video: wayland: Use wp-viewporter for fullscreen with non-native resolutions

Wayland doesn't support mode switching, however Wayland compositors can support the wp_viewporter protocol, which allows for the mapping of arbitrarily sized buffer regions to output surfaces.  Use this functionality, when available, for fullscreen output when using non-native display modes and/or when dealing with scaled desktops, which can incur significant overdraw without this extension.

This also allows for the exposure of arbitrarily sized, emulated display modes, which can be useful for legacy compatability.
This commit is contained in:
Frank Praznik 2022-03-25 20:35:07 -04:00 committed by Ethan Lee
parent aec86ba8bb
commit 4d76c9cb46
10 changed files with 642 additions and 88 deletions

View file

@ -345,6 +345,7 @@ struct SDL_VideoDevice
Uint32 next_object_id;
char *clipboard_text;
SDL_bool setting_display_mode;
SDL_bool disable_display_mode_switching;
/* * * */
/* Data used by the GL drivers */

View file

@ -1339,14 +1339,17 @@ SDL_UpdateFullscreenMode(SDL_Window * window, SDL_bool fullscreen)
resized = SDL_FALSE;
}
/* only do the mode change if we want exclusive fullscreen */
if ((window->flags & SDL_WINDOW_FULLSCREEN_DESKTOP) != SDL_WINDOW_FULLSCREEN_DESKTOP) {
if (SDL_SetDisplayModeForDisplay(display, &fullscreen_mode) < 0) {
return -1;
}
} else {
if (SDL_SetDisplayModeForDisplay(display, NULL) < 0) {
return -1;
/* Don't try to change the display mode if the driver doesn't want it. */
if (_this->disable_display_mode_switching == SDL_FALSE) {
/* only do the mode change if we want exclusive fullscreen */
if ((window->flags & SDL_WINDOW_FULLSCREEN_DESKTOP) != SDL_WINDOW_FULLSCREEN_DESKTOP) {
if (SDL_SetDisplayModeForDisplay(display, &fullscreen_mode) < 0) {
return -1;
}
} else {
if (SDL_SetDisplayModeForDisplay(display, NULL) < 0) {
return -1;
}
}
}

View file

@ -389,8 +389,10 @@ pointer_handle_motion(void *data, struct wl_pointer *pointer,
input->sx_w = sx_w;
input->sy_w = sy_w;
if (input->pointer_focus) {
const int sx = wl_fixed_to_int(sx_w);
const int sy = wl_fixed_to_int(sy_w);
const float sx_f = (float)wl_fixed_to_double(sx_w);
const float sy_f = (float)wl_fixed_to_double(sy_w);
const int sx = (int)SDL_lroundf(sx_f * window->pointer_scale);
const int sy = (int)SDL_lroundf(sy_f * window->pointer_scale);
SDL_SendMouseMotion(window->sdlwindow, 0, 0, sx, sy);
}
}
@ -717,8 +719,8 @@ touch_handler_down(void *data, struct wl_touch *touch, unsigned int serial,
int id, wl_fixed_t fx, wl_fixed_t fy)
{
SDL_WindowData *window_data = (SDL_WindowData *)wl_surface_get_user_data(surface);
const double dblx = wl_fixed_to_double(fx);
const double dbly = wl_fixed_to_double(fy);
const double dblx = wl_fixed_to_double(fx) * window_data->pointer_scale;
const double dbly = wl_fixed_to_double(fy) * window_data->pointer_scale;
const float x = dblx / window_data->sdlwindow->w;
const float y = dbly / window_data->sdlwindow->h;
@ -750,8 +752,8 @@ touch_handler_motion(void *data, struct wl_touch *touch, unsigned int timestamp,
int id, wl_fixed_t fx, wl_fixed_t fy)
{
SDL_WindowData *window_data = (SDL_WindowData *)wl_surface_get_user_data(touch_surface(id));
const double dblx = wl_fixed_to_double(fx);
const double dbly = wl_fixed_to_double(fy);
const double dblx = wl_fixed_to_double(fx) * window_data->pointer_scale;
const double dbly = wl_fixed_to_double(fy) * window_data->pointer_scale;
const float x = dblx / window_data->sdlwindow->w;
const float y = dbly / window_data->sdlwindow->h;
@ -1817,8 +1819,10 @@ tablet_tool_handle_motion(void* data, struct zwp_tablet_tool_v2* tool, wl_fixed_
input->sx_w = sx_w;
input->sy_w = sy_w;
if (input->tool_focus) {
const int sx = wl_fixed_to_int(sx_w);
const int sy = wl_fixed_to_int(sy_w);
const float sx_f = (float)wl_fixed_to_double(sx_w);
const float sy_f = (float)wl_fixed_to_double(sy_w);
const int sx = (int)SDL_lroundf(sx_f * window->pointer_scale);
const int sy = (int)SDL_lroundf(sy_f * window->pointer_scale);
SDL_SendMouseMotion(window->sdlwindow, 0, 0, sx, sy);
}
}
@ -2345,12 +2349,19 @@ int Wayland_input_confine_pointer(struct SDL_WaylandInput *input, SDL_Window *wi
if (SDL_RectEmpty(&window->mouse_rect)) {
confine_rect = NULL;
} else {
SDL_Rect scaled_mouse_rect;
scaled_mouse_rect.x = (int)SDL_floorf((float)window->mouse_rect.x / w->pointer_scale);
scaled_mouse_rect.y = (int)SDL_floorf((float)window->mouse_rect.y / w->pointer_scale);
scaled_mouse_rect.w = (int)SDL_ceilf((float)window->mouse_rect.w / w->pointer_scale);
scaled_mouse_rect.h = (int)SDL_ceilf((float)window->mouse_rect.h / w->pointer_scale);
confine_rect = wl_compositor_create_region(d->compositor);
wl_region_add(confine_rect,
window->mouse_rect.x,
window->mouse_rect.y,
window->mouse_rect.w,
window->mouse_rect.h);
scaled_mouse_rect.x,
scaled_mouse_rect.y,
scaled_mouse_rect.w,
scaled_mouse_rect.h);
}
confined_pointer =

View file

@ -205,11 +205,11 @@ Wayland_GLES_GetDrawableSize(_THIS, SDL_Window * window, int * w, int * h)
data = (SDL_WindowData *) window->driverdata;
if (w) {
*w = window->w * data->scale_factor;
*w = data->drawable_width;
}
if (h) {
*h = window->h * data->scale_factor;
*h = data->drawable_height;
}
}
}

View file

@ -54,6 +54,7 @@
#include "text-input-unstable-v3-client-protocol.h"
#include "tablet-unstable-v2-client-protocol.h"
#include "xdg-output-unstable-v1-client-protocol.h"
#include "viewporter-client-protocol.h"
#ifdef HAVE_LIBDECOR_H
#include <libdecor.h>
@ -278,6 +279,8 @@ Wayland_CreateDevice(int devindex)
device->free = Wayland_DeleteDevice;
device->disable_display_mode_switching = SDL_TRUE;
return device;
}
@ -321,6 +324,7 @@ xdg_output_handle_logical_size(void *data, struct zxdg_output_v1 *xdg_output,
return;
}
}
driverdata->width = width;
driverdata->height = height;
driverdata->has_logical_size = SDL_TRUE;
@ -360,6 +364,103 @@ static const struct zxdg_output_v1_listener xdg_output_listener = {
xdg_output_handle_description,
};
static void
AddEmulatedModes(SDL_VideoDisplay *dpy, SDL_bool rot_90)
{
struct EmulatedMode
{
int w;
int h;
};
/* Resolution lists courtesy of XWayland */
const struct EmulatedMode modes_4x3[] = {
/* 4:3 (1.33) */
{ 2048, 1536 },
{ 1920, 1440 },
{ 1600, 1200 },
{ 1440, 1080 },
{ 1400, 1050 },
{ 1280, 1024 },
{ 1280, 960 },
{ 1152, 864 },
{ 1024, 768 },
{ 800, 600 },
{ 640, 480 },
{ 320, 240 }
};
const struct EmulatedMode modes_16x10[] = {
/* 16:10 (1.6) */
{ 2560, 1600 },
{ 1920, 1200 },
{ 1680, 1050 },
{ 1440, 900 },
{ 1280, 800 },
{ 720, 480 },
{ 640, 400 },
{ 320, 200 }
};
const struct EmulatedMode modes_16x9[] = {
/* 16:9 (1.77) */
{ 7680, 4320 },
{ 6144, 3160 },
{ 5120, 2880 },
{ 4096, 2304 },
{ 3840, 2160 },
{ 3200, 1800 },
{ 2880, 1620 },
{ 2560, 1440 },
{ 2048, 1152 },
{ 1920, 1080 },
{ 1600, 900 },
{ 1368, 768 },
{ 1280, 720 },
{ 1024, 768 },
{ 864, 486 },
{ 720, 400 },
{ 640, 350 }
};
const struct EmulatedMode *mode_list = NULL;
int mode_list_size;
const int native_width = (float)dpy->display_modes->w;
const int native_height = (float)dpy->display_modes->h;
const float aspect = (float)native_width / (float)native_height;
if (aspect >= 1.7f) { /* 16x9 (1.77) */
mode_list = modes_16x9;
mode_list_size = SDL_arraysize(modes_16x9);
} else if (aspect >= 1.5f) { /* 16x10 (1.6) */
mode_list = modes_16x10;
mode_list_size = SDL_arraysize(modes_16x10);
} else if (aspect >= 1.3f) { /* 4x3 (1.33) */
mode_list = modes_4x3;
mode_list_size = SDL_arraysize(modes_4x3);
} else {
return; /* Some weird aspect we don't support */
}
for (int i = 0; i < mode_list_size; ++i) {
/* Only add modes that are smaller than the native mode */
if ((mode_list[i].w < native_width && mode_list[i].h < native_height) ||
(mode_list[i].w < native_width && mode_list[i].h == native_height)) {
SDL_DisplayMode mode = *dpy->display_modes;
if (rot_90) {
mode.w = mode_list[i].h;
mode.h = mode_list[i].w;
} else {
mode.w = mode_list[i].w;
mode.h = mode_list[i].h;
}
SDL_AddDisplayMode(dpy, &mode);
}
}
}
static void
display_handle_geometry(void *data,
struct wl_output *output,
@ -441,9 +542,11 @@ display_handle_mode(void *data,
int refresh)
{
SDL_WaylandOutputData* driverdata = data;
SDL_DisplayMode mode;
if (flags & WL_OUTPUT_MODE_CURRENT) {
driverdata->native_width = width;
driverdata->native_height = height;
/*
* Don't rotate this yet, wl-output coordinates are transformed in
* handle_done and xdg-output coordinates are pre-transformed.
@ -455,29 +558,6 @@ display_handle_mode(void *data,
driverdata->refresh = refresh;
}
/* Note that the width/height are NOT multiplied by scale_factor!
* This is intentional and is designed to get the unscaled modes, which is
* important for high-DPI games intending to use the display mode as the
* target drawable size. The scaled desktop mode will be added at the end
* when display_handle_done is called (see below).
*/
SDL_zero(mode);
mode.format = SDL_PIXELFORMAT_RGB888;
if (driverdata->transform & WL_OUTPUT_TRANSFORM_90) {
mode.w = height;
mode.h = width;
} else {
mode.w = width;
mode.h = height;
}
mode.refresh_rate = (int)SDL_round(refresh / 1000.0); /* mHz to Hz */
mode.driverdata = driverdata->output;
if (driverdata->index > -1) {
SDL_AddDisplayMode(SDL_GetDisplay(driverdata->index), &mode);
} else {
SDL_AddDisplayMode(&driverdata->placeholder, &mode);
}
}
static void
@ -485,7 +565,8 @@ display_handle_done(void *data,
struct wl_output *output)
{
SDL_WaylandOutputData* driverdata = data;
SDL_DisplayMode mode;
SDL_VideoData* video = driverdata->videodata;
SDL_DisplayMode native_mode, desktop_mode;
SDL_VideoDisplay *dpy;
/*
@ -502,19 +583,51 @@ display_handle_done(void *data,
return;
}
SDL_zero(mode);
mode.format = SDL_PIXELFORMAT_RGB888;
/* The native display resolution */
SDL_zero(native_mode);
native_mode.format = SDL_PIXELFORMAT_RGB888;
if (driverdata->has_logical_size) {
/* xdg-output dimensions are already transformed, so no need to rotate. */
mode.w = driverdata->width;
mode.h = driverdata->height;
} else if (driverdata->transform & WL_OUTPUT_TRANSFORM_90) {
mode.w = driverdata->height / driverdata->scale_factor;
mode.h = driverdata->width / driverdata->scale_factor;
if (driverdata->transform & WL_OUTPUT_TRANSFORM_90) {
native_mode.w = driverdata->native_height;
native_mode.h = driverdata->native_width;
} else {
mode.w = driverdata->width / driverdata->scale_factor;
mode.h = driverdata->height / driverdata->scale_factor;
native_mode.w = driverdata->native_width;
native_mode.h = driverdata->native_height;
}
native_mode.refresh_rate = (int)SDL_round(driverdata->refresh / 1000.0); /* mHz to Hz */
native_mode.driverdata = driverdata->output;
/* The scaled desktop mode */
SDL_zero(desktop_mode);
desktop_mode.format = SDL_PIXELFORMAT_RGB888;
/* Scale the desktop coordinates, if xdg-output isn't present */
if (!driverdata->has_logical_size) {
driverdata->width /= driverdata->scale_factor;
driverdata->height /= driverdata->scale_factor;
}
/* xdg-output dimensions are already transformed, so no need to rotate. */
if (driverdata->has_logical_size || !(driverdata->transform & WL_OUTPUT_TRANSFORM_90)) {
desktop_mode.w = driverdata->width;
desktop_mode.h = driverdata->height;
} else {
desktop_mode.w = driverdata->height;
desktop_mode.h = driverdata->width;
}
desktop_mode.refresh_rate = (int)SDL_round(driverdata->refresh / 1000.0); /* mHz to Hz */
desktop_mode.driverdata = driverdata->output;
/*
* The native display mode is only exposed separately from the desktop size if:
* the desktop is scaled and the wp_viewporter protocol is supported.
*/
if (driverdata->scale_factor > 1.0f && video->viewporter != NULL) {
if (driverdata->index > -1) {
SDL_AddDisplayMode(SDL_GetDisplay(driverdata->index), &native_mode);
} else {
SDL_AddDisplayMode(&driverdata->placeholder, &native_mode);
}
}
/* Calculate the display DPI */
@ -542,18 +655,20 @@ display_handle_done(void *data,
((float) driverdata->physical_height) / 25.4f);
}
mode.refresh_rate = (int)SDL_round(driverdata->refresh / 1000.0); /* mHz to Hz */
mode.driverdata = driverdata->output;
if (driverdata->index > -1) {
dpy = SDL_GetDisplay(driverdata->index);
} else {
dpy = &driverdata->placeholder;
}
SDL_AddDisplayMode(dpy, &mode);
SDL_SetCurrentDisplayMode(dpy, &mode);
SDL_SetDesktopDisplayMode(dpy, &mode);
SDL_AddDisplayMode(dpy, &desktop_mode);
SDL_SetCurrentDisplayMode(dpy, &desktop_mode);
SDL_SetDesktopDisplayMode(dpy, &desktop_mode);
/* Add emulated modes if wp_viewporter is supported. */
if (video->viewporter) {
AddEmulatedModes(dpy, (driverdata->transform & WL_OUTPUT_TRANSFORM_90) != 0);
}
if (driverdata->index == -1) {
/* First time getting display info, create the VideoDisplay */
@ -600,7 +715,7 @@ Wayland_add_display(SDL_VideoData *d, uint32_t id)
data->videodata = d;
data->output = output;
data->registry_id = id;
data->scale_factor = 1.0;
data->scale_factor = 1.0f;
data->index = -1;
wl_output_add_listener(output, &output_listener, data);
@ -756,6 +871,8 @@ display_handle_global(void *data, struct wl_registry *registry, uint32_t id,
version = SDL_min(version, 3); /* Versions 1 through 3 are supported. */
d->xdg_output_manager = wl_registry_bind(d->registry, id, &zxdg_output_manager_v1_interface, version);
Wayland_init_xdg_output(d);
} else if (SDL_strcmp(interface, "wp_viewporter") == 0) {
d->viewporter = wl_registry_bind(d->registry, id, &wp_viewporter_interface, 1);
#ifdef SDL_VIDEO_DRIVER_WAYLAND_QT_TOUCH
} else if (SDL_strcmp(interface, "qt_touch_extension") == 0) {
@ -945,6 +1062,10 @@ Wayland_VideoQuit(_THIS)
zxdg_output_manager_v1_destroy(data->xdg_output_manager);
}
if (data->viewporter) {
wp_viewporter_destroy(data->viewporter);
}
if (data->compositor)
wl_compositor_destroy(data->compositor);

View file

@ -74,6 +74,7 @@ typedef struct {
struct xdg_activation_v1 *activation_manager;
struct zwp_text_input_manager_v3 *text_input_manager;
struct zxdg_output_manager_v1 *xdg_output_manager;
struct wp_viewporter *viewporter;
EGLDisplay edpy;
EGLContext context;
@ -101,6 +102,7 @@ struct SDL_WaylandOutputData {
struct zxdg_output_v1 *xdg_output;
uint32_t registry_id;
float scale_factor;
int native_width, native_height;
int x, y, width, height, refresh, transform;
SDL_DisplayOrientation orientation;
int physical_width, physical_height;

View file

@ -139,11 +139,11 @@ void Wayland_Vulkan_GetDrawableSize(_THIS, SDL_Window *window, int *w, int *h)
data = (SDL_WindowData *) window->driverdata;
if (w) {
*w = window->w * data->scale_factor;
*w = data->drawable_width;
}
if (h) {
*h = window->h * data->scale_factor;
*h = data->drawable_height;
}
}
}

View file

@ -36,11 +36,215 @@
#include "xdg-decoration-unstable-v1-client-protocol.h"
#include "idle-inhibit-unstable-v1-client-protocol.h"
#include "xdg-activation-v1-client-protocol.h"
#include "viewporter-client-protocol.h"
#ifdef HAVE_LIBDECOR_H
#include <libdecor.h>
#endif
static void
GetFullScreenDimensions(SDL_Window *window, int *width, int *height, int *drawable_width, int *drawable_height)
{
SDL_WaylandOutputData *output = (SDL_WaylandOutputData *)SDL_GetDisplayForWindow(window)->driverdata;
int fs_width, fs_height;
int buf_width, buf_height;
/*
* Fullscreen desktop mandates a desktop sized window, so that's what applications will get.
* If the application is DPI aware, it will need to handle the transformations between the
* differently sized window and backbuffer spaces on its own.
*/
if ((window->flags & SDL_WINDOW_FULLSCREEN_DESKTOP) == SDL_WINDOW_FULLSCREEN_DESKTOP) {
fs_width = output->width;
fs_height = output->height;
/* If the application is DPI aware, we can expose the true backbuffer size */
if (window->flags & SDL_WINDOW_ALLOW_HIGHDPI) {
buf_width = output->native_width;
buf_height = output->native_height;
} else {
buf_width = fs_width;
buf_height = fs_height;
}
} else {
/*
* If a mode was set, use it, otherwise use the native resolution
* for DPI aware apps and the desktop size for legacy apps.
*/
if (window->fullscreen_mode.w != 0 && window->fullscreen_mode.h != 0) {
fs_width = window->fullscreen_mode.w;
fs_height = window->fullscreen_mode.h;
} else if (window->flags & SDL_WINDOW_ALLOW_HIGHDPI) {
fs_width = output->native_width;
fs_height = output->native_height;
} else {
fs_width = output->width;
fs_height = output->height;
}
buf_width = fs_width;
buf_height = fs_height;
}
if (width) {
*width = fs_width;
}
if (height) {
*height = fs_height;
}
if (drawable_width) {
*drawable_width = buf_width;
}
if (drawable_height) {
*drawable_height = buf_height;
}
}
static inline SDL_bool
DesktopIsScaled(SDL_Window *window)
{
SDL_WindowData *data = window->driverdata;
return data->scale_factor != 1.0f;
}
static inline SDL_bool
DesktopIsFractionalScaled(SDL_Window *window)
{
SDL_WindowData *data = window->driverdata;
SDL_WaylandOutputData *output = (SDL_WaylandOutputData *)SDL_GetDisplayForWindow(window)->driverdata;
if ((output->native_width != (output->width * data->scale_factor) ||
output->native_height != (output->height * data->scale_factor))) {
return SDL_TRUE;
}
return SDL_FALSE;
}
static SDL_bool
NeedFullscreenViewport(SDL_Window *window)
{
SDL_WindowData *data = window->driverdata;
SDL_VideoData *video = data->waylandData;
SDL_WaylandOutputData *output = (SDL_WaylandOutputData *)SDL_GetDisplayForWindow(window)->driverdata;
int fs_width, fs_height;
GetFullScreenDimensions(window, &fs_width, &fs_height, NULL, NULL);
/*
* Fullscreen needs a viewport:
* - If the desktop uses fractional scaling
* - Fullscreen desktop was not requested OR the window is DPI aware
*
* - The desktop uses non-fractional scaling
* - Fullscreen desktop was NOT requested
*
* - The desktop is not scaled
* - A non-native fullscreen mode was explicitly set by the client
*/
if (video->viewporter != NULL && (window->flags & SDL_WINDOW_FULLSCREEN)) {
if (DesktopIsFractionalScaled(window)) {
if ((window->flags & SDL_WINDOW_FULLSCREEN_DESKTOP) != SDL_WINDOW_FULLSCREEN_DESKTOP ||
(window->flags & SDL_WINDOW_ALLOW_HIGHDPI)) {
return SDL_TRUE;
}
} else if (DesktopIsScaled(window)) {
if ((window->flags & SDL_WINDOW_FULLSCREEN_DESKTOP) != SDL_WINDOW_FULLSCREEN_DESKTOP) {
return SDL_TRUE;
}
} else if (fs_width != output->native_width && fs_height != output->native_height) {
return SDL_TRUE;
}
}
return SDL_FALSE;
}
static void
SetViewport(SDL_Window *window, int src_width, int src_height, int dst_width, int dst_height)
{
SDL_WindowData *wind = window->driverdata;
SDL_VideoData *video = wind->waylandData;
if (video->viewporter) {
if (wind->viewport == NULL) {
wind->viewport = wp_viewporter_get_viewport(video->viewporter, wind->surface);
}
wp_viewport_set_source(wind->viewport, wl_fixed_from_int(0), wl_fixed_from_int(0), wl_fixed_from_int(src_width), wl_fixed_from_int(src_height));
wp_viewport_set_destination(wind->viewport, dst_width, dst_height);
}
}
static void
UnsetViewport(SDL_Window *window)
{
SDL_WindowData *wind = window->driverdata;
if (wind->viewport) {
wp_viewport_destroy(wind->viewport);
wind->viewport = NULL;
}
}
static void
ConfigureViewport(SDL_Window *window)
{
SDL_WindowData *data = window->driverdata;
SDL_VideoData *viddata = data->waylandData;
SDL_WaylandOutputData *output = (SDL_WaylandOutputData *)SDL_GetDisplayForWindow(window)->driverdata;
if ((window->flags & SDL_WINDOW_FULLSCREEN) && NeedFullscreenViewport(window)) {
int fs_width, fs_height;
int src_width, src_height;
GetFullScreenDimensions(window, &fs_width, &fs_height, &src_width, &src_height);
SetViewport(window, src_width, src_height, output->width, output->height);
data->pointer_scale = (float)fs_width / (float)output->width;
/*
* If mouse_rect is not empty, re-create the confinement region with the new scale value.
* If the pointer is locked to the general surface with unspecified coordinates, it will
* be confined to the viewport region, so no update is required.
*/
if (!SDL_RectEmpty(&window->mouse_rect)) {
Wayland_input_confine_pointer(viddata->input, window);
}
} else {
UnsetViewport(window);
data->pointer_scale = 1.0f;
/* Re-scale the pointer confinement region */
if (!SDL_RectEmpty(&window->mouse_rect)) {
Wayland_input_confine_pointer(viddata->input, window);
}
}
}
static void
SetDrawScale(SDL_Window *window)
{
SDL_WindowData *data = window->driverdata;
if ((window->flags & SDL_WINDOW_FULLSCREEN) && NeedFullscreenViewport(window)) {
int fs_width, fs_height;
GetFullScreenDimensions(window, &fs_width, &fs_height, &data->drawable_width, &data->drawable_height);
/* Set the buffer scale to 1 since a viewport will be used. */
wl_surface_set_buffer_scale(data->surface, 1);
} else {
data->drawable_width = window->w * data->scale_factor;
data->drawable_height = window->h * data->scale_factor;
wl_surface_set_buffer_scale(data->surface, (int32_t)data->scale_factor);
}
}
static void
SetMinMaxDimensions(SDL_Window *window, SDL_bool commit)
{
@ -303,9 +507,14 @@ handle_configure_xdg_toplevel(void *data,
* UPDATE: Nope, sure enough a compositor sends 0,0. This is a known bug:
* https://bugs.kde.org/show_bug.cgi?id=444962
*/
if (width != 0 && height != 0 && (window->w != width || window->h != height)) {
window->w = width;
window->h = height;
if (!NeedFullscreenViewport(window)) {
if (width != 0 && height != 0 && (window->w != width || window->h != height)) {
window->w = width;
window->h = height;
wind->needs_resize_event = SDL_TRUE;
}
} else {
GetFullScreenDimensions(window, &window->w, &window->h, NULL, NULL);
wind->needs_resize_event = SDL_TRUE;
}
@ -399,17 +608,23 @@ decoration_frame_configure(struct libdecor_frame *frame,
* Always assume the configure is wrong.
*/
if (fullscreen) {
/* FIXME: We have been explicitly told to respect the fullscreen size
* parameters here, even though they are known to be wrong on GNOME at
* bare minimum. If this is wrong, don't blame us, we were explicitly
* told to do this.
*/
if (!libdecor_configuration_get_content_size(configuration, frame,
&width, &height)) {
width = window->w;
height = window->h;
if (!NeedFullscreenViewport(window)) {
/* FIXME: We have been explicitly told to respect the fullscreen size
* parameters here, even though they are known to be wrong on GNOME at
* bare minimum. If this is wrong, don't blame us, we were explicitly
* told to do this.
*/
if (!libdecor_configuration_get_content_size(configuration, frame,
&width, &height)) {
width = window->w;
height = window->h;
}
} else {
GetFullScreenDimensions(window, &width, &height, NULL, NULL);
}
wind->needs_resize_event = SDL_TRUE;
/* This part is good though. */
if (window->flags & SDL_WINDOW_ALLOW_HIGHDPI) {
scale_factor = driverdata->scale_factor;
@ -1269,7 +1484,8 @@ int Wayland_CreateWindow(_THIS, SDL_Window *window)
data->waylandData = c;
data->sdlwindow = window;
data->scale_factor = 1.0;
data->scale_factor = 1.0f;
data->pointer_scale = 1.0f;
if (window->flags & SDL_WINDOW_ALLOW_HIGHDPI) {
int i;
@ -1316,9 +1532,11 @@ int Wayland_CreateWindow(_THIS, SDL_Window *window)
}
#endif /* SDL_VIDEO_DRIVER_WAYLAND_QT_TOUCH */
data->drawable_width = window->w * data->scale_factor;
data->drawable_height = window->h * data->scale_factor;
if (window->flags & SDL_WINDOW_OPENGL) {
data->egl_window = WAYLAND_wl_egl_window_create(data->surface,
window->w * data->scale_factor, window->h * data->scale_factor);
data->egl_window = WAYLAND_wl_egl_window_create(data->surface, data->drawable_width, data->drawable_height);
#if SDL_VIDEO_OPENGL_EGL
/* Create the GLES window surface */
@ -1375,12 +1593,13 @@ Wayland_HandleResize(SDL_Window *window, int width, int height, float scale)
data->needs_resize_event = SDL_FALSE;
}
wl_surface_set_buffer_scale(data->surface, data->scale_factor);
/* Configure the backbuffer size and scale factors */
SetDrawScale(window);
if (data->egl_window) {
WAYLAND_wl_egl_window_resize(data->egl_window,
window->w * data->scale_factor,
window->h * data->scale_factor,
data->drawable_width,
data->drawable_height,
0, 0);
}
@ -1397,6 +1616,9 @@ Wayland_HandleResize(SDL_Window *window, int width, int height, float scale)
if (viddata->shell.xdg && data->shell_surface.xdg.surface) {
xdg_surface_set_window_geometry(data->shell_surface.xdg.surface, 0, 0, window->w, window->h);
}
/* Update the viewport */
ConfigureViewport(window);
}
void
@ -1431,12 +1653,12 @@ void Wayland_SetWindowSize(_THIS, SDL_Window * window)
}
#endif
wl_surface_set_buffer_scale(wind->surface, wind->scale_factor);
SetDrawScale(window);
if (wind->egl_window) {
WAYLAND_wl_egl_window_resize(wind->egl_window,
window->w * wind->scale_factor,
window->h * wind->scale_factor,
wind->drawable_width,
wind->drawable_height,
0, 0);
}
@ -1549,6 +1771,10 @@ void Wayland_DestroyWindow(_THIS, SDL_Window *window)
xdg_activation_token_v1_destroy(wind->activation_token);
}
if (wind->viewport) {
wp_viewport_destroy(wind->viewport);
}
SDL_free(wind->outputs);
if (wind->frame_callback) {

View file

@ -72,6 +72,7 @@ typedef struct {
struct zwp_keyboard_shortcuts_inhibitor_v1 *key_inhibitor;
struct zwp_idle_inhibitor_v1 *idle_inhibitor;
struct xdg_activation_token_v1 *activation_token;
struct wp_viewport *viewport;
/* floating dimensions for restoring from maximized and fullscreen */
int floating_width, floating_height;
@ -86,6 +87,8 @@ typedef struct {
int num_outputs;
float scale_factor;
float pointer_scale;
int drawable_width, drawable_height;
SDL_bool needs_resize_event;
SDL_bool floating_resize_pending;
} SDL_WindowData;
@ -112,6 +115,7 @@ extern int Wayland_SetWindowModalFor(_THIS, SDL_Window * modal_window, SDL_Windo
extern void Wayland_SetWindowTitle(_THIS, SDL_Window * window);
extern void Wayland_DestroyWindow(_THIS, SDL_Window *window);
extern void Wayland_SuspendScreenSaver(_THIS);
extern int Wayland_SetDisplayMode(_THIS, SDL_VideoDisplay * display, SDL_DisplayMode * mode);
extern SDL_bool
Wayland_GetWindowWMInfo(_THIS, SDL_Window * window, SDL_SysWMinfo * info);

View file

@ -0,0 +1,186 @@
<?xml version="1.0" encoding="UTF-8"?>
<protocol name="viewporter">
<copyright>
Copyright © 2013-2016 Collabora, Ltd.
Permission is hereby granted, free of charge, to any person obtaining a
copy of this software and associated documentation files (the "Software"),
to deal in the Software without restriction, including without limitation
the rights to use, copy, modify, merge, publish, distribute, sublicense,
and/or sell copies of the Software, and to permit persons to whom the
Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice (including the next
paragraph) shall be included in all copies or substantial portions of the
Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
DEALINGS IN THE SOFTWARE.
</copyright>
<interface name="wp_viewporter" version="1">
<description summary="surface cropping and scaling">
The global interface exposing surface cropping and scaling
capabilities is used to instantiate an interface extension for a
wl_surface object. This extended interface will then allow
cropping and scaling the surface contents, effectively
disconnecting the direct relationship between the buffer and the
surface size.
</description>
<request name="destroy" type="destructor">
<description summary="unbind from the cropping and scaling interface">
Informs the server that the client will not be using this
protocol object anymore. This does not affect any other objects,
wp_viewport objects included.
</description>
</request>
<enum name="error">
<entry name="viewport_exists" value="0"
summary="the surface already has a viewport object associated"/>
</enum>
<request name="get_viewport">
<description summary="extend surface interface for crop and scale">
Instantiate an interface extension for the given wl_surface to
crop and scale its content. If the given wl_surface already has
a wp_viewport object associated, the viewport_exists
protocol error is raised.
</description>
<arg name="id" type="new_id" interface="wp_viewport"
summary="the new viewport interface id"/>
<arg name="surface" type="object" interface="wl_surface"
summary="the surface"/>
</request>
</interface>
<interface name="wp_viewport" version="1">
<description summary="crop and scale interface to a wl_surface">
An additional interface to a wl_surface object, which allows the
client to specify the cropping and scaling of the surface
contents.
This interface works with two concepts: the source rectangle (src_x,
src_y, src_width, src_height), and the destination size (dst_width,
dst_height). The contents of the source rectangle are scaled to the
destination size, and content outside the source rectangle is ignored.
This state is double-buffered, and is applied on the next
wl_surface.commit.
The two parts of crop and scale state are independent: the source
rectangle, and the destination size. Initially both are unset, that
is, no scaling is applied. The whole of the current wl_buffer is
used as the source, and the surface size is as defined in
wl_surface.attach.
If the destination size is set, it causes the surface size to become
dst_width, dst_height. The source (rectangle) is scaled to exactly
this size. This overrides whatever the attached wl_buffer size is,
unless the wl_buffer is NULL. If the wl_buffer is NULL, the surface
has no content and therefore no size. Otherwise, the size is always
at least 1x1 in surface local coordinates.
If the source rectangle is set, it defines what area of the wl_buffer is
taken as the source. If the source rectangle is set and the destination
size is not set, then src_width and src_height must be integers, and the
surface size becomes the source rectangle size. This results in cropping
without scaling. If src_width or src_height are not integers and
destination size is not set, the bad_size protocol error is raised when
the surface state is applied.
The coordinate transformations from buffer pixel coordinates up to
the surface-local coordinates happen in the following order:
1. buffer_transform (wl_surface.set_buffer_transform)
2. buffer_scale (wl_surface.set_buffer_scale)
3. crop and scale (wp_viewport.set*)
This means, that the source rectangle coordinates of crop and scale
are given in the coordinates after the buffer transform and scale,
i.e. in the coordinates that would be the surface-local coordinates
if the crop and scale was not applied.
If src_x or src_y are negative, the bad_value protocol error is raised.
Otherwise, if the source rectangle is partially or completely outside of
the non-NULL wl_buffer, then the out_of_buffer protocol error is raised
when the surface state is applied. A NULL wl_buffer does not raise the
out_of_buffer error.
The x, y arguments of wl_surface.attach are applied as normal to
the surface. They indicate how many pixels to remove from the
surface size from the left and the top. In other words, they are
still in the surface-local coordinate system, just like dst_width
and dst_height are.
If the wl_surface associated with the wp_viewport is destroyed,
all wp_viewport requests except 'destroy' raise the protocol error
no_surface.
If the wp_viewport object is destroyed, the crop and scale
state is removed from the wl_surface. The change will be applied
on the next wl_surface.commit.
</description>
<request name="destroy" type="destructor">
<description summary="remove scaling and cropping from the surface">
The associated wl_surface's crop and scale state is removed.
The change is applied on the next wl_surface.commit.
</description>
</request>
<enum name="error">
<entry name="bad_value" value="0"
summary="negative or zero values in width or height"/>
<entry name="bad_size" value="1"
summary="destination size is not integer"/>
<entry name="out_of_buffer" value="2"
summary="source rectangle extends outside of the content area"/>
<entry name="no_surface" value="3"
summary="the wl_surface was destroyed"/>
</enum>
<request name="set_source">
<description summary="set the source rectangle for cropping">
Set the source rectangle of the associated wl_surface. See
wp_viewport for the description, and relation to the wl_buffer
size.
If all of x, y, width and height are -1.0, the source rectangle is
unset instead. Any other set of values where width or height are zero
or negative, or x or y are negative, raise the bad_value protocol
error.
The crop and scale state is double-buffered state, and will be
applied on the next wl_surface.commit.
</description>
<arg name="x" type="fixed" summary="source rectangle x"/>
<arg name="y" type="fixed" summary="source rectangle y"/>
<arg name="width" type="fixed" summary="source rectangle width"/>
<arg name="height" type="fixed" summary="source rectangle height"/>
</request>
<request name="set_destination">
<description summary="set the surface size for scaling">
Set the destination size of the associated wl_surface. See
wp_viewport for the description, and relation to the wl_buffer
size.
If width is -1 and height is -1, the destination size is unset
instead. Any other pair of values for width and height that
contains zero or negative values raises the bad_value protocol
error.
The crop and scale state is double-buffered state, and will be
applied on the next wl_surface.commit.
</description>
<arg name="width" type="int" summary="surface width"/>
<arg name="height" type="int" summary="surface height"/>
</request>
</interface>
</protocol>