#if !defined(_arraybase_h) #define _arraybase_h 1 #if defined(SIZEOF_VOID_P) #if SIZEOF_VOID_P == 8 #define LP64 1 #else #define LP64 0 #endif #else #define LP64 0 #endif #if defined(_MSC_VER) #define HAS_UINT64 _MSC_VER >= 1300 #else #define HAS_UINT64 1 #endif #define REFCOUNT(obj) (((PyObject *)(obj))->ob_refcnt) #define MAX_ELSIZE 16 #define MAXARGS 1024 #define MAXDIM 40 #define SZ_BUF 79 typedef signed char Bool; typedef signed char Int8; typedef unsigned char UInt8; typedef short int Int16; typedef unsigned short int UInt16; typedef int Int32; #ifndef __MACTYPES__ typedef unsigned int UInt32; #endif typedef float Float32; typedef double Float64; /* From Numeric lapack_litemodule, from f2c */ typedef struct { Float32 r, i; } Complex32; typedef struct { Float64 r, i; } Complex64; #if LP64 typedef long int Int64; typedef unsigned long int UInt64; typedef Int64 Long; #else /* 32-bit platforms */ typedef Int32 Long; #if defined(_MSC_VER) typedef __int64 Int64; typedef unsigned __int64 UInt64; #else typedef long long Int64; typedef unsigned long long UInt64; #endif #endif /* XXXXXX See also numerictypes.py for MaybeLong */ #if 0 typedef long maybelong; #define ML_DEC "%ld" #define ML_HEX "%016lx" #else typedef int maybelong; #define ML_DEC "%d" #define ML_HEX "%08x" #endif #define MAX_ALIGN sizeof(double) typedef enum { tAny, tBool, tInt8, tUInt8, tInt16, tUInt16, tInt32, tUInt32, tInt64, tUInt64, tFloat32, tFloat64, tComplex32, tComplex64, tObject, /* placeholder... does nothing */ tMaxType, tDefault = tFloat64, #if LP64 tLong = tInt64 #else tLong = tInt32 #endif } NumarrayType; #define nNumarrayType (tObject+1) enum PyArray_TYPES { #if defined(USE_SIGNED_CHAR) PyArray_CHAR=tInt8, #else PyArray_CHAR=tUInt8, #endif PyArray_UBYTE=tUInt8, PyArray_SBYTE=tInt8, PyArray_SHORT=tInt16, PyArray_USHORT=tUInt16, PyArray_INT=tInt32, PyArray_UINT=tUInt32, PyArray_LONG=tLong, PyArray_FLOAT=tFloat32, PyArray_DOUBLE=tFloat64, PyArray_CFLOAT=tComplex32, PyArray_CDOUBLE=tComplex64, PyArray_NOTYPE=tAny, PyArray_OBJECT=tObject, PyArray_NTYPES = tMaxType, }; typedef enum { NUM_LITTLE_ENDIAN=0, NUM_BIG_ENDIAN = 1 } NumarrayByteOrder; /* Array flags */ #define CONTIGUOUS 1 /* shape/strides in C order */ #define OWN_DIMENSIONS 2 /* always false */ #define OWN_STRIDES 4 /* always false */ #define OWN_DATA 8 /* always false */ #define SAVESPACE 0x10 #define ALIGNED 0x100 /* roughly: data % itemsize == 0 */ #define NOTSWAPPED 0x200 /* byteorder == sys.byteorder */ #define WRITABLE 0x400 /* data buffer is writable */ #define CHECKOVERFLOW 0x800 /* Check overflows on value assignments */ #define UPDATEDICT 0x1000 /* New views update dict from original */ #define FORTRAN_CONTIGUOUS 0x2000 /* shape/strides in fortran order */ #define IS_CARRAY (CONTIGUOUS | ALIGNED | NOTSWAPPED) /* type bit */ #define SAVESPACEBIT 0 /* From Numeric: 128, but not needed in numarray */ /* ========================================================================= */ /* PyArrayObject is source compatible with Numeric, but includes additional fields required to implement numarray. This PyArrayObject also allocates dimensions and strides as part of the struct, rather than on the heap. Array type descriptors, "descr", are statically allocated. */ typedef struct s_PyArrayObject PyArrayObject; typedef struct s_Array_Descr PyArray_Descr; struct s_PyArrayObject { PyObject_HEAD char *data; int nd; maybelong *dimensions; maybelong *strides; PyObject *base; /* used in numarray as back-reference to __array_struct__ object */ PyArray_Descr *descr; int flags; /* numarray extras */ maybelong _dimensions[MAXDIM]; maybelong _strides[MAXDIM]; PyObject *_data; /* object must meet buffer API */ PyObject *_shadows; /* ill-behaved original array. */ int nstrides; /* elements in strides array */ long byteoffset; /* offset into buffer where array data begins */ long bytestride; /* basic seperation of elements in bytes */ long itemsize; /* length of 1 element in bytes */ char byteorder; /* NUM_BIG_ENDIAN, NUM_LITTLE_ENDIAN */ char _unused0; /* XXX unused */ char _unused1; /* XXX unused */ Complex64 temp; /* temporary for gettitem/setitem MACROS */ char * wptr; /* working pointer for getitem/setitem MACROS */ }; /* PyArray_Descr is source compatible with Numeric, but implements only a subset of the Numeric struct so not all Numeric code will compile. Numarray's PyArray_Descr has also been extended with object oriented array element get/set function pointers. */ typedef PyObject * (*_getfunc)(PyArrayObject *, long offset); typedef int (*_setfunc)(PyArrayObject *, long offset, PyObject *); struct s_Array_Descr { int type_num; /* PyArray_TYPES */ int elsize; /* bytes for 1 element */ char type; /* One of "cb1silfdFD " Object array not supported. */ _getfunc _get; _setfunc _set; }; #define PyArray(m) ((PyArrayObject *)(m)) #define PyArray_SIZE(m) PyArray_Size((PyObject *) m) #define PyArray_NBYTES(m) ((PyArray(m))->descr->elsize * PyArray_SIZE(m)) #define PyArray_ISCONTIGUOUS(m) (((PyArray(m))->flags & CONTIGUOUS) != 0) #define PyArray_ISFORTRAN_CONTIGUOUS(m) (((PyArray(m))->flags & FORTRAN_CONTIGUOUS) != 0) #define PyArray_ISALIGNED(m) (((PyArray(m))->flags & ALIGNED) != 0) #define PyArray_ISBYTESWAPPED(m) (!((PyArray(m))->flags & NOTSWAPPED)) #define PyArray_ISWRITABLE(m) (((PyArray(m))->flags & WRITABLE) != 0) #define PyArray_ISSPACESAVER(m) 0 #define PyArray_ISCARRAY(m) (((PyArray(m))->flags & IS_CARRAY) == IS_CARRAY) #define PyArray_Present() (PyArray_API != NULL) #include "arrayif.h" #endif