2019-09-20 18:57:28 -04:00
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// Copyright 2018 The Chromium OS Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "sommelier.h"
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#include <assert.h>
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#include <stdlib.h>
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#include <string.h>
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#include <wayland-client.h>
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#include "aura-shell-client-protocol.h"
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#define MAX_OUTPUT_SCALE 2
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#define INCH_IN_MM 25.4
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2019-09-21 20:43:03 -04:00
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// Legacy X11 applications use DPI to decide on their scale. This value is what
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// the convention for a "normal" scale is. One way to verify the convention is
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// to note the DPI of a typical monitor circa ~2005, i.e. 20" 1080p.
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#define DEFACTO_DPI 96
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double sl_output_aura_scale_factor_to_double(int scale_factor) {
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// Aura scale factor is an enum that for all currently know values
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// is a scale value multipled by 1000. For example, enum value for
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// 1.25 scale factor is 1250.
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return scale_factor / 1000.0;
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}
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2019-09-21 20:43:03 -04:00
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int dpi_to_physical_mm(double dpi, int px) {
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return px * (INCH_IN_MM / dpi);
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}
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2019-09-20 18:57:28 -04:00
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void sl_output_get_host_output_state(struct sl_host_output* host,
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int* scale,
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int* physical_width,
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int* physical_height,
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int* width,
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int* height) {
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// The user's chosen zoom level.
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2019-09-20 18:57:28 -04:00
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double current_scale =
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sl_output_aura_scale_factor_to_double(host->current_scale);
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2019-09-21 20:43:03 -04:00
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// The scale applied to a screen at the default zoom. I.e. this value
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// determines the meaning of "100%" zoom, and how zoom relates to the
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// apparent resolution:
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//
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// apparent_res = native_res / device_scale_factor * current_scale
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//
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// e.g.: On a device with a DSF of 2.0, 80% zoom really means "apply 1.6x
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// scale", and 50% zoom would give you an apparent resolution equal to the
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// native one.
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double device_scale_factor =
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sl_output_aura_scale_factor_to_double(host->device_scale_factor);
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// Optimistically, we will try to apply the scale that the user chose.
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// Failing that, we will use the scale set for this wl_output.
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double applied_scale = device_scale_factor * current_scale;
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if (!host->ctx->aura_shell) {
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applied_scale = host->scale_factor;
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}
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int target_dpi = DEFACTO_DPI;
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if (host->ctx->xwayland) {
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// For X11, we must fix the scale to be 1 (since X apps typically can't
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// handle scaling). As a result, we adjust the resolution (based on the
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// scale we want to apply and sommelier's configuration) and the physical
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// dimensions (based on what DPI we want the applications to use). E.g.:
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// - Device scale is 1.25x, with 1920x1080 resolution on a 295mm by 165mm
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// screen.
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// - User chosen zoom is 130%
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// - Sommelier is scaled to 0.5 (a.k.a low density). Since ctx->scale also
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// has the device scale, it will be 0.625 (i.e. 0.5 * 1.25).
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// - We want the DPI to be 120 (i.e. 96 * 1.25)
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// - Meaning 0.21 mm/px
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// - We report resolution 738x415 (1920x1080 * 0.5 / 1.3)
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// - We report dimensions 155mm by 87mm (738x415 * 0.21)
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// This is mostly expected, another way of thinking about them is that zoom
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// and scale modify the application's understanding of length:
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// - Increasing the zoom makes lengths appear longer (i.e. fewer mm to work
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// with over the same real length).
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// - Scaling the screen does the inverse.
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if (scale)
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*scale = 1;
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*width = host->width * host->ctx->scale / applied_scale;
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*height = host->height * host->ctx->scale / applied_scale;
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target_dpi = DEFACTO_DPI * device_scale_factor;
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*physical_width = dpi_to_physical_mm(target_dpi, *width);
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*physical_height = dpi_to_physical_mm(target_dpi, *height);
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} else {
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// For wayland, we directly apply the scale which combines the user's chosen
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// preference (from aura) and the scale which this sommelier was configured
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// for (i.e. based on ctx->scale, which comes from the env/cmd line).
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//
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// See above comment: ctx->scale already has the device_scale_factor in it,
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// so this maths actually looks like:
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//
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// applied / ctx->scale
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// = (current*DSF) / (config*DSF)
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// = current / config
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//
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// E.g. if we configured sommelier to scale everything 0.5x, and the user
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// has chosen 130% zoom, we are applying 2.6x scale factor.
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int s = MIN(ceil(applied_scale / host->ctx->scale), MAX_OUTPUT_SCALE);
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if (scale)
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*scale = s;
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*physical_width = host->physical_width;
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*physical_height = host->physical_height;
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*width = host->width * host->ctx->scale * s / applied_scale;
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*height = host->height * host->ctx->scale * s / applied_scale;
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target_dpi = (*width * INCH_IN_MM) / *physical_width;
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}
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if (host->ctx->dpi.size) {
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int adjusted_dpi = *((int*)host->ctx->dpi.data);
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int* p;
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2019-09-21 20:43:03 -04:00
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// Choose the DPI bucket which is closest to the target DPI which we
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// calculated above.
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wl_array_for_each(p, &host->ctx->dpi) {
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if (abs(*p - target_dpi) < abs(adjusted_dpi - target_dpi))
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adjusted_dpi = *p;
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}
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2019-09-21 20:43:03 -04:00
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*physical_width = dpi_to_physical_mm(adjusted_dpi, *width);
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*physical_height = dpi_to_physical_mm(adjusted_dpi, *height);
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}
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}
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void sl_output_send_host_output_state(struct sl_host_output* host) {
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int scale;
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int physical_width;
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int physical_height;
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int width;
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int height;
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sl_output_get_host_output_state(host, &scale, &physical_width,
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&physical_height, &width, &height);
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// Use density of internal display for all Xwayland outputs. X11 clients
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// typically lack support for dynamically changing density so it's
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// preferred to always use the density of the internal display.
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if (host->ctx->xwayland) {
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struct sl_host_output* output;
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wl_list_for_each(output, &host->ctx->host_outputs, link) {
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if (output->internal) {
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int internal_width;
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int internal_height;
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sl_output_get_host_output_state(output, NULL, &physical_width,
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&physical_height, &internal_width,
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&internal_height);
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physical_width = (physical_width * width) / internal_width;
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physical_height = (physical_height * height) / internal_height;
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break;
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}
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}
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}
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// X/Y are best left at origin as managed X windows are kept centered on
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// the root window. The result is that all outputs are overlapping and
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// pointer events can always be dispatched to the visible region of the
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// window.
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wl_output_send_geometry(host->resource, 0, 0, physical_width, physical_height,
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host->subpixel, host->make, host->model,
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host->transform);
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wl_output_send_mode(host->resource, host->flags | WL_OUTPUT_MODE_CURRENT,
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width, height, host->refresh);
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if (wl_resource_get_version(host->resource) >= WL_OUTPUT_SCALE_SINCE_VERSION)
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wl_output_send_scale(host->resource, scale);
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if (wl_resource_get_version(host->resource) >= WL_OUTPUT_DONE_SINCE_VERSION)
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wl_output_send_done(host->resource);
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}
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static void sl_output_geometry(void* data,
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struct wl_output* output,
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int x,
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int y,
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int physical_width,
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int physical_height,
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int subpixel,
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const char* make,
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const char* model,
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int transform) {
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struct sl_host_output* host = wl_output_get_user_data(output);
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host->x = x;
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host->y = y;
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host->physical_width = physical_width;
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host->physical_height = physical_height;
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host->subpixel = subpixel;
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free(host->model);
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host->model = strdup(model);
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free(host->make);
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host->make = strdup(make);
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host->transform = transform;
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}
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static void sl_output_mode(void* data,
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struct wl_output* output,
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uint32_t flags,
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int width,
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int height,
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int refresh) {
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struct sl_host_output* host = wl_output_get_user_data(output);
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host->flags = flags;
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host->width = width;
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host->height = height;
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host->refresh = refresh;
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}
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static void sl_output_done(void* data, struct wl_output* output) {
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struct sl_host_output* host = wl_output_get_user_data(output);
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// Early out if scale is expected but not yet know.
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if (host->expecting_scale)
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return;
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sl_output_send_host_output_state(host);
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// Expect scale if aura output exists.
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if (host->aura_output)
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host->expecting_scale = 1;
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}
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static void sl_output_scale(void* data,
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struct wl_output* output,
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int32_t scale_factor) {
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struct sl_host_output* host = wl_output_get_user_data(output);
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host->scale_factor = scale_factor;
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}
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static const struct wl_output_listener sl_output_listener = {
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sl_output_geometry, sl_output_mode, sl_output_done, sl_output_scale};
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static void sl_aura_output_scale(void* data,
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struct zaura_output* output,
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uint32_t flags,
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uint32_t scale) {
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struct sl_host_output* host = zaura_output_get_user_data(output);
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if (flags & ZAURA_OUTPUT_SCALE_PROPERTY_CURRENT)
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host->current_scale = scale;
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if (flags & ZAURA_OUTPUT_SCALE_PROPERTY_PREFERRED)
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host->preferred_scale = scale;
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host->expecting_scale = 0;
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}
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static void sl_aura_output_connection(void* data,
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struct zaura_output* output,
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uint32_t connection) {
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struct sl_host_output* host = zaura_output_get_user_data(output);
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host->internal = connection == ZAURA_OUTPUT_CONNECTION_TYPE_INTERNAL;
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}
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static void sl_aura_output_device_scale_factor(void* data,
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struct zaura_output* output,
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uint32_t device_scale_factor) {
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struct sl_host_output* host = zaura_output_get_user_data(output);
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host->device_scale_factor = device_scale_factor;
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}
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static const struct zaura_output_listener sl_aura_output_listener = {
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sl_aura_output_scale, sl_aura_output_connection,
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sl_aura_output_device_scale_factor};
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static void sl_destroy_host_output(struct wl_resource* resource) {
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struct sl_host_output* host = wl_resource_get_user_data(resource);
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if (host->aura_output)
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zaura_output_destroy(host->aura_output);
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if (wl_output_get_version(host->proxy) >= WL_OUTPUT_RELEASE_SINCE_VERSION) {
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wl_output_release(host->proxy);
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} else {
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wl_output_destroy(host->proxy);
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}
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wl_resource_set_user_data(resource, NULL);
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wl_list_remove(&host->link);
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free(host->make);
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free(host->model);
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free(host);
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}
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static void sl_bind_host_output(struct wl_client* client,
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void* data,
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uint32_t version,
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uint32_t id) {
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struct sl_output* output = (struct sl_output*)data;
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struct sl_context* ctx = output->ctx;
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struct sl_host_output* host;
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host = malloc(sizeof(*host));
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assert(host);
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host->ctx = ctx;
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host->resource = wl_resource_create(client, &wl_output_interface,
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MIN(version, output->version), id);
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wl_resource_set_implementation(host->resource, NULL, host,
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sl_destroy_host_output);
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host->proxy = wl_registry_bind(wl_display_get_registry(ctx->display),
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output->id, &wl_output_interface,
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wl_resource_get_version(host->resource));
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wl_output_set_user_data(host->proxy, host);
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wl_output_add_listener(host->proxy, &sl_output_listener, host);
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host->aura_output = NULL;
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// We assume that first output is internal by default.
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host->internal = wl_list_empty(&ctx->host_outputs);
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host->x = 0;
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host->y = 0;
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host->physical_width = 0;
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host->physical_height = 0;
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host->subpixel = WL_OUTPUT_SUBPIXEL_UNKNOWN;
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host->make = strdup("unknown");
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host->model = strdup("unknown");
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host->transform = WL_OUTPUT_TRANSFORM_NORMAL;
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host->flags = 0;
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host->width = 1024;
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host->height = 768;
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host->refresh = 60000;
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host->scale_factor = 1;
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host->current_scale = 1000;
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host->preferred_scale = 1000;
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host->device_scale_factor = 1000;
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host->expecting_scale = 0;
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wl_list_insert(ctx->host_outputs.prev, &host->link);
|
|
|
|
if (ctx->aura_shell) {
|
|
|
|
host->expecting_scale = 1;
|
|
|
|
host->internal = 0;
|
|
|
|
host->aura_output =
|
|
|
|
zaura_shell_get_aura_output(ctx->aura_shell->internal, host->proxy);
|
|
|
|
zaura_output_set_user_data(host->aura_output, host);
|
|
|
|
zaura_output_add_listener(host->aura_output, &sl_aura_output_listener,
|
|
|
|
host);
|
|
|
|
}
|
|
|
|
}
|
|
|
|
|
|
|
|
struct sl_global* sl_output_global_create(struct sl_output* output) {
|
|
|
|
return sl_global_create(output->ctx, &wl_output_interface, output->version,
|
|
|
|
output, sl_bind_host_output);
|
|
|
|
}
|