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CLK/Machines/Apple/Macintosh/Video.cpp
Thomas Harte 6d985866ee All proper inputs are now provided to the audio generator.
Hopefully. The next job is to generate audio. If that sounds correct, then the disk motor speed question can be tackled.
2019-06-01 15:03:15 -04:00

178 lines
5.6 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;
namespace {
const HalfCycles line_length(704);
const int number_of_lines = 370;
const HalfCycles frame_length(line_length * HalfCycles(number_of_lines));
const int sync_start = 36;
const int sync_end = 38;
}
// 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(uint16_t *ram, DeferredAudio &audio) :
audio_(audio),
crt_(704, 1, 370, Outputs::Display::ColourSpace::YIQ, 1, 1, 6, false, Outputs::Display::InputDataType::Luminance1),
ram_(ram) {
crt_.set_display_type(Outputs::Display::DisplayType::RGB);
crt_.set_visible_area(Outputs::Display::Rect(0.02f, 0.025f, 0.94f, 0.94f));
}
void Video::set_scan_target(Outputs::Display::ScanTarget *scan_target) {
crt_.set_scan_target(scan_target);
}
void Video::run_for(HalfCycles duration) {
// 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)) {
auto cycles_left_in_line = std::min(line_length - frame_position_%line_length, duration);
const int line = (frame_position_ / line_length).as_int();
const auto pixel_start = frame_position_ % line_length;
// 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 = pixel_start.as_int() >> 4;
const int final_word = (pixel_start + cycles_left_in_line).as_int() >> 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_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(line >= 353 && line < 356) {
/* Output a sync line. */
if(final_word == 44) {
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. */
if(final_word == 44) {
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_address_;
audio_.audio.post_sample(audio_word >> 8);
// TODO: post disk byte.
}
}
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_ = use_alternate_screen_buffer_ ? (0x12700 >> 1) : (0x1a700 >> 1);
/*
"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_ = use_alternate_audio_buffer_ ? (0x1fd00 >> 1) : (0x1a100 >> 1);
}
}
}
bool Video::vsync() {
const int line = (frame_position_ / line_length).as_int();
return line >= 353 && line < 356;
}
bool Video::is_outputting() {
const int column = (frame_position_ % line_length).as_int() >> 4;
const int line = (frame_position_ / line_length).as_int();
return line < 342 && column < 32;
}
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;
}