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CLK/Machines/Atari/ST/Video.hpp

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//
// Video.hpp
// Clock Signal
//
// Created by Thomas Harte on 04/10/2019.
// Copyright © 2019 Thomas Harte. All rights reserved.
//
#ifndef Atari_ST_Video_hpp
#define Atari_ST_Video_hpp
#include "../../../Outputs/CRT/CRT.hpp"
#include "../../../ClockReceiver/ClockReceiver.hpp"
#include <vector>
namespace Atari {
namespace ST {
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/*!
Models a combination of the parts of the GLUE, MMU and Shifter that in net
form the video subsystem of the Atari ST. So not accurate to a real chip, but
(hopefully) to a subsystem.
*/
class Video {
public:
Video();
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/*!
Sets the memory pool that provides video, and its size.
*/
void set_ram(uint16_t *, size_t size);
/*!
Sets the target device for video data.
*/
void set_scan_target(Outputs::Display::ScanTarget *scan_target);
/*!
Produces the next @c duration period of pixels.
*/
void run_for(HalfCycles duration);
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/*!
@returns the number of cycles until there is next a change in the hsync,
vsync or display_enable outputs.
*/
HalfCycles get_next_sequence_point();
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/*!
@returns @c true if the horizontal sync output is currently active; @c false otherwise.
@discussion On an Atari ST, this generates a VPA-style interrupt, which is often erroneously
documented as being triggered by horizontal blank.
*/
bool hsync();
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/*!
@returns @c true if the vertical sync output is currently active; @c false otherwise.
@discussion On an Atari ST, this generates a VPA-style interrupt, which is often erroneously
documented as being triggered by vertical blank.
*/
bool vsync();
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/*!
@returns @c true if the display enabled output is currently active; @c false otherwise.
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@discussion On an Atari ST this is fed to the MFP. The documentation that I've been able to
find implies a total 28-cycle delay between the real delay enabled signal changing and its effect
on the 68000 interrupt input via the MFP. As I have yet to determine how much delay is caused
by the MFP a full 28-cycle delay is applied by this class. This should be dialled down when the
MFP's responsibility is clarified.
*/
bool display_enabled();
/// @returns the effect of reading from @c address; only the low 6 bits are decoded.
uint16_t read(int address);
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/// Writes @c value to @c address, of which only the low 6 bits are decoded.
void write(int address, uint16_t value);
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/// Used internally to track state.
enum class FieldFrequency {
Fifty = 0, Sixty = 1, SeventyTwo = 2
};
struct RangeObserver {
/// Indicates to the observer that the memory access range has changed.
virtual void video_did_change_access_range(Video *) = 0;
};
/// Sets a range observer, which is an actor that will be notified if the memory access range changes.
void set_range_observer(RangeObserver *);
struct Range {
uint32_t low_address, high_address;
};
/*!
@returns the range of addresses that the video might read from.
*/
Range get_memory_access_range();
private:
Outputs::CRT::CRT crt_;
RangeObserver *range_observer_ = nullptr;
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uint16_t raw_palette_[16];
uint16_t palette_[16];
int base_address_ = 0;
int previous_base_address_ = 0;
int current_address_ = 0;
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uint16_t *ram_ = nullptr;
uint16_t line_buffer_[256];
int x_ = 0, y_ = 0, next_y_ = 0;
int next_load_toggle_ = -1;
bool load_ = false;
int load_base_ = 0;
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uint16_t video_mode_ = 0;
uint16_t sync_mode_ = 0;
FieldFrequency field_frequency_ = FieldFrequency::Fifty;
enum class OutputBpp {
One, Two, Four
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} output_bpp_ = OutputBpp::Four;
void update_output_mode();
struct HorizontalState {
bool enable = false;
bool blank = false;
bool sync = false;
} horizontal_;
struct VerticalState {
bool enable = false;
bool blank = false;
enum class SyncSchedule {
/// No sync events this line.
None,
/// Sync should begin during this horizontal line.
Begin,
/// Sync should end during this horizontal line.
End,
} sync_schedule = SyncSchedule::None;
bool sync = false;
} vertical_, next_vertical_;
int line_length_ = 1024;
int data_latch_position_ = 0;
int data_latch_read_position_ = 0;
uint16_t data_latch_[128];
void push_latched_data();
void reset_fifo();
class Shifter {
public:
Shifter(Outputs::CRT::CRT &crt, uint16_t *palette) : crt_(crt), palette_(palette) {}
void output_blank(int duration);
void output_sync(int duration);
void output_border(int duration, OutputBpp bpp);
void output_pixels(int duration, OutputBpp bpp);
void load(uint64_t value);
private:
int duration_ = 0;
enum class OutputMode {
Sync, Blank, Border, Pixels
} output_mode_ = OutputMode::Sync;
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uint16_t border_colour_ = 0;
OutputBpp bpp_ = OutputBpp::Four;
union {
uint64_t output_shifter_;
uint32_t shifter_halves_[2];
};
void flush_output(OutputMode next_mode);
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uint16_t *pixel_buffer_ = nullptr;
size_t pixel_pointer_ = 0;
Outputs::CRT::CRT &crt_;
uint16_t *palette_ = nullptr;
} shifter_;
/// Contains copies of the various observeable fields, after the relevant propagation delay.
struct PublicState {
bool display_enable = false;
} public_state_;
struct Event {
int delay;
enum class Type {
SetDisplayEnable, ResetDisplayEnable
} type;
Event(Type type, int delay) : delay(delay), type(type) {}
void apply(PublicState &state) {
apply(type, state);
}
static void apply(Type type, PublicState &state) {
switch(type) {
default:
case Type::SetDisplayEnable: state.display_enable = true; break;
case Type::ResetDisplayEnable: state.display_enable = false; break;
}
}
};
std::vector<Event> pending_events_;
void add_event(int delay, Event::Type type) {
// Apply immediately if there's no delay (or a negative delay).
if(delay <= 0) {
Event::apply(type, public_state_);
return;
}
// Otherwise enqueue, having subtracted the delay for any preceding events,
// and subtracting from the subsequent, if any.
auto insertion_point = pending_events_.begin();
while(insertion_point != pending_events_.end() && insertion_point->delay > delay) {
delay -= insertion_point->delay;
++insertion_point;
}
if(insertion_point != pending_events_.end()) {
insertion_point->delay -= delay;
}
pending_events_.emplace(insertion_point, type, delay);
}
};
}
}
#endif /* Atari_ST_Video_hpp */