/usr/include/sidl_float_IOR.h is in libsidl-dev 1.4.0.dfsg-8build3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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* File: sidl_float_IOR.h
* Copyright: (c) 2001-2002 Lawrence Livermore National Security, LLC
* Revision: @(#) $Revision: 6171 $
* Date: $Date: 2007-10-08 16:39:28 -0700 (Mon, 08 Oct 2007) $
* Description: float array declarations and definitions
* AUTOMATICALLY GENERATED BY createarrays.py
*
*/
#ifndef included_sidl_float_IOR_h
#define included_sidl_float_IOR_h
#ifndef included_sidlType_h
#include "sidlType.h"
#endif
#ifndef included_sidlArray_h
#include "sidlArray.h"
#endif
/**
* The data structure for multi-dimensional arrays for sidl float.
* The client may access this with the functions below or using
* the macros in the header file sidlArray.h.
*/
struct sidl_float__array {
struct sidl__array d_metadata;
float *d_firstElement;
};
#ifdef __cplusplus
extern "C" { /*}*/
#endif
/**
* Create a dense float array of the given dimension with specified
* index bounds in column-major order. This array owns and manages its data.
* This function does not initialize the contents of the array.
*/
struct sidl_float__array *
sidl_float__array_createCol(int32_t dimen,
const int32_t lower[],
const int32_t upper[]);
/**
* Create a dense float array of the given dimension with specified
* index bounds in row-major order. This array owns and manages its data.
* This function does not initialize the contents of the array.
*/
struct sidl_float__array *
sidl_float__array_createRow(int32_t dimen,
const int32_t lower[],
const int32_t upper[]);
/**
* Initialize the array meta-data for this sidl array from the passed
* in pointers. This is a little wierd, but all these pointers must
* be allocated, but only upper and c_array actually need to be
* initialized. (We use upper, dim, andc_array to figure out the
* correct values for the rest of the data.)
* This function does not initialize the contents of the array.
*/
void
sidl_float__array_init(const float* c_array,
struct sidl_float__array* sidl_array, int32_t dim,
int32_t lower[], int32_t upper[], int32_t stride[]);
/**
* Create a dense one-dimensional vector of floats with a lower
* index of 0 and an upper index of len-1. This array owns and manages
* its data.
* This function does not initialize the contents of the array.
*/
struct sidl_float__array *
sidl_float__array_create1d(int32_t len);
/**
* Create a dense one-dimensional vector of floats with a lower
* index of 0 and an upper index of len-1. The initial data for this
* new array is copied from data. For strings, this will make a newly
* malloc'ed copy of each non-NULL string. For interfaces/objects, this
* will increment the reference count of each non-NULL object/interface
* reference.
*
* This array owns and manages its data.
*/
struct sidl_float__array *
sidl_float__array_create1dInit(int32_t len,
const float* data);
/**
* Create a dense two-dimensional array of floats with a lower
* indices of (0,0) and an upper indices of (m-1,n-1). The array is
* stored in column-major order, and it owns and manages its data.
* This function does not initialize the contents of the array.
*/
struct sidl_float__array *
sidl_float__array_create2dCol(int32_t m, int32_t n);
/**
* Create a dense two-dimensional array of floats with a lower
* indices of (0,0) and an upper indices of (m-1,n-1). The array is
* stored in row-major order, and it owns and manages its data.
* This function does not initialize the contents of the array.
*/
struct sidl_float__array *
sidl_float__array_create2dRow(int32_t m, int32_t n);
/**
* Create a sub-array of another array. This resulting array shares
* data with the original array. The new array can be of the same
* dimension or potentially less assuming the original array has
* dimension greater than 1. If you are removing dimension, indicate the
* dimensions to remove by setting numElem[i] to zero for any dimension i
* that should go away in the new array. The meaning of each argument
* is covered below.
*
* src the array to be created will be a subset of this array. If
* this argument is NULL, NULL will be returned. The array
* returned borrows data from src, so modifying src or the
* returned array will modify both arrays.
*
* dimen this argument must be greater than zero and less than or
* equal to the dimension of src. An illegal value will cause
* a NULL return value.
*
* numElem this specifies how many elements from src should be taken in
* each dimension. A zero entry indicates that the dimension
* should not appear in the new array. This argument should be
* an array with an entry for each dimension of src. Passing
* NULL here will cause NULL to be returned. If
* srcStart[i] + numElem[i]*srcStride[i] is greater than
* upper[i] for src or if srcStart[i] + numElem[i]*srcStride[i]
* is less than lower[i] for src, NULL will be returned.
*
* srcStart this array holds the coordinates of the first element of the
* new array. If this argument is NULL, the first element of
* src will be the first element of the new array. If non-NULL,
* this argument should be an array with an entry for each
* dimension of src. If srcStart[i] is less than lower[i] for
* the array src, NULL will be returned.
*
* srcStride this array lets you specify the stride between elements in
* each dimension of src. This stride is relative to the
* coordinate system of the src array. If this argument is
* NULL, the stride is taken to be one in each dimension.
* If non-NULL, this argument should be an array with an entry
* for each dimension of src.
*
* newLower this argument is like lower in a create method. It sets the
* coordinates for the first element in the new array. If this
* argument is NULL, the values indicated by srcStart will be
* used. If non-NULL, this should be an array with dimen
* elements.
*/
struct sidl_float__array *
sidl_float__array_slice(struct sidl_float__array *src,
int32_t dimen,
const int32_t numElem[],
const int32_t *srcStart,
const int32_t *srcStride,
const int32_t *newStart);
/**
* Create an array that uses data memory from another source. This initial
* contents are determined by the data being borrowed.
*/
struct sidl_float__array *
sidl_float__array_borrow(float* firstElement,
int32_t dimen,
const int32_t lower[],
const int32_t upper[],
const int32_t stride[]);
/**
* If array is borrowed, allocate a new self-sufficient array and copy
* the borrowed array into the new array; otherwise, increment the
* reference count and return the array passed in. Use this whenever
* you want to make a copy of a method argument because arrays passed
* into methods aren't guaranteed to exist after the method call.
*/
struct sidl_float__array *
sidl_float__array_smartCopy(struct sidl_float__array *array);
/**
* Increment the arrays internal reference count by one. To make a
* persistent copy (i.e. that lives longer than the current method
* call) use smartCopy.
*/
void
sidl_float__array_addRef(struct sidl_float__array* array);
/**
* Decrement the arrays internal reference count by one. If the reference
* count goes to zero, destroy the array.
* Return true iff the array is destroyed
*/
void
sidl_float__array_deleteRef(struct sidl_float__array* array);
/**
* Attempt to cast a generic array reference to an float
* array. A non-NULL return value indicates that the cast was
* successful, and the returned pointer is a valid float
* array. A NULL return value indicates that the cast failed.
* This function never alters the reference count of array.
*
*/
struct sidl_float__array*
sidl_float__array_cast(struct sidl__array* array);
/**
* Retrieve element i1 of a one-dimensional array.
*/
float
sidl_float__array_get1(const struct sidl_float__array* array,
const int32_t i1);
/**
* Retrieve element (i1,i2) of a two-dimensional array.
*/
float
sidl_float__array_get2(const struct sidl_float__array* array,
const int32_t i1,
const int32_t i2);
/**
* Retrieve element (i1,i2,i3) of a three-dimensional array.
*/
float
sidl_float__array_get3(const struct sidl_float__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3);
/**
* Retrieve element (i1,i2,i3,i4) of a four-dimensional array.
*/
float
sidl_float__array_get4(const struct sidl_float__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const int32_t i4);
/**
* Retrieve element (i1,i2,i3,i4,i5) of a five-dimensional array.
*/
float
sidl_float__array_get5(const struct sidl_float__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const int32_t i4,
const int32_t i5);
/**
* Retrieve element (i1,i2,i3,i4,i5,i6) of a six-dimensional array.
*/
float
sidl_float__array_get6(const struct sidl_float__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const int32_t i4,
const int32_t i5,
const int32_t i6);
/**
* Retrieve element (i1,i2,i3,i4,i5,i6,i7) of a seven-dimensional array.
*/
float
sidl_float__array_get7(const struct sidl_float__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const int32_t i4,
const int32_t i5,
const int32_t i6,
const int32_t i7);
/**
* Retrieve element indices of an n-dimensional array. Indices is assumed
* to have the right number of elements for the dimension of array.
*/
float
sidl_float__array_get(const struct sidl_float__array* array,
const int32_t indices[]);
/**
* Set element i1 of a one-dimensional array to value.
*/
void
sidl_float__array_set1(struct sidl_float__array* array,
const int32_t i1,
const float value);
/**
* Set element (i1,i2) of a two-dimensional array to value.
*/
void
sidl_float__array_set2(struct sidl_float__array* array,
const int32_t i1,
const int32_t i2,
const float value);
/**
* Set element (i1,i2,i3) of a three-dimensional array to value.
*/
void
sidl_float__array_set3(struct sidl_float__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const float value);
/**
* Set element (i1,i2,i3,i4) of a four-dimensional array to value.
*/
void
sidl_float__array_set4(struct sidl_float__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const int32_t i4,
const float value);
/**
* Set element (i1,i2,i3,i4,i5) of a five-dimensional array to value.
*/
void
sidl_float__array_set5(struct sidl_float__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const int32_t i4,
const int32_t i5,
const float value);
/**
* Set element (i1,i2,i3,i4,i5,i6) of a six-dimensional array to value.
*/
void
sidl_float__array_set6(struct sidl_float__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const int32_t i4,
const int32_t i5,
const int32_t i6,
const float value);
/**
* Set element (i1,i2,i3,i4,i5,i6,i7) of a seven-dimensional array to value.
*/
void
sidl_float__array_set7(struct sidl_float__array* array,
const int32_t i1,
const int32_t i2,
const int32_t i3,
const int32_t i4,
const int32_t i5,
const int32_t i6,
const int32_t i7,
const float value);
/**
* Set element indices of an n-dimensional array to value. indices is assumed
* to have the right number of elements for the dimension of array.
*/
void
sidl_float__array_set(struct sidl_float__array* array,
const int32_t indices[],
const float value);
/**
* Return the dimension of array. If the array pointer is NULL,
* zero is returned.
*/
int32_t
sidl_float__array_dimen(const struct sidl_float__array* array);
/**
* Return the lower index bound on dimension ind. If ind is not a valid
* dimension, zero is returned. The valid range for ind is 0 to dimen-1.
*/
int32_t
sidl_float__array_lower(const struct sidl_float__array* array,
const int32_t ind);
/**
* Return the upper index bound on dimension ind. If ind is not a valid
* dimension, negative one is returned. The valid range for ind is 0 to
* dimen-1.
*/
int32_t
sidl_float__array_upper(const struct sidl_float__array* array,
const int32_t ind);
/**
* Return the number of element in dimension ind. If ind is not a valid
* dimension, negative one is returned. The valid range for ind is 0 to
* dimen-1.
*/
int32_t
sidl_float__array_length(const struct sidl_float__array* array,
const int32_t ind);
/**
* Return the stride of dimension ind. If ind is not a valid
* dimension, zero is returned. The valid range for ind is 0 to
* dimen-1.
*/
int32_t
sidl_float__array_stride(const struct sidl_float__array* array,
const int32_t ind);
/**
* Return a true value iff the array is a contiguous column-major ordered
* array. A NULL array argument causes 0 to be returned.
*/
sidl_bool
sidl_float__array_isColumnOrder(const struct sidl_float__array* array);
/**
* Return a true value iff the array is a contiguous row-major ordered
* array. A NULL array argument causes 0 to be returned.
*/
sidl_bool
sidl_float__array_isRowOrder(const struct sidl_float__array* array);
/**
* Copy the contents of one array (src) to a second array (dest). For
* the copy to take place, both arrays must exist and be of the same
* dimension. This method will not modify dest's size, index bounds,
* or stride; only the array element values of dest may be changed by
* this function. No part of src is ever changed by copy.
*
* On exit, dest[i][j][k]... = src[i][j][k]... for all indices i,j,k...
* that are in both arrays. If dest and src have no indices in common,
* nothing is copied. For example, if src is a 1-d array with elements
* 0-5 and dest is a 1-d array with elements 2-3, this function will
* make the following assignments:
* dest[2] = src[2],
* dest[3] = src[3].
* The function copied the elements that both arrays have in common.
* If dest had elements 4-10, this function will make the following
* assignments:
* dest[4] = src[4],
* dest[5] = src[5].
*
*/
void
sidl_float__array_copy(const struct sidl_float__array* src,
struct sidl_float__array* dest);
/**
* If necessary, convert a general matrix into a matrix with the required
* properties. This checks the dimension and ordering of the matrix.
* If both these match, it simply returns a new reference to the existing
* matrix. If the dimension of the incoming array doesn't match, it
* returns NULL. If the ordering of the incoming array doesn't match the
* specification, a new array is created with the desired ordering and
* the content of the incoming array is copied to the new array.
*
* The ordering parameter should be one of the constants defined in
* enum sidl_array_ordering (e.g. sidl_general_order,
* sidl_column_major_order, or sidl_row_major_order). If you
* specify sidl_general_order, this routine will only check the
* dimension because any matrix is sidl_general_order.
*
* The caller assumes ownership of the returned reference unless it's NULL.
*
*/
struct sidl_float__array*
sidl_float__array_ensure(struct sidl_float__array* src,
int32_t dimen,
int ordering);
/**
* Return a pointer to the first element of the data space of the array.
* Using the lower and stride information, you can access elements of the
* array without using a function call. NULL is returned iff array is NULL.
*
* Direct access should only be used when efficiency requires it.
*/
float *
sidl_float__array_first(const struct sidl_float__array* array);
#ifdef __cplusplus
}
#endif
#endif /* included_sidl_float_IOR_h */
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