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276 lines
8.0 KiB
C++
276 lines
8.0 KiB
C++
//
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// CRTC6845.hpp
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// Clock Signal
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//
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// Created by Thomas Harte on 31/07/2017.
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// Copyright 2017 Thomas Harte. All rights reserved.
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//
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#ifndef CRTC6845_hpp
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#define CRTC6845_hpp
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#include "../../ClockReceiver/ClockReceiver.hpp"
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#include <cstdint>
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#include <cstdio>
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namespace Motorola {
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namespace CRTC {
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struct BusState {
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bool display_enable = false;
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bool hsync = false;
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bool vsync = false;
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bool cursor = false;
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uint16_t refresh_address = 0;
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uint16_t row_address = 0;
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};
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class BusHandler {
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public:
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/*!
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Performs the first phase of a 6845 bus cycle; this is the phase in which it is intended that
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systems using the 6845 respect the bus state and produce pixels, sync or whatever they require.
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*/
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void perform_bus_cycle_phase1(const BusState &) {}
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/*!
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Performs the second phase of a 6845 bus cycle. Some bus state, including sync, is updated
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directly after phase 1 and hence is visible to an observer during phase 2. Handlers may therefore
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implement @c perform_bus_cycle_phase2 to be notified of the availability of that state without
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having to wait until the next cycle has begun.
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*/
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void perform_bus_cycle_phase2(const BusState &) {}
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};
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enum Personality {
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HD6845S, // Type 0 in CPC parlance. Zero-width HSYNC available, no status, programmable VSYNC length.
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// Considered exactly identical to the UM6845, so this enum covers both.
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UM6845R, // Type 1 in CPC parlance. Status register, fixed-length VSYNC.
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MC6845, // Type 2. No status register, fixed-length VSYNC, no zero-length HSYNC.
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AMS40226 // Type 3. Status is get register, fixed-length VSYNC, no zero-length HSYNC.
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};
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// TODO UM6845R and R12/R13; see http://www.cpcwiki.eu/index.php/CRTC#CRTC_Differences
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template <class T> class CRTC6845 {
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public:
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CRTC6845(Personality p, T &bus_handler) noexcept :
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personality_(p), bus_handler_(bus_handler), status_(0) {}
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void select_register(uint8_t r) {
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selected_register_ = r;
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}
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uint8_t get_status() {
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switch(personality_) {
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case UM6845R: return status_ | (bus_state_.vsync ? 0x20 : 0x00);
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case AMS40226: return get_register();
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default: return 0xff;
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}
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return 0xff;
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}
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uint8_t get_register() {
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if(selected_register_ == 31) status_ &= ~0x80;
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if(selected_register_ == 16 || selected_register_ == 17) status_ &= ~0x40;
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if(personality_ == UM6845R && selected_register_ == 31) return dummy_register_;
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if(selected_register_ < 12 || selected_register_ > 17) return 0xff;
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return registers_[selected_register_];
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}
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void set_register(uint8_t value) {
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static uint8_t masks[] = {
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0xff, 0xff, 0xff, 0xff, 0x7f, 0x1f, 0x7f, 0x7f,
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0xff, 0x1f, 0x7f, 0x1f, 0x3f, 0xff, 0x3f, 0xff
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};
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// Per CPC documentation, skew doesn't work on a "type 1 or 2", i.e. an MC6845 or a UM6845R.
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if(selected_register_ == 8 && personality_ != UM6845R && personality_ != MC6845) {
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switch((value >> 4)&3) {
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default: display_skew_mask_ = 1; break;
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case 1: display_skew_mask_ = 2; break;
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case 2: display_skew_mask_ = 4; break;
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}
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}
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if(selected_register_ < 16) {
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registers_[selected_register_] = value & masks[selected_register_];
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}
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if(selected_register_ == 31 && personality_ == UM6845R) {
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dummy_register_ = value;
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}
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}
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void trigger_light_pen() {
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registers_[17] = bus_state_.refresh_address & 0xff;
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registers_[16] = bus_state_.refresh_address >> 8;
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status_ |= 0x40;
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}
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void run_for(Cycles cycles) {
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auto cyles_remaining = cycles.as_integral();
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while(cyles_remaining--) {
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// check for end of visible characters
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if(character_counter_ == registers_[1]) {
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// TODO: consider skew in character_is_visible_. Or maybe defer until perform_bus_cycle?
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character_is_visible_ = false;
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end_of_line_address_ = bus_state_.refresh_address;
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}
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perform_bus_cycle_phase1();
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bus_state_.refresh_address = (bus_state_.refresh_address + 1) & 0x3fff;
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// check for end-of-line
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if(character_counter_ == registers_[0]) {
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character_counter_ = 0;
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do_end_of_line();
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character_is_visible_ = true;
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} else {
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// increment counter
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character_counter_++;
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}
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// check for start of horizontal sync
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if(character_counter_ == registers_[2]) {
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hsync_counter_ = 0;
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bus_state_.hsync = true;
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}
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// check for end of horizontal sync; note that a sync time of zero will result in an immediate
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// cancellation of the plan to perform sync if this is an HD6845S or UM6845R; otherwise zero
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// will end up counting as 16 as it won't be checked until after overflow.
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if(bus_state_.hsync) {
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switch(personality_) {
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case HD6845S:
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case UM6845R:
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bus_state_.hsync = hsync_counter_ != (registers_[3] & 15);
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hsync_counter_ = (hsync_counter_ + 1) & 15;
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break;
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default:
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hsync_counter_ = (hsync_counter_ + 1) & 15;
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bus_state_.hsync = hsync_counter_ != (registers_[3] & 15);
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break;
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}
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}
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perform_bus_cycle_phase2();
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}
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}
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const BusState &get_bus_state() const {
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return bus_state_;
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}
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private:
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inline void perform_bus_cycle_phase1() {
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// Skew theory of operation: keep a history of the last three states, and apply whichever is selected.
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character_is_visible_shifter_ = (character_is_visible_shifter_ << 1) | static_cast<unsigned int>(character_is_visible_);
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bus_state_.display_enable = (static_cast<int>(character_is_visible_shifter_) & display_skew_mask_) && line_is_visible_;
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bus_handler_.perform_bus_cycle_phase1(bus_state_);
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}
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inline void perform_bus_cycle_phase2() {
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bus_handler_.perform_bus_cycle_phase2(bus_state_);
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}
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inline void do_end_of_line() {
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// check for end of vertical sync
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if(bus_state_.vsync) {
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vsync_counter_ = (vsync_counter_ + 1) & 15;
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// on the UM6845R and AMS40226, honour the programmed vertical sync time; on the other CRTCs
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// always use a vertical sync count of 16.
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switch(personality_) {
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case HD6845S:
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case AMS40226:
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bus_state_.vsync = vsync_counter_ != (registers_[3] >> 4);
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break;
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default:
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bus_state_.vsync = vsync_counter_ != 0;
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break;
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}
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}
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if(is_in_adjustment_period_) {
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line_counter_++;
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if(line_counter_ == registers_[5]) {
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is_in_adjustment_period_ = false;
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do_end_of_frame();
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}
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} else {
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// advance vertical counter
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if(bus_state_.row_address == registers_[9]) {
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bus_state_.row_address = 0;
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line_address_ = end_of_line_address_;
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// check for entry into the overflow area
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if(line_counter_ == registers_[4]) {
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if(registers_[5]) {
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line_counter_ = 0;
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is_in_adjustment_period_ = true;
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} else {
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do_end_of_frame();
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}
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} else {
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line_counter_ = (line_counter_ + 1) & 0x7f;
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// check for start of vertical sync
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if(line_counter_ == registers_[7]) {
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bus_state_.vsync = true;
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vsync_counter_ = 0;
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}
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// check for end of visible lines
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if(line_counter_ == registers_[6]) {
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line_is_visible_ = false;
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}
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}
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} else {
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bus_state_.row_address = (bus_state_.row_address + 1) & 0x1f;
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}
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}
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bus_state_.refresh_address = line_address_;
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character_counter_ = 0;
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character_is_visible_ = (registers_[1] != 0);
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}
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inline void do_end_of_frame() {
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line_counter_ = 0;
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line_is_visible_ = true;
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line_address_ = static_cast<uint16_t>((registers_[12] << 8) | registers_[13]);
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bus_state_.refresh_address = line_address_;
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}
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Personality personality_;
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T &bus_handler_;
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BusState bus_state_;
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uint8_t registers_[18] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
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uint8_t dummy_register_ = 0;
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int selected_register_ = 0;
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uint8_t character_counter_ = 0;
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uint8_t line_counter_ = 0;
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bool character_is_visible_ = false, line_is_visible_ = false;
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int hsync_counter_ = 0;
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int vsync_counter_ = 0;
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bool is_in_adjustment_period_ = false;
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uint16_t line_address_ = 0;
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uint16_t end_of_line_address_ = 0;
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uint8_t status_ = 0;
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int display_skew_mask_ = 1;
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unsigned int character_is_visible_shifter_ = 0;
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};
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}
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}
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#endif /* CRTC6845_hpp */
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