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[/] [forwardcom/] [examples/] [calculator.as] - Rev 156
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/**************************** calculator.as *********************************
* Author: Agner Fog
* date created: 2021-05-26
* last modified: 2021-07-20
* Version: 1.11
* Project: ForwardCom example, assembly code
* Description: Simple test of arithmetic instructions
* Link with libc_light.li
*
* Copyright 2021 GNU General Public License http://www.gnu.org/licenses
*****************************************************************************/
// Library functions in libc_light.li
extern _print_string: function reguse=3,0
extern _printf: function reguse=0xF,0
extern _gets_s: function reguse=3,0
extern _atoi: function reguse=3,0
extern _multiply_int: function reguse=1,0
extern _divide_int: function reguse=3,0
%serial_input_status = 9 // serial input status port
const section read ip // read-only data section
// text strings
int8 text1 = "\nSimple calculator with two integers, a and b\n\nEnter a: \0"
int8 text2 = "\nEnter b: \0"
int8 text3 = "\nAgain (y/n)?: \0"
int8 text4 = "\nGoodbye\n\0"
// format string for printf
int8 formatstring = "\n\na = %8i"
int8 "\nb = %8i"
int8 "\na + b = %8i"
int8 "\na - b = %8i"
int8 "\na * b = %8i"
int8 "\na / b = %8i"
int8 "\na %% b = %8i\n\0"
const end
code section execute // code section
_main function public // program start
%stackframe = 64 // size of local data
int64 sp -= stackframe // allocate input buffer on stack
do { // repeat as long as user answers yes
int r0 = 1 // clear input buffer
int output(r0, r0, serial_input_status)
int64 r0 = address([text1])
call _print_string // print intro text
int64 r0 = sp
int r1 = stackframe // max. size of input buffer
call _gets_s // read a as string
call _atoi // convert to integer
int32 r8 = r0 // save a
int64 r0 = address([text2])
call _print_string // print Enter b
int64 r0 = sp
int r1 = stackframe // max. size of input buffer
call _gets_s // read b as string
call _atoi // convert to integer
int32 r9 = r0 // save b
// set up parameter list with results
// (reuse the input buffer as parameter list)
int32 [sp+0x00] = r8 // a
int32 [sp+0x08] = r9 // b
int32 r2 = r8 + r9 // a + b
int32 [sp+0x10] = r2
int32 r2 = r8 - r9 // a - b
int32 [sp+0x18] = r2
int32 r0 = r8
int32 r1 = r9
call _multiply_int // a * b, using function call
int32 [sp+0x20] = r0
int32 r0 = r8
int32 r1 = r9
call _divide_int // a / b, using function call
int32 [sp+0x28] = r0
int32 [sp+0x30] = r1 // a % b
// print results
int64 r0 = address([formatstring]) // pointer to format string
int64 r1 = sp // pointer to parameter list
call _printf // print results
// ask if the user wants to try again
int64 r0 = address([text3])
call _print_string // print Again?
int64 r0 = sp
int r1 = stackframe // max. size of input buffer
call _gets_s // read answer as string
int8 r1 = [sp] | 0x20 // read first character of answer, convert to lower case
} while (int8+ r1 == 'y') // repeat if user enters 'y'
// write goodbye text
int64 r0 = address([text4])
call _print_string // print goodbye
int64 sp += stackframe // release stack frame
int r0 = 0
return // return from main
_main end
code end
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