"how to give user input"

[arul]

pls tell me how to give user input after we link, what to do after debug . after debugging I am getting a message access denied. I am using MASM1.5.
the foll is the code I got from net
 

;Factorial - factorial.asm
;This sample gets the number from the user, and calculates factorial for it. Supported input from 0 to 8 inclusive!


   
; factorial.asm

; this example gets the number from the user,
; and calculates factorial for it.
; supported input from 0 to 8 inclusive!

name "fact"

; this macro prints a char in AL and advances
; the current cursor position:
putc    macro   char
        push    ax
        mov     al, char
        mov     ah, 0eh
        int     10h
        pop     ax
endm



org     100h

jmp start


result dw ?



start:

; get first number:

mov dx, offset msg1
mov ah, 9
int 21h
jmp n1
msg1 db 0Dh,0Ah, 'enter the number: $'
n1:

call    scan_num


; factorial of 0 = 1:
mov     ax, 1
cmp     cx, 0
je      print_result

; move the number to bx:
; cx will be a counter:

mov     bx, cx

mov     ax, 1
mov     bx, 1

calc_it:
mul     bx
cmp     dx, 0
jne     overflow
inc     bx
loop    calc_it

mov result, ax


print_result:

; print result in ax:
mov dx, offset msg2
mov ah, 9
int 21h
jmp n2
msg2 db 0Dh,0Ah, 'factorial: $'
n2:


mov     ax, result
call    print_num_uns
jmp     exit


overflow:
mov dx, offset msg3
mov ah, 9
int 21h
jmp n3
msg3 db 0Dh,0Ah, 'the result is too big!', 0Dh,0Ah, 'use values from 0 to 8.$'
n3:
jmp     start

exit:

; wait for any key press:
mov ah, 0
int 16h

ret








;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;; these functions are copied from emu8086.inc ;;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;


; gets the multi-digit SIGNED number from the keyboard,
; and stores the result in CX register:
SCAN_NUM        PROC    NEAR
        PUSH    DX
        PUSH    AX
        PUSH    SI

        MOV     CX, 0

        ; reset flag:
        MOV     CS:make_minus, 0

next_digit:

        ; get char from keyboard
        ; into AL:
        MOV     AH, 00h
        INT     16h
        ; and print it:
        MOV     AH, 0Eh
        INT     10h

        ; check for MINUS:
        CMP     AL, '-'
        JE      set_minus

        ; check for ENTER key:
        CMP     AL, 0Dh  ; carriage return?
        JNE     not_cr
        JMP     stop_input
not_cr:


        CMP     AL, 8                   ; 'BACKSPACE' pressed?
        JNE     backspace_checked
        MOV     DX, 0                   ; remove last digit by
        MOV     AX, CX                  ; division:
        DIV     CS:ten                  ; AX = DX:AX / 10 (DX-rem).
        MOV     CX, AX
        PUTC    ' '                     ; clear position.
        PUTC    8                       ; backspace again.
        JMP     next_digit
backspace_checked:


        ; allow only digits:
        CMP     AL, '0'
        JAE     ok_AE_0
        JMP     remove_not_digit
ok_AE_0:
        CMP     AL, '9'
        JBE     ok_digit
remove_not_digit:
        PUTC    8       ; backspace.
        PUTC    ' '     ; clear last entered not digit.
        PUTC    8       ; backspace again.         
        JMP     next_digit ; wait for next input.       
ok_digit:


        ; multiply CX by 10 (first time the result is zero)
        PUSH    AX
        MOV     AX, CX
        MUL     CS:ten                  ; DX:AX = AX*10
        MOV     CX, AX
        POP     AX

        ; check if the number is too big
        ; (result should be 16 bits)
        CMP     DX, 0
        JNE     too_big

        ; convert from ASCII code:
        SUB     AL, 30h

        ; add AL to CX:
        MOV     AH, 0
        MOV     DX, CX      ; backup, in case the result will be too big.
        ADD     CX, AX
        JC      too_big2    ; jump if the number is too big.

        JMP     next_digit

set_minus:
        MOV     CS:make_minus, 1
        JMP     next_digit

too_big2:
        MOV     CX, DX      ; restore the backuped value before add.
        MOV     DX, 0       ; DX was zero before backup!
too_big:
        MOV     AX, CX
        DIV     CS:ten  ; reverse last DX:AX = AX*10, make AX = DX:AX / 10
        MOV     CX, AX
        PUTC    8       ; backspace.
        PUTC    ' '     ; clear last entered digit.
        PUTC    8       ; backspace again.         
        JMP     next_digit ; wait for Enter/Backspace.


stop_input:
        ; check flag:
        CMP     CS:make_minus, 0
        JE      not_minus
        NEG     CX
not_minus:

        POP     SI
        POP     AX
        POP     DX
        RET
make_minus      DB      ?       ; used as a flag.
SCAN_NUM        ENDP





; this procedure prints number in AX,
; used with PRINT_NUM_UNS to print signed numbers:
PRINT_NUM       PROC    NEAR
        PUSH    DX
        PUSH    AX

        CMP     AX, 0
        JNZ     not_zero

        PUTC    '0'
        JMP     printed

not_zero:
        ; the check SIGN of AX,
        ; make absolute if it's negative:
        CMP     AX, 0
        JNS     positive
        NEG     AX

        PUTC    '-'

positive:
        CALL    PRINT_NUM_UNS
printed:
        POP     AX
        POP     DX
        RET
PRINT_NUM       ENDP



; this procedure prints out an unsigned
; number in AX (not just a single digit)
; allowed values are from 0 to 65535 (FFFF)
PRINT_NUM_UNS   PROC    NEAR
        PUSH    AX
        PUSH    BX
        PUSH    CX
        PUSH    DX

        ; flag to prevent printing zeros before number:
        MOV     CX, 1

        ; (result of "/ 10000" is always less or equal to 9).
        MOV     BX, 10000       ; 2710h - divider.

        ; AX is zero?
        CMP     AX, 0
        JZ      print_zero

begin_print:

        ; check divider (if zero go to end_print):
        CMP     BX,0
        JZ      end_print

        ; avoid printing zeros before number:
        CMP     CX, 0
        JE      calc
        ; if AX<BX then result of DIV will be zero:
        CMP     AX, BX
        JB      skip
calc:
        MOV     CX, 0   ; set flag.

        MOV     DX, 0
        DIV     BX      ; AX = DX:AX / BX   (DX=remainder).

        ; print last digit
        ; AH is always ZERO, so it's ignored
        ADD     AL, 30h    ; convert to ASCII code.
        PUTC    AL


        MOV     AX, DX  ; get remainder from last div.

skip:
        ; calculate BX=BX/10
        PUSH    AX
        MOV     DX, 0
        MOV     AX, BX
        DIV     CS:ten  ; AX = DX:AX / 10   (DX=remainder).
        MOV     BX, AX
        POP     AX

        JMP     begin_print

print_zero:
        PUTC    '0'

end_print:

        POP     DX
        POP     CX
        POP     BX
        POP     AX
        RET
PRINT_NUM_UNS   ENDP



ten             DW      10      ; used as multiplier/divider by SCAN_NUM & PRINT_NUM_UNS.












; - Other Assembler Source Codes -




; - asm2html by emu8086 -
 

[MichaelW]

I'm not sure what you are asking, but the code you posted here works OK, with only 2 changes. The first change is to define a segment to contain the code, and create an entry point label:

Code Select Expand


...
; this macro prints a char in AL and advances
; the current cursor position:
putc    macro   char
        push    ax
        mov     al, char
        mov     ah, 0eh
        int     10h
        pop     ax
endm

;***
CODE SEGMENT
    ASSUME cs:CODE, ds:CODE
;***

org 100h

;***
ENTRY:
;***

jmp start
...


And the second is to end the segment and set the program entry point address:

Code Select Expand


...
ten             DW      10      ; used as multiplier/divider by SCAN_NUM & PRINT_NUM_UNS.

;***
CODE ENDS
;***

;***
END ENTRY
;***


[arul]

thank you sir

[arul]

I'm not sure what you are asking, but the code you posted here works OK, with only 2 changes. The first change is to define a segment to contain the code, and create an entry point label:

Code Select Expand


...
; this macro prints a char in AL and advances
; the current cursor position:
putc    macro   char
        push    ax
        mov     al, char
        mov     ah, 0eh
        int     10h
        pop     ax
endm

;***
CODE SEGMENT
    ASSUME cs:CODE, ds:CODE
;***

org 100h

;***
ENTRY:
;***

jmp start
...


And the second is to end the segment and set the program entry point address:

Code Select Expand


...
ten             DW      10      ; used as multiplier/divider by SCAN_NUM & PRINT_NUM_UNS.

;***
CODE ENDS
;***

;***
END ENTRY
;***

thank you sir

[arul]

thank you sir