#!/usr/bin/env python3

import sys

if len(sys.argv) < 2:
    print("Provide the integer size in bytes")
    sys.exit(1)

size = int(sys.argv[1])

full_rows = size // 10
init_size = size % 10

if init_size == 0:
    full_rows = full_rows - 1
    init_size = 10

def rx(i):
    return i + 2

def ry(i):
    return i + 12

def emit(line, *args):
    s = '"' + line + r' \n\t"'
    print(s % args)

#### set up registers
emit("adiw r30, %s", size - init_size) # move z
emit("adiw r28, %s", size - init_size) # move y

for i in range(init_size):
    emit("ld r%s, x+", rx(i))
for i in range(init_size):
    emit("ld r%s, y+", ry(i))

emit("ldi r25, 0")
print("")
if init_size == 1:
    emit("mul r2, r12")
    emit("st z+, r0")
    emit("st z+, r1")
else:
    #### first two multiplications of initial block
    emit("ldi r23, 0")
    emit("mul r2, r12")
    emit("st z+, r0")
    emit("mov r22, r1")
    print("")
    emit("ldi r24, 0")
    emit("mul r2, r13")
    emit("add r22, r0")
    emit("adc r23, r1")
    emit("mul r3, r12")
    emit("add r22, r0")
    emit("adc r23, r1")
    emit("adc r24, r25")
    emit("st z+, r22")
    print("")

    #### rest of initial block, with moving accumulator registers
    acc = [23, 24, 22]
    for r in range(2, init_size):
        emit("ldi r%s, 0", acc[2])
        for i in range(0, r+1):
            emit("mul r%s, r%s", rx(i), ry(r - i))
            emit("add r%s, r0", acc[0])
            emit("adc r%s, r1", acc[1])
            emit("adc r%s, r25", acc[2])
        emit("st z+, r%s", acc[0])
        print("")
        acc = acc[1:] + acc[:1]
    for r in range(1, init_size-1):
        emit("ldi r%s, 0", acc[2])
        for i in range(0, init_size-r):
            emit("mul r%s, r%s", rx(r+i), ry((init_size-1) - i))
            emit("add r%s, r0", acc[0])
            emit("adc r%s, r1", acc[1])
            emit("adc r%s, r25", acc[2])
        emit("st z+, r%s", acc[0])
        print("")
        acc = acc[1:] + acc[:1]
    emit("mul r%s, r%s", rx(init_size-1), ry(init_size-1))
    emit("add r%s, r0", acc[0])
    emit("adc r%s, r1", acc[1])
    emit("st z+, r%s", acc[0])
    emit("st z+, r%s", acc[1])
print("")

#### reset y and z pointers
emit("sbiw r30, %s", 2 * init_size + 10)
emit("sbiw r28, %s", init_size + 10)

#### load y registers
for i in range(10):
    emit("ld r%s, y+", ry(i))

#### load additional x registers
for i in range(init_size, 10):
    emit("ld r%s, x+", rx(i))
print("")

prev_size = init_size
for row in range(full_rows):
    #### do x = 0-9, y = 0-9 multiplications
    emit("ldi r23, 0")
    emit("mul r2, r12")
    emit("st z+, r0")
    emit("mov r22, r1")
    print("")
    emit("ldi r24, 0")
    emit("mul r2, r13")
    emit("add r22, r0")
    emit("adc r23, r1")
    emit("mul r3, r12")
    emit("add r22, r0")
    emit("adc r23, r1")
    emit("adc r24, r25")
    emit("st z+, r22")
    print("")

    acc = [23, 24, 22]
    for r in range(2, 10):
        emit("ldi r%s, 0", acc[2])
        for i in range(0, r+1):
            emit("mul r%s, r%s", rx(i), ry(r - i))
            emit("add r%s, r0", acc[0])
            emit("adc r%s, r1", acc[1])
            emit("adc r%s, r25", acc[2])
        emit("st z+, r%s", acc[0])
        print("")
        acc = acc[1:] + acc[:1]

    #### now we need to start shifting x and loading from z
    x_regs = [2, 3, 4, 5, 6, 7, 8, 9, 10, 11]
    for r in range(0, prev_size):
        x_regs = x_regs[1:] + x_regs[:1]
        emit("ld r%s, x+", x_regs[9]) # load next byte of left
        emit("ldi r%s, 0", acc[2])
        for i in range(0, 10):
            emit("mul r%s, r%s", x_regs[i], ry(9 - i))
            emit("add r%s, r0", acc[0])
            emit("adc r%s, r1", acc[1])
            emit("adc r%s, r25", acc[2])
        emit("ld r0, z") # load stored value from initial block, and add to accumulator (note z does not increment)
        emit("add r%s, r0", acc[0])
        emit("adc r%s, r25", acc[1])
        emit("adc r%s, r25", acc[2])
        emit("st z+, r%s", acc[0]) # store next byte (z increments)
        print("")
        acc = acc[1:] + acc[:1]

    # done shifting x, start shifting y
    y_regs = [12, 13, 14, 15, 16, 17, 18, 19, 20, 21]
    for r in range(0, prev_size):
        y_regs = y_regs[1:] + y_regs[:1]
        emit("ld r%s, y+", y_regs[9]) # load next byte of right
        emit("ldi r%s, 0", acc[2])
        for i in range(0, 10):
            emit("mul r%s, r%s", x_regs[i], y_regs[9 -i])
            emit("add r%s, r0", acc[0])
            emit("adc r%s, r1", acc[1])
            emit("adc r%s, r25", acc[2])
        emit("ld r0, z") # load stored value from initial block, and add to accumulator (note z does not increment)
        emit("add r%s, r0", acc[0])
        emit("adc r%s, r25", acc[1])
        emit("adc r%s, r25", acc[2])
        emit("st z+, r%s", acc[0]) # store next byte (z increments)
        print("")
        acc = acc[1:] + acc[:1]

    # done both shifts, do remaining corner
    for r in range(1, 9):
        emit("ldi r%s, 0", acc[2])
        for i in range(0, 10-r):
            emit("mul r%s, r%s", x_regs[r+i], y_regs[9 - i])
            emit("add r%s, r0", acc[0])
            emit("adc r%s, r1", acc[1])
            emit("adc r%s, r25", acc[2])
        emit("st z+, r%s", acc[0])
        print("")
        acc = acc[1:] + acc[:1]
    emit("mul r%s, r%s", x_regs[9], y_regs[9])
    emit("add r%s, r0", acc[0])
    emit("adc r%s, r1", acc[1])
    emit("st z+, r%s", acc[0])
    emit("st z+, r%s", acc[1])
    print("")
    
    prev_size = prev_size + 10
    if row < full_rows - 1:
        #### reset x, y and z pointers
        emit("sbiw r30, %s", 2 * prev_size + 10)
        emit("sbiw r28, %s", prev_size + 10)
        emit("sbiw r26, %s", prev_size)

        #### load x and y registers
        for i in range(10):
            emit("ld r%s, x+", rx(i))
            emit("ld r%s, y+", ry(i))
        print("")

emit("eor r1, r1")