fltk/src/drivers/Wayland/Fl_Wayland_Window_Driver.cxx

//
// Implementation of the Wayland window driver.
//
// Copyright 1998-2022 by Bill Spitzak and others.
//
// This library is free software. Distribution and use rights are outlined in
// the file "COPYING" which should have been included with this file.  If this
// file is missing or damaged, see the license at:
//
//     https://www.fltk.org/COPYING.php
//
// Please see the following page on how to report bugs and issues:
//
//     https://www.fltk.org/bugs.php
//

#include <config.h>
#include <FL/platform.H>
#include "Fl_Wayland_Window_Driver.H"
#include "Fl_Wayland_Screen_Driver.H"
#include "Fl_Wayland_Graphics_Driver.H"
#include "Fl_Wayland_System_Driver.H"
#include <wayland-cursor.h>
#include "../../../libdecor/src/libdecor.h"
#include "xdg-shell-client-protocol.h"
#include <pango/pangocairo.h>
#include <FL/Fl_Overlay_Window.H>
#include <FL/Fl_Menu_Window.H>
#include <FL/Fl_Tooltip.H>
#include <FL/fl_draw.H>
#include <FL/fl_ask.H>
#include <FL/Fl.H>
#include <FL/Fl_Image_Surface.H>
#include <string.h>
#include <sys/mman.h>
#include <math.h> // for ceil()
#include <sys/types.h> // for pid_t
#include <unistd.h> // for getpid()

struct cursor_image { // as in wayland-cursor.c of the Wayland project source code
  struct wl_cursor_image image;
  struct wl_cursor_theme *theme;
  struct wl_buffer *buffer;
  int offset; /* data offset of this image in the shm pool */
};

extern "C" {
# include "../../../libdecor/src/libdecor-plugin.h"
  uchar *fl_libdecor_titlebar_buffer(struct libdecor_frame *frame, int *w, int *h, int *stride);
}

#define fl_max(a,b) ((a) > (b) ? (a) : (b))

Window fl_window;


void Fl_Wayland_Window_Driver::destroy_double_buffer() {
  if (pWindow->as_overlay_window()) fl_delete_offscreen(other_xid);
  other_xid = 0;
}


Fl_Wayland_Window_Driver::Fl_Wayland_Window_Driver(Fl_Window *win) : Fl_Window_Driver(win)
{
  icon_ = new icon_data;
  memset(icon_, 0, sizeof(icon_data));
  cursor_ = NULL;
  in_handle_configure = false;
  screen_num_ = -1;
}

void Fl_Wayland_Window_Driver::delete_cursor_() {
  if (cursor_) {
    struct cursor_image *new_image = (struct cursor_image*)cursor_->images[0];
    struct fl_wld_buffer *offscreen = (struct fl_wld_buffer *)wl_buffer_get_user_data(new_image->buffer);
    struct wld_window fake_xid;
    fake_xid.buffer = offscreen;
    Fl_Wayland_Graphics_Driver::buffer_release(&fake_xid);
    free(new_image);
    free(cursor_->images);
    free(cursor_->name);
    free(cursor_);
    Fl_Wayland_Screen_Driver *scr_driver = (Fl_Wayland_Screen_Driver*)Fl::screen_driver();
    if (scr_driver->default_cursor() == cursor_) scr_driver->default_cursor(scr_driver->xc_arrow);
    cursor_ = NULL;
  }
}


Fl_Wayland_Window_Driver::~Fl_Wayland_Window_Driver()
{
  if (shape_data_) {
    cairo_surface_t *surface;
    cairo_pattern_get_surface(shape_data_->mask_pattern_, &surface);
    cairo_pattern_destroy(shape_data_->mask_pattern_);
    uchar *data = cairo_image_surface_get_data(surface);
    cairo_surface_destroy(surface);
    delete[] data;
    delete shape_data_;
  }
  delete icon_;
  delete_cursor_();
}


// --- private

void Fl_Wayland_Window_Driver::decorated_win_size(int &w, int &h)
{
  Fl_Window *win = pWindow;
  w = win->w();
  h = win->h();
  if (!win->shown() || win->parent() || !win->border() || !win->visible()) return;
  int X, titlebar_height;
  libdecor_frame_translate_coordinate(fl_xid(win)->frame, 0, 0, &X, &titlebar_height);
//printf("titlebar_height=%d\n",titlebar_height);
  h = win->h() + ceil(titlebar_height / Fl::screen_scale(win->screen_num()));
}


// --- window data

int Fl_Wayland_Window_Driver::decorated_h()
{
  int w, h;
  decorated_win_size(w, h);
  return h;
}

int Fl_Wayland_Window_Driver::decorated_w()
{
  int w, h;
  decorated_win_size(w, h);
  return w;
}

struct xdg_toplevel *Fl_Wayland_Window_Driver::xdg_toplevel() {
  Window w = fl_xid(pWindow);
  struct xdg_toplevel *top = NULL;
  if (w->kind == DECORATED) top = libdecor_frame_get_xdg_toplevel(w->frame);
  else if (w->kind == UNFRAMED) top = w->xdg_toplevel;
  return top;
}

void Fl_Wayland_Window_Driver::take_focus()
{
  Window w = fl_xid(pWindow);
  if (w) {
    Fl_Window *old_first = Fl::first_window();
    Window first_xid = (old_first ? fl_xid(old_first->top_window()) : NULL);
    if (first_xid && first_xid != w && xdg_toplevel()) {
      // this will move the target window to the front
      Fl_Wayland_Window_Driver *top_dr = Fl_Wayland_Window_Driver::driver(old_first->top_window());
      xdg_toplevel_set_parent(xdg_toplevel(), top_dr->xdg_toplevel());
      // this will remove the parent-child relationship
      old_first->wait_for_expose();
      xdg_toplevel_set_parent(xdg_toplevel(), NULL);
    }
    // this sets the first window
    fl_find(w);
  }
}


void Fl_Wayland_Window_Driver::flush_overlay()
{
  if (!shown()) return;
  Fl_Overlay_Window *oWindow = pWindow->as_overlay_window();
  int erase_overlay = (pWindow->damage()&FL_DAMAGE_OVERLAY) | (overlay() == oWindow);
  pWindow->clear_damage((uchar)(pWindow->damage()&~FL_DAMAGE_OVERLAY));
  pWindow->make_current();
  if (!other_xid) {
    other_xid = fl_create_offscreen(oWindow->w(), oWindow->h());
    oWindow->clear_damage(FL_DAMAGE_ALL);
  }
  if (oWindow->damage() & ~FL_DAMAGE_EXPOSE) {
    Fl_X *myi = Fl_X::i(pWindow);
    fl_clip_region(myi->region); myi->region = 0;
    fl_begin_offscreen(other_xid);
    draw();
    fl_end_offscreen();
  }
  if (erase_overlay) fl_clip_region(0);
  if (other_xid) {
    fl_copy_offscreen(0, 0, oWindow->w(), oWindow->h(), other_xid, 0, 0);
  }
  if (overlay() == oWindow) oWindow->draw_overlay();
  Window xid = fl_xid(pWindow);
  wl_surface_damage_buffer(xid->wl_surface, 0, 0, pWindow->w() * xid->scale, pWindow->h() * xid->scale);
}


const Fl_Image* Fl_Wayland_Window_Driver::shape() {
  return shape_data_ ? shape_data_->shape_ : NULL;
}

void Fl_Wayland_Window_Driver::shape_bitmap_(Fl_Image* b) { // needs testing
  // complement the bits of the Fl_Bitmap and control its stride too
  int i, j, w = b->w(), h = b->h();
  int bytesperrow = cairo_format_stride_for_width(CAIRO_FORMAT_A1, w);
  uchar* bits = new uchar[h * bytesperrow];
  const uchar *q = ((Fl_Bitmap*)b)->array;
  for (i = 0; i < h; i++) {
    uchar *p = bits + i * bytesperrow;
    for (j = 0; j < w; j++) {
      *p++ = ~*q++;
    }
  }
  cairo_surface_t *mask_surf = cairo_image_surface_create_for_data(bits, CAIRO_FORMAT_A1, w, h, bytesperrow);
  shape_data_->mask_pattern_ = cairo_pattern_create_for_surface(mask_surf);
  shape_data_->shape_ = b;
  shape_data_->lw_ = w;
  shape_data_->lh_ = h;
}

void Fl_Wayland_Window_Driver::shape_alpha_(Fl_Image* img, int offset) {
  int i, j, d = img->d(), w = img->w(), h = img->h();
  int bytesperrow = cairo_format_stride_for_width(CAIRO_FORMAT_A1, w);
  unsigned u;
  uchar byte, onebit;
  // build a CAIRO_FORMAT_A1 surface covering the non-fully transparent/black part of the image
  uchar* bits = new uchar[h*bytesperrow]; // to store the surface data
  const uchar* alpha = (const uchar*)*img->data() + offset; // points to alpha value of rgba pixels
  for (i = 0; i < h; i++) {
    uchar *p = (uchar*)bits + i * bytesperrow;
    byte = 0;
    onebit = 1;
    for (j = 0; j < w; j++) {
      if (d == 3) {
        u = *alpha;
        u += *(alpha+1);
        u += *(alpha+2);
      }
      else u = *alpha;
      if (u > 0) { // if the pixel is not fully transparent/black
        byte |= onebit; // turn on the corresponding bit of the bitmap
      }
      onebit = onebit << 1; // move the single set bit one position to the left
      if (onebit == 0 || j == w-1) {
        onebit = 1;
        *p++ = ~byte; // store in bitmap one pack of bits, complemented
        byte = 0;
      }
      alpha += d; // point to alpha value of next img pixel
    }
  }
  cairo_surface_t *mask_surf = cairo_image_surface_create_for_data(bits, CAIRO_FORMAT_A1, w, h, bytesperrow);
  shape_data_->mask_pattern_ = cairo_pattern_create_for_surface(mask_surf);
  shape_data_->shape_ = img;
  shape_data_->lw_ = w;
  shape_data_->lh_ = h;
}

void Fl_Wayland_Window_Driver::shape(const Fl_Image* img) {
  if (shape_data_) {
    if (shape_data_->mask_pattern_) {
      cairo_surface_t *surface;
      cairo_pattern_get_surface(shape_data_->mask_pattern_, &surface);
      cairo_pattern_destroy(shape_data_->mask_pattern_);
      uchar *data = cairo_image_surface_get_data(surface);
      cairo_surface_destroy(surface);
      delete[] data;
    }
  }
  else {
    shape_data_ = new shape_data_type;
  }
  memset(shape_data_, 0, sizeof(shape_data_type));
  pWindow->border(false);
  int d = img->d();
  if (d && img->count() >= 2) {
    shape_pixmap_((Fl_Image*)img);
    shape_data_->shape_ = (Fl_Image*)img;
  }
  else if (d == 0) shape_bitmap_((Fl_Image*)img);
  else if (d == 2 || d == 4) shape_alpha_((Fl_Image*)img, d - 1);
  else if ((d == 1 || d == 3) && img->count() == 1) shape_alpha_((Fl_Image*)img, 0);
}

void Fl_Wayland_Window_Driver::draw_end()
{
  if (shape_data_ && shape_data_->mask_pattern_) {
    Fl_Wayland_Graphics_Driver *gr_dr = (Fl_Wayland_Graphics_Driver*)fl_graphics_driver;
    cairo_t *cr = gr_dr->cr();
    cairo_matrix_t matrix;
    cairo_matrix_init_scale(&matrix, double(shape_data_->lw_)/pWindow->w() , double(shape_data_->lh_)/pWindow->h());
    cairo_pattern_set_matrix(shape_data_->mask_pattern_, &matrix);
    cairo_set_operator(cr, CAIRO_OPERATOR_CLEAR);
    cairo_mask(cr, shape_data_->mask_pattern_);
    cairo_set_operator(cr, CAIRO_OPERATOR_OVER);
  }
}


void Fl_Wayland_Window_Driver::icons(const Fl_RGB_Image *icons[], int count) {
  free_icons();

  if (count > 0) {
    icon_->icons = new Fl_RGB_Image*[count];
    icon_->count = count;
    // FIXME: Fl_RGB_Image lacks const modifiers on methods
    for (int i = 0;i < count;i++) {
      icon_->icons[i] = (Fl_RGB_Image*)((Fl_RGB_Image*)icons[i])->copy();
      icon_->icons[i]->normalize();
    }
  }
}

const void *Fl_Wayland_Window_Driver::icon() const {
  return icon_->legacy_icon;
}

void Fl_Wayland_Window_Driver::icon(const void * ic) {
  free_icons();
  icon_->legacy_icon = ic;
}

void Fl_Wayland_Window_Driver::free_icons() {
  int i;
  icon_->legacy_icon = 0L;
  if (icon_->icons) {
    for (i = 0;i < icon_->count;i++)
      delete icon_->icons[i];
    delete [] icon_->icons;
    icon_->icons = 0L;
  }
  icon_->count = 0;
}


/* Returns images of the captures of the window title-bar, and the left, bottom and right window borders
 (or NULL if a particular border is absent).
 Returned images can be deleted after use. Their depth and size may be platform-dependent.
 The top and bottom images extend from left of the left border to right of the right border.
 */
void Fl_Wayland_Window_Driver::capture_titlebar_and_borders(Fl_RGB_Image*& top, Fl_RGB_Image*& left, Fl_RGB_Image*& bottom, Fl_RGB_Image*& right)
{
  top = left = bottom = right = NULL;
  if (pWindow->decorated_h() == h()) return;
  int htop = pWindow->decorated_h() - pWindow->h();
  struct wld_window *wwin = fl_xid(pWindow);
  int width, height, stride;
  uchar *cairo_data = fl_libdecor_titlebar_buffer(wwin->frame, &width, &height, &stride);
  if (!cairo_data) return;
  uchar *data = new uchar[width * height * 3];
  uchar *p = data;
  for (int j = 0; j < height; j++) {
    uchar *q = cairo_data + j * stride;
    for (int i = 0; i < width; i++) {
      *p++ = *(q+2); // R
      *p++ = *(q+1); // G
      *p++ = *q;     // B
      q += 4;
    }
  }
  top = new Fl_RGB_Image(data, width, height, 3);
  top->alloc_array = 1;
  top->scale(pWindow->w(), htop);
}

// used only to support progressive drawing
static void surface_frame_done(void *data, struct wl_callback *cb, uint32_t time);

static const struct wl_callback_listener surface_frame_listener = {
  .done = surface_frame_done,
};

static void surface_frame_done(void *data, struct wl_callback *cb, uint32_t time) {
  Window window = (Window)data;
//fprintf(stderr,"surface_frame_done:  destroy cb=%p draw_buffer_needs_commit=%d\n", cb, window->buffer->draw_buffer_needs_commit);
  wl_callback_destroy(cb);
  window->buffer->cb = NULL;
  if (window->buffer->draw_buffer_needs_commit) {
    wl_surface_damage_buffer(window->wl_surface, 0, 0, 1000000, 1000000);
    window->buffer->cb = wl_surface_frame(window->wl_surface);
//fprintf(stderr,"surface_frame_done: new cb=%p \n", window->buffer->cb);
    wl_callback_add_listener(window->buffer->cb, &surface_frame_listener, window);
    Fl_Wayland_Graphics_Driver::buffer_commit(window);
  }
}


// make drawing go into this window (called by subclass flush() impl.)
void Fl_Wayland_Window_Driver::make_current() {
  if (!shown()) {
    static const char err_message[] = "Fl_Window::make_current(), but window is not shown().";
    fl_alert(err_message);
    Fl::fatal(err_message);
  }
  
  struct wld_window *window = fl_xid(pWindow);
  float scale = Fl::screen_scale(pWindow->screen_num()) * window->scale;
  if (window && window->buffer) {
    ((Fl_Cairo_Graphics_Driver*)fl_graphics_driver)->needs_commit_tag(
                                            &window->buffer->draw_buffer_needs_commit);
  }

  // to support progressive drawing
  if ( (!Fl_Wayland_Window_Driver::in_flush) && window && window->buffer && (!window->buffer->cb)) {
    wl_surface_damage_buffer(window->wl_surface, 0, 0, pWindow->w() * scale, pWindow->h() * scale);
    window->buffer->cb = wl_surface_frame(window->wl_surface);
    //fprintf(stderr, "direct make_current: new cb=%p\n", window->buffer->cb);
    wl_callback_add_listener(window->buffer->cb, &surface_frame_listener, window);
    Fl_Wayland_Graphics_Driver::buffer_commit(window);
  }

  fl_graphics_driver->clip_region(0);
  fl_window = window;
  if (!window->buffer) {
    window->buffer = Fl_Wayland_Graphics_Driver::create_shm_buffer(
           pWindow->w() * scale, pWindow->h() * scale);
    ((Fl_Cairo_Graphics_Driver*)fl_graphics_driver)->needs_commit_tag(
                                            &window->buffer->draw_buffer_needs_commit);
  }
  ((Fl_Wayland_Graphics_Driver*)fl_graphics_driver)->activate(window->buffer, scale);

#ifdef FLTK_USE_CAIRO
  // update the cairo_t context
  if (Fl::cairo_autolink_context()) Fl::cairo_make_current(pWindow);
#endif
}


void Fl_Wayland_Window_Driver::flush() {
  if (!pWindow->damage()) return;
  if (pWindow->as_gl_window()) {
    int W = pWindow->w();
    int H = pWindow->h();
    float scale = fl_graphics_driver->scale();
    Fl_Wayland_Window_Driver::in_flush = true;
    Fl_Window_Driver::flush();
    Fl_Wayland_Window_Driver::in_flush = false;
    static Fl_Wayland_Plugin *plugin = NULL;
    if (!plugin) {
      Fl_Plugin_Manager pm("wayland.fltk.org");
      plugin = (Fl_Wayland_Plugin*)pm.plugin("gl.wayland.fltk.org");
    }
    if (plugin) {
      plugin->do_swap(pWindow); // useful only for GL win with overlay
      if (scale != fl_graphics_driver->scale() || W != pWindow->w() || H != pWindow->h()) plugin->invalidate(pWindow);
    }
    return;
  }
  struct wld_window *window = fl_xid(pWindow);
  if (!window || !window->configured_width) return;
  
  Fl_X *i = Fl_X::i(pWindow);
  Fl_Region r = i->region;
  float f = Fl::screen_scale(pWindow->screen_num());
  if (r && window->buffer) {
    for (int i = 0; i < r->count; i++) {
      int left = r->rects[i].x * window->scale * f;
      int top = r->rects[i].y * window->scale * f;
      int width = r->rects[i].width * window->scale * f;
      int height = r->rects[i].height * window->scale * f;
      wl_surface_damage_buffer(window->wl_surface, left, top, width, height);
//fprintf(stderr, "damage %dx%d %dx%d\n", left, top, width, height);
    }
  } else {
    wl_surface_damage_buffer(window->wl_surface, 0, 0,
    pWindow->w() * window->scale * f, pWindow->h() * window->scale * f);
//fprintf(stderr, "damage 0x0 %dx%d\n", pWindow->w() * window->scale, pWindow->h() * window->scale);
  }

  Fl_Wayland_Window_Driver::in_flush = true;
  Fl_Window_Driver::flush();
  Fl_Wayland_Window_Driver::in_flush = false;
  
  wl_surface_frame(window->wl_surface);
  Fl_Wayland_Graphics_Driver::buffer_commit(window);
}


void Fl_Wayland_Window_Driver::show() {
  if (!shown()) {
    fl_open_display();
    makeWindow();
  } else {
    // Wayland itself gives no way to programmatically unminimize a minimized window
    Fl::handle(FL_SHOW, pWindow);
  }
}


static void popup_done(void *data, struct xdg_popup *xdg_popup);

static void delayed_delete_Fl_X(Fl_X *i) {
  delete i;
}


void Fl_Wayland_Window_Driver::hide() {
  Fl_X* ip = Fl_X::i(pWindow);
  if (hide_common()) return;
  if (ip->region) {
    Fl_Graphics_Driver::default_driver().XDestroyRegion(ip->region);
    ip->region = 0;
  }
  screen_num_ = -1;
  struct wld_window *wld_win = ip->xid;
  if (wld_win) { // this test makes sure ip->xid has not been destroyed already
    Fl_Wayland_Graphics_Driver::buffer_release(wld_win);
//fprintf(stderr, "Before hide: sub=%p frame=%p xdg=%p top=%p pop=%p surf=%p\n", wld_win->subsurface,  wld_win->frame, wld_win->xdg_surface, wld_win->xdg_toplevel, wld_win->xdg_popup, wld_win->wl_surface);
    if (wld_win->kind == SUBWINDOW && wld_win->subsurface) {
      wl_subsurface_destroy(wld_win->subsurface);
      wld_win->subsurface = NULL;
    }
    if (wld_win->kind == DECORATED) {
      libdecor_frame_unref(wld_win->frame);
      wld_win->frame = NULL;
      wld_win->xdg_surface = NULL;
    } else {
      if (wld_win->kind == POPUP) {
        popup_done(wld_win, wld_win->xdg_popup);
        wld_win->xdg_popup = NULL;
      }
      if (wld_win->kind == UNFRAMED && wld_win->xdg_toplevel) {
        xdg_toplevel_destroy(wld_win->xdg_toplevel);
        wld_win->xdg_toplevel = NULL;
      }
      if (wld_win->xdg_surface) {
        xdg_surface_destroy(wld_win->xdg_surface);
        wld_win->xdg_surface = NULL;
      }
    }
    if (wld_win->wl_surface) {
      wl_surface_destroy(wld_win->wl_surface);
      wld_win->wl_surface = NULL;
    }
    Fl_Wayland_Window_Driver::window_output *window_output, *tmp;
    wl_list_for_each_safe(window_output, tmp, &wld_win->outputs, link) {
        wl_list_remove(&window_output->link);
        free(window_output);
    }
//fprintf(stderr, "After hide: sub=%p frame=%p xdg=%p top=%p pop=%p surf=%p\n", wld_win->subsurface,  wld_win->frame, wld_win->xdg_surface, wld_win->xdg_toplevel, wld_win->xdg_popup, wld_win->wl_surface);
  }
  free(wld_win);
  if (pWindow->as_gl_window() && in_flush) {
    ip->xid = NULL;
    ip->next = NULL; // to end the loop in calling Fl::flush()
    Fl::add_timeout(.01, (Fl_Timeout_Handler)delayed_delete_Fl_X, ip);
  } else {
    delete ip;
  }
}


void Fl_Wayland_Window_Driver::map() {
  Fl_X* ip = Fl_X::i(pWindow);
  struct wld_window *wl_win = ip->xid;
  if (wl_win->kind == DECORATED) libdecor_frame_map(wl_win->frame);//needs checking
  else if (pWindow->parent() && !wl_win->subsurface) {
    struct wld_window *parent = fl_xid(pWindow->window());
    if (parent) {
      Fl_Wayland_Screen_Driver *scr_driver = (Fl_Wayland_Screen_Driver*)Fl::screen_driver();
      wl_win->subsurface = wl_subcompositor_get_subsurface(scr_driver->wl_subcompositor, wl_win->wl_surface, parent->wl_surface);
      float f = Fl::screen_scale(pWindow->top_window()->screen_num());
      wl_subsurface_set_position(wl_win->subsurface, pWindow->x() * f, pWindow->y() * f);
      wl_subsurface_set_desync(wl_win->subsurface); // important
      wl_subsurface_place_above(wl_win->subsurface, parent->wl_surface);
      wl_win->configured_width = pWindow->w();
      wl_win->configured_height = pWindow->h();
      wl_win->scale = parent->scale;
      wait_for_expose_value = 0;
      pWindow->redraw();
    }
  }
}


void Fl_Wayland_Window_Driver::unmap() {
  Fl_X* ip = Fl_X::i(pWindow);
  struct wld_window *wl_win = ip->xid;
  if (wl_win->kind == DECORATED && wl_win->frame) { libdecor_frame_close(wl_win->frame);//needs checking
  } else if (wl_win->kind == SUBWINDOW && wl_win->wl_surface) {
    wl_surface_attach(wl_win->wl_surface, NULL, 0, 0);
    Fl_Wayland_Graphics_Driver::buffer_release(wl_win);
    wl_subsurface_destroy(wl_win->subsurface);
    wl_win->subsurface = NULL;
  }
}


void Fl_Wayland_Window_Driver::size_range() {
  if (shown()) {
    Fl_X* ip = Fl_X::i(pWindow);
    struct wld_window *wl_win = ip->xid;
    float f = Fl::screen_scale(pWindow->screen_num());
    if (wl_win->kind == DECORATED && wl_win->frame) {
      libdecor_frame_set_min_content_size(wl_win->frame, minw()*f, minh()*f);
      libdecor_frame_set_max_content_size(wl_win->frame, maxw()*f, maxh()*f);
      int X,Y,W,H;
      Fl::screen_work_area(X,Y,W,H, Fl::screen_num(x(),y(),w(),h()));
      if (maxw() && maxw() < W && maxh() && maxh() < H) {
        libdecor_frame_unset_capabilities(wl_win->frame, LIBDECOR_ACTION_FULLSCREEN);
      } else {
        libdecor_frame_set_capabilities(wl_win->frame, LIBDECOR_ACTION_FULLSCREEN);
      }
      if (maxw() && maxh() && (minw() >= maxw() || minh() >= maxh())) {
        libdecor_frame_unset_capabilities(wl_win->frame, LIBDECOR_ACTION_RESIZE);
      } else {
        libdecor_frame_set_capabilities(wl_win->frame, LIBDECOR_ACTION_RESIZE);
      }
    } else if (wl_win->kind == UNFRAMED && wl_win->xdg_toplevel) {
      xdg_toplevel_set_min_size(wl_win->xdg_toplevel, minw()*f, minh()*f);
      if (maxw() && maxh())
          xdg_toplevel_set_max_size(wl_win->xdg_toplevel, maxw()*f, maxh()*f);
    }
  }
}


void Fl_Wayland_Window_Driver::iconize() {
  Fl_X* ip = Fl_X::i(pWindow);
  struct wld_window *wl_win = ip->xid;
  if (wl_win->kind == DECORATED) {
    libdecor_frame_set_minimized(wl_win->frame);
    Fl::handle(FL_HIDE, pWindow);
  }
  else if (wl_win->kind == UNFRAMED && wl_win->xdg_toplevel) xdg_toplevel_set_minimized(wl_win->xdg_toplevel);
}


void Fl_Wayland_Window_Driver::decoration_sizes(int *top, int *left,  int *right, int *bottom) {
  // Ensure border is on screen; these values are generic enough
  // to work with many window managers, and are based on KDE defaults.
  *top = 20;
  *left = 4;
  *right = 4;
  *bottom = 8;
}

void Fl_Wayland_Window_Driver::show_with_args_begin() {
  // Get defaults for drag-n-drop and focus...
  const char *key = 0;

  if (Fl::first_window()) key = Fl::first_window()->xclass();
  if (!key) key = "fltk";
}


void Fl_Wayland_Window_Driver::show_with_args_end(int argc, char **argv) {
  if (argc) {
    // set the command string, used by state-saving window managers:
    int j;
    int n=0; for (j=0; j<argc; j++) n += strlen(argv[j])+1;
    char *buffer = new char[n];
    char *p = buffer;
    for (j=0; j<argc; j++) for (const char *q = argv[j]; (*p++ = *q++););
    delete[] buffer;
  }
}


int Fl_Wayland_Window_Driver::scroll(int src_x, int src_y, int src_w, int src_h, int dest_x, int dest_y,
                                 void (*draw_area)(void*, int,int,int,int), void* data)
{
  Window xid = fl_xid(pWindow);
  struct fl_wld_buffer *buffer = xid->buffer;
  int s = xid->scale;
  if (s != 1) {
    src_x *= s; src_y *= s; src_w *= s; src_h *= s; dest_x *= s; dest_y *= s;
  }
  if (src_x == dest_x) { // vertical scroll
    int i, to, step;
    if (src_y > dest_y) {
      i = 0; to = src_h; step = 1;
    } else {
      i = src_h - 1; to = -1; step = -1;
    }
    while (i != to) {
      memcpy(buffer->draw_buffer + (dest_y + i) * buffer->stride + 4 * dest_x,
             buffer->draw_buffer + (src_y + i) * buffer->stride + 4 * src_x, 4 * src_w);
      i += step;
    }
  } else { // horizontal scroll
    int i, to, step;
    if (src_x > dest_x) {
      i = 0; to = src_h; step = 1;
    } else {
      i = src_h - 1; to = -1; step = -1;
    }
    while (i != to) {
      memmove(buffer->draw_buffer + (src_y + i) * buffer->stride + 4 * dest_x,
             buffer->draw_buffer + (src_y + i) * buffer->stride + 4 * src_x, 4 * src_w);
      i += step;
    }
  }
  return 0;
}


static void handle_error(struct libdecor *libdecor_context, enum libdecor_error error, const char *message)
{
  Fl::fatal("Caught error (%d): %s\n", error, message);
}

static struct libdecor_interface libdecor_iface = {
  .error = handle_error,
};

static void surface_enter(void *data, struct wl_surface *wl_surface, struct wl_output *wl_output)
{
  struct wld_window *window = (struct wld_window*)data;
  Fl_Wayland_Window_Driver::window_output *window_output;

  if (!Fl_Wayland_Screen_Driver::own_output(wl_output))
    return;

  Fl_Wayland_Screen_Driver::output *output = (Fl_Wayland_Screen_Driver::output*)wl_output_get_user_data(wl_output);
  if (output == NULL)
    return;

  window_output = (Fl_Wayland_Window_Driver::window_output*)calloc(1, sizeof *window_output);
  window_output->output = output;
  wl_list_insert(&window->outputs, &window_output->link);
  Fl_Wayland_Window_Driver *win_driver = Fl_Wayland_Window_Driver::driver(window->fl_win);
  win_driver->update_scale();
  if (!window->fl_win->parent()) { // for top-level, set its screen number
    Fl_Wayland_Screen_Driver::output *running_output;
    Fl_Wayland_Screen_Driver *scr_dr = (Fl_Wayland_Screen_Driver*)Fl::screen_driver();
    int i = 0;
    wl_list_for_each(running_output, &scr_dr->outputs, link) { // each screen of the system
      if (running_output == output) { // we've found our screen of the system
        win_driver->screen_num(i);
//fprintf(stderr,"window %p is on screen #%d\n", window->fl_win, i);
        break;
      }
      i++;
    }
  }
}

static void surface_leave(void *data, struct wl_surface *wl_surface, struct wl_output *wl_output)
{
  struct wld_window *window = (struct wld_window*)data;
  if (! window->wl_surface) return;
  Fl_Wayland_Window_Driver::window_output *window_output;

  wl_list_for_each(window_output, &window->outputs, link) {
    if (window_output->output->wl_output == wl_output) {
      wl_list_remove(&window_output->link);
      free(window_output);
      Fl_Wayland_Window_Driver *win_driver = Fl_Wayland_Window_Driver::driver(window->fl_win);
      win_driver->update_scale();
      break;
    }
  }
}

static struct wl_surface_listener surface_listener = {
  surface_enter,
  surface_leave,
};


static void handle_configure(struct libdecor_frame *frame,
     struct libdecor_configuration *configuration, void *user_data)
{
  struct wld_window *window = (struct wld_window*)user_data;
  if (!window->wl_surface) return;
  int width, height;
  enum libdecor_window_state window_state;
  struct libdecor_state *state;
  Fl_Wayland_Window_Driver *driver = Fl_Wayland_Window_Driver::driver(window->fl_win);
  // true exactly for the 2nd run of handle_configure() for this window
  bool is_2nd_run = (window->xdg_surface != 0 && driver->wait_for_expose_value);
  float f = Fl::screen_scale(window->fl_win->screen_num());

  if (!window->xdg_surface) window->xdg_surface = libdecor_frame_get_xdg_surface(frame);
    
  if (window->fl_win->fullscreen_active()) {
    libdecor_frame_set_fullscreen(window->frame, NULL);
  } else if (driver->show_iconic()) {
    libdecor_frame_set_minimized(window->frame);
    driver->show_iconic(0);
  }
  if (!libdecor_configuration_get_window_state(configuration, &window_state))
    window_state = LIBDECOR_WINDOW_STATE_NONE;
  window->state = window_state;

  // Weston, KDE and recent versions of Mutter, on purpose, don't set the
  // window width x height when xdg_toplevel_configure runs twice
  // during resizable window creation (see https://gitlab.freedesktop.org/wayland/wayland-protocols/-/issues/6).
  // Consequently, libdecor_configuration_get_content_size() may return false twice.
  // In that case libdecor_frame_get_content_{width,height}() give the desired window size
  if (!libdecor_configuration_get_content_size(configuration, frame, &width, &height)) {
    if (is_2nd_run) {
      width = libdecor_frame_get_content_width(frame);
      height = libdecor_frame_get_content_height(frame);
      if (!window->fl_win->resizable()) {
        libdecor_frame_set_min_content_size(frame, width, height);
        libdecor_frame_set_max_content_size(frame, width, height);
      }
    } else { width = height = 0; }
  }
    
  if (width == 0) {
    width = window->floating_width;
    height = window->floating_height;
    //fprintf(stderr,"handle_configure: using floating %dx%d\n",width,height);
  }
  
  driver->in_handle_configure = true;
  window->fl_win->resize(0, 0, ceil(width / f), ceil(height / f));
  driver->in_handle_configure = false;
  
  if (ceil(width / f) != window->configured_width || ceil(height / f) != window->configured_height) {
    if (window->buffer) {
      Fl_Wayland_Graphics_Driver::buffer_release(window);
    }
  }
  window->configured_width = ceil(width / f);
  window->configured_height = ceil(height / f);
  if (is_2nd_run) driver->wait_for_expose_value = 0;
//fprintf(stderr, "handle_configure fl_win=%p size:%dx%d state=%x wait_for_expose_value=%d is_2nd_run=%d\n", window->fl_win, width,height,window_state,driver->wait_for_expose_value, is_2nd_run);

/* We would like to do FL_HIDE when window is minimized but :
 "There is no way to know if the surface is currently minimized, nor is there any way to
 unset minimization on this surface. If you are looking to throttle redrawing when minimized,
 please instead use the wl_surface.frame event" */
  if (window_state == LIBDECOR_WINDOW_STATE_NONE) {
    Fl::handle(FL_UNFOCUS, window->fl_win);
  }
  else if (window_state & LIBDECOR_WINDOW_STATE_ACTIVE) {
    if (!window->fl_win->border()) libdecor_frame_set_visibility(window->frame, false);
    else if (!libdecor_frame_is_visible(window->frame)) libdecor_frame_set_visibility(window->frame, true);
    Fl::handle(FL_FOCUS, window->fl_win);
    fl_find(window);
  }

  if (window_state & LIBDECOR_WINDOW_STATE_MAXIMIZED) state = libdecor_state_new(width, height);
  else state = libdecor_state_new(int(ceil(width/f)*f), int(ceil(height/f)*f));
  libdecor_frame_commit(frame, state, configuration);
  if (libdecor_frame_is_floating(frame)) { // store floating dimensions
     window->floating_width = int(ceil(width/f)*f);
     window->floating_height = int(ceil(height/f)*f);
     //fprintf(stderr,"set floating_width+height %dx%d\n",width,height);
   }
  libdecor_state_free(state);

  window->fl_win->redraw();
  // necessary with SSD
  driver->in_handle_configure = true;
  if (!window->fl_win->as_gl_window()) {
    driver->flush();
  } else {
    driver->Fl_Window_Driver::flush(); // GL window
  }
  driver->in_handle_configure = false;
}


void Fl_Wayland_Window_Driver::wait_for_expose()
{
  Fl_Window_Driver::wait_for_expose();
  if (pWindow->fullscreen_active()) {
    Window xid = fl_xid(pWindow);
    if (xid->kind == DECORATED) {
      while (!(xid->state & LIBDECOR_WINDOW_STATE_FULLSCREEN) || !(xid->state & LIBDECOR_WINDOW_STATE_ACTIVE)) {
        wl_display_dispatch(Fl_Wayland_Screen_Driver::wl_display);
      }
    } else if (xid->kind == UNFRAMED) {
      wl_display_roundtrip(Fl_Wayland_Screen_Driver::wl_display);
    }
  }
}


static void handle_close(struct libdecor_frame *frame, void *user_data)
{
  struct wld_window* wl_win = (struct wld_window*)user_data;
  Fl::handle(FL_CLOSE, wl_win->fl_win);
}


static void handle_commit(struct libdecor_frame *frame, void *user_data)
{
  struct wld_window* wl_win = (struct wld_window*)user_data;
  if (wl_win->wl_surface) wl_surface_commit(wl_win->wl_surface);
}

static void handle_dismiss_popup(struct libdecor_frame *frame, const char *seat_name, void *user_data)
{
}

static struct libdecor_frame_interface libdecor_frame_iface = {
  handle_configure,
  handle_close,
  handle_commit,
  handle_dismiss_popup,
};


static void xdg_surface_configure(void *data, struct xdg_surface *xdg_surface, uint32_t serial)
{
  // runs for borderless windows and popup (menu,tooltip) windows
  struct wld_window *window = (struct wld_window*)data;
  xdg_surface_ack_configure(xdg_surface, serial);
//fprintf(stderr, "xdg_surface_configure: surface=%p\n", window->wl_surface);
  
  if (window->fl_win->w() != window->configured_width || window->fl_win->h() != window->configured_height) {
    if (window->buffer) {
      Fl_Wayland_Graphics_Driver::buffer_release(window);
    }
  }
  window->configured_width = window->fl_win->w();
  window->configured_height = window->fl_win->h();
  window->fl_win->redraw();
  Fl_Window_Driver::driver(window->fl_win)->flush();
}

static const struct xdg_surface_listener xdg_surface_listener = {
    .configure = xdg_surface_configure,
};


static void xdg_toplevel_configure(void *data, struct xdg_toplevel *xdg_toplevel,
                                   int32_t width, int32_t height, struct wl_array *states)
{
  // runs for borderless top-level windows
  struct wld_window *window = (struct wld_window*)data;
//fprintf(stderr, "xdg_toplevel_configure: surface=%p size: %dx%d\n", window->wl_surface, width, height);
  if (window->fl_win->fullscreen_active()) xdg_toplevel_set_fullscreen(xdg_toplevel, NULL);
  if (window->configured_width) Fl_Window_Driver::driver(window->fl_win)->wait_for_expose_value = 0;
  float f = Fl::screen_scale(window->fl_win->screen_num());
  if (width == 0 || height == 0) {
    width = window->fl_win->w() * f;
    height = window->fl_win->h() * f;
  }
  window->fl_win->size(ceil(width / f), ceil(height / f));
  if (window->buffer && (ceil(width / f) != window->configured_width || ceil(height / f) != window->configured_height)) {
    Fl_Wayland_Graphics_Driver::buffer_release(window);
  }
  window->configured_width = ceil(width / f);
  window->configured_height = ceil(height / f);
}


static void xdg_toplevel_close(void *data, struct xdg_toplevel *toplevel)
{
}

static const struct xdg_toplevel_listener xdg_toplevel_listener = {
  .configure = xdg_toplevel_configure,
  .close = xdg_toplevel_close,
};


static void popup_configure(void *data, struct xdg_popup *xdg_popup, int32_t x, int32_t y, int32_t width, int32_t height) {
  struct wld_window *window = (struct wld_window*)data;
  Fl_Window_Driver::driver(window->fl_win)->wait_for_expose_value = 0;
}

#define USE_GRAB_POPUP 0
#if USE_GRAB_POPUP // nearly OK except that menutitle window does not always show
static Fl_Window *mem_parent = NULL;
static struct xdg_popup *mem_grabbing_popup = NULL;

static void nothing_popup(void *, struct xdg_popup *) {}
#endif

static void popup_done(void *data, struct xdg_popup *xdg_popup) {
//fprintf(stderr, "popup_done: popup=%p \n", xdg_popup);
#if USE_GRAB_POPUP
  if (mem_grabbing_popup == xdg_popup) {
    Fl_Wayland_Screen_Driver *scr_driver = (Fl_Wayland_Screen_Driver*)Fl::screen_driver();
    libdecor_frame_popup_ungrab(fl_xid(mem_parent)->frame, scr_driver->get_seat_name());
    mem_grabbing_popup = NULL;
    mem_parent = NULL;
  }
#endif
  xdg_popup_destroy(xdg_popup);
}

static const struct xdg_popup_listener popup_listener = {
  .configure = popup_configure,
#if USE_GRAB_POPUP
  .popup_done = nothing_popup,
#else
  .popup_done = popup_done,
#endif
};

bool Fl_Wayland_Window_Driver::in_flush = false;

// Compute the parent window of the transient scale window
static Fl_Window *calc_transient_parent(int &center_x, int &center_y) {
  // Find top, the topmost window, but not a transient window itself
  Fl_Window *top = Fl::first_window()->top_window();
  while (top && top->user_data() == &Fl_Screen_Driver::transient_scale_display)
   top = Fl::next_window(top);
  Fl_Window *target = top;
  // search if top's center belongs to one of its subwindows
  center_x = top->w()/2; center_y = top->h()/2;
  while (target) {
    Fl_Window *child = Fl::first_window();
    while (child) {
      if (child->window() == target && child->user_data() != &Fl_Screen_Driver::transient_scale_display &&
            child->x() <= center_x && child->x()+child->w() > center_x &&
            child->y() <= center_y && child->y()+child->h() > center_y) {
          break; // child contains the center of top
      }
      child = Fl::next_window(child);
    }
    if (!child) break; // no more subwindow contains the center of top
    target = child;
    center_x -= child->x(); // express center coordinates relatively to child
    center_y -= child->y();
  }
  return target;
}


static char *get_prog_name() {
  pid_t pid = getpid();
  char fname[100];
  sprintf(fname, "/proc/%u/cmdline", pid);
  FILE *in = fopen(fname, "r");
  if (in) {
    static char line[200];
    char *p = fgets(line, sizeof(line), in);
    fclose(in);
    p = strrchr(line, '/'); if (!p) p = line; else p++;
    return p;
  }
  return NULL;
}


Fl_X *Fl_Wayland_Window_Driver::makeWindow()
{
  struct wld_window *new_window;
  Fl_Wayland_Screen_Driver::output *output;
  wait_for_expose_value = 1;
  
  if (pWindow->parent() && !pWindow->window()->shown()) return NULL;

  new_window = (struct wld_window *)calloc(1, sizeof *new_window);
  new_window->fl_win = pWindow;
  new_window->scale = 1;
  Fl_Wayland_Screen_Driver *scr_driver = (Fl_Wayland_Screen_Driver*)Fl::screen_driver();
  wl_list_for_each(output, &(scr_driver->outputs), link) {
    new_window->scale = MAX(new_window->scale, output->wld_scale);
  }
  wl_list_init(&new_window->outputs);

  new_window->wl_surface = wl_compositor_create_surface(scr_driver->wl_compositor);
  //Fl::warning("makeWindow:%p wayland-scale=%d user-scale=%.2f\n", pWindow, new_window->scale, Fl::screen_scale(0));
  wl_surface_add_listener(new_window->wl_surface, &surface_listener, new_window);
  
  if (pWindow->user_data() == &Fl_Screen_Driver::transient_scale_display && Fl::first_window()) {
  // put transient scale win at center of top window by making it a child of top
    int center_x, center_y;
    Fl_Window *top = calc_transient_parent(center_x, center_y);
    if (top) {
      top->add(pWindow);
      pWindow->position(center_x - pWindow->w()/2 ,  center_y - pWindow->h()/2);
    }
  }
  
  if (pWindow->menu_window() || pWindow->tooltip_window()) { // a menu window or tooltip
    new_window->kind = POPUP;
    new_window->xdg_surface = xdg_wm_base_get_xdg_surface(scr_driver->xdg_wm_base, new_window->wl_surface);
    xdg_surface_add_listener(new_window->xdg_surface, &xdg_surface_listener, new_window);
    struct xdg_positioner *positioner = xdg_wm_base_create_positioner(scr_driver->xdg_wm_base);
    //xdg_positioner_get_version(positioner) <== gives 1 under Debian
    Fl_Widget *target = (pWindow->tooltip_window() ?
                          Fl_Tooltip::current() : Fl_Window_Driver::menu_parent() );
    if (!target) target = Fl::belowmouse();
    if (!target) target = Fl::first_window();
    Fl_Window *parent_win = target->top_window();
    while (parent_win && parent_win->menu_window()) parent_win = Fl::next_window(parent_win);
    Window parent_xid = fl_xid(parent_win);
    struct xdg_surface *parent_xdg = parent_xid->xdg_surface;
    float f = Fl::screen_scale(parent_win->screen_num());
//fprintf(stderr, "menu parent_win=%p pos:%dx%d size:%dx%d\n", parent_win, pWindow->x(), pWindow->y(), pWindow->w(), pWindow->h());
    int popup_x = pWindow->x() * f, popup_y = pWindow->y() * f;
    if (parent_xid->kind == DECORATED)
      libdecor_frame_translate_coordinate(parent_xid->frame, popup_x, popup_y, &popup_x, &popup_y);
    xdg_positioner_set_anchor_rect(positioner, popup_x, popup_y, 1, 1);
    xdg_positioner_set_size(positioner, pWindow->w() * f , pWindow->h() * f );
    xdg_positioner_set_anchor(positioner, XDG_POSITIONER_ANCHOR_TOP_LEFT);
    xdg_positioner_set_gravity(positioner, XDG_POSITIONER_GRAVITY_BOTTOM_RIGHT);
    new_window->xdg_popup = xdg_surface_get_popup(new_window->xdg_surface, parent_xdg, positioner);
    xdg_positioner_destroy(positioner);
    xdg_popup_add_listener(new_window->xdg_popup, &popup_listener, new_window);
#if USE_GRAB_POPUP
    if (!mem_grabbing_popup) {
      mem_parent = parent_win;
      mem_grabbing_popup = new_window->xdg_popup;
      xdg_popup_grab(new_window->xdg_popup, scr_driver->get_wl_seat(), scr_driver->get_serial());
      libdecor_frame_popup_grab(parent_xid->frame, scr_driver->get_seat_name());
    }
#endif
    wl_surface_commit(new_window->wl_surface);

  } else if ( pWindow->border() && !pWindow->parent() ) { // a decorated window
    new_window->kind = DECORATED;
    if (!scr_driver->libdecor_context) scr_driver->libdecor_context = libdecor_new(Fl_Wayland_Screen_Driver::wl_display, &libdecor_iface);
    new_window->frame = libdecor_decorate(scr_driver->libdecor_context, new_window->wl_surface,
                                              &libdecor_frame_iface, new_window);
//fprintf(stderr, "makeWindow: libdecor_decorate=%p pos:%dx%d\n", new_window->frame, pWindow->x(), pWindow->y());
    libdecor_frame_set_app_id(new_window->frame, get_prog_name()); // appears in the Gnome desktop menu bar
    libdecor_frame_set_title(new_window->frame, pWindow->label()?pWindow->label():"");
    if (!pWindow->resizable()) {
      libdecor_frame_unset_capabilities(new_window->frame, LIBDECOR_ACTION_RESIZE);
      libdecor_frame_unset_capabilities(new_window->frame, LIBDECOR_ACTION_FULLSCREEN);
    }
    libdecor_frame_map(new_window->frame);
    float f = Fl::screen_scale(pWindow->screen_num());
    new_window->floating_width = pWindow->w() * f;
    new_window->floating_height = pWindow->h() * f;
    
  } else if (pWindow->parent()) { // for subwindows (GL or non-GL)
    new_window->kind = SUBWINDOW;
    struct wld_window *parent = fl_xid(pWindow->window());
    new_window->subsurface = wl_subcompositor_get_subsurface(scr_driver->wl_subcompositor, new_window->wl_surface, parent->wl_surface);
//fprintf(stderr, "makeWindow: subsurface=%p\n", new_window->subsurface);
    float f = Fl::screen_scale(pWindow->top_window()->screen_num());
    wl_subsurface_set_position(new_window->subsurface, pWindow->x() * f, pWindow->y() * f);
    wl_subsurface_set_desync(new_window->subsurface); // important
    wl_subsurface_place_above(new_window->subsurface, parent->wl_surface);
    // next 3 statements ensure the subsurface will be mapped because:
    // "A sub-surface becomes mapped, when a non-NULL wl_buffer is applied and the parent surface is mapped."
    new_window->configured_width = pWindow->w();
    new_window->configured_height = pWindow->h();
    wait_for_expose_value = 0;
    pWindow->border(0);

  } else { // a window without decoration
    new_window->kind = UNFRAMED;
    new_window->xdg_surface = xdg_wm_base_get_xdg_surface(scr_driver->xdg_wm_base, new_window->wl_surface);
//fprintf(stderr, "makeWindow: xdg_wm_base_get_xdg_surface=%p\n", new_window->xdg_surface);
    xdg_surface_add_listener(new_window->xdg_surface, &xdg_surface_listener, new_window);
    new_window->xdg_toplevel = xdg_surface_get_toplevel(new_window->xdg_surface);
    xdg_toplevel_add_listener(new_window->xdg_toplevel, &xdg_toplevel_listener, new_window);
    if (pWindow->label()) xdg_toplevel_set_title(new_window->xdg_toplevel, pWindow->label());
    wl_surface_commit(new_window->wl_surface);
    pWindow->border(0);
  }
    
  Fl_Window *old_first = Fl::first_window();
  Window first_xid = (old_first ? fl_xid(old_first) : NULL);
  Fl_X *xp = new Fl_X;
  xp->xid = new_window;
  other_xid = 0;
  xp->w = pWindow;
  i(xp);
  xp->region = 0;
  if (!pWindow->parent()) {
    xp->next = Fl_X::first;
    Fl_X::first = xp;
  } else if (Fl_X::first) {
    xp->next = Fl_X::first->next;
    Fl_X::first->next = xp;
  } else {
    xp->next = NULL;
    Fl_X::first = xp;
  }
  
  if (pWindow->modal() || pWindow->non_modal()) {
    if (pWindow->modal()) Fl::modal_ = pWindow;
    if (new_window->kind == DECORATED && first_xid && first_xid->kind == DECORATED) {
     libdecor_frame_set_parent(new_window->frame, first_xid->frame);
    } else if (new_window->kind == UNFRAMED && new_window->xdg_toplevel && first_xid) {
      Fl_Wayland_Window_Driver *top_dr = Fl_Wayland_Window_Driver::driver(first_xid->fl_win);
      if (top_dr->xdg_toplevel()) xdg_toplevel_set_parent(new_window->xdg_toplevel,
                                                          top_dr->xdg_toplevel());
    }
  }
  
  size_range();
  pWindow->set_visible();
  int old_event = Fl::e_number;
  pWindow->handle(Fl::e_number = FL_SHOW); // get child windows to appear
  Fl::e_number = old_event;
  pWindow->redraw();
  
  return xp;
}

Fl_Wayland_Window_Driver::type_for_resize_window_between_screens Fl_Wayland_Window_Driver::data_for_resize_window_between_screens_ = {0, false};

void Fl_Wayland_Window_Driver::resize_after_screen_change(void *data) {
  Fl_Window *win = (Fl_Window*)data;
  float f = Fl::screen_driver()->scale(data_for_resize_window_between_screens_.screen);
  Fl_Window_Driver::driver(win)->resize_after_scale_change(data_for_resize_window_between_screens_.screen, f, f);
  data_for_resize_window_between_screens_.busy = false;
}


int Fl_Wayland_Window_Driver::screen_num() {
  if (pWindow->parent()) {
    screen_num_ = Fl_Window_Driver::driver(pWindow->top_window())->screen_num();
  }
  return screen_num_ >= 0 ? screen_num_ : 0;
}


int Fl_Wayland_Window_Driver::set_cursor(Fl_Cursor c) {
  Fl_Wayland_Screen_Driver *scr_driver = (Fl_Wayland_Screen_Driver*)Fl::screen_driver();

  // Cursor names are the files of directory /usr/share/icons/XXXX/cursors/
  // where XXXX is the name of the current 'cursor theme'.
  switch (c) {
    case FL_CURSOR_ARROW:
      if (!scr_driver->xc_arrow) scr_driver->xc_arrow = scr_driver->cache_cursor("left_ptr");
      scr_driver->default_cursor(scr_driver->xc_arrow);
      break;
    case FL_CURSOR_NS:
      if (!scr_driver->xc_ns) scr_driver->xc_ns = scr_driver->cache_cursor("sb_v_double_arrow");
      if (!scr_driver->xc_ns) return 0;
      scr_driver->default_cursor(scr_driver->xc_ns);
      break;
    case FL_CURSOR_CROSS:
      if (!scr_driver->xc_cross) scr_driver->xc_cross = scr_driver->cache_cursor("cross");
      if (!scr_driver->xc_cross) return 0;
      scr_driver->default_cursor(scr_driver->xc_cross);
      break;
    case FL_CURSOR_WAIT:
      if (!scr_driver->xc_wait) scr_driver->xc_wait = scr_driver->cache_cursor("wait");
      if (!scr_driver->xc_wait) scr_driver->xc_wait = scr_driver->cache_cursor("watch");
      if (!scr_driver->xc_wait) return 0;
      scr_driver->default_cursor(scr_driver->xc_wait);
      break;
    case FL_CURSOR_INSERT:
      if (!scr_driver->xc_insert) scr_driver->xc_insert = scr_driver->cache_cursor("xterm");
      if (!scr_driver->xc_insert) return 0;
      scr_driver->default_cursor(scr_driver->xc_insert);
      break;
    case FL_CURSOR_HAND:
      if (!scr_driver->xc_hand) scr_driver->xc_hand = scr_driver->cache_cursor("hand");
      if (!scr_driver->xc_hand) scr_driver->xc_hand = scr_driver->cache_cursor("hand1");
      if (!scr_driver->xc_hand) return 0;
      scr_driver->default_cursor(scr_driver->xc_hand);
      break;
    case FL_CURSOR_HELP:
      if (!scr_driver->xc_help) scr_driver->xc_help = scr_driver->cache_cursor("help");
      if (!scr_driver->xc_help) return 0;
      scr_driver->default_cursor(scr_driver->xc_help);
      break;
    case FL_CURSOR_MOVE:
      if (!scr_driver->xc_move) scr_driver->xc_move = scr_driver->cache_cursor("move");
      if (!scr_driver->xc_move) return 0;
      scr_driver->default_cursor(scr_driver->xc_move);
      break;
    case FL_CURSOR_WE:
      if (!scr_driver->xc_we) scr_driver->xc_we = scr_driver->cache_cursor("sb_h_double_arrow");
      if (!scr_driver->xc_we) return 0;
      scr_driver->default_cursor(scr_driver->xc_we);
      break;
    case FL_CURSOR_N:
      if (!scr_driver->xc_north) scr_driver->xc_north = scr_driver->cache_cursor("top_side");
      if (!scr_driver->xc_north) return 0;
      scr_driver->default_cursor(scr_driver->xc_north);
      break;
    case FL_CURSOR_E:
      if (!scr_driver->xc_east) scr_driver->xc_east = scr_driver->cache_cursor("right_side");
      if (!scr_driver->xc_east) return 0;
      scr_driver->default_cursor(scr_driver->xc_east);
      break;
    case FL_CURSOR_W:
      if (!scr_driver->xc_west) scr_driver->xc_west = scr_driver->cache_cursor("left_side");
      if (!scr_driver->xc_west) return 0;
      scr_driver->default_cursor(scr_driver->xc_west);
      break;
    case FL_CURSOR_S:
      if (!scr_driver->xc_south) scr_driver->xc_south = scr_driver->cache_cursor("bottom_side");
      if (!scr_driver->xc_south) return 0;
      scr_driver->default_cursor(scr_driver->xc_south);
      break;
    case FL_CURSOR_NESW:
      if (!scr_driver->xc_nesw) scr_driver->xc_nesw = scr_driver->cache_cursor("fd_double_arrow");
      if (!scr_driver->xc_nesw) return 0;
      scr_driver->default_cursor(scr_driver->xc_nesw);
      break;
    case FL_CURSOR_NWSE:
      if (!scr_driver->xc_nwse) scr_driver->xc_nwse = scr_driver->cache_cursor("bd_double_arrow");
      if (!scr_driver->xc_nwse) return 0;
      scr_driver->default_cursor(scr_driver->xc_nwse);
      break;
    case FL_CURSOR_SW:
      if (!scr_driver->xc_sw) scr_driver->xc_sw = scr_driver->cache_cursor("bottom_left_corner");
      if (!scr_driver->xc_sw) return 0;
      scr_driver->default_cursor(scr_driver->xc_sw);
      break;
    case FL_CURSOR_SE:
      if (!scr_driver->xc_se) scr_driver->xc_se = scr_driver->cache_cursor("bottom_right_corner");
      if (!scr_driver->xc_se) return 0;
      scr_driver->default_cursor(scr_driver->xc_se);
      break;
    case FL_CURSOR_NE:
      if (!scr_driver->xc_ne) scr_driver->xc_ne = scr_driver->cache_cursor("top_right_corner");
      if (!scr_driver->xc_ne) return 0;
      scr_driver->default_cursor(scr_driver->xc_ne);
      break;
    case FL_CURSOR_NW:
      if (!scr_driver->xc_nw) scr_driver->xc_nw = scr_driver->cache_cursor("top_left_corner");
      if (!scr_driver->xc_nw) return 0;
      scr_driver->default_cursor(scr_driver->xc_nw);
      break;

    default:
      return 0;
  }
  if (cursor_) delete_cursor_();
  scr_driver->set_cursor();
  return 1;
}


void Fl_Wayland_Window_Driver::update_scale()
{
  struct wld_window *window = fl_xid(pWindow);
  int scale = 0;
  Fl_Wayland_Window_Driver::window_output *window_output;

  wl_list_for_each(window_output, &window->outputs, link) {
    scale = fl_max(scale, window_output->output->wld_scale);
  }
  if (scale && scale != window->scale) {
    window->scale = scale;
    if (window->buffer || window->fl_win->as_gl_window()) {
      Fl_Wayland_Graphics_Driver::buffer_release(window);
      window->fl_win->damage(FL_DAMAGE_ALL);
      Fl_Window_Driver::driver(window->fl_win)->flush();
    }
  }
}


void Fl_Wayland_Window_Driver::use_border() {
  if (!shown() || pWindow->parent()) return;
  struct libdecor_frame *frame = fl_xid(pWindow)->frame;
  if (frame && Fl_Wayland_Screen_Driver::compositor != Fl_Wayland_Screen_Driver::KDE) {
    libdecor_frame_set_visibility(frame, pWindow->border());
    pWindow->redraw();
  } else {
    Fl_Window_Driver::use_border();
  }
}


/* Change an existing window to fullscreen */
void Fl_Wayland_Window_Driver::fullscreen_on() {
    int top, bottom, left, right;

    top = fullscreen_screen_top();
    bottom = fullscreen_screen_bottom();
    left = fullscreen_screen_left();
    right = fullscreen_screen_right();

    if ((top < 0) || (bottom < 0) || (left < 0) || (right < 0)) {
      top = screen_num();
      bottom = top;
      left = top;
      right = top;
    }
  pWindow->wait_for_expose(); // make sure ->xdg_toplevel is initialized
  if (xdg_toplevel()) {
    xdg_toplevel_set_fullscreen(xdg_toplevel(), NULL);
    pWindow->_set_fullscreen();
    wl_display_roundtrip(Fl_Wayland_Screen_Driver::wl_display); // OK, but try to find something more specific
    wl_display_roundtrip(Fl_Wayland_Screen_Driver::wl_display);
    Fl::handle(FL_FULLSCREEN, pWindow);
  }
}


void Fl_Wayland_Window_Driver::fullscreen_off(int X, int Y, int W, int H) {
  if (!border()) pWindow->Fl_Group::resize(X, Y, W, H);
  xdg_toplevel_unset_fullscreen(xdg_toplevel());
  pWindow->_clear_fullscreen();
  Fl::handle(FL_FULLSCREEN, pWindow);
}


void Fl_Wayland_Window_Driver::label(const char *name, const char *iname) {
  if (shown() && !parent() && fl_xid(pWindow)->kind == DECORATED) {
    if (!name) name = "";
    if (!iname) iname = fl_filename_name(name);
    libdecor_frame_set_title(fl_xid(pWindow)->frame, name);
  }
}


int Fl_Wayland_Window_Driver::set_cursor(const Fl_RGB_Image *rgb, int hotx, int hoty) {
// build a new wl_cursor and its image
  struct wl_cursor *new_cursor = (struct wl_cursor*)malloc(sizeof(struct wl_cursor));
  struct cursor_image *new_image = (struct cursor_image*)calloc(1, sizeof(struct cursor_image));
  int scale = fl_xid(pWindow)->scale;
  new_image->image.width = rgb->w() * scale;
  new_image->image.height = rgb->h() * scale;
  new_image->image.hotspot_x = hotx * scale;
  new_image->image.hotspot_y = hoty * scale;
  new_image->image.delay = 0;
  new_image->offset = 0;
  //create a Wayland buffer and have it used as an image of the new cursor
  struct fl_wld_buffer *offscreen = Fl_Wayland_Graphics_Driver::create_shm_buffer(new_image->image.width, new_image->image.height);
  new_image->buffer = offscreen->wl_buffer;
  wl_buffer_set_user_data(new_image->buffer, offscreen);
  new_cursor->image_count = 1;
  new_cursor->images = (struct wl_cursor_image**)malloc(sizeof(struct wl_cursor_image*));
  new_cursor->images[0] = (struct wl_cursor_image*)new_image;
  new_cursor->name = strdup("custom cursor");
  // draw the rgb image to the cursor's drawing buffer
  Fl_Image_Surface *img_surf = new Fl_Image_Surface(new_image->image.width, new_image->image.height, 0, offscreen);
  Fl_Surface_Device::push_current(img_surf);
  Fl_Wayland_Graphics_Driver *driver = (Fl_Wayland_Graphics_Driver*)img_surf->driver();
  cairo_scale(driver->cr(), scale, scale);
  memset(offscreen->draw_buffer, 0, offscreen->data_size);
  ((Fl_RGB_Image*)rgb)->draw(0, 0);
  Fl_Surface_Device::pop_current();
  delete img_surf;
  memcpy(offscreen->data, offscreen->draw_buffer, offscreen->data_size);
  // delete the previous custom cursor, if there was one
  delete_cursor_();
  //have this new cursor used
  cursor_ = new_cursor;
  Fl_Wayland_Screen_Driver *scr_driver = (Fl_Wayland_Screen_Driver*)Fl::screen_driver();
  scr_driver->default_cursor(cursor_);
  return 1;
}


#if defined(USE_SYSTEM_LIBDECOR) && USE_SYSTEM_LIBDECOR
// This is only to fix a bug in libdecor where what libdecor_frame_set_min_content_size()
// does is often destroyed by libdecor-cairo.
static void delayed_minsize(Fl_Window *win) {
  struct wld_window *wl_win = fl_xid(win);
  Fl_Window_Driver *driver = Fl_Window_Driver::driver(win);
  if (wl_win->kind == Fl_Wayland_Window_Driver::DECORATED) {
    float f = Fl::screen_scale(win->screen_num());
    libdecor_frame_set_min_content_size(wl_win->frame, driver->minw()*f, driver->minh()*f);
  }
  bool need_resize = false;
  int W = win->w(), H = win->h();
  if (W < driver->minw()) { W = driver->minw(); need_resize = true; }
  if (H < driver->minh()) { H = driver->minh(); need_resize = true; }
  if (need_resize) win->size(W, H);
}
#endif


void Fl_Wayland_Window_Driver::resize(int X, int Y, int W, int H) {
  int is_a_move = (X != x() || Y != y() || Fl_Window::is_a_rescale());
  int is_a_resize = (W != w() || H != h() || Fl_Window::is_a_rescale());
  if (is_a_move) force_position(1);
  else if (!is_a_resize && !is_a_move) return;
  if (is_a_resize) {
    pWindow->Fl_Group::resize(X,Y,W,H);
//fprintf(stderr, "resize: win=%p to %dx%d\n", pWindow, W, H);
    if (shown()) {pWindow->redraw();}
  } else {
    if (pWindow->parent() || pWindow->menu_window() || pWindow->tooltip_window()) {
      x(X); y(Y);
//fprintf(stderr, "move menuwin=%p x()=%d\n", pWindow, X);
    } else {
      //"a deliberate design trait of Wayland makes application windows ignorant of their exact placement on screen"
      x(0); y(0);
    }
  }
    
  if (shown()) {
    struct wld_window *fl_win = fl_xid(pWindow);
    float f = Fl::screen_scale(pWindow->screen_num());
    if (is_a_resize) {
      if (fl_win->kind == DECORATED) { // a decorated window
        if (fl_win->buffer) {
          Fl_Wayland_Graphics_Driver::buffer_release(fl_win);
        }
        fl_win->configured_width = W;
        fl_win->configured_height = H;
        if (!in_handle_configure && xdg_toplevel()) {
          if (Fl_Window::is_a_rescale()) size_range();
          struct libdecor_state *state = libdecor_state_new(int(W * f), int(H * f));
          libdecor_frame_commit(fl_win->frame, state, NULL); // necessary only if resize is initiated by prog
          libdecor_state_free(state);
          if (libdecor_frame_is_floating(fl_win->frame)) {
            fl_win->floating_width = int(W*f);
            fl_win->floating_height = int(H*f);
          }
        }
      } else if (fl_win->kind == SUBWINDOW && fl_win->subsurface) { // a subwindow
        wl_subsurface_set_position(fl_win->subsurface, X * f, Y * f);
        if (!pWindow->as_gl_window()) Fl_Wayland_Graphics_Driver::buffer_release(fl_win);
        fl_win->configured_width = W;
        fl_win->configured_height = H;
      } else if (fl_win->xdg_surface) { // a window without border
        if (!pWindow->as_gl_window()) Fl_Wayland_Graphics_Driver::buffer_release(fl_win);
        fl_win->configured_width = W;
        fl_win->configured_height = H;
        xdg_surface_set_window_geometry(fl_win->xdg_surface, 0, 0, W * f, H * f);
      }
#if defined(USE_SYSTEM_LIBDECOR) && USE_SYSTEM_LIBDECOR
      if (W < minw() || H < minh()) {
        Fl::add_timeout(0.01, (Fl_Timeout_Handler)delayed_minsize, pWindow);
      }
#endif
    } else {
      if (!in_handle_configure && xdg_toplevel()) {
        // Wayland doesn't seem to provide a reliable way for the app to set the
        // window position on screen. This is functional when the move is mouse-driven.
        Fl_Wayland_Screen_Driver *scr_driver = (Fl_Wayland_Screen_Driver*)Fl::screen_driver();
        xdg_toplevel_move(xdg_toplevel(), scr_driver->seat->wl_seat, scr_driver->seat->serial);
      } else if (fl_win->kind == SUBWINDOW && fl_win->subsurface) {
        wl_subsurface_set_position(fl_win->subsurface, pWindow->x() * f, pWindow->y() * f);
      }
    }
  }
}

void Fl_Wayland_Window_Driver::reposition_menu_window(int x, int y) {
  Window xid_menu = fl_xid(pWindow);
  if (y == pWindow->y() && y >= 0) return;
  int true_y = y;
  int y_offset = 0;
  if (y < 0) {
    y_offset = y-1;
    y = 1;
  }
  
  //printf("should move menuwindow to %d y_offset=%d y=%d\n", true_y, y_offset, pWindow->y());
  struct xdg_popup *old_popup = xid_menu->xdg_popup;
  struct xdg_surface *old_xdg = xid_menu->xdg_surface;
  struct wl_surface *old_surface = xid_menu->wl_surface;
  // create a new popup at position (x,y) and display it above the current one
  Fl_Wayland_Screen_Driver *scr_driver = (Fl_Wayland_Screen_Driver*)Fl::screen_driver();
  xid_menu->wl_surface = wl_compositor_create_surface(scr_driver->wl_compositor);
  wl_surface_add_listener(xid_menu->wl_surface, &surface_listener, xid_menu);
  xid_menu->xdg_surface = xdg_wm_base_get_xdg_surface(scr_driver->xdg_wm_base, xid_menu->wl_surface);
  xdg_surface_add_listener(xid_menu->xdg_surface, &xdg_surface_listener, xid_menu);
  struct xdg_positioner *positioner = xdg_wm_base_create_positioner(scr_driver->xdg_wm_base);
  Window parent_xid = fl_xid(Fl_Window_Driver::menu_parent());
  float f = Fl::screen_scale(Fl_Window_Driver::menu_parent()->screen_num());
  int popup_x = x * f, popup_y = y * f;
  if (parent_xid->kind == DECORATED)
    libdecor_frame_translate_coordinate(parent_xid->frame, popup_x, popup_y, &popup_x, &popup_y);
  xdg_positioner_set_anchor_rect(positioner, popup_x, popup_y, 1, 1);
  xdg_positioner_set_size(positioner, pWindow->w() * f , pWindow->h() * f );
  xdg_positioner_set_anchor(positioner, XDG_POSITIONER_ANCHOR_TOP_LEFT);
  xdg_positioner_set_gravity(positioner, XDG_POSITIONER_GRAVITY_BOTTOM_RIGHT);
  if (y_offset) xdg_positioner_set_offset(positioner, 0, y_offset);
  xid_menu->xdg_popup = xdg_surface_get_popup(xid_menu->xdg_surface, parent_xid->xdg_surface, positioner);
  xdg_positioner_destroy(positioner);
  xdg_popup_add_listener(xid_menu->xdg_popup, &popup_listener, xid_menu);
  wl_surface_commit(xid_menu->wl_surface);
  wl_display_roundtrip(Fl_Wayland_Screen_Driver::wl_display);
  // delete the previous popup
  xdg_popup_destroy(old_popup);
  xdg_surface_destroy(old_xdg);
  wl_surface_destroy(old_surface);
  wl_display_roundtrip(Fl_Wayland_Screen_Driver::wl_display);
  this->y(true_y);
}


void Fl_Wayland_Window_Driver::menu_window_area(int &X, int &Y, int &W, int &H, int nscreen) {
  Fl_Window *parent = Fl_Window_Driver::menu_parent();
  if (parent) {
    X = parent->x();
    Y = parent->y();
    W = parent->w();
    H = parent->h();
    //printf("menu_window_area: %dx%d - %dx%d\n",X,Y,W,H);
  } else Fl_Window_Driver::menu_window_area(X, Y, W, H, nscreen);
}


struct wl_surface *fl_wl_surface(Window xid) {
  return xid->wl_surface;
}


struct _cairo *fl_wl_cairo() {
  return ((Fl_Cairo_Graphics_Driver*)fl_graphics_driver)->cr();
}


struct wl_display *fl_wl_display() {
  return Fl_Wayland_Screen_Driver::wl_display;
}