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Devolves drive responsibility.
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@ -8,7 +8,6 @@
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#include "IWM.hpp"
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#define NDEBUG
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#include "../../Outputs/Log.hpp"
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using namespace Apple;
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@ -83,101 +82,16 @@ uint8_t IWM::read(int address) {
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(/ENBL1 is low when the first drive's motor is on; /ENBL2 is low when the second drive's motor is on.
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If the 1-second timer is enabled, motors remain on for one second after being programmatically disabled.)
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*/
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LOGNBR("Reading status (including [" << active_drive_ << "][" << ((state_ & CA2) ? '2' : '-') << ((state_ & CA1) ? '1' : '-') << ((state_ & CA0) ? '0' : '-') << ((state_ & SEL) ? 'S' : '-') << "] ");
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// LOGNBR("Reading status (including [" << active_drive_ << "][" << ((state_ & CA2) ? '2' : '-') << ((state_ & CA1) ? '1' : '-') << ((state_ & CA0) ? '0' : '-') << ((state_ & SEL) ? 'S' : '-') << "] ");
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// Determine the SENSE input.
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uint8_t sense = 0;
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switch(state_ & (CA2 | CA1 | CA0 | SEL)) {
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default:
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LOG("unknown)");
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break;
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// Possible other meanings:
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// B = ready (0 = ready)
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//
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// {CA1,CA0,SEL,CA2}
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case 0: // Head step direction.
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// (0 = inward)
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LOG("head step direction)");
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sense = (step_direction_ > 0) ? 0 : 1;
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break;
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case SEL: // Disk in place.
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// (0 = disk present)
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LOG("disk in place)");
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sense = drives_[active_drive_] && drives_[active_drive_]->has_disk() ? 0 : 1;
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break;
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case CA0: // Disk head step completed.
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// (0 = still stepping)
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LOG("head stepping)");
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sense = 1;
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break;
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case CA0|SEL: // Disk locked.
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// (0 = write protected)
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LOG("disk locked)");
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sense = drives_[active_drive_] && drives_[active_drive_]->get_is_read_only() ? 0 : 1;
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break;
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case CA1: // Disk motor running.
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// (0 = motor on)
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LOG("disk motor running)");
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sense = drives_[active_drive_] && drives_[active_drive_]->get_motor_on() ? 0 : 1;
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break;
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case CA1|SEL: // Head at track 0.
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// (0 = at track 0)
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LOG("head at track 0)");
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sense = drives_[active_drive_] && drives_[active_drive_]->get_is_track_zero() ? 0 : 1;
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break;
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case CA1|CA0|SEL: // Tachometer.
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// (arbitrary)
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sense = drives_[active_drive_] && drives_[active_drive_]->get_tachometer() ? 0 : 1;
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LOG("tachometer " << PADHEX(2) << int(sense) << ")");
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break;
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case CA2: // Read data, lower head.
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LOG("data, lower head)\n");
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if(drives_[0]) drives_[0]->set_head(0);
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if(drives_[1]) drives_[1]->set_head(0);
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break;
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case CA2|SEL: // Read data, upper head.
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LOG("data, upper head)\n");
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if(drives_[0]) drives_[0]->set_head(1);
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if(drives_[1]) drives_[1]->set_head(1);
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break;
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case CA2|CA1: // Single- or double-sided drive.
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// (0 = single sided)
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LOG("single- or double-sided drive)");
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sense = drives_[active_drive_] && (drives_[active_drive_]->get_head_count() == 1) ? 0 : 1;
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break;
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case CA1|CA0:
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LOG("1|0 experimental)");
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sense = 0;
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break;
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case CA2|CA1|CA0: // "Present/HD" (per the Mac Plus ROM)
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// (0 = ??HD??)
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LOG("present/HD)");
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sense = drives_[active_drive_] ? 0 : 1;
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break;
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case CA2|CA1|CA0|SEL: // Drive installed.
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// (0 = present, 1 = missing)
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LOG("drive installed)");
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sense = drives_[active_drive_] ? 1 : 0;
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break;
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}
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uint8_t sense = 1;
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if(drives_[active_drive_])
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sense = drives_[active_drive_]->read() ? 1 : 0;
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return uint8_t(
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(mode_&0x1f) |
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(drive_motor_on_ ? 0x20 : 0x00) |
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((state_ & ENABLE) ? 0x20 : 0x00) |
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(sense << 7)
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);
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} break;
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@ -244,70 +158,42 @@ void IWM::access(int address) {
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const auto mask = 1 << (address >> 1);
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const auto old_state = state_;
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// printf("[(%02x) %c%c%c%c ", mask, (state_ & CA2) ? '2' : '-', (state_ & CA1) ? '1' : '-', (state_ & CA0) ? '0' : '-', (state_ & SEL) ? 'S' : '-');
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if(address & 1) {
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state_ |= mask;
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} else {
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state_ &= ~mask;
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}
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// printf("-> %c%c%c%c] ", (state_ & CA2) ? '2' : '-', (state_ & CA1) ? '1' : '-', (state_ & CA0) ? '0' : '-', (state_ & SEL) ? 'S' : '-');
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// React appropriately to motor requests and to LSTRB register writes.
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if(old_state != state_) {
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push_drive_state();
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switch(mask) {
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default: break;
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case LSTRB:
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// Catch low-to-high LSTRB transitions.
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if(address & 1) {
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switch(state_ & (CA1 | CA0 | SEL)) {
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default:
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LOG("Unhandled LSTRB");
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break;
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case 0:
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LOG("LSTRB Set stepping direction: " << int(state_ & CA2));
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step_direction_ = (state_ & CA2) ? -1 : 1;
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break;
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case CA0:
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LOG("LSTRB Step");
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if(drives_[0]) drives_[0]->step(Storage::Disk::HeadPosition(step_direction_));
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if(drives_[1]) drives_[1]->step(Storage::Disk::HeadPosition(step_direction_));
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break;
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case CA1:
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LOG("LSTRB Motor on");
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break;
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case CA1|CA0:
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LOG("LSTRB Eject disk");
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break;
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}
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}
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break;
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case ENABLE:
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if(address & 1) {
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drive_motor_on_ = true;
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if(drives_[active_drive_]) drives_[active_drive_]->set_motor_on(true);
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if(drives_[active_drive_]) drives_[active_drive_]->set_enabled(true);
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} else {
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// If the 1-second delay is enabled, set up a timer for that.
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if(!(mode_ & 4)) {
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cycles_until_motor_off_ = Cycles(clock_rate_);
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} else {
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drive_motor_on_ = false;
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if(drives_[active_drive_]) drives_[active_drive_]->set_motor_on(false);
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}
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// if(!(mode_ & 4)) {
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// cycles_until_motor_off_ = Cycles(clock_rate_);
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// } else {
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// drive_motor_on_ = false;
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if(drives_[active_drive_]) drives_[active_drive_]->set_enabled(false);
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// }
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}
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break;
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case DRIVESEL: {
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const int new_drive = address & 1;
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if(new_drive != active_drive_) {
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if(drives_[active_drive_]) drives_[active_drive_]->set_motor_on(false);
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if(drives_[active_drive_]) drives_[active_drive_]->set_enabled(false);
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active_drive_ = new_drive;
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if(drives_[active_drive_]) drives_[active_drive_]->set_motor_on(drive_motor_on_);
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if(drives_[active_drive_]) {
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drives_[active_drive_]->set_enabled(state_ & ENABLE);
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push_drive_state();
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}
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}
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} break;
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}
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@ -316,27 +202,38 @@ void IWM::access(int address) {
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void IWM::set_select(bool enabled) {
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// Store SEL as an extra state bit.
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// printf("[%c%c%c%c ", (state_ & CA2) ? '2' : '-', (state_ & CA1) ? '1' : '-', (state_ & CA0) ? '0' : '-', (state_ & SEL) ? 'S' : '-');
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if(enabled) state_ |= SEL;
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else state_ &= ~SEL;
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// printf("-> %c%c%c%c] ", (state_ & CA2) ? '2' : '-', (state_ & CA1) ? '1' : '-', (state_ & CA0) ? '0' : '-', (state_ & SEL) ? 'S' : '-');
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push_drive_state();
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}
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void IWM::push_drive_state() {
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if(drives_[active_drive_]) {
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const uint8_t drive_control_lines =
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((state_ & CA0) ? IWMDrive::CA0 : 0) |
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((state_ & CA1) ? IWMDrive::CA1 : 0) |
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((state_ & CA2) ? IWMDrive::CA2 : 0) |
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((state_ & SEL) ? IWMDrive::SEL : 0) |
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((state_ & LSTRB) ? IWMDrive::LSTRB : 0);
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drives_[active_drive_]->set_control_lines(drive_control_lines);
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}
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}
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// MARK: - Active logic
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void IWM::run_for(const Cycles cycles) {
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// Check for a timeout of the motor-off timer.
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if(cycles_until_motor_off_ > Cycles(0)) {
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cycles_until_motor_off_ -= cycles;
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if(cycles_until_motor_off_ <= Cycles(0)) {
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drive_motor_on_ = false;
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if(drives_[active_drive_])
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drives_[active_drive_]->set_motor_on(false);
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}
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}
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// if(cycles_until_motor_off_ > Cycles(0)) {
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// cycles_until_motor_off_ -= cycles;
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// if(cycles_until_motor_off_ <= Cycles(0)) {
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// drive_motor_on_ = false;
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// if(drives_[active_drive_])
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// drives_[active_drive_]->set_motor_on(false);
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// }
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// }
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// Activity otherwise depends on mode and motor state.
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const bool run_disk = drive_motor_on_ && drives_[active_drive_];
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const bool run_disk = drives_[active_drive_]; // drive_motor_on_ &&
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int integer_cycles = cycles.as_int();
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switch(state_ & (Q6 | Q7 | ENABLE)) {
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case 0:
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@ -369,9 +266,9 @@ void IWM::process_event(const Storage::Disk::Drive::Event &event) {
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void IWM::propose_shift(uint8_t bit) {
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// TODO: synchronous mode.
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shift_register_ = uint8_t((shift_register_ << 1) | bit);
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if(shift_register_ & 0x80) {
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// printf("%02x -> data\n", shift_register_);
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data_register_ = shift_register_;
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shift_register_ = 0;
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}
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@ -81,7 +81,6 @@ class IWM:
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int active_drive_ = 0;
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IWMDrive *drives_[2] = {nullptr, nullptr};
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bool drive_motor_on_ = false;
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Cycles cycles_until_motor_off_;
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@ -92,7 +91,7 @@ class IWM:
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Cycles cycles_since_shift_;
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Cycles bit_length_;
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int step_direction_ = 0; // TODO: this should live on the drive.
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void push_drive_state();
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};
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@ -99,6 +99,7 @@ bool DoubleDensityDrive::read() {
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// Possible other meanings:
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// B = ready (0 = ready)
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// C = disk switched?
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//
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// {CA1,CA0,SEL,CA2}
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@ -115,7 +116,7 @@ bool DoubleDensityDrive::read() {
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case CA0: // Disk head step completed.
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// (0 = still stepping)
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// LOG("head stepping)");
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return true;
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return true; // TODO: stepping delay. But at the main Drive level.
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case CA0|SEL: // Disk locked.
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// (0 = write protected)
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@ -159,7 +160,7 @@ bool DoubleDensityDrive::read() {
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case CA2|CA1|CA0|SEL: // Drive installed.
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// (0 = present, 1 = missing)
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// LOG("drive installed)");
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return false;
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return true;
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}
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}
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@ -23,7 +23,7 @@
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#include "../../../Inputs/QuadratureMouse/QuadratureMouse.hpp"
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#define LOG_TRACE
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//#define LOG_TRACE
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#include "../../../Components/6522/6522.hpp"
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#include "../../../Components/8530/z8530.hpp"
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@ -309,7 +309,7 @@ template <class T, bool dtack_is_implicit, bool signal_will_perform> void Proces
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const uint32_t fetched_pc = (program_counter_.full - 4)&0xffffff;
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// should_log |= fetched_pc == 0x6d9c;
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should_log = (fetched_pc >= 0x4006F4 && fetched_pc <= 0x4007CE);
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should_log = (fetched_pc >= 0x41806A && fetched_pc <= 0x418618);
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// should_log |= fetched_pc == 0x4012A2;
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// should_log &= fetched_pc != 0x4012AE;
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