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CLK/Machines/Apple/Macintosh/Video.cpp

185 lines
6.3 KiB
C++

//
// Video.cpp
// Clock Signal
//
// Created by Thomas Harte on 03/05/2019.
// Copyright © 2019 Thomas Harte. All rights reserved.
//
#include "Video.hpp"
#include <algorithm>
using namespace Apple::Macintosh;
// Re: CRT timings, see the Apple Guide to the Macintosh Hardware Family,
// bottom of page 400:
//
// "For each scan line, 512 pixels are drawn on the screen ...
// The horizontal blanking interval takes the time of an additional 192 pixels"
//
// And, at the top of 401:
//
// "The visible portion of a full-screen display consists of 342 horizontal scan lines...
// During the vertical blanking interval, the turned-off beam ... traces out an additional 28 scan lines,"
//
Video::Video(DeferredAudio &audio, DriveSpeedAccumulator &drive_speed_accumulator) :
audio_(audio),
drive_speed_accumulator_(drive_speed_accumulator),
crt_(704, 1, 370, Outputs::Display::ColourSpace::YIQ, 1, 1, 6, false, Outputs::Display::InputDataType::Luminance1) {
crt_.set_display_type(Outputs::Display::DisplayType::RGB);
crt_.set_visible_area(Outputs::Display::Rect(0.08f, -0.025f, 0.82f, 0.82f));
crt_.set_aspect_ratio(1.73f); // The Mac uses a non-standard scanning area.
}
void Video::set_scan_target(Outputs::Display::ScanTarget *scan_target) {
crt_.set_scan_target(scan_target);
}
void Video::run_for(HalfCycles duration) {
// Determine the current video and audio bases. These values don't appear to be latched, they apply immediately.
const size_t video_base = (use_alternate_screen_buffer_ ? (0xffff2700 >> 1) : (0xffffa700 >> 1)) & ram_mask_;
const size_t audio_base = (use_alternate_audio_buffer_ ? (0xffffa100 >> 1) : (0xfffffd00 >> 1)) & ram_mask_;
// The number of HalfCycles is literally the number of pixel clocks to move through,
// since pixel output occurs at twice the processor clock. So divide by 16 to get
// the number of fetches.
while(duration > HalfCycles(0)) {
const auto pixel_start = frame_position_ % line_length;
const int line = int((frame_position_ / line_length).as_integral());
const auto cycles_left_in_line = std::min(line_length - pixel_start, duration);
// Line timing, entirely invented as I can find exactly zero words of documentation:
//
// First 342 lines:
//
// First 32 words = pixels;
// next 5 words = right border;
// next 2 words = sync level;
// final 5 words = left border.
//
// Then 12 lines of border, 3 of sync, 11 more of border.
const int first_word = int(pixel_start.as_integral()) >> 4;
const int final_word = int((pixel_start + cycles_left_in_line).as_integral()) >> 4;
if(first_word != final_word) {
if(line < 342) {
// If there are any pixels left to output, do so.
if(first_word < 32) {
const int final_pixel_word = std::min(final_word, 32);
if(!first_word) {
pixel_buffer_ = crt_.begin_data(512);
}
if(pixel_buffer_) {
for(int c = first_word; c < final_pixel_word; ++c) {
uint16_t pixels = ram_[video_base + video_address_] ^ 0xffff;
++video_address_;
pixel_buffer_[15] = pixels & 0x01;
pixel_buffer_[14] = pixels & 0x02;
pixel_buffer_[13] = pixels & 0x04;
pixel_buffer_[12] = pixels & 0x08;
pixel_buffer_[11] = pixels & 0x10;
pixel_buffer_[10] = pixels & 0x20;
pixel_buffer_[9] = pixels & 0x40;
pixel_buffer_[8] = pixels & 0x80;
pixels >>= 8;
pixel_buffer_[7] = pixels & 0x01;
pixel_buffer_[6] = pixels & 0x02;
pixel_buffer_[5] = pixels & 0x04;
pixel_buffer_[4] = pixels & 0x08;
pixel_buffer_[3] = pixels & 0x10;
pixel_buffer_[2] = pixels & 0x20;
pixel_buffer_[1] = pixels & 0x40;
pixel_buffer_[0] = pixels & 0x80;
pixel_buffer_ += 16;
}
}
if(final_pixel_word == 32) {
crt_.output_data(512);
}
}
if(first_word < sync_start && final_word >= sync_start) crt_.output_blank((sync_start - 32) * 16);
if(first_word < sync_end && final_word >= sync_end) crt_.output_sync((sync_end - sync_start) * 16);
if(final_word == 44) crt_.output_blank((44 - sync_end) * 16);
} else if(final_word == 44) {
if(line >= 353 && line < 356) {
/* Output a sync line. */
crt_.output_sync(sync_start * 16);
crt_.output_blank((sync_end - sync_start) * 16);
crt_.output_sync((44 - sync_end) * 16);
} else {
/* Output a blank line. */
crt_.output_blank(sync_start * 16);
crt_.output_sync((sync_end - sync_start) * 16);
crt_.output_blank((44 - sync_end) * 16);
}
}
// Audio and disk fetches occur "just before video data".
if(final_word == 44) {
const uint16_t audio_word = ram_[audio_address_ + audio_base];
++audio_address_;
audio_.audio.post_sample(audio_word >> 8);
drive_speed_accumulator_.post_sample(audio_word & 0xff);
}
}
duration -= cycles_left_in_line;
frame_position_ = frame_position_ + cycles_left_in_line;
if(frame_position_ == frame_length) {
frame_position_ = HalfCycles(0);
/*
Video: $1A700 and the alternate buffer starts at $12700; for a 512K Macintosh, add $60000 to these numbers.
*/
video_address_ = 0;
/*
"The main sound buffer is at $1FD00 in a 128K Macintosh, and the alternate buffer is at $1A100;
for a 512K Macintosh, add $60000 to these values."
*/
audio_address_ = 0;
}
}
}
bool Video::vsync() {
const auto line = (frame_position_ / line_length).as_integral();
return line >= 353 && line < 356;
}
HalfCycles Video::get_next_sequence_point() {
const auto line = (frame_position_ / line_length).as_integral();
if(line >= 353 && line < 356) {
// Currently in vsync, so get time until start of line 357,
// when vsync will end.
return HalfCycles(356) * line_length - frame_position_;
} else {
// Not currently in vsync, so get time until start of line 353.
const auto start_of_vsync = HalfCycles(353) * line_length;
if(frame_position_ < start_of_vsync)
return start_of_vsync - frame_position_;
else
return start_of_vsync + HalfCycles(number_of_lines) * line_length - frame_position_;
}
}
void Video::set_use_alternate_buffers(bool use_alternate_screen_buffer, bool use_alternate_audio_buffer) {
use_alternate_screen_buffer_ = use_alternate_screen_buffer;
use_alternate_audio_buffer_ = use_alternate_audio_buffer;
}
void Video::set_ram(uint16_t *ram, uint32_t mask) {
ram_ = ram;
ram_mask_ = mask;
}