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author | Xiaowen Wu <wuxiaowe@ncsa.uiuc.edu> | 2005-03-23 17:36:05 (GMT) |
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committer | Xiaowen Wu <wuxiaowe@ncsa.uiuc.edu> | 2005-03-23 17:36:05 (GMT) |
commit | a25827491b8ce548c96d932ac58ed8679326ecb9 (patch) | |
tree | ef972caf727f79994bb1805de1dfafb253718a01 /src/H5Zscaleoffset.c | |
parent | d56d162cb83a89939e3f1fa9e0e5c9dc9e1fbfc8 (diff) | |
download | hdf5-a25827491b8ce548c96d932ac58ed8679326ecb9.zip hdf5-a25827491b8ce548c96d932ac58ed8679326ecb9.tar.gz hdf5-a25827491b8ce548c96d932ac58ed8679326ecb9.tar.bz2 |
[svn-r10384] Purpose:
New feature & bug fix.
Description:
The scaleoffset filter was not completed at last check-in and had quite
a few bugs.
Solution:
The scaleoffset filter is now complete for compressing integers. All previous
bugs have been fixed. The filter does not compress floating-point at present.
The filter only supports integer and floating-point datatypes.
Platforms tested:
heping, copper, shanti
Misc. update:
Diffstat (limited to 'src/H5Zscaleoffset.c')
-rw-r--r-- | src/H5Zscaleoffset.c | 1619 |
1 files changed, 1297 insertions, 322 deletions
diff --git a/src/H5Zscaleoffset.c b/src/H5Zscaleoffset.c index 21bb3f5..efc0563 100644 --- a/src/H5Zscaleoffset.c +++ b/src/H5Zscaleoffset.c @@ -12,10 +12,6 @@ * access to either file, you may request a copy from hdfhelp@ncsa.uiuc.edu. * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */ -/* currently this filter only handles integer datatype - * does not consider fill value - */ - #define H5Z_PACKAGE /*suppress error about including H5Zpkg */ #include "H5private.h" /* Generic Functions */ @@ -30,33 +26,43 @@ /* Struct of parameters needed for compressing/decompressing one atomic datatype */ typedef struct { - size_t size; - unsigned order; - unsigned minbits; + size_t size; /* datatype size */ + uint32_t minbits; /* minimum bits to compress one value of such datatype */ + unsigned mem_order; /* current memory endianness order */ } parms_atomic; +enum H5Z_scaleoffset_type {t_uchar=1, t_ushort, t_uint, t_ulong, t_ulong_long, + t_schar, t_short, t_int, t_long, t_long_long}; + /* Local function prototypes */ static herr_t H5Z_can_apply_scaleoffset(hid_t dcpl_id, hid_t type_id, hid_t space_id); +static enum H5Z_scaleoffset_type H5Z_scaleoffset_get_type(unsigned dtype_size, unsigned dtype_sign); +static herr_t H5Z_scaleoffset_set_parms_fillval(hid_t dcpl_id, hid_t type_id, + enum H5Z_scaleoffset_type type, unsigned cd_values[], int need_convert); static herr_t H5Z_set_local_scaleoffset(hid_t dcpl_id, hid_t type_id, hid_t space_id); static size_t H5Z_filter_scaleoffset(unsigned flags, size_t cd_nelmts, const unsigned cd_values[], size_t nbytes, size_t *buf_size, void **buf); -void H5Z_scaleoffset_precompress(void *data, unsigned d_nelmts, unsigned type, unsigned filavail, - unsigned *minbits, unsigned long_long *minval); -void H5Z_scaleoffset_postdecompress(void *data, unsigned d_nelmts, unsigned type, unsigned filavail, - unsigned long_long minval); -void H5Z_scaleoffset_next_byte(size_t *j, int *buf_len); -void H5Z_scaleoffset_decompress_one_byte(void *data, size_t data_offset, int k, int begin_i, - unsigned char *buffer, size_t *j, int *buf_len, parms_atomic p); -void H5Z_scaleoffset_compress_one_byte(void *data, size_t data_offset, int k, int begin_i, - unsigned char *buffer, size_t *j, int *buf_len, parms_atomic p); -void H5Z_scaleoffset_decompress_one_atomic(void *data, size_t data_offset, unsigned char *buffer, - size_t *j, int *buf_len, parms_atomic p); -void H5Z_scaleoffset_compress_one_atomic(void *data, size_t data_offset, unsigned char *buffer, - size_t *j, int *buf_len, parms_atomic p); -void H5Z_scaleoffset_decompress(void *data, unsigned d_nelmts, unsigned char *buffer, - parms_atomic p); -void H5Z_scaleoffset_compress(void *data, unsigned d_nelmts, unsigned char *buffer, - size_t buffer_size, parms_atomic p); +static void H5Z_scaleoffset_convert(void *buf, unsigned d_nelmts, unsigned dtype_size); +static unsigned H5Z_scaleoffset_log2(unsigned long_long num); +static void +H5Z_scaleoffset_precompress(void *data, unsigned d_nelmts, enum H5Z_scaleoffset_type type, + unsigned filavail, void *filval_buf, uint32_t *minbits, unsigned long_long *minval); +static void +H5Z_scaleoffset_postdecompress(void *data, unsigned d_nelmts, enum H5Z_scaleoffset_type type, + unsigned filavail, void *filval_buf, uint32_t minbits, unsigned long_long minval); +static void H5Z_scaleoffset_next_byte(size_t *j, int *buf_len); +static void H5Z_scaleoffset_decompress_one_byte(unsigned char *data, size_t data_offset, int k, +int begin_i, unsigned char *buffer, size_t *j, int *buf_len, parms_atomic p, int dtype_len); +static void H5Z_scaleoffset_compress_one_byte(unsigned char *data, size_t data_offset, int k, +int begin_i, unsigned char *buffer, size_t *j, int *buf_len, parms_atomic p, int dtype_len); +static void H5Z_scaleoffset_decompress_one_atomic(unsigned char *data, size_t data_offset, + unsigned char *buffer, size_t *j, int *buf_len, parms_atomic p); +static void H5Z_scaleoffset_compress_one_atomic(unsigned char *data, size_t data_offset, + unsigned char *buffer, size_t *j, int *buf_len, parms_atomic p); +static void H5Z_scaleoffset_decompress(unsigned char *data, unsigned d_nelmts, + unsigned char *buffer, parms_atomic p); +static void H5Z_scaleoffset_compress(unsigned char *data, unsigned d_nelmts, unsigned char *buffer, + size_t buffer_size, parms_atomic p); /* This message derives from H5Z */ H5Z_class_t H5Z_SCALEOFFSET[1] = {{ @@ -72,17 +78,21 @@ H5Z_class_t H5Z_SCALEOFFSET[1] = {{ /* Local macros */ #define H5Z_SCALEOFFSET_USER_NPARMS 1 /* Number of parameters that users can set */ -#define H5Z_SCALEOFFSET_TOTAL_NPARMS 7 /* Total number of parameters for filter */ +#define H5Z_SCALEOFFSET_TOTAL_NPARMS 20 /* Total number of parameters for filter */ #define H5Z_SCALEOFFSET_PARM_MINBITS 0 /* "User" parameter for minimum number of bits */ #define H5Z_SCALEOFFSET_PARM_NELMTS 1 /* "Local" parameter for number of elements in the chunk */ #define H5Z_SCALEOFFSET_PARM_CLASS 2 /* "Local" parameter for datatype class */ #define H5Z_SCALEOFFSET_PARM_SIZE 3 /* "Local" parameter for datatype size */ -#define H5Z_SCALEOFFSET_PARM_TYPE 4 /* "Local" parameter for integer types */ +#define H5Z_SCALEOFFSET_PARM_SIGN 4 /* "Local" parameter for integer datatype sign */ #define H5Z_SCALEOFFSET_PARM_ORDER 5 /* "Local" parameter for datatype byte order */ #define H5Z_SCALEOFFSET_PARM_FILAVAIL 6 /* "Local" parameter for dataset fill value existence */ +#define H5Z_SCALEOFFSET_PARM_FILVAL 7 /* "Local" parameter for start location to store dataset fill value */ #define H5Z_SCALEOFFSET_CLS_INTEGER 0 /* Integer (datatype class) */ -#define H5Z_SCALEOFFSET_CLS_FLOAT 1 /* Floating point (datatype class) */ +#define H5Z_SCALEOFFSET_CLS_FLOAT 1 /* Floatig-point (datatype class) */ + +#define H5Z_SCALEOFFSET_SGN_NONE 0 /* Unsigned integer type */ +#define H5Z_SCALEOFFSET_SGN_2 1 /* Two's complement signed integer type */ #define H5Z_SCALEOFFSET_ORDER_LE 0 /* Little endian (datatype byte order) */ #define H5Z_SCALEOFFSET_ORDER_BE 1 /* Big endian (datatype byte order) */ @@ -90,15 +100,6 @@ H5Z_class_t H5Z_SCALEOFFSET[1] = {{ #define H5Z_SCALEOFFSET_FILL_UNDEFINED 0 /* Fill value is not defined */ #define H5Z_SCALEOFFSET_FILL_DEFINED 1 /* Fill value is defined */ -/* Local variables */ -/* can not use pfill_val now - * pfill_val: pointer to buffer containing fill value of dataset fill value if is defined - */ -static void *pfill_val; - -enum H5Z_scaleoffset_type {t_uchar, t_ushort, t_uint, t_ulong, t_ulong_long, - t_schar, t_short, t_int, t_long, t_long_long}; - /*------------------------------------------------------------------------- * Function: H5Z_can_apply_scaleoffset @@ -106,8 +107,6 @@ enum H5Z_scaleoffset_type {t_uchar, t_ushort, t_uint, t_ulong, t_ulong_long, * Purpose: Check the parameters for scaleoffset compression for * validity and whether they fit a particular dataset. * - * Note: - * * Return: Success: Non-negative * Failure: Negative * @@ -136,14 +135,12 @@ H5Z_can_apply_scaleoffset(hid_t UNUSED dcpl_id, hid_t type_id, hid_t UNUSED spac if((dtype_size = H5Tget_size(type_id)) == 0) HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, FAIL, "bad datatype size") - /* Codes below apply to integer or floating point datatype */ if(dtype_class == H5T_INTEGER || dtype_class == H5T_FLOAT) { /* Get datatype's endianness order */ if((dtype_order = H5Tget_order(type_id)) == H5T_ORDER_ERROR) HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, FAIL, "can't retrieve datatype endianness order") /* Range check datatype's endianness order */ - /* (Note: this may not handle non-atomic datatypes well) */ if(dtype_order != H5T_ORDER_LE && dtype_order != H5T_ORDER_BE) HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, FAIL, "bad datatype endianness order") } else @@ -155,6 +152,268 @@ done: /*------------------------------------------------------------------------- + * Function: H5Z_scaleoffset_get_type + * + * Purpose: Get the specific integer type based on datatype size and sign + * + * Return: Success: id number of integer type + * Failure: 0 + * + * Programmer: Xiaowen Wu + * Saturday, February 26, 2005 + * + * Modifications: + * + *------------------------------------------------------------------------- + */ +static enum H5Z_scaleoffset_type H5Z_scaleoffset_get_type(unsigned dtype_size, unsigned dtype_sign) +{ + enum H5Z_scaleoffset_type type; /* integer type */ + unsigned ret_value; /* return value */ + + FUNC_ENTER_NOAPI(H5Z_scaleoffset_get_type, 0) + + if(dtype_sign==H5Z_SCALEOFFSET_SGN_NONE) { /* unsigned integer */ + if(dtype_size == sizeof(unsigned char)) + type = t_uchar; + else if(dtype_size == sizeof(unsigned short)) + type = t_ushort; + else if(dtype_size == sizeof(unsigned int)) + type = t_uint; + else if(dtype_size == sizeof(unsigned long)) + type = t_ulong; + else if(dtype_size == sizeof(unsigned long_long)) + type = t_ulong_long; + else + HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, 0, "integer size not matched") + } + + if(dtype_sign==H5Z_SCALEOFFSET_SGN_2) { /* signed integer */ + if(dtype_size == sizeof(signed char)) + type = t_schar; + else if(dtype_size == sizeof(short)) + type = t_short; + else if(dtype_size == sizeof(int)) + type = t_int; + else if(dtype_size == sizeof(long)) + type = t_long; + else if(dtype_size == sizeof(long_long)) + type = t_long_long; + else + HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, 0, "integer size not matched") + } + +done: + ret_value = type; + FUNC_LEAVE_NOAPI(ret_value) +} + + + +/*------------------------------------------------------------------------- + * Function: H5Z_scaleoffset_set_parms_fillval + * + * Purpose: Get the fill value of the dataset and store in cd_values[] + * + * Return: Success: Non-negative + * Failure: Negative + * + * Programmer: Xiaowen Wu + * Monday, March 7, 2005 + * + * Modifications: + * + *------------------------------------------------------------------------- + */ +static herr_t H5Z_scaleoffset_set_parms_fillval(hid_t dcpl_id, hid_t type_id, + enum H5Z_scaleoffset_type type, unsigned cd_values[], int need_convert) +{ + unsigned i; /* index */ + herr_t ret_value=SUCCEED; /* Return value */ + + FUNC_ENTER_NOAPI(H5Z_scaleoffset_set_parms_fillval, FAIL) + + if(type == t_uchar) { + unsigned char fill_val; + + /* Get dataset fill value */ + if(H5Pget_fill_value(dcpl_id, type_id, &fill_val)<0) + HGOTO_ERROR(H5E_PLINE, H5E_CANTGET, FAIL, "unable to get fill value") + + /* Store the fill value as the last entry in cd_values[] + * Store byte by byte from least significant byte to most significant byte + * Plenty of space left for the fill value (from index 7 to 19) + */ + for(i = 0; i < sizeof(unsigned char); i++) + ((unsigned char *)&cd_values[H5Z_SCALEOFFSET_PARM_FILVAL])[i] = + (fill_val & ((unsigned char)0xff << i*8)) >> i*8; + } + else if(type == t_ushort) { + unsigned short fill_val; + + /* Get dataset fill value */ + if(H5Pget_fill_value(dcpl_id, type_id, &fill_val)<0) + HGOTO_ERROR(H5E_PLINE, H5E_CANTGET, FAIL, "unable to get fill value") + + if(need_convert) + H5Z_scaleoffset_convert(&fill_val, 1, sizeof(unsigned short)); + + /* Store the fill value as the last entry in cd_values[] + * Store byte by byte from least significant byte to most significant byte + * Plenty of space left for the fill value (from index 7 to 19) + */ + for(i = 0; i < sizeof(unsigned short); i++) + ((unsigned char *)&cd_values[H5Z_SCALEOFFSET_PARM_FILVAL])[i] = + (fill_val & ((unsigned short)0xff << i*8)) >> i*8; + } + else if(type == t_uint) { + unsigned int fill_val; + + /* Get dataset fill value */ + if(H5Pget_fill_value(dcpl_id, type_id, &fill_val)<0) + HGOTO_ERROR(H5E_PLINE, H5E_CANTGET, FAIL, "unable to get fill value") + + if(need_convert) + H5Z_scaleoffset_convert(&fill_val, 1, sizeof(unsigned int)); + + /* Store the fill value as the last entry in cd_values[] + * Store byte by byte from least significant byte to most significant byte + * Plenty of space left for the fill value (from index 7 to 19) + */ + for(i = 0; i < sizeof(unsigned int); i++) + ((unsigned char *)&cd_values[H5Z_SCALEOFFSET_PARM_FILVAL])[i] = + (fill_val & ((unsigned int)0xff << i*8)) >> i*8; + } + else if(type == t_ulong) { + unsigned long fill_val; + + /* Get dataset fill value */ + if(H5Pget_fill_value(dcpl_id, type_id, &fill_val)<0) + HGOTO_ERROR(H5E_PLINE, H5E_CANTGET, FAIL, "unable to get fill value") + + if(need_convert) + H5Z_scaleoffset_convert(&fill_val, 1, sizeof(unsigned long)); + + /* Store the fill value as the last entry in cd_values[] + * Store byte by byte from least significant byte to most significant byte + * Plenty of space left for the fill value (from index 7 to 19) + */ + for(i = 0; i < sizeof(unsigned long); i++) + ((unsigned char *)&cd_values[H5Z_SCALEOFFSET_PARM_FILVAL])[i] = + (fill_val & ((unsigned long)0xff << i*8)) >> i*8; + } + else if(type == t_ulong_long) { + unsigned long_long fill_val; + + /* Get dataset fill value */ + if(H5Pget_fill_value(dcpl_id, type_id, &fill_val)<0) + HGOTO_ERROR(H5E_PLINE, H5E_CANTGET, FAIL, "unable to get fill value") + + if(need_convert) + H5Z_scaleoffset_convert(&fill_val, 1, sizeof(unsigned long_long)); + + /* Store the fill value as the last entry in cd_values[] + * Store byte by byte from least significant byte to most significant byte + * Plenty of space left for the fill value (from index 7 to 19) + */ + for(i = 0; i < sizeof(unsigned long_long); i++) + ((unsigned char *)&cd_values[H5Z_SCALEOFFSET_PARM_FILVAL])[i] = + (fill_val & ((unsigned long_long)0xff << i*8)) >> i*8; + } + else if(type == t_schar) { + signed char fill_val; + + /* Get dataset fill value */ + if(H5Pget_fill_value(dcpl_id, type_id, &fill_val)<0) + HGOTO_ERROR(H5E_PLINE, H5E_CANTGET, FAIL, "unable to get fill value") + + /* Store the fill value as the last entry in cd_values[] + * Store byte by byte from least significant byte to most significant byte + * Plenty of space left for the fill value (from index 7 to 19) + */ + for(i = 0; i < sizeof(signed char); i++) + ((unsigned char *)&cd_values[H5Z_SCALEOFFSET_PARM_FILVAL])[i] = + (fill_val & ((unsigned char)0xff << i*8)) >> i*8; + } + else if(type == t_short) { + short fill_val; + + /* Get dataset fill value */ + if(H5Pget_fill_value(dcpl_id, type_id, &fill_val)<0) + HGOTO_ERROR(H5E_PLINE, H5E_CANTGET, FAIL, "unable to get fill value") + + if(need_convert) + H5Z_scaleoffset_convert(&fill_val, 1, sizeof(short)); + + /* Store the fill value as the last entry in cd_values[] + * Store byte by byte from least significant byte to most significant byte + * Plenty of space left for the fill value (from index 7 to 19) + */ + for(i = 0; i < sizeof(short); i++) + ((unsigned char *)&cd_values[H5Z_SCALEOFFSET_PARM_FILVAL])[i] = + (fill_val & ((unsigned short)0xff << i*8)) >> i*8; + } + else if(type == t_int) { + int fill_val; + + /* Get dataset fill value */ + if(H5Pget_fill_value(dcpl_id, type_id, &fill_val)<0) + HGOTO_ERROR(H5E_PLINE, H5E_CANTGET, FAIL, "unable to get fill value") + + if(need_convert) + H5Z_scaleoffset_convert(&fill_val, 1, sizeof(int)); + + /* Store the fill value as the last entry in cd_values[] + * Store byte by byte from least significant byte to most significant byte + * Plenty of space left for the fill value (from index 7 to 19) + */ + for(i = 0; i < sizeof(int); i++) + ((unsigned char *)&cd_values[H5Z_SCALEOFFSET_PARM_FILVAL])[i] = + (fill_val & ((unsigned int)0xff << i*8)) >> i*8; + } + else if(type == t_long) { + long fill_val; + + /* Get dataset fill value */ + if(H5Pget_fill_value(dcpl_id, type_id, &fill_val)<0) + HGOTO_ERROR(H5E_PLINE, H5E_CANTGET, FAIL, "unable to get fill value") + + if(need_convert) + H5Z_scaleoffset_convert(&fill_val, 1, sizeof(long)); + + /* Store the fill value as the last entry in cd_values[] + * Store byte by byte from least significant byte to most significant byte + * Plenty of space left for the fill value (from index 7 to 19) + */ + for(i = 0; i < sizeof(long); i++) + ((unsigned char *)&cd_values[H5Z_SCALEOFFSET_PARM_FILVAL])[i] = + (fill_val & ((unsigned long)0xff << i*8)) >> i*8; + } + else if(type == t_long_long) { + long_long fill_val; + + /* Get dataset fill value */ + if(H5Pget_fill_value(dcpl_id, type_id, &fill_val)<0) + HGOTO_ERROR(H5E_PLINE, H5E_CANTGET, FAIL, "unable to get fill value") + + if(need_convert) + H5Z_scaleoffset_convert(&fill_val, 1, sizeof(long_long)); + + /* Store the fill value as the last entry in cd_values[] + * Store byte by byte from least significant byte to most significant byte + * Plenty of space left for the fill value (from index 7 to 19) + */ + for(i = 0; i < sizeof(long_long); i++) + ((unsigned char *)&cd_values[H5Z_SCALEOFFSET_PARM_FILVAL])[i] = + (fill_val & ((unsigned long_long)0xff << i*8)) >> i*8; + } + +done: + FUNC_LEAVE_NOAPI(ret_value) +} /* end H5Z_scaleoffset_set_parms_fillval() */ + + +/*------------------------------------------------------------------------- * Function: H5Z_set_local_scaleoffset * * Purpose: Set the "local" dataset parameters for scaleoffset @@ -179,9 +438,11 @@ H5Z_set_local_scaleoffset(hid_t dcpl_id, hid_t type_id, hid_t space_id) hssize_t npoints; /* Number of points in the dataspace */ H5T_class_t dtype_class; /* Datatype's class */ H5T_order_t dtype_order; /* Datatype's endianness order */ + H5T_order_t mem_order; /* Memory's endianness order */ + int need_convert = FALSE; /* Flag indicating convertion of byte order */ size_t dtype_size; /* Datatype's size (in bytes) */ H5T_sign_t dtype_sign; /* Datatype's sign */ - enum H5Z_scaleoffset_type type; /* Integer type */ + enum H5Z_scaleoffset_type type; /* integer type */ H5D_fill_value_t status; /* Status of fill value in property list */ herr_t ret_value=SUCCEED; /* Return value */ @@ -223,43 +484,22 @@ H5Z_set_local_scaleoffset(hid_t dcpl_id, hid_t type_id, hid_t space_id) /* Set "local" parameter for datatype size */ cd_values[H5Z_SCALEOFFSET_PARM_SIZE] = dtype_size; - /* Get datatype's sign */ - if((dtype_sign=H5Tget_sign(type_id))==H5T_SGN_ERROR) - HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, FAIL, "bad datatype sign") - if(dtype_class==H5T_INTEGER) { - if(dtype_sign==H5T_SGN_NONE) { /* unsigned integer */ - if(dtype_size == sizeof(unsigned char)) - type = t_uchar; - else if(dtype_size == sizeof(unsigned short)) - type = t_ushort; - else if(dtype_size == sizeof(unsigned int)) - type = t_uint; - else if(dtype_size == sizeof(unsigned long)) - type = t_ulong; - else if(dtype_size == sizeof(unsigned long_long)) - type = t_ulong_long; - else - HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, FAIL, "integer size not matched") - } - - if(dtype_sign==H5T_SGN_2) { /* signed integer */ - if(dtype_size == sizeof(signed char)) - type = t_schar; - else if(dtype_size == sizeof(short)) - type = t_short; - else if(dtype_size == sizeof(int)) - type = t_int; - else if(dtype_size == sizeof(long)) - type = t_long; - else if(dtype_size == sizeof(long_long)) - type = t_long_long; - else - HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, FAIL, "integer size not matched") - } - - /* Set "local" parameter for integer types */ - cd_values[H5Z_SCALEOFFSET_PARM_TYPE] = type; + /* Get datatype's sign */ + if((dtype_sign=H5Tget_sign(type_id))==H5T_SGN_ERROR) + HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, FAIL, "bad datatype sign") + + /* Set "local" parameter for integer datatype sign */ + switch(dtype_sign) { + case H5T_SGN_NONE: + cd_values[H5Z_SCALEOFFSET_PARM_SIGN] = H5Z_SCALEOFFSET_SGN_NONE; + break; + case H5T_SGN_2: + cd_values[H5Z_SCALEOFFSET_PARM_SIGN] = H5Z_SCALEOFFSET_SGN_2; + break; + default: + HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, FAIL, "bad integer sign") + } /* end switch */ } /* Get datatype's endianness order */ @@ -287,11 +527,35 @@ H5Z_set_local_scaleoffset(hid_t dcpl_id, hid_t type_id, hid_t space_id) cd_values[H5Z_SCALEOFFSET_PARM_FILAVAIL] = H5Z_SCALEOFFSET_FILL_UNDEFINED; else { cd_values[H5Z_SCALEOFFSET_PARM_FILAVAIL] = H5Z_SCALEOFFSET_FILL_DEFINED; -#if 0 - /* Get dataset fill value */ - if(H5Pget_fill_value(dcpl_id, type_id, pfill_val)<0) - HGOTO_ERROR(H5E_PLINE, H5E_CANTGET, FAIL, "unable to get fill value") -#endif + + /* Get memory's endianness order */ + if((mem_order=H5Tget_order(H5T_NATIVE_INT))==H5T_ORDER_ERROR) + HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, 0, "bad H5T_NATIVE_INT endianness order") + + /* Check if memory byte order matches dataset datatype byte order */ + switch(mem_order) { + case H5T_ORDER_LE: /* memory is little-endian byte order */ + if(dtype_order == H5T_ORDER_BE) + need_convert = TRUE; + break; + case H5T_ORDER_BE: /* memory is big-endian byte order */ + if(dtype_order == H5T_ORDER_LE) + need_convert = TRUE; + break; + default: + HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, 0, "bad H5T_NATIVE_INT endianness order") + } /* end switch */ + + if(dtype_class==H5T_INTEGER) { + /* Before getting fill value, get its integer type */ + if((type = H5Z_scaleoffset_get_type(cd_values[H5Z_SCALEOFFSET_PARM_SIZE], + cd_values[H5Z_SCALEOFFSET_PARM_SIGN]))==0) + HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, 0, "cannot use C integer datatype for cast") + + /* Get dataset fill value and store in cd_values[] */ + if(H5Z_scaleoffset_set_parms_fillval(dcpl_id, type_id, type, cd_values, need_convert)<0) + HGOTO_ERROR(H5E_PLINE, H5E_CANTSET, FAIL, "unable to set fill value") + } } /* Modify the filter's parameters for this dataset */ @@ -307,7 +571,7 @@ done: /*------------------------------------------------------------------------- * Function: H5Z_filter_scaleoffset * - * Purpose: Implement an I/O filter for storing packed integer/float + * Purpose: Implement an I/O filter for storing packed integer * data using scale and offset method. * * Return: Success: Size of buffer filtered @@ -322,16 +586,20 @@ done: */ static size_t H5Z_filter_scaleoffset (unsigned flags, size_t cd_nelmts, const unsigned cd_values[], - size_t nbytes, size_t *buf_size, void **buf) + size_t nbytes, size_t *buf_size, void **buf) { - size_t ret_value = 0; /* return value */ - size_t size_out = 0; /* size of output buffer */ - unsigned d_nelmts = 0; /* number of data elements in the chunk */ - unsigned minbits = 0; /* minimum number of bits to store values */ - unsigned long_long minval= 0; /* minimum value of input buffer */ - unsigned char *outbuf = NULL; /* pointer to new output buffer */ - parms_atomic p; /* paramters needed for compress/decompress functions */ - unsigned buf_offset; /* buffer offset because of parameters stored in file */ + size_t ret_value = 0; /* return value */ + size_t size_out = 0; /* size of output buffer */ + unsigned d_nelmts = 0; /* number of data elements in the chunk */ + enum H5Z_scaleoffset_type type; /* integer type */ + H5T_order_t mem_order; /* memory's endianness order */ + int need_convert = FALSE; /* flag indicating convertion of byte order */ + uint32_t minbits = 0; /* minimum number of bits to store values */ + unsigned long_long minval= 0; /* minimum value of input buffer */ + unsigned char *outbuf = NULL; /* pointer to new output buffer */ + unsigned buf_offset = 21; /* buffer offset because of parameters stored in file */ + unsigned i; /* index */ + parms_atomic p; /* paramters needed for compress/decompress functions */ FUNC_ENTER_NOAPI(H5Z_filter_scaleoffset, 0) @@ -339,103 +607,183 @@ H5Z_filter_scaleoffset (unsigned flags, size_t cd_nelmts, const unsigned cd_valu if (cd_nelmts!=H5Z_SCALEOFFSET_TOTAL_NPARMS) HGOTO_ERROR(H5E_ARGS, H5E_BADVALUE, 0, "invalid scaleoffset number of paramters") - /* copy a filter parameter to d_nelmts */ - d_nelmts = cd_values[H5Z_SCALEOFFSET_PARM_NELMTS]; + /* do not process if datatype is floating-point, will change later */ + if(cd_values[H5Z_SCALEOFFSET_PARM_CLASS]==H5Z_SCALEOFFSET_CLS_FLOAT) { + ret_value = *buf_size; + goto done; + } + + /* get memory's endianness order */ + if((mem_order=H5Tget_order(H5T_NATIVE_INT))==H5T_ORDER_ERROR) + HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, 0, "bad H5T_NATIVE_INT endianness order") + + /* check if memory byte order matches dataset datatype byte order */ + switch(mem_order) { + case H5T_ORDER_LE: /* memory is little-endian byte order */ + if(cd_values[H5Z_SCALEOFFSET_PARM_ORDER] == H5Z_SCALEOFFSET_ORDER_BE) + need_convert = TRUE; + break; + case H5T_ORDER_BE: /* memory is big-endian byte order */ + if(cd_values[H5Z_SCALEOFFSET_PARM_ORDER] == H5Z_SCALEOFFSET_ORDER_LE) + need_convert = TRUE; + break; + default: + HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, 0, "bad H5T_NATIVE_INT endianness order") + } /* end switch */ /* check and assign value to minimum number of bits if set by user */ if(cd_values[H5Z_SCALEOFFSET_PARM_MINBITS]!=0) { if(cd_values[H5Z_SCALEOFFSET_PARM_MINBITS]>cd_values[H5Z_SCALEOFFSET_PARM_SIZE]*8) - HGOTO_ERROR(H5E_ARGS, H5E_BADVALUE, 0, "invalid scaleoffset minimum number of bits") + HGOTO_ERROR(H5E_ARGS, H5E_BADVALUE, 0, "minimum number of bits exceeds maximum") + + /* no need to process data */ + if(cd_values[H5Z_SCALEOFFSET_PARM_MINBITS]==cd_values[H5Z_SCALEOFFSET_PARM_SIZE]*8) { + ret_value = *buf_size; + goto done; + } minbits = cd_values[H5Z_SCALEOFFSET_PARM_MINBITS]; } + /* copy a filter parameter to d_nelmts */ + d_nelmts = cd_values[H5Z_SCALEOFFSET_PARM_NELMTS]; + /* prepare paramters to pass to compress/decompress functions */ p.size = cd_values[H5Z_SCALEOFFSET_PARM_SIZE]; - p.order = cd_values[H5Z_SCALEOFFSET_PARM_ORDER]; + p.mem_order = mem_order; /* input; decompress */ if (flags & H5Z_FLAG_REVERSE) { - /* get values of minbits and minval from input buffer */ - HDmemcpy(&minbits, *buf, sizeof(unsigned)); - HDmemcpy(&minval, (unsigned char*)(*buf)+sizeof(unsigned), sizeof(unsigned long_long)); - - assert(minbits < p.size * 8); + /* retrieve values of minbits and minval from input compressed buffer + * retrieve them corresponding to how they are stored during compression + */ + uint32_t minbits_mask = 0; + unsigned long_long minval_mask = 0; + unsigned minval_size = 0; + + minbits = 0; + for(i = 0; i < 4; i++) { + minbits_mask = ((unsigned char *)*buf)[i]; + minbits_mask <<= i*8; + minbits |= minbits_mask; + } - /* no need to process the data */ - if(minbits == cd_values[H5Z_SCALEOFFSET_PARM_SIZE] * 8) { - ret_value = *buf_size; - goto done; + /* retrieval of minval takes into consideration situation where sizeof + * unsigned long_long (datatype of minval) may change from compression + * to decompression + */ + minval_size = sizeof(unsigned long_long) <= ((unsigned char *)*buf)[4] ? + sizeof(unsigned long_long) : ((unsigned char *)*buf)[4]; + minval = 0; + for(i = 0; i < minval_size; i++) { + minval_mask = ((unsigned char *)*buf)[5+i]; + minval_mask <<= i*8; + minval |= minval_mask; } + assert(minbits <= p.size * 8); + p.minbits = minbits; + + /* calculate size of output buffer after decompression */ size_out = d_nelmts * p.size; /* allocate memory space for decompressed buffer */ if(NULL==(outbuf = H5MM_malloc(size_out))) HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, 0, "memory allocation failed for scaleoffset decompression") - -#if 0 - /* the data buffer all have same value */ - if(minbits == 0) { + + /* special case: minbits equal to full precision */ + if(minbits == p.size * 8) { + HDmemcpy(outbuf, (unsigned char*)(*buf)+buf_offset, size_out); + + /* convert to dataset datatype endianness order if needed */ + if(need_convert) + H5Z_scaleoffset_convert(outbuf, d_nelmts, p.size); + + *buf = outbuf; + outbuf = NULL; + *buf_size = size_out; + ret_value = size_out; + goto done; } -#endif - p.minbits = minbits; + /* decompress the buffer if minbits not equal to zero */ + if(minbits != 0) + H5Z_scaleoffset_decompress(outbuf, d_nelmts, (unsigned char*)(*buf)+buf_offset, p); + else { + /* fill value is not defined and all data elements have the same value */ + for(i = 0; i < size_out; i++) outbuf[i] = 0; + } - /* decompress the buffer */ - buf_offset = sizeof(unsigned) + sizeof(unsigned long_long); - H5Z_scaleoffset_decompress(outbuf, d_nelmts, (unsigned char*)(*buf)+buf_offset, p); + /* before postprocess, get integer type */ + if((type = H5Z_scaleoffset_get_type(cd_values[H5Z_SCALEOFFSET_PARM_SIZE], + cd_values[H5Z_SCALEOFFSET_PARM_SIGN]))==0) + HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, 0, "cannot use C integer datatype for cast") - /* postprocess after decompress */ - H5Z_scaleoffset_postdecompress(outbuf, d_nelmts, cd_values[H5Z_SCALEOFFSET_PARM_TYPE], - cd_values[H5Z_SCALEOFFSET_PARM_FILAVAIL], minval); + /* postprocess after decompression */ + H5Z_scaleoffset_postdecompress(outbuf, d_nelmts, type, cd_values[H5Z_SCALEOFFSET_PARM_FILAVAIL], + &cd_values[H5Z_SCALEOFFSET_PARM_FILVAL], minbits, minval); + + /* after postprocess, convert to dataset datatype endianness order if needed */ + if(need_convert) + H5Z_scaleoffset_convert(outbuf, d_nelmts, p.size); } /* output; compress */ else { - /* preprocess before compress */ - H5Z_scaleoffset_precompress(*buf, d_nelmts, cd_values[H5Z_SCALEOFFSET_PARM_TYPE], - cd_values[H5Z_SCALEOFFSET_PARM_FILAVAIL], &minbits, &minval); - - assert(minbits < p.size * 8); + assert(nbytes == d_nelmts * p.size); - /* no need to process the data */ - if(minbits == p.size * 8) { - ret_value = *buf_size; - goto done; - } -#if 0 - /* the data buffer all have same value */ - if(minbits == 0) { - *buf_size = 0; - ret_value = 0; - goto done; - } -#endif - p.minbits = minbits; + /* before preprocess, convert to memory endianness order if needed */ + if(need_convert) + H5Z_scaleoffset_convert(*buf, d_nelmts, p.size); - /* calculate buffer size after compression, may be 1 bigger + /* before preprocess, get integer type */ + if((type = H5Z_scaleoffset_get_type(cd_values[H5Z_SCALEOFFSET_PARM_SIZE], + cd_values[H5Z_SCALEOFFSET_PARM_SIGN]))==0) + HGOTO_ERROR(H5E_PLINE, H5E_BADTYPE, 0, "cannot use C integer datatype for cast") + + /* preprocess before compression */ + H5Z_scaleoffset_precompress(*buf, d_nelmts, type, cd_values[H5Z_SCALEOFFSET_PARM_FILAVAIL], + &cd_values[H5Z_SCALEOFFSET_PARM_FILVAL], &minbits, &minval); + + assert(minbits <= p.size * 8); + + /* calculate buffer size after compression * minbits and minval are stored in the front of the compressed buffer */ - size_out = nbytes * p.minbits / (p.size * 8) + 1 + - sizeof(unsigned) + sizeof(unsigned long_long); + p.minbits = minbits; + size_out = buf_offset + nbytes * p.minbits / (p.size * 8) + 1; /* may be 1 larger */ /* allocate memory space for compressed buffer */ if(NULL==(outbuf = H5MM_malloc(size_out))) HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, 0, "memory allocation failed for scaleoffset compression") - /* first store minbits and minval in output buffer */ - HDmemcpy(outbuf, &minbits, sizeof(unsigned)); - HDmemcpy(outbuf+sizeof(unsigned), &minval, sizeof(unsigned long_long)); - - /* compress the buffer */ - buf_offset = sizeof(unsigned) + sizeof(unsigned long_long); - H5Z_scaleoffset_compress(*buf, d_nelmts, outbuf+buf_offset, size_out-buf_offset, p); -#if 0 - printf("After compress:\n"); - for(i = 0; i < size_out; i++) { - printf("%02x ", ((unsigned char *)(outbuf))[i]); - if((i+1)%4==0) printf("\n"); + /* store minbits and minval in the front of output compressed buffer + * store byte by byte from least significant byte to most significant byte + * constant buffer size (21 bytes) is left for these two parameters + * 4 bytes for minbits, 1 byte for size of minval, 16 bytes for minval + */ + for(i = 0; i < 4; i++) + ((unsigned char *)outbuf)[i] = (minbits & ((uint32_t)0xff << i*8)) >> i*8; + + ((unsigned char *)outbuf)[4] = sizeof(unsigned long_long); + + for(i = 0; i < sizeof(unsigned long_long); i++) + ((unsigned char *)outbuf)[5+i] = (minval & ((unsigned long_long)0xff << i*8)) >> i*8; + + /* special case: minbits equal to full precision */ + if(minbits == p.size * 8) { + HDmemcpy(outbuf+buf_offset, *buf, nbytes); + *buf = outbuf; + outbuf = NULL; + *buf_size = buf_offset+nbytes; + ret_value = *buf_size; + goto done; } -#endif + + /* compress the buffer if minbits not equal to zero + * minbits equal to zero only when fill value is not defined and + * all data elements have the same value + */ + if(minbits != 0) + H5Z_scaleoffset_compress(*buf, d_nelmts, outbuf+buf_offset, size_out-buf_offset, p); } /* free the input buffer */ @@ -447,13 +795,13 @@ H5Z_filter_scaleoffset (unsigned flags, size_t cd_nelmts, const unsigned cd_valu *buf_size = size_out; ret_value = size_out; -done: +done: if(outbuf) H5MM_xfree(outbuf); FUNC_LEAVE_NOAPI(ret_value) } -/* ======== Scaleoffset Algorithm =============================================== +/* ============ Scaleoffset Algorithm =============================================== * assume one byte has 8 bit * assume padding bit is 0 * assume size of unsigned char is one byte @@ -461,234 +809,863 @@ done: * atomic datatype is treated on byte basis */ -void H5Z_scaleoffset_precompress(void *data, unsigned d_nelmts, unsigned type, unsigned filavail, - unsigned *minbits, unsigned long_long *minval) + +/* change byte order of input buffer either from little-endian to big-endian + * or from big-endian to little-endian 2/21/2005 + */ +static void H5Z_scaleoffset_convert(void *buf, unsigned d_nelmts, unsigned dtype_size) +{ + unsigned i, j; + unsigned char *buffer, temp; + + if(dtype_size == 1) return; + + buffer = buf; + for(i = 0; i < d_nelmts * dtype_size; i += dtype_size) + for(j = 0; j < dtype_size/2; j++) { + /* swap pair of bytes */ + temp = buffer[i+j]; + buffer[i+j] = buffer[i+dtype_size-1-j]; + buffer[i+dtype_size-1-j] = temp; + } +} + +/* return ceiling of floating-point log2 function + * receive unsigned integer as argument 3/10/2005 + */ +static unsigned H5Z_scaleoffset_log2(unsigned long_long num) +{ + unsigned v = 0; + unsigned long_long lower_bound = 1; /* is power of 2, largest value <= num */ + unsigned long_long val = num; + + while(val >>= 1) { v++; lower_bound <<= 1; } + + if(num == lower_bound) return v; + else return v+1; +} + +static void +H5Z_scaleoffset_precompress(void *data, unsigned d_nelmts, enum H5Z_scaleoffset_type type, + unsigned filavail, void *filval_buf, uint32_t *minbits, unsigned long_long *minval) { unsigned i; - unsigned long_long span; /* span of values of input buffer data */ - enum H5Z_scaleoffset_type t; /* integer type */ - t = type; if(type == t_uchar) { - unsigned char *buf, min, max; - buf = data; min = max = buf[0]; - for(i = 0; i < d_nelmts; i++) { /* find maximum and minimum values */ - if(buf[i] > max) max = buf[i]; - if(buf[i] < min) min = buf[i]; + unsigned char *buf = data, min = 0, max = 0, span, filval = 0, filval_mask = 0; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(unsigned char); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = max = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if(max - min > (unsigned char)(~(unsigned char)0 - 2)) { + *minbits = sizeof(unsigned char)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span+1); + } else { /* minbits already set, only calculate min */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] < min) min = buf[i]; + } + } + *minval = min; + if(*minbits != sizeof(unsigned char)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == filval)?(((unsigned char)1 << *minbits) - 1):(buf[i] - min); + } else { /* fill value undefined */ + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + min = max = buf[0]; + for(i = 0; i < d_nelmts; i++) { + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if(max - min > (unsigned char)(~(unsigned char)0 - 2)) { + *minbits = sizeof(unsigned char)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span); + } else { /* minbits already set, only calculate min */ + min = buf[0]; + for(i = 0; i < d_nelmts; i++) if(buf[i] < min) min = buf[i]; + } + *minval = min; + if(*minbits != sizeof(unsigned char)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) buf[i] -= min; } - span = max - min + 1; *minval = min; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) - for(i = 0; i < d_nelmts; i++) buf[i] -= min; - } - else if(type == t_ushort) { - unsigned short *buf, min, max; - buf = data; min = max = buf[0]; - for(i = 0; i < d_nelmts; i++) { /* find maximum and minimum values */ - if(buf[i] > max) max = buf[i]; - if(buf[i] < min) min = buf[i]; + } else if(type == t_ushort) { + unsigned short *buf = data, min = 0, max = 0, span, filval = 0, filval_mask = 0; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(unsigned short); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = max = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if(max - min > (unsigned short)(~(unsigned short)0 - 2)) { + *minbits = sizeof(unsigned short)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span+1); + } else { /* minbits already set, only calculate min */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] < min) min = buf[i]; + } + } + *minval = min; + if(*minbits != sizeof(unsigned short)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == filval)?(((unsigned short)1 << *minbits) - 1):(buf[i] - min); + } else { /* fill value undefined */ + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + min = max = buf[0]; + for(i = 0; i < d_nelmts; i++) { + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if(max - min > (unsigned short)(~(unsigned short)0 - 2)) { + *minbits = sizeof(unsigned short)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span); + } else { /* minbits already set, only calculate min */ + min = buf[0]; + for(i = 0; i < d_nelmts; i++) if(buf[i] < min) min = buf[i]; + } + *minval = min; + if(*minbits != sizeof(unsigned short)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) buf[i] -= min; } - span = max - min + 1; *minval = min; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) - for(i = 0; i < d_nelmts; i++) buf[i] -= min; - } - else if(type == t_uint) { - unsigned int *buf, min, max; - buf = data; min = max = buf[0]; - for(i = 0; i < d_nelmts; i++) { /* find maximum and minimum values */ - if(buf[i] > max) max = buf[i]; - if(buf[i] < min) min = buf[i]; + } else if(type == t_uint) { + unsigned int *buf = data, min = 0, max = 0, span, filval = 0, filval_mask = 0; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(unsigned int); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = max = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if(max - min > ~(unsigned int)0 - 2) { + *minbits = sizeof(unsigned int)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span+1); + } else { /* minbits already set, only calculate min */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] < min) min = buf[i]; + } + } + *minval = min; + if(*minbits != sizeof(unsigned int)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == filval)?(((unsigned int)1 << *minbits) - 1):(buf[i] - min); + } else { /* fill value undefined */ + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + min = max = buf[0]; + for(i = 0; i < d_nelmts; i++) { + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if(max - min > ~(unsigned int)0 - 2) { + *minbits = sizeof(unsigned int)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span); + } else { /* minbits already set, only calculate min */ + min = buf[0]; + for(i = 0; i < d_nelmts; i++) if(buf[i] < min) min = buf[i]; + } + *minval = min; + if(*minbits != sizeof(unsigned int)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) buf[i] -= min; } - span = max - min + 1; *minval = min; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) - for(i = 0; i < d_nelmts; i++) buf[i] -= min; - } - else if(type == t_ulong) { - unsigned long *buf, min, max; - buf = data; min = max = buf[0]; - for(i = 0; i < d_nelmts; i++) { /* find maximum and minimum values */ - if(buf[i] > max) max = buf[i]; - if(buf[i] < min) min = buf[i]; + } else if(type == t_ulong) { + unsigned long *buf = data, min = 0, max = 0, span, filval = 0, filval_mask = 0; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(unsigned long); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = max = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if(max - min > ~(unsigned long)0 - 2) { + *minbits = sizeof(unsigned long)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span+1); + } else { /* minbits already set, only calculate min */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] < min) min = buf[i]; + } + } + *minval = min; + if(*minbits != sizeof(unsigned long)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == filval)?(((unsigned long)1 << *minbits) - 1):(buf[i] - min); + } else { /* fill value undefined */ + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + min = max = buf[0]; + for(i = 0; i < d_nelmts; i++) { + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if(max - min > ~(unsigned long)0 - 2) { + *minbits = sizeof(unsigned long)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span); + } else { /* minbits already set, only calculate min */ + min = buf[0]; + for(i = 0; i < d_nelmts; i++) if(buf[i] < min) min = buf[i]; + } + *minval = min; + if(*minbits != sizeof(unsigned long)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) buf[i] -= min; } - span = max - min + 1; *minval = min; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) - for(i = 0; i < d_nelmts; i++) buf[i] -= min; - } - else if(type == t_ulong_long) { - unsigned long_long *buf, min, max; - buf = data; min = max = buf[0]; - for(i = 0; i < d_nelmts; i++) { /* find maximum and minimum values */ - if(buf[i] > max) max = buf[i]; - if(buf[i] < min) min = buf[i]; + } else if(type == t_ulong_long) { + unsigned long_long *buf = data, min = 0, max = 0, span, filval = 0, filval_mask = 0; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(unsigned long_long); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = max = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if(max - min > ~(unsigned long_long)0 - 2) { + *minbits = sizeof(unsigned long_long)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span+1); + } else { /* minbits already set, only calculate min */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] < min) min = buf[i]; + } + } + *minval = min; + if(*minbits != sizeof(unsigned long_long)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == filval)?(((unsigned long_long)1 << *minbits) - 1):(buf[i] - min); + } else { /* fill value undefined */ + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + min = max = buf[0]; + for(i = 0; i < d_nelmts; i++) { + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if(max - min > ~(unsigned long_long)0 - 2) { + *minbits = sizeof(unsigned long_long)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span); + } else { /* minbits already set, only calculate min */ + min = buf[0]; + for(i = 0; i < d_nelmts; i++) if(buf[i] < min) min = buf[i]; + } + *minval = min; + if(*minbits != sizeof(unsigned long_long)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) buf[i] -= min; } - span = max - min + 1; *minval = min; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) - for(i = 0; i < d_nelmts; i++) buf[i] -= min; - } - else if(type == t_schar) { - signed char *buf, min, max; - buf = data; min = max = buf[0]; - for(i = 0; i < d_nelmts; i++) { /* find maximum and minimum values */ - if(buf[i] > max) max = buf[i]; - if(buf[i] < min) min = buf[i]; + } else if(type == t_schar) { + signed char *buf = data, min = 0, max = 0, filval = 0, filval_mask = 0; + unsigned char span; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(signed char); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = max = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if((unsigned char)(max - min) > (unsigned char)(~(unsigned char)0 - 2)) { + *minbits = sizeof(signed char)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span+1); + } else { /* minbits already set, only calculate min */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] < min) min = buf[i]; + } + } + *minval = min; + if(*minbits != sizeof(signed char)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == filval)?(((unsigned char)1 << *minbits) - 1):(buf[i] - min); + } else { /* fill value undefined */ + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + min = max = buf[0]; + for(i = 0; i < d_nelmts; i++) { + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if((unsigned char)(max - min) > (unsigned char)(~(unsigned char)0 - 2)) { + *minbits = sizeof(signed char)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span); + } else { /* minbits already set, only calculate min */ + min = buf[0]; + for(i = 0; i < d_nelmts; i++) if(buf[i] < min) min = buf[i]; + } + *minval = min; + if(*minbits != sizeof(signed char)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) buf[i] -= min; } - span = max - min + 1; *minval = min; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) - for(i = 0; i < d_nelmts; i++) buf[i] -= min; - } - else if(type == t_short) { - short *buf, min, max; - buf = data; min = max = buf[0]; - for(i = 0; i < d_nelmts; i++) { /* find maximum and minimum values */ - if(buf[i] > max) max = buf[i]; - if(buf[i] < min) min = buf[i]; + } else if(type == t_short) { + short *buf = data, min = 0, max = 0, filval = 0, filval_mask = 0; + unsigned short span; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(short); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = max = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if((unsigned short)(max - min) > (unsigned short)(~(unsigned short)0 - 2)) { + *minbits = sizeof(short)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span+1); + } else { /* minbits already set, only calculate min */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] < min) min = buf[i]; + } + } + *minval = min; + if(*minbits != sizeof(short)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == filval)?(((unsigned short)1 << *minbits) - 1):(buf[i] - min); + } else { /* fill value undefined */ + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + min = max = buf[0]; + for(i = 0; i < d_nelmts; i++) { + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if((unsigned short)(max - min) > (unsigned short)(~(unsigned short)0 - 2)) { + *minbits = sizeof(short)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span); + } else { /* minbits already set, only calculate min */ + min = buf[0]; + for(i = 0; i < d_nelmts; i++) if(buf[i] < min) min = buf[i]; + } + *minval = min; + if(*minbits != sizeof(short)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) buf[i] -= min; } - span = max - min + 1; *minval = min; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) - for(i = 0; i < d_nelmts; i++) buf[i] -= min; - } - else if(type == t_int) { - int *buf, min, max; - buf = data; min = max = buf[0]; - for(i = 0; i < d_nelmts; i++) { /* find maximum and minimum values */ - if(buf[i] > max) max = buf[i]; - if(buf[i] < min) min = buf[i]; + } else if(type == t_int) { + int *buf = data, min = 0, max = 0, filval = 0, filval_mask = 0; + unsigned int span; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(int); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = max = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if((unsigned int)(max - min) > ~(unsigned int)0 - 2) { + *minbits = sizeof(int)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span+1); + } else { /* minbits already set, only calculate min */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] < min) min = buf[i]; + } + } + *minval = min; + if(*minbits != sizeof(int)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == filval)?(((unsigned int)1 << *minbits) - 1):(buf[i] - min); + } else { /* fill value undefined */ + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + min = max = buf[0]; + for(i = 0; i < d_nelmts; i++) { + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if((unsigned int)(max - min) > ~(unsigned int)0 - 2) { + *minbits = sizeof(int)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span); + } else { /* minbits already set, only calculate min */ + min = buf[0]; + for(i = 0; i < d_nelmts; i++) if(buf[i] < min) min = buf[i]; + } + *minval = min; + if(*minbits != sizeof(int)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) buf[i] -= min; } - span = max - min + 1; *minval = min; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) - for(i = 0; i < d_nelmts; i++) buf[i] -= min; } else if(type == t_long) { - long *buf, min, max; - buf = data; min = max = buf[0]; - for(i = 0; i < d_nelmts; i++) { /* find maximum and minimum values */ - if(buf[i] > max) max = buf[i]; - if(buf[i] < min) min = buf[i]; + long *buf = data, min = 0, max = 0, filval = 0, filval_mask = 0; + unsigned long span; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(long); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = max = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if((unsigned long)(max - min) > ~(unsigned long)0 - 2) { + *minbits = sizeof(long)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span+1); + } else { /* minbits already set, only calculate min */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] < min) min = buf[i]; + } + } + *minval = min; + if(*minbits != sizeof(long)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == filval)?(((unsigned long)1 << *minbits) - 1):(buf[i] - min); + } else { /* fill value undefined */ + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + min = max = buf[0]; + for(i = 0; i < d_nelmts; i++) { + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if((unsigned long)(max - min) > ~(unsigned long)0 - 2) { + *minbits = sizeof(long)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span); + } else { /* minbits already set, only calculate min */ + min = buf[0]; + for(i = 0; i < d_nelmts; i++) if(buf[i] < min) min = buf[i]; + } + *minval = min; + if(*minbits != sizeof(long)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) buf[i] -= min; } - span = max - min + 1; *minval = min; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) - for(i = 0; i < d_nelmts; i++) buf[i] -= min; - } - else if(type == t_long_long) { - long_long *buf, min, max; - buf = data; min = max = buf[0]; - for(i = 0; i < d_nelmts; i++) { /* find maximum and minimum values */ - if(buf[i] > max) max = buf[i]; - if(buf[i] < min) min = buf[i]; + } else if(type == t_long_long) { + long_long *buf = data, min = 0, max = 0, filval = 0, filval_mask = 0; + unsigned long_long span; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(long_long); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = max = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if((unsigned long_long)(max - min) > ~(unsigned long_long)0 - 2) { + *minbits = sizeof(long_long)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span+1); + } else { /* minbits already set, only calculate min */ + i = 0; while(i < d_nelmts && buf[i]== filval) i++; + if(i < d_nelmts) min = buf[i]; + for(; i < d_nelmts; i++) { + if(buf[i] == filval) continue; /* ignore fill value */ + if(buf[i] < min) min = buf[i]; + } + } + *minval = min; + if(*minbits != sizeof(long_long)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == filval)?(((unsigned long_long)1 << *minbits) - 1):(buf[i] - min); + } else { /* fill value undefined */ + if(*minbits == 0) { /* minbits not set yet, calculate max, min, and minbits */ + min = max = buf[0]; + for(i = 0; i < d_nelmts; i++) { + if(buf[i] > max) max = buf[i]; + if(buf[i] < min) min = buf[i]; + } + if((unsigned long_long)(max - min) > ~(unsigned long_long)0 - 2) { + *minbits = sizeof(long_long)*8; + *minval = min; return; + } + span = max - min + 1; + *minbits = H5Z_scaleoffset_log2(span); + } else { /* minbits already set, only calculate min */ + min = buf[0]; + for(i = 0; i < d_nelmts; i++) if(buf[i] < min) min = buf[i]; + } + *minval = min; + if(*minbits != sizeof(long_long)*8) /* change values if minbits != full precision */ + for(i = 0; i < d_nelmts; i++) buf[i] -= min; } - span = max - min + 1; *minval = min; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) - for(i = 0; i < d_nelmts; i++) buf[i] -= min; - } -#if 0 - /* if minbits not set by application, calculate minbits */ - if(*minbits == 0) { - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) - *minbits = HDceil(log(span)*M_LOG2E); - else - *minbits = HDceil(log(span+1)*M_LOG2E); } -#endif } -void H5Z_scaleoffset_postdecompress(void *data, unsigned d_nelmts, unsigned type, unsigned filavail, - unsigned long_long minval) +static void +H5Z_scaleoffset_postdecompress(void *data, unsigned d_nelmts, enum H5Z_scaleoffset_type type, + unsigned filavail, void *filval_buf, uint32_t minbits, unsigned long_long minval) { unsigned i; long_long sminval = *(long_long*)&minval; /* for signed integer types */ - enum H5Z_scaleoffset_type t; /* integer type */ - t = type; if(type == t_uchar) { - unsigned char *buf = data; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) + unsigned char *buf = data, filval = 0, filval_mask = 0; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(unsigned char); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == (((unsigned char)1 << minbits) - 1))?filval:(buf[i] + minval); + } else /* fill value undefined */ for(i = 0; i < d_nelmts; i++) buf[i] += minval; } else if(type == t_ushort) { - unsigned short *buf = data; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) + unsigned short *buf = data, filval = 0, filval_mask = 0; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(unsigned short); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == (((unsigned short)1 << minbits) - 1))?filval:(buf[i] + minval); + } else /* fill value undefined */ for(i = 0; i < d_nelmts; i++) buf[i] += minval; } else if(type == t_uint) { - unsigned int *buf = data; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) + unsigned int *buf = data, filval = 0, filval_mask = 0; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(unsigned int); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == (((unsigned int)1 << minbits) - 1))?filval:(buf[i] + minval); + } else /* fill value undefined */ for(i = 0; i < d_nelmts; i++) buf[i] += minval; } else if(type == t_ulong) { - unsigned long *buf = data; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) + unsigned long *buf = data, filval = 0, filval_mask = 0; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(unsigned long); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == (((unsigned long)1 << minbits) - 1))?filval:(buf[i] + minval); + } else /* fill value undefined */ for(i = 0; i < d_nelmts; i++) buf[i] += minval; } else if(type == t_ulong_long) { - unsigned long_long *buf = data; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) + unsigned long_long *buf = data, filval = 0, filval_mask = 0; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(unsigned long_long); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == (((unsigned long_long)1 << minbits) - 1))?filval:(buf[i] + minval); + } else /* fill value undefined */ for(i = 0; i < d_nelmts; i++) buf[i] += minval; } else if(type == t_schar) { - signed char *buf = data; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) + signed char *buf = data, filval = 0, filval_mask = 0; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(signed char); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == (((unsigned char)1 << minbits) - 1))?filval:(buf[i] + sminval); + } else /* fill value undefined */ for(i = 0; i < d_nelmts; i++) buf[i] += sminval; } else if(type == t_short) { - short *buf = data; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) + short *buf = data, filval = 0, filval_mask = 0; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(short); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == (((unsigned short)1 << minbits) - 1))?filval:(buf[i] + sminval); + } else /* fill value undefined */ for(i = 0; i < d_nelmts; i++) buf[i] += sminval; } else if(type == t_int) { - int *buf = data; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) + int *buf = data, filval = 0, filval_mask = 0; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(int); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == (((unsigned int)1 << minbits) - 1))?filval:(buf[i] + sminval); + } else /* fill value undefined */ for(i = 0; i < d_nelmts; i++) buf[i] += sminval; } else if(type == t_long) { - long *buf = data; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) + long *buf = data, filval = 0, filval_mask = 0; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(long); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == (((unsigned long)1 << minbits) - 1))?filval:(buf[i] + sminval); + } else /* fill value undefined */ for(i = 0; i < d_nelmts; i++) buf[i] += sminval; } else if(type == t_long_long) { - long_long *buf = data; - if(filavail == H5Z_SCALEOFFSET_FILL_UNDEFINED) + long_long *buf = data, filval = 0, filval_mask = 0; + + if(filavail == H5Z_SCALEOFFSET_FILL_DEFINED) { /* fill value defined */ + /* retrieve fill value from corresponding positions of cd_values[] + * retrieve them corresponding to how they are stored + */ + for(i = 0; i < sizeof(long_long); i++) { + filval_mask = ((unsigned char *)filval_buf)[i]; + filval_mask <<= i*8; + filval |= filval_mask; + } + for(i = 0; i < d_nelmts; i++) + buf[i] = (buf[i] == (((unsigned long_long)1 << minbits) - 1))?filval:(buf[i] + sminval); + } else /* fill value undefined */ for(i = 0; i < d_nelmts; i++) buf[i] += sminval; } } -void H5Z_scaleoffset_next_byte(size_t *j, int *buf_len) +static void H5Z_scaleoffset_next_byte(size_t *j, int *buf_len) { - ++(*j); - *buf_len = 8 * sizeof(unsigned char); + ++(*j); *buf_len = 8 * sizeof(unsigned char); } -void H5Z_scaleoffset_decompress_one_byte(void *data, size_t data_offset, int k, int begin_i, -unsigned char *buffer, size_t *j, int *buf_len, parms_atomic p) +static void H5Z_scaleoffset_decompress_one_byte(unsigned char *data, size_t data_offset, int k, +int begin_i, unsigned char *buffer, size_t *j, int *buf_len, parms_atomic p, int dtype_len) { int dat_len; /* dat_len is the number of bits to be copied in each data byte */ unsigned char val; /* value to be copied in each data byte */ /* initialize value and bits of unsigned char to be copied */ val = buffer[*j]; - if(k == begin_i) - dat_len = p.minbits % 8; + dat_len = 8 - (dtype_len - p.minbits) % 8; else dat_len = 8; if(*buf_len > dat_len) { - ((unsigned char *)data)[data_offset + k] = + data[data_offset + k] = ((val >> (*buf_len - dat_len)) & ~(~0 << dat_len)); *buf_len -= dat_len; } else { - ((unsigned char *)data)[data_offset + k] = + data[data_offset + k] = ((val & ~(~0 << *buf_len)) << (dat_len - *buf_len)); dat_len -= *buf_len; H5Z_scaleoffset_next_byte(j, buf_len); if(dat_len == 0) return; val = buffer[*j]; - ((unsigned char *)data)[data_offset + k] |= + data[data_offset + k] |= ((val >> (*buf_len - dat_len)) & ~(~0 << dat_len)); *buf_len -= dat_len; } } -void H5Z_scaleoffset_decompress_one_atomic(void *data, size_t data_offset, unsigned char *buffer, - size_t *j, int *buf_len, parms_atomic p) +static void H5Z_scaleoffset_decompress_one_atomic(unsigned char *data, size_t data_offset, + unsigned char *buffer, size_t *j, int *buf_len, parms_atomic p) { /* begin_i: the index of byte having first significant bit */ int k, begin_i, dtype_len; @@ -697,34 +1674,33 @@ void H5Z_scaleoffset_decompress_one_atomic(void *data, size_t data_offset, unsig dtype_len = p.size * 8; - if(p.order == H5Z_SCALEOFFSET_ORDER_LE) { /* little endian */ + if(p.mem_order == H5Z_SCALEOFFSET_ORDER_LE) { /* little endian */ begin_i = p.size - 1 - (dtype_len - p.minbits) / 8; for(k = begin_i; k >= 0; k--) H5Z_scaleoffset_decompress_one_byte(data, data_offset, k, begin_i, - buffer, j, buf_len, p); + buffer, j, buf_len, p, dtype_len); } - if(p.order == H5Z_SCALEOFFSET_ORDER_BE) { /* big endian */ + if(p.mem_order == H5Z_SCALEOFFSET_ORDER_BE) { /* big endian */ begin_i = (dtype_len - p.minbits) / 8; for(k = begin_i; k <= p.size - 1; k++) H5Z_scaleoffset_decompress_one_byte(data, data_offset, k, begin_i, - buffer, j, buf_len, p); + buffer, j, buf_len, p, dtype_len); } } -void H5Z_scaleoffset_decompress(void *data, unsigned d_nelmts, unsigned char *buffer, - parms_atomic p) +static void H5Z_scaleoffset_decompress(unsigned char *data, unsigned d_nelmts, + unsigned char *buffer, parms_atomic p) { /* i: index of data, j: index of buffer, buf_len: number of bits to be filled in current byte */ size_t i, j; int buf_len; - /* may not have to initialize to zeros */ - for(i = 0; i < d_nelmts*p.size; i++) - ((unsigned char *)data)[i] = 0; + /* must initialize to zeros */ + for(i = 0; i < d_nelmts*p.size; i++) data[i] = 0; /* initialization before the loop */ j = 0; @@ -735,17 +1711,16 @@ void H5Z_scaleoffset_decompress(void *data, unsigned d_nelmts, unsigned char *bu H5Z_scaleoffset_decompress_one_atomic(data, i*p.size, buffer, &j, &buf_len, p); } -void H5Z_scaleoffset_compress_one_byte(void *data, size_t data_offset, int k, int begin_i, -unsigned char *buffer, size_t *j, int *buf_len, parms_atomic p) +static void H5Z_scaleoffset_compress_one_byte(unsigned char *data, size_t data_offset, int k, +int begin_i, unsigned char *buffer, size_t *j, int *buf_len, parms_atomic p, int dtype_len) { int dat_len; /* dat_len is the number of bits to be copied in each data byte */ unsigned char val; /* value to be copied in each data byte */ /* initialize value and bits of unsigned char to be copied */ - val = ((unsigned char *)data)[data_offset + k]; - + val = data[data_offset + k]; if(k == begin_i) - dat_len = p.minbits % 8; + dat_len = 8 - (dtype_len - p.minbits) % 8; else dat_len = 8; @@ -763,8 +1738,8 @@ unsigned char *buffer, size_t *j, int *buf_len, parms_atomic p) } } -void H5Z_scaleoffset_compress_one_atomic(void *data, size_t data_offset, unsigned char *buffer, - size_t *j, int *buf_len, parms_atomic p) +static void H5Z_scaleoffset_compress_one_atomic(unsigned char *data, size_t data_offset, + unsigned char *buffer, size_t *j, int *buf_len, parms_atomic p) { /* begin_i: the index of byte having first significant bit */ int k, begin_i, dtype_len; @@ -773,25 +1748,25 @@ void H5Z_scaleoffset_compress_one_atomic(void *data, size_t data_offset, unsigne dtype_len = p.size * 8; - if(p.order == H5Z_SCALEOFFSET_ORDER_LE) { /* little endian */ + if(p.mem_order == H5Z_SCALEOFFSET_ORDER_LE) { /* little endian */ begin_i = p.size - 1 - (dtype_len - p.minbits) / 8; for(k = begin_i; k >= 0; k--) H5Z_scaleoffset_compress_one_byte(data, data_offset, k, begin_i, - buffer, j, buf_len, p); + buffer, j, buf_len, p, dtype_len); } - if(p.order == H5Z_SCALEOFFSET_ORDER_BE) { /* big endian */ + if(p.mem_order == H5Z_SCALEOFFSET_ORDER_BE) { /* big endian */ begin_i = (dtype_len - p.minbits) / 8; for(k = begin_i; k <= p.size - 1; k++) H5Z_scaleoffset_compress_one_byte(data, data_offset, k, begin_i, - buffer, j, buf_len, p); + buffer, j, buf_len, p, dtype_len); } } -void H5Z_scaleoffset_compress(void *data, unsigned d_nelmts, unsigned char *buffer, - size_t buffer_size, parms_atomic p) +static void H5Z_scaleoffset_compress(unsigned char *data, unsigned d_nelmts, unsigned char *buffer, + size_t buffer_size, parms_atomic p) { /* i: index of data, j: index of buffer, buf_len: number of bits to be filled in current byte */ |