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luau/tests/Autocomplete.test.cpp

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Sync to upstream/release/501 (#20) Co-authored-by: Rodactor <rodactor@roblox.com>
2021-10-29 16:25:12 -04:00
// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
#include "Luau/Autocomplete.h"
#include "Luau/BuiltinDefinitions.h"
#include "Luau/Parser.h"
#include "Luau/TypeInfer.h"
#include "Luau/TypeVar.h"
#include "Luau/VisitTypeVar.h"
#include "Luau/StringUtils.h"
#include "Fixture.h"
#include "doctest.h"
#include <map>
LUAU_FASTFLAG(LuauTraceTypesInNonstrictMode2)
LUAU_FASTFLAG(LuauSetMetatableDoesNotTimeTravel)
using namespace Luau;
static std::optional<AutocompleteEntryMap> nullCallback(std::string tag, std::optional<const ClassTypeVar*> ptr)
{
return std::nullopt;
}
struct ACFixture : Fixture
{
AutocompleteResult autocomplete(unsigned row, unsigned column)
{
return Luau::autocomplete(frontend, "MainModule", Position{row, column}, nullCallback);
}
AutocompleteResult autocomplete(char marker)
{
auto i = markerPosition.find(marker);
LUAU_ASSERT(i != markerPosition.end());
const Position& pos = i->second;
return Luau::autocomplete(frontend, "MainModule", pos, nullCallback);
}
CheckResult check(const std::string& source)
{
markerPosition.clear();
std::string filteredSource;
filteredSource.reserve(source.size());
Position curPos(0, 0);
for (char c : source)
{
if (c == '@' && !filteredSource.empty())
{
char prevChar = filteredSource.back();
filteredSource.pop_back();
curPos.column--; // Adjust column position since we removed a character from the output
LUAU_ASSERT("Illegal marker character" && prevChar >= '0' && prevChar <= '9');
LUAU_ASSERT("Duplicate marker found" && markerPosition.count(prevChar) == 0);
markerPosition.insert(std::pair{prevChar, curPos});
}
else
{
filteredSource.push_back(c);
if (c == '\n')
{
curPos.line++;
curPos.column = 0;
}
else
{
curPos.column++;
}
}
}
return Fixture::check(filteredSource);
}
// Maps a marker character (0-9 inclusive) to a position in the source code.
std::map<char, Position> markerPosition;
};
TEST_SUITE_BEGIN("AutocompleteTest");
TEST_CASE_FIXTURE(ACFixture, "empty_program")
{
check(" ");
auto ac = autocomplete(0, 1);
CHECK(!ac.entryMap.empty());
CHECK(ac.entryMap.count("table"));
CHECK(ac.entryMap.count("math"));
}
TEST_CASE_FIXTURE(ACFixture, "local_initializer")
{
check("local a = ");
auto ac = autocomplete(0, 10);
CHECK(ac.entryMap.count("table"));
CHECK(ac.entryMap.count("math"));
}
TEST_CASE_FIXTURE(ACFixture, "leave_numbers_alone")
{
check("local a = 3.1");
auto ac = autocomplete(0, 12);
CHECK(ac.entryMap.empty());
}
TEST_CASE_FIXTURE(ACFixture, "user_defined_globals")
{
check("local myLocal = 4; ");
auto ac = autocomplete(0, 19);
CHECK(ac.entryMap.count("myLocal"));
CHECK(ac.entryMap.count("table"));
CHECK(ac.entryMap.count("math"));
}
TEST_CASE_FIXTURE(ACFixture, "dont_suggest_local_before_its_definition")
{
check(R"(
local myLocal = 4
function abc()
local myInnerLocal = 1
end
)");
auto ac = autocomplete(3, 0);
CHECK(ac.entryMap.count("myLocal"));
CHECK(!ac.entryMap.count("myInnerLocal"));
ac = autocomplete(4, 0);
CHECK(ac.entryMap.count("myLocal"));
CHECK(ac.entryMap.count("myInnerLocal"));
ac = autocomplete(6, 0);
CHECK(ac.entryMap.count("myLocal"));
CHECK(!ac.entryMap.count("myInnerLocal"));
}
TEST_CASE_FIXTURE(ACFixture, "recursive_function")
{
check(R"(
function foo()
end
)");
auto ac = autocomplete(2, 0);
CHECK(ac.entryMap.count("foo"));
}
TEST_CASE_FIXTURE(ACFixture, "nested_recursive_function")
{
check(R"(
local function outer()
local function inner()
end
end
)");
auto ac = autocomplete(3, 0);
CHECK(ac.entryMap.count("inner"));
CHECK(ac.entryMap.count("outer"));
}
TEST_CASE_FIXTURE(ACFixture, "user_defined_local_functions_in_own_definition")
{
check(R"(
local function abc()
end
)");
auto ac = autocomplete(2, 0);
CHECK(ac.entryMap.count("abc"));
CHECK(ac.entryMap.count("table"));
CHECK(ac.entryMap.count("math"));
check(R"(
local abc = function()
end
)");
ac = autocomplete(2, 0);
CHECK(ac.entryMap.count("abc")); // FIXME: This is actually incorrect!
CHECK(ac.entryMap.count("table"));
CHECK(ac.entryMap.count("math"));
}
TEST_CASE_FIXTURE(ACFixture, "global_functions_are_not_scoped_lexically")
{
check(R"(
if true then
function abc()
end
end
)");
auto ac = autocomplete(6, 0);
CHECK(!ac.entryMap.empty());
CHECK(ac.entryMap.count("abc"));
CHECK(ac.entryMap.count("table"));
CHECK(ac.entryMap.count("math"));
}
TEST_CASE_FIXTURE(ACFixture, "local_functions_fall_out_of_scope")
{
check(R"(
if true then
local function abc()
end
end
)");
auto ac = autocomplete(6, 0);
CHECK_NE(0, ac.entryMap.size());
CHECK(!ac.entryMap.count("abc"));
}
TEST_CASE_FIXTURE(ACFixture, "function_parameters")
{
check(R"(
function abc(test)
end
)");
auto ac = autocomplete(3, 0);
CHECK(ac.entryMap.count("test"));
}
TEST_CASE_FIXTURE(ACFixture, "get_member_completions")
{
check(R"(
local a = table. -- Line 1
-- | Column 23
)");
auto ac = autocomplete(1, 24);
CHECK_EQ(16, ac.entryMap.size());
CHECK(ac.entryMap.count("find"));
CHECK(ac.entryMap.count("pack"));
CHECK(!ac.entryMap.count("math"));
}
TEST_CASE_FIXTURE(ACFixture, "nested_member_completions")
{
check(R"(
local tbl = { abc = { def = 1234, egh = false } }
tbl.abc.
)");
auto ac = autocomplete(2, 17);
CHECK_EQ(2, ac.entryMap.size());
CHECK(ac.entryMap.count("def"));
CHECK(ac.entryMap.count("egh"));
}
TEST_CASE_FIXTURE(ACFixture, "unsealed_table")
{
check(R"(
local tbl = {}
tbl.prop = 5
tbl.
)");
auto ac = autocomplete(3, 12);
CHECK_EQ(1, ac.entryMap.size());
CHECK(ac.entryMap.count("prop"));
}
TEST_CASE_FIXTURE(ACFixture, "unsealed_table_2")
{
check(R"(
local tbl = {}
local inner = { prop = 5 }
tbl.inner = inner
tbl.inner.
)");
auto ac = autocomplete(4, 19);
CHECK_EQ(1, ac.entryMap.size());
CHECK(ac.entryMap.count("prop"));
}
TEST_CASE_FIXTURE(ACFixture, "cyclic_table")
{
check(R"(
local abc = {}
local def = { abc = abc }
abc.def = def
abc.def.
)");
auto ac = autocomplete(4, 17);
CHECK(ac.entryMap.count("abc"));
}
TEST_CASE_FIXTURE(ACFixture, "table_union")
{
check(R"(
type t1 = { a1 : string, b2 : number }
type t2 = { b2 : string, c3 : string }
function func(abc : t1 | t2)
abc.
end
)");
auto ac = autocomplete(4, 18);
CHECK_EQ(1, ac.entryMap.size());
CHECK(ac.entryMap.count("b2"));
}
TEST_CASE_FIXTURE(ACFixture, "table_intersection")
{
check(R"(
type t1 = { a1 : string, b2 : number }
type t2 = { b2 : string, c3 : string }
function func(abc : t1 & t2)
abc.
end
)");
auto ac = autocomplete(4, 18);
CHECK_EQ(3, ac.entryMap.size());
CHECK(ac.entryMap.count("a1"));
CHECK(ac.entryMap.count("b2"));
CHECK(ac.entryMap.count("c3"));
}
TEST_CASE_FIXTURE(ACFixture, "get_string_completions")
{
check(R"(
local a = ("foo"): -- Line 1
-- | Column 26
)");
auto ac = autocomplete(1, 26);
CHECK_EQ(17, ac.entryMap.size());
}
TEST_CASE_FIXTURE(ACFixture, "get_suggestions_for_new_statement")
{
check("");
auto ac = autocomplete(0, 0);
CHECK_NE(0, ac.entryMap.size());
CHECK(ac.entryMap.count("table"));
}
TEST_CASE_FIXTURE(ACFixture, "get_suggestions_for_the_very_start_of_the_script")
{
check(R"(
function aaa() end
)");
auto ac = autocomplete(0, 0);
CHECK(ac.entryMap.count("table"));
}
TEST_CASE_FIXTURE(ACFixture, "method_call_inside_function_body")
{
check(R"(
local game = { GetService=function(s) return 'hello' end }
function a()
game:
end
)");
auto ac = autocomplete(4, 19);
CHECK_NE(0, ac.entryMap.size());
CHECK(!ac.entryMap.count("math"));
}
TEST_CASE_FIXTURE(ACFixture, "method_call_inside_if_conditional")
{
check(R"(
if table:
)");
auto ac = autocomplete(1, 19);
CHECK_NE(0, ac.entryMap.size());
CHECK(ac.entryMap.count("concat"));
CHECK(!ac.entryMap.count("math"));
}
TEST_CASE_FIXTURE(ACFixture, "statement_between_two_statements")
{
check(R"(
function getmyscripts() end
g
getmyscripts()
)");
auto ac = autocomplete(3, 9);
CHECK_NE(0, ac.entryMap.size());
CHECK(ac.entryMap.count("getmyscripts"));
}
TEST_CASE_FIXTURE(ACFixture, "bias_toward_inner_scope")
{
check(R"(
local A = {one=1}
function B()
local A = {two=2}
A
end
)");
auto ac = autocomplete(6, 15);
CHECK(ac.entryMap.count("A"));
TypeId t = follow(*ac.entryMap["A"].type);
const TableTypeVar* tt = get<TableTypeVar>(t);
REQUIRE(tt);
CHECK(tt->props.count("two"));
}
TEST_CASE_FIXTURE(ACFixture, "recommend_statement_starting_keywords")
{
check("");
auto ac = autocomplete(0, 0);
CHECK(ac.entryMap.count("local"));
check("local i = ");
auto ac2 = autocomplete(0, 10);
CHECK(!ac2.entryMap.count("local"));
}
TEST_CASE_FIXTURE(ACFixture, "do_not_overwrite_context_sensitive_kws")
{
check(R"(
local function continue()
end
)");
auto ac = autocomplete(5, 0);
AutocompleteEntry entry = ac.entryMap["continue"];
CHECK(entry.kind == AutocompleteEntryKind::Binding);
}
TEST_CASE_FIXTURE(ACFixture, "dont_offer_any_suggestions_from_within_a_comment")
{
check(R"(
--!strict
local foo = {}
function foo:bar() end
--[[
foo:
]]
)");
auto ac = autocomplete(6, 16);
CHECK_EQ(0, ac.entryMap.size());
}
TEST_CASE_FIXTURE(ACFixture, "dont_offer_any_suggestions_from_the_end_of_a_comment")
{
check(R"(
--!strict
)");
auto ac = autocomplete(1, 17);
CHECK_EQ(0, ac.entryMap.size());
}
TEST_CASE_FIXTURE(ACFixture, "dont_offer_any_suggestions_from_within_a_broken_comment")
{
ScopedFastFlag sff{"LuauCaptureBrokenCommentSpans", true};
check(R"(
--[[
)");
auto ac = autocomplete(1, 13);
CHECK_EQ(0, ac.entryMap.size());
}
TEST_CASE_FIXTURE(ACFixture, "dont_offer_any_suggestions_from_within_a_broken_comment_at_the_very_end_of_the_file")
{
ScopedFastFlag sff{"LuauCaptureBrokenCommentSpans", true};
check("--[[");
auto ac = autocomplete(0, 4);
CHECK_EQ(0, ac.entryMap.size());
}
TEST_CASE_FIXTURE(ACFixture, "autocomplete_for_middle_keywords")
{
check(R"(
for x =
)");
auto ac1 = autocomplete(1, 14);
CHECK_EQ(ac1.entryMap.count("do"), 0);
CHECK_EQ(ac1.entryMap.count("end"), 0);
check(R"(
for x = 1
)");
auto ac2 = autocomplete(1, 15);
CHECK_EQ(ac2.entryMap.count("do"), 0);
CHECK_EQ(ac2.entryMap.count("end"), 0);
check(R"(
for x = 1, 2
)");
auto ac3 = autocomplete(1, 18);
CHECK_EQ(1, ac3.entryMap.size());
CHECK_EQ(ac3.entryMap.count("do"), 1);
check(R"(
for x = 1, 2,
)");
auto ac4 = autocomplete(1, 19);
CHECK_EQ(ac4.entryMap.count("do"), 0);
CHECK_EQ(ac4.entryMap.count("end"), 0);
check(R"(
for x = 1, 2, 5
)");
auto ac5 = autocomplete(1, 22);
CHECK_EQ(ac5.entryMap.count("do"), 1);
CHECK_EQ(ac5.entryMap.count("end"), 0);
check(R"(
for x = 1, 2, 5 f
)");
auto ac6 = autocomplete(1, 25);
CHECK_EQ(ac6.entryMap.size(), 1);
CHECK_EQ(ac6.entryMap.count("do"), 1);
check(R"(
for x = 1, 2, 5 do
)");
auto ac7 = autocomplete(1, 32);
CHECK_EQ(ac7.entryMap.count("end"), 1);
}
TEST_CASE_FIXTURE(ACFixture, "autocomplete_for_in_middle_keywords")
{
check(R"(
for
)");
auto ac1 = autocomplete(1, 12);
CHECK_EQ(0, ac1.entryMap.size());
check(R"(
for x
)");
auto ac2 = autocomplete(1, 13);
CHECK_EQ(0, ac2.entryMap.size());
auto ac2a = autocomplete(1, 14);
CHECK_EQ(1, ac2a.entryMap.size());
CHECK_EQ(1, ac2a.entryMap.count("in"));
check(R"(
for x in y
)");
auto ac3 = autocomplete(1, 18);
CHECK_EQ(ac3.entryMap.count("table"), 1);
CHECK_EQ(ac3.entryMap.count("do"), 0);
check(R"(
for x in y
)");
auto ac4 = autocomplete(1, 19);
CHECK_EQ(ac4.entryMap.size(), 1);
CHECK_EQ(ac4.entryMap.count("do"), 1);
check(R"(
for x in f f
)");
auto ac5 = autocomplete(1, 20);
CHECK_EQ(ac5.entryMap.size(), 1);
CHECK_EQ(ac5.entryMap.count("do"), 1);
check(R"(
for x in y do
)");
auto ac6 = autocomplete(1, 23);
CHECK_EQ(ac6.entryMap.count("in"), 0);
CHECK_EQ(ac6.entryMap.count("table"), 1);
CHECK_EQ(ac6.entryMap.count("end"), 1);
CHECK_EQ(ac6.entryMap.count("function"), 1);
check(R"(
for x in y do e
)");
auto ac7 = autocomplete(1, 23);
CHECK_EQ(ac7.entryMap.count("in"), 0);
CHECK_EQ(ac7.entryMap.count("table"), 1);
CHECK_EQ(ac7.entryMap.count("end"), 1);
CHECK_EQ(ac7.entryMap.count("function"), 1);
}
TEST_CASE_FIXTURE(ACFixture, "autocomplete_while_middle_keywords")
{
check(R"(
while
)");
auto ac1 = autocomplete(1, 13);
CHECK_EQ(ac1.entryMap.count("do"), 0);
CHECK_EQ(ac1.entryMap.count("end"), 0);
check(R"(
while true
)");
auto ac2 = autocomplete(1, 19);
CHECK_EQ(1, ac2.entryMap.size());
CHECK_EQ(ac2.entryMap.count("do"), 1);
check(R"(
while true do
)");
auto ac3 = autocomplete(1, 23);
CHECK_EQ(ac3.entryMap.count("end"), 1);
check(R"(
while true d
)");
auto ac4 = autocomplete(1, 20);
CHECK_EQ(1, ac4.entryMap.size());
CHECK_EQ(ac4.entryMap.count("do"), 1);
}
TEST_CASE_FIXTURE(ACFixture, "autocomplete_if_middle_keywords")
{
check(R"(
if
)");
auto ac1 = autocomplete(1, 13);
CHECK_EQ(ac1.entryMap.count("then"), 0);
CHECK_EQ(ac1.entryMap.count("function"),
1); // FIXME: This is kind of dumb. It is technically syntactically valid but you can never do anything interesting with this.
CHECK_EQ(ac1.entryMap.count("table"), 1);
CHECK_EQ(ac1.entryMap.count("else"), 0);
CHECK_EQ(ac1.entryMap.count("elseif"), 0);
CHECK_EQ(ac1.entryMap.count("end"), 0);
check(R"(
if x
)");
auto ac2 = autocomplete(1, 14);
CHECK_EQ(ac2.entryMap.count("then"), 1);
CHECK_EQ(ac2.entryMap.count("function"), 0);
CHECK_EQ(ac2.entryMap.count("else"), 0);
CHECK_EQ(ac2.entryMap.count("elseif"), 0);
CHECK_EQ(ac2.entryMap.count("end"), 0);
check(R"(
if x t
)");
auto ac3 = autocomplete(1, 14);
CHECK_EQ(1, ac3.entryMap.size());
CHECK_EQ(ac3.entryMap.count("then"), 1);
check(R"(
if x then
end
)");
auto ac4 = autocomplete(2, 0);
CHECK_EQ(ac4.entryMap.count("then"), 0);
CHECK_EQ(ac4.entryMap.count("else"), 1);
CHECK_EQ(ac4.entryMap.count("function"), 1);
CHECK_EQ(ac4.entryMap.count("elseif"), 1);
CHECK_EQ(ac4.entryMap.count("end"), 0);
check(R"(
if x then
t
end
)");
auto ac4a = autocomplete(2, 13);
CHECK_EQ(ac4a.entryMap.count("then"), 0);
CHECK_EQ(ac4a.entryMap.count("table"), 1);
CHECK_EQ(ac4a.entryMap.count("else"), 1);
CHECK_EQ(ac4a.entryMap.count("elseif"), 1);
check(R"(
if x then
elseif x then
end
)");
auto ac5 = autocomplete(2, 0);
CHECK_EQ(ac5.entryMap.count("then"), 0);
CHECK_EQ(ac5.entryMap.count("function"), 1);
CHECK_EQ(ac5.entryMap.count("else"), 0);
CHECK_EQ(ac5.entryMap.count("elseif"), 0);
CHECK_EQ(ac5.entryMap.count("end"), 0);
}
TEST_CASE_FIXTURE(ACFixture, "autocomplete_until_in_repeat")
{
check(R"(
repeat
)");
auto ac = autocomplete(1, 16);
CHECK_EQ(ac.entryMap.count("table"), 1);
CHECK_EQ(ac.entryMap.count("until"), 1);
}
TEST_CASE_FIXTURE(ACFixture, "autocomplete_until_expression")
{
check(R"(
repeat
until
)");
auto ac = autocomplete(2, 16);
CHECK_EQ(ac.entryMap.count("table"), 1);
}
TEST_CASE_FIXTURE(ACFixture, "local_names")
{
check(R"(
local ab
)");
auto ac1 = autocomplete(1, 16);
CHECK_EQ(ac1.entryMap.size(), 1);
CHECK_EQ(ac1.entryMap.count("function"), 1);
check(R"(
local ab, cd
)");
auto ac2 = autocomplete(1, 20);
CHECK(ac2.entryMap.empty());
}
TEST_CASE_FIXTURE(ACFixture, "autocomplete_end_with_fn_exprs")
{
check(R"(
local function f()
)");
auto ac = autocomplete(1, 28);
CHECK_EQ(ac.entryMap.count("end"), 1);
}
TEST_CASE_FIXTURE(ACFixture, "autocomplete_end_with_lambda")
{
check(R"(
local a = function() local bar = foo en
)");
auto ac = autocomplete(1, 47);
CHECK_EQ(ac.entryMap.count("end"), 1);
}
TEST_CASE_FIXTURE(ACFixture, "stop_at_first_stat_when_recommending_keywords")
{
check(R"(
repeat
for x
)");
auto ac1 = autocomplete(2, 18);
CHECK_EQ(ac1.entryMap.count("in"), 1);
CHECK_EQ(ac1.entryMap.count("until"), 0);
}
TEST_CASE_FIXTURE(ACFixture, "autocomplete_repeat_middle_keyword")
{
check(R"(
repeat
)");
auto ac1 = autocomplete(1, 15);
CHECK_EQ(ac1.entryMap.count("do"), 1);
CHECK_EQ(ac1.entryMap.count("function"), 1);
CHECK_EQ(ac1.entryMap.count("until"), 1);
check(R"(
repeat f f
)");
auto ac2 = autocomplete(1, 18);
CHECK_EQ(ac2.entryMap.count("function"), 1);
CHECK_EQ(ac2.entryMap.count("until"), 1);
check(R"(
repeat
u
until
)");
auto ac3 = autocomplete(2, 13);
CHECK_EQ(ac3.entryMap.count("until"), 0);
}
TEST_CASE_FIXTURE(ACFixture, "local_function")
{
check(R"(
local f
)");
auto ac1 = autocomplete(1, 15);
CHECK_EQ(ac1.entryMap.size(), 1);
CHECK_EQ(ac1.entryMap.count("function"), 1);
check(R"(
local f, cd
)");
auto ac2 = autocomplete(1, 15);
CHECK(ac2.entryMap.empty());
}
TEST_CASE_FIXTURE(ACFixture, "local_function")
{
check(R"(
local function
)");
auto ac = autocomplete(1, 23);
CHECK(ac.entryMap.empty());
check(R"(
local function s
)");
ac = autocomplete(1, 23);
CHECK(ac.entryMap.empty());
ac = autocomplete(1, 24);
CHECK(ac.entryMap.empty());
check(R"(
local function ()
)");
ac = autocomplete(1, 23);
CHECK(ac.entryMap.empty());
ac = autocomplete(1, 25);
CHECK(ac.entryMap.count("end"));
check(R"(
local function something
)");
ac = autocomplete(1, 32);
CHECK(ac.entryMap.empty());
check(R"(
local tbl = {}
function tbl.something() end
)");
ac = autocomplete(2, 30);
CHECK(ac.entryMap.empty());
}
TEST_CASE_FIXTURE(ACFixture, "local_function_params")
{
check(R"(
local function abc(def)
)");
CHECK(autocomplete(1, 23).entryMap.empty());
CHECK(autocomplete(1, 24).entryMap.empty());
CHECK(autocomplete(1, 27).entryMap.empty());
CHECK(autocomplete(1, 28).entryMap.empty());
CHECK(!autocomplete(1, 31).entryMap.empty());
CHECK(!autocomplete(1, 32).entryMap.empty());
check(R"(
local function abc(def)
end
)");
for (unsigned int i = 23; i < 31; ++i)
{
CHECK(autocomplete(1, i).entryMap.empty());
}
CHECK(!autocomplete(1, 32).entryMap.empty());
auto ac2 = autocomplete(2, 0);
CHECK_EQ(ac2.entryMap.count("abc"), 1);
CHECK_EQ(ac2.entryMap.count("def"), 1);
check(R"(
local function abc(def, ghi)
end
)");
auto ac3 = autocomplete(1, 35);
CHECK(ac3.entryMap.empty());
}
TEST_CASE_FIXTURE(ACFixture, "global_function_params")
{
check(R"(
function abc(def)
)");
for (unsigned int i = 17; i < 25; ++i)
{
CHECK(autocomplete(1, i).entryMap.empty());
}
CHECK(!autocomplete(1, 26).entryMap.empty());
check(R"(
function abc(def)
end
)");
for (unsigned int i = 17; i < 25; ++i)
{
CHECK(autocomplete(1, i).entryMap.empty());
}
CHECK(!autocomplete(1, 26).entryMap.empty());
check(R"(
function abc(def)
end
)");
auto ac2 = autocomplete(2, 0);
CHECK_EQ(ac2.entryMap.count("abc"), 1);
CHECK_EQ(ac2.entryMap.count("def"), 1);
check(R"(
function abc(def, ghi)
end
)");
auto ac3 = autocomplete(1, 29);
CHECK(ac3.entryMap.empty());
}
TEST_CASE_FIXTURE(ACFixture, "arguments_to_global_lambda")
{
check(R"(
abc = function(def, ghi)
end
)");
auto ac = autocomplete(1, 31);
CHECK(ac.entryMap.empty());
}
TEST_CASE_FIXTURE(ACFixture, "function_expr_params")
{
check(R"(
abc = function(def)
)");
for (unsigned int i = 20; i < 27; ++i)
{
CHECK(autocomplete(1, i).entryMap.empty());
}
CHECK(!autocomplete(1, 28).entryMap.empty());
check(R"(
abc = function(def)
end
)");
for (unsigned int i = 20; i < 27; ++i)
{
CHECK(autocomplete(1, i).entryMap.empty());
}
CHECK(!autocomplete(1, 28).entryMap.empty());
check(R"(
abc = function(def)
end
)");
auto ac2 = autocomplete(2, 0);
CHECK_EQ(ac2.entryMap.count("def"), 1);
}
TEST_CASE_FIXTURE(ACFixture, "local_initializer")
{
check(R"(
local a = t
)");
auto ac = autocomplete(1, 19);
CHECK_EQ(ac.entryMap.count("table"), 1);
CHECK_EQ(ac.entryMap.count("true"), 1);
}
TEST_CASE_FIXTURE(ACFixture, "local_initializer_2")
{
check(R"(
local a=
)");
auto ac = autocomplete(1, 16);
CHECK(ac.entryMap.count("table"));
}
TEST_CASE_FIXTURE(ACFixture, "get_member_completions")
{
check(R"(
local a = 12.3
)");
auto ac = autocomplete(1, 21);
CHECK(ac.entryMap.empty());
}
TEST_CASE_FIXTURE(ACFixture, "sometimes_the_metatable_is_an_error")
{
check(R"(
local T = {}
T.__index = T
function T.new()
return setmetatable({x=6}, X) -- oops!
end
local t = T.new()
t.
)");
autocomplete(8, 12);
// Don't crash!
}
TEST_CASE_FIXTURE(ACFixture, "local_types_builtin")
{
check(R"(
local a: n
local b: string = "don't trip"
)");
auto ac = autocomplete(1, 10);
CHECK(ac.entryMap.count("nil"));
CHECK(ac.entryMap.count("number"));
}
TEST_CASE_FIXTURE(ACFixture, "private_types")
{
check(R"(
do
type num = number
local a: nu
local b: num
end
local a: nu
)");
auto ac = autocomplete(3, 14);
CHECK(ac.entryMap.count("num"));
CHECK(ac.entryMap.count("number"));
ac = autocomplete(4, 15);
CHECK(ac.entryMap.count("num"));
CHECK(ac.entryMap.count("number"));
ac = autocomplete(6, 11);
CHECK(!ac.entryMap.count("num"));
CHECK(ac.entryMap.count("number"));
}
TEST_CASE_FIXTURE(ACFixture, "type_scoping_easy")
{
check(R"(
type Table = { a: number, b: number }
do
type Table = { x: string, y: string }
local a: T
end
)");
auto ac = autocomplete(4, 14);
REQUIRE(ac.entryMap.count("Table"));
REQUIRE(ac.entryMap["Table"].type);
const TableTypeVar* tv = get<TableTypeVar>(follow(*ac.entryMap["Table"].type));
REQUIRE(tv);
CHECK(tv->props.count("x"));
}
TEST_CASE_FIXTURE(ACFixture, "modules_with_types")
{
fileResolver.source["Module/A"] = R"(
export type A = { x: number, y: number }
export type B = { z: number, w: number }
return {}
)";
LUAU_REQUIRE_NO_ERRORS(frontend.check("Module/A"));
fileResolver.source["Module/B"] = R"(
local aaa = require(script.Parent.A)
local a: aa
)";
frontend.check("Module/B");
auto ac = Luau::autocomplete(frontend, "Module/B", Position{2, 11}, nullCallback);
CHECK(ac.entryMap.count("aaa"));
}
TEST_CASE_FIXTURE(ACFixture, "module_type_members")
{
fileResolver.source["Module/A"] = R"(
export type A = { x: number, y: number }
export type B = { z: number, w: number }
return {}
)";
LUAU_REQUIRE_NO_ERRORS(frontend.check("Module/A"));
fileResolver.source["Module/B"] = R"(
local aaa = require(script.Parent.A)
local a: aaa.
)";
frontend.check("Module/B");
auto ac = Luau::autocomplete(frontend, "Module/B", Position{2, 13}, nullCallback);
CHECK_EQ(2, ac.entryMap.size());
CHECK(ac.entryMap.count("A"));
CHECK(ac.entryMap.count("B"));
}
TEST_CASE_FIXTURE(ACFixture, "argument_types")
{
check(R"(
local function f(a: n
local b: string = "don't trip"
)");
auto ac = autocomplete(1, 21);
CHECK(ac.entryMap.count("nil"));
CHECK(ac.entryMap.count("number"));
}
TEST_CASE_FIXTURE(ACFixture, "return_types")
{
check(R"(
local function f(a: number): n
local b: string = "don't trip"
)");
auto ac = autocomplete(1, 30);
CHECK(ac.entryMap.count("nil"));
CHECK(ac.entryMap.count("number"));
}
TEST_CASE_FIXTURE(ACFixture, "as_types")
{
check(R"(
local a: any = 5
local b: number = (a :: n
)");
auto ac = autocomplete(2, 25);
CHECK(ac.entryMap.count("nil"));
CHECK(ac.entryMap.count("number"));
}
TEST_CASE_FIXTURE(ACFixture, "function_type_types")
{
check(R"(
local a: (n
local b: (number, (n
local c: (number, (number) -> n
local d: (number, (number) -> (number, n
local e: (n: n
)");
auto ac = autocomplete(1, 11);
CHECK(ac.entryMap.count("nil"));
CHECK(ac.entryMap.count("number"));
ac = autocomplete(2, 20);
CHECK(ac.entryMap.count("nil"));
CHECK(ac.entryMap.count("number"));
ac = autocomplete(3, 31);
CHECK(ac.entryMap.count("nil"));
CHECK(ac.entryMap.count("number"));
ac = autocomplete(4, 40);
CHECK(ac.entryMap.count("nil"));
CHECK(ac.entryMap.count("number"));
ac = autocomplete(5, 14);
CHECK(ac.entryMap.count("nil"));
CHECK(ac.entryMap.count("number"));
}
TEST_CASE_FIXTURE(ACFixture, "generic_types")
{
ScopedFastFlag luauParseGenericFunctions("LuauParseGenericFunctions", true);
ScopedFastFlag luauGenericFunctions("LuauGenericFunctions", true);
check(R"(
function f<Tee, Use>(a: T
local b: string = "don't trip"
)");
auto ac = autocomplete(1, 25);
CHECK(ac.entryMap.count("Tee"));
}
TEST_CASE_FIXTURE(ACFixture, "type_correct_suggestion_in_argument")
{
// local
check(R"(
local function target(a: number, b: string) return a + #b end
local one = 4
local two = "hello"
return target(o
)");
auto ac = autocomplete(5, 15);
CHECK(ac.entryMap.count("one"));
CHECK(ac.entryMap["one"].typeCorrect == TypeCorrectKind::Correct);
CHECK(ac.entryMap["two"].typeCorrect == TypeCorrectKind::None);
check(R"(
local function target(a: number, b: string) return a + #b end
local one = 4
local two = "hello"
return target(one, t
)");
ac = autocomplete(5, 20);
CHECK(ac.entryMap.count("two"));
CHECK(ac.entryMap["two"].typeCorrect == TypeCorrectKind::Correct);
CHECK(ac.entryMap["one"].typeCorrect == TypeCorrectKind::None);
// member
check(R"(
local function target(a: number, b: string) return a + #b end
local a = { one = 4, two = "hello" }
return target(a.
)");
ac = autocomplete(4, 16);
CHECK(ac.entryMap.count("one"));
CHECK(ac.entryMap["one"].typeCorrect == TypeCorrectKind::Correct);
CHECK(ac.entryMap["two"].typeCorrect == TypeCorrectKind::None);
check(R"(
local function target(a: number, b: string) return a + #b end
local a = { one = 4, two = "hello" }
return target(a.one, a.
)");
ac = autocomplete(4, 23);
CHECK(ac.entryMap.count("two"));
CHECK(ac.entryMap["two"].typeCorrect == TypeCorrectKind::Correct);
CHECK(ac.entryMap["one"].typeCorrect == TypeCorrectKind::None);
// union match
check(R"(
local function target(a: string?) return #b end
local a = { one = 4, two = "hello" }
return target(a.
)");
ac = autocomplete(4, 16);
CHECK(ac.entryMap.count("two"));
CHECK(ac.entryMap["two"].typeCorrect == TypeCorrectKind::Correct);
CHECK(ac.entryMap["one"].typeCorrect == TypeCorrectKind::None);
}
TEST_CASE_FIXTURE(ACFixture, "type_correct_suggestion_in_table")
{
check(R"(
type Foo = { a: number, b: string }
local a = { one = 4, two = "hello" }
local b: Foo = { a = a.
)");
auto ac = autocomplete(3, 23);
CHECK(ac.entryMap.count("one"));
CHECK(ac.entryMap["one"].typeCorrect == TypeCorrectKind::Correct);
CHECK(ac.entryMap["two"].typeCorrect == TypeCorrectKind::None);
check(R"(
type Foo = { a: number, b: string }
local a = { one = 4, two = "hello" }
local b: Foo = { b = a.
)");
ac = autocomplete(3, 23);
CHECK(ac.entryMap.count("two"));
CHECK(ac.entryMap["two"].typeCorrect == TypeCorrectKind::Correct);
CHECK(ac.entryMap["one"].typeCorrect == TypeCorrectKind::None);
}
TEST_CASE_FIXTURE(ACFixture, "type_correct_function_return_types")
{
check(R"(
local function target(a: number, b: string) return a + #b end
local function bar1(a: number) return -a end
local function bar2(a: string) reutrn a .. 'x' end
return target(b
)");
auto ac = autocomplete(5, 15);
CHECK(ac.entryMap.count("bar1"));
CHECK(ac.entryMap["bar1"].typeCorrect == TypeCorrectKind::CorrectFunctionResult);
CHECK(ac.entryMap["bar2"].typeCorrect == TypeCorrectKind::None);
check(R"(
local function target(a: number, b: string) return a + #b end
local function bar1(a: number) return -a end
local function bar2(a: string) return a .. 'x' end
return target(bar1, b
)");
ac = autocomplete(5, 21);
CHECK(ac.entryMap.count("bar2"));
CHECK(ac.entryMap["bar2"].typeCorrect == TypeCorrectKind::CorrectFunctionResult);
CHECK(ac.entryMap["bar1"].typeCorrect == TypeCorrectKind::None);
check(R"(
local function target(a: number, b: string) return a + #b end
local function bar1(a: number): (...number) return -a, a end
local function bar2(a: string) reutrn a .. 'x' end
return target(b
)");
ac = autocomplete(5, 15);
CHECK(ac.entryMap.count("bar1"));
CHECK(ac.entryMap["bar1"].typeCorrect == TypeCorrectKind::CorrectFunctionResult);
CHECK(ac.entryMap["bar2"].typeCorrect == TypeCorrectKind::None);
}
TEST_CASE_FIXTURE(ACFixture, "type_correct_local_type_suggestion")
{
check(R"(
local b: s = "str"
)");
auto ac = autocomplete(1, 10);
CHECK(ac.entryMap.count("string"));
CHECK(ac.entryMap["string"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local function f() return "str" end
local b: s = f()
)");
ac = autocomplete(2, 10);
CHECK(ac.entryMap.count("string"));
CHECK(ac.entryMap["string"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local b: s, c: n = "str", 2
)");
ac = autocomplete(1, 10);
CHECK(ac.entryMap.count("string"));
CHECK(ac.entryMap["string"].typeCorrect == TypeCorrectKind::Correct);
ac = autocomplete(1, 16);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local function f() return 1, "str", 3 end
local a: b, b: n, c: s, d: n = false, f()
)");
ac = autocomplete(2, 10);
CHECK(ac.entryMap.count("boolean"));
CHECK(ac.entryMap["boolean"].typeCorrect == TypeCorrectKind::Correct);
ac = autocomplete(2, 16);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
ac = autocomplete(2, 22);
CHECK(ac.entryMap.count("string"));
CHECK(ac.entryMap["string"].typeCorrect == TypeCorrectKind::Correct);
ac = autocomplete(2, 28);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local function f(): ...number return 1, 2, 3 end
local a: boolean, b: n = false, f()
)");
ac = autocomplete(2, 22);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
}
TEST_CASE_FIXTURE(ACFixture, "type_correct_function_type_suggestion")
{
check(R"(
local b: (n) -> number = function(a: number, b: string) return a + #b end
)");
auto ac = autocomplete(1, 11);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local b: (number, s = function(a: number, b: string) return a + #b end
)");
ac = autocomplete(1, 19);
CHECK(ac.entryMap.count("string"));
CHECK(ac.entryMap["string"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local b: (number, string) -> b = function(a: number, b: string): boolean return a + #b == 0 end
)");
ac = autocomplete(1, 30);
CHECK(ac.entryMap.count("boolean"));
CHECK(ac.entryMap["boolean"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local b: (number, ...s) = function(a: number, ...: string) return a end
)");
ac = autocomplete(1, 22);
CHECK(ac.entryMap.count("string"));
CHECK(ac.entryMap["string"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local b: (number) -> ...s = function(a: number): ...string return "a", "b", "c" end
)");
ac = autocomplete(1, 25);
CHECK(ac.entryMap.count("string"));
CHECK(ac.entryMap["string"].typeCorrect == TypeCorrectKind::Correct);
}
TEST_CASE_FIXTURE(ACFixture, "type_correct_full_type_suggestion")
{
check(R"(
local b: = "str"
)");
auto ac = autocomplete(1, 8);
CHECK(ac.entryMap.count("string"));
CHECK(ac.entryMap["string"].typeCorrect == TypeCorrectKind::Correct);
ac = autocomplete(1, 9);
CHECK(ac.entryMap.count("string"));
CHECK(ac.entryMap["string"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local b: = function(a: number) return -a end
)");
ac = autocomplete(1, 9);
CHECK(ac.entryMap.count("(number) -> number"));
CHECK(ac.entryMap["(number) -> number"].typeCorrect == TypeCorrectKind::Correct);
}
TEST_CASE_FIXTURE(ACFixture, "type_correct_argument_type_suggestion")
{
check(R"(
local function target(a: number, b: string) return a + #b end
local function d(a: n, b)
return target(a, b)
end
)");
auto ac = autocomplete(3, 21);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local function target(a: number, b: string) return a + #b end
local function d(a, b: s)
return target(a, b)
end
)");
ac = autocomplete(3, 24);
CHECK(ac.entryMap.count("string"));
CHECK(ac.entryMap["string"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local function target(a: number, b: string) return a + #b end
local function d(a: , b)
return target(a, b)
end
)");
ac = autocomplete(3, 19);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
ac = autocomplete(3, 20);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local function target(a: number, b: string) return a + #b end
local function d(a, b: ): number
return target(a, b)
end
)");
ac = autocomplete(3, 23);
CHECK(ac.entryMap.count("string"));
CHECK(ac.entryMap["string"].typeCorrect == TypeCorrectKind::Correct);
ac = autocomplete(3, 24);
CHECK(ac.entryMap["string"].typeCorrect == TypeCorrectKind::None);
}
TEST_CASE_FIXTURE(ACFixture, "type_correct_expected_argument_type_suggestion")
{
check(R"(
local function target(callback: (a: number, b: string) -> number) return callback(4, "hello") end
local x = target(function(a:
)");
auto ac = autocomplete(3, 29);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local function target(callback: (a: number, b: string) -> number) return callback(4, "hello") end
local x = target(function(a: n
)");
ac = autocomplete(3, 30);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local function target(callback: (a: number, b: string) -> number) return callback(4, "hello") end
local x = target(function(a: n, b: )
return a + #b
end)
)");
ac = autocomplete(3, 30);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
ac = autocomplete(3, 35);
CHECK(ac.entryMap.count("string"));
CHECK(ac.entryMap["string"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local function target(callback: (...number) -> number) return callback(1, 2, 3) end
local x = target(function(a: n)
return a
end
)");
ac = autocomplete(3, 30);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
}
TEST_CASE_FIXTURE(ACFixture, "type_correct_expected_argument_type_pack_suggestion")
{
check(R"(
local function target(callback: (...number) -> number) return callback(1, 2, 3) end
local x = target(function(...:n)
return a
end
)");
auto ac = autocomplete(3, 31);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local function target(callback: (...number) -> number) return callback(1, 2, 3) end
local x = target(function(a:number, b:number, ...:)
return a + b
end
)");
ac = autocomplete(3, 50);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
}
TEST_CASE_FIXTURE(ACFixture, "type_correct_expected_return_type_suggestion")
{
check(R"(
local function target(callback: () -> number) return callback() end
local x = target(function(): n
return 1
end
)");
auto ac = autocomplete(3, 30);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local function target(callback: () -> (number, number)) return callback() end
local x = target(function(): (number, n
return 1, 2
end
)");
ac = autocomplete(3, 39);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
}
TEST_CASE_FIXTURE(ACFixture, "type_correct_expected_return_type_pack_suggestion")
{
check(R"(
local function target(callback: () -> ...number) return callback() end
local x = target(function(): ...n
return 1, 2, 3
end
)");
auto ac = autocomplete(3, 33);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local function target(callback: () -> ...number) return callback() end
local x = target(function(): (number, number, ...n
return 1, 2, 3
end
)");
ac = autocomplete(3, 50);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
}
TEST_CASE_FIXTURE(ACFixture, "type_correct_expected_argument_type_suggestion_optional")
{
check(R"(
local function target(callback: nil | (a: number, b: string) -> number) return callback(4, "hello") end
local x = target(function(a:
)");
auto ac = autocomplete(3, 29);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
}
TEST_CASE_FIXTURE(ACFixture, "type_correct_expected_argument_type_suggestion_self")
{
check(R"(
local t = {}
t.x = 5
function t:target(callback: (a: number, b: string) -> number) return callback(self.x, "hello") end
local x = t:target(function(a: , b: ) end)
local y = t.target(t, function(a: number, b: ) end)
)");
auto ac = autocomplete(5, 31);
CHECK(ac.entryMap.count("number"));
CHECK(ac.entryMap["number"].typeCorrect == TypeCorrectKind::Correct);
ac = autocomplete(5, 35);
CHECK(ac.entryMap.count("string"));
CHECK(ac.entryMap["string"].typeCorrect == TypeCorrectKind::Correct);
ac = autocomplete(6, 45);
CHECK(ac.entryMap.count("string"));
CHECK(ac.entryMap["string"].typeCorrect == TypeCorrectKind::Correct);
}
TEST_CASE_FIXTURE(ACFixture, "do_not_suggest_internal_module_type")
{
fileResolver.source["Module/A"] = R"(
type done = { x: number, y: number }
local function a(a: (done) -> number) return a({x=1, y=2}) end
local function b(a: ((done) -> number) -> number) return a(function(done) return 1 end) end
return {a = a, b = b}
)";
LUAU_REQUIRE_NO_ERRORS(frontend.check("Module/A"));
fileResolver.source["Module/B"] = R"(
local ex = require(script.Parent.A)
ex.a(function(x:
)";
frontend.check("Module/B");
auto ac = Luau::autocomplete(frontend, "Module/B", Position{2, 16}, nullCallback);
CHECK(!ac.entryMap.count("done"));
fileResolver.source["Module/C"] = R"(
local ex = require(script.Parent.A)
ex.b(function(x:
)";
frontend.check("Module/C");
ac = Luau::autocomplete(frontend, "Module/C", Position{2, 16}, nullCallback);
CHECK(!ac.entryMap.count("(done) -> number"));
}
TEST_CASE_FIXTURE(ACFixture, "suggest_external_module_type")
{
fileResolver.source["Module/A"] = R"(
export type done = { x: number, y: number }
local function a(a: (done) -> number) return a({x=1, y=2}) end
local function b(a: ((done) -> number) -> number) return a(function(done) return 1 end) end
return {a = a, b = b}
)";
LUAU_REQUIRE_NO_ERRORS(frontend.check("Module/A"));
fileResolver.source["Module/B"] = R"(
local ex = require(script.Parent.A)
ex.a(function(x:
)";
frontend.check("Module/B");
auto ac = Luau::autocomplete(frontend, "Module/B", Position{2, 16}, nullCallback);
CHECK(!ac.entryMap.count("done"));
CHECK(ac.entryMap.count("ex.done"));
CHECK(ac.entryMap["ex.done"].typeCorrect == TypeCorrectKind::Correct);
fileResolver.source["Module/C"] = R"(
local ex = require(script.Parent.A)
ex.b(function(x:
)";
frontend.check("Module/C");
ac = Luau::autocomplete(frontend, "Module/C", Position{2, 16}, nullCallback);
CHECK(!ac.entryMap.count("(done) -> number"));
CHECK(ac.entryMap.count("(ex.done) -> number"));
CHECK(ac.entryMap["(ex.done) -> number"].typeCorrect == TypeCorrectKind::Correct);
}
TEST_CASE_FIXTURE(ACFixture, "do_not_suggest_synthetic_table_name")
{
check(R"(
local foo = { a = 1, b = 2 }
local bar: = foo
)");
auto ac = autocomplete(2, 11);
CHECK(!ac.entryMap.count("foo"));
}
// CLI-45692: Remove UnfrozenFixture here
TEST_CASE_FIXTURE(UnfrozenFixture, "type_correct_function_no_parenthesis")
{
check(R"(
local function target(a: (number) -> number) return a(4) end
local function bar1(a: number) return -a end
local function bar2(a: string) reutrn a .. 'x' end
return target(b
)");
auto ac = autocomplete(frontend, "MainModule", Position{5, 15}, nullCallback);
CHECK(ac.entryMap.count("bar1"));
CHECK(ac.entryMap["bar1"].typeCorrect == TypeCorrectKind::Correct);
CHECK(ac.entryMap["bar1"].parens == ParenthesesRecommendation::None);
CHECK(ac.entryMap["bar2"].typeCorrect == TypeCorrectKind::None);
}
TEST_CASE_FIXTURE(ACFixture, "type_correct_sealed_table")
{
check(R"(
local function f(a: { x: number, y: number }) return a.x + a.y end
local fp: = f
)");
auto ac = autocomplete(2, 10);
CHECK(ac.entryMap.count("({ x: number, y: number }) -> number"));
}
// CLI-45692: Remove UnfrozenFixture here
TEST_CASE_FIXTURE(UnfrozenFixture, "type_correct_keywords")
{
check(R"(
local function a(x: boolean) end
local function b(x: number?) end
local function c(x: (number) -> string) end
local function d(x: ((number) -> string)?) end
local function e(x: ((number) -> string) & ((boolean) -> number)) end
local tru = {}
local ni = false
local ac = a(t)
local bc = b(n)
local cc = c(f)
local dc = d(f)
local ec = e(f)
)");
auto ac = autocomplete(frontend, "MainModule", Position{10, 14}, nullCallback);
CHECK(ac.entryMap.count("tru"));
CHECK(ac.entryMap["tru"].typeCorrect == TypeCorrectKind::None);
CHECK(ac.entryMap["true"].typeCorrect == TypeCorrectKind::Correct);
CHECK(ac.entryMap["false"].typeCorrect == TypeCorrectKind::Correct);
ac = autocomplete(frontend, "MainModule", Position{11, 14}, nullCallback);
CHECK(ac.entryMap.count("ni"));
CHECK(ac.entryMap["ni"].typeCorrect == TypeCorrectKind::None);
CHECK(ac.entryMap["nil"].typeCorrect == TypeCorrectKind::Correct);
ac = autocomplete(frontend, "MainModule", Position{12, 14}, nullCallback);
CHECK(ac.entryMap.count("false"));
CHECK(ac.entryMap["false"].typeCorrect == TypeCorrectKind::None);
CHECK(ac.entryMap["function"].typeCorrect == TypeCorrectKind::Correct);
ac = autocomplete(frontend, "MainModule", Position{13, 14}, nullCallback);
CHECK(ac.entryMap["function"].typeCorrect == TypeCorrectKind::Correct);
ac = autocomplete(frontend, "MainModule", Position{14, 14}, nullCallback);
CHECK(ac.entryMap["function"].typeCorrect == TypeCorrectKind::Correct);
}
TEST_CASE_FIXTURE(ACFixture, "type_correct_suggestion_for_overloads")
{
check(R"(
local target: ((number) -> string) & ((string) -> number))
local one = 4
local two = "hello"
return target(o)
)");
auto ac = autocomplete(5, 15);
CHECK(ac.entryMap.count("one"));
CHECK(ac.entryMap["one"].typeCorrect == TypeCorrectKind::Correct);
CHECK(ac.entryMap["two"].typeCorrect == TypeCorrectKind::Correct);
check(R"(
local target: ((number) -> string) & ((number) -> number))
local one = 4
local two = "hello"
return target(o)
)");
ac = autocomplete(5, 15);
CHECK(ac.entryMap.count("one"));
CHECK(ac.entryMap["one"].typeCorrect == TypeCorrectKind::Correct);
CHECK(ac.entryMap["two"].typeCorrect == TypeCorrectKind::None);
check(R"(
local target: ((number, number) -> string) & ((string) -> number))
local one = 4
local two = "hello"
return target(1, o)
)");
ac = autocomplete(5, 18);
CHECK(ac.entryMap.count("one"));
CHECK(ac.entryMap["one"].typeCorrect == TypeCorrectKind::Correct);
CHECK(ac.entryMap["two"].typeCorrect == TypeCorrectKind::None);
}
TEST_CASE_FIXTURE(ACFixture, "optional_members")
{
check(R"(
local a = { x = 2, y = 3 }
type A = typeof(a)
local b: A? = a
return b.
)");
auto ac = autocomplete(4, 9);
CHECK_EQ(2, ac.entryMap.size());
CHECK(ac.entryMap.count("x"));
CHECK(ac.entryMap.count("y"));
check(R"(
local a = { x = 2, y = 3 }
type A = typeof(a)
local b: nil | A = a
return b.
)");
ac = autocomplete(4, 9);
CHECK_EQ(2, ac.entryMap.size());
CHECK(ac.entryMap.count("x"));
CHECK(ac.entryMap.count("y"));
check(R"(
local b: nil | nil
return b.
)");
ac = autocomplete(2, 9);
CHECK_EQ(0, ac.entryMap.size());
}
TEST_CASE_FIXTURE(ACFixture, "no_function_name_suggestions")
{
check(R"(
function na
)");
auto ac = autocomplete(1, 11);
CHECK(ac.entryMap.empty());
check(R"(
local function
)");
ac = autocomplete(1, 15);
CHECK(ac.entryMap.empty());
check(R"(
local function na
)");
ac = autocomplete(1, 17);
CHECK(ac.entryMap.empty());
}
TEST_CASE_FIXTURE(ACFixture, "skip_current_local")
{
check(R"(
local other = 1
local name = na
)");
auto ac = autocomplete(2, 15);
CHECK(!ac.entryMap.count("name"));
CHECK(ac.entryMap.count("other"));
check(R"(
local other = 1
local name, test = na
)");
ac = autocomplete(2, 21);
CHECK(!ac.entryMap.count("name"));
CHECK(!ac.entryMap.count("test"));
CHECK(ac.entryMap.count("other"));
}
TEST_CASE_FIXTURE(ACFixture, "keyword_members")
{
check(R"(
local a = { done = 1, forever = 2 }
local b = a.do
local c = a.for
local d = a.
do
end
)");
auto ac = autocomplete(2, 14);
CHECK_EQ(2, ac.entryMap.size());
CHECK(ac.entryMap.count("done"));
CHECK(ac.entryMap.count("forever"));
ac = autocomplete(3, 15);
CHECK_EQ(2, ac.entryMap.size());
CHECK(ac.entryMap.count("done"));
CHECK(ac.entryMap.count("forever"));
ac = autocomplete(4, 12);
CHECK_EQ(2, ac.entryMap.size());
CHECK(ac.entryMap.count("done"));
CHECK(ac.entryMap.count("forever"));
}
TEST_CASE_FIXTURE(ACFixture, "keyword_methods")
{
check(R"(
local a = {}
function a:done() end
local b = a:do
)");
auto ac = autocomplete(3, 14);
CHECK_EQ(1, ac.entryMap.size());
CHECK(ac.entryMap.count("done"));
}
TEST_CASE_FIXTURE(ACFixture, "keyword_types")
{
fileResolver.source["Module/A"] = R"(
export type done = { x: number, y: number }
export type other = { z: number, w: number }
return {}
)";
LUAU_REQUIRE_NO_ERRORS(frontend.check("Module/A"));
fileResolver.source["Module/B"] = R"(
local aaa = require(script.Parent.A)
local a: aaa.do
)";
frontend.check("Module/B");
auto ac = Luau::autocomplete(frontend, "Module/B", Position{2, 15}, nullCallback);
CHECK_EQ(2, ac.entryMap.size());
CHECK(ac.entryMap.count("done"));
CHECK(ac.entryMap.count("other"));
}
TEST_CASE_FIXTURE(ACFixture, "autocompleteSource")
{
std::string_view source = R"(
local a = table. -- Line 1
-- | Column 23
)";
auto ac = autocompleteSource(frontend, source, Position{1, 24}, nullCallback).result;
CHECK_EQ(16, ac.entryMap.size());
CHECK(ac.entryMap.count("find"));
CHECK(ac.entryMap.count("pack"));
CHECK(!ac.entryMap.count("math"));
}
TEST_CASE_FIXTURE(ACFixture, "autocompleteSource_require")
{
ScopedFastFlag luauResolveModuleNameWithoutACurrentModule("LuauResolveModuleNameWithoutACurrentModule", true);
std::string_view source = R"(
local a = require(w -- Line 1
-- | Column 27
)";
// CLI-43699 require shouldn't crash inside autocompleteSource
auto ac = autocompleteSource(frontend, source, Position{1, 27}, nullCallback).result;
}
TEST_CASE_FIXTURE(ACFixture, "autocompleteSource_comments")
{
std::string_view source = "--!str";
auto ac = autocompleteSource(frontend, source, Position{0, 6}, nullCallback).result;
CHECK_EQ(0, ac.entryMap.size());
}
TEST_CASE_FIXTURE(ACFixture, "autocompleteProp_index_function_metamethod_is_variadic")
{
std::string_view source = R"(
type Foo = {x: number}
local t = {}
setmetatable(t, {
__index = function(index: string): ...Foo
return {x = 1}, {x = 2}
end
})
local a = t. -- Line 9
-- | Column 20
)";
auto ac = autocompleteSource(frontend, source, Position{9, 20}, nullCallback).result;
REQUIRE_EQ(1, ac.entryMap.size());
CHECK(ac.entryMap.count("x"));
}
TEST_CASE_FIXTURE(ACFixture, "if_then_else_full_keywords")
{
check(R"(
local thenceforth = false
local elsewhere = false
local doover = false
local endurance = true
if 1 then
else
end
while false do
end
repeat
until
)");
auto ac = autocomplete(6, 9);
CHECK(ac.entryMap.size() == 1);
CHECK(ac.entryMap.count("then"));
ac = autocomplete(7, 4);
CHECK(ac.entryMap.count("else"));
CHECK(ac.entryMap.count("elseif"));
ac = autocomplete(10, 14);
CHECK(ac.entryMap.count("do"));
ac = autocomplete(13, 6);
CHECK(ac.entryMap.count("do"));
// FIXME: ideally we want to handle start and end of all statements as well
}
TEST_CASE_FIXTURE(ACFixture, "if_then_else_elseif_completions")
{
ScopedFastFlag sff{"ElseElseIfCompletionImprovements", true};
check(R"(
local elsewhere = false
if true then
return 1
el
end
)");
auto ac = autocomplete(5, 2);
CHECK(ac.entryMap.count("else"));
CHECK(ac.entryMap.count("elseif"));
CHECK(ac.entryMap.count("elsewhere") == 0);
check(R"(
local elsewhere = false
if true then
return 1
else
return 2
el
end
)");
ac = autocomplete(7, 2);
CHECK(ac.entryMap.count("else") == 0);
CHECK(ac.entryMap.count("elseif") == 0);
CHECK(ac.entryMap.count("elsewhere"));
check(R"(
local elsewhere = false
if true then
print("1")
elif true then
print("2")
el
end
)");
ac = autocomplete(7, 2);
CHECK(ac.entryMap.count("else"));
CHECK(ac.entryMap.count("elseif"));
CHECK(ac.entryMap.count("elsewhere"));
}
TEST_CASE_FIXTURE(ACFixture, "autocompleteSource_not_the_var_we_are_defining")
{
std::string_view source = "abc,de";
auto ac = autocompleteSource(frontend, source, Position{0, 6}, nullCallback).result;
CHECK(!ac.entryMap.count("de"));
}
TEST_CASE_FIXTURE(ACFixture, "autocompleteSource_recursive_function")
{
{
std::string_view global = R"(function abc()
end
)";
auto ac = autocompleteSource(frontend, global, Position{1, 0}, nullCallback).result;
CHECK(ac.entryMap.count("abc"));
}
{
std::string_view local = R"(local function abc()
end
)";
auto ac = autocompleteSource(frontend, local, Position{1, 0}, nullCallback).result;
CHECK(ac.entryMap.count("abc"));
}
}
TEST_CASE_FIXTURE(ACFixture, "suggest_table_keys")
{
check(R"(
type Test = { first: number, second: number }
local t: Test = { f }
)");
auto ac = autocomplete(2, 19);
CHECK(ac.entryMap.count("first"));
CHECK(ac.entryMap.count("second"));
// Intersection
check(R"(
type Test = { first: number } & { second: number }
local t: Test = { f }
)");
ac = autocomplete(2, 19);
CHECK(ac.entryMap.count("first"));
CHECK(ac.entryMap.count("second"));
// Union
check(R"(
type Test = { first: number, second: number } | { second: number, third: number }
local t: Test = { s }
)");
ac = autocomplete(2, 19);
CHECK(ac.entryMap.count("second"));
CHECK(!ac.entryMap.count("first"));
CHECK(!ac.entryMap.count("third"));
// No parenthesis suggestion
check(R"(
type Test = { first: (number) -> number, second: number }
local t: Test = { f }
)");
ac = autocomplete(2, 19);
CHECK(ac.entryMap.count("first"));
CHECK(ac.entryMap["first"].parens == ParenthesesRecommendation::None);
// When key is changed
check(R"(
type Test = { first: number, second: number }
local t: Test = { f = 2 }
)");
ac = autocomplete(2, 19);
CHECK(ac.entryMap.count("first"));
CHECK(ac.entryMap.count("second"));
// Alternative key syntax
check(R"(
type Test = { first: number, second: number }
local t: Test = { ["f"] }
)");
ac = autocomplete(2, 21);
CHECK(ac.entryMap.count("first"));
CHECK(ac.entryMap.count("second"));
// Not an alternative key syntax
check(R"(
type Test = { first: number, second: number }
local t: Test = { "f" }
)");
ac = autocomplete(2, 20);
CHECK(!ac.entryMap.count("first"));
CHECK(!ac.entryMap.count("second"));
// Skip keys that are already defined
check(R"(
type Test = { first: number, second: number }
local t: Test = { first = 2, s }
)");
ac = autocomplete(2, 30);
CHECK(!ac.entryMap.count("first"));
CHECK(ac.entryMap.count("second"));
// Don't skip active key
check(R"(
type Test = { first: number, second: number }
local t: Test = { first }
)");
ac = autocomplete(2, 23);
CHECK(ac.entryMap.count("first"));
CHECK(ac.entryMap.count("second"));
// Inference after first key
check(R"(
local t = {
{ first = 5, second = 10 },
{ f }
}
)");
ac = autocomplete(3, 7);
CHECK(ac.entryMap.count("first"));
CHECK(ac.entryMap.count("second"));
check(R"(
local t = {
[2] = { first = 5, second = 10 },
[5] = { f }
}
)");
ac = autocomplete(3, 13);
CHECK(ac.entryMap.count("first"));
CHECK(ac.entryMap.count("second"));
}
TEST_CASE_FIXTURE(Fixture, "autocomplete_documentation_symbols")
{
loadDefinition(R"(
declare y: {
x: number,
}
)");
fileResolver.source["Module/A"] = R"(
local a = y.
)";
frontend.check("Module/A");
auto ac = autocomplete(frontend, "Module/A", Position{1, 21}, nullCallback);
REQUIRE(ac.entryMap.count("x"));
CHECK_EQ(ac.entryMap["x"].documentationSymbol, "@test/global/y.x");
}
TEST_CASE_FIXTURE(ACFixture, "autocomplete_ifelse_expressions")
{
ScopedFastFlag sff1{"LuauIfElseExpressionBaseSupport", true};
ScopedFastFlag sff2{"LuauIfElseExpressionAnalysisSupport", true};
{
check(R"(
local temp = false
local even = true;
local a = true
a = if t1@emp then t
a = if temp t2@
a = if temp then e3@
a = if temp then even e4@
a = if temp then even elseif t5@
a = if temp then even elseif true t6@
a = if temp then even elseif true then t7@
a = if temp then even elseif true then temp e8@
a = if temp then even elseif true then temp else e9@
)");
auto ac = autocomplete('1');
CHECK(ac.entryMap.count("temp"));
CHECK(ac.entryMap.count("true"));
CHECK(ac.entryMap.count("then") == 0);
CHECK(ac.entryMap.count("else") == 0);
CHECK(ac.entryMap.count("elseif") == 0);
ac = autocomplete('2');
CHECK(ac.entryMap.count("temp") == 0);
CHECK(ac.entryMap.count("true") == 0);
CHECK(ac.entryMap.count("then"));
CHECK(ac.entryMap.count("else") == 0);
CHECK(ac.entryMap.count("elseif") == 0);
ac = autocomplete('3');
CHECK(ac.entryMap.count("even"));
CHECK(ac.entryMap.count("then") == 0);
CHECK(ac.entryMap.count("else") == 0);
CHECK(ac.entryMap.count("elseif") == 0);
ac = autocomplete('4');
CHECK(ac.entryMap.count("even") == 0);
CHECK(ac.entryMap.count("then") == 0);
CHECK(ac.entryMap.count("else"));
CHECK(ac.entryMap.count("elseif"));
ac = autocomplete('5');
CHECK(ac.entryMap.count("temp"));
CHECK(ac.entryMap.count("true"));
CHECK(ac.entryMap.count("then") == 0);
CHECK(ac.entryMap.count("else") == 0);
CHECK(ac.entryMap.count("elseif") == 0);
ac = autocomplete('6');
CHECK(ac.entryMap.count("temp") == 0);
CHECK(ac.entryMap.count("true") == 0);
CHECK(ac.entryMap.count("then"));
CHECK(ac.entryMap.count("else") == 0);
CHECK(ac.entryMap.count("elseif") == 0);
ac = autocomplete('7');
CHECK(ac.entryMap.count("temp"));
CHECK(ac.entryMap.count("true"));
CHECK(ac.entryMap.count("then") == 0);
CHECK(ac.entryMap.count("else") == 0);
CHECK(ac.entryMap.count("elseif") == 0);
ac = autocomplete('8');
CHECK(ac.entryMap.count("even") == 0);
CHECK(ac.entryMap.count("then") == 0);
CHECK(ac.entryMap.count("else"));
CHECK(ac.entryMap.count("elseif"));
ac = autocomplete('9');
CHECK(ac.entryMap.count("then") == 0);
CHECK(ac.entryMap.count("else") == 0);
CHECK(ac.entryMap.count("elseif") == 0);
}
}
TEST_SUITE_END();