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/*
* Copyright Geoff Levand <geoff@infradead.org>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "config.h"
#define _GNU_SOURCE
#include <assert.h>
#include <string.h>
#include <linux/input.h>
#include "list/list.h"
#include "log/log.h"
#include "talloc/talloc.h"
#include "waiter/waiter.h"
#include "ui/common/ui-system.h"
#include "pbt-scr.h"
void _pbt_dump_event(const char *text, twin_window_t *twindow,
const twin_event_t *tevent, const char *func, int line)
{
switch(tevent->kind) {
case TwinEventButtonDown:
DBG("%s:%d: %s@%p: TwinEventButtonDown %x\n", func, line, text,
twindow, tevent->kind);
return;
case TwinEventButtonUp:
DBG("%s:%d: %s@%p: TwinEventButtonUp %x\n", func, line, text,
twindow, tevent->kind);
return;
case TwinEventMotion:
//DBG("%s:%d:%s@%p: TwinEventMotion %x\n", func, line, text,
// twindow, tevent->kind);
return;
case TwinEventEnter:
DBG("%s:%d: %s@%p: TwinEventEnter %x\n", func, line, text,
twindow, tevent->kind);
return;
case TwinEventLeave:
DBG("%s:%d: %s@%p: TwinEventLeave %x\n", func, line, text,
twindow, tevent->kind);
return;
case TwinEventKeyDown:
case TwinEventKeyUp:
{
const char *kind = (tevent->kind == TwinEventKeyDown)
? "TwinEventKeyDown" : "TwinEventKeyUp ";
switch(tevent->u.key.key) {
case (twin_keysym_t)XK_Up:
case (twin_keysym_t)KEY_UP:
DBG("%s:%d: %s@%p: %s = 'KEY_UP'\n", func, line, text,
twindow, kind);
return;
case (twin_keysym_t)XK_Down:
case (twin_keysym_t)KEY_DOWN:
DBG("%s:%d: %s@%p: %s = 'KEY_DOWN'\n", func, line, text,
twindow, kind);
return;
case (twin_keysym_t)XK_Right:
case (twin_keysym_t)KEY_RIGHT:
DBG("%s:%d: %s@%p: %s = 'KEY_RIGHT'\n", func, line, text,
twindow, kind);
return;
case (twin_keysym_t)XK_Left:
case (twin_keysym_t)KEY_LEFT:
DBG("%s:%d: %s@%p: %s = 'KEY_LEFT'\n", func, line, text,
twindow, kind);
return;
case (twin_keysym_t)XK_Escape:
case (twin_keysym_t)KEY_ESC:
DBG("%s:%d: %s@%p: %s = 'KEY_ESC'\n", func, line, text,
twindow, kind);
return;
case (twin_keysym_t)XK_Return:
case (twin_keysym_t)KEY_ENTER:
DBG("%s:%d: %s@%p: %s = 'KEY_ENTER'\n", func, line, text,
twindow, kind);
return;
case (twin_keysym_t)XK_Delete:
case (twin_keysym_t)KEY_DELETE:
DBG("%s:%d: %s@%p: %s = 'KEY_DELETE'\n", func, line, text,
twindow, kind);
return;
case (twin_keysym_t)XK_BackSpace:
case (twin_keysym_t)KEY_BACKSPACE:
DBG("%s:%d: %s@%p: %s = 'KEY_BACKSPACE'\n", func, line, text,
twindow, kind);
return;
default:
DBG("%s:%d: %s@%p: %s = %d (%xh) = '%c'\n", func, line, text, twindow,
kind,
tevent->u.key.key, tevent->u.key.key,
(char)tevent->u.key.key);
}
return;
}
default:
DBG("%s:%d: %s@%p: %x\n", func, line, text, twindow, tevent->kind);
break;
}
}
/**
* pbt_background_load - Load the background pixmap from storage.
* @filename: File name of a jpg background.
*
* Returns the default background if @filename is NULL. Returns a default
* pattern if the load of @filename fails.
*/
twin_pixmap_t *pbt_background_load(twin_screen_t *tscreen,
const char *filename)
{
static const char *default_background_file =
PB_ARTWORK_PATH "/background.jpg";
twin_pixmap_t *raw_background;
twin_pixmap_t *scaled_background;
if (!filename)
filename = default_background_file;
raw_background = twin_jpeg_to_pixmap(filename, TWIN_ARGB32);
if (!raw_background) {
pb_log("%s: loading image '%s' failed\n", __func__, filename);
/* Fallback to a default pattern */
return twin_make_pattern();
}
if (tscreen->height == raw_background->height &&
tscreen->width == raw_background->width)
return raw_background;
/* Scale as needed. */
twin_fixed_t sx, sy;
twin_operand_t srcop;
scaled_background = twin_pixmap_create(TWIN_ARGB32,
tscreen->width,
tscreen->height);
if (!scaled_background) {
pb_log("%s: scale '%s' failed\n", __func__, filename);
twin_pixmap_destroy(raw_background);
return twin_make_pattern();
}
sx = twin_fixed_div(twin_int_to_fixed(raw_background->width),
twin_int_to_fixed(tscreen->width));
sy = twin_fixed_div(twin_int_to_fixed(raw_background->height),
twin_int_to_fixed(tscreen->height));
twin_matrix_scale(&raw_background->transform, sx, sy);
srcop.source_kind = TWIN_PIXMAP;
srcop.u.pixmap = raw_background;
twin_composite(scaled_background, 0, 0, &srcop, 0, 0,
NULL, 0, 0, TWIN_SOURCE,
tscreen->width, tscreen->height);
twin_pixmap_destroy(raw_background);
return scaled_background;
}
const char *pbt_icon_chooser(const char *hint)
{
if (strstr(hint, "net"))
return PB_ARTWORK_PATH "/network.png";
return NULL;
}
/**
* pbt_icon_load - Load an icon pixmap from storage.
* @filename: File name of a png icon.
*
* Returns the default icon if @filename is NULL, or if the load
* of @filename fails.
* Caches pixmaps based on a hash of the @filename string.
*/
twin_pixmap_t *pbt_icon_load(const char *filename)
{
static const char *default_icon_file = PB_ARTWORK_PATH "/tux.png";
struct cache_entry {
struct list_item list;
int hash;
twin_pixmap_t *icon;
};
STATIC_LIST(icon_cache);
struct cache_entry new;
struct cache_entry *i;
if (!filename)
filename = default_icon_file;
retry:
new.hash = pb_elf_hash(filename);
list_for_each_entry(&icon_cache, i, list) {
if (i->hash == new.hash) {
DBGS("found %p\n", i->icon);
return i->icon;
}
}
new.icon = twin_png_to_pixmap(filename, TWIN_ARGB32);
if (!new.icon) {
pb_log("%s: loading image '%s' failed\n", __func__, filename);
if (filename == default_icon_file)
return NULL;
filename = default_icon_file;
goto retry;
}
DBGS("new %p\n", new.icon);
i = talloc(NULL, struct cache_entry);
*i = new;
list_add(&icon_cache, &i->list);
pbt_dump_pixmap(new.icon);
return new.icon;
}
/**
* pbt_border_draw - Draw a border on a pixmap.
* @pixmap: The image to operate on.
* @border: The border to draw.
*/
void pbt_border_draw(twin_pixmap_t *pixmap, const struct pbt_border *border)
{
twin_path_t *path = twin_path_create();
twin_argb32_t fill = border->fill_color ? border->fill_color
: 0xff000000; /* default to black */
assert(path);
//pbt_dump_pixmap(pixmap);
if (border->left) {
twin_path_rectangle(path, 0, 0,
twin_int_to_fixed(border->left),
twin_int_to_fixed(pixmap->height));
}
if (border->right) {
twin_path_rectangle(path,
twin_int_to_fixed(pixmap->width - border->right),
0,
twin_int_to_fixed(pixmap->width),
twin_int_to_fixed(pixmap->height));
}
if (border->top) {
twin_path_rectangle(path, 0, 0,
twin_int_to_fixed(pixmap->width),
twin_int_to_fixed(border->top));
}
if (border->bottom) {
twin_path_rectangle(path, 0,
twin_int_to_fixed(pixmap->height - border->bottom),
twin_int_to_fixed(pixmap->width),
twin_int_to_fixed(border->bottom));
}
twin_paint_path(pixmap, fill, path);
twin_path_empty(path);
}
int pbt_window_contains(const twin_window_t *window, const twin_event_t *event)
{
pbt_dump_pixmap(window->pixmap);
if (event->u.pointer.x < window->pixmap->x) {
DBGS("%p: {%d,%d} left miss\n", window, event->u.pointer.x, event->u.pointer.y);
return 0;
}
if (event->u.pointer.x >= window->pixmap->x + window->pixmap->width) {
DBGS("%p: {%d,%d} right miss\n", window, event->u.pointer.x, event->u.pointer.y);
return 0;
}
if (event->u.pointer.y < window->pixmap->y) {
DBGS("%p: {%d,%d} high miss\n", window, event->u.pointer.x, event->u.pointer.y);
return 0;
}
if (event->u.pointer.y >= window->pixmap->y + window->pixmap->height){
DBGS("%p: {%d,%d} low miss\n", window, event->u.pointer.x, event->u.pointer.y);
return 0;
}
DBGS("%p: {%d,%d} hit\n", window, event->u.pointer.x, event->u.pointer.y);
return 1;
}
static __attribute__((unused)) void pbt_image_copy(twin_pixmap_t *dest, twin_pixmap_t *src)
{
twin_operand_t op;
assert(dest->height >= src->height);
op.source_kind = TWIN_PIXMAP;
op.u.pixmap = src;
twin_composite(dest, 0, 0, &op, 0, 0, NULL,
0, 0, TWIN_SOURCE, src->width, src->height);
}
void pbt_image_draw(twin_pixmap_t *dest, twin_pixmap_t *image)
{
twin_operand_t src;
int offset;
assert(dest->height >= image->height);
src.source_kind = TWIN_PIXMAP;
src.u.pixmap = image;
/* Center the image in the window. */
offset = (dest->height - image->height) / 2;
twin_composite(dest, offset, offset, &src, 0, 0, NULL,
0, 0, TWIN_SOURCE, image->width, image->height);
}
static int pbt_twin_waiter_cb(struct pbt_twin_ctx *twin_ctx)
{
#if defined(HAVE_LIBTWIN_TWIN_X11_H)
if (twin_ctx->backend == pbt_twin_x11)
twin_x11_process_events(twin_ctx->x11);
#endif
#if defined(HAVE_LIBTWIN_TWIN_FBDEV_H)
if (twin_ctx->backend == pbt_twin_fbdev)
twin_fbdev_process_events(twin_ctx->fbdev);
#endif
return 0;
};
static void pbt_scr_destructor(struct pbt_scr *scr)
{
pb_log("%s\n", __func__);
twin_x11_destroy(scr->twin_ctx.x11);
// FIXME: need cursor cleanup???
memset(scr, 0, sizeof(*scr));
}
struct pbt_scr *pbt_scr_init(void *talloc_ctx, enum pbt_twin_backend backend,
unsigned int width, unsigned int height,
const char *filename_background,
twin_bool_t (*scr_event_cb)(twin_screen_t *tscreen,
twin_event_t *event))
{
struct pbt_scr *scr = talloc_zero(talloc_ctx, struct pbt_scr);
int waiter_fd = -1;
assert(backend && backend < 3);
assert(width > 100);
assert(height > 100);
if (!scr) {
pb_log("%s: alloc pbt_scr failed.\n", __func__);
goto fail_alloc;
}
talloc_set_destructor(scr, (void *)pbt_scr_destructor);
twin_feature_init(); // FIXME: need it???
scr->twin_ctx.backend = backend;
if (backend == pbt_twin_x11) {
pb_log("%s: using twin x11 backend.\n", __func__);
#if !defined(HAVE_LIBTWIN_TWIN_X11_H)
assert(0);
#else
scr->twin_ctx.x11 = twin_x11_create_ext(XOpenDisplay(0), width,
height, 0);
if (!scr->twin_ctx.x11) {
pb_log("%s: twin_x11_create_ext failed.\n", __func__);
perror("failed to create twin x11 context\n");
goto fail_ctx_create;
}
pb_log("%s: x11: %p\n", __func__, scr->twin_ctx.x11);
assert(scr->twin_ctx.x11->screen);
scr->tscreen = scr->twin_ctx.x11->screen;
waiter_fd = ConnectionNumber(scr->twin_ctx.x11->dpy);
#endif
} else if (backend == pbt_twin_fbdev) {
pb_log("%s: using twin fbdev backend.\n", __func__);
#if !defined(HAVE_LIBTWIN_TWIN_FBDEV_H)
assert(0);
#else
scr->twin_ctx.fbdev = twin_fbdev_create_ext(-1, SIGUSR1, 0);
if (!scr->twin_ctx.fbdev) {
pb_log("%s: twin_fbdev_create_ext failed.\n", __func__);
perror("failed to create twin fbdev context\n");
goto fail_ctx_create;
}
assert(scr->twin_ctx.fbdev->screen);
scr->tscreen = scr->twin_ctx.fbdev->screen;
waiter_fd = scr->twin_ctx.fbdev->vt_fd;
twin_fbdev_activate(scr->twin_ctx.fbdev);
#endif
}
scr->tscreen->event_filter = scr_event_cb;
twin_screen_set_background(scr->tscreen,
pbt_background_load(scr->tscreen, filename_background));
assert(waiter_fd != -1);
waiter_register(waiter_fd, WAIT_IN, (void *)pbt_twin_waiter_cb,
&scr->twin_ctx);
return scr;
fail_ctx_create:
fail_alloc:
return NULL;
}
void pbt_window_redraw(twin_window_t *twindow)
{
twin_window_damage(twindow, 0, 0, twindow->pixmap->width,
twindow->pixmap->height);
//twin_window_queue_paint(twindow);
twin_window_draw(twindow);
}
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