| #!/usr/bin/env python |
| |
| import sys |
| |
| if len(sys.argv) < 2: |
| print "Provide the integer size in bytes" |
| sys.exit(1) |
| |
| size = int(sys.argv[1]) |
| |
| if size > 40: |
| print "This script doesn't work with integer size %s due to laziness" % (size) |
| sys.exit(1) |
| |
| init_size = size - 20 |
| if size < 20: |
| init_size = 0 |
| |
| def rg(i): |
| return i + 2 |
| |
| def lo(i): |
| return i + 2 |
| |
| def hi(i): |
| return i + 12 |
| |
| def emit(line, *args): |
| s = '"' + line + r' \n\t"' |
| print s % args |
| |
| #### set up registers |
| zero = "r25" |
| emit("ldi %s, 0", zero) # zero register |
| |
| if init_size > 0: |
| emit("movw r28, r26") # y = x |
| h = (init_size + 1)//2 |
| |
| for i in xrange(h): |
| emit("ld r%s, x+", lo(i)) |
| emit("adiw r28, %s", size - init_size) # move y to other end |
| for i in xrange(h): |
| emit("ld r%s, y+", hi(i)) |
| |
| emit("adiw r30, %s", size - init_size) # move z |
| |
| if init_size == 1: |
| emit("mul %s, %s", lo(0), hi(0)) |
| emit("st z+, r0") |
| emit("st z+, r1") |
| else: |
| #### first one |
| print "" |
| emit("ldi r23, 0") |
| emit("mul %s, %s", lo(0), hi(0)) |
| emit("st z+, r0") |
| emit("mov r22, r1") |
| print "" |
| |
| #### rest of initial block, with moving accumulator registers |
| acc = [22, 23, 24] |
| for r in xrange(1, h): |
| emit("ldi r%s, 0", acc[2]) |
| for i in xrange(0, (r+2)//2): |
| emit("mul r%s, r%s", lo(i), hi(r - i)) |
| emit("add r%s, r0", acc[0]) |
| emit("adc r%s, r1", acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| emit("st z+, r%s", acc[0]) |
| print "" |
| acc = acc[1:] + acc[:1] |
| |
| lo_r = range(2, 2 + h) |
| hi_r = range(12, 12 + h) |
| |
| # now we need to start loading more from the high end |
| for r in xrange(h, init_size): |
| hi_r = hi_r[1:] + hi_r[:1] |
| emit("ld r%s, y+", hi_r[h-1]) |
| |
| emit("ldi r%s, 0", acc[2]) |
| for i in xrange(0, (r+2)//2): |
| emit("mul r%s, r%s", lo(i), hi_r[h - 1 - i]) |
| emit("add r%s, r0", acc[0]) |
| emit("adc r%s, r1", acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| emit("st z+, r%s", acc[0]) |
| print "" |
| acc = acc[1:] + acc[:1] |
| |
| # loaded all of the high end bytes; now need to start loading the rest of the low end |
| for r in xrange(1, init_size-h): |
| lo_r = lo_r[1:] + lo_r[:1] |
| emit("ld r%s, x+", lo_r[h-1]) |
| |
| emit("ldi r%s, 0", acc[2]) |
| for i in xrange(0, (init_size+1 - r)//2): |
| emit("mul r%s, r%s", lo_r[i], hi_r[h - 1 - i]) |
| emit("add r%s, r0", acc[0]) |
| emit("adc r%s, r1", acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| emit("st z+, r%s", acc[0]) |
| print "" |
| acc = acc[1:] + acc[:1] |
| |
| lo_r = lo_r[1:] + lo_r[:1] |
| emit("ld r%s, x+", lo_r[h-1]) |
| |
| # now we have loaded everything, and we just need to finish the last corner |
| for r in xrange(init_size-h, init_size-1): |
| emit("ldi r%s, 0", acc[2]) |
| for i in xrange(0, (init_size+1 - r)//2): |
| emit("mul r%s, r%s", lo_r[i], hi_r[h - 1 - i]) |
| emit("add r%s, r0", acc[0]) |
| emit("adc r%s, r1", acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| emit("st z+, r%s", acc[0]) |
| print "" |
| acc = acc[1:] + acc[:1] |
| lo_r = lo_r[1:] + lo_r[:1] # make the indexing easy |
| |
| emit("mul r%s, r%s", lo_r[0], hi_r[h - 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 "" |
| emit("sbiw r26, %s", init_size) # reset x |
| emit("sbiw r30, %s", size + init_size) # reset z |
| |
| # TODO you could do more rows of size 20 here if your integers are larger than 40 bytes |
| |
| s = size - init_size |
| |
| for i in xrange(s): |
| emit("ld r%s, x+", rg(i)) |
| |
| #### first few columns |
| # NOTE: this is only valid if size >= 3 |
| print "" |
| emit("ldi r23, 0") |
| emit("mul r%s, r%s", rg(0), rg(0)) |
| emit("st z+, r0") |
| emit("mov r22, r1") |
| print "" |
| emit("ldi r24, 0") |
| emit("mul r%s, r%s", rg(0), rg(1)) |
| emit("add r22, r0") |
| emit("adc r23, r1") |
| emit("adc r24, %s", zero) |
| emit("add r22, r0") |
| emit("adc r23, r1") |
| emit("adc r24, %s", zero) |
| emit("st z+, r22") |
| print "" |
| emit("ldi r22, 0") |
| emit("mul r%s, r%s", rg(0), rg(2)) |
| emit("add r23, r0") |
| emit("adc r24, r1") |
| emit("adc r22, %s", zero) |
| emit("add r23, r0") |
| emit("adc r24, r1") |
| emit("adc r22, %s", zero) |
| emit("mul r%s, r%s", rg(1), rg(1)) |
| emit("add r23, r0") |
| emit("adc r24, r1") |
| emit("adc r22, %s", zero) |
| emit("st z+, r23") |
| print "" |
| |
| acc = [23, 24, 22] |
| old_acc = [28, 29] |
| for i in xrange(3, s): |
| emit("ldi r%s, 0", old_acc[1]) |
| tmp = [acc[1], acc[2]] |
| acc = [acc[0], old_acc[0], old_acc[1]] |
| old_acc = tmp |
| |
| # gather non-equal words |
| emit("mul r%s, r%s", rg(0), rg(i)) |
| emit("mov r%s, r0", acc[0]) |
| emit("mov r%s, r1", acc[1]) |
| for j in xrange(1, (i+1)//2): |
| emit("mul r%s, r%s", rg(j), rg(i-j)) |
| emit("add r%s, r0", acc[0]) |
| emit("adc r%s, r1", acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| # multiply by 2 |
| emit("lsl r%s", acc[0]) |
| emit("rol r%s", acc[1]) |
| emit("rol r%s", acc[2]) |
| |
| # add equal word (if any) |
| if ((i+1) % 2) != 0: |
| emit("mul r%s, r%s", rg(i//2), rg(i//2)) |
| emit("add r%s, r0", acc[0]) |
| emit("adc r%s, r1", acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| |
| # add old accumulator |
| emit("add r%s, r%s", acc[0], old_acc[0]) |
| emit("adc r%s, r%s", acc[1], old_acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| |
| # store |
| emit("st z+, r%s", acc[0]) |
| print "" |
| |
| regs = range(2, 22) |
| for i in xrange(init_size): |
| regs = regs[1:] + regs[:1] |
| emit("ld r%s, x+", regs[19]) |
| |
| for limit in [18, 19]: |
| emit("ldi r%s, 0", old_acc[1]) |
| tmp = [acc[1], acc[2]] |
| acc = [acc[0], old_acc[0], old_acc[1]] |
| old_acc = tmp |
| |
| # gather non-equal words |
| emit("mul r%s, r%s", regs[0], regs[limit]) |
| emit("mov r%s, r0", acc[0]) |
| emit("mov r%s, r1", acc[1]) |
| for j in xrange(1, (limit+1)//2): |
| emit("mul r%s, r%s", regs[j], regs[limit-j]) |
| emit("add r%s, r0", acc[0]) |
| emit("adc r%s, r1", acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| |
| 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]) |
| |
| # multiply by 2 |
| emit("lsl r%s", acc[0]) |
| emit("rol r%s", acc[1]) |
| emit("rol r%s", acc[2]) |
| |
| # add equal word |
| if limit == 18: |
| emit("mul r%s, r%s", regs[9], regs[9]) |
| emit("add r%s, r0", acc[0]) |
| emit("adc r%s, r1", acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| |
| # add old accumulator |
| emit("add r%s, r%s", acc[0], old_acc[0]) |
| emit("adc r%s, r%s", acc[1], old_acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| |
| # store |
| emit("st z+, r%s", acc[0]) |
| print "" |
| |
| for i in xrange(1, s-3): |
| emit("ldi r%s, 0", old_acc[1]) |
| tmp = [acc[1], acc[2]] |
| acc = [acc[0], old_acc[0], old_acc[1]] |
| old_acc = tmp |
| |
| # gather non-equal words |
| emit("mul r%s, r%s", regs[i], regs[s - 1]) |
| emit("mov r%s, r0", acc[0]) |
| emit("mov r%s, r1", acc[1]) |
| for j in xrange(1, (s-i)//2): |
| emit("mul r%s, r%s", regs[i+j], regs[s - 1 - j]) |
| emit("add r%s, r0", acc[0]) |
| emit("adc r%s, r1", acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| # multiply by 2 |
| emit("lsl r%s", acc[0]) |
| emit("rol r%s", acc[1]) |
| emit("rol r%s", acc[2]) |
| |
| # add equal word (if any) |
| if ((s-i) % 2) != 0: |
| emit("mul r%s, r%s", regs[i + (s-i)//2], regs[i + (s-i)//2]) |
| emit("add r%s, r0", acc[0]) |
| emit("adc r%s, r1", acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| |
| # add old accumulator |
| emit("add r%s, r%s", acc[0], old_acc[0]) |
| emit("adc r%s, r%s", acc[1], old_acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| |
| # store |
| emit("st z+, r%s", acc[0]) |
| print "" |
| |
| acc = acc[1:] + acc[:1] |
| emit("ldi r%s, 0", acc[2]) |
| emit("mul r%s, r%s", regs[17], regs[19]) |
| emit("add r%s, r0", acc[0]) |
| emit("adc r%s, r1", acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| emit("add r%s, r0", acc[0]) |
| emit("adc r%s, r1", acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| emit("mul r%s, r%s", regs[18], regs[18]) |
| emit("add r%s, r0", acc[0]) |
| emit("adc r%s, r1", acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| emit("st z+, r%s", acc[0]) |
| print "" |
| |
| acc = acc[1:] + acc[:1] |
| emit("ldi r%s, 0", acc[2]) |
| emit("mul r%s, r%s", regs[18], regs[19]) |
| emit("add r%s, r0", acc[0]) |
| emit("adc r%s, r1", acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| emit("add r%s, r0", acc[0]) |
| emit("adc r%s, r1", acc[1]) |
| emit("adc r%s, %s", acc[2], zero) |
| emit("st z+, r%s", acc[0]) |
| print "" |
| |
| emit("mul r%s, r%s", regs[19], regs[19]) |
| emit("add r%s, r0", acc[1]) |
| emit("adc r%s, r1", acc[2]) |
| emit("st z+, r%s", acc[1]) |
| |
| emit("st z+, r%s", acc[2]) |
| emit("eor r1, r1") |
