def options(b: ir.IRBuilder, t: ir.Type) -> ir.Value:
new_block = b.function.append_basic_block("block")
with b.goto_block(new_block):
phi_node = b.phi(t)
def ret(value):
if not b.block.is_terminated:
phi_node.add_incoming(value, b.block)
b.branch(new_block)
yield ret, phi_node
b.position_at_end(new_block)
class GeneratorVisitor(SmallCVisitor):
def __init__(self, output_file=None):
super(SmallCVisitor, self).__init__()
self.Module = Module(name=__file__)
self.Module.triple = "x86_64-pc-linux-gnu"
self.Builder = None
self.function = None
self.NamedValues = dict()
self.counter = 0
self.loop_stack = []
self.signal_stack = []
self.cond_stack = []
self.var_stack = []
self.cur_decl_type = None
self.indentation = 0
self.function_dict = dict()
self.error_queue = list()
self.output_file = output_file
def print(self):
if not self.output_file:
print(self.Module)
else:
f = open(self.output_file, "w+")
f.write(self.Module.__str__())
f.close()
def error(self, info):
print("Error: ", info)
return 0
def toBool(self, value):
zero = Constant(self.getType('bool'), 0)
return self.Builder.icmp_signed('!=', value, zero)
def getVal_of_expr(self, expr):
temp = self.visit(expr)
if isinstance(temp, Constant) or isinstance(
temp, CallInstr) or isinstance(temp, LoadInstr) or isinstance(
temp, Instruction) or isinstance(temp, GlobalVariable):
value = temp
else:
temp_val = self.getVal_local(temp.IDENTIFIER().getText())
temp_ptr = temp_val['ptr']
if temp.array_indexing():
index = self.getVal_of_expr(temp.array_indexing().expr())
temp_ptr = self.Builder.gep(temp_ptr,
[Constant(IntType(32), 0), index],
inbounds=True)
# if isinstance(temp_val['type'],ArrayType):
# if temp.array_indexing():
# index = self.getVal_of_expr(temp.array_indexing().expr())
# temp_ptr = self.Builder.gep(temp_ptr, [Constant(IntType(32), 0), index], inbounds=True)
# elif temp.AMPERSAND():
# Constant(PointerType(IntType(8)), temp_ptr.getText())
# elif temp.ASTERIKS():
# pass
# else: #返回数组地址
# temp_ptr = self.Builder.gep(temp_ptr, [Constant(IntType(32), 0), Constant(IntType(32), 0)], inbounds=True)
# return temp_ptr
value = self.Builder.load(temp_ptr)
return value
def getType(self, type):
if type == 'int':
return IntType(32)
elif type == 'char':
return IntType(8)
elif type == 'float':
return FloatType()
elif type == 'bool':
return IntType(1)
elif type == 'void':
return VoidType()
else:
self.error("type error in <getType>")
def getVal_local(self, id):
temp_maps = self.var_stack[::-1]
for map in temp_maps:
if id in map.keys():
return map[id]
self.error("value error in <getVal_local>")
return None
def visitFunction_definition(self,
ctx: SmallCParser.Function_definitionContext):
retType = self.getType(ctx.type_specifier().getText())
if ctx.identifier().ASTERIKS():
retType = retType.as_pointer()
argsType = []
argsName = []
# args
if ctx.param_decl_list():
args = ctx.param_decl_list()
var_arg = False
for t in args.getChildren():
if t.getText() != ',':
if t.getText() == '...':
var_arg = True
break
t_type = self.getType(t.type_specifier().getText())
if t.identifier().ASTERIKS():
t_type = t_type.as_pointer()
argsType.append(t_type)
argsName.append(t.identifier().IDENTIFIER().getText())
funcType = FunctionType(retType, tuple(argsType), var_arg=var_arg)
# no args
else:
funcType = FunctionType(retType, ())
# function
if ctx.identifier().IDENTIFIER().getText() in self.function_dict:
func = self.function_dict[ctx.identifier().IDENTIFIER().getText()]
else:
func = Function(self.Module,
funcType,
name=ctx.identifier().IDENTIFIER().getText())
self.function_dict[ctx.identifier().IDENTIFIER().getText()] = func
# blocks or ;
if ctx.compound_stmt():
self.function = ctx.identifier().IDENTIFIER().getText()
block = func.append_basic_block(
ctx.identifier().IDENTIFIER().getText())
varDict = dict()
self.Builder = IRBuilder(block)
for i, arg in enumerate(func.args):
arg.name = argsName[i]
alloca = self.Builder.alloca(arg.type, name=arg.name)
self.Builder.store(arg, alloca)
varDict[arg.name] = {
"id": arg.name,
"type": arg.type,
"value": None,
"ptr": alloca
}
self.var_stack.append(varDict)
self.visit(ctx.compound_stmt())
if isinstance(retType, VoidType):
self.Builder.ret_void()
self.var_stack.pop()
self.function = None
return
def visitFunctioncall(self, ctx: SmallCParser.FunctioncallContext):
var_map = self.var_stack[-1]
function = self.function_dict[ctx.identifier().getText()]
arg_types = function.args
index = 0
args = []
if ctx.param_list():
for param in ctx.param_list().getChildren():
if (param.getText() == ','):
continue
temp = self.getVal_of_expr(param)
arg_type = None
if index < len(arg_types):
arg_type = arg_types[index]
ptr_flag = False
if arg_type:
if isinstance(arg_type.type, PointerType):
ptr_flag = True
elif self.getVal_local(temp.name):
temp_type = self.getVal_local(temp.name)['type']
if isinstance(temp_type, PointerType):
ptr_flag = True
if not ptr_flag and not isinstance(temp, Constant):
temp = self.Builder.load(temp)
args.append(temp)
index += 1
return self.Builder.call(function, args)
# def visitVar_decl(self, ctx: SmallCParser.Var_declContext):
# type = self.getType(ctx.type_specifier())
# list = ctx.var_decl_list()
# for var in list.getChildren():
# if var.getText() != ',':
# if self.builder:
# alloca = self.builder.alloca(type, name=var.identifier().getText())
# self.builder.store(Constant(type, None), alloca)
# self.var_stack[-1][var.identifier().getText()] = alloca
# else:
# g_var = GlobalVariable(self.Module, type, var.identifier().getText())
# g_var.initializer = Constant(type, None)
# return
def visitStmt(self, ctx: SmallCParser.StmtContext):
if ctx.RETURN():
value = self.getVal_of_expr(ctx.expr())
if isinstance(value.type, PointerType):
value = self.Builder.load(value)
return self.Builder.ret(value)
elif ctx.CONTINUE():
self.signal_stack[-1] = 1
loop_blocks = self.loop_stack[-1]
self.Builder.branch(loop_blocks['continue'])
self.Builder.position_at_start(loop_blocks['buf'])
return None
elif ctx.BREAK():
self.signal_stack[-1] = -1
loop_blocks = self.loop_stack[-1]
self.Builder.branch(loop_blocks['break'])
self.Builder.position_at_start(loop_blocks['buf'])
else:
return self.visitChildren(ctx)
def visitCompound_stmt(self, ctx: SmallCParser.Compound_stmtContext):
# builder = IRBuilder(self.block_stack[-1])
# block = self.Builder.append_basic_block()
# self.block_stack.append(block)
# with self.Builder.goto_block(block):
result = self.visitChildren(ctx)
# self.block_stack.pop()
return result
def visitAssignment(self, ctx: SmallCParser.AssignmentContext):
value = self.getVal_of_expr(ctx.expr())
identifier = ctx.identifier()
identifier = self.getVal_local(identifier.IDENTIFIER().getText())
if isinstance(identifier['type'], ArrayType):
if ctx.identifier().array_indexing():
index = self.getVal_of_expr(
ctx.identifier().array_indexing().expr())
if isinstance(index.type, PointerType):
index = self.Builder.load(index)
else:
index = Constant(IntType(32), 0)
tempPtr = self.Builder.gep(identifier['ptr'],
[Constant(IntType(32), 0), index],
inbounds=True)
if isinstance(value.type, PointerType):
value = self.Builder.load(value)
return self.Builder.store(value, tempPtr)
if isinstance(value.type, PointerType):
value = self.Builder.load(value)
return self.Builder.store(value, identifier['ptr'])
def visitExpr(self, ctx: SmallCParser.ExprContext):
if ctx.condition():
return self.visit(ctx.condition())
elif ctx.assignment():
return self.visit(ctx.assignment())
elif ctx.functioncall():
return self.visit(ctx.functioncall())
def visitCondition(self, ctx: SmallCParser.ConditionContext):
if ctx.expr():
disjunction = self.getVal_of_expr(ctx.disjunction())
if isinstance(disjunction.type, PointerType):
disjunction = self.Builder.load(disjunction)
cond = self.Builder.icmp_signed('!=', disjunction,
Constant(disjunction.type, 0))
expr = self.getVal_of_expr(ctx.expr())
if isinstance(expr.type, PointerType):
expr = self.Builder.load(expr)
condition = self.getVal_of_expr(ctx.condition())
return self.Builder.select(cond, expr, condition)
else:
return self.getVal_of_expr(ctx.disjunction())
def visitDisjunction(self, ctx: SmallCParser.DisjunctionContext):
if ctx.disjunction():
disjunction = self.getVal_of_expr(ctx.disjunction())
if isinstance(disjunction.type, PointerType):
disjunction = self.Builder.load(disjunction)
conjunction = self.getVal_of_expr(ctx.conjunction())
if isinstance(conjunction.type, PointerType):
conjunction = self.Builder.load(conjunction)
left = self.Builder.icmp_signed('!=', disjunction,
Constant(disjunction.type, 0))
right = self.Builder.icmp_signed('!=', conjunction,
Constant(conjunction.type, 0))
return self.Builder.or_(left, right)
else:
return self.getVal_of_expr(ctx.conjunction())
def visitConjunction(self, ctx: SmallCParser.ConjunctionContext):
if ctx.conjunction():
conjunction = self.getVal_of_expr(ctx.conjunction())
if isinstance(conjunction.type, PointerType):
conjunction = self.Builder.load(conjunction)
comparison = self.getVal_of_expr(ctx.comparison())
if isinstance(comparison.type, PointerType):
comparison = self.Builder.load(comparison)
left = self.Builder.icmp_signed('!=', conjunction,
Constant(conjunction.type, 0))
right = self.Builder.icmp_signed('!=', comparison,
Constant(comparison.type, 0))
return self.Builder.and_(left, right)
else:
return self.getVal_of_expr(ctx.comparison())
def visitComparison(self, ctx: SmallCParser.ComparisonContext):
if ctx.EQUALITY():
relation1 = self.getVal_of_expr(ctx.relation(0))
if isinstance(relation1.type, PointerType):
relation1 = self.Builder.load(relation1)
relation2 = self.getVal_of_expr(ctx.relation(1))
if isinstance(relation2.type, PointerType):
relation2 = self.Builder.load(relation2)
return self.Builder.icmp_signed('==', relation1, relation2)
elif ctx.NEQUALITY():
relation1 = self.getVal_of_expr(ctx.relation(0))
if isinstance(relation1.type, PointerType):
relation1 = self.Builder.load(relation1)
relation2 = self.getVal_of_expr(ctx.relation(1))
if isinstance(relation2.type, PointerType):
relation2 = self.Builder.load(relation2)
return self.Builder.icmp_signed('!=', relation1, relation2)
else:
return self.getVal_of_expr(ctx.relation(0))
def visitRelation(self, ctx: SmallCParser.RelationContext):
if len(ctx.equation()) > 1:
equation1 = self.getVal_of_expr(ctx.equation(0))
if isinstance(equation1.type, PointerType):
equation1 = self.Builder.load(equation1)
equation2 = self.getVal_of_expr(ctx.equation(1))
if isinstance(equation2.type, PointerType):
equation2 = self.Builder.load(equation2)
if ctx.LEFTANGLE():
value = self.Builder.icmp_signed('<', equation1, equation2)
elif ctx.RIGHTANGLE():
value = self.Builder.icmp_signed('>', equation1, equation2)
elif ctx.LEFTANGLEEQUAL():
value = self.Builder.icmp_signed('<=', equation1, equation2)
elif ctx.RIGHTANGLEEQUAL():
value = self.Builder.icmp_signed('>=', equation1, equation2)
return value
else:
return self.getVal_of_expr(ctx.equation(0))
def visitFor_stmt(self, ctx: SmallCParser.For_stmtContext):
func = self.function_dict[self.function]
end_block = func.append_basic_block()
self.var_stack.append({})
decl_block = func.append_basic_block()
self.var_stack.append({})
cond_block = func.append_basic_block()
self.var_stack.append({})
stmt_block = func.append_basic_block()
self.var_stack.append({})
loop_block = func.append_basic_block()
# 1 -> continue, -1 -> break
self.signal_stack.append(0)
self.loop_stack.append({
'continue': cond_block,
'break': end_block,
'buf': loop_block
})
with self.Builder.goto_block(decl_block):
# self.Builder.position_at_start(end_block)
if ctx.var_decl():
self.visit(ctx.var_decl())
elif ctx.var_decl_list():
self.visit(ctx.var_decl_list())
else:
self.error("for error in <visitFor_stmt>")
self.Builder.branch(cond_block)
self.Builder.branch(decl_block)
with self.Builder.goto_block(cond_block):
# cond_expr
cond_expr = ctx.expr(0)
cond_expr = self.visit(cond_expr)
cond_expr = self.toBool(cond_expr)
self.Builder.cbranch(cond_expr, stmt_block, end_block)
with self.Builder.goto_block(stmt_block):
# expr
self.visit(ctx.stmt())
expr = ctx.expr(1)
self.visit(expr)
self.Builder.branch(cond_block)
if self.signal_stack[-1] == 0:
loop_blocks = self.loop_stack[-1]
self.Builder.position_at_start(loop_blocks['buf'])
self.Builder.branch(end_block)
self.Builder.position_at_start(end_block)
self.loop_stack.pop()
self.signal_stack.pop()
self.var_stack.pop()
self.var_stack.pop()
self.var_stack.pop()
self.var_stack.pop()
def visitWhile_stmt(self, ctx: SmallCParser.While_stmtContext):
func = self.function_dict[self.function]
end_block = func.append_basic_block()
self.var_stack.append({})
cond_block = func.append_basic_block()
self.var_stack.append({})
stmt_block = func.append_basic_block()
self.var_stack.append({})
loop_block = func.append_basic_block()
# 1 -> continue, -1 -> break
self.signal_stack.append(0)
self.loop_stack.append({
'continue': cond_block,
'break': end_block,
'buf': loop_block
})
self.Builder.branch(cond_block)
with self.Builder.goto_block(cond_block):
expr = self.getVal_of_expr(ctx.expr())
cond_expr = self.toBool(expr)
self.Builder.cbranch(cond_expr, stmt_block, end_block)
with self.Builder.goto_block(stmt_block):
self.visit(ctx.stmt())
self.Builder.branch(cond_block)
if self.signal_stack[-1] == 0:
loop_blocks = self.loop_stack[-1]
self.Builder.position_at_start(loop_blocks['buf'])
self.Builder.branch(end_block)
self.Builder.position_at_start(end_block)
self.loop_stack.pop()
self.signal_stack.pop()
self.var_stack.pop()
self.var_stack.pop()
self.var_stack.pop()
def visitCond_stmt(self, ctx: SmallCParser.Cond_stmtContext):
expr = self.getVal_of_expr(ctx.expr())
cond_expr = self.toBool(expr)
else_expr = ctx.ELSE()
if else_expr:
with self.Builder.if_else(cond_expr) as (then, otherwise):
with then:
self.var_stack.append({})
true_stmt = ctx.stmt(0)
self.visit(true_stmt)
self.var_stack.pop()
with otherwise:
self.var_stack.append({})
else_stmt = ctx.stmt(1)
self.visit(else_stmt)
self.var_stack.pop()
else:
with self.Builder.if_then(cond_expr):
self.var_stack.append({})
true_stmt = ctx.stmt(0)
self.visit(true_stmt)
self.var_stack.pop()
return None
def visitVar_decl(self, ctx: SmallCParser.Var_declContext):
self.cur_decl_type = self.getType(ctx.type_specifier().getText())
return self.visitChildren(ctx)
def visitVar_decl_list(self, ctx: SmallCParser.Var_decl_listContext):
ans = []
decls = ctx.variable_id()
for decl in decls:
ans.append(self.visit(decl))
return ans
def visitVariable_id(self, ctx: SmallCParser.Variable_idContext):
identifier = ctx.identifier()
type = self.cur_decl_type
if not self.function:
if identifier.array_indexing():
length = self.getVal_of_expr(
identifier.array_indexing().expr())
type = ArrayType(type, length.constant)
g_var = GlobalVariable(self.Module, type,
identifier.IDENTIFIER().getText())
else:
g_var = GlobalVariable(self.Module, type,
identifier.IDENTIFIER().getText())
g_var.initializer = Constant(type, None)
atomic = {
"id": identifier.IDENTIFIER().getText(),
"type": type,
"value": None,
"ptr": g_var
}
if not len(self.var_stack):
self.var_stack.append({})
self.var_stack[0][identifier.IDENTIFIER().getText()] = atomic
return g_var
var_map = self.var_stack[-1]
if identifier.array_indexing():
length = self.getVal_of_expr(identifier.array_indexing().expr())
type = ArrayType(type, length.constant)
ptr = self.Builder.alloca(typ=type,
name=identifier.IDENTIFIER().getText())
else:
ptr = self.Builder.alloca(typ=type,
name=identifier.IDENTIFIER().getText())
expr = ctx.expr()
if expr:
value = self.getVal_of_expr(expr)
else:
value = Constant(type, None)
if isinstance(value.type, PointerType):
value = self.Builder.load(value)
self.Builder.store(value, ptr)
var_map[identifier.IDENTIFIER().getText()] = {
"id": identifier.IDENTIFIER().getText(),
"type": type,
"value": value,
"ptr": ptr
}
return ptr
def visitPrimary(self, ctx: SmallCParser.PrimaryContext):
if ctx.BOOLEAN():
return Constant(IntType(1), bool(ctx.getText()))
elif ctx.INTEGER():
return Constant(IntType(32), int(ctx.getText()))
elif ctx.REAL():
return Constant(FloatType, float(ctx.getText()))
elif ctx.CHARCONST():
tempStr = ctx.getText()[1:-1]
tempStr = tempStr.replace('\\n', '\n')
tempStr = tempStr.replace('\\0', '\0')
if ctx.getText()[0] == '"':
tempStr += '\0'
temp = GlobalVariable(self.Module,
ArrayType(IntType(8), len(tempStr)),
name="str_" + tempStr[:-1] +
str(self.counter))
self.counter += 1
temp.initializer = Constant(
ArrayType(IntType(8), len(tempStr)),
bytearray(tempStr, encoding='utf-8'))
temp.global_constant = True
return self.Builder.gep(
temp, [Constant(IntType(32), 0),
Constant(IntType(32), 0)],
inbounds=True)
return Constant(IntType(8), ord(tempStr[0]))
elif ctx.identifier():
return self.visit(ctx.identifier())
elif ctx.functioncall():
return self.visit(ctx.functioncall())
elif ctx.expr():
return self.visit(ctx.expr())
else:
return self.error("type error in <visitPrimary>")
def visitFactor(self, ctx: SmallCParser.FactorContext):
if (ctx.MINUS()):
factor = self.getVal_of_expr(ctx.factor())
if isinstance(factor.type, PointerType):
factor = self.Builder.load(factor)
factor = self.Builder.neg(factor)
return factor
return self.visitChildren(ctx)
def visitTerm(self, ctx: SmallCParser.TermContext):
if (ctx.ASTERIKS()):
term = self.getVal_of_expr(ctx.term())
if isinstance(term.type, PointerType):
term = self.Builder.load(term)
factor = self.getVal_of_expr(ctx.factor())
if isinstance(factor.type, PointerType):
factor = self.Builder.load(factor)
return self.Builder.mul(term, factor)
if (ctx.SLASH()):
term = self.getVal_of_expr(ctx.term())
if isinstance(term.type, PointerType):
term = self.Builder.load(term)
factor = self.getVal_of_expr(ctx.factor())
if isinstance(factor.type, PointerType):
factor = self.Builder.load(factor)
return self.Builder.sdiv(term, factor)
return self.visitChildren(ctx)
def visitEquation(self, ctx: SmallCParser.EquationContext):
if (ctx.PLUS()):
equation = self.getVal_of_expr(ctx.equation())
if isinstance(equation.type, PointerType):
equation = self.Builder.load(equation)
if str(equation.type) != 'i32':
equation = self.Builder.zext(equation, IntType(32))
term = self.getVal_of_expr(ctx.term())
if isinstance(term.type, PointerType):
term = self.Builder.load(term)
if str(term.type) != 'i32':
term = self.Builder.zext(term, IntType(32))
return self.Builder.add(equation, term)
if (ctx.MINUS()):
equation = self.getVal_of_expr(ctx.equation())
if isinstance(equation.type, PointerType):
equation = self.Builder.load(equation)
if str(equation.type) != 'i32':
equation = self.Builder.zext(equation, IntType(32))
term = self.getVal_of_expr(ctx.term())
if isinstance(term.type, PointerType):
term = self.Builder.load(term)
if str(term.type) != 'i32':
term = self.Builder.zext(term, IntType(32))
return self.Builder.sub(equation, term)
return self.visitChildren(ctx)
def visitIdentifier(self, ctx: SmallCParser.IdentifierContext):
if (ctx.AMPERSAND() and ctx.array_indexing()):
return self.Builder.gep(self.getVal_of_expr(ctx.IDENTIFIER()),
self.getVal_of_expr(ctx.array_indexing()))
if (ctx.ASTERIKS() and ctx.array_indexing()):
return self.Builder.load(
self.Builder.gep(self.getVal_of_expr(ctx.IDENTIFIER()),
self.getVal_of_expr(ctx.array_indexing())))
if (ctx.AMPERSAND()):
return self.getVal_local(str(ctx.IDENTIFIER()))['ptr']
if (ctx.ASTERIKS()):
return self.getVal_local(str(ctx.IDENTIFIER()))['ptr']
temp = self.getVal_local(ctx.IDENTIFIER().getText())
temp_ptr = temp['ptr']
# if isinstance(temp_val['type'],ArrayType):
# if temp.array_indexing():
# index = self.getVal_of_expr(temp.array_indexing().expr())
# temp_ptr = self.Builder.gep(temp_ptr, [Constant(IntType(32), 0), index], inbounds=True)
# elif temp.AMPERSAND():
# Constant(PointerType(IntType(8)), temp_ptr.getText())
# elif temp.ASTERIKS():
# pass
# else: #返回数组地址
# temp_ptr = self.Builder.gep(temp_ptr, [Constant(IntType(32), 0), Constant(IntType(32), 0)], inbounds=True)
# return temp_ptr
if isinstance(temp['type'], ArrayType):
if ctx.array_indexing():
index = self.getVal_of_expr(ctx.array_indexing().expr())
if isinstance(index.type, PointerType):
index = self.Builder.load(index)
temp_ptr = self.Builder.gep(temp_ptr,
[Constant(IntType(32), 0), index],
inbounds=True)
value = self.Builder.load(temp_ptr)
self.var_stack[-1][temp_ptr.name] = {
'id': temp_ptr.name,
'type': temp_ptr.type,
'value': value,
'ptr': temp_ptr
}
return temp_ptr
else:
temp_ptr = self.Builder.gep(
temp_ptr,
[Constant(IntType(32), 0),
Constant(IntType(32), 0)],
inbounds=True)
value = self.Builder.load(temp_ptr)
self.var_stack[-1][temp_ptr.name] = {
'id': temp_ptr.name,
'type': temp_ptr.type,
'value': value,
'ptr': temp_ptr
}
return temp_ptr
temp_val = temp['ptr']
return temp_val
def visitArray_indexing(self, ctx: SmallCParser.Array_indexingContext):
return self.visit(ctx.expr())
