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CLK/Machines/Oric/Microdisc.cpp

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//
// 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 int head_load_request_counter_target = 7653333;
}
Microdisc::Microdisc() : WD1770(P1793) {
set_control_register(last_control_, 0xff);
}
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void Microdisc::set_disk(std::shared_ptr<Storage::Disk::Disk> disk, int drive) {
if(!drives_[drive]) {
drives_[drive].reset(new Storage::Disk::Drive(8000000, 300, 2));
if(drive == selected_drive_) set_drive(drives_[drive]);
}
drives_[drive]->set_disk(disk);
}
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void Microdisc::set_control_register(uint8_t control) {
uint8_t changes = last_control_ ^ control;
last_control_ = control;
set_control_register(control, changes);
}
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void Microdisc::set_control_register(uint8_t control, uint8_t changes) {
// b2: data separator clock rate select (1 = double) [TODO]
// b65: drive select
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if((changes >> 5)&3) {
selected_drive_ = (control >> 5)&3;
set_drive(drives_[selected_drive_]);
}
// b4: side select
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if(changes & 0x10) {
int head = (control & 0x10) ? 1 : 0;
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for(int c = 0; c < 4; c++) {
if(drives_[c]) drives_[c]->set_head(head);
}
}
// b3: double density select (0 = double)
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if(changes & 0x08) {
set_is_double_density(!(control & 0x08));
}
// b0: IRQ enable
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if(changes & 0x01) {
bool had_irq = get_interrupt_request_line();
irq_enable_ = !!(control & 0x01);
bool has_irq = get_interrupt_request_line();
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if(has_irq != had_irq && delegate_) {
delegate_->wd1770_did_change_output(this);
}
}
// b7: EPROM select (0 = select)
// b1: ROM disable (0 = disable)
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if(changes & 0x82) {
paging_flags_ = ((control & 0x02) ? 0 : BASICDisable) | ((control & 0x80) ? MicrodscDisable : 0);
if(delegate_) delegate_->microdisc_did_change_paging_flags(this);
}
}
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bool Microdisc::get_interrupt_request_line() {
return irq_enable_ && WD1770::get_interrupt_request_line();
}
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uint8_t Microdisc::get_interrupt_request_register() {
return 0x7f | (WD1770::get_interrupt_request_line() ? 0x00 : 0x80);
}
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uint8_t Microdisc::get_data_request_register() {
return 0x7f | (get_data_request_line() ? 0x00 : 0x80);
}
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void Microdisc::set_head_load_request(bool 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(int c = 0; c < 4; c++) {
if(drives_[c]) drives_[c]->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.
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if(head_load) {
head_load_request_counter_ = 0;
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} else {
head_load_request_counter_ = head_load_request_counter_target;
set_head_loaded(head_load);
}
}
void Microdisc::run_for(const Cycles cycles) {
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if(head_load_request_counter_ < head_load_request_counter_target) {
head_load_request_counter_ += cycles.as_int();
if(head_load_request_counter_ >= head_load_request_counter_target) set_head_loaded(true);
}
WD::WD1770::run_for(cycles);
}
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bool Microdisc::get_drive_is_ready() {
return true;
}