CLK/Outputs/CRT/Internals/CRTOpenGL.hpp

//
//  CRTOpenGL.hpp
//  Clock Signal
//
//  Created by Thomas Harte on 13/02/2016.
//  Copyright © 2016 Thomas Harte. All rights reserved.
//

#ifndef CRTOpenGL_h
#define CRTOpenGL_h

#include "../CRTTypes.hpp"
#include "CRTConstants.hpp"
#include "OpenGL.hpp"
#include "TextureTarget.hpp"
#include "Shader.hpp"
#include "CRTInputBufferBuilder.hpp"
#include "CRTRunBuilder.hpp"

#include <mutex>

namespace Outputs {
namespace CRT {

class OpenGLOutputBuilder {
	private:
		// colour information
		ColourSpace _colour_space;
		unsigned int _colour_cycle_numerator;
		unsigned int _colour_cycle_denominator;
		OutputDevice _output_device;

		// timing information to allow reasoning about input information
		unsigned int _cycles_per_line;
		unsigned int _height_of_display;
		unsigned int _horizontal_scan_period;
		unsigned int _vertical_scan_period;
		unsigned int _vertical_period_divider;

		// The user-supplied visible area
		Rect _visible_area;

		// Other things the caller may have provided.
		char *_composite_shader;
		char *_rgb_shader;

		// Methods used by the OpenGL code
		void prepare_rgb_output_shader();
		void prepare_composite_input_shader();
		void prepare_output_vertex_array();
		void push_size_uniforms(unsigned int output_width, unsigned int output_height);

		// the run and input data buffers
		std::unique_ptr<CRTInputBufferBuilder> _buffer_builder;
		CRTRunBuilder **_run_builders;
		int _run_write_pointer;
		std::shared_ptr<std::mutex> _output_mutex;

		// transient buffers indicating composite data not yet decoded
		std::unique_ptr<CRTRunBuilder> _composite_src_runs;
		uint16_t _composite_src_output_y;

		char *get_output_vertex_shader();

		char *get_output_fragment_shader(const char *sampling_function);
		char *get_rgb_output_fragment_shader();
		char *get_composite_output_fragment_shader();

		char *get_input_vertex_shader();
		char *get_input_fragment_shader();

		char *get_compound_shader(const char *base, const char *insert);

		std::unique_ptr<OpenGL::Shader> rgb_shader_program;
		std::unique_ptr<OpenGL::Shader> composite_input_shader_program, composite_output_shader_program;

		GLuint output_array_buffer, output_vertex_array;
		size_t output_vertices_per_slice;

		GLint windowSizeUniform, timestampBaseUniform;
		GLint boundsOriginUniform, boundsSizeUniform;

		GLuint textureName, shadowMaskTextureName;

		GLuint defaultFramebuffer;

		std::unique_ptr<OpenGL::TextureTarget> compositeTexture;	// receives raw composite levels
		std::unique_ptr<OpenGL::TextureTarget> filteredYTexture;	// receives filtered Y in the R channel plus unfiltered I/U and Q/V in G and B
		std::unique_ptr<OpenGL::TextureTarget> filteredTexture;		// receives filtered YIQ or YUV

	public:
		OpenGLOutputBuilder(unsigned int buffer_depth);
		~OpenGLOutputBuilder();

		inline void set_colour_format(ColourSpace colour_space, unsigned int colour_cycle_numerator, unsigned int colour_cycle_denominator)
		{
			_colour_space = colour_space;
			_colour_cycle_numerator = colour_cycle_numerator;
			_colour_cycle_denominator = colour_cycle_denominator;
		}

		inline void set_visible_area(Rect visible_area)
		{
			_visible_area = visible_area;
		}

		inline uint8_t *get_next_source_run()
		{
			return nullptr;
		}

		inline void complete_source_run()
		{
		}

		inline uint8_t *get_next_output_run()
		{
			_output_mutex->lock();
			uint8_t *pointer = &_output_buffer_data[_output_buffer_data_pointer];
			return pointer;
		}

		inline void complete_output_run(size_t vertices_written)
		{
			_run_builders[_run_write_pointer]->amount_of_data += vertices_written * OutputVertexSize;
			_output_buffer_data_pointer = (_output_buffer_data_pointer + vertices_written * OutputVertexSize) % OutputVertexBufferDataSize;
			_output_mutex->unlock();
		}

		inline OutputDevice get_output_device()
		{
			return _output_device;
		}

		inline uint32_t get_current_field_time()
		{
			return _run_builders[_run_write_pointer]->duration;
		}

		inline void add_to_field_time(uint32_t amount)
		{
			_run_builders[_run_write_pointer]->duration += amount;
		}

		inline uint16_t get_composite_output_y()
		{
			return _composite_src_output_y;
		}

		inline void increment_composite_output_y()
		{
			_composite_src_output_y = (_composite_src_output_y + 1) % IntermediateBufferHeight;
		}

		inline void increment_field()
		{
			_output_mutex->lock();
			_run_write_pointer = (_run_write_pointer + 1)%NumberOfFields;
			_run_builders[_run_write_pointer]->start = _output_buffer_data_pointer;
			_run_builders[_run_write_pointer]->reset();
			_output_mutex->unlock();
		}

		inline int get_current_field()
		{
			return _run_write_pointer;
		}

		inline uint8_t *allocate_write_area(size_t required_length)
		{
			_output_mutex->lock();
			_buffer_builder->allocate_write_area(required_length);
			uint8_t *output = _input_texture_data ? _buffer_builder->get_write_target(_input_texture_data) : nullptr;
			_output_mutex->unlock();
			return output;
		}

		inline void reduce_previous_allocation_to(size_t actual_length)
		{
			_buffer_builder->reduce_previous_allocation_to(actual_length, _input_texture_data);
		}

		inline uint16_t get_last_write_x_posiiton()
		{
			return _buffer_builder->_write_x_position;
		}

		inline uint16_t get_last_write_y_posiiton()
		{
			return _buffer_builder->_write_y_position;
		}

		void draw_frame(unsigned int output_width, unsigned int output_height, bool only_if_dirty);
		void set_openGL_context_will_change(bool should_delete_resources);
		void set_composite_sampling_function(const char *shader);
		void set_rgb_sampling_function(const char *shader);
		void set_output_device(OutputDevice output_device);
		inline void set_timing(unsigned int cycles_per_line, unsigned int height_of_display, unsigned int horizontal_scan_period, unsigned int vertical_scan_period, unsigned int vertical_period_divider)
		{
			_cycles_per_line = cycles_per_line;
			_height_of_display = height_of_display;
			_horizontal_scan_period = horizontal_scan_period;
			_vertical_scan_period = vertical_scan_period;
			_vertical_period_divider = vertical_period_divider;

			// TODO: update related uniforms
		}

		uint8_t *_input_texture_data;
		GLuint _input_texture_array;
		GLsync _input_texture_sync;
		GLsizeiptr _input_texture_array_size;

		uint8_t *_output_buffer_data;
		size_t _output_buffer_data_pointer;
		GLsync _output_buffer_sync;
};

}
}

#endif /* CRTOpenGL_h */
Started the transition towards a more natural collection of rolling buffers, with phosphor decay in mind. 2016-02-14 01:52:23 +00:00			`//`
			`// CRTOpenGL.hpp`
			`// Clock Signal`
			`//`
			`// Created by Thomas Harte on 13/02/2016.`
			`// Copyright © 2016 Thomas Harte. All rights reserved.`
			`//`

			`#ifndef CRTOpenGL_h`
			`#define CRTOpenGL_h`

Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`#include "../CRTTypes.hpp"`
A shortcut here and a shortcut there; this allows me at least to determine whether use of a PBO gains anything. 2016-03-19 21:07:05 +00:00			`#include "CRTConstants.hpp"`
Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`#include "OpenGL.hpp"`
			`#include "TextureTarget.hpp"`
			`#include "Shader.hpp"`
			`#include "CRTInputBufferBuilder.hpp"`
			`#include "CRTRunBuilder.hpp"`

			`#include <mutex>`

Started trying to clean up my Outputs namespace by moving stuff related to the CRT underneath a separate subnamespace. 2016-03-09 01:49:07 +00:00			`namespace Outputs {`
			`namespace CRT {`

Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`class OpenGLOutputBuilder {`
			`private:`
			`// colour information`
			`ColourSpace _colour_space;`
			`unsigned int _colour_cycle_numerator;`
			`unsigned int _colour_cycle_denominator;`
			`OutputDevice _output_device;`

			`// timing information to allow reasoning about input information`
			`unsigned int _cycles_per_line;`
			`unsigned int _height_of_display;`
			`unsigned int _horizontal_scan_period;`
			`unsigned int _vertical_scan_period;`
			`unsigned int _vertical_period_divider;`

			`// The user-supplied visible area`
			`Rect _visible_area;`

			`// Other things the caller may have provided.`
			`char *_composite_shader;`
			`char *_rgb_shader;`

			`// Methods used by the OpenGL code`
			`void prepare_rgb_output_shader();`
			`void prepare_composite_input_shader();`
			`void prepare_output_vertex_array();`
			`void push_size_uniforms(unsigned int output_width, unsigned int output_height);`

			`// the run and input data buffers`
			`std::unique_ptr<CRTInputBufferBuilder> _buffer_builder;`
			`CRTRunBuilder **_run_builders;`
			`int _run_write_pointer;`
			`std::shared_ptr<std::mutex> _output_mutex;`

			`// transient buffers indicating composite data not yet decoded`
			`std::unique_ptr<CRTRunBuilder> _composite_src_runs;`
			`uint16_t _composite_src_output_y;`

			`char *get_output_vertex_shader();`

			`char get_output_fragment_shader(const char sampling_function);`
			`char *get_rgb_output_fragment_shader();`
			`char *get_composite_output_fragment_shader();`

			`char *get_input_vertex_shader();`
			`char *get_input_fragment_shader();`

			`char get_compound_shader(const char base, const char *insert);`

			`std::unique_ptr<OpenGL::Shader> rgb_shader_program;`
			`std::unique_ptr<OpenGL::Shader> composite_input_shader_program, composite_output_shader_program;`

			`GLuint output_array_buffer, output_vertex_array;`
			`size_t output_vertices_per_slice;`

			`GLint windowSizeUniform, timestampBaseUniform;`
			`GLint boundsOriginUniform, boundsSizeUniform;`

			`GLuint textureName, shadowMaskTextureName;`

			`GLuint defaultFramebuffer;`

			`std::unique_ptr<OpenGL::TextureTarget> compositeTexture; // receives raw composite levels`
			`std::unique_ptr<OpenGL::TextureTarget> filteredYTexture; // receives filtered Y in the R channel plus unfiltered I/U and Q/V in G and B`
			`std::unique_ptr<OpenGL::TextureTarget> filteredTexture; // receives filtered YIQ or YUV`

			`public:`
Simplified API down to their being a single texture with a specified depth. 2016-03-19 21:37:55 +00:00			`OpenGLOutputBuilder(unsigned int buffer_depth);`
Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`~OpenGLOutputBuilder();`

			`inline void set_colour_format(ColourSpace colour_space, unsigned int colour_cycle_numerator, unsigned int colour_cycle_denominator)`
			`{`
			`_colour_space = colour_space;`
			`_colour_cycle_numerator = colour_cycle_numerator;`
			`_colour_cycle_denominator = colour_cycle_denominator;`
			`}`

			`inline void set_visible_area(Rect visible_area)`
			`{`
			`_visible_area = visible_area;`
			`}`

Realising I've managed to confuse input and output, started shift to 'source' for what 'input' was. 2016-04-10 19:58:43 +00:00			`inline uint8_t *get_next_source_run()`
Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`{`
Realising I've managed to confuse input and output, started shift to 'source' for what 'input' was. 2016-04-10 19:58:43 +00:00			`return nullptr;`
Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`}`

Realising I've managed to confuse input and output, started shift to 'source' for what 'input' was. 2016-04-10 19:58:43 +00:00			`inline void complete_source_run()`
Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`{`
			`}`

			`inline uint8_t *get_next_output_run()`
			`{`
Realising I've managed to confuse input and output, started shift to 'source' for what 'input' was. 2016-04-10 19:58:43 +00:00			`_output_mutex->lock();`
			`uint8_t *pointer = &_output_buffer_data[_output_buffer_data_pointer];`
			`return pointer;`
Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`}`

Corrections back towards composite output: fixed misnamed constant, ensured the CRT doesn't write nonsense to the output buffer, ensured it grows three vertices at a time rather than six when desired. Net effect should be that the output stage is working again, with the input processing remaining to fill in. 2016-04-11 02:56:52 +00:00			`inline void complete_output_run(size_t vertices_written)`
Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`{`
Corrections back towards composite output: fixed misnamed constant, ensured the CRT doesn't write nonsense to the output buffer, ensured it grows three vertices at a time rather than six when desired. Net effect should be that the output stage is working again, with the input processing remaining to fill in. 2016-04-11 02:56:52 +00:00			`_run_builders[_run_write_pointer]->amount_of_data += vertices_written * OutputVertexSize;`
			`_output_buffer_data_pointer = (_output_buffer_data_pointer + vertices_written * OutputVertexSize) % OutputVertexBufferDataSize;`
Realising I've managed to confuse input and output, started shift to 'source' for what 'input' was. 2016-04-10 19:58:43 +00:00			`_output_mutex->unlock();`
Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`}`

			`inline OutputDevice get_output_device()`
			`{`
			`return _output_device;`
			`}`

			`inline uint32_t get_current_field_time()`
			`{`
			`return _run_builders[_run_write_pointer]->duration;`
			`}`

			`inline void add_to_field_time(uint32_t amount)`
			`{`
			`_run_builders[_run_write_pointer]->duration += amount;`
			`}`

			`inline uint16_t get_composite_output_y()`
			`{`
			`return _composite_src_output_y;`
			`}`

			`inline void increment_composite_output_y()`
			`{`
			`_composite_src_output_y = (_composite_src_output_y + 1) % IntermediateBufferHeight;`
			`}`

			`inline void increment_field()`
			`{`
Keeping a buffer permanently bound is apparently illegal. So back to copying in on demand. Which I think still improves on synchronisation, but not much. 2016-03-19 01:11:09 +00:00			`_output_mutex->lock();`
Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`_run_write_pointer = (_run_write_pointer + 1)%NumberOfFields;`
As messy as it is, this use `glMapBufferRange` to avoid explicit buffer submits. 2016-03-17 02:29:22 +00:00			`_run_builders[_run_write_pointer]->start = _output_buffer_data_pointer;`
Keeping a buffer permanently bound is apparently illegal. So back to copying in on demand. Which I think still improves on synchronisation, but not much. 2016-03-19 01:11:09 +00:00			`_run_builders[_run_write_pointer]->reset();`
			`_output_mutex->unlock();`
Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`}`

Made an attempt to consolidate timestamp bases to a single vector and hence to lump all geometry into one or two calls, with no repetitive setting of a uniform. I'm not sure the result is correct yet. 2016-04-05 01:57:27 +00:00			`inline int get_current_field()`
			`{`
			`return _run_write_pointer;`
			`}`

Simplified API down to their being a single texture with a specified depth. 2016-03-19 21:37:55 +00:00			`inline uint8_t *allocate_write_area(size_t required_length)`
Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`{`
			`_output_mutex->lock();`
			`_buffer_builder->allocate_write_area(required_length);`
Simplified API down to their being a single texture with a specified depth. 2016-03-19 21:37:55 +00:00			`uint8_t *output = _input_texture_data ? _buffer_builder->get_write_target(_input_texture_data) : nullptr;`
Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`_output_mutex->unlock();`
Simplified API down to their being a single texture with a specified depth. 2016-03-19 21:37:55 +00:00			`return output;`
Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`}`

			`inline void reduce_previous_allocation_to(size_t actual_length)`
			`{`
Simplified API down to their being a single texture with a specified depth. 2016-03-19 21:37:55 +00:00			`_buffer_builder->reduce_previous_allocation_to(actual_length, _input_texture_data);`
Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`}`

			`inline uint16_t get_last_write_x_posiiton()`
			`{`
			`return _buffer_builder->_write_x_position;`
			`}`

			`inline uint16_t get_last_write_y_posiiton()`
			`{`
			`return _buffer_builder->_write_y_position;`
			`}`

			`void draw_frame(unsigned int output_width, unsigned int output_height, bool only_if_dirty);`
			`void set_openGL_context_will_change(bool should_delete_resources);`
			`void set_composite_sampling_function(const char *shader);`
			`void set_rgb_sampling_function(const char *shader);`
			`void set_output_device(OutputDevice output_device);`
			`inline void set_timing(unsigned int cycles_per_line, unsigned int height_of_display, unsigned int horizontal_scan_period, unsigned int vertical_scan_period, unsigned int vertical_period_divider)`
			`{`
			`_cycles_per_line = cycles_per_line;`
			`_height_of_display = height_of_display;`
			`_horizontal_scan_period = horizontal_scan_period;`
			`_vertical_scan_period = vertical_scan_period;`
			`_vertical_period_divider = vertical_period_divider;`

			`// TODO: update related uniforms`
			`}`
As messy as it is, this use `glMapBufferRange` to avoid explicit buffer submits. 2016-03-17 02:29:22 +00:00
A shortcut here and a shortcut there; this allows me at least to determine whether use of a PBO gains anything. 2016-03-19 21:07:05 +00:00			`uint8_t *_input_texture_data;`
			`GLuint _input_texture_array;`
Attempted to simplify threading, thereby allowing machines to be constructed within a valid GL context, and started adding appropriate GL syncs. Which all oddly drops everything to a negligible FPS. Investigation will follow. 2016-03-20 02:46:17 +00:00			`GLsync _input_texture_sync;`
Made an attempt to reduce the amount of data heading to the GPU. 2016-03-23 01:16:32 +00:00			`GLsizeiptr _input_texture_array_size;`
A shortcut here and a shortcut there; this allows me at least to determine whether use of a PBO gains anything. 2016-03-19 21:07:05 +00:00
As messy as it is, this use `glMapBufferRange` to avoid explicit buffer submits. 2016-03-17 02:29:22 +00:00			`uint8_t *_output_buffer_data;`
			`size_t _output_buffer_data_pointer;`
Keeping a buffer permanently bound is apparently illegal. So back to copying in on demand. Which I think still improves on synchronisation, but not much. 2016-03-19 01:11:09 +00:00			`GLsync _output_buffer_sync;`
Made an attempt to chop out all the stuff of building up the OpenGL data from the stuff of parsing input. 2016-03-09 03:40:23 +00:00			`};`

Started trying to clean up my Outputs namespace by moving stuff related to the CRT underneath a separate subnamespace. 2016-03-09 01:49:07 +00:00			`}`
			`}`
Screen output is back, no matter how inefficiently. 2016-02-14 04:50:18 +00:00
Started the transition towards a more natural collection of rolling buffers, with phosphor decay in mind. 2016-02-14 01:52:23 +00:00			`#endif /* CRTOpenGL_h */`