Difference between revisions of "CSC231 Homework 8 2017"
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# Your name | # Your name | ||
# Tests the hw8_1 program by feeding it different markers and DNA strings. | # Tests the hw8_1 program by feeding it different markers and DNA strings. | ||
− | # The output is fed | + | # The output is fed to "cat -v" which will display unprintable (junk) characters, |
+ | # if any. | ||
prog="./hw8_1" | prog="./hw8_1" | ||
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cp testHw8_1.sh testHw8_1sol.sh | cp testHw8_1.sh testHw8_1sol.sh | ||
− | * Next, edit the second script and change the assignment to the $prog variable: | + | * Next, edit the second script and change the assignment to the $prog variable to: |
prog="hw8_1sol" | prog="hw8_1sol" | ||
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: (no dot-slash here!) | : (no dot-slash here!) | ||
* You now have two scripts that should output '''the exact same text''', if your program is correct. | * You now have two scripts that should output '''the exact same text''', if your program is correct. | ||
− | * You can go one more step toward being certain of the correctness of your output by using the '''diff''' command, as you did in previous assignment. | + | * You can go one more step toward being certain of the correctness of your output by using the '''diff''' command, as you did in a previous assignment. |
<br /> | <br /> | ||
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<br /> | <br /> | ||
* '''f2(a, b, c)''': f2 receives 3 integer parameters in the stack and computes '''2a + 3b -c''' and returns this value in eax. | * '''f2(a, b, c)''': f2 receives 3 integer parameters in the stack and computes '''2a + 3b -c''' and returns this value in eax. | ||
− | Here is an example of how to call the function: | + | :Here is an example of how to call the function: |
::<source lang="asm"> | ::<source lang="asm"> | ||
a dd 3 | a dd 3 | ||
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</source> | </source> | ||
<br /> | <br /> | ||
− | * '''f3( table, n )''': this function receives in the stack the address of an array of ints, and the number of ints in the array. It returns in eax the number of even ints in the array: | + | * '''f3( table, n )''': this function receives in the stack the address of an array of ints, and the number of ints in the array. It returns in eax the number of even ints in the array. <font color="magenta">f3 should not modify any of the other registers, besides eax, of course!</font> |
− | Here is an example of how to call the function f3: | + | :Here is an example of how to call the function f3: |
::<source lang="asm"> | ::<source lang="asm"> | ||
array dd 3, 5, 0, 1, 2, 10, 100, 4, 1 | array dd 3, 5, 0, 1, 2, 10, 100, 4, 1 | ||
− | arrayLen equ | + | arrayLen equ ($-array)/4 ; figure out the /4 part. |
... | ... | ||
− | push | + | mov eax, array |
+ | push eax | ||
mov eax, arrayLen | mov eax, arrayLen | ||
push eax | push eax | ||
call f3 | call f3 | ||
− | ; upon return from | + | ; upon return from f3, eax contains 5, because there are 5 even numbers in array. |
</source> | </source> | ||
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==Making Your Functions Known to Other Programs== | ==Making Your Functions Known to Other Programs== | ||
<br /> | <br /> | ||
− | Your '''hw8_2.asm''' program should contain only the 3 functions described above. No need for a data segment or for a _Start label. However, you need to make your functions known to the main program that is different and that will be linked with your program. So you need to add these 3 lines at the top of your program: | + | Your '''hw8_2.asm''' program should contain only the 3 functions described above. No need for a data segment or for a _Start label. However, you need to make your functions known to the main program that is in a different file, and that will be linked with your program. So you need to add these 3 lines at the top of your program: |
<br /> | <br /> | ||
<br /> | <br /> | ||
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extern _printDec | extern _printDec | ||
− | extern f1 | + | extern f1 ; f1, f2, and f3 are declared somewhere else |
extern f2 | extern f2 | ||
extern f3 | extern f3 | ||
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_start: | _start: | ||
;;; test f1 | ;;; test f1 | ||
− | mov eax, s1 | + | mov eax, s1 ; pass s1 to f1 |
push eax | push eax | ||
call f1 | call f1 | ||
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;;; test f2 | ;;; test f2 | ||
− | push dword[x1] | + | push dword[x1] ; pass x1, x2, x3 to f2 |
push dword[x2] | push dword[x2] | ||
push dword[x3] | push dword[x3] | ||
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;;; test f3 | ;;; test f3 | ||
− | mov eax, Table | + | mov eax, Table ; pass Table and length to f3 |
push eax | push eax | ||
mov eax, TableLen | mov eax, TableLen | ||
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231b@aurora ~ '''nasm -f elf hw8_2.asm''' | 231b@aurora ~ '''nasm -f elf hw8_2.asm''' | ||
231b@aurora ~ '''nasm -f elf 231Lib.asm''' | 231b@aurora ~ '''nasm -f elf 231Lib.asm''' | ||
− | 231b@aurora ~ '''ld -o test test.o hw8_2.o 231Lib.o''' | + | 231b@aurora ~ '''ld -melf_i386 -o test test.o hw8_2.o 231Lib.o''' |
231b@aurora ~ '''./test''' | 231b@aurora ~ '''./test''' | ||
HELLO THERE! 12345 | HELLO THERE! 12345 | ||
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4 | 4 | ||
+ | ;Note: | ||
+ | : The test program above does not check that f3 does not modify the ebx, ecx, edx, esi, or edi registers. You can add additional testing yourself! | ||
+ | <br /> | ||
+ | <br /> | ||
+ | |||
<!-- ==================================================================== --> | <!-- ==================================================================== --> | ||
<onlydft> | <onlydft> | ||
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+ | <br /> | ||
+ | =Solution Program= | ||
+ | ==Problem 1== | ||
+ | |||
<br /> | <br /> | ||
::<source lang="C"> | ::<source lang="C"> | ||
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printf( "%s\n", DNA ); | printf( "%s\n", DNA ); | ||
} | } | ||
+ | </source> | ||
+ | ==Problem 2== | ||
+ | <br /> | ||
+ | ::<source lang="asm"> | ||
+ | ;;; ------------------------------------------------------ | ||
+ | ;;; hw8_2.asm | ||
+ | ;;; D. Thiebaut | ||
+ | ;;; ------------------------------------------------------ | ||
+ | |||
+ | global f1 | ||
+ | global f2 | ||
+ | global f3 | ||
+ | |||
+ | ;;; ------------------------------------------------------ | ||
+ | ;;; f1( s ): modifies s in place and make it uppercase. | ||
+ | f1: push ebp | ||
+ | mov ebp, esp | ||
+ | push ebx | ||
+ | mov ebx, dword[ebp+8] | ||
+ | .for: cmp byte[ebx], 0 | ||
+ | je .done | ||
+ | cmp byte[ebx],'a' | ||
+ | jl .endfor | ||
+ | cmp byte[ebx],'z' | ||
+ | jg .endfor | ||
+ | add byte[ebx],'A'-'a' | ||
+ | .endfor: | ||
+ | inc ebx | ||
+ | jmp .for | ||
+ | .done: | ||
+ | pop ebx | ||
+ | pop ebp | ||
+ | ret 4 | ||
+ | |||
+ | ;;; ------------------------------------------------------ | ||
+ | ;;; f2( a, b, c ) | ||
+ | ;;; returns 2a + 3b -c in eax | ||
+ | ;;; computes it as 2(a+b) + b - c (fewer operations) | ||
+ | f2: push ebp | ||
+ | mov ebp, esp | ||
+ | mov eax, dword[ebp+8+4+4] ; get first param | ||
+ | add eax, dword[ebp+8+4] ; eax <- a+b | ||
+ | add eax, eax ; eax <- 2(a+b) | ||
+ | add eax, dword[ebp+8+4] ; eax <- 2(a+b) + b | ||
+ | sub eax, dword[ebp+8] ; eax <- 2a + 3b -c | ||
+ | pop ebp ; | ||
+ | ret 4*3 ; return and get rid of 3 ints | ||
+ | |||
+ | |||
+ | ;;; ------------------------------------------------------ | ||
+ | ;;; f3( array, n ) | ||
+ | ;;; computes the number of even ints in array, of length n. | ||
+ | ;;; returns this number in eax. | ||
+ | f3: push ebp | ||
+ | mov ebp, esp | ||
+ | |||
+ | push ebx | ||
+ | push ecx | ||
+ | |||
+ | mov ebx, dword[ebp+8+4] ; ebx <- array | ||
+ | mov ecx, dword[ebp+8] ; ecx <- n | ||
+ | mov eax, 0 ; number of even ints | ||
+ | .for: and dword[ebx], 1 ; and array[i] with 1 | ||
+ | jnz .notEven ; if result is 1, then odd number | ||
+ | .even: inc eax ; otherwise, add 1 to counter. | ||
+ | .notEven: | ||
+ | add ebx, 4 | ||
+ | loop .for | ||
+ | |||
+ | pop ecx | ||
+ | pop ebx | ||
+ | |||
+ | pop ebp | ||
+ | ret 2*4 | ||
+ | |||
</source> | </source> | ||
</onlydft> | </onlydft> | ||
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+ | [[Category:CSC231]][[Category:Nasm]][[Category:Homework]] |
Latest revision as of 04:40, 25 April 2017
--D. Thiebaut (talk) 16:09, 14 April 2017 (EDT)
Contents
Problem #1: Programming in C
Write a C program that receives 3 DNA strings on the command line, the first one will be saved under the variable (pointer) called marker1, the second one marker2, and the last one, DNA. Your C program will search for the markers in the DNA, and will zap all the bases (characters) it finds between marker1 and marker2 (and including those of the markers), replacing them with dashes.
Here are some examples of how your program should operate:
231b@aurora ~ $ ./hw8_1 AGC ACC ACCGGGGGAGCCAAAGCTTTTTACCTT ACCGGGGG-----------------TT 231b@aurora ~ $ ./hw8_1 AGCA ACC ACCGGGGGAGCCAAAGCTTTTTACCTT ACCGGGGGAGCCAAAGCTTTTTACCTT 231b@aurora ~ $ ./hw8_1 AGC AT ACCGGGGGAGCCAAAGCTTTTTACCTT ACCGGGGGAGCCAAAGCTTTTTACCTT 231b@aurora ~ $ ./hw8_1 AC TG ACACACACGGGGGGTGTGTGTG ----------------TGTGTG 231b@aurora ~ $ ./hw8_1 AC TG TGACACACACGGGGGGTGTGTGTG TG----------------TGTGTG
- Notes
- When the first or second markers are not found in the DNA, the program outputs the original DNA string.
- When the first marker appears several time, the first occurrence is the one used.
- When the second marker appears several times, its first occurrence after an occurrence of the first marker is used.
- When found, the two markers are also zapped with dashes.
Starting Seed
Start with this skeleton program, and call it hw8_1.c.
#include <stdio.h> #include <stdlib.h> #include <string.h> void main( int argc, char *argv[] ) { char *marker1, *marker2, *DNA; if (argc < 4 ) { printf( "syntax: %s marker1 marker2 DNA\n", argv[0] ); return; } marker1 = argv[1]; marker2 = argv[2]; DNA = argv[3]; //--- print the markers and DNA --- /* (for debugging purpose) printf( "Marker1 = %s\n", marker1 ); printf( "Marker2 = %s\n", marker2 ); if ( strlen( DNA ) > 80 ) printf( "DNA = %.*s...%s (%d bases)\n\n", 10, DNA, DNA+((int)strlen(DNA)-10), (int) strlen( DNA) ); else printf( "DNA = %s\n\n", DNA ); */ //--- add your code below this point --- }
You may want to uncomment the section under the "print the markers and DNA" comment to see how the program gets the 3 strings. Comment it back when you understand what happens.
Testing Your Program
I have made the executable version of the solution available. It should already be in your PATH, so you don't need to "getcopy" it.
To perform a batch test of your program against the solution, first create a batch file using the code below, and call it testHw8_1.sh.
#! /bin/bash # testHw8_1.sh # Your name # Tests the hw8_1 program by feeding it different markers and DNA strings. # The output is fed to "cat -v" which will display unprintable (junk) characters, # if any. prog="./hw8_1" echo AGC ACC ACCGGGGGAGCCAAAGCTTTTTACCTT $prog AGC ACC ACCGGGGGAGCCAAAGCTTTTTACCTT | cat -v echo AGCA ACC ACCGGGGGAGCCAAAGCTTTTTACCTT $prog AGCA ACC ACCGGGGGAGCCAAAGCTTTTTACCTT | cat -v echo AGC AT ACCGGGGGAGCCAAAGCTTTTTACCTT $prog AGC AT ACCGGGGGAGCCAAAGCTTTTTACCTT | cat -v echo AC TG ACACACACGGGGGGTGTGTGTG $prog AC TG ACACACACGGGGGGTGTGTGTG | cat -v echo AC TG TGACACACACGGGGGGTGTGTGTG $prog AC TG TGACACACACGGGGGGTGTGTGTG | cat -v
- Then copy this script file into another script file called testHw8_1sol.sh.
cp testHw8_1.sh testHw8_1sol.sh
- Next, edit the second script and change the assignment to the $prog variable to:
prog="hw8_1sol"
- (no dot-slash here!)
- You now have two scripts that should output the exact same text, if your program is correct.
- You can go one more step toward being certain of the correctness of your output by using the diff command, as you did in a previous assignment.
Hints
You should look up the C string.h library on the Web, for ideas...
Moodle Submission
- Look for the Homework 8 Problem 1 section.
Problem #2
Write an assembly program called hw8_2.asm that contains several functions, but no main program. The main program will be in a separate file, that will be assembled separately, and linked to your program to create a fully executable file.
The functions should behave as follows:
- f1( s ). Receives the address of a string s in the stack, and converts the string to uppercase, replacing all the alphabetic characters in the string to uppercase. We assume that the string, as in C, is terminated by a '\0' char. Here is an example of how to call the function:
s1 db "Hello world!", 0 s1Len equ $-s1 ... mov eax, s1 push eax call f1 mov ecx, s1 mov edx, s1Len-1 ; figure out why the -1! mov eax, 4 mov ebx, 1 int 0x80
- The code above will print "HELLO WORLD!"
- f2(a, b, c): f2 receives 3 integer parameters in the stack and computes 2a + 3b -c and returns this value in eax.
- Here is an example of how to call the function:
a dd 3 b dd 5 c dd 7 ... push dword[a] push dword[b] push dword[c] call f2 ; upon return from f2, eax contains 2a + 3b - c = 2*3 + 3*5 - 7 = 14
- f3( table, n ): this function receives in the stack the address of an array of ints, and the number of ints in the array. It returns in eax the number of even ints in the array. f3 should not modify any of the other registers, besides eax, of course!
- Here is an example of how to call the function f3:
array dd 3, 5, 0, 1, 2, 10, 100, 4, 1 arrayLen equ ($-array)/4 ; figure out the /4 part. ... mov eax, array push eax mov eax, arrayLen push eax call f3 ; upon return from f3, eax contains 5, because there are 5 even numbers in array.
Making Your Functions Known to Other Programs
Your hw8_2.asm program should contain only the 3 functions described above. No need for a data segment or for a _Start label. However, you need to make your functions known to the main program that is in a different file, and that will be linked with your program. So you need to add these 3 lines at the top of your program:
global f1 global f2 global f3
Testing Your Code
Create the following program and call it test.asm. It will be the test program for your hw8_2.asm program:
;;;------------------------------------------------------------ ;;; test.asm ;;; tests the functions in hw8_2.asm by calling each one ;;; and printing its result. ;;;------------------------------------------------------------ extern _printString extern _println extern _printDec extern f1 ; f1, f2, and f3 are declared somewhere else extern f2 extern f3 ;;;------------------------------------------------------------ ;;; some variables to pass to the functions ;;;------------------------------------------------------------ section .data s1 db "Hello there! 12345", 0 s1Len equ $-s1 Table dd 1, 2, 3, 30, 100, 200 TableLen equ ($-Table)/4 x1 dd 10 x2 dd 20 x3 dd -1 ;;;------------------------------------------------------------ ;;; main program ;;;------------------------------------------------------------ section .text global _start _start: ;;; test f1 mov eax, s1 ; pass s1 to f1 push eax call f1 mov ecx, s1 mov edx, s1Len call _printString call _println ;;; test f2 push dword[x1] ; pass x1, x2, x3 to f2 push dword[x2] push dword[x3] call f2 call _printDec call _println ;;; test f3 mov eax, Table ; pass Table and length to f3 push eax mov eax, TableLen push eax call f3 call _printDec call _println ;;; ; exit mov ebx, 0 mov eax, 1 int 0x80
- Assemble, link, and run as follows:
231b@aurora ~ nasm -f elf test.asm 231b@aurora ~ nasm -f elf hw8_2.asm 231b@aurora ~ nasm -f elf 231Lib.asm 231b@aurora ~ ld -melf_i386 -o test test.o hw8_2.o 231Lib.o 231b@aurora ~ ./test HELLO THERE! 12345 81 4
- Note
- The test program above does not check that f3 does not modify the ebx, ecx, edx, esi, or edi registers. You can add additional testing yourself!