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h5s_dataspace.go
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/
h5s_dataspace.go
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// Copyright ©2017 The Gonum Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package hdf5
// #include "hdf5.h"
// #include <stdlib.h>
// #include <string.h>
import "C"
import (
"errors"
"fmt"
"unsafe"
)
type Dataspace struct {
Identifier
}
type SpaceClass C.H5S_class_t
const (
S_NO_CLASS SpaceClass = -1 // error
S_SCALAR SpaceClass = 0 // scalar variable
S_SIMPLE SpaceClass = 1 // simple data space
S_NULL SpaceClass = 2 // null data space
)
func newDataspace(id C.hid_t) *Dataspace {
return &Dataspace{Identifier{id}}
}
// CreateDataspace creates a new dataspace of a specified type. The returned
// dataspace must be closed by the user when it is no longer needed.
func CreateDataspace(class SpaceClass) (*Dataspace, error) {
hid := C.H5Screate(C.H5S_class_t(class))
if err := checkID(hid); err != nil {
return nil, err
}
ds := newDataspace(hid)
return ds, nil
}
// Copy creates an exact copy of a dataspace. The returned dataspace must
// be closed by the user when it is no longer needed.
func (s *Dataspace) Copy() (*Dataspace, error) {
hid := C.H5Scopy(s.id)
if err := checkID(hid); err != nil {
return nil, err
}
return newDataspace(hid), nil
}
// Close releases and terminates access to a dataspace.
func (s *Dataspace) Close() error {
return s.closeWith(h5sclose)
}
func h5sclose(id C.hid_t) C.herr_t {
return C.H5Sclose(id)
}
// CreateSimpleDataspace creates a new simple dataspace and opens it for access.
// The returned dataspace must be closed by the user when it is no longer needed.
func CreateSimpleDataspace(dims, maxDims []uint) (*Dataspace, error) {
var c_dims, c_maxdims *C.hsize_t
rank := C.int(0)
if dims != nil {
rank = C.int(len(dims))
c_dims = (*C.hsize_t)(unsafe.Pointer(&dims[0]))
}
if maxDims != nil {
rank = C.int(len(maxDims))
c_maxdims = (*C.hsize_t)(unsafe.Pointer(&maxDims[0]))
}
if len(dims) != len(maxDims) && (dims != nil && maxDims != nil) {
return nil, errors.New("lengths of dims and maxDims do not match")
}
hid := C.H5Screate_simple(rank, c_dims, c_maxdims)
if hid < 0 {
return nil, fmt.Errorf("failed to create dataspace")
}
return newDataspace(hid), nil
}
// IsSimple returns whether a dataspace is a simple dataspace.
func (s *Dataspace) IsSimple() bool {
return int(C.H5Sis_simple(s.id)) > 0
}
// SetOffset sets the offset of a simple dataspace.
func (s *Dataspace) SetOffset(offset []uint) error {
rank := len(offset)
if rank == 0 {
err := C.H5Soffset_simple(s.id, nil)
return h5err(err)
}
if rank != s.SimpleExtentNDims() {
err := errors.New("size of offset does not match extent")
return err
}
c_offset := (*C.hssize_t)(unsafe.Pointer(&offset[0]))
err := C.H5Soffset_simple(s.id, c_offset)
return h5err(err)
}
// SelectHyperslab creates a subset of the data space.
func (s *Dataspace) SelectHyperslab(offset, stride, count, block []uint) error {
rank := len(offset)
if rank == 0 {
err := C.H5Soffset_simple(s.id, nil)
return h5err(err)
}
if rank != s.SimpleExtentNDims() {
err := errors.New("size of offset does not match extent")
return err
}
c_offset := (*C.hsize_t)(unsafe.Pointer(&offset[0]))
c_count := (*C.hsize_t)(unsafe.Pointer(&count[0]))
var c_stride, c_block *C.hsize_t
if stride != nil {
c_stride = (*C.hsize_t)(unsafe.Pointer(&stride[0]))
}
if block != nil {
c_block = (*C.hsize_t)(unsafe.Pointer(&block[0]))
}
err := C.H5Sselect_hyperslab(s.id, C.H5S_SELECT_SET, c_offset, c_stride, c_count, c_block)
return h5err(err)
}
// SimpleExtentDims returns dataspace dimension size and maximum size.
func (s *Dataspace) SimpleExtentDims() (dims, maxdims []uint, err error) {
rank := s.SimpleExtentNDims()
dims = make([]uint, rank)
maxdims = make([]uint, rank)
c_dims := (*C.hsize_t)(unsafe.Pointer(&dims[0]))
c_maxdims := (*C.hsize_t)(unsafe.Pointer(&maxdims[0]))
rc := C.H5Sget_simple_extent_dims(s.id, c_dims, c_maxdims)
err = h5err(C.herr_t(rc))
return
}
// SimpleExtentNDims returns the dimensionality of a dataspace.
func (s *Dataspace) SimpleExtentNDims() int {
return int(C.H5Sget_simple_extent_ndims(s.id))
}
// SimpleExtentNPoints returns the number of elements in a dataspace.
func (s *Dataspace) SimpleExtentNPoints() int {
return int(C.H5Sget_simple_extent_npoints(s.id))
}
// SimpleExtentType returns the current class of a dataspace.
func (s *Dataspace) SimpleExtentType() SpaceClass {
return SpaceClass(C.H5Sget_simple_extent_type(s.id))
}