mlir/test/python/dialects/sparse_tensor/dialect.py - llvm-project - Git at Google

 # RUN: %PYTHON %s | FileCheck %s

 from mlir.ir import *
 from mlir.dialects import sparse_tensor as st


 def run(f):
     print("\nTEST:", f.__name__)
     f()
     return f


 # CHECK-LABEL: TEST: testEncodingAttr1D
 @run
 def testEncodingAttr1D():
     with Context() as ctx:
         parsed = Attribute.parse(
             "#sparse_tensor.encoding<{"
             "  map = (d0) -> (d0 : compressed),"
             "  posWidth = 16,"
             "  crdWidth = 32"
             "}>"
         )
         # CHECK: #sparse_tensor.encoding<{ map = (d0) -> (d0 : compressed), posWidth = 16, crdWidth = 32 }>
         print(parsed)

         casted = st.EncodingAttr(parsed)
         # CHECK: equal: True
         print(f"equal: {casted == parsed}")

         # CHECK: lvl_types: [<LevelType.compressed: 8>]
         print(f"lvl_types: {casted.lvl_types}")
         # CHECK: dim_to_lvl: (d0) -> (d0)
         print(f"dim_to_lvl: {casted.dim_to_lvl}")
         # CHECK: lvl_to_dim: (d0) -> (d0)
         print(f"lvl_to_dim: {casted.lvl_to_dim}")
         # CHECK: pos_width: 16
         print(f"pos_width: {casted.pos_width}")
         # CHECK: crd_width: 32
         print(f"crd_width: {casted.crd_width}")

         created = st.EncodingAttr.get(casted.lvl_types, None, None, 0, 0)
         # CHECK: #sparse_tensor.encoding<{ map = (d0) -> (d0 : compressed) }>
         print(created)
         # CHECK: created_equal: False
         print(f"created_equal: {created == casted}")

         # Verify that the factory creates an instance of the proper type.
         # CHECK: is_proper_instance: True
         print(f"is_proper_instance: {isinstance(created, st.EncodingAttr)}")
         # CHECK: created_pos_width: 0
         print(f"created_pos_width: {created.pos_width}")


 # CHECK-LABEL: TEST: testEncodingAttr2D
 @run
 def testEncodingAttr2D():
     with Context() as ctx:
         parsed = Attribute.parse(
             "#sparse_tensor.encoding<{"
             "  map = (d0, d1) -> (d1 : dense, d0 : compressed),"
             "  posWidth = 8,"
             "  crdWidth = 32"
             "}>"
         )
         # CHECK: #sparse_tensor.encoding<{ map = (d0, d1) -> (d1 : dense, d0 : compressed), posWidth = 8, crdWidth = 32 }>
         print(parsed)

         casted = st.EncodingAttr(parsed)
         # CHECK: equal: True
         print(f"equal: {casted == parsed}")

         # CHECK: lvl_types: [<LevelType.dense: 4>, <LevelType.compressed: 8>]
         print(f"lvl_types: {casted.lvl_types}")
         # CHECK: dim_to_lvl: (d0, d1) -> (d1, d0)
         print(f"dim_to_lvl: {casted.dim_to_lvl}")
         # CHECK: lvl_to_dim: (d0, d1) -> (d1, d0)
         print(f"lvl_to_dim: {casted.lvl_to_dim}")
         # CHECK: pos_width: 8
         print(f"pos_width: {casted.pos_width}")
         # CHECK: crd_width: 32
         print(f"crd_width: {casted.crd_width}")

         created = st.EncodingAttr.get(
             casted.lvl_types,
             casted.dim_to_lvl,
             casted.lvl_to_dim,
             8,
             32,
         )
         # CHECK: #sparse_tensor.encoding<{ map = (d0, d1) -> (d1 : dense, d0 : compressed), posWidth = 8, crdWidth = 32 }>
         print(created)
         # CHECK: created_equal: True
         print(f"created_equal: {created == casted}")


 # CHECK-LABEL: TEST: testEncodingAttrOnTensorType
 @run
 def testEncodingAttrOnTensorType():
     with Context() as ctx, Location.unknown():
         encoding = st.EncodingAttr(
             Attribute.parse(
                 "#sparse_tensor.encoding<{"
                 "  map = (d0) -> (d0 : compressed), "
                 "  posWidth = 64,"
                 "  crdWidth = 32"
                 "}>"
             )
         )
         tt = RankedTensorType.get((1024,), F32Type.get(), encoding=encoding)
         # CHECK: tensor<1024xf32, #sparse_tensor.encoding<{ map = (d0) -> (d0 : compressed), posWidth = 64, crdWidth = 32 }>>
         print(tt)
         # CHECK: #sparse_tensor.encoding<{ map = (d0) -> (d0 : compressed), posWidth = 64, crdWidth = 32 }>
         print(tt.encoding)
         assert tt.encoding == encoding
	# RUN: %PYTHON %s \| FileCheck %s

	from mlir.ir import *
	from mlir.dialects import sparse_tensor as st


	def run(f):
	print("\nTEST:", f.__name__)
	f()
	return f


	# CHECK-LABEL: TEST: testEncodingAttr1D
	@run
	def testEncodingAttr1D():
	with Context() as ctx:
	parsed = Attribute.parse(
	"#sparse_tensor.encoding<{"
	" map = (d0) -> (d0 : compressed),"
	" posWidth = 16,"
	" crdWidth = 32"
	"}>"
	)
	# CHECK: #sparse_tensor.encoding<{ map = (d0) -> (d0 : compressed), posWidth = 16, crdWidth = 32 }>
	print(parsed)

	casted = st.EncodingAttr(parsed)
	# CHECK: equal: True
	print(f"equal: {casted == parsed}")

	# CHECK: lvl_types: [<LevelType.compressed: 8>]
	print(f"lvl_types: {casted.lvl_types}")
	# CHECK: dim_to_lvl: (d0) -> (d0)
	print(f"dim_to_lvl: {casted.dim_to_lvl}")
	# CHECK: lvl_to_dim: (d0) -> (d0)
	print(f"lvl_to_dim: {casted.lvl_to_dim}")
	# CHECK: pos_width: 16
	print(f"pos_width: {casted.pos_width}")
	# CHECK: crd_width: 32
	print(f"crd_width: {casted.crd_width}")

	created = st.EncodingAttr.get(casted.lvl_types, None, None, 0, 0)
	# CHECK: #sparse_tensor.encoding<{ map = (d0) -> (d0 : compressed) }>
	print(created)
	# CHECK: created_equal: False
	print(f"created_equal: {created == casted}")

	# Verify that the factory creates an instance of the proper type.
	# CHECK: is_proper_instance: True
	print(f"is_proper_instance: {isinstance(created, st.EncodingAttr)}")
	# CHECK: created_pos_width: 0
	print(f"created_pos_width: {created.pos_width}")


	# CHECK-LABEL: TEST: testEncodingAttr2D
	@run
	def testEncodingAttr2D():
	with Context() as ctx:
	parsed = Attribute.parse(
	"#sparse_tensor.encoding<{"
	" map = (d0, d1) -> (d1 : dense, d0 : compressed),"
	" posWidth = 8,"
	" crdWidth = 32"
	"}>"
	)
	# CHECK: #sparse_tensor.encoding<{ map = (d0, d1) -> (d1 : dense, d0 : compressed), posWidth = 8, crdWidth = 32 }>
	print(parsed)

	casted = st.EncodingAttr(parsed)
	# CHECK: equal: True
	print(f"equal: {casted == parsed}")

	# CHECK: lvl_types: [<LevelType.dense: 4>, <LevelType.compressed: 8>]
	print(f"lvl_types: {casted.lvl_types}")
	# CHECK: dim_to_lvl: (d0, d1) -> (d1, d0)
	print(f"dim_to_lvl: {casted.dim_to_lvl}")
	# CHECK: lvl_to_dim: (d0, d1) -> (d1, d0)
	print(f"lvl_to_dim: {casted.lvl_to_dim}")
	# CHECK: pos_width: 8
	print(f"pos_width: {casted.pos_width}")
	# CHECK: crd_width: 32
	print(f"crd_width: {casted.crd_width}")

	created = st.EncodingAttr.get(
	casted.lvl_types,
	casted.dim_to_lvl,
	casted.lvl_to_dim,
	8,
	32,
	)
	# CHECK: #sparse_tensor.encoding<{ map = (d0, d1) -> (d1 : dense, d0 : compressed), posWidth = 8, crdWidth = 32 }>
	print(created)
	# CHECK: created_equal: True
	print(f"created_equal: {created == casted}")


	# CHECK-LABEL: TEST: testEncodingAttrOnTensorType
	@run
	def testEncodingAttrOnTensorType():
	with Context() as ctx, Location.unknown():
	encoding = st.EncodingAttr(
	Attribute.parse(
	"#sparse_tensor.encoding<{"
	" map = (d0) -> (d0 : compressed), "
	" posWidth = 64,"
	" crdWidth = 32"
	"}>"
	)
	)
	tt = RankedTensorType.get((1024,), F32Type.get(), encoding=encoding)
	# CHECK: tensor<1024xf32, #sparse_tensor.encoding<{ map = (d0) -> (d0 : compressed), posWidth = 64, crdWidth = 32 }>>
	print(tt)
	# CHECK: #sparse_tensor.encoding<{ map = (d0) -> (d0 : compressed), posWidth = 64, crdWidth = 32 }>
	print(tt.encoding)
	assert tt.encoding == encoding