luau/tests/CostModel.test.cpp
Andy Friesen e25b0a6275
Sync to upstream/release/591 (#1012)
* Fix a use-after-free bug in the new type cloning algorithm
* Tighten up the type of `coroutine.wrap`. It is now `<A..., R...>(f:
(A...) -> R...) -> ((A...) -> R...)`
* Break `.luaurc` out into a separate library target `Luau.Config`. This
makes it easier for applications to reason about config files without
also depending on the type inference engine.
* Move typechecking limits into `FrontendOptions`. This allows embedders
more finely-grained control over autocomplete's internal time limits.
* Fix stability issue with debugger onprotectederror callback allowing
break in non-yieldable contexts

New solver:

* Initial work toward [Local Type
Inference](0e1082108f/rfcs/local-type-inference.md)
* Introduce a new subtyping test. This will be much nicer than the old
test because it is completely separate both from actual type inference
and from error reporting.

Native code generation:

* Added function to compute iterated dominance frontier
* Optimize barriers in SET_UPVALUE when tag is known
* Cache lua_State::global in a register on A64
* Optimize constant stores in A64 lowering
* Track table array size state to optimize array size checks
* Add split tag/value store into a VM register
* Check that spills can outlive the block only in specific conditions

---------

Co-authored-by: Arseny Kapoulkine <arseny.kapoulkine@gmail.com>
Co-authored-by: Vyacheslav Egorov <vegorov@roblox.com>
2023-08-18 11:15:41 -07:00

262 lines
5.5 KiB
C++

// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
#include "Luau/Parser.h"
#include "ScopedFlags.h"
#include "doctest.h"
using namespace Luau;
namespace Luau
{
namespace Compile
{
uint64_t modelCost(AstNode* root, AstLocal* const* vars, size_t varCount, const DenseHashMap<AstExprCall*, int>& builtins);
int computeCost(uint64_t model, const bool* varsConst, size_t varCount);
} // namespace Compile
} // namespace Luau
TEST_SUITE_BEGIN("CostModel");
static uint64_t modelFunction(const char* source)
{
Allocator allocator;
AstNameTable names(allocator);
ParseResult result = Parser::parse(source, strlen(source), names, allocator);
REQUIRE(result.root != nullptr);
AstStatFunction* func = result.root->body.data[0]->as<AstStatFunction>();
REQUIRE(func);
return Luau::Compile::modelCost(func->func->body, func->func->args.data, func->func->args.size, DenseHashMap<AstExprCall*, int>{nullptr});
}
TEST_CASE("Expression")
{
uint64_t model = modelFunction(R"(
function test(a, b, c)
return a + (b + 1) * (b + 1) - c
end
)");
const bool args1[] = {false, false, false};
const bool args2[] = {false, true, false};
CHECK_EQ(5, Luau::Compile::computeCost(model, args1, 3));
CHECK_EQ(2, Luau::Compile::computeCost(model, args2, 3));
}
TEST_CASE("PropagateVariable")
{
uint64_t model = modelFunction(R"(
function test(a)
local b = a * a * a
return b * b
end
)");
const bool args1[] = {false};
const bool args2[] = {true};
CHECK_EQ(3, Luau::Compile::computeCost(model, args1, 1));
CHECK_EQ(0, Luau::Compile::computeCost(model, args2, 1));
}
TEST_CASE("LoopAssign")
{
uint64_t model = modelFunction(R"(
function test(a)
for i=1,3 do
a[i] = i
end
end
)");
const bool args1[] = {false};
const bool args2[] = {true};
// loop baseline cost is 5
CHECK_EQ(6, Luau::Compile::computeCost(model, args1, 1));
CHECK_EQ(6, Luau::Compile::computeCost(model, args2, 1));
}
TEST_CASE("MutableVariable")
{
uint64_t model = modelFunction(R"(
function test(a, b)
local x = a * a
x += b
return x * x
end
)");
const bool args1[] = {false};
const bool args2[] = {true};
CHECK_EQ(3, Luau::Compile::computeCost(model, args1, 1));
CHECK_EQ(2, Luau::Compile::computeCost(model, args2, 1));
}
TEST_CASE("ImportCall")
{
uint64_t model = modelFunction(R"(
function test(a)
return Instance.new(a)
end
)");
const bool args1[] = {false};
const bool args2[] = {true};
CHECK_EQ(6, Luau::Compile::computeCost(model, args1, 1));
CHECK_EQ(6, Luau::Compile::computeCost(model, args2, 1));
}
TEST_CASE("FastCall")
{
uint64_t model = modelFunction(R"(
function test(a)
return math.abs(a + 1)
end
)");
const bool args1[] = {false};
const bool args2[] = {true};
// note: we currently don't treat fast calls differently from cost model perspective
CHECK_EQ(6, Luau::Compile::computeCost(model, args1, 1));
CHECK_EQ(5, Luau::Compile::computeCost(model, args2, 1));
}
TEST_CASE("ControlFlow")
{
uint64_t model = modelFunction(R"(
function test(a)
while a < 0 do
a += 1
end
for i=10,1,-1 do
a += 1
end
for i in pairs({}) do
a += 1
if a % 2 == 0 then continue end
end
repeat
a += 1
if a % 2 == 0 then break end
until a > 10
return a
end
)");
const bool args1[] = {false};
const bool args2[] = {true};
CHECK_EQ(76, Luau::Compile::computeCost(model, args1, 1));
CHECK_EQ(73, Luau::Compile::computeCost(model, args2, 1));
}
TEST_CASE("Conditional")
{
uint64_t model = modelFunction(R"(
function test(a)
return if a < 0 then -a else a
end
)");
const bool args1[] = {false};
const bool args2[] = {true};
CHECK_EQ(4, Luau::Compile::computeCost(model, args1, 1));
CHECK_EQ(2, Luau::Compile::computeCost(model, args2, 1));
}
TEST_CASE("VarArgs")
{
uint64_t model = modelFunction(R"(
function test(...)
return select('#', ...) :: number
end
)");
CHECK_EQ(8, Luau::Compile::computeCost(model, nullptr, 0));
}
TEST_CASE("TablesFunctions")
{
uint64_t model = modelFunction(R"(
function test()
return { 42, op = function() end }
end
)");
CHECK_EQ(22, Luau::Compile::computeCost(model, nullptr, 0));
}
TEST_CASE("CostOverflow")
{
uint64_t model = modelFunction(R"(
function test()
return {{{{{{{{{{{{{{{}}}}}}}}}}}}}}}
end
)");
CHECK_EQ(127, Luau::Compile::computeCost(model, nullptr, 0));
}
TEST_CASE("TableAssign")
{
uint64_t model = modelFunction(R"(
function test(a)
for i=1,#a do
a[i] = i
end
end
)");
const bool args1[] = {false};
const bool args2[] = {true};
CHECK_EQ(7, Luau::Compile::computeCost(model, args1, 1));
CHECK_EQ(6, Luau::Compile::computeCost(model, args2, 1));
}
TEST_CASE("InterpString")
{
uint64_t model = modelFunction(R"(
function test(a)
return `hello, {a}!`
end
)");
const bool args1[] = {false};
const bool args2[] = {true};
CHECK_EQ(3, Luau::Compile::computeCost(model, args1, 1));
CHECK_EQ(3, Luau::Compile::computeCost(model, args2, 1));
}
TEST_CASE("MultipleAssignments")
{
uint64_t model = modelFunction(R"(
function test(a)
local x = 0
x = a
x = a + 1
x, x, x = a
x = a, a, a
end
)");
const bool args1[] = {false};
const bool args2[] = {true};
CHECK_EQ(8, Luau::Compile::computeCost(model, args1, 1));
CHECK_EQ(7, Luau::Compile::computeCost(model, args2, 1));
}
TEST_SUITE_END();