I am attempting to write some compiler and use LLVM to generate intermediate code. Unfortunately, LLVM documentation is not very great and even somewhat confusing.
At the moment I have lexer,grammar and AST implemented. I was also following some examples found on Internet. My current AST works as follows: it has the abstract base class Tree*, from which other trees inherit (so, like one for variable definition, one for statement list, one for binary expression etc.).
I am trying to implement the variable definition, so for the input
class Test{
int main()
{
int x;
}
}
I want LLVM output to be:
; ModuleID = "Test"
define i32 @main() {
entry:
%x = alloca i32
return i32 0
}
However, right now I can get %x = alloca i32 part to the part where main function is created, but the actual output is missing the %x = alloca i32. So, the output I'm getting is as follows:
; ModuleID = "Test"
define i32 @main() {
entry:
return i32 0
}
my Codegen() for variable declaration is shown bellow (symbol table for now is just a list, I am trying to keep things as simple as possible at the moment):
llvm::Value *decafStmtList::Codegen() {
string name = SyandTy.back(); // Just a name of a variable
string type = SyandTy.front(); // and its type in string format
Type* typeVal = getLLVMType(decafType(str2DecafType(type))); // get LLVM::*Type representation
llvm::AllocaInst *Alloca = Builder.CreateAlloca(typeVal, 0, name.c_str());
Value *V = Alloca;
return Alloca;//Builder.CreateLoad(V, name.c_str());
}
The part where I am generating my @main is as follows: Note: I have commented out the print_int function (this is the function I will use later to print things, but for now I don't need it). If I'll uncomment the print_int function, TheFunction will not pass verifier(TheFunction) -> complains about module being broken and parameters not matching the signature.
Function *gen_main_def(llvm::Value *RetVal, Function *print_int) {
if (RetVal == 0) {
throw runtime_error("something went horribly wrong\n");
}
// create the top-level definition for main
FunctionType *FT = FunctionType::get(IntegerType::get(getGlobalContext(), 32), false);
Function *TheFunction = Function::Create(FT, Function::ExternalLinkage, "main", TheModule);
if (TheFunction == 0) {
throw runtime_error("empty function block");
}
// Create a new basic block which contains a sequence of LLVM instructions
BasicBlock *BB = BasicBlock::Create(getGlobalContext(), "entry", TheFunction);
// All subsequent calls to IRBuilder will place instructions in this location
Builder.SetInsertPoint(BB);
/*
Function *CalleeF = TheModule->getFunction(print_int->getName());
if (CalleeF == 0) {
throw runtime_error("could not find the function print_int\n");
}*/
// print the value of the expression and we are done
// Value *CallF = Builder.CreateCall(CalleeF, RetVal, "calltmp");
// Finish off the function.
// return 0 from main, which is EXIT_SUCCESS
Builder.CreateRet(ConstantInt::get(getGlobalContext(), APInt(32, 0)));
return TheFunction;
}
If someone knows why my Alloca object is not being generated, please help me out - any hints will be greatly appreciated.
Thank you
EDIT:
Codegen is called from the grammar:
start: program
program: extern_list decafclass
{
ProgramAST *prog = new ProgramAST((decafStmtList *)$1, (ClassAST *)$2);
if (printAST) {
cout << getString(prog) << endl;
}
Value *RetVal = prog->Codegen();
delete $1; // get rid of abstract syntax tree
delete $2; // get rid of abstract syntax tree
// we create an implicit print_int function call to print
// out the value of the expression.
Function *print_int = gen_print_int_def();
Function *TheFunction = gen_main_def(RetVal, print_int);
verifyFunction(*TheFunction);
}
EDIT: I figured it out, basically the createAlloca has to be called after the basicblock when generating main;
