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luau/tests/FragmentAutocomplete.test.cpp
aaron db809395bf
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Sync to upstream/release/649 (#1489)
2024-10-25 16:15:01 -04:00

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// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
#include "Luau/FragmentAutocomplete.h"
#include "Fixture.h"
#include "Luau/Ast.h"
#include "Luau/AstQuery.h"
#include "Luau/Common.h"
#include "Luau/Frontend.h"
using namespace Luau;
LUAU_FASTFLAG(LuauAllowFragmentParsing);
LUAU_FASTFLAG(LuauStoreDFGOnModule2);
struct FragmentAutocompleteFixture : Fixture
{
ScopedFastFlag sffs[3] = {{FFlag::LuauAllowFragmentParsing, true}, {FFlag::LuauSolverV2, true}, {FFlag::LuauStoreDFGOnModule2, true}};
FragmentAutocompleteAncestryResult runAutocompleteVisitor(const std::string& source, const Position& cursorPos)
{
ParseResult p = tryParse(source); // We don't care about parsing incomplete asts
REQUIRE(p.root);
return findAncestryForFragmentParse(p.root, cursorPos);
}
CheckResult checkBase(const std::string& document)
{
ScopedFastFlag sff{FFlag::LuauSolverV2, true};
FrontendOptions opts;
opts.retainFullTypeGraphs = true;
return this->frontend.check("MainModule", opts);
}
FragmentParseResult parseFragment(const std::string& document, const Position& cursorPos)
{
SourceModule* srcModule = this->getMainSourceModule();
std::string_view srcString = document;
return Luau::parseFragment(*srcModule, srcString, cursorPos);
}
FragmentTypeCheckResult checkFragment(const std::string& document, const Position& cursorPos)
{
FrontendOptions options;
options.retainFullTypeGraphs = true;
// Don't strictly need this in the new solver
options.forAutocomplete = true;
options.runLintChecks = false;
return Luau::typecheckFragment(frontend, "MainModule", cursorPos, options, document);
}
};
TEST_SUITE_BEGIN("FragmentAutocompleteTraversalTests");
TEST_CASE_FIXTURE(FragmentAutocompleteFixture, "just_two_locals")
{
auto result = runAutocompleteVisitor(
R"(
local x = 4
local y = 5
)",
{2, 11}
);
CHECK_EQ(3, result.ancestry.size());
CHECK_EQ(1, result.localStack.size());
CHECK_EQ(result.localMap.size(), result.localStack.size());
REQUIRE(result.nearestStatement);
AstStatLocal* local = result.nearestStatement->as<AstStatLocal>();
REQUIRE(local);
CHECK(1 == local->vars.size);
CHECK_EQ("y", std::string(local->vars.data[0]->name.value));
}
TEST_CASE_FIXTURE(FragmentAutocompleteFixture, "cursor_within_scope_tracks_locals_from_previous_scope")
{
auto result = runAutocompleteVisitor(
R"(
local x = 4
local y = 5
if x == 4 then
local e = y
end
)",
{4, 15}
);
CHECK_EQ(5, result.ancestry.size());
CHECK_EQ(2, result.localStack.size());
CHECK_EQ(result.localMap.size(), result.localStack.size());
REQUIRE(result.nearestStatement);
CHECK_EQ("y", std::string(result.localStack.back()->name.value));
AstStatLocal* local = result.nearestStatement->as<AstStatLocal>();
REQUIRE(local);
CHECK(1 == local->vars.size);
CHECK_EQ("e", std::string(local->vars.data[0]->name.value));
}
TEST_CASE_FIXTURE(FragmentAutocompleteFixture, "cursor_that_comes_later_shouldnt_capture_locals_in_unavailable_scope")
{
auto result = runAutocompleteVisitor(
R"(
local x = 4
local y = 5
if x == 4 then
local e = y
end
local z = x + x
if y == 5 then
local q = x + y + z
end
)",
{8, 23}
);
CHECK_EQ(6, result.ancestry.size());
CHECK_EQ(3, result.localStack.size());
CHECK_EQ(result.localMap.size(), result.localStack.size());
REQUIRE(result.nearestStatement);
CHECK_EQ("z", std::string(result.localStack.back()->name.value));
AstStatLocal* local = result.nearestStatement->as<AstStatLocal>();
REQUIRE(local);
CHECK(1 == local->vars.size);
CHECK_EQ("q", std::string(local->vars.data[0]->name.value));
}
TEST_CASE_FIXTURE(FragmentAutocompleteFixture, "nearest_enclosing_statement_can_be_non_local")
{
auto result = runAutocompleteVisitor(
R"(
local x = 4
local y = 5
if x == 4 then
)",
{3, 4}
);
CHECK_EQ(4, result.ancestry.size());
CHECK_EQ(2, result.localStack.size());
CHECK_EQ(result.localMap.size(), result.localStack.size());
REQUIRE(result.nearestStatement);
CHECK_EQ("y", std::string(result.localStack.back()->name.value));
AstStatIf* ifS = result.nearestStatement->as<AstStatIf>();
CHECK(ifS != nullptr);
}
TEST_CASE_FIXTURE(FragmentAutocompleteFixture, "local_funcs_show_up_in_local_stack")
{
auto result = runAutocompleteVisitor(
R"(
local function foo() return 4 end
local x = foo()
local function bar() return x + foo() end
)",
{3, 32}
);
CHECK_EQ(8, result.ancestry.size());
CHECK_EQ(2, result.localStack.size());
CHECK_EQ(result.localMap.size(), result.localStack.size());
CHECK_EQ("x", std::string(result.localStack.back()->name.value));
auto returnSt = result.nearestStatement->as<AstStatReturn>();
CHECK(returnSt != nullptr);
}
TEST_SUITE_END();
TEST_SUITE_BEGIN("FragmentAutocompleteParserTests");
TEST_CASE_FIXTURE(FragmentAutocompleteFixture, "statement_in_empty_fragment_is_non_null")
{
auto res = check(R"(
)");
LUAU_REQUIRE_NO_ERRORS(res);
auto fragment = parseFragment(
R"(
)",
Position(1, 0)
);
CHECK_EQ("\n", fragment.fragmentToParse);
CHECK_EQ(2, fragment.ancestry.size());
REQUIRE(fragment.root);
CHECK_EQ(0, fragment.root->body.size);
auto statBody = fragment.root->as<AstStatBlock>();
CHECK(statBody != nullptr);
}
TEST_CASE_FIXTURE(FragmentAutocompleteFixture, "can_parse_complete_fragments")
{
auto res = check(
R"(
local x = 4
local y = 5
)"
);
LUAU_REQUIRE_NO_ERRORS(res);
auto fragment = parseFragment(
R"(
local x = 4
local y = 5
local z = x + y
)",
Position{3, 15}
);
CHECK_EQ("\nlocal z = x + y", fragment.fragmentToParse);
CHECK_EQ(5, fragment.ancestry.size());
REQUIRE(fragment.root);
CHECK_EQ(1, fragment.root->body.size);
auto stat = fragment.root->body.data[0]->as<AstStatLocal>();
REQUIRE(stat);
CHECK_EQ(1, stat->vars.size);
CHECK_EQ(1, stat->values.size);
CHECK_EQ("z", std::string(stat->vars.data[0]->name.value));
auto bin = stat->values.data[0]->as<AstExprBinary>();
REQUIRE(bin);
CHECK_EQ(AstExprBinary::Op::Add, bin->op);
auto lhs = bin->left->as<AstExprLocal>();
auto rhs = bin->right->as<AstExprLocal>();
REQUIRE(lhs);
REQUIRE(rhs);
CHECK_EQ("x", std::string(lhs->local->name.value));
CHECK_EQ("y", std::string(rhs->local->name.value));
}
TEST_CASE_FIXTURE(FragmentAutocompleteFixture, "can_parse_fragments_in_line")
{
auto res = check(
R"(
local x = 4
local y = 5
)"
);
LUAU_REQUIRE_NO_ERRORS(res);
auto fragment = parseFragment(
R"(
local x = 4
local z = x + y
local y = 5
)",
Position{2, 15}
);
CHECK_EQ("local z = x + y", fragment.fragmentToParse);
CHECK_EQ(5, fragment.ancestry.size());
REQUIRE(fragment.root);
CHECK_EQ(1, fragment.root->body.size);
auto stat = fragment.root->body.data[0]->as<AstStatLocal>();
REQUIRE(stat);
CHECK_EQ(1, stat->vars.size);
CHECK_EQ(1, stat->values.size);
CHECK_EQ("z", std::string(stat->vars.data[0]->name.value));
auto bin = stat->values.data[0]->as<AstExprBinary>();
REQUIRE(bin);
CHECK_EQ(AstExprBinary::Op::Add, bin->op);
auto lhs = bin->left->as<AstExprLocal>();
auto rhs = bin->right->as<AstExprGlobal>();
REQUIRE(lhs);
REQUIRE(rhs);
CHECK_EQ("x", std::string(lhs->local->name.value));
CHECK_EQ("y", std::string(rhs->name.value));
}
TEST_SUITE_END();
TEST_SUITE_BEGIN("FragmentAutocompleteTypeCheckerTests");
TEST_CASE_FIXTURE(FragmentAutocompleteFixture, "can_typecheck_simple_fragment")
{
auto res = check(
R"(
local x = 4
local y = 5
)"
);
LUAU_REQUIRE_NO_ERRORS(res);
auto fragment = checkFragment(
R"(
local x = 4
local y = 5
local z = x + y
)",
Position{3, 15}
);
auto opt = linearSearchForBinding(fragment.freshScope, "z");
REQUIRE(opt);
CHECK_EQ("number", toString(*opt));
}
TEST_CASE_FIXTURE(FragmentAutocompleteFixture, "can_typecheck_fragment_inserted_inline")
{
auto res = check(
R"(
local x = 4
local y = 5
)"
);
LUAU_REQUIRE_NO_ERRORS(res);
auto fragment = checkFragment(
R"(
local x = 4
local z = x
local y = 5
)",
Position{2, 11}
);
auto correct = linearSearchForBinding(fragment.freshScope, "z");
REQUIRE(correct);
CHECK_EQ("number", toString(*correct));
}
TEST_SUITE_END();
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