',tyype + ' @'+name +" (",end="")
self.func_count[name] = self.func_count[name] + 1
ir_register = self.func_count[self.inside_what_function]
#%1 = call float @ResDiv(float 0x4079000000000000, float 0x4072c00000000000)
for i, p in enumerate(params):
if(i < len(params)-1):
if(p[0] == Type.FLOAT):
print(' ' + str(llvm_type(p[0]))+' '+ str(float_to_hex(p[1]))+', ', end="")
else:
print(' ' + str(llvm_type(p[0]))+' '+ str(p[1])+', ', end="")
else:
if(p[0] == Type.FLOAT):
print(' ' + str(llvm_type(p[0]))+' '+ str(float_to_hex(p[1])), end="")
else:
print(' ' + str(llvm_type(p[0]))+' '+ str(p[1]), end="")
print(')')
# print('aqui ',params)
#print('call', tyype +' @' + name , + str(llvm_type(tyype)) + ' @'+name +' (', end="")
#call void @splash(i32 8)
elif len(ctx.expression()) == 1:
if ctx.OP != None: #unary operators
text = ctx.OP.text
token = ctx.OP
tyype, cte_value, ir_register = self.visit(ctx.expression(0))
#print(text,cte_value)
if tyype == Type.VOID:
err("ERROR: unary operator '" + text + "' used on type void in line " + str(token.line) + " and column " + str(token.column) + "\n")
exit(-1)
elif cte_value != None:
if text == '-':
cte_value = -cte_value
if cte_value == None:
cte_value = 0
self.func_count[self.inside_what_function] += 1
print(' ' +"%"+str(self.func_count[self.inside_what_function])+" = sub "+str(llvm_type(tyype))+" "+str(cte_value)+(', %'+str(ir_register)))
#%5 = sub i32 0, %4
else: # parentheses
tyype, cte_value, ir_register = self.visit(ctx.expression(0))
elif len(ctx.expression()) == 2: # binary operators
text = ctx.OP.text
token = ctx.OP
left_type, left_cte_value, left_ir_register = self.visit(ctx.expression(0))
right_type, right_cte_value, right_ir_register = self.visit(ctx.expression(1))
if left_type == Type.VOID or right_type == Type.VOID:
err("ERROR: binary operator '" + text + "' used on type void in line " + str(token.line) + " and column " + str(token.column) + "\n")
exit(-1)
if text == '*' or text == '/' or text == '+' or text == '-':
if left_type == Type.FLOAT or right_type == Type.FLOAT:
tyype = Type.FLOAT
else:
tyype = Type.INT
if (left_type == Type.INT and right_type == Type.FLOAT) and (left_ir_register != None):
print(' ' +"%"+str(self.func_count[self.inside_what_function] + 1)+" = sitofp "+str(llvm_type(Type.INT))+" "+'%'+str(left_ir_register) + ' to float')
self.func_count[self.inside_what_function] += 1
ir_register = self.func_count[self.inside_what_function]
left_ir_register = ir_register
#%4 = sitofp i32 %3 to float
if left_cte_value != None and right_cte_value != None:
if text == '*':
cte_value = left_cte_value * right_cte_value
elif text == '/':
cte_value = left_cte_value / right_cte_value
elif text == '+':
cte_value = left_cte_value + right_cte_value
elif text == '-':
cte_value = left_cte_value - right_cte_value
else:
if text == '*':
if tyype == Type.INT:
self.func_count[self.inside_what_function] += 1
ir_register = self.func_count[self.inside_what_function]
print(' ' +"%"+str(ir_register)+" = mul "+str(llvm_type(tyype))+" "+('%'+str(left_ir_register) if left_ir_register != None else str(left_cte_value if left_type == Type.INT else left_cte_value))+", "+('%'+str(right_ir_register) if right_ir_register != None else str(right_cte_value if right_type == Type.INT else right_cte_value)))
elif tyype == Type.FLOAT:
self.func_count[self.inside_what_function] += 1
#print(ir_register)
ir_register = self.func_count[self.inside_what_function]
#print(ir_register)
print(' ' +"%"+str(ir_register)+" = fmul "+str(llvm_type(tyype))+" "+('%'+str(left_ir_register) if left_ir_register != None else str(left_cte_value if left_type == Type.INT else left_cte_value))+", "+('%'+str(right_ir_register) if right_ir_register != None else str(right_cte_value if right_type == Type.INT else right_cte_value)))
elif text == '/':
if tyype == Type.INT:
self.func_count[self.inside_what_function] += 1
ir_register = self.func_count[self.inside_what_function]
print(' ' +"%"+str(ir_register)+" = sdiv "+str(llvm_type(tyype))+" "+('%'+str(left_ir_register) if left_ir_register != None else str(left_cte_value if left_type == Type.INT else left_cte_value))+", "+('%'+str(right_ir_register) if right_ir_register != None else str(right_cte_value if right_type == Type.INT else right_cte_value)))
elif tyype == Type.FLOAT:
self.func_count[self.inside_what_function] += 1
ir_register = self.func_count[self.inside_what_function]
print(' ' +"%"+str(ir_register)+" = fdiv "+str(llvm_type(tyype))+" "+('%'+str(left_ir_register) if left_ir_register != None else str(left_cte_value if left_type == Type.INT else left_cte_value))+", "+('%'+str(right_ir_register) if right_ir_register != None else str(right_cte_value if right_type == Type.INT else right_cte_value)))
elif text == '+':
if tyype == Type.INT:
self.func_count[self.inside_what_function] += 1
ir_register = self.func_count[self.inside_what_function]
print(' ' +"%"+str(ir_register)+" = add "+str(llvm_type(tyype))+" "+('%'+str(left_ir_register) if left_ir_register != None else str(left_cte_value if left_type == Type.INT else left_cte_value))+", "+('%'+str(right_ir_register) if right_ir_register != None else str(right_cte_value if right_type == Type.INT else right_cte_value)))
elif tyype == Type.FLOAT:
self.func_count[self.inside_what_function] += 1
ir_register = self.func_count[self.inside_what_function]
print(' ' +"%"+str(ir_register)+" = fadd "+str(llvm_type(tyype))+" "+('%'+str(left_ir_register) if left_ir_register != None else str(left_cte_value if left_type == Type.INT else left_cte_value))+", "+('%'+str(right_ir_register) if right_ir_register != None else str(right_cte_value if right_type == Type.INT else right_cte_value)))
elif text == '-':
if tyype == Type.INT:
self.func_count[self.inside_what_function] += 1
ir_register = self.func_count[self.inside_what_function]
print(' ' +"%"+str(ir_register)+" = sub "+str(llvm_type(tyype))+" "+('%'+str(left_ir_register) if left_ir_register != None else str(left_cte_value if left_type == Type.INT else left_cte_value))+", "+('%'+str(right_ir_register) if right_ir_register != None else str(right_cte_value if right_type == Type.INT else right_cte_value)))
elif tyype == Type.FLOAT:
self.func_count[self.inside_what_function] += 1
ir_register = self.func_count[self.inside_what_function]
print(' ' +"%"+str(ir_register)+" = fsub "+str(llvm_type(tyype))+" "+('%'+str(left_ir_register) if left_ir_register != None else str(left_cte_value if left_type == Type.INT else left_cte_value))+", "+('%'+str(right_ir_register) if right_ir_register != None else str(right_cte_value if right_type == Type.INT else right_cte_value)))
cte_value = None
else:
tyype = Type.INT
if left_cte_value != None and right_cte_value != None:
if text == '<':
if left_cte_value < right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '>':
if left_cte_value > right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '==':
if left_cte_value == right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '!=':
if left_cte_value != right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '<=':
if left_cte_value <= right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '>=':
if left_cte_value >= right_cte_value:
cte_value = 1
else:
cte_value = 0
else:
cte_value = None
return tyype, cte_value, ir_register
def visitExpression(self, ctx: GrammarParser.ExpressionContext):
tyype = Type.VOID
cte_value = None # RETORNAR OS VALORES DAS CONTANTES, OU NONE SE NAO FOR CONSTANTE
if len(ctx.expression()) == 0:
if ctx.integer() != None:
tyype = Type.INT
text = ctx.integer().getText()
cte_value = int(text)
elif ctx.floating() != None:
tyype = Type.FLOAT
text = ctx.floating().getText()
cte_value = float(text)
elif ctx.string() != None:
tyype = Type.STRING
elif ctx.identifier() != None:
name = ctx.identifier().getText()
try:
tyype, _, cte_value = self.ids_defined[name]
except:
token = ctx.identifier().IDENTIFIER().getPayload()
print("ERROR: undefined variable '" + name + "' in line " +
str(token.line) + " and column " + str(token.column))
elif ctx.array() != None:
name = ctx.array().identifier().getText()
try:
tyype, array_length, cte_values_array = self.ids_defined[
name]
except:
token = ctx.array().identifier().IDENTIFIER().getPayload()
print("ERROR: undefined array '" + name + "' in line " +
str(token.line) + " and column " + str(token.column))
array_index = self.visit(ctx.array())
if array_index >= 0 and array_index < array_length:
cte_value = cte_values_array[array_index]
elif ctx.function_call() != None:
tyype, cte_value = self.visit(ctx.function_call())
elif len(ctx.expression()) == 1:
if ctx.OP != None: #unary operators
text = ctx.OP.text
token = ctx.OP
tyype, cte_value = self.visit(ctx.expression(0))
if tyype == Type.VOID:
print("ERROR: unary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column))
if text == '-':
if cte_value != None:
cte_value *= -1
else: # parentheses
tyype, cte_value = self.visit(ctx.expression(0))
elif len(ctx.expression()) == 2: # binary operators
text = ctx.OP.text
token = ctx.OP
left, left_cte_value = self.visit(ctx.expression(0))
right, right_cte_value = self.visit(ctx.expression(1))
if left == Type.VOID or right == Type.VOID:
print("ERROR: binary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column))
if text == '*' or text == '/' or text == '+' or text == '-':
if left == Type.FLOAT or right == Type.FLOAT:
tyype = Type.FLOAT
else:
tyype = Type.INT
if left_cte_value != None and right_cte_value != None:
if text == '*':
cte_value = left_cte_value * right_cte_value
elif text == '/':
cte_value = left_cte_value / right_cte_value
elif text == '+':
cte_value = left_cte_value + right_cte_value
else:
cte_value = left_cte_value - right_cte_value
else:
tyype = Type.INT
if left_cte_value != None and right_cte_value != None:
if text == '==':
if left_cte_value == right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '!-':
if left_cte_value != right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '>=':
if left_cte_value >= right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '<=':
if left_cte_value <= right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '>':
if left_cte_value > right_cte_value:
cte_value = 1
else:
cte_value = 0
if text == '<':
if left_cte_value < right_cte_value:
cte_value = 1
else:
cte_value = 0
print(str(tyype) + ": " + str(cte_value))
return tyype, cte_value
def visitExpression(self, ctx: GrammarParser.ExpressionContext):
# tyype = Type.VOID
#print("expression: "+ctx.getText())
if len(ctx.expression()) == 0:
if ctx.integer() != None:
return Type.INT
elif ctx.string() != None:
return Type.STRING
elif ctx.floating() != None:
return Type.FLOAT
elif ctx.identifier() != None:
name = ctx.identifier().getText()
token = ctx.identifier().IDENTIFIER().getPayload()
def_variable = self.ids_defined.get(name)
if def_variable == None:
print(
"ERROR: trying to use a non-defined variable '{}' in expression in line {} and column {}"
.format(name, str(token.line), str(token.column)))
return None
tyype = def_variable[0]
return tyype
elif ctx.array() != None:
name = ctx.array().identifier().getText()
tyype = None
token = ctx.array().identifier().IDENTIFIER().getPayload()
givenIndex = ctx.array().expression().getText()
if (self.ids_defined.get(name) == None):
print(
"ERROR: undefined array '{}' in line {} and column {}".
format(name, str(token.line), str(token.column)))
if givenIndex != None:
print(
"ERROR: array '{}' index out of bounds in line {} and column {}"
.format(name, token.line, token.column))
if (self.ids_defined.get(name) != None):
tyype = self.ids_defined[name][0]
indexType = self.visit(ctx.array().expression())
if (indexType != Type.INT) or (
int(givenIndex) >= self.ids_defined.get(name)[1]):
print(tyype)
print(
"ERROR: array '{}' index out of bounds in line {} and column {}"
.format(name, token.line, token.column))
return tyype
elif ctx.function_call() != None:
return self.visit(ctx.function_call())
elif len(ctx.expression()) == 1:
if ctx.OP == None:
# caso do parenteses
return self.visitExpression(ctx.expression(0))
op = ctx.OP.text
token = ctx.OP.getTokenSource()
tyype = self.visitExpression(ctx.expression(0))
if tyype == None:
return None
if tyype == Type.INT or tyype == Type.FLOAT:
return tyype
elif tyype == Type.VOID:
return (
"ERROR: trying to use '{}' operator in variable of type void, in line {} and column {}"
.format(op, str(token.line), str(token.column)))
else:
print(
"ERROR: trying to use '{}' operator in variable of type '{}', in line {} and column {}"
.format(op, tyype, str(token.line), str(token.column)))
return None
elif len(ctx.expression()) == 2:
token = ctx.OP.getTokenSource()
op = ctx.OP.text
tyype1 = self.visitExpression(ctx.expression(0))
tyype2 = self.visitExpression(ctx.expression(1))
if tyype1 == None or tyype2 == None:
return None
if (tyype1 == Type.FLOAT
or tyype1 == Type.INT) and (tyype2 == Type.FLOAT
or tyype2 == Type.INT):
if tyype1 == tyype2:
return tyype1
else:
return Type.FLOAT
else:
print(
"ERROR: trying to use '{}' operator between variables of types '{}' and '{}', in line {} and column {}"
.format(op, tyype1, tyype2, str(token.line),
str(token.column)))
return None
return Type.VOID
def visitExpression(self, ctx: GrammarParser.ExpressionContext):
tyype = Type.VOID
cte_value = None
ir_register = None
if len(ctx.expression()) == 0:
if ctx.integer() != None:
tyype = Type.INT
cte_value = int(ctx.integer().getText())
elif ctx.floating() != None:
tyype = Type.FLOAT
cte_value = float(ctx.floating().getText())
elif ctx.string() != None:
tyype = Type.STRING
elif ctx.identifier() != None:
name = ctx.identifier().getText()
try:
tyype, _, cte_value, ir_register = self.ids_defined[name]
except:
token = ctx.identifier().IDENTIFIER().getPayload()
err("ERROR: undefined variable '" + name + "' in line " +
str(token.line) + " and column " + str(token.column) +
"\n")
exit(-1)
elif ctx.array() != None:
name = ctx.array().identifier().getText()
try:
tyype, array_length, cte_values_array, ir_registers_array = self.ids_defined[
name]
except:
token = ctx.array().identifier().IDENTIFIER().getPayload()
err("ERROR: undefined array '" + name + "' in line " +
str(token.line) + " and column " + str(token.column) +
"\n")
exit(-1)
array_index_cte, array_index_ir = self.visit(ctx.array())
if array_index_cte != None:
if array_index_cte < 0 or array_index_cte >= array_length:
err("ERROR: array '" + name +
"' index out of bounds in line " +
str(token.line) + " and column " +
str(token.column) + "\n")
exit(-1)
else:
cte_value = cte_values_array[array_index_cte]
ir_register = ir_registers_array[array_index_cte]
elif ctx.function_call() != None:
tyype, cte_value, ir_register = self.visit(ctx.function_call())
elif len(ctx.expression()) == 1:
if ctx.OP != None: #unary operators
text = ctx.OP.text
token = ctx.OP
tyype, cte_value, ir_register = self.visit(ctx.expression(0))
if tyype == Type.VOID:
err("ERROR: unary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column) + "\n")
exit(-1)
elif cte_value != None:
if text == '-':
cte_value = -cte_value
else:
self_ir_register_before_operation = ir_register
ir_register = self.next_ir_register
self.next_ir_register += 1
printf(" %%%s = sub nsw %s %s, %%%s\n", ir_register,
llvm_type(tyype), 0,
self_ir_register_before_operation)
cte_value = None
else: # parentheses
tyype, cte_value, ir_register = self.visit(ctx.expression(0))
elif len(ctx.expression()) == 2: # binary operators
text = ctx.OP.text
token = ctx.OP
left_type, left_cte_value, left_ir_register = self.visit(
ctx.expression(0))
right_type, right_cte_value, right_ir_register = self.visit(
ctx.expression(1))
if left_type == Type.VOID or right_type == Type.VOID:
err("ERROR: binary operator '" + text +
"' used on type void in line " + str(token.line) +
" and column " + str(token.column) + "\n")
exit(-1)
if text == '*' or text == '/' or text == '+' or text == '-':
if left_type == Type.FLOAT or right_type == Type.FLOAT:
tyype = Type.FLOAT
else:
tyype = Type.INT
if left_cte_value != None and right_cte_value != None:
if text == '*':
cte_value = left_cte_value * right_cte_value
elif text == '/':
cte_value = left_cte_value / right_cte_value
elif text == '+':
cte_value = left_cte_value + right_cte_value
elif text == '-':
cte_value = left_cte_value - right_cte_value
else:
left_something = (str(left_cte_value)
if left_cte_value is not None else
"%{}".format(left_ir_register))
right_something = (str(right_cte_value)
if right_cte_value is not None else
"%{}".format(right_ir_register))
ir_register = self.next_ir_register
self.next_ir_register += 1
if text == '*':
printf(" %%%s = mul nsw %s %s, %s\n", ir_register,
llvm_type(tyype), left_something,
right_something)
elif text == '/':
printf(" %%%s = sdiv %s %s, %s\n", ir_register,
llvm_type(tyype), left_something,
right_something)
elif text == '+':
printf(" %%%s = add nsw %s %s, %s\n", ir_register,
llvm_type(tyype), left_something,
right_something)
elif text == '-':
printf(" %%%s = sub nsw %s %s, %s\n", ir_register,
llvm_type(tyype), left_something,
right_something)
cte_value = None
else:
tyype = Type.INT
if left_cte_value != None and right_cte_value != None:
if text == '<':
if left_cte_value < right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '>':
if left_cte_value > right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '==':
if left_cte_value == right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '!=':
if left_cte_value != right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '<=':
if left_cte_value <= right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '>=':
if left_cte_value >= right_cte_value:
cte_value = 1
else:
cte_value = 0
else:
cte_value = None
return tyype, cte_value, ir_register
def visitExpression(self, ctx:GrammarParser.ExpressionContext):
#print("EXP")
tyype = Type.VOID
cte_value = None # RETORNAR OS VALORES DAS CONTANTES, OU NONE SE NAO FOR CONSTANTE
if len(ctx.expression()) == 0:
if ctx.integer() != None:
tyype = Type.INT
cte_value = int(ctx.integer().getText()) #coloquei
elif ctx.floating() != None:
tyype = Type.FLOAT
cte_value = float(ctx.floating().getText()) #coloquei
elif ctx.string() != None:
tyype = Type.STRING
cte_value = str(ctx.string().getText()) #coloquei
elif ctx.identifier() != None:
name = ctx.identifier().getText()
try:
tyype, _, cte_value = self.ids_defined[name]
except:
token = ctx.identifier().IDENTIFIER().getPayload()
print("ERROR: undefined variable '" + name + "' in line " + str(token.line) + " and column " + str(token.column))
elif ctx.array() != None:
name = ctx.array().identifier().getText()
try:
# print("entrou no try do array do visit expression")
tyype, array_length, cte_values_array = self.ids_defined[name]
# print(cte_values_array, "valores pegando aqui dentro do visitexpression")
except:
# print("entrou no expection do array")
token = ctx.array().identifier().IDENTIFIER().getPayload()
print("ERROR: undefined array '" + name + "' in line " + str(token.line) + " and column " + str(token.column))
array_index = self.visit(ctx.array())
# print(array_index, array_length)
if array_index < array_length:
# print(array_index, "indice do array")
# print(ctx.array().getText())
# print(self.ids_defined['tk'][2][2], "uhuuu")
if(tyype == Type.FLOAT):
cte_value = float(self.ids_defined[name][2][array_index])
elif(tyype == Type.INT):
cte_value = int(self.ids_defined[name][2][array_index])
else:
print("Erro voce ta acessando o array que nao é inteiro nem float para alguma operacao [aritmetica possivelmente]")
else:
token = ctx.array().identifier().IDENTIFIER().getPayload()
print("Erro aqui no index do array, indice fora do comprimento do array " + name + " in line " + str(token.line) + " and column " + str(token.column))
elif ctx.function_call() != None:
tyype, cte_value = self.visit(ctx.function_call())
elif len(ctx.expression()) == 1:
if ctx.OP != None: #unary operators
text = ctx.OP.text
token = ctx.OP
tyype, cte_value = self.visit(ctx.expression(0)) #caso vem sem operacao unario tipo 3 != +3 ou -3
if(text == '-'):
cte_value = -cte_value # é negativo categoricamente
elif (text == '+'):
cte_value = cte_value #é positivo categoricamente
else:
print("Erro operador unario negativos e positivos")
if tyype == Type.VOID:
print("ERROR: unary operator '" + text + "' used on type void in line " + str(token.line) + " and column " + str(token.column))
else: # parentheses
tyype, cte_value = self.visit(ctx.expression(0))
elif len(ctx.expression()) == 2: # binary operators
# print("PRINT 1")
text = ctx.OP.text
token = ctx.OP
left, left_cte_value = self.visit(ctx.expression(0))
right, right_cte_value = self.visit(ctx.expression(1))
if left == Type.VOID or right == Type.VOID:
print("ERROR: binary operator '" + text + "' used on type void in line " + str(token.line) + " and column " + str(token.column))
if text == '*' or text == '/' or text == '+' or text == '-':
if left == Type.FLOAT or right == Type.FLOAT:
tyype = Type.FLOAT
else:
tyype = Type.INT
else:
tyype = Type.INT
# print("TEXT", text)
if(left_cte_value != None and right_cte_value != None):
if text == '/':
cte_value = eval(str(left_cte_value)) / eval(str(right_cte_value))
#print(left_cte_value, right_cte_value, "valores")
elif text == '*':
cte_value = eval(str(left_cte_value)) * eval(str(right_cte_value))
#print(left_cte_value, right_cte_value, "valores")
elif text == '+':
cte_value = eval(str(left_cte_value)) + eval(str(right_cte_value))
#print(left_cte_value, right_cte_value, "valores")
elif text == '-':
cte_value = eval(str(left_cte_value)) - eval(str(right_cte_value))
#print(left_cte_value, right_cte_value, "valores")
elif text == '<':
if left_cte_value < right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '>':
if left_cte_value > right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '<=':
if left_cte_value <= right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '>=':
if left_cte_value >= right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '==':
if left_cte_value == right_cte_value:
cte_value = 1
else:
cte_value = 0
elif text == '!=':
if left_cte_value != right_cte_value:
cte_value = 1
else:
cte_value = 0
else:
print("ERRO: nao é uma operacao valida")
print(str(tyype) + ": " + str(cte_value))
#print(self.ids_defined)
return tyype, cte_value
def visitExpression(self, ctx:GrammarParser.ExpressionContext):
tyype = Type.VOID
if len(ctx.expression()) == 0:
if ctx.integer() != None:
text = ctx.integer().getText()
token = ctx.integer().INTEGER().getPayload()
tyype = Type.INT
elif ctx.floating() != None:
text = ctx.floating().getText()
token = ctx.floating().FLOATING().getPayload()
tyype = Type.FLOAT
elif ctx.string() != None:
typpe = Type.STRING
elif ctx.identifier() != None:
text = ctx.identifier().getText()
token = ctx.identifier().IDENTIFIER().getPayload()
if (text in GrammarCheckerVisitor.ids_defined) == True:
tyype = GrammarCheckerVisitor.ids_defined[text]
else:
raise NameError("identifier '" + text + "' linha: "+ str(token.line) + " ,não foi definido ainda.")
elif ctx.array() != None:
text = ctx.array().identifier().getText()
token = ctx.array().identifier().IDENTIFIER().getPayload()
if (text in GrammarCheckerVisitor.ids_defined) == True:
tyype = GrammarCheckerVisitor.ids_defined[text]
else:
raise NameError("array '" + text + "'[] linha: "+ str(token.line) + " ,não foi definido ainda.")
elif ctx.function_call != None:
text = ctx.function_call().identifier().getText()
token = ctx.function_call().identifier().IDENTIFIER().getPayload()
if (text in GrammarCheckerVisitor.ids_defined) == True:
function = GrammarCheckerVisitor.ids_defined[text]
if function[1] != len(ctx.function_call().expression()):
raise NameError("function call '" + text + "'() linha: "+ str(token.line) + " ,possui um número incorreto de argumentos.")
else:
for i in range(len(ctx.function_call().expression())):
arg_type = self.visit(ctx.function_call().expression(i))
arg_function = GrammarCheckerVisitor.ids_defined[function[i+2]]
if arg_type != arg_function:
if (arg_function == Type.INT and arg_type == Type.FLOAT) or (arg_function == Type.FLOAT and arg_type == Type.INT):
print("WARNING: function call '" + text + "'() linha: "+ str(token.line) + " ,pode perder informações, por está passando um argumento de tipo diferente da definição da função")
else:
raise NameError("function call '" + text + "'() linha: "+ str(token.line) + " ,está passando um argumento de tipo diferente do aceito.")
tyype = function[0]
else:
for i in range(len(ctx.function_call().expression())):
arg_type = self.visit(ctx.function_call().expression(i))
tyype = Type.VOID
elif len(ctx.expression()) == 1:
if ctx.OP != None:
text = ctx.OP.text
token = ctx.OP
tyype = self.visit(ctx.expression(0))
else:
tyype = self.visit(ctx.expression(0))
elif len(ctx.expression()) == 2:
text = ctx.OP.text
token = ctx.OP
left = self.visit(ctx.expression(0))
right = self.visit(ctx.expression(1))
listaOpA = ['+', '-', '*', '/']
listaOpL = ['<', '<=', '==', '>=', '>', '!=']
if(left == Type.INT) and (right == Type.INT) and ((text in listaOpA) or (text in listaOpL)):
tyype = Type.INT
elif (left == Type.FLOAT) and (right == Type.FLOAT) and (text in listaOpA):
tyype = Type.FLOAT
elif (((left == Type.FLOAT) and (right == Type.INT)) or ((left == Type.INT) and (right == Type.FLOAT))) and (text in listaOpA):
tyype = Type.FLOAT
elif (left == Type.FLOAT) and (right == Type.FLOAT) and (text in listaOpL):
tyype = Type.FLOAT
else:
raise NameError("expression '" + text + "'() linha: "+ str(token.line)+ " ,possui operadores que não são do tipo 'int' ou 'float'.")
return tyype