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87 lines
2.4 KiB
C++
87 lines
2.4 KiB
C++
//
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// CRTFrameBuilder.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 04/02/2016.
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// Copyright © 2016 Thomas Harte. All rights reserved.
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//
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#include "CRT.hpp"
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using namespace Outputs;
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CRT::CRTFrameBuilder::CRTFrameBuilder(uint16_t width, uint16_t height, unsigned int number_of_buffers, va_list buffer_sizes)
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{
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frame.size.width = width;
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frame.size.height = height;
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frame.number_of_buffers = number_of_buffers;
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frame.buffers = new CRTBuffer[number_of_buffers];
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frame.size_per_vertex = kCRTSizeOfVertex;
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frame.geometry_mode = CRTGeometryModeTriangles;
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for(int buffer = 0; buffer < number_of_buffers; buffer++)
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{
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frame.buffers[buffer].depth = va_arg(buffer_sizes, unsigned int);
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frame.buffers[buffer].data = new uint8_t[width * height * frame.buffers[buffer].depth];
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}
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reset();
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}
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CRT::CRTFrameBuilder::~CRTFrameBuilder()
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{
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for(int buffer = 0; buffer < frame.number_of_buffers; buffer++)
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delete[] frame.buffers[buffer].data;
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delete frame.buffers;
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}
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void CRT::CRTFrameBuilder::reset()
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{
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frame.number_of_vertices = 0;
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_next_write_x_position = _next_write_y_position = 0;
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frame.dirty_size.width = 0;
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frame.dirty_size.height = 1;
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}
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void CRT::CRTFrameBuilder::complete()
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{
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frame.vertices = &_all_runs[0];
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}
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uint8_t *CRT::CRTFrameBuilder::get_next_run()
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{
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const size_t vertices_per_run = 6;
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// get a run from the allocated list, allocating more if we're about to overrun
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if((frame.number_of_vertices + vertices_per_run) * frame.size_per_vertex >= _all_runs.size())
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{
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_all_runs.resize(_all_runs.size() + frame.size_per_vertex * vertices_per_run * 100);
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}
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uint8_t *next_run = &_all_runs[frame.number_of_vertices * frame.size_per_vertex];
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frame.number_of_vertices += vertices_per_run;
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return next_run;
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}
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void CRT::CRTFrameBuilder::allocate_write_area(int required_length)
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{
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if (_next_write_x_position + required_length > frame.size.width)
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{
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_next_write_x_position = 0;
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_next_write_y_position = (_next_write_y_position+1)&(frame.size.height-1);
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frame.dirty_size.height++;
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}
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_write_x_position = _next_write_x_position;
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_write_y_position = _next_write_y_position;
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_write_target_pointer = (_write_y_position * frame.size.width) + _write_x_position;
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_next_write_x_position += required_length;
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frame.dirty_size.width = std::max(frame.dirty_size.width, _next_write_x_position);
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}
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uint8_t *CRT::CRTFrameBuilder::get_write_target_for_buffer(int buffer)
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{
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return &frame.buffers[buffer].data[_write_target_pointer * frame.buffers[buffer].depth];
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}
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