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def create_array():
# The array will be 4x4 with dimensions "rows" and "cols", with domain [1,4].
dom = tiledb.Domain(tiledb.Dim(name="rows", domain=(1, 4), tile=2, dtype=np.int32),
tiledb.Dim(name="cols", domain=(1, 4), tile=2, dtype=np.int32))
# The array will be dense with a single attribute "a" so each (i,j) cell can store an integer.
schema = tiledb.ArraySchema(domain=dom, sparse=False,
attrs=[tiledb.Attr(name="a", dtype=np.int32)])
# Create the (empty) array on disk.
tiledb.DenseArray.create(array_name, schema)
def create_array():
# The array will be 4x4 with dimensions "rows" and "cols", with domain [1,4] and space tiles 2x2.
dom = tiledb.Domain(tiledb.Dim(name="rows", domain=(1, 4), tile=2, dtype=np.int32),
tiledb.Dim(name="cols", domain=(1, 4), tile=2, dtype=np.int32))
# The array will be dense with a single attribute "a" so each (i,j) cell can store an integer.
schema = tiledb.ArraySchema(domain=dom, sparse=False,
attrs=[tiledb.Attr(name="a", dtype=np.int32)])
# Create the (empty) array on disk.
tiledb.DenseArray.create(array_name, schema)
def create_array():
# The array will be 4x4 with dimensions "rows" and "cols", with domain [1,4].
dom = tiledb.Domain(tiledb.Dim(name="rows", domain=(1, 4), tile=4, dtype=np.int32),
tiledb.Dim(name="cols", domain=(1, 4), tile=4, dtype=np.int32))
# The array will be dense with a single attribute "a" so each (i,j) cell can store an integer.
schema = tiledb.ArraySchema(domain=dom, sparse=False,
attrs=[tiledb.Attr(name="a", dtype=np.int32)])
# Create the (empty) array on disk.
tiledb.DenseArray.create(array_name, schema)
def create_array():
# The array will be 4x4 with dimensions "rows" and "cols", with domain [1,4].
dom = tiledb.Domain(tiledb.Dim(name="rows", domain=(1, 4), tile=2, dtype=np.int32),
tiledb.Dim(name="cols", domain=(1, 4), tile=2, dtype=np.int32))
# The array will be dense with a single attribute "a" so each (i,j) cell can store an integer.
schema = tiledb.ArraySchema(domain=dom, sparse=False,
attrs=[tiledb.Attr(name="a", dtype=np.int32)])
# Create the (empty) array on disk.
tiledb.DenseArray.create(array_name, schema)
def create_array(row_tile_extent, col_tile_extent):
dom = tiledb.Domain(tiledb.Dim(name="rows", domain=(1, 12000), tile=row_tile_extent, dtype=np.int32),
tiledb.Dim(name="cols", domain=(1, 12000), tile=col_tile_extent, dtype=np.int32))
schema = tiledb.ArraySchema(domain=dom, sparse=False,
attrs=[tiledb.Attr(name="a", dtype=np.int32)])
# Create the (empty) array on disk.
tiledb.DenseArray.create(array_name, schema)
def create_array():
# The array will be 4x4 with dimensions "rows" and "cols", with domain [1,4].
dom = tiledb.Domain(tiledb.Dim(name="rows", domain=(1, 4), tile=2, dtype=np.int32),
tiledb.Dim(name="cols", domain=(1, 4), tile=2, dtype=np.int32))
# The array will be sparse with a single attribute "a" so each (i,j) cell can store an integer.
schema = tiledb.ArraySchema(domain=dom, sparse=True,
attrs=[tiledb.Attr(name="a", dtype=np.int32)])
# Create the (empty) array on disk.
tiledb.SparseArray.create(array_name, schema)
def create_array(array_name, sparse):
if tiledb.object_type(array_name) == "array":
return
dom = tiledb.Domain(tiledb.Dim(name="rows", domain=(1, 4), tile=4, dtype=np.int32),
tiledb.Dim(name="cols", domain=(1, 4), tile=4, dtype=np.int32))
schema = tiledb.ArraySchema(domain=dom, sparse=sparse,
attrs=[tiledb.Attr(name="a", dtype=np.int32)])
if sparse:
tiledb.SparseArray.create(array_name, schema)
else:
tiledb.DenseArray.create(array_name, schema)
else:
dim_min = np.min(col_values)
dim_max = np.max(col_values)
if not dim_info.dtype in (np.bytes_, np.unicode):
if np.issubdtype(dtype, np.integer):
dim_range = np.uint64(np.abs(np.uint64(dim_max) - np.uint64(dim_min)))
if dim_range < tile:
tile = dim_range
elif np.issubdtype(dtype, np.float64):
dim_range = dim_max - dim_min
if dim_range < tile:
tile = np.ceil(dim_range)
dim = tiledb.Dim(
name = name,
domain = (dim_min, dim_max),
dtype = dim_info.dtype,
tile = tile
)
return dim
def create_array():
# The array will be 4x4 with dimensions "rows" and "cols", with domain [1,4].
dom = tiledb.Domain(tiledb.Dim(name="rows", domain=(1, 4), tile=4, dtype=np.int32),
tiledb.Dim(name="cols", domain=(1, 4), tile=4, dtype=np.int32))
# The array will be sparse with a single attribute "a" so each (i,j) cell can store an integer.
schema = tiledb.ArraySchema(domain=dom, sparse=True,
attrs=[tiledb.Attr(name="a", dtype=np.int32)])
# Create the (empty) array on disk.
tiledb.SparseArray.create(array_name, schema)
def main():
ctx = tiledb.Ctx()
# Create dimensions
d1 = tiledb.Dim(ctx, "d1", domain=(1, 4), tile=2, dtype="uint64")
d2 = tiledb.Dim(ctx, "d2", domain=(1, 4), tile=2, dtype="uint64")
# Create domain
domain = tiledb.Domain(ctx, d1, d2)
# Create attributes
a1 = tiledb.Attr(ctx, "a1", compressor=('blosc-lz', -1), dtype="int32")
a2 = tiledb.Attr(ctx, "a2", compressor=("gzip", -1), dtype="S10")
a3 = tiledb.Attr(ctx, "a3", compressor=('zstd', -1), dtype='float32,float32')
# Create sparse array
tiledb.SparseArray(ctx, "my_sparse_array",
domain=domain,
attrs=(a1, a2, a3),
capacity=2,
cell_order='row-major',
tile_order='row-major')