code: 9ferno

ref: 44ce0097b612a1fefd754065bdf8d9d2e5ef60c8
dir: /man/2/math-export/

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.TH MATH-EXPORT 2
.SH NAME
Math: export_int, export_real, export_real32, import_int, import_real, import_real32 \- conversion to and from external representation
.SH SYNOPSIS
.EX
include "math.m";
math := load Math Math->PATH;

export_int:    fn(b: array of byte, x: array of int);
export_real32: fn(b: array of byte, x: array of real);
export_real:   fn(b: array of byte, x: array of real);

import_int:    fn(b: array of byte, x: array of int);
import_real32: fn(b: array of byte, x: array of real);
import_real:   fn(b: array of byte, x: array of real);
.EE
.SH DESCRIPTION
These routines convert between Limbo's internal representation of
integer and floating-point values, and equivalent external representations as
arrays of bytes, allowing efficient input/output of binary representations.
.PP
.BI Export_int( b , \ x )
converts each integer element of array
.I x
into a sequence of 4 bytes in array
.IR b .
.PP
.BI Export_real( b , \ x )
converts each double-precision floating-point element of array
.I x
into a sequence of 8 bytes in array
.IR b .
.PP
.BI Export_real32( b , \ x )
converts each double-precision floating-point element of array
.I x
to a single-precision value, then encodes it as a sequence of 4 bytes in array
.IR b .
.PP
Each
.BI import_ T
operation reverses the transformation of the corresponding
.BI export_ T
operation, converting an array of bytes containing a sequence of external representations
into an array of values of the appropriate internal form.
.PP
Values are encoded in big-endian order (most significant byte first), with floating-point
values represented in IEEE 32-bit or 64-bit form (again, most significant byte first).
.SH SOURCE
.B /libinterp/math.c
.SH SEE ALSO
.IR math-intro (2)