pH/sommelier/sommelier-transform.cc

// Copyright 2022 The ChromiumOS Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

#include <math.h>

#include "sommelier-tracing.h"    // NOLINT(build/include_directory)
#include "sommelier-transform.h"  // NOLINT(build/include_directory)

static void sl_transform_get_scale_factors(
    struct sl_context* ctx,
    const struct sl_host_surface* surface,
    double* scalex,
    double* scaley) {
  if (ctx->use_direct_scale && surface && surface->has_own_scale) {
    *scalex = surface->xdg_scale_x;
    *scaley = surface->xdg_scale_y;
  } else if (surface && surface->output) {
    *scalex = surface->output.get()->xdg_scale_x;
    *scaley = surface->output.get()->xdg_scale_y;
  } else {
    *scalex = ctx->xdg_scale_x;
    *scaley = ctx->xdg_scale_y;
  }
}

static double sl_transform_direct_axis_scale(struct sl_context* ctx,
                                             struct sl_host_surface* surface,
                                             uint32_t axis) {
  double scalex, scaley;

  sl_transform_get_scale_factors(ctx, surface, &scalex, &scaley);
  return (axis == 0) ? scaley : scalex;
}

static void sl_transform_direct_to_host_damage(
    struct sl_context* ctx,
    const struct sl_host_surface* surface,
    int64_t* x,
    int64_t* y,
    double scale_x,
    double scale_y) {
  double xwhole = trunc(static_cast<double>(*x) / scale_x);
  double ywhole = trunc(static_cast<double>(*y) / scale_y);

  *x = static_cast<int64_t>(xwhole);
  *y = static_cast<int64_t>(ywhole);
}

static void sl_transform_direct_to_guest_fixed(struct sl_context* ctx,
                                               struct sl_host_surface* surface,
                                               wl_fixed_t* coord,
                                               uint32_t axis) {
  double scale = sl_transform_direct_axis_scale(ctx, surface, axis);
  double result = wl_fixed_to_double(*coord) * scale;

  *coord = wl_fixed_from_double(result);
}

static void sl_transform_direct_to_guest_fixed(struct sl_context* ctx,
                                               struct sl_host_surface* surface,
                                               wl_fixed_t* x,
                                               wl_fixed_t* y) {
  double scalex, scaley;

  sl_transform_get_scale_factors(ctx, surface, &scalex, &scaley);

  double resultx = wl_fixed_to_double(*x) * scalex;
  double resulty = wl_fixed_to_double(*y) * scaley;

  *x = wl_fixed_from_double(resultx);
  *y = wl_fixed_from_double(resulty);
}

static void sl_transform_direct_to_host_fixed(struct sl_context* ctx,
                                              struct sl_host_surface* surface,
                                              wl_fixed_t* coord,
                                              uint32_t axis) {
  double scale = sl_transform_direct_axis_scale(ctx, surface, axis);
  double result = wl_fixed_to_double(*coord) / scale;

  *coord = wl_fixed_from_double(result);
}

static void sl_transform_direct_to_host_fixed(struct sl_context* ctx,
                                              struct sl_host_surface* surface,
                                              wl_fixed_t* x,
                                              wl_fixed_t* y) {
  double scalex, scaley;

  sl_transform_get_scale_factors(ctx, surface, &scalex, &scaley);

  double resultx = wl_fixed_to_double(*x) / scalex;
  double resulty = wl_fixed_to_double(*y) / scaley;

  *x = wl_fixed_from_double(resultx);
  *y = wl_fixed_from_double(resulty);
}

static void sl_transform_direct_to_guest(struct sl_context* ctx,
                                         struct sl_host_surface* surface,
                                         int32_t* x,
                                         int32_t* y) {
  double scalex, scaley;

  sl_transform_get_scale_factors(ctx, surface, &scalex, &scaley);

  double inputx = scalex * static_cast<double>(*x);
  double inputy = scaley * static_cast<double>(*y);

  double xwhole =
      (surface && surface->scale_round_on_x) ? lround(inputx) : trunc(inputx);

  double ywhole =
      (surface && surface->scale_round_on_y) ? lround(inputy) : trunc(inputy);

  *x = static_cast<int32_t>(xwhole);
  *y = static_cast<int32_t>(ywhole);
}

static void sl_transform_direct_to_host(struct sl_context* ctx,
                                        struct sl_host_surface* surface,
                                        int32_t* x,
                                        int32_t* y) {
  double scalex, scaley;

  sl_transform_get_scale_factors(ctx, surface, &scalex, &scaley);

  double xwhole = trunc(static_cast<double>(*x) / scalex);
  double ywhole = trunc(static_cast<double>(*y) / scaley);

  *x = static_cast<int32_t>(xwhole);
  *y = static_cast<int32_t>(ywhole);
}

bool sl_transform_viewport_scale(struct sl_context* ctx,
                                 struct sl_host_surface* surface,
                                 double contents_scale,
                                 int32_t* width,
                                 int32_t* height) {
  double scale = ctx->scale * contents_scale;

  // TODO(mrisaacb): It may be beneficial to skip the set_destination call
  // when the virtual and logical space match.
  bool do_viewport = true;

  if (ctx->use_direct_scale) {
    sl_transform_direct_to_host(ctx, surface, width, height);

    // For very small windows (in pixels), the resulting logical dimensions
    // could be 0, which will cause issues with the viewporter interface.
    //
    // In these cases, fix it up here by forcing the logical output
    // to be at least 1 pixel

    if (*width <= 0)
      *width = 1;

    if (*height <= 0)
      *height = 1;

  } else {
    *width = ceil(*width / scale);
    *height = ceil(*height / scale);
  }

  return do_viewport;
}

void sl_transform_damage_coord(struct sl_context* ctx,
                               const struct sl_host_surface* surface,
                               double buffer_scalex,
                               double buffer_scaley,
                               int64_t* x1,
                               int64_t* y1,
                               int64_t* x2,
                               int64_t* y2) {
  if (ctx->use_direct_scale) {
    double scalex, scaley;

    sl_transform_get_scale_factors(ctx, surface, &scalex, &scaley);

    scalex *= buffer_scalex;
    scaley *= buffer_scaley;

    sl_transform_direct_to_host_damage(ctx, surface, x1, y1, scalex, scaley);
    sl_transform_direct_to_host_damage(ctx, surface, x2, y2, scalex, scaley);
  } else {
    double sx = buffer_scalex * ctx->scale;
    double sy = buffer_scaley * ctx->scale;

    // Enclosing rect after scaling and outset by one pixel to account for
    // potential filtering.
    *x1 = MAX(MIN_SIZE, (*x1) - 1) / sx;
    *y1 = MAX(MIN_SIZE, (*y1) - 1) / sy;
    *x2 = ceil(MIN((*x2) + 1, MAX_SIZE) / sx);
    *y2 = ceil(MIN((*y2) + 1, MAX_SIZE) / sy);
  }
}

void sl_transform_host_to_guest(struct sl_context* ctx,
                                struct sl_host_surface* surface,
                                int32_t* x,
                                int32_t* y) {
  if (ctx->use_direct_scale) {
    sl_transform_direct_to_guest(ctx, surface, x, y);
  } else {
    (*x) *= ctx->scale;
    (*y) *= ctx->scale;
  }
}

void sl_transform_host_to_guest_fixed(struct sl_context* ctx,
                                      struct sl_host_surface* surface,
                                      wl_fixed_t* x,
                                      wl_fixed_t* y) {
  if (ctx->use_direct_scale) {
    sl_transform_direct_to_guest_fixed(ctx, surface, x, y);
  } else {
    double dx = wl_fixed_to_double(*x);
    double dy = wl_fixed_to_double(*y);

    dx *= ctx->scale;
    dy *= ctx->scale;

    *x = wl_fixed_from_double(dx);
    *y = wl_fixed_from_double(dy);
  }
}

void sl_transform_host_to_guest_fixed(struct sl_context* ctx,
                                      struct sl_host_surface* surface,
                                      wl_fixed_t* coord,
                                      uint32_t axis) {
  if (ctx->use_direct_scale) {
    sl_transform_direct_to_guest_fixed(ctx, surface, coord, axis);
  } else {
    double dx = wl_fixed_to_double(*coord);

    dx *= ctx->scale;
    *coord = wl_fixed_from_double(dx);
  }
}

void sl_transform_guest_to_host(struct sl_context* ctx,
                                struct sl_host_surface* surface,
                                int32_t* x,
                                int32_t* y) {
  if (ctx->use_direct_scale) {
    sl_transform_direct_to_host(ctx, surface, x, y);
  } else {
    (*x) /= ctx->scale;
    (*y) /= ctx->scale;
  }
}

void sl_transform_guest_to_host_fixed(struct sl_context* ctx,
                                      struct sl_host_surface* surface,
                                      wl_fixed_t* x,
                                      wl_fixed_t* y) {
  if (ctx->use_direct_scale) {
    sl_transform_direct_to_host_fixed(ctx, surface, x, y);
  } else {
    double dx = wl_fixed_to_double(*x);
    double dy = wl_fixed_to_double(*y);

    dx /= ctx->scale;
    dy /= ctx->scale;

    *x = wl_fixed_from_double(dx);
    *y = wl_fixed_from_double(dy);
  }
}

void sl_transform_guest_to_host_fixed(struct sl_context* ctx,
                                      struct sl_host_surface* surface,
                                      wl_fixed_t* coord,
                                      uint32_t axis) {
  if (ctx->use_direct_scale) {
    sl_transform_direct_to_host_fixed(ctx, surface, coord, axis);
  } else {
    double dx = wl_fixed_to_double(*coord);

    dx /= ctx->scale;
    *coord = wl_fixed_from_double(dx);
  }
}

void sl_transform_try_window_scale(struct sl_context* ctx,
                                   struct sl_host_surface* surface,
                                   int32_t width_in_pixels,
                                   int32_t height_in_pixels) {
  int32_t reverse_width = width_in_pixels;
  int32_t reverse_height = height_in_pixels;
  int32_t logical_width;
  int32_t logical_height;

  // This function should only have an effect in direct scale mode
  if (!ctx->use_direct_scale)
    return;

  // Reset scale so that calls to sl_transform_get_scale_factors will not
  // use the current scale.
  sl_transform_reset_surface_scale(ctx, surface);

  // Transform the window dimensions using the global/per-output scaling factors
  sl_transform_guest_to_host(ctx, surface, &reverse_width, &reverse_height);

  // Save the logical dimensions for later use
  logical_width = reverse_width;
  logical_height = reverse_height;

  // Transform the logical dimensions back to the virtual pixel dimensions
  sl_transform_host_to_guest(ctx, surface, &reverse_width, &reverse_height);

  // If the computed logical width or height is zero, force the
  // use of the global scaling factors

  if ((reverse_width != width_in_pixels ||
       reverse_height != height_in_pixels) &&
      (logical_width > 0 && logical_height > 0)) {
    // There is no match, let's override the scaling setting on our surface
    surface->has_own_scale = 1;
    surface->xdg_scale_x = static_cast<double>(width_in_pixels) /
                           static_cast<double>(logical_width);
    surface->xdg_scale_y = static_cast<double>(height_in_pixels) /
                           static_cast<double>(logical_height);

    surface->cached_logical_height = logical_height;
    surface->cached_logical_width = logical_width;

    // Try once more to do a full cycle (pixel -> logical -> pixel),
    // if we aren't equal, we need to force a round up on the translation
    // to the guest.

    reverse_width = width_in_pixels;
    reverse_height = height_in_pixels;

    sl_transform_guest_to_host(ctx, surface, &reverse_width, &reverse_height);
    sl_transform_host_to_guest(ctx, surface, &reverse_width, &reverse_height);

    if (reverse_width != width_in_pixels)
      surface->scale_round_on_x = true;

    if (reverse_height != height_in_pixels)
      surface->scale_round_on_y = true;
  }
}

void sl_transform_reset_surface_scale(struct sl_context* ctx,
                                      struct sl_host_surface* surface) {
  surface->has_own_scale = 0;
  surface->scale_round_on_x = surface->scale_round_on_y = false;
  surface->xdg_scale_x = surface->xdg_scale_y = 0;
}

void sl_transform_output_dimensions(struct sl_context* ctx,
                                    int32_t* width,
                                    int32_t* height) {
  *width = (*width) * ctx->scale;
  *height = (*height) * ctx->scale;
}
Update sommelier to dbd90c6b002f7d0867cc0b0f1538cc979b688d13 2023-01-26 15:40:13 -05:00			`// Copyright 2022 The ChromiumOS Authors`
			`// Use of this source code is governed by a BSD-style license that can be`
			`// found in the LICENSE file.`

			`#include <math.h>`

			`#include "sommelier-tracing.h" // NOLINT(build/include_directory)`
			`#include "sommelier-transform.h" // NOLINT(build/include_directory)`

			`static void sl_transform_get_scale_factors(`
			`struct sl_context* ctx,`
			`const struct sl_host_surface* surface,`
			`double* scalex,`
			`double* scaley) {`
			`if (ctx->use_direct_scale && surface && surface->has_own_scale) {`
			`*scalex = surface->xdg_scale_x;`
			`*scaley = surface->xdg_scale_y;`
			`} else if (surface && surface->output) {`
			`*scalex = surface->output.get()->xdg_scale_x;`
			`*scaley = surface->output.get()->xdg_scale_y;`
			`} else {`
			`*scalex = ctx->xdg_scale_x;`
			`*scaley = ctx->xdg_scale_y;`
			`}`
			`}`

			`static double sl_transform_direct_axis_scale(struct sl_context* ctx,`
			`struct sl_host_surface* surface,`
			`uint32_t axis) {`
			`double scalex, scaley;`

			`sl_transform_get_scale_factors(ctx, surface, &scalex, &scaley);`
			`return (axis == 0) ? scaley : scalex;`
			`}`

			`static void sl_transform_direct_to_host_damage(`
			`struct sl_context* ctx,`
			`const struct sl_host_surface* surface,`
			`int64_t* x,`
			`int64_t* y,`
			`double scale_x,`
			`double scale_y) {`
			`double xwhole = trunc(static_cast<double>(*x) / scale_x);`
			`double ywhole = trunc(static_cast<double>(*y) / scale_y);`

			`*x = static_cast<int64_t>(xwhole);`
			`*y = static_cast<int64_t>(ywhole);`
			`}`

			`static void sl_transform_direct_to_guest_fixed(struct sl_context* ctx,`
			`struct sl_host_surface* surface,`
			`wl_fixed_t* coord,`
			`uint32_t axis) {`
			`double scale = sl_transform_direct_axis_scale(ctx, surface, axis);`
			`double result = wl_fixed_to_double(coord) scale;`

			`*coord = wl_fixed_from_double(result);`
			`}`

			`static void sl_transform_direct_to_guest_fixed(struct sl_context* ctx,`
			`struct sl_host_surface* surface,`
			`wl_fixed_t* x,`
			`wl_fixed_t* y) {`
			`double scalex, scaley;`

			`sl_transform_get_scale_factors(ctx, surface, &scalex, &scaley);`

			`double resultx = wl_fixed_to_double(x) scalex;`
			`double resulty = wl_fixed_to_double(y) scaley;`

			`*x = wl_fixed_from_double(resultx);`
			`*y = wl_fixed_from_double(resulty);`
			`}`

			`static void sl_transform_direct_to_host_fixed(struct sl_context* ctx,`
			`struct sl_host_surface* surface,`
			`wl_fixed_t* coord,`
			`uint32_t axis) {`
			`double scale = sl_transform_direct_axis_scale(ctx, surface, axis);`
			`double result = wl_fixed_to_double(*coord) / scale;`

			`*coord = wl_fixed_from_double(result);`
			`}`

			`static void sl_transform_direct_to_host_fixed(struct sl_context* ctx,`
			`struct sl_host_surface* surface,`
			`wl_fixed_t* x,`
			`wl_fixed_t* y) {`
			`double scalex, scaley;`

			`sl_transform_get_scale_factors(ctx, surface, &scalex, &scaley);`

			`double resultx = wl_fixed_to_double(*x) / scalex;`
			`double resulty = wl_fixed_to_double(*y) / scaley;`

			`*x = wl_fixed_from_double(resultx);`
			`*y = wl_fixed_from_double(resulty);`
			`}`

			`static void sl_transform_direct_to_guest(struct sl_context* ctx,`
			`struct sl_host_surface* surface,`
			`int32_t* x,`
			`int32_t* y) {`
			`double scalex, scaley;`

			`sl_transform_get_scale_factors(ctx, surface, &scalex, &scaley);`

			`double inputx = scalex * static_cast<double>(*x);`
			`double inputy = scaley * static_cast<double>(*y);`

			`double xwhole =`
			`(surface && surface->scale_round_on_x) ? lround(inputx) : trunc(inputx);`

			`double ywhole =`
			`(surface && surface->scale_round_on_y) ? lround(inputy) : trunc(inputy);`

			`*x = static_cast<int32_t>(xwhole);`
			`*y = static_cast<int32_t>(ywhole);`
			`}`

			`static void sl_transform_direct_to_host(struct sl_context* ctx,`
			`struct sl_host_surface* surface,`
			`int32_t* x,`
			`int32_t* y) {`
			`double scalex, scaley;`

			`sl_transform_get_scale_factors(ctx, surface, &scalex, &scaley);`

			`double xwhole = trunc(static_cast<double>(*x) / scalex);`
			`double ywhole = trunc(static_cast<double>(*y) / scaley);`

			`*x = static_cast<int32_t>(xwhole);`
			`*y = static_cast<int32_t>(ywhole);`
			`}`

			`bool sl_transform_viewport_scale(struct sl_context* ctx,`
			`struct sl_host_surface* surface,`
			`double contents_scale,`
			`int32_t* width,`
			`int32_t* height) {`
			`double scale = ctx->scale * contents_scale;`

			`// TODO(mrisaacb): It may be beneficial to skip the set_destination call`
			`// when the virtual and logical space match.`
			`bool do_viewport = true;`

			`if (ctx->use_direct_scale) {`
			`sl_transform_direct_to_host(ctx, surface, width, height);`

			`// For very small windows (in pixels), the resulting logical dimensions`
			`// could be 0, which will cause issues with the viewporter interface.`
			`//`
			`// In these cases, fix it up here by forcing the logical output`
			`// to be at least 1 pixel`

			`if (*width <= 0)`
			`*width = 1;`

			`if (*height <= 0)`
			`*height = 1;`

			`} else {`
			`width = ceil(width / scale);`
			`height = ceil(height / scale);`
			`}`

			`return do_viewport;`
			`}`

			`void sl_transform_damage_coord(struct sl_context* ctx,`
			`const struct sl_host_surface* surface,`
			`double buffer_scalex,`
			`double buffer_scaley,`
			`int64_t* x1,`
			`int64_t* y1,`
			`int64_t* x2,`
			`int64_t* y2) {`
			`if (ctx->use_direct_scale) {`
			`double scalex, scaley;`

			`sl_transform_get_scale_factors(ctx, surface, &scalex, &scaley);`

			`scalex *= buffer_scalex;`
			`scaley *= buffer_scaley;`

			`sl_transform_direct_to_host_damage(ctx, surface, x1, y1, scalex, scaley);`
			`sl_transform_direct_to_host_damage(ctx, surface, x2, y2, scalex, scaley);`
			`} else {`
			`double sx = buffer_scalex * ctx->scale;`
			`double sy = buffer_scaley * ctx->scale;`

			`// Enclosing rect after scaling and outset by one pixel to account for`
			`// potential filtering.`
			`x1 = MAX(MIN_SIZE, (x1) - 1) / sx;`
			`y1 = MAX(MIN_SIZE, (y1) - 1) / sy;`
			`x2 = ceil(MIN((x2) + 1, MAX_SIZE) / sx);`
			`y2 = ceil(MIN((y2) + 1, MAX_SIZE) / sy);`
			`}`
			`}`

			`void sl_transform_host_to_guest(struct sl_context* ctx,`
			`struct sl_host_surface* surface,`
			`int32_t* x,`
			`int32_t* y) {`
			`if (ctx->use_direct_scale) {`
			`sl_transform_direct_to_guest(ctx, surface, x, y);`
			`} else {`
			`(x) = ctx->scale;`
			`(y) = ctx->scale;`
			`}`
			`}`

			`void sl_transform_host_to_guest_fixed(struct sl_context* ctx,`
			`struct sl_host_surface* surface,`
			`wl_fixed_t* x,`
			`wl_fixed_t* y) {`
			`if (ctx->use_direct_scale) {`
			`sl_transform_direct_to_guest_fixed(ctx, surface, x, y);`
			`} else {`
			`double dx = wl_fixed_to_double(*x);`
			`double dy = wl_fixed_to_double(*y);`

			`dx *= ctx->scale;`
			`dy *= ctx->scale;`

			`*x = wl_fixed_from_double(dx);`
			`*y = wl_fixed_from_double(dy);`
			`}`
			`}`

			`void sl_transform_host_to_guest_fixed(struct sl_context* ctx,`
			`struct sl_host_surface* surface,`
			`wl_fixed_t* coord,`
			`uint32_t axis) {`
			`if (ctx->use_direct_scale) {`
			`sl_transform_direct_to_guest_fixed(ctx, surface, coord, axis);`
			`} else {`
			`double dx = wl_fixed_to_double(*coord);`

			`dx *= ctx->scale;`
			`*coord = wl_fixed_from_double(dx);`
			`}`
			`}`

			`void sl_transform_guest_to_host(struct sl_context* ctx,`
			`struct sl_host_surface* surface,`
			`int32_t* x,`
			`int32_t* y) {`
			`if (ctx->use_direct_scale) {`
			`sl_transform_direct_to_host(ctx, surface, x, y);`
			`} else {`
			`(*x) /= ctx->scale;`
			`(*y) /= ctx->scale;`
			`}`
			`}`

			`void sl_transform_guest_to_host_fixed(struct sl_context* ctx,`
			`struct sl_host_surface* surface,`
			`wl_fixed_t* x,`
			`wl_fixed_t* y) {`
			`if (ctx->use_direct_scale) {`
			`sl_transform_direct_to_host_fixed(ctx, surface, x, y);`
			`} else {`
			`double dx = wl_fixed_to_double(*x);`
			`double dy = wl_fixed_to_double(*y);`

			`dx /= ctx->scale;`
			`dy /= ctx->scale;`

			`*x = wl_fixed_from_double(dx);`
			`*y = wl_fixed_from_double(dy);`
			`}`
			`}`

			`void sl_transform_guest_to_host_fixed(struct sl_context* ctx,`
			`struct sl_host_surface* surface,`
			`wl_fixed_t* coord,`
			`uint32_t axis) {`
			`if (ctx->use_direct_scale) {`
			`sl_transform_direct_to_host_fixed(ctx, surface, coord, axis);`
			`} else {`
			`double dx = wl_fixed_to_double(*coord);`

			`dx /= ctx->scale;`
			`*coord = wl_fixed_from_double(dx);`
			`}`
			`}`

			`void sl_transform_try_window_scale(struct sl_context* ctx,`
			`struct sl_host_surface* surface,`
			`int32_t width_in_pixels,`
			`int32_t height_in_pixels) {`
			`int32_t reverse_width = width_in_pixels;`
			`int32_t reverse_height = height_in_pixels;`
			`int32_t logical_width;`
			`int32_t logical_height;`

			`// This function should only have an effect in direct scale mode`
			`if (!ctx->use_direct_scale)`
			`return;`

			`// Reset scale so that calls to sl_transform_get_scale_factors will not`
			`// use the current scale.`
			`sl_transform_reset_surface_scale(ctx, surface);`

			`// Transform the window dimensions using the global/per-output scaling factors`
			`sl_transform_guest_to_host(ctx, surface, &reverse_width, &reverse_height);`

			`// Save the logical dimensions for later use`
			`logical_width = reverse_width;`
			`logical_height = reverse_height;`

			`// Transform the logical dimensions back to the virtual pixel dimensions`
			`sl_transform_host_to_guest(ctx, surface, &reverse_width, &reverse_height);`

			`// If the computed logical width or height is zero, force the`
			`// use of the global scaling factors`

			`if ((reverse_width != width_in_pixels \|\|`
			`reverse_height != height_in_pixels) &&`
			`(logical_width > 0 && logical_height > 0)) {`
			`// There is no match, let's override the scaling setting on our surface`
			`surface->has_own_scale = 1;`
			`surface->xdg_scale_x = static_cast<double>(width_in_pixels) /`
			`static_cast<double>(logical_width);`
			`surface->xdg_scale_y = static_cast<double>(height_in_pixels) /`
			`static_cast<double>(logical_height);`

			`surface->cached_logical_height = logical_height;`
			`surface->cached_logical_width = logical_width;`

			`// Try once more to do a full cycle (pixel -> logical -> pixel),`
			`// if we aren't equal, we need to force a round up on the translation`
			`// to the guest.`

			`reverse_width = width_in_pixels;`
			`reverse_height = height_in_pixels;`

			`sl_transform_guest_to_host(ctx, surface, &reverse_width, &reverse_height);`
			`sl_transform_host_to_guest(ctx, surface, &reverse_width, &reverse_height);`

			`if (reverse_width != width_in_pixels)`
			`surface->scale_round_on_x = true;`

			`if (reverse_height != height_in_pixels)`
			`surface->scale_round_on_y = true;`
			`}`
			`}`

			`void sl_transform_reset_surface_scale(struct sl_context* ctx,`
			`struct sl_host_surface* surface) {`
			`surface->has_own_scale = 0;`
			`surface->scale_round_on_x = surface->scale_round_on_y = false;`
			`surface->xdg_scale_x = surface->xdg_scale_y = 0;`
			`}`

			`void sl_transform_output_dimensions(struct sl_context* ctx,`
			`int32_t* width,`
			`int32_t* height) {`
			`width = (width) * ctx->scale;`
			`height = (height) * ctx->scale;`
			`}`