multi_arr< T, d, ALLOC, lgBC > Class Template Reference

#include <container_classes.h>

Collaboration diagram for multi_arr< T, d, ALLOC, lgBC >:
[legend]

Public Types

typedef random_access_iterator_tag iterator_category
typedef T value_type
typedef T & reference
typedef const T & const_reference
typedef T * pointer
typedef const T * const_pointer
typedef size_t size_type
typedef ptrdiff_t difference_type
typedef pntr< T, lgBC > iterator
typedef const_pntr< T, lgBC > const_iterator

Public Member Functions

 multi_arr ()
 multi_arr (const multi_geom< d, ALLOC > &g)
 multi_arr (size_type d1, size_type d2)
 multi_arr (size_type d1, size_type d2, size_type d3)
 multi_arr (size_type d1, size_type d2, size_type d3, size_type d4)
 multi_arr (size_type d1, size_type d2, size_type d3, size_type d4, size_type d5)
 multi_arr (size_type d1, size_type d2, size_type d3, size_type d4, size_type d5, size_type d6)
 multi_arr (const multi_arr &m)
 ~multi_arr ()
void clear ()
const multi_arroperator= (const multi_arr &m)
void zero ()
void invalidate ()
void state_do (FILE *io, bool lgGet)
void dump_state (FILE *out) const
void restore_state (FILE *in)
void reserve (size_type i1)
void reserve (size_type i1, size_type i2)
void reserve (size_type i1, size_type i2, size_type i3)
void reserve (size_type i1, size_type i2, size_type i3, size_type i4)
void reserve (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5)
void reserve (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5, size_type i6)
void alloc ()
void alloc (const multi_geom< d, ALLOC > &g)
void alloc (size_type d1, size_type d2)
void alloc (size_type d1, size_type d2, size_type d3)
void alloc (size_type d1, size_type d2, size_type d3, size_type d4)
void alloc (size_type d1, size_type d2, size_type d3, size_type d4, size_type d5)
void alloc (size_type d1, size_type d2, size_type d3, size_type d4, size_type d5, size_type d6)
void alloc (size_type index[])
const n_pointer< T, d, ALLOC,
lgBC > 
n_ptr ()
const const_n_pointer< T, d,
ALLOC, lgBC > 
n_ptr () const
const n_pointer< T, d-1, ALLOC,
lgBC > 
operator[] (size_type i)
const const_n_pointer< T, d-1,
ALLOC, lgBC > 
operator[] (size_type i) const
reference at (size_type i1, size_type i2)
const_reference at (size_type i1, size_type i2) const
reference at (size_type i1, size_type i2, size_type i3)
const_reference at (size_type i1, size_type i2, size_type i3) const
reference at (size_type i1, size_type i2, size_type i3, size_type i4)
const_reference at (size_type i1, size_type i2, size_type i3, size_type i4) const
reference at (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5)
const_reference at (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5) const
reference at (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5, size_type i6)
const_reference at (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5, size_type i6) const
iterator ptr (size_type i1, size_type i2)
const_iterator ptr (size_type i1, size_type i2) const
iterator ptr (size_type i1, size_type i2, size_type i3)
const_iterator ptr (size_type i1, size_type i2, size_type i3) const
iterator ptr (size_type i1, size_type i2, size_type i3, size_type i4)
const_iterator ptr (size_type i1, size_type i2, size_type i3, size_type i4) const
iterator ptr (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5)
const_iterator ptr (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5) const
iterator ptr (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5, size_type i6)
const_iterator ptr (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5, size_type i6) const
iterator begin (size_type i1)
const_iterator begin (size_type i1) const
iterator begin (size_type i1, size_type i2)
const_iterator begin (size_type i1, size_type i2) const
iterator begin (size_type i1, size_type i2, size_type i3)
const_iterator begin (size_type i1, size_type i2, size_type i3) const
iterator begin (size_type i1, size_type i2, size_type i3, size_type i4)
const_iterator begin (size_type i1, size_type i2, size_type i3, size_type i4) const
iterator begin (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5)
const_iterator begin (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5) const
iterator end (size_type i1)
const_iterator end (size_type i1) const
iterator end (size_type i1, size_type i2)
const_iterator end (size_type i1, size_type i2) const
iterator end (size_type i1, size_type i2, size_type i3)
const_iterator end (size_type i1, size_type i2, size_type i3) const
iterator end (size_type i1, size_type i2, size_type i3, size_type i4)
const_iterator end (size_type i1, size_type i2, size_type i3, size_type i4) const
iterator end (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5)
const_iterator end (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5) const
reference front (size_type i1)
const_reference front (size_type i1) const
reference front (size_type i1, size_type i2)
const_reference front (size_type i1, size_type i2) const
reference front (size_type i1, size_type i2, size_type i3)
const_reference front (size_type i1, size_type i2, size_type i3) const
reference front (size_type i1, size_type i2, size_type i3, size_type i4)
const_reference front (size_type i1, size_type i2, size_type i3, size_type i4) const
reference front (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5)
const_reference front (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5) const
reference back (size_type i1)
const_reference back (size_type i1) const
reference back (size_type i1, size_type i2)
const_reference back (size_type i1, size_type i2) const
reference back (size_type i1, size_type i2, size_type i3)
const_reference back (size_type i1, size_type i2, size_type i3) const
reference back (size_type i1, size_type i2, size_type i3, size_type i4)
const_reference back (size_type i1, size_type i2, size_type i3, size_type i4) const
reference back (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5)
const_reference back (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5) const
size_type size () const
size_type capacity () const
bool empty () const
pointer data ()
const_pointer data () const
const multi_geom< d, ALLOC > & clone () const
valarray< T > & vals ()
const valarray< T > & vals () const

Private Member Functions

void p_clear0 ()
void p_clear1 ()
void p_setupArray (size_type n1[], size_type n2[], const tree_vec *g, int l)
iterator p_iterator (size_type i1, size_type i2) const
iterator p_iterator_bc (size_type i1, size_type i2) const
iterator p_iterator (size_type i1, size_type i2, size_type i3) const
iterator p_iterator_bc (size_type i1, size_type i2, size_type i3) const
iterator p_iterator (size_type i1, size_type i2, size_type i3, size_type i4) const
iterator p_iterator_bc (size_type i1, size_type i2, size_type i3, size_type i4) const
iterator p_iterator (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5) const
iterator p_iterator_bc (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5) const
iterator p_iterator (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5, size_type i6) const
iterator p_iterator_bc (size_type i1, size_type i2, size_type i3, size_type i4, size_type i5, size_type i6) const

Private Attributes

multi_geom< d, ALLOC > p_g
T ** p_psl [d-1]
valarray< T > p_dsl
T * p_ptr
T ** p_ptr2
T *** p_ptr3
T **** p_ptr4
T ***** p_ptr5
T ****** p_ptr6

Static Private Attributes

static const size_type npos = static_cast<size_type>(-1)

Detailed Description

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
class multi_arr< T, d, ALLOC, lgBC >

multi_arr: generic class for allocating multidimensional arrays. A typical example of its use could be:

multi_arr<double,3> arr; // define a placeholder for the array the first argument is the type of data it holds the second argument is the number of dimensions (between 2 and 6)

arr.alloc(3,4,2); // this will allocate a 3x4x2 block of doubles memory will be allocated by new[] so will be initialized by the constructor, if present

multi_arr<double,3> arr(3,4,2); // shorthand for the above

The following is an alternative way of allocating the array. It is very similar to the pre-multi_arr way of allocating arrays. In ARPA_TYPE arrays this will help you save memory since only the data elements that are really needed will be allocated. In C_TYPE allocation, the smallest rectangular block will be allocated that can hold all the data. This will use more memory in return for somewhat improved CPU speed. Tests carried out in 2007 showed that the speed advantage of C_TYPE arrays was only 1 to 2 percent. Hence the memory savings were deemed more important and ARPA_TYPE arrays were made the default. However, C_TYPE arrays are guaranteed to be compatible with C code, so these should be used if they are meant to be passed on to C library routines. The example below allocates a triangular matrix.

arr.reserve(3); for( int i=0, i < 3; ++i ) { arr.reserve( i, i+1 ); // note that size does not need to be constant! for( int j=0, j < i+1; ++j ) arr.reserve( i, j, j+1 ); } arr.alloc();

these are plausible ways to use the multi_arr class:

arr.invalidate(); // this will set float or double arrays to all SNaN it will set any other type array to all 0xff bytes. arr.zero(); // this will set the array to all zero

arr[0][0][0] = 1.; arr[0][0][1] = 2.; double x = arr[0][0][0]*arr[0][0][1];

arr.state_do(io,lgRead); // this will write/read the array to/from a state file depending on the boolean flag lgRead; io should point to a file that is already opened for binary writing/reading the file will remain open after access. this allows you to use state_do() for several arrays in a row

multi_arr<double,2,C_TYPE> a(10,10); // allocate C_TYPE array C_library_routine( a.data(), ... ); // and call C library routine with it

arr.clear(); // this will deallocate the array the destructor will also automatically deallocate

the multi_arr class comes with iterators that allow you to speed up memory access even further. using iterators as shown below will generally speed up the code significantly since it avoids calculating the array index over and over inside the body of the loop. especially in tight loops over arrays with high dimension this can become a significant overhead! a const_iterator is also supplied for read-only access, but no reverse_iterators. you can define and initialize an iterator as follows

multi_arr<double,3>::iterator p = arr.begin(n,k);

the notation multi_arr<double,3>::iterator is rather cumbersome, so it may be convenient to define something like:

typedef multi_arr<double,3>::iterator md3i; typedef multi_arr<double,3>::const_iterator md3ci;

all the possible combinations for bool, long, realnum and double multi_arr's are predefined below.

this is a plausible way to use an iterator:

for( int k=0; i < 4; k++ ) { for( md3i p = arr.begin(n,k); p != arr.end(n,k); ++p ) p = 3.; }

however, since many compilers have a hard time figuring out that arr.end() has no side effects, it is better to do the following:

for( int k=0; i < 4; k++ ) { md3i end = arr.end(n,k); for( md3i p = arr.begin(n,k); p != end; ++p ) p = 3.; }

NB NB -- the memory layout may change in future editions, so user code should not make any assumptions about the layout. the only exception is that the user may safely assume that for the default memory layout the last index runs over contiguous memory. this allows for efficient iterator access. the example above was OK since arr[n][k][0] and arr[n][k][1] are guaranteed to be adjacent. however the next example is not OK:

!! WRONG !!, arr[n][k-1][1] and arr[n][k][0] may NOT be adjacent

md3i p = arr.begin(n,0); for( int k=0; i < 4; k++ ) for( int i=0; i < 2; i++ ) p++ = 3.; // ERROR, this may segfault. bounds checking will catch this (see below for enabling this)

you can also use iterators for array-like access via []:

double sum = 0.; for( int k=0; i < 4; k++ ) { md3ci p = arr.begin(n,k); for( int i=0; i < 2; i++ ) sum += p[i]; }

last, but not least, the multi_arr class supports array bounds checking, both for direct access through the indexing method, as well as iterator access. To enable bounds checking, simply define the preprocessor macro BOUNDS_CHECK during compilation. the resulting code will be MUCH slower, so this should only be used as a debugging tool.

Definition at line 925 of file container_classes.h.


Member Typedef Documentation

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
typedef const_pntr<T,lgBC> multi_arr< T, d, ALLOC, lgBC >::const_iterator

Definition at line 948 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
typedef const T* multi_arr< T, d, ALLOC, lgBC >::const_pointer

Definition at line 944 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
typedef const T& multi_arr< T, d, ALLOC, lgBC >::const_reference

Definition at line 942 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
typedef ptrdiff_t multi_arr< T, d, ALLOC, lgBC >::difference_type

Definition at line 946 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
typedef pntr<T,lgBC> multi_arr< T, d, ALLOC, lgBC >::iterator

Definition at line 947 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
typedef random_access_iterator_tag multi_arr< T, d, ALLOC, lgBC >::iterator_category

Definition at line 939 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
typedef T* multi_arr< T, d, ALLOC, lgBC >::pointer

Definition at line 943 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
typedef T& multi_arr< T, d, ALLOC, lgBC >::reference

Definition at line 941 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
typedef size_t multi_arr< T, d, ALLOC, lgBC >::size_type

Definition at line 945 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
typedef T multi_arr< T, d, ALLOC, lgBC >::value_type

Definition at line 940 of file container_classes.h.


Constructor & Destructor Documentation

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
multi_arr< T, d, ALLOC, lgBC >::multi_arr (  )  [inline]

Definition at line 973 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
multi_arr< T, d, ALLOC, lgBC >::multi_arr ( const multi_geom< d, ALLOC > &  g  )  [inline]

Definition at line 977 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
multi_arr< T, d, ALLOC, lgBC >::multi_arr ( size_type  d1,
size_type  d2 
) [inline]

Definition at line 982 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
multi_arr< T, d, ALLOC, lgBC >::multi_arr ( size_type  d1,
size_type  d2,
size_type  d3 
) [inline]

Definition at line 988 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
multi_arr< T, d, ALLOC, lgBC >::multi_arr ( size_type  d1,
size_type  d2,
size_type  d3,
size_type  d4 
) [inline]

Definition at line 994 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
multi_arr< T, d, ALLOC, lgBC >::multi_arr ( size_type  d1,
size_type  d2,
size_type  d3,
size_type  d4,
size_type  d5 
) [inline]

Definition at line 1000 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
multi_arr< T, d, ALLOC, lgBC >::multi_arr ( size_type  d1,
size_type  d2,
size_type  d3,
size_type  d4,
size_type  d5,
size_type  d6 
) [inline]

Definition at line 1006 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
multi_arr< T, d, ALLOC, lgBC >::multi_arr ( const multi_arr< T, d, ALLOC, lgBC > &  m  )  [inline]

Definition at line 1012 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
multi_arr< T, d, ALLOC, lgBC >::~multi_arr (  )  [inline]

Definition at line 1017 of file container_classes.h.


Member Function Documentation

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::alloc ( size_type  index[]  )  [inline]

Definition at line 1184 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::alloc ( size_type  d1,
size_type  d2,
size_type  d3,
size_type  d4,
size_type  d5,
size_type  d6 
) [inline]

Definition at line 1179 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::alloc ( size_type  d1,
size_type  d2,
size_type  d3,
size_type  d4,
size_type  d5 
) [inline]

Definition at line 1174 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::alloc ( size_type  d1,
size_type  d2,
size_type  d3,
size_type  d4 
) [inline]

Definition at line 1169 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::alloc ( size_type  d1,
size_type  d2,
size_type  d3 
) [inline]

Definition at line 1164 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::alloc ( size_type  d1,
size_type  d2 
) [inline]

Definition at line 1159 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::alloc ( const multi_geom< d, ALLOC > &  g  )  [inline]

Definition at line 1149 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::alloc (  )  [inline]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_reference multi_arr< T, d, ALLOC, lgBC >::at ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5,
size_type  i6 
) const [inline]

Definition at line 1450 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
reference multi_arr< T, d, ALLOC, lgBC >::at ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5,
size_type  i6 
) [inline]

Definition at line 1443 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_reference multi_arr< T, d, ALLOC, lgBC >::at ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5 
) const [inline]

Definition at line 1436 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
reference multi_arr< T, d, ALLOC, lgBC >::at ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5 
) [inline]

Definition at line 1429 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_reference multi_arr< T, d, ALLOC, lgBC >::at ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4 
) const [inline]

Definition at line 1422 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
reference multi_arr< T, d, ALLOC, lgBC >::at ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4 
) [inline]

Definition at line 1415 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_reference multi_arr< T, d, ALLOC, lgBC >::at ( size_type  i1,
size_type  i2,
size_type  i3 
) const [inline]

Definition at line 1408 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
reference multi_arr< T, d, ALLOC, lgBC >::at ( size_type  i1,
size_type  i2,
size_type  i3 
) [inline]

Definition at line 1401 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_reference multi_arr< T, d, ALLOC, lgBC >::at ( size_type  i1,
size_type  i2 
) const [inline]

Definition at line 1394 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
reference multi_arr< T, d, ALLOC, lgBC >::at ( size_type  i1,
size_type  i2 
) [inline]

Definition at line 1387 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_reference multi_arr< T, d, ALLOC, lgBC >::back ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5 
) const [inline]

Definition at line 1728 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
reference multi_arr< T, d, ALLOC, lgBC >::back ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5 
) [inline]

Definition at line 1724 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_reference multi_arr< T, d, ALLOC, lgBC >::back ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4 
) const [inline]

Definition at line 1720 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
reference multi_arr< T, d, ALLOC, lgBC >::back ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4 
) [inline]

Definition at line 1716 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_reference multi_arr< T, d, ALLOC, lgBC >::back ( size_type  i1,
size_type  i2,
size_type  i3 
) const [inline]

Definition at line 1712 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
reference multi_arr< T, d, ALLOC, lgBC >::back ( size_type  i1,
size_type  i2,
size_type  i3 
) [inline]

Definition at line 1708 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_reference multi_arr< T, d, ALLOC, lgBC >::back ( size_type  i1,
size_type  i2 
) const [inline]

Definition at line 1704 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
reference multi_arr< T, d, ALLOC, lgBC >::back ( size_type  i1,
size_type  i2 
) [inline]

Definition at line 1700 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_reference multi_arr< T, d, ALLOC, lgBC >::back ( size_type  i1  )  const [inline]

Definition at line 1696 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
reference multi_arr< T, d, ALLOC, lgBC >::back ( size_type  i1  )  [inline]

Definition at line 1692 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_iterator multi_arr< T, d, ALLOC, lgBC >::begin ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5 
) const [inline]

Definition at line 1535 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::begin ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5 
) [inline]

Definition at line 1531 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_iterator multi_arr< T, d, ALLOC, lgBC >::begin ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4 
) const [inline]

Definition at line 1527 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::begin ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4 
) [inline]

Definition at line 1523 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_iterator multi_arr< T, d, ALLOC, lgBC >::begin ( size_type  i1,
size_type  i2,
size_type  i3 
) const [inline]

Definition at line 1519 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::begin ( size_type  i1,
size_type  i2,
size_type  i3 
) [inline]

Definition at line 1515 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_iterator multi_arr< T, d, ALLOC, lgBC >::begin ( size_type  i1,
size_type  i2 
) const [inline]

Definition at line 1511 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::begin ( size_type  i1,
size_type  i2 
) [inline]

Definition at line 1507 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_iterator multi_arr< T, d, ALLOC, lgBC >::begin ( size_type  i1  )  const [inline]

Definition at line 1503 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::begin ( size_type  i1  )  [inline]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
size_type multi_arr< T, d, ALLOC, lgBC >::capacity (  )  const [inline]

Definition at line 1737 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::clear (  )  [inline]

Definition at line 1021 of file container_classes.h.

Referenced by multi_arr< realnum, 3 >::alloc(), and ParseCrashDo().

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const multi_geom<d,ALLOC>& multi_arr< T, d, ALLOC, lgBC >::clone (  )  const [inline]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_pointer multi_arr< T, d, ALLOC, lgBC >::data (  )  const [inline]

Definition at line 1753 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
pointer multi_arr< T, d, ALLOC, lgBC >::data (  )  [inline]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::dump_state ( FILE *  out  )  const [inline]

Definition at line 1054 of file container_classes.h.

Referenced by multi_arr< realnum, 3 >::state_do().

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
bool multi_arr< T, d, ALLOC, lgBC >::empty (  )  const [inline]

Definition at line 1741 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_iterator multi_arr< T, d, ALLOC, lgBC >::end ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5 
) const [inline]

Definition at line 1639 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::end ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5 
) [inline]

Definition at line 1628 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_iterator multi_arr< T, d, ALLOC, lgBC >::end ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4 
) const [inline]

Definition at line 1617 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::end ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4 
) [inline]

Definition at line 1606 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_iterator multi_arr< T, d, ALLOC, lgBC >::end ( size_type  i1,
size_type  i2,
size_type  i3 
) const [inline]

Definition at line 1595 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::end ( size_type  i1,
size_type  i2,
size_type  i3 
) [inline]

Definition at line 1584 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_iterator multi_arr< T, d, ALLOC, lgBC >::end ( size_type  i1,
size_type  i2 
) const [inline]

Definition at line 1573 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::end ( size_type  i1,
size_type  i2 
) [inline]

Definition at line 1562 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_iterator multi_arr< T, d, ALLOC, lgBC >::end ( size_type  i1  )  const [inline]

Definition at line 1551 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::end ( size_type  i1  )  [inline]

Definition at line 1540 of file container_classes.h.

Referenced by multi_arr< realnum, 3 >::back().

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_reference multi_arr< T, d, ALLOC, lgBC >::front ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5 
) const [inline]

Definition at line 1687 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
reference multi_arr< T, d, ALLOC, lgBC >::front ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5 
) [inline]

Definition at line 1683 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_reference multi_arr< T, d, ALLOC, lgBC >::front ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4 
) const [inline]

Definition at line 1679 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
reference multi_arr< T, d, ALLOC, lgBC >::front ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4 
) [inline]

Definition at line 1675 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_reference multi_arr< T, d, ALLOC, lgBC >::front ( size_type  i1,
size_type  i2,
size_type  i3 
) const [inline]

Definition at line 1671 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
reference multi_arr< T, d, ALLOC, lgBC >::front ( size_type  i1,
size_type  i2,
size_type  i3 
) [inline]

Definition at line 1667 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_reference multi_arr< T, d, ALLOC, lgBC >::front ( size_type  i1,
size_type  i2 
) const [inline]

Definition at line 1663 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
reference multi_arr< T, d, ALLOC, lgBC >::front ( size_type  i1,
size_type  i2 
) [inline]

Definition at line 1659 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_reference multi_arr< T, d, ALLOC, lgBC >::front ( size_type  i1  )  const [inline]

Definition at line 1655 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
reference multi_arr< T, d, ALLOC, lgBC >::front ( size_type  i1  )  [inline]

Definition at line 1651 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::invalidate (  )  [inline]

Definition at line 1041 of file container_classes.h.

Referenced by iso_allocate().

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const const_n_pointer<T,d,ALLOC,lgBC> multi_arr< T, d, ALLOC, lgBC >::n_ptr (  )  const [inline]

Definition at line 1374 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const n_pointer<T,d,ALLOC,lgBC> multi_arr< T, d, ALLOC, lgBC >::n_ptr (  )  [inline]

Definition at line 1370 of file container_classes.h.

Referenced by multi_arr< realnum, 3 >::operator[]().

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const multi_arr& multi_arr< T, d, ALLOC, lgBC >::operator= ( const multi_arr< T, d, ALLOC, lgBC > &  m  )  [inline]

Definition at line 1026 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const const_n_pointer<T,d-1,ALLOC,lgBC> multi_arr< T, d, ALLOC, lgBC >::operator[] ( size_type  i  )  const [inline]

Definition at line 1382 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const n_pointer<T,d-1,ALLOC,lgBC> multi_arr< T, d, ALLOC, lgBC >::operator[] ( size_type  i  )  [inline]

Definition at line 1378 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::p_clear0 (  )  [inline, private]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::p_clear1 (  )  [inline, private]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::p_iterator ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5,
size_type  i6 
) const [inline, private]

Definition at line 1338 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::p_iterator ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5 
) const [inline, private]

Definition at line 1308 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::p_iterator ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4 
) const [inline, private]

Definition at line 1278 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::p_iterator ( size_type  i1,
size_type  i2,
size_type  i3 
) const [inline, private]

Definition at line 1248 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::p_iterator ( size_type  i1,
size_type  i2 
) const [inline, private]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::p_iterator_bc ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5,
size_type  i6 
) const [inline, private]

Definition at line 1352 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::p_iterator_bc ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5 
) const [inline, private]

Definition at line 1322 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::p_iterator_bc ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4 
) const [inline, private]

Definition at line 1292 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::p_iterator_bc ( size_type  i1,
size_type  i2,
size_type  i3 
) const [inline, private]

Definition at line 1262 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::p_iterator_bc ( size_type  i1,
size_type  i2 
) const [inline, private]

Definition at line 1232 of file container_classes.h.

Referenced by multi_arr< realnum, 3 >::p_iterator().

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::p_setupArray ( size_type  n1[],
size_type  n2[],
const tree_vec g,
int  l 
) [inline, private]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_iterator multi_arr< T, d, ALLOC, lgBC >::ptr ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5,
size_type  i6 
) const [inline]

Definition at line 1494 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::ptr ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5,
size_type  i6 
) [inline]

Definition at line 1490 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_iterator multi_arr< T, d, ALLOC, lgBC >::ptr ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5 
) const [inline]

Definition at line 1486 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::ptr ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5 
) [inline]

Definition at line 1482 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_iterator multi_arr< T, d, ALLOC, lgBC >::ptr ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4 
) const [inline]

Definition at line 1478 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::ptr ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4 
) [inline]

Definition at line 1474 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_iterator multi_arr< T, d, ALLOC, lgBC >::ptr ( size_type  i1,
size_type  i2,
size_type  i3 
) const [inline]

Definition at line 1470 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::ptr ( size_type  i1,
size_type  i2,
size_type  i3 
) [inline]

Definition at line 1466 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const_iterator multi_arr< T, d, ALLOC, lgBC >::ptr ( size_type  i1,
size_type  i2 
) const [inline]

Definition at line 1462 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
iterator multi_arr< T, d, ALLOC, lgBC >::ptr ( size_type  i1,
size_type  i2 
) [inline]

Definition at line 1458 of file container_classes.h.

Referenced by H2_LevelPops(), ion_recom_calculate(), and ParseCrashDo().

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::reserve ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5,
size_type  i6 
) [inline]

Definition at line 1094 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::reserve ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4,
size_type  i5 
) [inline]

Definition at line 1088 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::reserve ( size_type  i1,
size_type  i2,
size_type  i3,
size_type  i4 
) [inline]

Definition at line 1082 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::reserve ( size_type  i1,
size_type  i2,
size_type  i3 
) [inline]

Definition at line 1076 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::reserve ( size_type  i1,
size_type  i2 
) [inline]

Definition at line 1070 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::reserve ( size_type  i1  )  [inline]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::restore_state ( FILE *  in  )  [inline]

Definition at line 1059 of file container_classes.h.

Referenced by multi_arr< realnum, 3 >::state_do().

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
size_type multi_arr< T, d, ALLOC, lgBC >::size (  )  const [inline]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::state_do ( FILE *  io,
bool  lgGet 
) [inline]

Definition at line 1046 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const valarray<T>& multi_arr< T, d, ALLOC, lgBC >::vals (  )  const [inline]

Definition at line 1770 of file container_classes.h.

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
valarray<T>& multi_arr< T, d, ALLOC, lgBC >::vals (  )  [inline]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
void multi_arr< T, d, ALLOC, lgBC >::zero (  )  [inline]

Field Documentation

template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
const size_type multi_arr< T, d, ALLOC, lgBC >::npos = static_cast<size_type>(-1) [static, private]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
valarray<T> multi_arr< T, d, ALLOC, lgBC >::p_dsl [private]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
multi_geom<d,ALLOC> multi_arr< T, d, ALLOC, lgBC >::p_g [private]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
T** multi_arr< T, d, ALLOC, lgBC >::p_psl[d-1] [private]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
T* multi_arr< T, d, ALLOC, lgBC >::p_ptr [private]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
T** multi_arr< T, d, ALLOC, lgBC >::p_ptr2 [private]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
T*** multi_arr< T, d, ALLOC, lgBC >::p_ptr3 [private]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
T**** multi_arr< T, d, ALLOC, lgBC >::p_ptr4 [private]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
T***** multi_arr< T, d, ALLOC, lgBC >::p_ptr5 [private]
template<class T, int d, mem_layout ALLOC = MEM_LAYOUT_VAL, bool lgBC = lgBOUNDSCHECKVAL>
T****** multi_arr< T, d, ALLOC, lgBC >::p_ptr6 [private]

The documentation for this class was generated from the following file:
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