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This gist hosts all required files. I'll first explain what I'm doing here.

Objective

The program should read two separate strings of various lengths, less than 200, terminated by a newline character. After reading the strings, search if either of the two string is a sub-string of another. In case that both of them are the same; return true.

Return values

  • TRUE: One of the string IS a sub-string.
  • FALSE: Both strings are entirely different.

Procedure

What I'm doing in my program is:

  1. Read the strings into variables STR1 and STR2 by calling the procedure READ_STR. The procedure returns the length of strings in BX. I'm storing the length of first string in another variable L1 of type DW.
  2. Compare the length of second string (now in BX) with L1.

    • If both are equal, set CX to 1
    • Else set CX = abs.( BX - L1 ) | Absolute of BX - L1.

    This is to set how many times can a smaller string be iterated inside the larger one. Set the DI to point to the longer string.

  3. Set L1 to be the length of smaller string.
  4. Set DX as 0. Start a loop with the value of CX as set above.
  5. Add DX to DI and use CMPSB to compare the shorter string SI with longer one DI. Update CX to be L1 so that REPE CMPSB can work.
  6. Increment DX if the search failed. Reset CX, DI and SI. Start from step 4 after decrementing CX by 1 (done by using the LOOP operation).

Some outputs

out

There is an extra line in the third output because of the following statements (line #72 & #73). The call to DISP_STR failed.

NEWLINE
CALL DISP_STR

Code

PROG.ASM

TITLE Assignment: Read two strings and ...

.MODEL SMALL

    SAVE_REG MACRO REGS
        IRP D, <REGS>
            PUSH D
        ENDM
    ENDM
    LOAD_REG MACRO REGS
        IRP D, <REGS>
            POP D
        ENDM
    ENDM
    END_DOS MACRO
        MOV AH, 76
        INT 21H
    ENDM
    NEWLINE MACRO
        SAVE_REG <AX, DX>
        MOV AH, 2
        MOV DL, 0AH
        INT 21H
        MOV DL, 0DH
        INT 21H
        LOAD_REG <DX, AX>
    ENDM

.STACK 100H

.DATA

    STR1 DB 200 DUP(65)
    STR2 DB 200 DUP(0)
    PROMPT DB "Enter string "
    NUM DB "1: $"
    L1 DW 0
    UNEQL DB "No substring found$"
    EQUAL DB "Substring was found$"
.CODE

MAIN PROC

    MOV AX, @DATA
    MOV DS, AX
    MOV ES, AX
    MOV AH, 9
    LEA DX, PROMPT
    INT 21H
    LEA DI, STR1
    CALL READ_STR
    MOV L1, BX
    NEWLINE
    MOV NUM, '2'
    INT 21H
    CALL READ_STR
    LEA SI, STR1
    LEA DI, STR2        ; DI stores the longer string
    CMP L1, BX
      JE EQL
    CMP L1, BX
      JG INV
    MOV CX, BX
    SUB CX, L1
    JMP COMPARE
    INV:
    MOV CX, L1
    SUB CX, BX
    MOV L1, BX
    LEA SI, STR2
    LEA DI, STR1        ; DI stores longer string
    NEWLINE
    CALL DISP_STR
    JMP COMPARE
    EQL:
    MOV CX, 1
    COMPARE:
    XOR DX, DX
    TOP:
    SAVE_REG <DI, SI>
    ADD DI, DX
    PUSH CX
    MOV CX, L1
    REPE CMPSB
      JCXZ FOUND
    INC DX
    POP CX
    LOAD_REG <SI, DI>
    LOOP TOP
    NOT_FOUND:
    NEWLINE
    LEA DX, UNEQL
    MOV AH, 9
    INT 21H
    END_DOS
    FOUND:
    POP CX
    LOAD_REG <SI, DI>
    NEWLINE
    LEA DX, EQUAL
    MOV AH, 9
    INT 21H
    END_DOS

MAIN ENDP

    INCLUDE READSTR.ASM
    INCLUDE DISPSTR.ASM

END MAIN

DISPSTR.ASM

DISP_STR PROC

    SAVE_REG <AX, CX, DX, SI>
    MOV CX, BX
    CLD
    MOV AH, 2
    DISP_LOOP:
    LODSB
    MOV DL, AL
    INT 21H
    LOOP DISP_LOOP
    LOAD_REG <SI, DX, CX, AX>
    RET

DISP_STR ENDP

READSTR.ASM

READ_STR PROC

    SAVE_REG <AX, DI>
    XOR BX, BX
    CLD
    MOV AH, 1
    INT 21H
    WHILE_LOOP:
    CMP AL, 0DH
      JE END_WHILE
    CMP AL, 08H
      JNE STORAGE
    DEC BX
    DEC DI
    JMP NEXT
    STORAGE:
    STOSB
    INC BX
    NEXT:
    INT 21H
    JMP WHILE_LOOP
    END_WHILE:
    LOAD_REG <DI, AX>
    RET

READ_STR ENDP
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2 Answers 2

up vote 2 down vote accepted

You should learn to use a debugger so you can fix your code yourself.

Anyway, from a quick glance, the first obvious problem is that when you use READ_STR to read the second string you don't set up DI to point at STR2. As such, since READ_STR preserves DI, the second string will be read into STR1 too, overwriting the first. Solution: move the LEA DI, STR2 on line 58 up to before line 56. If there are no other errors lurking, that should fix it.

share|improve this answer
    
Yeah. That was the only error. Thanks a lot. Side note, can you link me to an easy tutorial about how to use debug provided with MASM version 5? –  hjpotter92 Sep 10 '13 at 15:03

To my mind , you can use this procedure :

You should take the shortest string and try to compare its first letter with all letters in the longest string and once the compare is true , move on to next letter in the shortest string and try to compare it with the next one in the longest string.

Some time ago, I coded a word unscrambler in MASM32 . the user provides a scrambled word figuring in the programs dictionary and the program unscrambles it and displays the right word.

In the way it works it might be a little bit helpful to you in your case when dealing with each letter alone.

Here's the code of the unscrambler I made :

.386
.model flat, stdcall
option casemap:none
include /masm32/include/windows.inc
include /masm32/include/masm32.inc
include /masm32/include/kernel32.inc

includelib /masm32/lib/masm32.lib
includelib /masm32/lib/kernel32.lib

.data
not_found db "not_found",0
word0   db  "souhail",0
word1   db  "ability",0
word2  db"absence",0
word3 db "actions",0
word4  db "amazing",0 
word5  db "believe", 0
word6  db "browser", 0
word7  db "caption", 0
word8  db "captive", 0
word9  db "ceiling", 0
word10  db "degrees", 0
word11  db "denizen", 0
word12  db "develop", 0
word13  db "examine", 0
word14  db "example", 0
word15  db "exploit", 0
word16  db "fifteen", 0
word17  db "focused", 0
word18  db "fortune", 0
word19  db "forward",0
word20  db  "garbage", 0
word21  db  "gasping", 0
word22  db  "graphic", 0
word23  db  "handgun", 0
word24  db  "hastily", 0
word25  db  "helpful",0 
word26  db  "iceberg", 0
word27 db    "impeach", 0
word28 db    "inspect",0
word29 db    "jawbone", 0
word30 db     "justify", 0
word31 db     "keyword", 0
word32 db     "kickoff", 0
word33 db     "kneepad", 0
word34 db     "lactose", 0
word35 db     "latency", 0
word36 db     "legible", 0
word37 db     "madness", 0
word38 db     "magical", 0
word39 db     "manhunt", 0
word40 db     "mission", 0
word41 db     "nametag", 0
word42 db    "nitrate", 0
word43 db     "nowhere", 0
word44 db     "officer", 0
word45 db     "optical", 0
word46 db     "outlook", 0
word47 db     "oxidize", 0
word48 db     "paradox", 0
word49 db     "pathway", 0
word50 db     "patient", 0
word51 db     "payment", 0
word52 db     "qualify", 0
word53 db     "quality", 0
word54 db     "quarrel", 0
word55 db     "radical", 0
word56 db     "railing", 0
word57 db     "reduced", 0
word59 db     "resolve", 0
word60 db     "savings", 0
word61 db     "sayings", 0
word62 db     "scissor", 0
word63 db     "shadows", 0
word64 db     "tactics", 0
word65 db     "teacher", 0
word66 db     "terrify", 0
word67 db     "tractor", 0
word68 db     "unarmed", 0
word69 db     "unmasks", 0
word70 db     "updates", 0
word71 db     "vaccine", 0
word72 db     "valleys", 0
word73 db     "walnuts", 0
word74 db     "wealthy", 0
word75 db     "whacked", 0
word76 db     "willing", 0
word77 db     "wizards", 0
word78 db     "xysters", 0
word79 db     "yielded", 0
word80 db     "yoghurt", 0
word81 db     "younger",0
word82 db     "zippers" ,0
word83 db     "zombies",0
.data?
my_words db 1024 dup(?)
printme db  1024     dup(?)
exit        db  1024    dup(?)


.code
start :
First :
invoke StdIn, addr my_words, 200
lea eax, my_words
mov word ptr [eax+7],00
mov word ptr [eax+10h],00
lea edx, word1
push edx
mov esi,7                   ;set target word counter 
mov bl,byte ptr [eax]       ; mov first letter of input to bl

compare :
mov cl, byte ptr [edx]      ;mov letter of targer word to cl
cmp bl,cl
je add_one_to_my_word
inc edx
dec esi
cmp esi,0
je switch_to_next
jmp compare

add_one_to_my_word :
inc eax
mov bl,byte ptr [eax]
mov edx, dword ptr [esp] 
mov esi,7
cmp bl,0
je store1
jmp compare

switch_to_next :
lea eax,my_words
mov bl, byte ptr [eax]
pop edx
add edx,8
push edx
mov esi,7
cmp byte ptr [edx], 0
je notfound
jmp compare

store1 :
pop edx
lea eax, printme

store_12 :
mov bl, byte ptr [edx]
mov byte ptr [eax], bl
inc eax
inc edx
cmp byte ptr [edx], 0
jnz store_12

;invoke StdOut, addr printme
;invoke StdIn, addr exit, 200

Second :
lea eax, my_words
add eax,9
lea edx, word1
push edx
mov esi,7                   ;set target word counter 
mov bl,byte ptr [eax]       ; mov first letter of input to bl

compare2 :
mov cl, byte ptr [edx]      ;mov letter of targer word to cl
cmp bl,cl
je add_one_to_my_word_2
inc edx
dec esi
cmp esi,0
je switch_to_next_2
jmp compare2

add_one_to_my_word_2 :
inc eax
mov bl,byte ptr [eax]
mov edx, dword ptr [esp] 
mov esi,7
cmp bl,0
je store2
jmp compare2

switch_to_next_2 :
lea eax,my_words
add eax,9
mov bl, byte ptr [eax]
pop edx
add edx,8
push edx
mov esi,7
cmp byte ptr [edx], 0
je notfound
jmp compare2

store2 :
pop edx
lea eax, printme
add eax,8

store_22 :
mov bl, byte ptr [edx]
mov byte ptr [eax], bl
inc eax
inc edx
cmp byte ptr [edx], 0
jnz store_22

Third :
lea eax, my_words
add eax,12h
lea edx, word1
push edx
mov esi,7           ;set target word counter 
mov bl,byte ptr [eax]       ; mov first letter of input to bl

compare3 :
mov cl, byte ptr [edx]      ;mov letter of targer word to cl
cmp bl,cl
je add_one_to_my_word_3
inc edx
dec esi
cmp esi,0
je switch_to_next_3
jmp compare3

add_one_to_my_word_3 :
inc eax
mov bl,byte ptr [eax]
mov edx, dword ptr [esp] 
mov esi,7
cmp bl,0
je store3
jmp compare3

switch_to_next_3 :
lea eax,my_words
add eax,12h
mov bl, byte ptr [eax]
pop edx
add edx,8
push edx
mov esi,7
cmp byte ptr [edx], 0
je notfound
jmp compare3

store3 :
pop edx
lea eax, printme
add eax,11h

store_23 :
mov bl, byte ptr [edx]
mov byte ptr [eax], bl
inc eax
inc edx
cmp byte ptr [edx], 0
jnz store_23

Put_Order :
lea eax, printme
add eax,7
mov byte ptr [eax], 2Ch
add eax,8
mov word ptr [eax],202Ch
invoke StdOut, addr printme
invoke StdIn, addr exit, 200
call start
notfound :
invoke StdOut, addr not_found
invoke StdIn , addr exit,200


end start
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