6502/CLK
1
0
Fork 0
mirror of https://github.com/TomHarte/CLK.git synced 2024-11-22 12:33:29 +00:00
Code Issues Projects Releases Wiki Activity

Honour internal-clocked timing constants.

Browse Source
This commit is contained in:
Thomas Harte 2023-01-08 14:10:06 -05:00
parent 5f6ddf8557
commit cb19c2ffb0
2 changed files with 40 additions and 24 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

61
Components/9918/Implementation/9918.cpp
View File

@ -341,6 +341,11 @@ void TMS9918<personality>::run_for(const HalfCycles cycles) {
// Output video stream.
// --------------------
#define crt_convert(action, time) this->crt_.action(this->clock_converter_.to_crt_clock(time))
#define output_sync(x) crt_convert(output_sync, x)
#define output_blank(x) crt_convert(output_blank, x)
#define output_default_colour_burst(x) crt_convert(output_default_colour_burst, x)
#define intersect(left, right, code) { \
const int start = std::max(this->read_pointer_.column, left); \
const int end = std::min(end_column, right); \
@ -359,43 +364,46 @@ void TMS9918<personality>::run_for(const HalfCycles cycles) {
// Vertical sync.
// TODO: the Mega Drive supports interlaced video, I think?
if(end_column == Timing<personality>::CyclesPerLine) {
this->crt_.output_sync(
this->clock_converter_.to_crt_clock(Timing<personality>::CyclesPerLine)
);
output_sync(Timing<personality>::CyclesPerLine);
}
} else {
// Right border.
border(0, Timing<personality>::EndOfRightBorder);
// Blanking region; total length is 58 cycles,
// and 58+15 = 73. So output the lot when the
// cursor passes 73.
if(this->read_pointer_.column < 73 && end_column >= 73) {
this->crt_.output_blank(8*4);
this->crt_.output_sync(26*4);
this->crt_.output_blank(2*4);
this->crt_.output_default_colour_burst(14*4);
this->crt_.output_blank(8*4);
// Blanking region: output the entire sequence when the cursor
// crosses the start-of-border point.
if(
this->read_pointer_.column < Timing<personality>::StartOfLeftBorder &&
end_column >= Timing<personality>::StartOfLeftBorder
) {
output_blank(Timing<personality>::StartOfSync - Timing<personality>::EndOfRightBorder);
output_sync(Timing<personality>::EndOfSync - Timing<personality>::StartOfSync);
output_blank(Timing<personality>::StartOfColourBurst - Timing<personality>::EndOfSync);
output_default_colour_burst(Timing<personality>::EndOfColourBurst - Timing<personality>::StartOfColourBurst);
output_blank(Timing<personality>::StartOfLeftBorder - Timing<personality>::EndOfColourBurst);
}
// Border colour for the rest of the line.
border(73, 342);
border(Timing<personality>::StartOfLeftBorder, Timing<personality>::CyclesPerLine);
}
} else {
// Right border.
border(0, 15);
border(0, Timing<personality>::EndOfRightBorder);
// Blanking region.
if(this->read_pointer_.column < 73 && end_column >= 73) {
this->crt_.output_blank(8*4);
this->crt_.output_sync(26*4);
this->crt_.output_blank(2*4);
this->crt_.output_default_colour_burst(14*4);
this->crt_.output_blank(8*4);
if(
this->read_pointer_.column < Timing<personality>::StartOfLeftBorder &&
end_column >= Timing<personality>::StartOfLeftBorder
) {
output_blank(Timing<personality>::StartOfSync - Timing<personality>::EndOfRightBorder);
output_sync(Timing<personality>::EndOfSync - Timing<personality>::StartOfSync);
output_blank(Timing<personality>::StartOfColourBurst - Timing<personality>::EndOfSync);
output_default_colour_burst(Timing<personality>::EndOfColourBurst - Timing<personality>::StartOfColourBurst);
output_blank(Timing<personality>::StartOfLeftBorder - Timing<personality>::EndOfColourBurst);
}
// Left border.
border(73, line_buffer.first_pixel_output_column);
border(Timing<personality>::StartOfLeftBorder, line_buffer.first_pixel_output_column);
// Pixel region.
intersect(
@ -422,21 +430,26 @@ void TMS9918<personality>::run_for(const HalfCycles cycles) {
if(end == line_buffer.next_border_column) {
const int length = line_buffer.next_border_column - line_buffer.first_pixel_output_column;
this->crt_.output_data(length * 4, size_t(length));
this->crt_.output_data(this->clock_converter_.to_crt_clock(length), size_t(length));
this->pixel_origin_ = this->pixel_target_ = nullptr;
this->asked_for_write_area_ = false;
}
);
// Additional right border, if called for.
if(line_buffer.next_border_column != 342) {
border(line_buffer.next_border_column, 342);
if(line_buffer.next_border_column != Timing<personality>::CyclesPerLine) {
border(line_buffer.next_border_column, Timing<personality>::CyclesPerLine);
}
}
#undef border
#undef intersect
#undef crt_convert
#undef output_sync
#undef output_blank
#undef output_default_colour_burst
// -------------

3
Components/9918/Implementation/ClockConverter.hpp
View File

@ -68,6 +68,9 @@ struct Timing<personality, std::enable_if_t<is_yamaha_vdp(personality)>>: public
template <>
struct Timing<Personality::MDVDP>: public StandardTiming<3420> {
// Implementation note: descending from StandardTiming works as long as the numbers computed
// end up being a multiple of 2.5. In practice they're all multiples of 10, so that's guaranteed.
// Coupled logic is as per to_crt_clock below.
};
constexpr int TMSAccessWindowsPerLine = 171;