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127 lines
4.1 KiB
C++
127 lines
4.1 KiB
C++
//
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// CRT.hpp
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// Clock Signal
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//
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// Created by Thomas Harte on 19/07/2015.
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// Copyright © 2015 Thomas Harte. All rights reserved.
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//
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#ifndef CRT_cpp
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#define CRT_cpp
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#include <stdint.h>
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#include <stdarg.h>
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#include <string>
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#include <vector>
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#include "CRTFrame.h"
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namespace Outputs {
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class CRT;
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struct CRTFrameBuilder {
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CRTFrame frame;
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CRTFrameBuilder(int width, int height, int number_of_buffers, va_list buffer_sizes);
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~CRTFrameBuilder();
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private:
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std::vector<uint16_t> _all_runs;
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void reset();
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void complete();
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uint16_t *get_next_run();
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friend CRT;
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void allocate_write_area(int required_length);
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uint8_t *get_write_target_for_buffer(int buffer);
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// a pointer to the section of content buffer currently being
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// returned and to where the next section will begin
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int _write_x_position, _write_y_position;
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int _write_target_pointer;
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};
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static const int kCRTNumberOfFrames = 3;
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class CRT {
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public:
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CRT(int cycles_per_line, int height_of_display, int number_of_buffers, ...);
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~CRT();
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void output_sync(int number_of_cycles);
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void output_blank(int number_of_cycles);
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void output_level(int number_of_cycles, const char *type);
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void output_data(int number_of_cycles, const char *type);
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class CRTDelegate {
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public:
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virtual void crt_did_end_frame(CRT *crt, CRTFrame *frame) = 0;
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};
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void set_delegate(CRTDelegate *delegate);
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void return_frame();
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void allocate_write_area(int required_length);
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uint8_t *get_write_target_for_buffer(int buffer);
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private:
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// the incoming clock lengths will be multiplied by something to give at least 1000
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// sample points per line
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int _time_multiplier;
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// fundamental creator-specified properties
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int _cycles_per_line;
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int _height_of_display;
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// properties directly derived from there
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int _hsync_error_window; // the permitted window around the expected sync position in which a sync pulse will be recognised; calculated once at init
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// the current scanning position
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struct Vector {
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uint32_t x, y;
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} _rasterPosition, _scanSpeed, _retraceSpeed;
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// the run delegate and the triple buffer
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CRTFrameBuilder *_frame_builders[kCRTNumberOfFrames];
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CRTFrameBuilder *_current_frame_builder;
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int _frames_with_delegate;
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int _frame_read_pointer;
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CRTDelegate *_delegate;
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// outer elements of sync separation
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bool _is_receiving_sync; // true if the CRT is currently receiving sync (i.e. this is for edge triggering of horizontal sync)
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bool _did_detect_hsync; // true if horizontal sync was detected during this scanline (so, this affects flywheel adjustments)
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int _sync_capacitor_charge_level; // this charges up during times of sync and depletes otherwise; needs to hit a required threshold to trigger a vertical sync
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int _sync_capacitor_charge_threshold; // this charges up during times of sync and depletes otherwise; needs to hit a required threshold to trigger a vertical sync
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int _vretrace_counter; // a down-counter for time during a vertical retrace
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int _vertical_retrace_time;
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// components of the flywheel sync
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int _horizontal_counter; // time run since the _start_ of the last horizontal sync
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int _expected_next_hsync; // our current expection of when the next horizontal sync will be encountered (which implies current flywheel velocity)
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int _horizontal_retrace_time;
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bool _is_in_hsync; // true for the duration of a horizontal sync — used to determine beam running direction and speed
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// the outer entry point for dispatching output_sync, output_blank, output_level and output_data
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enum Type {
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Sync, Level, Data, Blank
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} type;
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void advance_cycles(int number_of_cycles, bool hsync_requested, bool vsync_charging, Type type, const char *data_type);
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// the inner entry point that determines whether and when the next sync event will occur within
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// the current output window
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enum SyncEvent {
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None,
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StartHSync, EndHSync,
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StartVSync, EndVSync
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};
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SyncEvent next_vertical_sync_event(bool vsync_is_charging, int cycles_to_run_for, int *cycles_advanced);
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SyncEvent next_horizontal_sync_event(bool hsync_is_requested, int cycles_to_run_for, int *cycles_advanced);
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};
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}
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#endif /* CRT_cpp */
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