/* ARM assembly Raspberry PI */ /* program functMul.s */ /* Constantes */ .equ STDOUT, 1 .equ WRITE, 4 .equ EXIT, 1 /***********************/ /* Initialized data */ /***********************/ .data szRetourLigne: .asciz "\n" szMessResult: .ascii "Resultat : " @ message result sMessValeur: .fill 12, 1, ' ' .asciz "\n" /*********************** /* No Initialized data */ /***********************/ .bss .text .global main main: push {fp,lr} /* save 2 registers */ @ function multiply mov r0,#8 mov r1,#50 bl multiply @ call function ldr r1,iAdrsMessValeur bl conversion10S @ call function with 2 parameter (r0,r1) ldr r0,iAdrszMessResult bl affichageMess @ display message mov r0, #0 @ return code 100: /* end of program */ mov r7, #EXIT @ request to exit program swi 0 @ perform the system call iAdrsMessValeur: .int sMessValeur iAdrszMessResult: .int szMessResult /******************************************************************/ /* Function multiply */ /******************************************************************/ /* r0 contains value 1 */ /* r1 contains value 2 */ /* r0 return résult */ multiply: mul r0,r1,r0 bx lr /* return function */ /******************************************************************/ /* display text with size calculation */ /******************************************************************/ /* r0 contains the address of the message */ affichageMess: push {fp,lr} /* save registres */ push {r0,r1,r2,r7} /* save others registers */ mov r2,#0 /* counter length */ 1: /* loop length calculation */ ldrb r1,[r0,r2] /* read octet start position + index */ cmp r1,#0 /* if 0 its over */ addne r2,r2,#1 /* else add 1 in the length */ bne 1b /* and loop */ /* so here r2 contains the length of the message */ mov r1,r0 /* address message in r1 */ mov r0,#STDOUT /* code to write to the standard output Linux */ mov r7, #WRITE /* code call system "write" */ swi #0 /* call systeme */ pop {r0,r1,r2,r7} /* restaur others registers */ pop {fp,lr} /* restaur des 2 registres */ bx lr /* return */ /***************************************************/ /* conversion register in string décimal signed */ /***************************************************/ /* r0 contains the register */ /* r1 contains address of conversion area */ conversion10S: push {fp,lr} /* save registers frame and return */ push {r0-r5} /* save other registers */ mov r2,r1 /* early storage area */ mov r5,#'+' /* default sign is + */ cmp r0,#0 /* négatif number ? */ movlt r5,#'-' /* yes sign is - */ mvnlt r0,r0 /* and inverse in positive value */ addlt r0,#1 mov r4,#10 /* area length */ 1: /* conversion loop */ bl divisionpar10 /* division */ add r1,#48 /* add 48 at remainder for conversion ascii */ strb r1,[r2,r4] /* store byte area r5 + position r4 */ sub r4,r4,#1 /* previous position */ cmp r0,#0 bne 1b /* loop if quotient not equal zéro */ strb r5,[r2,r4] /* store sign at current position */ subs r4,r4,#1 /* previous position */ blt 100f /* if r4 < 0 end */ /* else complete area with space */ mov r3,#' ' /* character space */ 2: strb r3,[r2,r4] /* store byte */ subs r4,r4,#1 /* previous position */ bge 2b /* loop if r4 greather or equal zero */ 100: /* standard end of function */ pop {r0-r5} /*restaur others registers */ pop {fp,lr} /* restaur des 2 registers frame et return */ bx lr /***************************************************/ /* division par 10 signé */ /* Thanks to http://thinkingeek.com/arm-assembler-raspberry-pi/* /* and http://www.hackersdelight.org/ */ /***************************************************/ /* r0 contient le dividende */ /* r0 retourne le quotient */ /* r1 retourne le reste */ divisionpar10: /* r0 contains the argument to be divided by 10 */ push {r2-r4} /* save autres registres */ mov r4,r0 ldr r3, .Ls_magic_number_10 /* r1 <- magic_number */ smull r1, r2, r3, r0 /* r1 <- Lower32Bits(r1*r0). r2 <- Upper32Bits(r1*r0) */ mov r2, r2, ASR #2 /* r2 <- r2 >> 2 */ mov r1, r0, LSR #31 /* r1 <- r0 >> 31 */ add r0, r2, r1 /* r0 <- r2 + r1 */ add r2,r0,r0, lsl #2 /* r2 <- r0 * 5 */ sub r1,r4,r2, lsl #1 /* r1 <- r4 - (r2 * 2) = r4 - (r0 * 10) */ pop {r2-r4} bx lr /* leave function */ .align 4 .Ls_magic_number_10: .word 0x66666667