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gnupg/tools/mpicalc.c

386 lines
7.6 KiB
C

/* mpitest.c - test the mpi functions
* Copyright (C) 1998, 1999, 2000, 2001 Free Software Foundation, Inc.
*
* This is an RPN calculator; values must be given in hex.
* Operation is like dc(1) except that the input/output radix is
* always 16 and you can use a '-' to prefix a negative number.
* Addition operators: ++ and --. All operators must be delimited by a blank
*
*
* This file is part of GnuPG.
*
* GnuPG is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* GnuPG is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301,
* USA.
*/
#include <config.h>
#include <stdio.h>
#include <stdlib.h>
#include <ctype.h>
#include "util.h"
#include "mpi.h"
#include "i18n.h"
#define STACKSIZE 100
static MPI stack[STACKSIZE];
static int stackidx;
const char *
strusage( int level )
{
const char *p;
switch( level ) {
case 10:
case 0: p = "mpicalc - v" VERSION "; "
"Copyright 1997 Werner Koch (dd9jn)" ; break;
case 13: p = "mpicalc"; break;
case 14: p = VERSION; break;
case 1:
case 11: p = "Usage: mpicalc (-h for help)";
break;
case 2:
case 12: p =
"\nSyntax: mpicalc [options] [files]\n"
"MPI RPN calculator\n";
break;
default: p = default_strusage(level);
}
return p;
}
static void
i18n_init(void)
{
#ifdef ENABLE_NLS
setlocale( LC_ALL, "" );
bindtextdomain( PACKAGE, G10_LOCALEDIR );
textdomain( PACKAGE );
#endif
}
static void
do_add(void)
{
if( stackidx < 2 ) {
fputs("stack underflow\n",stderr);
return;
}
mpi_add( stack[stackidx-2], stack[stackidx-2], stack[stackidx-1] );
stackidx--;
}
static void
do_sub(void)
{
if( stackidx < 2 ) {
fputs("stack underflow\n", stderr);
return;
}
mpi_sub( stack[stackidx-2], stack[stackidx-2], stack[stackidx-1] );
stackidx--;
}
static void
do_inc(void)
{
if( stackidx < 1 ) {
fputs("stack underflow\n", stderr);
return;
}
mpi_add_ui( stack[stackidx-1], stack[stackidx-1], 1 );
}
static void
do_dec(void)
{
if( stackidx < 1 ) {
fputs("stack underflow\n", stderr);
return;
}
/* mpi_sub_ui( stack[stackidx-1], stack[stackidx-1], 1 ); */
}
static void
do_mul(void)
{
if( stackidx < 2 ) {
fputs("stack underflow\n", stderr);
return;
}
mpi_mul( stack[stackidx-2], stack[stackidx-2], stack[stackidx-1] );
stackidx--;
}
static void
do_mulm(void)
{
if( stackidx < 3 ) {
fputs("stack underflow\n", stderr);
return;
}
mpi_mulm( stack[stackidx-3], stack[stackidx-3],
stack[stackidx-2], stack[stackidx-1] );
stackidx -= 2;
}
static void
do_div(void)
{
if( stackidx < 2 ) {
fputs("stack underflow\n", stderr);
return;
}
mpi_fdiv_q( stack[stackidx-2], stack[stackidx-2], stack[stackidx-1] );
stackidx--;
}
static void
do_rem(void)
{
if( stackidx < 2 ) {
fputs("stack underflow\n", stderr);
return;
}
mpi_fdiv_r( stack[stackidx-2], stack[stackidx-2], stack[stackidx-1] );
stackidx--;
}
static void
do_powm(void)
{
MPI a;
if( stackidx < 3 ) {
fputs("stack underflow\n", stderr);
return;
}
a= mpi_alloc(10);
mpi_powm( a, stack[stackidx-3], stack[stackidx-2], stack[stackidx-1] );
mpi_free(stack[stackidx-3]);
stack[stackidx-3] = a;
stackidx -= 2;
}
static void
do_inv(void)
{
MPI a = mpi_alloc(40);
if( stackidx < 2 ) {
fputs("stack underflow\n", stderr);
return;
}
mpi_invm( a, stack[stackidx-2], stack[stackidx-1] );
mpi_set(stack[stackidx-2],a);
mpi_free(a);
stackidx--;
}
static void
do_gcd(void)
{
MPI a = mpi_alloc(40);
if( stackidx < 2 ) {
fputs("stack underflow\n", stderr);
return;
}
mpi_gcd( a, stack[stackidx-2], stack[stackidx-1] );
mpi_set(stack[stackidx-2],a);
mpi_free(a);
stackidx--;
}
static void
do_rshift(void)
{
if( stackidx < 1 ) {
fputs("stack underflow\n", stderr);
return;
}
mpi_rshift( stack[stackidx-1],stack[stackidx-1], 1 );
}
int
main(int argc, char **argv)
{
static ARGPARSE_OPTS opts[] = {
{0} };
ARGPARSE_ARGS pargs;
int i, c;
int state = 0;
char strbuf[1000];
int stridx=0;
pargs.argc = &argc;
pargs.argv = &argv;
pargs.flags = 0;
i18n_init();
while( arg_parse( &pargs, opts) ) {
switch( pargs.r_opt ) {
default : pargs.err = 2; break;
}
}
if( argc )
usage(1);
for(i=0; i < STACKSIZE; i++ )
stack[i] = NULL;
stackidx =0;
while( (c=getc(stdin)) != EOF ) {
if( !state ) { /* waiting */
if( isdigit(c) ) {
state = 1;
ungetc(c, stdin);
strbuf[0] = '0';
strbuf[1] = 'x';
stridx=2;
}
else if( isspace(c) )
;
else {
switch(c) {
case '+':
if( (c=getc(stdin)) == '+' )
do_inc();
else {
ungetc(c, stdin);
do_add();
}
break;
case '-':
if( (c=getc(stdin)) == '-' )
do_dec();
else if( isdigit(c) || (c >='A' && c <= 'F') ) {
state = 1;
ungetc(c, stdin);
strbuf[0] = '-';
strbuf[1] = '0';
strbuf[2] = 'x';
stridx=3;
}
else {
ungetc(c, stdin);
do_sub();
}
break;
case '*':
do_mul();
break;
case 'm':
do_mulm();
break;
case '/':
do_div();
break;
case '%':
do_rem();
break;
case '^':
do_powm();
break;
case 'I':
do_inv();
break;
case 'G':
do_gcd();
break;
case '>':
do_rshift();
break;
case 'i': /* dummy */
if( !stackidx )
fputs("stack underflow\n", stderr);
else {
mpi_free(stack[stackidx-1]);
stackidx--;
}
break;
case 'd': /* duplicate the tos */
if( !stackidx )
fputs("stack underflow\n", stderr);
else if( stackidx < STACKSIZE ) {
mpi_free(stack[stackidx]);
stack[stackidx] = mpi_copy( stack[stackidx-1] );
stackidx++;
}
else
fputs("stack overflow\n", stderr);
break;
case 'c':
for(i=0; i < stackidx; i++ )
mpi_free(stack[i]), stack[i] = NULL;
stackidx = 0;
break;
case 'p': /* print the tos */
if( !stackidx )
puts("stack is empty");
else {
mpi_print(stdout, stack[stackidx-1], 1 );
putchar('\n');
}
break;
case 'f': /* print the stack */
for( i = stackidx-1 ; i >= 0; i-- ) {
printf("[%2d]: ", i );
mpi_print(stdout, stack[i], 1 );
putchar('\n');
}
break;
default:
fputs("invalid operator\n", stderr);
}
}
}
else if( state == 1 ) { /* in a number */
if( !isxdigit(c) ) { /* store the number */
state = 0;
ungetc(c, stdin);
if( stridx < 1000 )
strbuf[stridx] = 0;
if( stackidx < STACKSIZE ) {
if( !stack[stackidx] )
stack[stackidx] = mpi_alloc(10);
if( mpi_fromstr(stack[stackidx], strbuf) )
fputs("invalid number\n", stderr);
else
stackidx++;
}
else
fputs("stack overflow\n", stderr);
}
else { /* store digit */
if( stridx < 999 )
strbuf[stridx++] = c;
else if( stridx == 999 ) {
strbuf[stridx] = 0;
fputs("string too large - truncated\n", stderr);
stridx++;
}
}
}
}
for(i=0; i < stackidx; i++ )
mpi_free(stack[i]);
return 0;
}