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|
/*-------------------------------------------------------------------------
*
* int.c--
* Functions for the built-in integer types.
*
* Copyright (c) 1994, Regents of the University of California
*
*
* IDENTIFICATION
* $Header: /cvsroot/pgsql/src/backend/utils/adt/int.c,v 1.5 1997/09/07 04:50:21 momjian Exp $
*
*-------------------------------------------------------------------------
*/
/*
* OLD COMMENTS
* I/O routines:
* int2in, int2out, int28in, int28out, int4in, int4out
* Conversion routines:
* itoi
* Boolean operators:
* inteq, intne, intlt, intle, intgt, intge
* Arithmetic operators:
* intpl, intmi, int4mul, intdiv
*
* Arithmetic operators:
* intmod, int4fac
*
* XXX makes massive and possibly unwarranted type promotion assumptions.
* fix me when we figure out what we want to do about ANSIfication...
*/
#include <stdio.h>
#include "postgres.h"
#include "fmgr.h"
#include "utils/builtins.h" /* where the declarations go */
/*****************************************************************************
* USER I/O ROUTINES *
*****************************************************************************/
/*
* int2in - converts "num" to short
*/
int32
int2in(char *num)
{
return ((int32) pg_atoi(num, sizeof(int16), '\0'));
}
/*
* int2out - converts short to "num"
*/
char *
int2out(int16 sh)
{
char *result;
result = (char *) palloc(7);/* assumes sign, 5 digits, '\0' */
itoa((int) sh, result);
return (result);
}
/*
* int28in - converts "num num ..." to internal form
*
* Note:
* Fills any nonexistent digits with NULLs.
*/
int16 *
int28in(char *shs)
{
register int16(*result)[];
int nums;
if (shs == NULL)
return (NULL);
result = (int16(*)[]) palloc(sizeof(int16[8]));
if ((nums = sscanf(shs, "%hd%hd%hd%hd%hd%hd%hd%hd",
*result,
*result + 1,
*result + 2,
*result + 3,
*result + 4,
*result + 5,
*result + 6,
*result + 7)) != 8)
{
do
(*result)[nums++] = 0;
while (nums < 8);
}
return ((int16 *) result);
}
/*
* int28out - converts internal form to "num num ..."
*/
char *
int28out(int16(*shs)[])
{
register int num;
register int16 *sp;
register char *rp;
char *result;
if (shs == NULL)
{
result = (char *) palloc(2);
result[0] = '-';
result[1] = '\0';
return (result);
}
rp = result = (char *) palloc(8 * 7); /* assumes sign, 5 digits,
* ' ' */
sp = *shs;
for (num = 8; num != 0; num--)
{
itoa(*sp++, rp);
while (*++rp != '\0')
;
*rp++ = ' ';
}
*--rp = '\0';
return (result);
}
/*
* int28in - converts "num num ..." to internal form
*
* Note:
* Fills any nonexistent digits with NULLs.
*/
int32 *
int44in(char *input_string)
{
int32 *foo = (int32 *) palloc(4 * sizeof(int32));
register int i = 0;
i = sscanf(input_string,
"%d, %d, %d, %d",
&foo[0],
&foo[1],
&foo[2],
&foo[3]);
while (i < 4)
foo[i++] = 0;
return (foo);
}
/*
* int28out - converts internal form to "num num ..."
*/
char *
int44out(int32 an_array[])
{
int temp = 4;
char *output_string = NULL;
int i;
if (temp > 0)
{
char *walk;
output_string = (char *) palloc(16 * temp); /* assume 15 digits +
* sign */
walk = output_string;
for (i = 0; i < temp; i++)
{
itoa(an_array[i], walk);
while (*++walk != '\0')
;
*walk++ = ' ';
}
*--walk = '\0';
}
return (output_string);
}
/*****************************************************************************
* PUBLIC ROUTINES *
*****************************************************************************/
/*
* int4in - converts "num" to int4
*/
int32
int4in(char *num)
{
return (pg_atoi(num, sizeof(int32), '\0'));
}
/*
* int4out - converts int4 to "num"
*/
char *
int4out(int32 l)
{
char *result;
result = (char *) palloc(12); /* assumes sign, 10 digits, '\0' */
ltoa(l, result);
return (result);
}
/*
* ===================
* CONVERSION ROUTINES
* ===================
*/
int32
i2toi4(int16 arg1)
{
return ((int32) arg1);
}
int16
i4toi2(int32 arg1)
{
if (arg1 < -0x8000)
elog(NOTICE, "i4toi2: \"%d\" causes int2 underflow", arg1);
if (arg1 > 0x7FFF)
elog(NOTICE, "i4toi2: \"%d\" causes int2 overflow", arg1);
return ((int16) arg1);
}
/*
* =========================
* BOOLEAN OPERATOR ROUTINES
* =========================
*/
/*
* inteq - returns 1 iff arg1 == arg2
* intne - returns 1 iff arg1 != arg2
* intlt - returns 1 iff arg1 < arg2
* intle - returns 1 iff arg1 <= arg2
* intgt - returns 1 iff arg1 > arg2
* intge - returns 1 iff arg1 >= arg2
*/
bool int4eq(int32 arg1, int32 arg2)
{
return (arg1 == arg2);
}
bool int4ne(int32 arg1, int32 arg2)
{
return (arg1 != arg2);
}
bool int4lt(int32 arg1, int32 arg2)
{
return (arg1 < arg2);
}
bool int4le(int32 arg1, int32 arg2)
{
return (arg1 <= arg2);
}
bool int4gt(int32 arg1, int32 arg2)
{
return (arg1 > arg2);
}
bool int4ge(int32 arg1, int32 arg2)
{
return (arg1 >= arg2);
}
bool int2eq(int16 arg1, int16 arg2)
{
return (arg1 == arg2);
}
bool int2ne(int16 arg1, int16 arg2)
{
return (arg1 != arg2);
}
bool int2lt(int16 arg1, int16 arg2)
{
return (arg1 < arg2);
}
bool int2le(int16 arg1, int16 arg2)
{
return (arg1 <= arg2);
}
bool int2gt(int16 arg1, int16 arg2)
{
return (arg1 > arg2);
}
bool int2ge(int16 arg1, int16 arg2)
{
return (arg1 >= arg2);
}
bool int24eq(int32 arg1, int32 arg2)
{
return (arg1 == arg2);
}
bool int24ne(int32 arg1, int32 arg2)
{
return (arg1 != arg2);
}
bool int24lt(int32 arg1, int32 arg2)
{
return (arg1 < arg2);
}
bool int24le(int32 arg1, int32 arg2)
{
return (arg1 <= arg2);
}
bool int24gt(int32 arg1, int32 arg2)
{
return (arg1 > arg2);
}
bool int24ge(int32 arg1, int32 arg2)
{
return (arg1 >= arg2);
}
bool int42eq(int32 arg1, int32 arg2)
{
return (arg1 == arg2);
}
bool int42ne(int32 arg1, int32 arg2)
{
return (arg1 != arg2);
}
bool int42lt(int32 arg1, int32 arg2)
{
return (arg1 < arg2);
}
bool int42le(int32 arg1, int32 arg2)
{
return (arg1 <= arg2);
}
bool int42gt(int32 arg1, int32 arg2)
{
return (arg1 > arg2);
}
bool int42ge(int32 arg1, int32 arg2)
{
return (arg1 >= arg2);
}
bool keyfirsteq(int16 * arg1, int16 arg2)
{
return (*arg1 == arg2);
}
/*
* int[24]pl - returns arg1 + arg2
* int[24]mi - returns arg1 - arg2
* int[24]mul - returns arg1 * arg2
* int[24]div - returns arg1 / arg2
*/
int32 int4um(int32 arg)
{
return (-arg);
}
int32 int4pl(int32 arg1, int32 arg2)
{
return (arg1 + arg2);
}
int32 int4mi(int32 arg1, int32 arg2)
{
return (arg1 - arg2);
}
int32 int4mul(int32 arg1, int32 arg2)
{
return (arg1 * arg2);
}
int32 int4div(int32 arg1, int32 arg2)
{
return (arg1 / arg2);
}
int32 int4inc(int32 arg)
{
return (arg + (int32) 1);
}
int16 int2um(int16 arg)
{
return (-arg);
}
int16 int2pl(int16 arg1, int16 arg2)
{
return (arg1 + arg2);
}
int16 int2mi(int16 arg1, int16 arg2)
{
return (arg1 - arg2);
}
int16 int2mul(int16 arg1, int16 arg2)
{
return (arg1 * arg2);
}
int16 int2div(int16 arg1, int16 arg2)
{
return (arg1 / arg2);
}
int16 int2inc(int16 arg)
{
return (arg + (int16) 1);
}
int32 int24pl(int32 arg1, int32 arg2)
{
return (arg1 + arg2);
}
int32 int24mi(int32 arg1, int32 arg2)
{
return (arg1 - arg2);
}
int32 int24mul(int32 arg1, int32 arg2)
{
return (arg1 * arg2);
}
int32 int24div(int32 arg1, int32 arg2)
{
return (arg1 / arg2);
}
int32 int42pl(int32 arg1, int32 arg2)
{
return (arg1 + arg2);
}
int32 int42mi(int32 arg1, int32 arg2)
{
return (arg1 - arg2);
}
int32 int42mul(int32 arg1, int32 arg2)
{
return (arg1 * arg2);
}
int32 int42div(int32 arg1, int32 arg2)
{
return (arg1 / arg2);
}
/*
* int[24]mod - returns arg1 mod arg2
*/
int32 int4mod(int32 arg1, int32 arg2)
{
return (arg1 % arg2);
}
int32 int2mod(int16 arg1, int16 arg2)
{
return (arg1 % arg2);
}
int32 int24mod(int32 arg1, int32 arg2)
{
return (arg1 % arg2);
}
int32 int42mod(int32 arg1, int32 arg2)
{
return (arg1 % arg2);
}
/*
* int[24]fac - returns arg1!
*/
int32
int4fac(int32 arg1)
{
int32 result;
if (arg1 < 1)
result = 0;
else
for (result = 1; arg1 > 0; --arg1)
result *= arg1;
return (result);
}
int32
int2fac(int16 arg1)
{
int16 result;
if (arg1 < 1)
result = 0;
else
for (result = 1; arg1 > 0; --arg1)
result *= arg1;
return (result);
}
int16
int2larger(int16 arg1, int16 arg2)
{
return ((arg1 > arg2) ? arg1 : arg2);
}
int16
int2smaller(int16 arg1, int16 arg2)
{
return ((arg1 < arg2) ? arg1 : arg2);
}
int32
int4larger(int32 arg1, int32 arg2)
{
return ((arg1 > arg2) ? arg1 : arg2);
}
int32
int4smaller(int32 arg1, int32 arg2)
{
return ((arg1 < arg2) ? arg1 : arg2);
}
|
