bits 32 ; assembling for the 32 bits architecture ; declare the EntryPoint (a label defining the very first instruction of the program) global start ; declare external functions needed by our program extern exit,fopen,fclose,printf,fread ; tell nasm that exit exists even if we won't be defining it import exit msvcrt.dll ; exit is a function that ends the calling process. It is defined in msvcrt.dll import fopen msvcrt.dll import fclose msvcrt.dll import printf msvcrt.dll import fread msvcrt.dll ; our data is declared here (the variables needed by our program) ;A text file is given. Read the content of the file, count the number of letters 'y' and 'z' and display the values on the screen. The file name is defined in the data segment. segment data use32 class=data ; ... file_path db "text.txt",0 access_mode db "r",0 message db `The number of 'y' in the file is: %d\nThe number of 'z' in the file is: %d`,0 file dd 0 a db 0 count_y dd 0 count_z dd 0 ; our code starts here segment code use32 class=code start: ; ... push dword access_mode push dword file_path call [fopen] add ESP,4*2 cmp EAX,0 jz end mov [file],EAX push dword [file] push dword 1 push dword 1 push dword a loop_label: call [fread] cmp EAX,0 jz done cmp byte [a],"y" jz inc_y cmp byte [a],"Y" jz inc_y cmp byte [a],"z" jz inc_z cmp byte [a],"Z" jz inc_z jmp loop_label inc_y: inc dword [count_y] jmp loop_label inc_z: inc dword [count_z] jmp loop_label done: add ESP,4*4 push dword [file] call [fclose] add ESP,4*1 push dword [count_z] push dword [count_y] push dword message call [printf] add ESP,4*3 end: push dword 0 ; push the parameter for exit onto the stack call [exit] ; call exit to terminate the program