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Updated: 11 December 1998

OpenVMS RTL Library (LIB$) Manual


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Declarations for the input_type_code argument are in the $CVTDEF module found in the system symbol libraries.

output_value


OpenVMS usage: varying_arg
type: unspecified
access: write only
mechanism: by reference

The address of a data area that receives the converted floating-point number. The number can be floating-point data in F_Floating, D_Floating, G_Floating, H_Floating, IEEE_S_Floating, IEEE_T_Floating, IEEE_X_Floating, Big_Endian_IEEE_S_Floating, Big_Endian_IEEE_T_Floating, Big_Endian_IEEE_X_Floating, IBM_Long_Floating, IBM_Short_Floating, or CRAY_Floating_Single format. The value of the output_type_code argument determines the size and format of the converted floating-point number.

output_type_code


OpenVMS usage: longword_unsigned
type: longword (unsigned)
access: read only
mechanism: by value

The value of a longword bit mask specifying the type of floating-point data that the input_value argument will be converted into and returned in the output_value argument. Valid type codes are:
Output_type_code Format Size in Bytes
CVT$K_VAX_F F_Floating 4
CVT$K_VAX_D D_Floating 8
CVT$K_VAX_G G_Floating 8
CVT$K_VAX_H H_Floating 16
CVT$K_IEEE_S IEEE_S_Floating 4
CVT$K_IEEE_T IEEE_T_Floating 8
CVT$K_IEEE_X IEEE_X_Floating 16
CVT$K_BIG_ENDIAN_IEEE_S Big_Endian_IEEE_S_Floating 4
CVT$K_BIG_ENDIAN_IEEE_T Big_Endian_IEEE_T_Floating 8
CVT$K_BIG_ENDIAN_IEEE_X Big_Endian_IEEE_X_Floating 16
CVT$K_IBM_LONG IBM_Long_Floating 8
CVT$K_IBM_SHORT IBM_Short_Floating 4
CVT$K_CRAY_SINGLE CRAY_Floating 8

Declarations for the output_type_code argument are in the $CVTDEF module found in the system symbol libraries.

options


OpenVMS usage: mask_longword
type: longword (unsigned)
access: read only
mechanism: by value

Conversion option specifier. The options argument is the address of a longword bit mask in which each option bit set causes the corresponding option to be used during the conversion. Provide a zero (0) value to the options argument to select default behavior or choose one or more options (status condition option, rounding options, "FORCE" options, CRAY and IBM options) from the following tables. Specify only the options that apply to your conversion. A conflicting or incompatible options argument is reported as an error (CVT$M_INVALID_OPTION).
Applicable Conversion Option Description
  Status Condition Option
All CVT$M_REPORT_ALL Report all applicable status conditions as the default. The reporting of recoverable status conditions is disabled by default when this option is not used.
  Rounding Options
All CVT$M_ROUND_TO_NEAREST The default rounding option for conversions to IEEE data types. This IEEE Std. 754 rounding mode results in the representable output value nearest to the infinitely precise result. If the two nearest representable values are equally near, the one whose least significant bit is 0 is the result.
All CVT$M_BIASED_ROUNDING The default rounding option for conversions to non-IEEE data types. Performs "traditional" style rounding. This mode results in the representable output value nearest to the infinitely precise result. If the two nearest representable values are equally near, the output value is the closest to either positive infinity or negative infinity depending on the sign of the input value.
All CVT$M_ROUND_TO_ZERO Round the output value toward zero (truncate).
All CVT$M_ROUND_TO_POS Round the output value toward positive infinity.
All CVT$M_ROUND_TO_NEG Round the output value toward negative infinity.
  "FORCE" Options
All CVT$M_FORCE_ALL_SPECIAL_VALUES Apply all applicable "FORCE" options for the current conversion.
IEEE CVT$M_FORCE_DENORM_TO_ZERO 1 Force a denormalized IEEE output value to zero.
IEEE CVT$M_FORCE_INF_TO_MAX_FLOAT 1 Force a positive IEEE infinite output value to +max_float and force a negative IEEE infinite output value to --max_float.
IEEE or VAX CVT$M_FORCE_INVALID_TO_ZERO 2 Force an invalid IEEE NaN (not a number) output value or a VAX ROP (reserved operand) output value to zero.
  CRAY Format Conversion Options
CRAY CVT$M_ALLOW_OVRFLW_RANGE_VALUES Allow an input/output exponent value > 60000 (8).
CRAY CVT$M_ALLOW_UDRFLW_RANGE_VALUES Allow an input/output exponent value < 20000 (8).
IBM Format Conversion Option
IBM CVT$M_ALLOW_UNNORMALIZED_VALUES Allow unnormalized input arguments. Allow an unnormalized output value for a small value that would normalize to zero.

1This option is valid only for conversions to IEEE output values.
2This option is valid only for conversions to IEEE or VAX output values.

The maximum representable floating-point values (max_float) for the IEEE_S_Floating, IEEE_T_Floating, IEEE_X_Floating, Big_Endian_IEEE_S_Floating, Big_Endian_IEEE_T_Floating, and Big_Endian_IEEE_X_Floating formats are:
Data Type Value for: max_float
S Decimal: 3.402823e38
T Decimal: 1.797693134862316e308
X Decimal: 1.189731495357231765085759326628007016196477e4932

Declarations for the options argument are in the $CVTDEF module found in the system symbol libraries.


Description

CVT$FTOF functionality is available on all Compaq platforms and is the floating-point conversion routine of choice for portability. When compared with the standard CVT$CONVERT_FLOAT routine, CVT$FTOF includes additional functionality and increased performance.

CVT$FTOF is a general-purpose floating-point conversion routine that converts any input_type_code floating-point data type into any output_type_code floating-point data type. The conversion is subject to the options specified in the options argument.

Note

OpenVMS compilers do not support arithmetic operations for all of the floating-point data types described here. Additional floating-point data types are supported by this routine for data conversion purposes only.


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