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serene/libserene.v0/lib/exprs/def.cpp

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/*
* Serene Programming Language
*
* Copyright (c) 2019-2022 Sameer Rahmani <lxsameer@gnu.org>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, version 2.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "serene/exprs/def.h"
#include "serene/errors.h"
#include "serene/exprs/expression.h"
#include "serene/exprs/fn.h"
#include "serene/exprs/list.h"
#include "serene/exprs/symbol.h"
#include "serene/exprs/traits.h"
#include "serene/slir/dialect.h"
#include "serene/slir/utils.h"
#include <llvm/Support/Casting.h>
#include <llvm/Support/ErrorHandling.h>
#include <llvm/Support/FormatVariadic.h>
namespace serene {
namespace exprs {
ExprType Def::getType() const { return ExprType::Def; };
std::string Def::toString() const {
return llvm::formatv("<Def {0} -> {1}>", this->binding,
this->value->toString());
}
MaybeNode Def::analyze(semantics::AnalysisState &state) {
UNUSED(state);
return EmptyNode;
};
bool Def::classof(const Expression *e) {
return e->getType() == ExprType::Def;
};
MaybeNode Def::make(semantics::AnalysisState &state, List *list) {
auto &ctx = state.ns.getContext();
// TODO: Add support for docstring as the 3rd argument (4th element)
if (list->count() != 3) {
std::string msg = llvm::formatv("Expected 3 got {0}", list->count());
return errors::makeError(ctx, errors::DefWrongNumberOfArgs,
list->elements[0]->location, msg);
}
// Make sure that the list starts with a `def`
Symbol *defSym = llvm::dyn_cast<Symbol>(list->elements[0].get());
assert((defSym && defSym->name == "def") &&
"The first element of the list should be a 'def'.");
// Make sure that the first argument is a Symbol
Symbol *binding = llvm::dyn_cast<Symbol>(list->elements[1].get());
if (binding == nullptr) {
return errors::makeError(ctx, errors::DefExpectSymbol,
list->elements[1]->location);
}
// Analyze the value
MaybeNode value = list->elements[2]->analyze(state);
Node analyzedValue;
// TODO: To refactor this logic into a generic function
if (value) {
// Success value
auto &valueNode = *value;
if (valueNode) {
// A rewrite is necessary
analyzedValue = valueNode;
} else {
// no rewrite
analyzedValue = list->elements[2];
}
} else {
// Error value
return value;
}
if (analyzedValue->getType() == ExprType::Fn) {
Fn *tmp = llvm::dyn_cast<Fn>(analyzedValue.get());
if (tmp == nullptr) {
llvm_unreachable("inconsistent getType for function");
}
tmp->setName(binding->name);
}
auto result = state.ns.define(binding->name, analyzedValue);
if (result.succeeded()) {
return makeSuccessfulNode<Def>(list->location, binding->name,
analyzedValue);
}
llvm_unreachable("Inserting a value in the semantic env failed!");
};
void Def::generateIR(serene::Namespace &ns, mlir::ModuleOp &m) {
if (value->getType() == ExprType::Fn) {
value->generateIR(ns, m);
return;
}
// auto loc = slir::toMLIRLocation(ns, location.start);
// auto &mctx = ns.getContext().mlirContext;
// mlir::OpBuilder builder(&mctx);
// auto sym = slir::SymbolType::get(&mctx, ns.name, binding);
// TODO: we need to change the generate method of expressions
// to return mlir::Value or any wrapper of that which would
// be the ssa form of the result of the expression.
// and then use it to define the def op here.
// auto def = builder.create<slir::DefOp>(sym, binding, value);
m.emitError("Def: not implemented!");
};
} // namespace exprs
} // namespace serene
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