AST.cpp
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//===- AST.cpp - Helper for printing out the Toy AST ----------------------===//
//
// Part of the MLIR Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file implements the AST dump for the Toy language.
//
//===----------------------------------------------------------------------===//
#include "toy/AST.h"
#include "mlir/ADT/TypeSwitch.h"
#include "mlir/Support/STLExtras.h"
#include "llvm/ADT/Twine.h"
#include "llvm/Support/raw_ostream.h"
using namespace toy;
namespace {
// RAII helper to manage increasing/decreasing the indentation as we traverse
// the AST
struct Indent {
Indent(int &level) : level(level) { ++level; }
~Indent() { --level; }
int &level;
};
/// Helper class that implement the AST tree traversal and print the nodes along
/// the way. The only data member is the current indentation level.
class ASTDumper {
public:
void dump(ModuleAST *node);
private:
void dump(const VarType &type);
void dump(VarDeclExprAST *varDecl);
void dump(ExprAST *expr);
void dump(ExprASTList *exprList);
void dump(NumberExprAST *num);
void dump(LiteralExprAST *node);
void dump(StructLiteralExprAST *node);
void dump(VariableExprAST *node);
void dump(ReturnExprAST *node);
void dump(BinaryExprAST *node);
void dump(CallExprAST *node);
void dump(PrintExprAST *node);
void dump(PrototypeAST *node);
void dump(FunctionAST *node);
void dump(StructAST *node);
// Actually print spaces matching the current indentation level
void indent() {
for (int i = 0; i < curIndent; i++)
llvm::errs() << " ";
}
int curIndent = 0;
};
} // namespace
/// Return a formatted string for the location of any node
template <typename T> static std::string loc(T *node) {
const auto &loc = node->loc();
return (llvm::Twine("@") + *loc.file + ":" + llvm::Twine(loc.line) + ":" +
llvm::Twine(loc.col))
.str();
}
// Helper Macro to bump the indentation level and print the leading spaces for
// the current indentations
#define INDENT() \
Indent level_(curIndent); \
indent();
/// Dispatch to a generic expressions to the appropriate subclass using RTTI
void ASTDumper::dump(ExprAST *expr) {
mlir::TypeSwitch<ExprAST *>(expr)
.Case<BinaryExprAST, CallExprAST, LiteralExprAST, NumberExprAST,
PrintExprAST, ReturnExprAST, StructLiteralExprAST, VarDeclExprAST,
VariableExprAST>([&](auto *node) { this->dump(node); })
.Default([&](ExprAST *) {
// No match, fallback to a generic message
INDENT();
llvm::errs() << "<unknown Expr, kind " << expr->getKind() << ">\n";
});
}
/// A variable declaration is printing the variable name, the type, and then
/// recurse in the initializer value.
void ASTDumper::dump(VarDeclExprAST *varDecl) {
INDENT();
llvm::errs() << "VarDecl " << varDecl->getName();
dump(varDecl->getType());
llvm::errs() << " " << loc(varDecl) << "\n";
if (auto *initVal = varDecl->getInitVal())
dump(initVal);
}
/// A "block", or a list of expression
void ASTDumper::dump(ExprASTList *exprList) {
INDENT();
llvm::errs() << "Block {\n";
for (auto &expr : *exprList)
dump(expr.get());
indent();
llvm::errs() << "} // Block\n";
}
/// A literal number, just print the value.
void ASTDumper::dump(NumberExprAST *num) {
INDENT();
llvm::errs() << num->getValue() << " " << loc(num) << "\n";
}
/// Helper to print recursively a literal. This handles nested array like:
/// [ [ 1, 2 ], [ 3, 4 ] ]
/// We print out such array with the dimensions spelled out at every level:
/// <2,2>[<2>[ 1, 2 ], <2>[ 3, 4 ] ]
void printLitHelper(ExprAST *litOrNum) {
// Inside a literal expression we can have either a number or another literal
if (auto num = llvm::dyn_cast<NumberExprAST>(litOrNum)) {
llvm::errs() << num->getValue();
return;
}
auto *literal = llvm::cast<LiteralExprAST>(litOrNum);
// Print the dimension for this literal first
llvm::errs() << "<";
mlir::interleaveComma(literal->getDims(), llvm::errs());
llvm::errs() << ">";
// Now print the content, recursing on every element of the list
llvm::errs() << "[ ";
mlir::interleaveComma(literal->getValues(), llvm::errs(),
[&](auto &elt) { printLitHelper(elt.get()); });
llvm::errs() << "]";
}
/// Print a literal, see the recursive helper above for the implementation.
void ASTDumper::dump(LiteralExprAST *node) {
INDENT();
llvm::errs() << "Literal: ";
printLitHelper(node);
llvm::errs() << " " << loc(node) << "\n";
}
/// Print a struct literal.
void ASTDumper::dump(StructLiteralExprAST *node) {
INDENT();
llvm::errs() << "Struct Literal: ";
for (auto &value : node->getValues())
dump(value.get());
indent();
llvm::errs() << " " << loc(node) << "\n";
}
/// Print a variable reference (just a name).
void ASTDumper::dump(VariableExprAST *node) {
INDENT();
llvm::errs() << "var: " << node->getName() << " " << loc(node) << "\n";
}
/// Return statement print the return and its (optional) argument.
void ASTDumper::dump(ReturnExprAST *node) {
INDENT();
llvm::errs() << "Return\n";
if (node->getExpr().hasValue())
return dump(*node->getExpr());
{
INDENT();
llvm::errs() << "(void)\n";
}
}
/// Print a binary operation, first the operator, then recurse into LHS and RHS.
void ASTDumper::dump(BinaryExprAST *node) {
INDENT();
llvm::errs() << "BinOp: " << node->getOp() << " " << loc(node) << "\n";
dump(node->getLHS());
dump(node->getRHS());
}
/// Print a call expression, first the callee name and the list of args by
/// recursing into each individual argument.
void ASTDumper::dump(CallExprAST *node) {
INDENT();
llvm::errs() << "Call '" << node->getCallee() << "' [ " << loc(node) << "\n";
for (auto &arg : node->getArgs())
dump(arg.get());
indent();
llvm::errs() << "]\n";
}
/// Print a builtin print call, first the builtin name and then the argument.
void ASTDumper::dump(PrintExprAST *node) {
INDENT();
llvm::errs() << "Print [ " << loc(node) << "\n";
dump(node->getArg());
indent();
llvm::errs() << "]\n";
}
/// Print type: only the shape is printed in between '<' and '>'
void ASTDumper::dump(const VarType &type) {
llvm::errs() << "<";
if (!type.name.empty())
llvm::errs() << type.name;
else
mlir::interleaveComma(type.shape, llvm::errs());
llvm::errs() << ">";
}
/// Print a function prototype, first the function name, and then the list of
/// parameters names.
void ASTDumper::dump(PrototypeAST *node) {
INDENT();
llvm::errs() << "Proto '" << node->getName() << "' " << loc(node) << "'\n";
indent();
llvm::errs() << "Params: [";
mlir::interleaveComma(node->getArgs(), llvm::errs(),
[](auto &arg) { llvm::errs() << arg->getName(); });
llvm::errs() << "]\n";
}
/// Print a function, first the prototype and then the body.
void ASTDumper::dump(FunctionAST *node) {
INDENT();
llvm::errs() << "Function \n";
dump(node->getProto());
dump(node->getBody());
}
/// Print a struct.
void ASTDumper::dump(StructAST *node) {
INDENT();
llvm::errs() << "Struct: " << node->getName() << " " << loc(node) << "\n";
{
INDENT();
llvm::errs() << "Variables: [\n";
for (auto &variable : node->getVariables())
dump(variable.get());
indent();
llvm::errs() << "]\n";
}
}
/// Print a module, actually loop over the functions and print them in sequence.
void ASTDumper::dump(ModuleAST *node) {
INDENT();
llvm::errs() << "Module:\n";
for (auto &record : *node) {
if (FunctionAST *function = llvm::dyn_cast<FunctionAST>(record.get()))
dump(function);
else if (StructAST *str = llvm::dyn_cast<StructAST>(record.get()))
dump(str);
else
llvm::errs() << "<unknown Record, kind " << record->getKind() << ">\n";
}
}
namespace toy {
// Public API
void dump(ModuleAST &module) { ASTDumper().dump(&module); }
} // namespace toy