pm
/
greaseweazle-firmware


			
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							# greaseweazle/tools/write.py
#
# Greaseweazle control script: Write Image to Disk.
#
# Written & released by Keir Fraser <keir.xen@gmail.com>
#
# This is free and unencumbered software released into the public domain.
# See the file COPYING for more details, or visit <http://unlicense.org>.

description = "Write a disk from the specified image file."

import sys

from greaseweazle.tools import util
from greaseweazle import error
from greaseweazle import usb as USB

# Read and parse the image file.
def open_image(args):
    cls = util.get_image_class(args.file)
    return cls.from_file(args.file)

class Formatter:
    def __init__(self):
        self.length = 0
    def print(self, s):
        self.erase()
        self.length = len(s)
        print(s, end="", flush=True)
    def erase(self):
        l = self.length
        print("\b"*l + " "*l + "\b"*l, end="", flush=True)
        self.length = 0

# write_from_image:
# Writes the specified image file to floppy disk.
def write_from_image(usb, args, image):

    # @drive_ticks is the time in Greaseweazle ticks between index pulses.
    # We will adjust the flux intervals per track to allow for this.
    flux = usb.read_track(2)
    drive_ticks = (flux.index_list[0] + flux.index_list[1]) / 2
    del flux

    verified_count, not_verified_count = 0, 0

    for cyl in range(args.scyl, args.ecyl+1):
        for side in range(0, args.nr_sides):

            track = image.get_track(cyl, side)
            if track is None and not args.erase_empty:
                continue

            print("\r%sing Track %u.%u..." %
                  ("Writ" if track is not None else "Eras", cyl, side),
                  end="", flush=True)
            usb.seek((cyl, cyl*2)[args.double_step], side)
            
            if track is None:
                usb.erase_track(drive_ticks * 1.1)
                continue

            flux = track.flux_for_writeout()
            
            # @factor adjusts flux times for speed variations between the
            # read-in and write-out drives.
            factor = drive_ticks / flux.index_list[0]

            # Convert the flux samples to Greaseweazle sample frequency.
            rem = 0.0
            flux_list = []
            for x in flux.list:
                y = x * factor + rem
                val = round(y)
                rem = y - val
                flux_list.append(val)

            # Encode the flux times for Greaseweazle, and write them out.
            formatter = Formatter()
            verified = False
            for retry in range(3):
                usb.write_track(flux_list, flux.terminate_at_index)
                try:
                    no_verify = args.no_verify or track.verify is None
                except AttributeError: # track.verify undefined
                    no_verify = True
                if no_verify:
                    not_verified_count += 1
                    verified = True
                    break
                v_revs = 1 if track.splice == 0 else 2
                v_flux = usb.read_track(v_revs)
                v_flux.scale(flux.mean_index_time / v_flux.mean_index_time)
                verified = track.verify.verify_track(v_flux)
                if verified:
                    verified_count += 1
                    break
                formatter.print(" Retry %d" % (retry + 1))
            formatter.erase()
            error.check(verified, "Failed to write Track %u.%u" % (cyl, side))

    print()
    if not_verified_count == 0:
        print("All tracks verified")
    else:
        if verified_count == 0:
            s = "No tracks verified "
        else:
            s = ("%d tracks verified; %d tracks *not* verified "
                 % (verified_count, not_verified_count))
        s += ("(Reason: Verify %s)"
              % ("unavailable", "disabled")[args.no_verify])
        print(s)


def main(argv):

    parser = util.ArgumentParser(usage='%(prog)s [options] file')
    parser.add_argument("--device", help="greaseweazle device name")
    parser.add_argument("--drive", type=util.drive_letter, default='A',
                        help="drive to write (A,B,0,1,2)")
    parser.add_argument("--scyl", type=int, default=0,
                        help="first cylinder to write")
    parser.add_argument("--ecyl", type=int, default=81,
                        help="last cylinder to write")
    parser.add_argument("--single-sided", action="store_true",
                        help="single-sided write")
    parser.add_argument("--double-step", action="store_true",
                        help="double-step drive heads")
    parser.add_argument("--erase-empty", action="store_true",
                        help="erase empty tracks (default: skip)")
    parser.add_argument("--no-verify", action="store_true",
                        help="disable verify")
    parser.add_argument("file", help="input filename")
    parser.description = description
    parser.prog += ' ' + argv[1]
    args = parser.parse_args(argv[2:])
    args.nr_sides = 1 if args.single_sided else 2

    try:
        usb = util.usb_open(args.device)
        image = open_image(args)
        util.with_drive_selected(write_from_image, usb, args, image)
    except USB.CmdError as error:
        print("Command Failed: %s" % error)


if __name__ == "__main__":
    main(sys.argv)

# Local variables:
# python-indent: 4
# End: