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CLK/Components/DiskII/MacintoshDoubleDensityDrive.cpp

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//
// MacintoshDoubleDensityDrive.cpp
// Clock Signal
//
// Created by Thomas Harte on 10/07/2019.
// Copyright © 2019 Thomas Harte. All rights reserved.
//
#include "MacintoshDoubleDensityDrive.hpp"
/*
Sources used pervasively:
http://members.iinet.net.au/~kalandi/apple/AUG/1991/11%20NOV.DEC/DISK.STUFF.html
Apple Guide to the Macintosh Family Hardware
Inside Macintosh III
*/
using namespace Apple::Macintosh;
DoubleDensityDrive::DoubleDensityDrive(int input_clock_rate, bool is_800k) :
IWMDrive(input_clock_rate, is_800k ? 2 : 1), // Only 800kb drives are double sided.
is_800k_(is_800k) {
// Start with a valid rotation speed.
if(is_800k) {
Drive::set_rotation_speed(393.3807f);
}
}
// MARK: - Speed Selection
void DoubleDensityDrive::did_step(Storage::Disk::HeadPosition to_position) {
// printf("At track %d\n", to_position.as_int());
// The 800kb drive automatically selects rotation speed as a function of
// head position; the 400kb drive doesn't do so.
if(is_800k_) {
/*
Numbers below cribbed from the Kryoflux forums; specifically:
https://forum.kryoflux.com/viewtopic.php?t=1090
They can almost be worked out algorithmically, since the point is to
produce an almost-constant value for speed*(number of sectors), and:
393.3807 * 12 = 4720.5684
429.1723 * 11 = 4720.895421
472.1435 * 10 = 4721.435
524.5672 * 9 = 4721.1048
590.1098 * 8 = 4720.8784
So 4721 / (number of sectors per track in zone) would give essentially
the same results.
*/
const int zone = to_position.as_int() >> 4;
switch(zone) {
case 0: Drive::set_rotation_speed(393.3807f); break;
case 1: Drive::set_rotation_speed(429.1723f); break;
case 2: Drive::set_rotation_speed(472.1435f); break;
case 3: Drive::set_rotation_speed(524.5672f); break;
default: Drive::set_rotation_speed(590.1098f); break;
}
}
}
void DoubleDensityDrive::set_rotation_speed(float revolutions_per_minute) {
if(!is_800k_) {
// Don't allow drive speeds to drop below 10 RPM, as a temporary sop
// to sanity.
Drive::set_rotation_speed(std::max(10.0f, revolutions_per_minute));
}
}
// MARK: - Control input/output.
void DoubleDensityDrive::set_enabled(bool enabled) {
// Disabling a drive also stops its motor.
if(!enabled) set_motor_on(false);
}
void DoubleDensityDrive::set_control_lines(int lines) {
const auto old_state = control_state_;
control_state_ = lines;
// Catch low-to-high LSTRB transitions.
if((old_state ^ control_state_) & control_state_ & Line::LSTRB) {
switch(control_state_ & (Line::CA2 | Line::CA1 | Line::CA0 | Line::SEL)) {
default:
break;
case 0: // Set step direction — CA2 set => step outward.
case Line::CA2:
step_direction_ = (control_state_ & Line::CA2) ? -1 : 1;
break;
case Line::CA1: // Set drive motor — CA2 set => motor off.
case Line::CA1|Line::CA2:
set_motor_on(!(control_state_ & Line::CA2));
break;
case Line::CA0: // Initiate a step.
step(Storage::Disk::HeadPosition(step_direction_));
break;
case Line::SEL|Line::CA2: // Reset new disk flag.
has_new_disk_ = false;
break;
case Line::CA2 | Line::CA1 | Line::CA0: // Eject the disk.
set_disk(nullptr);
break;
}
}
}
bool DoubleDensityDrive::read() {
switch(control_state_ & (CA2 | CA1 | CA0 | SEL)) {
default:
return false;
case 0: // Head step direction.
// (0 = inward)
return step_direction_ <= 0;
case SEL: // Disk in place.
// (0 = disk present)
return !has_disk();
case CA0: // Disk head step completed.
// (0 = still stepping)
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return true; // TODO: stepping delay. But at the main Drive level.
case CA0|SEL: // Disk locked.
// (0 = write protected)
return !get_is_read_only();
case CA1: // Disk motor running.
// (0 = motor on)
return !get_motor_on();
case CA1|SEL: // Head at track 0.
// (0 = at track 0)
// "This bit becomes valid beginning 12 msec after the step that places the head at track 0."
return !get_is_track_zero();
case CA1|CA0: // Disk has been ejected.
// (0 = user has ejected disk)
return !has_new_disk_;
case CA1|CA0|SEL: // Tachometer.
// (arbitrary)
return get_tachometer();
case CA2: // Read data, lower head.
set_head(0);
return false;
case CA2|SEL: // Read data, upper head.
set_head(1);
return false;
case CA2|CA1: // Single- or double-sided drive.
// (0 = single sided)
return get_head_count() != 1;
case CA2|CA1|CA0: // "Present/HD" (per the Mac Plus ROM)
// (0 = ??HD??)
//
// Alternative explanation: "Disk ready for reading?"
// (0 = ready)
return false;
case CA2|CA1|CA0|SEL: // Drive installed.
// (0 = present, 1 = missing)
//
// TODO: why do I need to return this the wrong way around for the Mac Plus?
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return true;
}
}
void DoubleDensityDrive::did_set_disk() {
has_new_disk_ = true;
}