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serene/libserene/tests/exprs/list_tests.cpp.inc

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/* -*- C++ -*-
* 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/expression.h"
#include "serene/exprs/list.h"
#include "serene/exprs/symbol.h"
#include "serene/namespace.h"
#include "serene/reader/reader.h"
#include "serene/reader/semantics.h"
#include "../test_helpers.cpp.inc"
#include <catch2/catch_all.hpp>
namespace serene {
namespace exprs {
TEST_CASE("List Expression", "[expression]") {
std::unique_ptr<reader::LocationRange> range(dummyLocation());
Node sym = make<Symbol>(*range.get(), llvm::StringRef("example"));
Node sym1 = make<Symbol>(*range.get(), llvm::StringRef("example1"));
Node list = make<List>(*range.get());
REQUIRE(list->getType() == ExprType::List);
CHECK(list->toString() == "<List ->");
Node list2 = make<List>(*range.get(), list);
CHECK(list2->toString() == "<List <List ->>");
Ast elements;
elements.push_back(list);
elements.push_back(list2);
elements.push_back(sym);
auto list3 = make<List>(*range.get(), elements);
CHECK(list3->toString() ==
"<List <List -> <List <List ->> <Symbol example>>");
auto l = llvm::dyn_cast<List>(list.get());
l->append(sym1);
REQUIRE(list->getType() == ExprType::List);
CHECK(list->toString() == "<List <Symbol example1>>");
l->append(sym);
REQUIRE(l->count() == 2);
auto expr = l->at(1);
REQUIRE(expr.hasValue());
CHECK(expr.getValue()->toString() == "<Symbol example>");
expr = l->at(2);
REQUIRE_FALSE(expr.hasValue());
for (auto x : *l) {
CHECK(x->getType() == ExprType::Symbol);
}
};
TEST_CASE("List semantic analysis of 'def'", "[semantic]") {
auto ctx = makeSereneContext();
auto ns = makeNamespace(*ctx, "user", llvm::None);
auto ast = reader::read("(def (a) b)");
auto afterAst = reader::analyze(*ctx, ast.getValue());
REQUIRE_FALSE(afterAst);
// Fetch the first error
CHECK(afterAst.getError()[0]->toString() == "<Error E1: >");
ast = reader::read("(def a)");
afterAst = reader::analyze(*ctx, ast.getValue());
REQUIRE_FALSE(afterAst);
CHECK(afterAst.getError()[0]->toString() == "<Error E2: Expected 3 got 2>");
ast = reader::read("(def a b c)");
afterAst = reader::analyze(*ctx, ast.getValue());
REQUIRE_FALSE(afterAst);
CHECK(afterAst.getError()[0]->toString() == "<Error E2: Expected 3 got 4>");
ast = reader::read("(def a b)");
afterAst = reader::analyze(*ctx, ast.getValue());
REQUIRE(afterAst);
CHECK(astToString(&afterAst.getValue()) == "<Def a -> <Symbol b>>");
ast = reader::read("(def a (fn () a))");
afterAst = reader::analyze(*ctx, ast.getValue());
REQUIRE(afterAst);
CHECK(astToString(&afterAst.getValue()) ==
"<Def a -> <Fn a <List -> to <Symbol a>>>");
}
TEST_CASE("List semantic analysis for 'fn'", "[semantic]") {
auto ctx = makeSereneContext();
auto ns = makeNamespace(*ctx, "user", llvm::None);
auto ast = reader::read("(fn)");
auto afterAst = reader::analyze(*ctx, ast.getValue());
REQUIRE_FALSE(afterAst);
REQUIRE(afterAst.getError().size() == 1);
CHECK(afterAst.getError()[0]->toString() ==
"<Error E3: The argument list is mandatory.>");
ast = reader::read("(fn ())");
afterAst = reader::analyze(*ctx, ast.getValue());
REQUIRE(afterAst);
CHECK(astToString(&afterAst.getValue()) == "<Fn ___fn___0 <List -> to <>>");
ast = reader::read("(fn (a b c) a a a)");
afterAst = reader::analyze(*ctx, ast.getValue());
REQUIRE(afterAst);
CHECK(astToString(&afterAst.getValue()) ==
"<Fn ___fn___1 <List <Symbol a> <Symbol b> <Symbol c>> to <Symbol a> "
"<Symbol a> <Symbol a>>");
ast = reader::read("(fn () a b)");
afterAst = reader::analyze(*ctx, ast.getValue());
REQUIRE(afterAst);
CHECK(astToString(&afterAst.getValue()) ==
"<Fn ___fn___2 <List -> to <Symbol a> <Symbol b>>");
ast = reader::read("(fn (x) (fn (y) x) z)");
afterAst = reader::analyze(*ctx, ast.getValue());
REQUIRE(afterAst);
CHECK(astToString(&afterAst.getValue()) ==
"<Fn ___fn___4 <List <Symbol x>> to <Fn ___fn___3 <List <Symbol y>> "
"to <Symbol x>> <Symbol z>>");
ast = reader::read("(fn (x) (def a b) (def b c))");
afterAst = reader::analyze(*ctx, ast.getValue());
REQUIRE(afterAst);
CHECK(astToString(&afterAst.getValue()) ==
"<Fn ___fn___5 <List <Symbol x>> to <Def a -> <Symbol b>> <Def b -> "
"<Symbol c>>>");
}
TEST_CASE("Complex semantic analysis", "[semantic]") {
auto ctx = makeSereneContext();
auto ns = makeNamespace(*ctx, "user", llvm::None);
auto ast =
reader::read("(def a (fn (x) x))\n((def b (fn (x) (fn (y) y))))\n\n");
auto afterAst = reader::analyze(*ctx, ast.getValue());
REQUIRE(afterAst);
CHECK(astToString(&afterAst.getValue()) ==
"<Def a -> <Fn a <List <Symbol x>> to <Symbol x>>> <Call <Def b -> "
"<Fn b <List <Symbol x>> to <Fn ___fn___1 <List <Symbol y>> to "
"<Symbol y>>>> >");
ctx = makeSereneContext();
ns = makeNamespace(*ctx, "user", llvm::None);
ast = reader::read("((a b))");
afterAst = reader::analyze(*ctx, ast.getValue());
REQUIRE_FALSE(afterAst);
auto errs = afterAst.getError();
CHECK(errs[0]->toString() == "<Error E5: Can't resolve the symbol 'a'>");
ctx = makeSereneContext();
ns = makeNamespace(*ctx, "user", llvm::None);
ast = reader::read("(def a (fn (x) x)) (a b)");
afterAst = reader::analyze(*ctx, ast.getValue());
REQUIRE(afterAst);
CHECK(astToString(&afterAst.getValue()) ==
"<Def a -> <Fn a <List <Symbol x>> to <Symbol x>>> <Call <Fn a <List "
"<Symbol x>> to <Symbol x>> <Symbol b>>");
}
} // namespace exprs
} // namespace serene
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