please dont rip this site


Gosub/Return

jumps to a subroutine address after storing the current address on a stack in memory. When Return is invoked, the program resumes at the line following the latest Gosub.

The PIC instruction set includes call and ret, which work much like PBASIC's Gosub and Return. The trouble is that the stack that call uses to store return addresses is only two levels deep in the PIC 16C5x series. This limits you to two nested calls. In other words, a called routine can call only one other. If that routine makes a call, the program will never find its way back the starting point. By contrast, PBASIC permits 16 nested Gosubs.

The demonstration program shows how you can break the two-level limit by having your program establish and manage a stack of return addresses for separate Gosub and Return routines. The calling program must put the address of the destination subroutine into sub, and the current contents of the program counter into w. It then jumps to Gosub, which stores the return-address information on a stack at the end of memory. When the subroutine is through, it jumps to Return. Return retrieves the return address from the stack, adjusts it to point to the line after the previous jmp Gosub, and goes there.

You can nest one subroutine for each byte of memory available. For example, if your program uses memory locations 8 through 19, then locations 20 through 31 are available for use as 12-level Return stack. There is a restriction in using Gosub. Since a program can read and store only the lower eight bits of the program counter, all of the subroutines must start in the lowest 256 instruction words of a program-memory page.

Demonstrating Gosub.

To see Gosub in operation, either run the program with the PSIM simulator, or connect the circuit below to an erasable PIC or PIC emulator, such as the Parallax downloader. Assemble and run GOSUB.SRC. When you apply power to the PIC, the LEDs will light up one at a time, demonstrating that the program executed all three nested subs and returned to the main program.


;
; ***************************************************************************
; ***  Bubble Software Parallax to PIC Source Converter. Copyright 1999.  ***
; ***  http://www.bubblesoftonline.com                 email: sales@picnpoke.com  ***
; ***************************************************************************
;
; GOSUB sub, return address (in w)
; Jumps to the address in the variable sub after storing the return address on a 
; stack in general-purpose RAM. When the destination routine is finished, it 
; jumps to a routine called Return, which fetches the return address off the stack, 
; and jumps to the instruction following the one that invoked Gosub. 

; The Gosub/Return mechanism requires exclusive use of the file-select
; register (fsr). If other parts of the program need to use the fsr, 
; copy it to a variable before altering it and restore it when done. 

	P = pic16c55
	#include <16c55.inc>   ; processor assembler definitions
	_CONFIG _xt_osc & _wdt_off & _protect_off
        reset   start

        org     8
sub     Res      d'1'       ; Destination of Gosub.
temp    Res      d'1'       ; Variables for delays
temp2   Res      d'1'       ; used in demo subroutines. 

; Device data and reset vector
        org     0

start        MOVLW d'0'                 ; All outputs for LEDs
             TRIS 6h
             CLRF 6h                    ; Turn LEDs off.
             MOVLW d'31'                ; Point to end of memory
             MOVWF fsr
             MOVLW One                  ; Destination: One. 
             MOVWF sub
             MOVF pc,w                  ; Save program counter. 
             GOTO Gosub                 ; Gosub One. 
             MOVLW d'15'                ; LEDs on.      
             MOVWF 6h
start_loop   DECFSZ temp                ; Short delay. 
             GOTO start_loop
             DECFSZ temp2               
             GOTO start_loop
             CLRF 6h                    ; LEDs off. 
             GOTO $                     ; Endless loop.         

Gosub        MOVWF indirect             ; Return addr on stack.
             DECF fsr                   ; Decrement stack pointer. 
             MOVF sub,w                 ; Destination address to w. 
             MOVWF pcl                  ; Go there. 

Return       inc     fsr        ; Increment stack pointer <Microchip instruction>
             INCF indirect,w            ; w = return addr + 1. 
             MOVWF pcl                  ; Jump to return addr. 
; GOSUB (cont)
; Demonstration routines to show successful nesting of 
; three  Gosubs. 
One          MOVLW d'1'                 ; LED on.       
             MOVWF 6h
One_loop     DECFSZ temp                ; Short delay. 
             GOTO One_loop
             DECFSZ temp2               
             GOTO One_loop
             CLRF 6h                    ; LEDs off
             MOVLW Two                  ; Destination: Two. 
             MOVWF sub
             MOVF pc,w                  ; Save program counter. 
             GOTO Gosub                 ; Gosub Two. 
             GOTO Return                ; Return. 

Two          MOVLW d'3'                 ; LEDs on.      
             MOVWF 6h
Two_loop     DECFSZ temp                ; Short delay. 
             GOTO Two_loop
             DECFSZ temp2               
             GOTO Two_loop
             CLRF 6h                    ; LEDs off
             MOVLW Three                ; Destination: Three. 
             MOVWF sub
             MOVF pc,w                  ; Save program counter. 
             GOTO Gosub                 ; Gosub Three
             GOTO Return                ; Return. 

Three        MOVLW d'7'                 ; LEDs on.      
             MOVWF 6h
Three_loop   DECFSZ temp                ; Short delay. 
             GOTO Three_loop
             DECFSZ temp2               
             GOTO Three_loop
             CLRF 6h                    ; LEDs off
             GOTO Return                ; Return.
             
             end


; GOSUB sub, return address (in w)
; Jumps to the address in the variable sub after storing the return address on a
; stack in general-purpose RAM. When the destination routine is finished, it
; jumps to a routine called Return, which fetches the return address off the stack,
; and jumps to the instruction following the one that invoked Gosub. 

; The Gosub/Return mechanism requires exclusive use of the file-select
; register (fsr). If other parts of the program need to use the fsr, 
; copy it to a variable before altering it and restore it when done. 

        org     8
sub     ds      1       ; Destination of Gosub.
temp    ds      1       ; Variables for delays
temp2   ds      1       ; used in demo subroutines.

; Device data and reset vector
        device  pic16c55,xt_osc,wdt_off,protect_off
        reset   start
        org     0

start   mov     !rb, #0 ; All outputs for LEDs
        clr     rb      ; Turn LEDs off.
        mov     fsr,#31 ; Point to end of memory
        mov     sub,#One        ; Destination: One. 
        mov     w,pc    ; Save program counter. 
        jmp     Gosub   ; Gosub One. 
        mov     rb,#15  ; LEDs on.      
:loop   djnz    temp,:loop      ; Short delay. 
        djnz    temp2,:loop
        clr     rb      ; LEDs off. 
        jmp     $       ; Endless loop.         

Gosub   mov     indirect,w      ; Return addr on stack.
        dec     fsr     ; Decrement stack pointer. 
        mov     w,sub   ; Destination address to w. 
        jmp     w       ; Go there. 

Return  inc     fsr     ; Increment stack pointer
        mov     w,++indirect    ; w = return addr + 1. 
        jmp     w       ; Jump to return addr. 
; GOSUB (cont)
; Demonstration routines to show successful nesting of 
; three  Gosubs. 
One     mov     rb,#1   ; LED on.       
:loop   djnz    temp,:loop      ; Short delay. 
        djnz    temp2,:loop
        clr     rb      ; LEDs off
        mov     sub,#Two        ; Destination: Two. 
        mov     w,pc    ; Save program counter. 
        jmp     Gosub   ; Gosub Two. 
        jmp     Return  ; Return. 

Two     mov     rb,#3   ; LEDs on.      
:loop   djnz    temp,:loop      ; Short delay. 
        djnz    temp2,:loop
        clr     rb      ; LEDs off
        mov     sub,#Three      ; Destination: Three. 
        mov     w,pc    ; Save program counter. 
        jmp     Gosub   ; Gosub Three
        jmp     Return  ; Return. 

Three   mov     rb,#7   ; LEDs on.      
:loop   djnz    temp,:loop      ; Short delay. 
        djnz    temp2,:loop
        clr     rb      ; LEDs off
        jmp     Return  ; Return.

See also:


file: /Techref/microchip/seepicsrc/psbpix/gosub.htm, 11KB, , updated: 2003/11/30 19:59, local time: 2024/11/15 12:41, owner: DAV-MP-E62a,
TOP NEW HELP FIND: 
18.217.122.161:LOG IN

 ©2024 These pages are served without commercial sponsorship. (No popup ads, etc...).Bandwidth abuse increases hosting cost forcing sponsorship or shutdown. This server aggressively defends against automated copying for any reason including offline viewing, duplication, etc... Please respect this requirement and DO NOT RIP THIS SITE. Questions?
Please DO link to this page! Digg it! / MAKE!

<A HREF="http://massmind.ecomorder.com/techref/microchip/seepicsrc/psbpix/gosub.htm"> microchip seepicsrc psbpix gosub</A>

After you find an appropriate page, you are invited to your to this massmind site! (posts will be visible only to you before review) Just type a nice message (short messages are blocked as spam) in the box and press the Post button. (HTML welcomed, but not the <A tag: Instead, use the link box to link to another page. A tutorial is available Members can login to post directly, become page editors, and be credited for their posts.


Link? Put it here: 
if you want a response, please enter your email address: 
Attn spammers: All posts are reviewed before being made visible to anyone other than the poster.
Did you find what you needed?

 

Welcome to ecomorder.com!

 

Welcome to massmind.ecomorder.com!

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

  .