mlx/tests/blas_tests.cpp

#include <numeric>

#include "doctest/doctest.h"

#include "mlx/mlx.h"

using namespace mlx::core;

TEST_CASE("test matmul") {
  auto a = array(1);
  auto b = array({1.0});
  CHECK_THROWS_AS(matmul(a, b), std::invalid_argument);

  a = array({1.0});
  b = array({1.0});
  auto out = matmul(a, b);
  CHECK_EQ(out.shape(), std::vector<int>{});
  CHECK_EQ(out.size(), 1);
  CHECK_EQ(out.dtype(), float32);
  CHECK_EQ(out.item<float>(), 1.0f);

  a = ones({2, 4});
  b = ones({2});
  CHECK_THROWS_AS(matmul(a, b), std::invalid_argument);

  a = ones({2, 4});
  b = ones({3, 2});
  CHECK_THROWS_AS(matmul(a, b), std::invalid_argument);

  a = ones({2, 4});
  b = ones({4, 3, 2});
  CHECK_THROWS_AS(matmul(a, b), std::invalid_argument);

  a = ones({2});
  b = ones({4, 2});
  CHECK_THROWS_AS(matmul(a, b), std::invalid_argument);

  a = ones({2, 3});
  b = ones({4, 2});
  CHECK_THROWS_AS(matmul(a, b), std::invalid_argument);

  a = ones({2, 4, 3});
  b = ones({4, 2});
  CHECK_THROWS_AS(matmul(a, b), std::invalid_argument);

  a = ones({2, 4});
  b = ones({4, 2});
  out = matmul(a, b);
  CHECK(array_equal(out, full({2, 2}, 4.0f)).item<bool>());

  a = ones({2, 4}, int32);
  b = ones({4, 2}, float32);
  out = matmul(a, b);
  CHECK(array_equal(out, full({2, 2}, 4.0f)).item<bool>());

  // Check single dimensions
  a = ones({4});
  b = ones({4, 2});
  out = matmul(a, b);
  CHECK(array_equal(out, full({2}, 4.0f)).item<bool>());

  a = ones({2, 4});
  b = ones({4});
  out = matmul(a, b);
  CHECK(array_equal(out, full({2}, 4.0f)).item<bool>());

  a = ones({4});
  b = ones({4});
  out = matmul(a, b);
  CHECK(array_equal(out, full({}, 4.0f)).item<bool>());

  // Test transposed arrays
  a = array({1.0f, 1.0f, 1.0f, 1.0f}, {1, 4});
  b = array({1.0f, 1.0f, 1.0f, 1.0f}, {4, 1});
  out = matmul(transpose(a), transpose(b));
  CHECK(array_equal(out, ones({4, 4})).item<bool>());

  a = array({1.0f, 2.0f, 3.0f, 4.0f}, {2, 2});
  b = array({1.0f, 2.0f, 1.0f, 2.0f}, {2, 2});
  out = matmul(transpose(a), b);
  CHECK(
      array_equal(out, array({4.0f, 8.0f, 6.0f, 12.0f}, {2, 2})).item<bool>());

  out = matmul(a, transpose(b));
  CHECK(
      array_equal(out, array({5.0f, 5.0f, 11.0f, 11.0f}, {2, 2})).item<bool>());

  out = matmul(transpose(a), transpose(b));
  CHECK(
      array_equal(out, array({7.0f, 7.0f, 10.0f, 10.0f}, {2, 2})).item<bool>());

  // Test broadcasting for both arrays
  a = ones({5, 4, 2});
  b = ones({2, 3});
  out = matmul(a, b);
  CHECK(array_equal(out, full({5, 4, 3}, 2.0f)).item<bool>());

  a = ones({5, 1, 4, 2});
  b = ones({1, 7, 2, 3});
  out = matmul(a, b);
  CHECK(array_equal(out, full({5, 7, 4, 3}, 2.0f)).item<bool>());

  // Test batched matmul with transpose
  a = ones({2, 2, 4});
  b = ones({2, 4, 2});
  out = matmul(transpose(a, {0, 2, 1}), transpose(b, {0, 2, 1}));
  CHECK(array_equal(out, full({2, 4, 4}, 2.0f)).item<bool>());
}
awni's commit files 2023-11-30 02:30:41 +08:00			`#include <numeric>`

			`#include "doctest/doctest.h"`

			`#include "mlx/mlx.h"`

			`using namespace mlx::core;`

			`TEST_CASE("test matmul") {`
			`auto a = array(1);`
			`auto b = array({1.0});`
			`CHECK_THROWS_AS(matmul(a, b), std::invalid_argument);`

			`a = array({1.0});`
			`b = array({1.0});`
			`auto out = matmul(a, b);`
			`CHECK_EQ(out.shape(), std::vector<int>{});`
			`CHECK_EQ(out.size(), 1);`
			`CHECK_EQ(out.dtype(), float32);`
			`CHECK_EQ(out.item<float>(), 1.0f);`

			`a = ones({2, 4});`
			`b = ones({2});`
			`CHECK_THROWS_AS(matmul(a, b), std::invalid_argument);`

			`a = ones({2, 4});`
			`b = ones({3, 2});`
			`CHECK_THROWS_AS(matmul(a, b), std::invalid_argument);`

			`a = ones({2, 4});`
			`b = ones({4, 3, 2});`
			`CHECK_THROWS_AS(matmul(a, b), std::invalid_argument);`

			`a = ones({2});`
			`b = ones({4, 2});`
			`CHECK_THROWS_AS(matmul(a, b), std::invalid_argument);`

			`a = ones({2, 3});`
			`b = ones({4, 2});`
			`CHECK_THROWS_AS(matmul(a, b), std::invalid_argument);`

			`a = ones({2, 4, 3});`
			`b = ones({4, 2});`
			`CHECK_THROWS_AS(matmul(a, b), std::invalid_argument);`

			`a = ones({2, 4});`
			`b = ones({4, 2});`
			`out = matmul(a, b);`
			`CHECK(array_equal(out, full({2, 2}, 4.0f)).item<bool>());`

			`a = ones({2, 4}, int32);`
			`b = ones({4, 2}, float32);`
			`out = matmul(a, b);`
			`CHECK(array_equal(out, full({2, 2}, 4.0f)).item<bool>());`

			`// Check single dimensions`
			`a = ones({4});`
			`b = ones({4, 2});`
			`out = matmul(a, b);`
			`CHECK(array_equal(out, full({2}, 4.0f)).item<bool>());`

			`a = ones({2, 4});`
			`b = ones({4});`
			`out = matmul(a, b);`
			`CHECK(array_equal(out, full({2}, 4.0f)).item<bool>());`

			`a = ones({4});`
			`b = ones({4});`
			`out = matmul(a, b);`
			`CHECK(array_equal(out, full({}, 4.0f)).item<bool>());`

			`// Test transposed arrays`
			`a = array({1.0f, 1.0f, 1.0f, 1.0f}, {1, 4});`
			`b = array({1.0f, 1.0f, 1.0f, 1.0f}, {4, 1});`
			`out = matmul(transpose(a), transpose(b));`
			`CHECK(array_equal(out, ones({4, 4})).item<bool>());`

			`a = array({1.0f, 2.0f, 3.0f, 4.0f}, {2, 2});`
			`b = array({1.0f, 2.0f, 1.0f, 2.0f}, {2, 2});`
			`out = matmul(transpose(a), b);`
			`CHECK(`
			`array_equal(out, array({4.0f, 8.0f, 6.0f, 12.0f}, {2, 2})).item<bool>());`

			`out = matmul(a, transpose(b));`
			`CHECK(`
			`array_equal(out, array({5.0f, 5.0f, 11.0f, 11.0f}, {2, 2})).item<bool>());`

			`out = matmul(transpose(a), transpose(b));`
			`CHECK(`
			`array_equal(out, array({7.0f, 7.0f, 10.0f, 10.0f}, {2, 2})).item<bool>());`

			`// Test broadcasting for both arrays`
			`a = ones({5, 4, 2});`
			`b = ones({2, 3});`
			`out = matmul(a, b);`
			`CHECK(array_equal(out, full({5, 4, 3}, 2.0f)).item<bool>());`

			`a = ones({5, 1, 4, 2});`
			`b = ones({1, 7, 2, 3});`
			`out = matmul(a, b);`
			`CHECK(array_equal(out, full({5, 7, 4, 3}, 2.0f)).item<bool>());`

			`// Test batched matmul with transpose`
			`a = ones({2, 2, 4});`
			`b = ones({2, 4, 2});`
			`out = matmul(transpose(a, {0, 2, 1}), transpose(b, {0, 2, 1}));`
			`CHECK(array_equal(out, full({2, 4, 4}, 2.0f)).item<bool>());`
			`}`