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633 lines
21 KiB
C++
633 lines
21 KiB
C++
//
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// 9918Base.hpp
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// Clock Signal
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//
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// Created by Thomas Harte on 14/12/2017.
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// Copyright 2017 Thomas Harte. All rights reserved.
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//
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#pragma once
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#include "ClockConverter.hpp"
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#include "../../../ClockReceiver/ClockReceiver.hpp"
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#include "../../../Numeric/BitReverse.hpp"
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#include "../../../Outputs/CRT/CRT.hpp"
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#include "AccessEnums.hpp"
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#include "LineBuffer.hpp"
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#include "PersonalityTraits.hpp"
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#include "Storage.hpp"
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#include "YamahaCommands.hpp"
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#include <array>
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#include <cassert>
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#include <cstdint>
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#include <cstring>
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#include <memory>
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#include <vector>
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namespace TI::TMS {
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constexpr uint8_t StatusInterrupt = 0x80;
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constexpr uint8_t StatusSpriteOverflow = 0x40;
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constexpr int StatusSpriteCollisionShift = 5;
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constexpr uint8_t StatusSpriteCollision = 0x20;
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template <Personality personality> struct Base: public Storage<personality> {
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Base();
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static constexpr int output_lag = 11; // i.e. pixel output will occur 11 cycles
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// after corresponding data read.
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static constexpr uint32_t palette_pack(const uint8_t r, const uint8_t g, const uint8_t b) {
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#if TARGET_RT_BIG_ENDIAN
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return uint32_t((r << 24) | (g << 16) | (b << 8));
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#else
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return uint32_t((b << 16) | (g << 8) | r);
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#endif
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}
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// The default TMS palette.
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static constexpr std::array<uint32_t, 16> default_palette {
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palette_pack(0, 0, 0),
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palette_pack(0, 0, 0),
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palette_pack(33, 200, 66),
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palette_pack(94, 220, 120),
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palette_pack(84, 85, 237),
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palette_pack(125, 118, 252),
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palette_pack(212, 82, 77),
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palette_pack(66, 235, 245),
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palette_pack(252, 85, 84),
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palette_pack(255, 121, 120),
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palette_pack(212, 193, 84),
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palette_pack(230, 206, 128),
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palette_pack(33, 176, 59),
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palette_pack(201, 91, 186),
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palette_pack(204, 204, 204),
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palette_pack(255, 255, 255)
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};
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const std::array<uint32_t, 16> &palette() {
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if constexpr (is_yamaha_vdp(personality)) {
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return Storage<personality>::solid_background_ ? Storage<personality>::palette_ : Storage<personality>::background_palette_;
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}
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return default_palette;
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}
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Outputs::CRT::CRT crt_;
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TVStandard tv_standard_ = TVStandard::NTSC;
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using AddressT = typename Storage<personality>::AddressT;
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/// Mutates @c target such that @c source replaces the @c length bits that currently start
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/// at bit @c shift . Subsequently ensures @c target is constrained by the
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/// applicable @c memory_mask.
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template <int shift, int length = 8> void install_field(AddressT &target, const uint8_t source) {
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static_assert(length > 0 && length <= 8);
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constexpr auto source_mask = (1 << length) - 1;
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constexpr auto mask = AddressT(~(source_mask << shift));
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target = (
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(target & mask) |
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AddressT((source & source_mask) << shift)
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) & memory_mask(personality);
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}
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// Personality-specific metrics and converters.
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ClockConverter<personality> clock_converter_;
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// This VDP's DRAM.
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std::array<uint8_t, memory_size(personality)> ram_;
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// State of the DRAM/CRAM-access mechanism.
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AddressT ram_pointer_ = 0;
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uint8_t read_ahead_buffer_ = 0;
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MemoryAccess queued_access_ = MemoryAccess::None;
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int minimum_access_column_ = 0;
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// The main status register.
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uint8_t status_ = 0;
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// Current state of programmer input.
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bool write_phase_ = false; // Determines whether the VDP is expecting the low or high byte of a write.
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uint8_t low_write_ = 0; // Buffers the low byte of a write.
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// Various programmable flags.
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bool mode1_enable_ = false;
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bool mode2_enable_ = false;
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bool mode3_enable_ = false;
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bool blank_display_ = false;
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bool sprites_16x16_ = false;
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bool sprites_magnified_ = false;
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bool generate_interrupts_ = false;
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uint8_t sprite_height_ = 8;
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// Programmer-specified addresses.
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//
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// The TMS and descendants combine various parts of the address with AND operations,
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// e.g. the fourth byte in the pattern name table will be at `pattern_name_address_ & 4`;
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// ordinarily the difference between that and plain substitution is invisible because
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// the programmer mostly can't set low-enough-order bits. That's not universally true
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// though, so this implementation uses AND throughout.
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//
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// ... therefore, all programmer-specified addresses are seeded as all '1's. As and when
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// actual addresses are specified, the relevant bits will be substituted in.
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//
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// Cf. install_field.
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AddressT pattern_name_address_ = memory_mask(personality); // Address of the tile map.
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AddressT colour_table_address_ = memory_mask(personality); // Address of the colour map (if applicable).
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AddressT pattern_generator_table_address_ = memory_mask(personality); // Address of the tile contents.
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AddressT sprite_attribute_table_address_ = memory_mask(personality); // Address of the sprite list.
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AddressT sprite_generator_table_address_ = memory_mask(personality); // Address of the sprite contents.
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// Default colours.
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uint8_t text_colour_ = 0;
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uint8_t background_colour_ = 0;
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// Internal mechanisms for position tracking.
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int latched_column_ = 0;
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// A struct to contain timing information that is a function of the current mode.
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struct {
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/*
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Vertical layout:
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Lines 0 to [pixel_lines]: standard data fetch and drawing will occur.
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... to [first_vsync_line]: refresh fetches will occur and border will be output.
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.. to [2.5 or 3 lines later]: vertical sync is output.
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... to [total lines - 1]: refresh fetches will occur and border will be output.
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... for one line: standard data fetch will occur, without drawing.
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*/
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int total_lines = 262;
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int pixel_lines = 192;
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int first_vsync_line = 227;
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// Maximum number of sprite slots to populate;
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// if sprites beyond this number should be visible
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// then the appropriate status information will be set.
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int maximum_visible_sprites = 4;
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// Set the position, in cycles, of the two interrupts,
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// within a line.
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//
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// TODO: redetermine where this number came from.
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struct {
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int column = 313;
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int row = 192;
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} end_of_frame_interrupt_position;
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int line_interrupt_position = -1;
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// Enables or disabled the recognition of the sprite
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// list terminator, and sets the terminator value.
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bool allow_sprite_terminator = true;
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uint8_t sprite_terminator(ScreenMode mode) {
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switch(mode) {
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default: return 0xd0;
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case ScreenMode::YamahaGraphics3:
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case ScreenMode::YamahaGraphics4:
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case ScreenMode::YamahaGraphics5:
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case ScreenMode::YamahaGraphics6:
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case ScreenMode::YamahaGraphics7:
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return 0xd8;
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}
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}
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} mode_timing_;
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uint8_t line_interrupt_target_ = 0xff;
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uint8_t line_interrupt_counter_ = 0;
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bool enable_line_interrupts_ = false;
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bool line_interrupt_pending_ = false;
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bool vertical_active_ = false;
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ScreenMode screen_mode_, underlying_mode_;
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using LineBufferArray = std::array<LineBuffer, 313>;
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LineBufferArray line_buffers_;
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LineBufferArray::iterator fetch_line_buffer_;
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LineBufferArray::iterator draw_line_buffer_;
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void advance(LineBufferArray::iterator &iterator) {
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++iterator;
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if(iterator == line_buffers_.end()) {
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iterator = line_buffers_.begin();
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}
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}
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using SpriteBufferArray = std::array<SpriteBuffer, 313>;
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SpriteBufferArray sprite_buffers_;
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SpriteBufferArray::iterator fetch_sprite_buffer_;
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SpriteBuffer *fetched_sprites_ = nullptr;
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void advance(SpriteBufferArray::iterator &iterator) {
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++iterator;
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if(iterator == sprite_buffers_.end()) {
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iterator = sprite_buffers_.begin();
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}
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}
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void regress(SpriteBufferArray::iterator &iterator) {
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if(iterator == sprite_buffers_.begin()) {
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iterator = sprite_buffers_.end();
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}
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--iterator;
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}
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AddressT tile_offset_ = 0;
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uint8_t name_[4]{};
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void posit_sprite(int sprite_number, int sprite_y, uint8_t screen_row);
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// There is a delay between reading into the line buffer and outputting from there to the screen. That delay
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// is observeable because reading time affects availability of memory accesses and therefore time in which
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// to update sprites and tiles, but writing time affects when the palette is used and when the collision flag
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// may end up being set. So the two processes are slightly decoupled. The end of reading one line may overlap
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// with the beginning of writing the next, hence the two separate line buffers.
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LineBufferPointer output_pointer_, fetch_pointer_;
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int fetch_line() const;
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bool is_horizontal_blank() const;
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VerticalState vertical_state() const;
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int masked_address(int address) const;
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void write_vram(uint8_t);
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void write_register(uint8_t);
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void write_palette(uint8_t);
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void write_register_indirect(uint8_t);
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uint8_t read_vram();
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uint8_t read_register();
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void commit_register(int reg, uint8_t value);
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template <bool check_blank> ScreenMode current_screen_mode() const {
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if(check_blank && blank_display_) {
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return ScreenMode::Blank;
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}
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if constexpr (is_sega_vdp(personality)) {
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if(Storage<personality>::mode4_enable_) {
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return ScreenMode::SMSMode4;
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}
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}
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if constexpr (is_yamaha_vdp(personality)) {
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switch(Storage<personality>::mode_) {
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case 0b00001: return ScreenMode::Text;
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case 0b01001: return ScreenMode::YamahaText80;
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case 0b00010: return ScreenMode::MultiColour;
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case 0b00000: return ScreenMode::YamahaGraphics1;
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case 0b00100: return ScreenMode::YamahaGraphics2;
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case 0b01000: return ScreenMode::YamahaGraphics3;
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case 0b01100: return ScreenMode::YamahaGraphics4;
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case 0b10000: return ScreenMode::YamahaGraphics5;
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case 0b10100: return ScreenMode::YamahaGraphics6;
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case 0b11100: return ScreenMode::YamahaGraphics7;
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}
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}
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if(!mode1_enable_ && !mode2_enable_ && !mode3_enable_) {
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return ScreenMode::ColouredText;
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}
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if(mode1_enable_ && !mode2_enable_ && !mode3_enable_) {
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return ScreenMode::Text;
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}
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if(!mode1_enable_ && mode2_enable_ && !mode3_enable_) {
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return ScreenMode::Graphics;
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}
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if(!mode1_enable_ && !mode2_enable_ && mode3_enable_) {
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return ScreenMode::MultiColour;
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}
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// TODO: undocumented TMS modes.
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return ScreenMode::Blank;
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}
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static AddressT rotate(const AddressT address) {
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return AddressT((address >> 1) | (address << 16)) & memory_mask(personality);
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}
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AddressT command_address(const Vector location, const bool expansion) const {
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if constexpr (is_yamaha_vdp(personality)) {
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switch(this->underlying_mode_) {
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default:
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case ScreenMode::YamahaGraphics4: // 256 pixels @ 4bpp
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return AddressT(
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((location.v[0] >> 1) & 127) +
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(location.v[1] << 7)
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);
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case ScreenMode::YamahaGraphics5: // 512 pixels @ 2bpp
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return AddressT(
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((location.v[0] >> 2) & 127) +
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(location.v[1] << 7)
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);
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case ScreenMode::YamahaGraphics6: { // 512 pixels @ 4bpp
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const auto linear_address =
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AddressT(
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((location.v[0] >> 1) & 255) +
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(location.v[1] << 8)
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);
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return expansion ? linear_address : rotate(linear_address);
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}
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case ScreenMode::YamahaGraphics7: { // 256 pixels @ 8bpp
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const auto linear_address =
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AddressT(
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((location.v[0] >> 0) & 255) +
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(location.v[1] << 8)
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);
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return expansion ? linear_address : rotate(linear_address);
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}
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}
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} else {
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return 0;
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}
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}
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uint8_t extract_colour(const uint8_t byte, const Vector location) const {
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switch(this->screen_mode_) {
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default:
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case ScreenMode::YamahaGraphics4: // 256 pixels @ 4bpp
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case ScreenMode::YamahaGraphics6: // 512 pixels @ 4bpp
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return (byte >> (((location.v[0] & 1) ^ 1) << 2)) & 0xf;
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case ScreenMode::YamahaGraphics5: // 512 pixels @ 2bpp
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return (byte >> (((location.v[0] & 3) ^ 3) << 1)) & 0x3;
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case ScreenMode::YamahaGraphics7: // 256 pixels @ 8bpp
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return byte;
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}
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}
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std::pair<uint8_t, uint8_t> command_colour_mask(const Vector location) const {
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if constexpr (is_yamaha_vdp(personality)) {
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auto &context = Storage<personality>::command_context_;
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auto colour = context.latched_colour.has_value() ? context.latched_colour : context.colour;
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switch(this->screen_mode_) {
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default:
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case ScreenMode::YamahaGraphics4: // 256 pixels @ 4bpp
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case ScreenMode::YamahaGraphics6: // 512 pixels @ 4bpp
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return
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std::make_pair(
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0xf0 >> ((location.v[0] & 1) << 2),
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colour.colour4bpp
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);
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case ScreenMode::YamahaGraphics5: // 512 pixels @ 2bpp
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return
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std::make_pair(
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0xc0 >> ((location.v[0] & 3) << 1),
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colour.colour2bpp
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);
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case ScreenMode::YamahaGraphics7: // 256 pixels @ 8bpp
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return
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std::make_pair(
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0xff,
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colour.colour
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);
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}
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} else {
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return std::make_pair(0, 0);
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}
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}
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void do_external_slot(const int access_column) {
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// Don't do anything if the required time for the access to become executable
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// has yet to pass.
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if(queued_access_ == MemoryAccess::None || access_column < minimum_access_column_) {
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if constexpr (is_yamaha_vdp(personality)) {
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using CommandStep = typename Storage<personality>::CommandStep;
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if(
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Storage<personality>::next_command_step_ == CommandStep::None ||
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access_column < Storage<personality>::minimum_command_column_
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) {
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return;
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}
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auto &context = Storage<personality>::command_context_;
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const uint8_t *const source = (context.arguments & 0x10) ? Storage<personality>::expansion_ram_.data() : ram_.data();
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const AddressT source_mask = (context.arguments & 0x10) ? 0xfff : 0x1ffff;
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uint8_t *const destination = (context.arguments & 0x20) ? Storage<personality>::expansion_ram_.data() : ram_.data();
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const AddressT destination_mask = (context.arguments & 0x20) ? 0xfff : 0x1ffff;
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switch(Storage<personality>::next_command_step_) {
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// Duplicative, but keeps the compiler happy.
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case CommandStep::None:
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break;
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case CommandStep::CopySourcePixelToStatus:
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Storage<personality>::colour_status_ =
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extract_colour(
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source[command_address(context.source, context.arguments & 0x10) & source_mask],
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context.source
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);
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Storage<personality>::command_->advance();
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Storage<personality>::update_command_step(access_column);
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break;
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case CommandStep::ReadSourcePixel:
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context.latched_colour.set(
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extract_colour(
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source[command_address(context.source, context.arguments & 0x10)] & source_mask,
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context.source)
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);
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Storage<personality>::minimum_command_column_ = access_column + 32;
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Storage<personality>::next_command_step_ = CommandStep::ReadDestinationPixel;
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break;
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case CommandStep::ReadDestinationPixel:
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Storage<personality>::command_latch_ =
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source[command_address(context.destination, context.arguments & 0x20) & source_mask];
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Storage<personality>::minimum_command_column_ = access_column + 24;
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Storage<personality>::next_command_step_ = CommandStep::WritePixel;
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break;
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case CommandStep::WritePixel: {
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const auto [mask, unmasked_colour] = command_colour_mask(context.destination);
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const auto address = command_address(context.destination, context.arguments & 0x20) & destination_mask;
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const uint8_t colour = unmasked_colour & mask;
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context.latched_colour.reset();
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using LogicalOperation = CommandContext::LogicalOperation;
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if(!context.test_source || colour) {
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switch(context.pixel_operation) {
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default:
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case LogicalOperation::Copy:
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Storage<personality>::command_latch_ &= ~mask;
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Storage<personality>::command_latch_ |= colour;
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break;
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case LogicalOperation::And:
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Storage<personality>::command_latch_ &= ~mask | colour;
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break;
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case LogicalOperation::Or:
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Storage<personality>::command_latch_ |= colour;
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break;
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case LogicalOperation::Xor:
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Storage<personality>::command_latch_ ^= colour;
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break;
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case LogicalOperation::Not:
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Storage<personality>::command_latch_ &= ~mask;
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Storage<personality>::command_latch_ |= colour ^ mask;
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break;
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}
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}
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destination[address] = Storage<personality>::command_latch_;
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Storage<personality>::command_->advance();
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Storage<personality>::update_command_step(access_column);
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} break;
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case CommandStep::ReadSourceByte: {
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Vector source_vector = context.source;
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if(Storage<personality>::command_->y_only) {
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source_vector.v[0] = context.destination.v[0];
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}
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context.latched_colour.set(source[command_address(source_vector, context.arguments & 0x10) & source_mask]);
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Storage<personality>::minimum_command_column_ = access_column + 24;
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|
Storage<personality>::next_command_step_ = CommandStep::WriteByte;
|
|
} break;
|
|
|
|
case CommandStep::WriteByte:
|
|
destination[command_address(context.destination, context.arguments & 0x20) & destination_mask]
|
|
= context.latched_colour.has_value() ? context.latched_colour.colour : context.colour.colour;
|
|
context.latched_colour.reset();
|
|
|
|
Storage<personality>::command_->advance();
|
|
Storage<personality>::update_command_step(access_column);
|
|
break;
|
|
}
|
|
}
|
|
|
|
return;
|
|
}
|
|
|
|
// Copy and mutate the RAM pointer.
|
|
AddressT address = ram_pointer_;
|
|
++ram_pointer_;
|
|
|
|
// Determine the relevant RAM and its mask.
|
|
uint8_t *ram = ram_.data();
|
|
AddressT mask = memory_mask(personality);
|
|
|
|
if constexpr (is_yamaha_vdp(personality)) {
|
|
// The Yamaha increments only 14 bits of the address in TMS-compatible modes.
|
|
if(this->underlying_mode_ < ScreenMode::YamahaText80) {
|
|
ram_pointer_ = (ram_pointer_ & 0x3fff) | (address & AddressT(~0x3fff));
|
|
}
|
|
|
|
if(this->underlying_mode_ == ScreenMode::YamahaGraphics6 || this->underlying_mode_ == ScreenMode::YamahaGraphics7) {
|
|
// Rotate address one to the right as the hardware accesses
|
|
// the underlying banks of memory alternately but presents
|
|
// them as if linear.
|
|
address = rotate(address);
|
|
}
|
|
|
|
// Also check whether expansion RAM is the true target here.
|
|
if(Storage<personality>::command_context_.arguments & 0x40) {
|
|
ram = Storage<personality>::expansion_ram_.data();
|
|
mask = AddressT(Storage<personality>::expansion_ram_.size() - 1);
|
|
}
|
|
}
|
|
|
|
switch(queued_access_) {
|
|
default: break;
|
|
|
|
case MemoryAccess::Write:
|
|
if constexpr (is_sega_vdp(personality)) {
|
|
if(Storage<personality>::cram_is_selected_) {
|
|
// Adjust the palette. In a Master System blue has a slightly different
|
|
// scale; cf. https://www.retrorgb.com/sega-master-system-non-linear-blue-channel-findings.html
|
|
constexpr uint8_t rg_scale[] = {0, 85, 170, 255};
|
|
constexpr uint8_t b_scale[] = {0, 104, 170, 255};
|
|
Storage<personality>::colour_ram_[address & 0x1f] = palette_pack(
|
|
rg_scale[(read_ahead_buffer_ >> 0) & 3],
|
|
rg_scale[(read_ahead_buffer_ >> 2) & 3],
|
|
b_scale[(read_ahead_buffer_ >> 4) & 3]
|
|
);
|
|
|
|
// Schedule a CRAM dot; this is scheduled for wherever it should appear
|
|
// on screen. So it's wherever the output stream would be now. Which
|
|
// is output_lag cycles ago from the point of view of the input stream.
|
|
auto &dot = Storage<personality>::upcoming_cram_dots_.emplace_back();
|
|
dot.location.column = fetch_pointer_.column - output_lag;
|
|
dot.location.row = fetch_pointer_.row;
|
|
|
|
// Handle before this row conditionally; then handle after (or, more realistically,
|
|
// exactly at the end of) naturally.
|
|
if(dot.location.column < 0) {
|
|
--dot.location.row;
|
|
dot.location.column += 342;
|
|
}
|
|
dot.location.row += dot.location.column / 342;
|
|
dot.location.column %= 342;
|
|
|
|
dot.value = Storage<personality>::colour_ram_[address & 0x1f];
|
|
break;
|
|
}
|
|
}
|
|
ram[address & mask] = read_ahead_buffer_;
|
|
break;
|
|
case MemoryAccess::Read:
|
|
read_ahead_buffer_ = ram[address & mask];
|
|
break;
|
|
}
|
|
queued_access_ = MemoryAccess::None;
|
|
}
|
|
|
|
/// Helper for TMS dispatches; contains a switch statement with cases 0 to 170, each of the form:
|
|
///
|
|
/// if constexpr (use_end && end == n) return; [[fallthrough]]; case n: fetcher.fetch<n>();
|
|
///
|
|
/// i.e. it provides standard glue to enter a fetch sequence at any point, while the fetches themselves are templated on the cycle
|
|
/// at which they appear for neater expression.
|
|
template<bool use_end, typename Fetcher> void dispatch(Fetcher &, int start, int end);
|
|
|
|
// Various fetchers.
|
|
template<bool use_end> void fetch_tms_refresh(uint8_t y, int start, int end);
|
|
template<bool use_end> void fetch_tms_text(uint8_t y, int start, int end);
|
|
template<bool use_end> void fetch_tms_character(uint8_t y, int start, int end);
|
|
|
|
template<bool use_end> void fetch_yamaha(uint8_t y, int start, int end);
|
|
template<ScreenMode> void fetch_yamaha(uint8_t y, int end);
|
|
|
|
template<bool use_end> void fetch_sms(uint8_t y, int start, int end);
|
|
|
|
// A helper function to output the current border colour for
|
|
// the number of cycles supplied.
|
|
void output_border(int cycles, uint32_t cram_dot);
|
|
|
|
// Output serialisation state.
|
|
uint32_t *pixel_target_ = nullptr, *pixel_origin_ = nullptr;
|
|
bool asked_for_write_area_ = false;
|
|
|
|
// Output serialisers.
|
|
template <SpriteMode mode = SpriteMode::Mode1> void draw_tms_character(int start, int end);
|
|
template <bool apply_blink> void draw_tms_text(int start, int end);
|
|
void draw_sms(int start, int end, uint32_t cram_dot);
|
|
|
|
template<ScreenMode mode> void draw_yamaha(uint8_t y, int start, int end);
|
|
void draw_yamaha(uint8_t y, int start, int end);
|
|
|
|
template <SpriteMode mode, bool double_width>
|
|
void draw_sprites(
|
|
uint8_t y,
|
|
int start,
|
|
int end,
|
|
const std::array<uint32_t, 16> &palette,
|
|
int *colour_buffer = nullptr
|
|
);
|
|
};
|
|
|
|
}
|
|
|
|
#include "Fetch.hpp"
|
|
#include "Draw.hpp"
|