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[Screen layout] Set small screen at 1x resolution
The large screen scales to fit the window and the small screen remains at its native resolution on "Large Frame Layout".
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@ -100,39 +100,31 @@ FramebufferLayout LargeFrameLayout(unsigned width, unsigned height, bool swapped
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ASSERT(height > 0);
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ASSERT(height > 0);
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FramebufferLayout res{width, height, true, true, {}, {}};
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FramebufferLayout res{width, height, true, true, {}, {}};
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// Split the window into two parts. Give 4x width to the main screen and 1x width to the small
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int viewport_height = static_cast<int>(std::round((width - VideoCore::kScreenBottomWidth) *
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// To do that, find the total emulation box and maximize that based on window size
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TOP_SCREEN_ASPECT_RATIO));
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float window_aspect_ratio = static_cast<float>(height) / width;
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float emulation_aspect_ratio =
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swapped
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? VideoCore::kScreenBottomHeight * 4 /
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(VideoCore::kScreenBottomWidth * 4.0f + VideoCore::kScreenTopWidth)
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: VideoCore::kScreenTopHeight * 4 /
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(VideoCore::kScreenTopWidth * 4.0f + VideoCore::kScreenBottomWidth);
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float large_screen_aspect_ratio = swapped ? BOT_SCREEN_ASPECT_RATIO : TOP_SCREEN_ASPECT_RATIO;
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float small_screen_aspect_ratio = swapped ? TOP_SCREEN_ASPECT_RATIO : BOT_SCREEN_ASPECT_RATIO;
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MathUtil::Rectangle<unsigned> screen_window_area{0, 0, width, height};
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if (height > viewport_height) {
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MathUtil::Rectangle<unsigned> total_rect =
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// Apply borders to the top and bottom.
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maxRectangle(screen_window_area, emulation_aspect_ratio);
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unsigned top_screen_bottom = viewport_height + (height - viewport_height) / 2;
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MathUtil::Rectangle<unsigned> large_screen =
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res.top_screen = {0, (height - viewport_height) / 2,
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maxRectangle(total_rect, large_screen_aspect_ratio);
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width - VideoCore::kScreenBottomWidth, top_screen_bottom};
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MathUtil::Rectangle<unsigned> fourth_size_rect = total_rect.Scale(.25f);
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res.bottom_screen = {width - VideoCore::kScreenBottomWidth,
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MathUtil::Rectangle<unsigned> small_screen =
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top_screen_bottom - VideoCore::kScreenBottomHeight,
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maxRectangle(fourth_size_rect, small_screen_aspect_ratio);
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width, top_screen_bottom};
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if (window_aspect_ratio < emulation_aspect_ratio) {
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large_screen =
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large_screen.TranslateX((screen_window_area.GetWidth() - total_rect.GetWidth()) / 2);
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} else {
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} else {
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large_screen = large_screen.TranslateY((height - total_rect.GetHeight()) / 2);
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// Apply borders to the left and right sides of the window.
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int viewport_width = static_cast<int>(std::round((height / TOP_SCREEN_ASPECT_RATIO) +
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VideoCore::kScreenBottomWidth));
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unsigned top_screen_right = (height / TOP_SCREEN_ASPECT_RATIO) + (width - viewport_width) / 2;
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res.top_screen = {(width - viewport_width) / 2, 0, top_screen_right, height};
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res.bottom_screen = {top_screen_right, height - VideoCore::kScreenBottomHeight,
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top_screen_right + VideoCore::kScreenBottomWidth, height};
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}
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if (swapped) {
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MathUtil::Rectangle<unsigned> temp = res.top_screen;
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res.top_screen = res.bottom_screen;
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res.bottom_screen = temp;
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}
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}
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// Shift the small screen to the bottom right corner
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small_screen =
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small_screen.TranslateX(large_screen.right)
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.TranslateY(large_screen.GetHeight() + large_screen.top - small_screen.GetHeight());
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res.top_screen = swapped ? small_screen : large_screen;
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res.bottom_screen = swapped ? large_screen : small_screen;
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return res;
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return res;
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}
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}
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}
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}
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