英锐恩单片机论坛,Microchip单片机,模拟器件,接口电路,麦肯单片机,单片机应用交流

标题: 用PIC12C509单片机控制LED [打印本页]

作者: winnie    时间: 2009-5-5 17:25
标题: 用PIC12C509单片机控制LED
The 12C5 series PIC has only a two level stack which limits the number of nested subroutine calls to two. This may be a very serious limitation.
(The 16C84 has an eight level stack which permits nested subroutines to eight deep. I can't imagine a program where this will not be sufficient).
In the following programs an alternative user stack is presented which provides the programmer with alternative "call" and "return" capability.
Note that a user stack is implemented using the highest data address. The idea is that the user stack grows down from 1FH, while user variables are assigned from 07H and up. Thus, the degree of nesting permitted using this approach is the full variable space (25) less the number of bytes which are used as variables in the program.
There are two other limitations to this approach;
1. Only the low byte of the program counter is saved on the user stack. Thus, this limits the calling of all functions and the implementation of the functions to the same page.
However, this does not preclude one from splitting a program over several pages and implementing each called function on each page. Of course, the same implementation of functions on different pages must have different names. That is, one must be careful and think. But with the price of the 12C5XX declining to a mere $1.00 it pays to think!
This approach of splitting a program is shown in another discussion dealing with the I2C bus.
2. The FSR is used as the user defined stack pointer. Thus, if the FSR register is used elsewhere, one must be careful to save the user stack pointer in a temporary variable when using the FSR for other applications and of course, restoring it to the FSR when calls and returns are made using this approach.
Please refer to program STACK_1.ASM which continually flashes an LED on and off. Note that the main calls routines SUB1, DELAY, SUB2 and DELAY and then loops back to repeat the process.
The FSR register is intialized to the highest data location, 01FH.
Each "call" consists of the following instructions.

MOVF PCL, W ; fetch PCL to W
ADDWF OFFSET, W ; add 4
MOVWF INDF ; save to location pointed to by FSR
DECF FSR, F ; for next subroutine
GOTO SUB1 ; turn LED on
RET_POINT1:
;... continuation of program
In the above, note that the current content of the low byte of the program counter is fetched. The address to return to (RET_POINT1) is calculated by adding 4 and this is saved to the location pointed to by the user stack pointer. The stack pointer is then decremented to accommodate the next return address. Finally, a jump to the function is executed.
In the subroutine, the task is first performed. The "return" is then implemented using the following code.

; task performed
INCF FSR, F ; return
MOVF INDF, W
MOVWF PCL
In the above, the user stack pointer is incremented so as to point to the location containing the value of the program counter which was stored in the calling routine. This is fetched and placed in the low byte of the program counter. Thus, execution continues at the return point in the calling routine.

; STACK_1.ASM (12C509)
;
; Illustrates how to use user stack to implement "calls" and "returns".
; This is particularly important on the 12C509 as to stack is limited to
; two levels.
;
; Flashes LED on GPIO0, 250 ms on and 250 ms off.

LIST p=12c509
#include <p12c509.inc>
__CONFIG 1AH
LOOP1 EQU 07H ; for timing loops
LOOP2 EQU 08H
OFFSET EQU 09H
ORG 000H
MOVLW 1FH ; intitialize FSR to point to top of "stack"
MOVWF FSR
MOVLW .4
MOVWF OFFSET ; offset initialized to 4
MOVLW 1EH ; least sign bit is an output
TRIS GPIO

TOP:
; save return address on stack
MOVF PCL, W ; fetch PCL, add 4 and save at location
ADDWF OFFSET, W ; pointed to by FSR
MOVWF INDF
DECF FSR, F ; dec stack pointer for next subroutine
GOTO SUB1 ; turn LED on
MOVF PCL, W
ADDWF OFFSET, W
MOVWF INDF
DECF FSR, F
GOTO DELAY ; 250 ms delay
MOVF PCL, W
ADDWF OFFSET, W
MOVWF INDF
DECF FSR, F
GOTO SUB2 ; turn LED off
MOVF PCL, W
ADDWF OFFSET, W
MOVWF INDF
DECF FSR, F
GOTO DELAY ; 250 ms delay
GOTO TOP
SUB1:
BCF GPIO, 0 ; logic zero turns LED on
; these three lines are the equiv of a return
INCF FSR, F ; increment FSR
MOVF INDF, W ; get return address
MOVWF PCL ; and put in program counter
SUB2:
BSF GPIO, 0 ; logic one turns LED off

INCF FSR, F ; return
MOVF INDF, W
MOVWF PCL
DELAY: ; when running set LOOP1 to .250 and LOOP2 to .110.
; this will result in 250 ms delay.
MOVLW .250
MOVWF LOOP1
OUTTER:
MOVLW .110 ; close to 1.0 msec delay when set to .110
MOVWF LOOP2
INNER:
NOP
NOP
DECFSZ LOOP2, F ; decrement and leave result in LOOP2
; skip next statement if zero
GOTO INNER
DECFSZ LOOP1, F
GOTO OUTTER
INCF FSR, F ; return
MOVF INDF, W
MOVWF PCL
END
In program STACK_2.ASM, the "calls" and "returns" are implemented using macros which have been labelled as GOSUB and RET. Note that macros make the program considerably more understandable.

; STACK_2.ASM.
;
; Same as STACK_1.ASM except implemented using macros.
;
; coyright, Peter H. Anderson, MSU, June 1, '97
LIST p=12c509
#include <p12c509.inc>
__CONFIG 1AH
; Macros defined
GOSUB MACRO arg1 ; uses user defined stack to save return address
MOVF PCL, W ; and jumps to specified routine.
ADDWF OFFSET, W
MOVWF INDF
DECF FSR, F
GOTO arg1
ENDM
RET MACRO ; fetches return address from stack
INCF FSR, F
MOVF INDF, W
MOVWF PCL
ENDM
LOOP1 EQU 0CH ; for timing loops
LOOP2 EQU 0DH
OFFSET EQU 0EH
ORG 000H
MOVLW 1FH ; intitialize FSR to point to top of "stack"
MOVWF FSR
MOVLW .4
MOVWF OFFSET ; intialize OFFSET to 4

MOVLW 1EH
TRIS GPIO ; least sign bit is defined as output

TOP:
GOSUB SUB1
GOSUB DELAY
GOSUB SUB2
GOSUB DELAY

GOTO TOP
SUB1:
BCF GPIO, 0
RET
SUB2:
BSF GPIO, 0
RET

DELAY: ; when running set LOOP1 to .250 and LOOP2 to .110.
; this will result in 250 ms delay.
MOVLW .250
MOVWF LOOP1
OUTTER:
MOVLW .110 ; close to 1.0 msec delay when set to .110
MOVWF LOOP2
INNER:
NOP
NOP
DECFSZ LOOP2, F ; decrement and leave result in LOOP2
; skip next statement if zero
GOTO INNER
DECFSZ LOOP1, F
GOTO OUTTER
RET
END




欢迎光临 英锐恩单片机论坛,Microchip单片机,模拟器件,接口电路,麦肯单片机,单片机应用交流 (http://enroobbs.com/) Powered by Discuz! X3.2