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add.asm
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add.asm
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section .text
global _start
_start:
sub rsp, 2 * 128 * 8 ;выделяем память под 2 числа
lea rdi, [rsp + 128 * 8] ;указатель на 2е число
mov rcx, 128 ;ставим в счетчик 128
call read_long
mov rdi, rsp
call read_long
lea rsi, [rsp + 128 * 8]
call add_long_long
call write_long
mov al, 0x0a
call write_char
jmp exit
add_long_long:
push rdi
push rsi
push rcx
clc
.loop:
mov rax, [rsi]
lea rsi, [rsi + 8]
adc [rdi], rax
lea rdi, [rdi + 8]
dec rcx
jnz .loop
pop rcx
pop rsi
pop rdi
ret
; adds 64-bit number to long number
; rdi -- address of summand #1 (long number)
; rax -- summand #2 (64-bit unsigned)
; rcx -- length of long number in qwords
; result:
; sum is written to rdi
add_long_short:
push rdi
push rcx
push rdx
xor rdx,rdx
.loop:
add [rdi], rax
adc rdx, 0
mov rax, rdx
xor rdx, rdx
add rdi, 8
dec rcx
jnz .loop
pop rdx
pop rcx
pop rdi
ret
; multiplies long number by a short
; rdi -- address of multiplier #1 (long number)
; rbx -- multiplier #2 (64-bit unsigned)
; rcx -- length of long number in qwords
; result:
; product is written to rdi
mul_long_short:
push rax
push rdi
push rcx
xor rsi, rsi
.loop:
mov rax, [rdi]
mul rbx
add rax, rsi
adc rdx, 0
mov [rdi], rax
add rdi, 8
mov rsi, rdx
dec rcx
jnz .loop
pop rcx
pop rdi
pop rax
ret
; divides long number by a short
; rdi -- address of dividend (long number)
; rbx -- divisor (64-bit unsigned)
; rcx -- length of long number in qwords
; result:
; quotient is written to rdi
; rdx -- remainder
div_long_short:
push rdi
push rax
push rcx
lea rdi, [rdi + 8 * rcx - 8]
xor rdx, rdx
.loop:
mov rax, [rdi]
div rbx
mov [rdi], rax
sub rdi, 8
dec rcx
jnz .loop
pop rcx
pop rax
pop rdi
ret
; assigns a zero to long number
; rdi -- argument (long number)
; rcx -- length of long number in qwords
set_zero:
push rax
push rdi
push rcx
xor rax, rax
rep stosq
pop rcx
pop rdi
pop rax
ret
; checks if a long number is a zero
; rdi -- argument (long number)
; rcx -- length of long number in qwords
; result:
; ZF=1 if zero
is_zero:
push rax
push rdi
push rcx
xor rax, rax
rep scasq
pop rcx
pop rdi
pop rax
ret
; read long number from stdin
; rdi -- location for output (long number)
; rcx -- length of long number in qwords
read_long:
push rcx ;кладем в стек счетчик
push rdi ;кладем указатель на 2е
call set_zero ;заполняет нулями первое
.loop:
call read_char
or rax, rax
js exit
cmp rax, 0x0a
je .done
cmp rax, '0'
jb .invalid_char
cmp rax, '9'
ja .invalid_char
sub rax, '0'
mov rbx, 10
call mul_long_short
call add_long_short
jmp .loop
.done:
pop rdi
pop rcx
ret
.invalid_char:
mov rsi, invalid_char_msg
mov rdx, invalid_char_msg_size
call print_string
call write_char
mov al, 0x0a
call write_char
.skip_loop:
call read_char
or rax, rax
js exit
cmp rax, 0x0a
je exit
jmp .skip_loop
; write long number to stdout
; rdi -- argument (long number)
; rcx -- length of long number in qwords
write_long:
push rax
push rcx
mov rax, 20
mul rcx
mov rbp, rsp
sub rsp, rax
mov rsi, rbp
.loop:
mov rbx, 10
call div_long_short
add rdx, '0'
dec rsi
mov [rsi], dl
call is_zero
jnz .loop
mov rdx, rbp
sub rdx, rsi
call print_string
mov rsp, rbp
pop rcx
pop rax
ret
; read one char from stdin
; result:
; rax == -1 if error occurs
; rax \in [0; 255] if OK
read_char:
push rcx
push rdi
sub rsp, 1
xor rax, rax
xor rdi, rdi
mov rsi, rsp
mov rdx, 1
syscall
cmp rax, 1
jne .error
xor rax, rax
mov al, [rsp]
add rsp, 1
pop rdi
pop rcx
ret
.error:
mov rax, -1
add rsp, 1
pop rdi
pop rcx
ret
; write one char to stdout, errors are ignored
; al -- char
write_char:
sub rsp, 1
mov [rsp], al
mov rax, 1
mov rdi, 1
mov rsi, rsp
mov rdx, 1
syscall
add rsp, 1
ret
exit:
mov rax, 60
xor rdi, rdi
syscall
; print string to stdout
; rsi -- string
; rdx -- size
print_string:
push rax
mov rax, 1
mov rdi, 1
syscall
pop rax
ret
section .rodata
invalid_char_msg:
db "Invalid character: "
invalid_char_msg_size: equ $ - invalid_char_msg