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Add task to ARM assembly Raspberry pi
(Add task to ARM assembly Raspberry pi) |
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=={{header|ARM Assembly}}==
{{works with|as|Raspberry Pi}}
<lang ARM Assembly>
/* ARM assembly Raspberry PI */
/* program createXml.s */
/* install package libxml++2.6-dev */
/* link with gcc option -lxml2 */
/* Constantes */
.equ STDOUT, 1 @ Linux output console
.equ EXIT, 1 @ Linux syscall
.equ WRITE, 4 @ Linux syscall
/*********************************/
/* Initialized data */
/*********************************/
.data
szMessEndpgm: .asciz "Normal end of program.\n"
szFileName: .asciz "file1.xml"
szFileMode: .asciz "w"
szMessError: .asciz "Error detected !!!!. \n"
szVersDoc: .asciz "1.0"
szLibRoot: .asciz "root"
szLibElement: .asciz "element"
szText: .asciz "some text here"
szCarriageReturn: .asciz "\n"
/*********************************/
/* UnInitialized data */
/*********************************/
.bss
.align 4
/*********************************/
/* code section */
/*********************************/
.text
.global main
main: @ entry of program
ldr r0,iAdrszVersDoc
bl xmlNewDoc @ create doc
mov r9,r0 @ doc address
mov r0,#0
ldr r1,iAdrszLibRoot
bl xmlNewNode @ create root node
mov r8,r0 @ node root address
mov r0,r9
mov r1,r8
bl xmlDocSetRootElement
@TODO voir la gestion des erreurs
mov r0,#0
ldr r1,iAdrszLibElement
bl xmlNewNode @ create element node
mov r7,r0 @ node element address
ldr r0,iAdrszText
bl xmlNewText @ create text
mov r6,r0 @ text address
mov r0,r7 @ node element address
mov r1,r6 @ text address
bl xmlAddChild @ add text to element node
mov r0,r8 @ node root address
mov r1,r7 @ node element address
bl xmlAddChild @ add node elemeny to root node
ldr r0,iAdrszFileName
ldr r1,iAdrszFileMode
bl fopen @ file open
cmp r0,#0
blt 99f
mov r5,r0 @ File descriptor
mov r1,r9 @ doc
mov r2,r8 @ root
bl xmlElemDump @ write xml file
cmp r0,#0
blt 99f
mov r0,r5
bl fclose @ file close
mov r0,r9
bl xmlFreeDoc
bl xmlCleanupParser
ldr r0,iAdrszMessEndpgm
bl affichageMess
b 100f
99:
@ error
ldr r0,iAdrszMessError
bl affichageMess
100: @ standard end of the program
mov r0, #0 @ return code
mov r7, #EXIT @ request to exit program
svc #0 @ perform the system call
iAdrszMessError: .int szMessError
iAdrszMessEndpgm: .int szMessEndpgm
iAdrszVersDoc: .int szVersDoc
iAdrszLibRoot: .int szLibRoot
iAdrszLibElement: .int szLibElement
iAdrszText: .int szText
iAdrszFileName: .int szFileName
iAdrszFileMode: .int szFileMode
iAdrszCarriageReturn: .int szCarriageReturn
/******************************************************************/
/* display text with size calculation */
/******************************************************************/
/* r0 contains the address of the message */
affichageMess:
push {r0,r1,r2,r7,lr} @ save registres
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"
svc #0 @ call systeme
pop {r0,r1,r2,r7,lr} @ restaur registers */
bx lr @ return
/******************************************************************/
/* Converting a register to a decimal */
/******************************************************************/
/* r0 contains value and r1 address area */
.equ LGZONECAL, 10
conversion10:
push {r1-r4,lr} @ save registers
mov r3,r1
mov r2,#LGZONECAL
1: @ start loop
bl divisionpar10 @ r0 <- dividende. quotient ->r0 reste -> r1
add r1,#48 @ digit
strb r1,[r3,r2] @ store digit on area
cmp r0,#0 @ stop if quotient = 0
subne r2,#1 @ previous position
bne 1b @ else loop
@ end replaces digit in front of area
mov r4,#0
2:
ldrb r1,[r3,r2]
strb r1,[r3,r4] @ store in area begin
add r4,#1
add r2,#1 @ previous position
cmp r2,#LGZONECAL @ end
ble 2b @ loop
mov r1,#' '
3:
strb r1,[r3,r4]
add r4,#1
cmp r4,#LGZONECAL @ end
ble 3b
100:
pop {r1-r4,lr} @ restaur registres
bx lr @return
/***************************************************/
/* division par 10 signé */
/* Thanks to http://thinkingeek.com/arm-assembler-raspberry-pi/*
/* and http://www.hackersdelight.org/ */
/***************************************************/
/* r0 dividende */
/* r0 quotient */
/* r1 remainder */
divisionpar10:
/* r0 contains the argument to be divided by 10 */
push {r2-r4} @ save registers */
mov r4,r0
mov r3,#0x6667 @ r3 <- magic_number lower
movt r3,#0x6666 @ r3 <- magic_number upper
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 @ return
</lang>
=={{header|AutoHotkey}}==
<lang AutoHotkey>version = "1.0"
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