/* ARM assembly Raspberry PI */ /* program condstr.s */ /* Constantes */ .equ STDOUT, 1 @ Linux output console .equ EXIT, 1 @ Linux syscall .equ WRITE, 4 @ Linux syscall /* Initialized data */ .data szMessTest1: .asciz "The test 1 is equal.\n" szMessTest1N: .asciz "The test 1 is not equal.\n" szMessTest2: .asciz "The test 2 is equal.\n" szMessTest2N: .asciz "The test 2 is not equal.\n" szMessTest3: .asciz "The test 3 is <.\n" szMessTest3N: .asciz "The test 3 is >.\n" szMessTest4: .asciz "The test 4 is <=.\n" szMessTest4N: .asciz "The test 4 is >.\n" szMessTest5: .asciz "The test 5 is negative.\n" szMessTest5N: .asciz "The test 5 is positive ou equal 0.\n" szMessTest6: .asciz "Test 6 : carry is off.\n" szMessTest6N: .asciz "Test 6 : carry is set.\n" szMessTest7: .asciz "Test 7 : no overflow.\n" szMessTest7N: .asciz "Test 7 : overflow.\n" szMessTest8: .asciz "Test 8 : then.\n" szMessTest8N: .asciz "Test 8 : else.\n" /* UnInitialized data */ .bss /* code section */ .text .global main main: /* entry of program */ push {fp,lr} /* saves 2 registers */ @ test equal zero, not equal zero @movs r1,#0 @ comments movs r1,#1 @ @ s --> flags and uncomments ldreq r0,iAdrszMessTest1 ldrne r0,iAdrszMessTest1N bl affichageMess @ test equal 5, not equal 5 @mov r1,#5 mov r1,#10 cmp r1,#5 ldreq r0,iAdrszMessTest2 ldrne r0,iAdrszMessTest2N bl affichageMess @ test < 5, > 5 SIGNED mov r1,#-10 @mov r1,#10 cmp r1,#5 ldrlt r0,iAdrszMessTest3 ldrgt r0,iAdrszMessTest3N bl affichageMess @ test < 5, > 5 UNSIGNED @mov r1,#-10 mov r1,#2 cmp r1,#5 ldrls r0,iAdrszMessTest4 ldrhi r0,iAdrszMessTest4N bl affichageMess @ test < 0, > 0 @movs r1,#-10 movs r1,#2 @ s --> flags ldrmi r0,iAdrszMessTest5 ldrpl r0,iAdrszMessTest5N bl affichageMess @ carry off carry on @mov r1,#-10 @ for carry set @mov r1,#10 @ for carry off mov r1,#(2<<30) - 1 @ for carry off adds r1,#20 @ s --> flags ldrcc r0,iAdrszMessTest6 @ carry clear ldrcs r0,iAdrszMessTest6N @ carry set bl affichageMess @ overflow off overflow on @mov r1,#-10 @ for not overflow @mov r1,#10 @ for not overflow mov r1,#(2<<30) - 1 @ for overflow adds r1,#20 @ s --> flags ldrvc r0,iAdrszMessTest7 @ overflow off ldrvs r0,iAdrszMessTest7N @ overflow on bl affichageMess @ other if then else mov r1,#5 @ for then @mov r1,#20 @ for else cmp r1,#10 ble 1f @ less or equal @bge 1f @ greather or equal @else ldr r0,iAdrszMessTest8N @ overflow off bl affichageMess b 2f 1: @ then ldr r0,iAdrszMessTest8 @ overflow off bl affichageMess 2: 100: /* standard end of the program */ mov r0, #0 @ return code pop {fp,lr} @restaur 2 registers mov r7, #EXIT @ request to exit program swi 0 @ perform the system call iAdrszMessTest1: .int szMessTest1 iAdrszMessTest1N: .int szMessTest1N iAdrszMessTest2: .int szMessTest2 iAdrszMessTest2N: .int szMessTest2N iAdrszMessTest3: .int szMessTest3 iAdrszMessTest3N: .int szMessTest3N iAdrszMessTest4: .int szMessTest4 iAdrszMessTest4N: .int szMessTest4N iAdrszMessTest5: .int szMessTest5 iAdrszMessTest5N: .int szMessTest5N iAdrszMessTest6: .int szMessTest6 iAdrszMessTest6N: .int szMessTest6N iAdrszMessTest7: .int szMessTest7 iAdrszMessTest7N: .int szMessTest7N iAdrszMessTest8: .int szMessTest8 iAdrszMessTest8N: .int szMessTest8N /******************************************************************/ /* 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 */