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CLK/Machines/Oric/Microdisc.cpp
Thomas Harte 05bcd73f82 Attempts to pull drive ownership into DiskController.
For the sake of being more intelligent as to drive clocking, hopefully. And, eventually, to support multiple drive selection.
2020-02-11 21:59:13 -05:00

121 lines
3.5 KiB
C++

//
// Microdisc.cpp
// Clock Signal
//
// Created by Thomas Harte on 22/11/2016.
// Copyright 2016 Thomas Harte. All rights reserved.
//
#include "Microdisc.hpp"
using namespace Oric;
namespace {
// The number below, in cycles against an 8Mhz clock, was arrived at fairly unscientifically,
// by comparing the amount of time this emulator took to show a directory versus a video of
// a real Oric. It therefore assumes all other timing measurements were correct on the day
// of the test. More work to do, I think.
const Cycles::IntType head_load_request_counter_target = 7653333;
}
Microdisc::Microdisc() : DiskController(P1793, 8000000, Storage::Disk::Drive::ReadyType::ShugartRDY) {
set_control_register(last_control_, 0xff);
}
void Microdisc::set_control_register(uint8_t control) {
const uint8_t changes = last_control_ ^ control;
last_control_ = control;
set_control_register(control, changes);
}
void Microdisc::set_control_register(uint8_t control, uint8_t changes) {
// b2: data separator clock rate select (1 = double) [TODO]
// b65: drive select
if((changes >> 5)&3) {
set_drive(1 << (control >> 5)&3);
}
// b4: side select
if(changes & 0x10) {
const int head = (control & 0x10) ? 1 : 0;
for_all_drives([head] (Storage::Disk::Drive &drive, size_t) {
drive.set_head(head);
});
}
// b3: double density select (0 = double)
if(changes & 0x08) {
set_is_double_density(!(control & 0x08));
}
// b0: IRQ enable
if(changes & 0x01) {
const bool had_irq = get_interrupt_request_line();
irq_enable_ = !!(control & 0x01);
const bool has_irq = get_interrupt_request_line();
if(has_irq != had_irq && delegate_) {
delegate_->wd1770_did_change_output(this);
}
}
// b7: EPROM select (0 = select)
// b1: ROM disable (0 = disable)
if(changes & 0x82) {
enable_overlay_ram_ = control & 0x80;
disable_basic_rom_ = !(control & 0x02);
select_paged_item();
}
}
bool Microdisc::get_interrupt_request_line() {
return irq_enable_ && WD1770::get_interrupt_request_line();
}
uint8_t Microdisc::get_interrupt_request_register() {
return 0x7f | (WD1770::get_interrupt_request_line() ? 0x00 : 0x80);
}
uint8_t Microdisc::get_data_request_register() {
return 0x7f | (get_data_request_line() ? 0x00 : 0x80);
}
void Microdisc::set_head_load_request(bool head_load) {
head_load_request_ = head_load;
// The drive motors (at present: I believe **all drive motors** regardless of the selected drive) receive
// the current head load request state.
for_all_drives([head_load] (Storage::Disk::Drive &drive, size_t) {
drive.set_motor_on(head_load);
});
// A request to load the head results in a delay until the head is confirmed loaded. This delay is handled
// in ::run_for. A request to unload the head results in an instant answer that the head is unloaded.
if(head_load) {
head_load_request_counter_ = 0;
} else {
head_load_request_counter_ = head_load_request_counter_target;
set_head_loaded(head_load);
}
if(observer_) {
observer_->set_led_status("Microdisc", head_load);
}
}
void Microdisc::run_for(const Cycles cycles) {
if(head_load_request_counter_ < head_load_request_counter_target) {
head_load_request_counter_ += cycles.as_integral();
if(head_load_request_counter_ >= head_load_request_counter_target) set_head_loaded(true);
}
WD::WD1770::run_for(cycles);
}
void Microdisc::set_activity_observer(Activity::Observer *observer) {
observer_ = observer;
if(observer) {
observer->register_led("Microdisc");
observer_->set_led_status("Microdisc", head_load_request_);
}
}