gnome-shell/src/shell-recorder.c

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/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*- */
#include "config.h"
#include <fcntl.h>
#include <math.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#define GST_USE_UNSTABLE_API
#include <gst/gst.h>
#include "shell-recorder-src.h"
#include "shell-recorder.h"
#include "shell-screen-grabber.h"
#include <clutter/x11/clutter-x11.h>
#include <X11/extensions/Xfixes.h>
typedef enum {
RECORDER_STATE_CLOSED,
RECORDER_STATE_PAUSED,
RECORDER_STATE_RECORDING
} RecorderState;
typedef struct _RecorderPipeline RecorderPipeline;
struct _ShellRecorderClass
{
GObjectClass parent_class;
};
struct _ShellRecorder {
GObject parent;
/* A "maximum" amount of memory to use for buffering. This is used
* to alert the user that they are filling up memory rather than
* any that actually affects recording. (In kB)
*/
guint memory_target;
guint memory_used; /* Current memory used. (In kB) */
RecorderState state;
char *unique; /* The unique string we are using for this recording */
int count; /* How many times the recording has been started */
ClutterStage *stage;
int stage_width;
int stage_height;
ShellScreenGrabber *grabber;
gboolean have_pointer;
int pointer_x;
int pointer_y;
gboolean have_xfixes;
int xfixes_event_base;
CoglHandle recording_icon; /* icon shown while playing */
cairo_surface_t *cursor_image;
int cursor_hot_x;
int cursor_hot_y;
gboolean only_paint; /* Used to temporarily suppress recording */
int framerate;
char *pipeline_description;
char *filename;
gboolean filename_has_count; /* %c used: handle pausing differently */
/* We might have multiple pipelines that are finishing encoding
* to go along with the current pipeline where we are recording.
*/
RecorderPipeline *current_pipeline; /* current pipeline */
GSList *pipelines; /* all pipelines */
GstClockTime start_time; /* When we started recording (adjusted for pauses) */
GstClockTime last_frame_time; /* Timestamp for the last frame */
GstClockTime pause_time; /* When the pipeline was paused */
/* GSource IDs for different timeouts and idles */
guint redraw_timeout;
guint redraw_idle;
guint update_memory_used_timeout;
guint update_pointer_timeout;
guint repaint_hook_id;
};
struct _RecorderPipeline
{
ShellRecorder *recorder;
GstElement *pipeline;
GstElement *src;
int outfile;
};
static void recorder_set_stage (ShellRecorder *recorder,
ClutterStage *stage);
static void recorder_set_framerate (ShellRecorder *recorder,
int framerate);
static void recorder_set_pipeline (ShellRecorder *recorder,
const char *pipeline);
static void recorder_set_filename (ShellRecorder *recorder,
const char *filename);
static void recorder_pipeline_set_caps (RecorderPipeline *pipeline);
static void recorder_pipeline_closed (RecorderPipeline *pipeline);
enum {
PROP_0,
PROP_STAGE,
PROP_FRAMERATE,
PROP_PIPELINE,
PROP_FILENAME
};
G_DEFINE_TYPE(ShellRecorder, shell_recorder, G_TYPE_OBJECT);
/* The default value of the target frame rate; we'll never record more
* than this many frames per second, though we may record less if the
* screen isn't being redrawn. 30 is a compromise between smoothness
* and the size of the recording.
*/
#define DEFAULT_FRAMES_PER_SECOND 30
/* The time (in milliseconds) between querying the server for the cursor
* position.
*/
#define UPDATE_POINTER_TIME 100
/* The time we wait (in milliseconds) before redrawing when the memory used
* changes.
*/
#define UPDATE_MEMORY_USED_DELAY 500
/* Maximum time between frames, in milliseconds. If we don't send data
* for a long period of time, then when we send the next frame, a lot
* of work can be created for the encoder to do, so we want to force a
* periodic redraw when nothing happen.
*/
#define MAXIMUM_PAUSE_TIME 1000
/* The default pipeline. videorate is used to give a constant stream of
* frames to theora even if there is a pause because nothing is moving.
* (Theora does have some support for frames at non-uniform times, but
* things seem to break down if there are large gaps.)
*/
#define DEFAULT_PIPELINE "vp8enc quality=8 speed=6 threads=%T ! queue ! webmmux"
/* The default filename pattern. Example Screencast at 2009-03-11 00:08:15.webm
*/
#define DEFAULT_FILENAME "Screencast at %d %t.webm"
/* If we can find the amount of memory on the machine, we use half
* of that for memory_target, otherwise, we use this value, in kB.
*/
#define DEFAULT_MEMORY_TARGET (512*1024)
/* Create an emblem to show at the lower-left corner of the stage while
* recording. The emblem is drawn *after* we record the frame so doesn't
* show up in the frame.
*/
static CoglHandle
create_recording_icon (void)
{
cairo_surface_t *surface = cairo_image_surface_create (CAIRO_FORMAT_ARGB32, 32, 32);
cairo_t *cr;
cairo_pattern_t *pat;
CoglHandle texture;
cr = cairo_create (surface);
/* clear to transparent */
cairo_save (cr);
cairo_set_operator (cr, CAIRO_OPERATOR_CLEAR);
cairo_paint (cr);
cairo_restore (cr);
/* radial "glow" */
pat = cairo_pattern_create_radial (16, 16, 6,
16, 16, 14);
cairo_pattern_add_color_stop_rgba (pat, 0.0,
1, 0, 0, 1); /* opaque red */
cairo_pattern_add_color_stop_rgba (pat, 1.0,
1, 0, 0, 0); /* transparent red */
cairo_set_source (cr, pat);
cairo_paint (cr);
cairo_pattern_destroy (pat);
/* red circle */
cairo_arc (cr, 16, 16, 8,
0, 2 * M_PI);
cairo_set_source_rgb (cr, 1, 0, 0);
cairo_fill (cr);
cairo_destroy (cr);
texture = cogl_texture_new_from_data (32, 32,
COGL_TEXTURE_NONE,
CLUTTER_CAIRO_FORMAT_ARGB32,
COGL_PIXEL_FORMAT_ANY,
cairo_image_surface_get_stride (surface),
cairo_image_surface_get_data (surface));
cairo_surface_destroy (surface);
return texture;
}
static guint
get_memory_target (void)
{
FILE *f;
/* Really simple "get amount of memory on the machine" if it
* doesn't work, you just get the default memory target.
*/
f = fopen("/proc/meminfo", "r");
if (!f)
return DEFAULT_MEMORY_TARGET;
while (!feof(f))
{
gchar line_buffer[1024];
guint mem_total;
if (fscanf(f, "MemTotal: %u", &mem_total) == 1)
{
fclose(f);
return mem_total / 2;
}
/* Skip to the next line and discard what we read */
if (fgets(line_buffer, sizeof(line_buffer), f) == NULL)
break;
}
fclose(f);
return DEFAULT_MEMORY_TARGET;
}
/*
* Used to force full stage redraws during recording to avoid artifacts
*
* Note: That this will cause the stage to be repainted on
* every animation frame even if the frame wouldn't normally cause any new
* drawing
*/
static gboolean
recorder_repaint_hook (gpointer data)
{
ClutterActor *stage = data;
clutter_actor_queue_redraw (stage);
return TRUE;
}
static void
shell_recorder_init (ShellRecorder *recorder)
{
/* Calling gst_init() is a no-op if GStreamer was previously initialized */
gst_init (NULL, NULL);
shell_recorder_src_register ();
recorder->recording_icon = create_recording_icon ();
recorder->memory_target = get_memory_target();
recorder->grabber = shell_screen_grabber_new ();
recorder->state = RECORDER_STATE_CLOSED;
recorder->framerate = DEFAULT_FRAMES_PER_SECOND;
}
static void
shell_recorder_finalize (GObject *object)
{
ShellRecorder *recorder = SHELL_RECORDER (object);
GSList *l;
for (l = recorder->pipelines; l; l = l->next)
{
RecorderPipeline *pipeline = l->data;
/* Remove the back-reference. The pipeline will be freed
* when it finishes. (Or when the process exits, but that's
* out of our control.)
*/
pipeline->recorder = NULL;
}
if (recorder->update_memory_used_timeout)
g_source_remove (recorder->update_memory_used_timeout);
if (recorder->cursor_image)
cairo_surface_destroy (recorder->cursor_image);
recorder_set_stage (recorder, NULL);
recorder_set_pipeline (recorder, NULL);
recorder_set_filename (recorder, NULL);
g_object_unref (recorder->grabber);
cogl_handle_unref (recorder->recording_icon);
G_OBJECT_CLASS (shell_recorder_parent_class)->finalize (object);
}
static void
recorder_on_stage_destroy (ClutterActor *actor,
ShellRecorder *recorder)
{
recorder_set_stage (recorder, NULL);
}
/* Add together the memory used by all pipelines; both the
* currently recording pipeline and pipelines finishing
* recording asynchronously.
*/
static void
recorder_update_memory_used (ShellRecorder *recorder,
gboolean repaint)
{
guint memory_used = 0;
GSList *l;
for (l = recorder->pipelines; l; l = l->next)
{
RecorderPipeline *pipeline = l->data;
guint pipeline_memory_used;
g_object_get (pipeline->src,
"memory-used", &pipeline_memory_used,
NULL);
memory_used += pipeline_memory_used;
}
if (memory_used != recorder->memory_used)
{
recorder->memory_used = memory_used;
if (repaint)
{
/* In other cases we just queue a redraw even if we only need
* to repaint and not redraw a frame, but having changes in
* memory usage cause frames to be painted and memory used
* seems like a bad idea.
*/
recorder->only_paint = TRUE;
clutter_stage_ensure_redraw (recorder->stage);
recorder->only_paint = FALSE;
}
}
}
/* Timeout used to avoid not drawing for more than MAXIMUM_PAUSE_TIME
*/
static gboolean
recorder_redraw_timeout (gpointer data)
{
ShellRecorder *recorder = data;
recorder->redraw_timeout = 0;
clutter_actor_queue_redraw (CLUTTER_ACTOR (recorder->stage));
return FALSE;
}
static void
recorder_add_redraw_timeout (ShellRecorder *recorder)
{
if (recorder->redraw_timeout == 0)
{
recorder->redraw_timeout = g_timeout_add (MAXIMUM_PAUSE_TIME,
recorder_redraw_timeout,
recorder);
}
}
static void
recorder_remove_redraw_timeout (ShellRecorder *recorder)
{
if (recorder->redraw_timeout != 0)
{
g_source_remove (recorder->redraw_timeout);
recorder->redraw_timeout = 0;
}
}
static void
recorder_fetch_cursor_image (ShellRecorder *recorder)
{
XFixesCursorImage *cursor_image;
guchar *data;
int stride;
int i, j;
if (!recorder->have_xfixes)
return;
cursor_image = XFixesGetCursorImage (clutter_x11_get_default_display ());
if (!cursor_image)
return;
recorder->cursor_hot_x = cursor_image->xhot;
recorder->cursor_hot_y = cursor_image->yhot;
recorder->cursor_image = cairo_image_surface_create (CAIRO_FORMAT_ARGB32,
cursor_image->width,
cursor_image->height);
/* The pixel data (in typical Xlib breakage) is longs even on
* 64-bit platforms, so we have to data-convert there. For simplicity,
* just do it always
*/
data = cairo_image_surface_get_data (recorder->cursor_image);
stride = cairo_image_surface_get_stride (recorder->cursor_image);
for (i = 0; i < cursor_image->height; i++)
for (j = 0; j < cursor_image->width; j++)
*(guint32 *)(data + i * stride + 4 * j) = cursor_image->pixels[i * cursor_image->width + j];
cairo_surface_mark_dirty (recorder->cursor_image);
XFree (cursor_image);
}
/* Overlay the cursor image on the frame. We draw the cursor image
* into the host-memory buffer after we've captured the frame. An
* alternate approach would be to turn off the cursor while recording
* and draw the cursor ourselves with GL, but then we'd need to figure
* out what the cursor looks like, or hard-code a non-system cursor.
*/
static void
recorder_draw_cursor (ShellRecorder *recorder,
GstBuffer *buffer)
{
GstMapInfo info;
cairo_surface_t *surface;
cairo_t *cr;
/* We don't show a cursor unless the hot spot is in the frame; this
* means that sometimes we aren't going to draw a cursor even when
* there is a little bit overlapping within the stage */
if (recorder->pointer_x < 0 ||
recorder->pointer_y < 0 ||
recorder->pointer_x >= recorder->stage_width ||
recorder->pointer_y >= recorder->stage_height)
return;
if (!recorder->cursor_image)
recorder_fetch_cursor_image (recorder);
if (!recorder->cursor_image)
return;
gst_buffer_map (buffer, &info, GST_MAP_WRITE);
surface = cairo_image_surface_create_for_data (info.data,
CAIRO_FORMAT_ARGB32,
recorder->stage_width,
recorder->stage_height,
recorder->stage_width * 4);
cr = cairo_create (surface);
cairo_set_source_surface (cr,
recorder->cursor_image,
recorder->pointer_x - recorder->cursor_hot_x,
recorder->pointer_y - recorder->cursor_hot_y);
cairo_paint (cr);
cairo_destroy (cr);
cairo_surface_destroy (surface);
gst_buffer_unmap (buffer, &info);
}
/* Draw an overlay indicating how much of the target memory is used
* for buffering frames.
*/
static void
recorder_draw_buffer_meter (ShellRecorder *recorder)
{
int fill_level;
recorder_update_memory_used (recorder, FALSE);
/* As the buffer gets more full, we go from green, to yellow, to red */
if (recorder->memory_used > (recorder->memory_target * 3) / 4)
cogl_set_source_color4f (1, 0, 0, 1);
else if (recorder->memory_used > recorder->memory_target / 2)
cogl_set_source_color4f (1, 1, 0, 1);
else
cogl_set_source_color4f (0, 1, 0, 1);
fill_level = MIN (60, (recorder->memory_used * 60) / recorder->memory_target);
/* A hollow rectangle filled from the left to fill_level */
cogl_rectangle (recorder->stage_width - 64, recorder->stage_height - 10,
recorder->stage_width - 2, recorder->stage_height - 9);
cogl_rectangle (recorder->stage_width - 64, recorder->stage_height - 9,
recorder->stage_width - (63 - fill_level), recorder->stage_height - 3);
cogl_rectangle (recorder->stage_width - 3, recorder->stage_height - 9,
recorder->stage_width - 2, recorder->stage_height - 3);
cogl_rectangle (recorder->stage_width - 64, recorder->stage_height - 3,
recorder->stage_width - 2, recorder->stage_height - 2);
}
/* We want to time-stamp each frame based on the actual time it was
* recorded. We probably should use the pipeline clock rather than
* gettimeofday(): that would be needed to get sync'ed audio correct.
* I'm not immediately sure how to handle the adjustment we currently
* do when pausing recording - is pausing the pipeline enough?
*/
static GstClockTime
get_wall_time (void)
{
GTimeVal tv;
g_get_current_time (&tv);
return tv.tv_sec * 1000000000LL + tv.tv_usec * 1000LL;
}
/* Retrieve a frame and feed it into the pipeline
*/
static void
recorder_record_frame (ShellRecorder *recorder)
{
GstBuffer *buffer;
guint8 *data;
guint size;
GstClockTime now;
g_return_if_fail (recorder->current_pipeline != NULL);
/* If we get into the red zone, stop buffering new frames; 13/16 is
* a bit more than the 3/4 threshold for a red indicator to keep the
* indicator from flashing between red and yellow. */
if (recorder->memory_used > (recorder->memory_target * 13) / 16)
return;
/* Drop frames to get down to something like the target frame rate; since frames
* are generated with VBlank sync, we don't have full control anyways, so we just
* drop frames if the interval since the last frame is less than 75% of the
* desired inter-frame interval.
*/
now = get_wall_time();
if (now - recorder->last_frame_time < (3 * 1000000000LL / (4 * recorder->framerate)))
return;
recorder->last_frame_time = now;
size = recorder->stage_width * recorder->stage_height * 4;
data = shell_screen_grabber_grab (recorder->grabber,
0, 0, recorder->stage_width, recorder->stage_height);
buffer = gst_buffer_new();
gst_buffer_insert_memory (buffer, -1,
gst_memory_new_wrapped (0, data, size, 0,
size, data, g_free));
GST_BUFFER_PTS(buffer) = now - recorder->start_time;
recorder_draw_cursor (recorder, buffer);
shell_recorder_src_add_buffer (SHELL_RECORDER_SRC (recorder->current_pipeline->src), buffer);
gst_buffer_unref (buffer);
/* Reset the timeout that we used to avoid an overlong pause in the stream */
recorder_remove_redraw_timeout (recorder);
recorder_add_redraw_timeout (recorder);
}
/* We hook in by recording each frame right after the stage is painted
* by clutter before glSwapBuffers() makes it visible to the user.
*/
static void
recorder_on_stage_paint (ClutterActor *actor,
ShellRecorder *recorder)
{
if (recorder->state == RECORDER_STATE_RECORDING)
{
if (!recorder->only_paint)
recorder_record_frame (recorder);
cogl_set_source_texture (recorder->recording_icon);
cogl_rectangle (recorder->stage_width - 32, recorder->stage_height - 42,
recorder->stage_width, recorder->stage_height - 10);
}
if (recorder->state == RECORDER_STATE_RECORDING || recorder->memory_used != 0)
recorder_draw_buffer_meter (recorder);
}
static void
recorder_update_size (ShellRecorder *recorder)
{
ClutterActorBox allocation;
clutter_actor_get_allocation_box (CLUTTER_ACTOR (recorder->stage), &allocation);
recorder->stage_width = (int)(0.5 + allocation.x2 - allocation.x1);
recorder->stage_height = (int)(0.5 + allocation.y2 - allocation.y1);
}
static void
recorder_on_stage_notify_size (GObject *object,
GParamSpec *pspec,
ShellRecorder *recorder)
{
recorder_update_size (recorder);
/* This breaks the recording but tweaking the GStreamer pipeline a bit
* might make it work, at least if the codec can handle a stream where
* the frame size changes in the middle.
*/
if (recorder->current_pipeline)
recorder_pipeline_set_caps (recorder->current_pipeline);
}
static gboolean
recorder_idle_redraw (gpointer data)
{
ShellRecorder *recorder = data;
recorder->redraw_idle = 0;
clutter_actor_queue_redraw (CLUTTER_ACTOR (recorder->stage));
return FALSE;
}
static void
recorder_queue_redraw (ShellRecorder *recorder)
{
/* If we just queue a redraw on every mouse motion (for example), we
* starve Clutter, which operates at a very low priority. So
* we need to queue a "low priority redraw" after timeline updates
*/
if (recorder->state == RECORDER_STATE_RECORDING && recorder->redraw_idle == 0)
recorder->redraw_idle = g_idle_add_full (CLUTTER_PRIORITY_REDRAW + 1,
recorder_idle_redraw, recorder, NULL);
}
/* We use an event filter on the stage to get the XFixesCursorNotifyEvent
* and also to track cursor position (when the cursor is over the stage's
* input area); tracking cursor position here rather than with ClutterEvent
* allows us to avoid worrying about event propagation and competing
* signal handlers.
*/
static ClutterX11FilterReturn
recorder_event_filter (XEvent *xev,
ClutterEvent *cev,
gpointer data)
{
ShellRecorder *recorder = data;
if (xev->xany.window != clutter_x11_get_stage_window (recorder->stage))
return CLUTTER_X11_FILTER_CONTINUE;
if (xev->xany.type == recorder->xfixes_event_base + XFixesCursorNotify)
{
XFixesCursorNotifyEvent *notify_event = (XFixesCursorNotifyEvent *)xev;
if (notify_event->subtype == XFixesDisplayCursorNotify)
{
if (recorder->cursor_image)
{
cairo_surface_destroy (recorder->cursor_image);
recorder->cursor_image = NULL;
}
recorder_queue_redraw (recorder);
}
}
else if (xev->xany.type == MotionNotify)
{
recorder->pointer_x = xev->xmotion.x;
recorder->pointer_y = xev->xmotion.y;
recorder_queue_redraw (recorder);
}
/* We want to track whether the pointer is over the stage
* window itself, and not in a child window. A "virtual"
* crossing is one that goes directly from ancestor to child.
*/
else if (xev->xany.type == EnterNotify &&
(xev->xcrossing.detail != NotifyVirtual &&
xev->xcrossing.detail != NotifyNonlinearVirtual))
{
recorder->have_pointer = TRUE;
recorder->pointer_x = xev->xcrossing.x;
recorder->pointer_y = xev->xcrossing.y;
recorder_queue_redraw (recorder);
}
else if (xev->xany.type == LeaveNotify &&
(xev->xcrossing.detail != NotifyVirtual &&
xev->xcrossing.detail != NotifyNonlinearVirtual))
{
recorder->have_pointer = FALSE;
recorder->pointer_x = xev->xcrossing.x;
recorder->pointer_y = xev->xcrossing.y;
recorder_queue_redraw (recorder);
}
return CLUTTER_X11_FILTER_CONTINUE;
}
/* We optimize out querying the server for the pointer position if the
* pointer is in the input area of the ClutterStage. We track changes to
* that with Enter/Leave events, but we need to 100% accurate about the
* initial condition, which is a little involved.
*/
static void
recorder_get_initial_cursor_position (ShellRecorder *recorder)
{
Display *xdisplay = clutter_x11_get_default_display ();
Window xwindow = clutter_x11_get_stage_window (recorder->stage);
XWindowAttributes xwa;
Window root, child, parent;
Window *children;
guint n_children;
int root_x,root_y;
int window_x, window_y;
guint mask;
XGrabServer(xdisplay);
XGetWindowAttributes (xdisplay, xwindow, &xwa);
XQueryTree (xdisplay, xwindow, &root, &parent, &children, &n_children);
XFree (children);
if (xwa.map_state == IsViewable &&
XQueryPointer (xdisplay, parent,
&root, &child, &root_x, &root_y, &window_x, &window_y, &mask) &&
child == xwindow)
{
/* The point of this call is not actually to translate the coordinates -
* we could do that ourselves using xwa.{x,y} - but rather to see if
* the pointer is in a child of the window, which we count as "not in
* window", because we aren't guaranteed to get pointer events.
*/
XTranslateCoordinates(xdisplay, parent, xwindow,
window_x, window_y,
&window_x, &window_y, &child);
if (child == None)
{
recorder->have_pointer = TRUE;
recorder->pointer_x = window_x;
recorder->pointer_y = window_y;
}
}
else
recorder->have_pointer = FALSE;
XUngrabServer(xdisplay);
XFlush(xdisplay);
/* While we are at it, add mouse events to the event mask; they will
* be there for the stage windows that Clutter creates by default, but
* maybe this stage was created differently. Since we've already
* retrieved the event mask, it's almost free.
*/
XSelectInput(xdisplay, xwindow,
xwa.your_event_mask | EnterWindowMask | LeaveWindowMask | PointerMotionMask);
}
/* When the cursor is not over the stage's input area, we query for the
* pointer position in a timeout.
*/
static void
recorder_update_pointer (ShellRecorder *recorder)
{
Display *xdisplay = clutter_x11_get_default_display ();
Window xwindow = clutter_x11_get_stage_window (recorder->stage);
Window root, child;
int root_x,root_y;
int window_x, window_y;
guint mask;
if (recorder->have_pointer)
return;
if (XQueryPointer (xdisplay, xwindow,
&root, &child, &root_x, &root_y, &window_x, &window_y, &mask))
{
if (window_x != recorder->pointer_x || window_y != recorder->pointer_y)
{
recorder->pointer_x = window_x;
recorder->pointer_y = window_y;
recorder_queue_redraw (recorder);
}
}
}
static gboolean
recorder_update_pointer_timeout (gpointer data)
{
recorder_update_pointer (data);
return TRUE;
}
static void
recorder_add_update_pointer_timeout (ShellRecorder *recorder)
{
if (!recorder->update_pointer_timeout)
recorder->update_pointer_timeout = g_timeout_add (UPDATE_POINTER_TIME,
recorder_update_pointer_timeout,
recorder);
}
static void
recorder_remove_update_pointer_timeout (ShellRecorder *recorder)
{
if (recorder->update_pointer_timeout)
{
g_source_remove (recorder->update_pointer_timeout);
recorder->update_pointer_timeout = 0;
}
}
static void
recorder_set_stage (ShellRecorder *recorder,
ClutterStage *stage)
{
if (recorder->stage == stage)
return;
if (recorder->current_pipeline)
shell_recorder_close (recorder);
if (recorder->stage)
{
g_signal_handlers_disconnect_by_func (recorder->stage,
(void *)recorder_on_stage_destroy,
recorder);
g_signal_handlers_disconnect_by_func (recorder->stage,
(void *)recorder_on_stage_paint,
recorder);
g_signal_handlers_disconnect_by_func (recorder->stage,
(void *)recorder_on_stage_notify_size,
recorder);
clutter_x11_remove_filter (recorder_event_filter, recorder);
/* We don't don't deselect for cursor changes in case someone else just
* happened to be selecting for cursor events on the same window; sending
* us the events is close to free in any case.
*/
if (recorder->redraw_idle)
{
g_source_remove (recorder->redraw_idle);
recorder->redraw_idle = 0;
}
}
recorder->stage = stage;
if (recorder->stage)
{
int error_base;
recorder->stage = stage;
g_signal_connect (recorder->stage, "destroy",
G_CALLBACK (recorder_on_stage_destroy), recorder);
g_signal_connect_after (recorder->stage, "paint",
G_CALLBACK (recorder_on_stage_paint), recorder);
g_signal_connect (recorder->stage, "notify::width",
G_CALLBACK (recorder_on_stage_notify_size), recorder);
g_signal_connect (recorder->stage, "notify::width",
G_CALLBACK (recorder_on_stage_notify_size), recorder);
clutter_x11_add_filter (recorder_event_filter, recorder);
recorder_update_size (recorder);
recorder->have_xfixes = XFixesQueryExtension (clutter_x11_get_default_display (),
&recorder->xfixes_event_base,
&error_base);
if (recorder->have_xfixes)
XFixesSelectCursorInput (clutter_x11_get_default_display (),
clutter_x11_get_stage_window (stage),
XFixesDisplayCursorNotifyMask);
clutter_stage_ensure_current (stage);
recorder_get_initial_cursor_position (recorder);
}
}
static void
recorder_set_framerate (ShellRecorder *recorder,
int framerate)
{
if (framerate == recorder->framerate)
return;
if (recorder->current_pipeline)
shell_recorder_close (recorder);
recorder->framerate = framerate;
g_object_notify (G_OBJECT (recorder), "framerate");
}
static void
recorder_set_pipeline (ShellRecorder *recorder,
const char *pipeline)
{
if (pipeline == recorder->pipeline_description ||
(pipeline && recorder->pipeline_description && strcmp (recorder->pipeline_description, pipeline) == 0))
return;
if (recorder->current_pipeline)
shell_recorder_close (recorder);
if (recorder->pipeline_description)
g_free (recorder->pipeline_description);
recorder->pipeline_description = g_strdup (pipeline);
g_object_notify (G_OBJECT (recorder), "pipeline");
}
static void
recorder_set_filename (ShellRecorder *recorder,
const char *filename)
{
if (filename == recorder->filename ||
(filename && recorder->filename && strcmp (recorder->filename, filename) == 0))
return;
if (recorder->current_pipeline)
shell_recorder_close (recorder);
if (recorder->filename)
g_free (recorder->filename);
recorder->filename = g_strdup (filename);
g_object_notify (G_OBJECT (recorder), "filename");
}
static void
shell_recorder_set_property (GObject *object,
guint prop_id,
const GValue *value,
GParamSpec *pspec)
{
ShellRecorder *recorder = SHELL_RECORDER (object);
switch (prop_id)
{
case PROP_STAGE:
recorder_set_stage (recorder, g_value_get_object (value));
break;
case PROP_FRAMERATE:
recorder_set_framerate (recorder, g_value_get_int (value));
break;
case PROP_PIPELINE:
recorder_set_pipeline (recorder, g_value_get_string (value));
break;
case PROP_FILENAME:
recorder_set_filename (recorder, g_value_get_string (value));
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec);
break;
}
}
static void
shell_recorder_get_property (GObject *object,
guint prop_id,
GValue *value,
GParamSpec *pspec)
{
ShellRecorder *recorder = SHELL_RECORDER (object);
switch (prop_id)
{
case PROP_STAGE:
g_value_set_object (value, G_OBJECT (recorder->stage));
break;
case PROP_FRAMERATE:
g_value_set_int (value, recorder->framerate);
break;
case PROP_PIPELINE:
g_value_set_string (value, recorder->pipeline_description);
break;
case PROP_FILENAME:
g_value_set_string (value, recorder->filename);
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec);
break;
}
}
static void
shell_recorder_class_init (ShellRecorderClass *klass)
{
GObjectClass *gobject_class = G_OBJECT_CLASS (klass);
gobject_class->finalize = shell_recorder_finalize;
gobject_class->get_property = shell_recorder_get_property;
gobject_class->set_property = shell_recorder_set_property;
g_object_class_install_property (gobject_class,
PROP_STAGE,
g_param_spec_object ("stage",
"Stage",
"Stage to record",
CLUTTER_TYPE_STAGE,
G_PARAM_READWRITE));
g_object_class_install_property (gobject_class,
PROP_FRAMERATE,
g_param_spec_int ("framerate",
"Framerate",
"Framerate used for resulting video in frames-per-second",
0,
G_MAXINT,
DEFAULT_FRAMES_PER_SECOND,
G_PARAM_READWRITE));
g_object_class_install_property (gobject_class,
PROP_PIPELINE,
g_param_spec_string ("pipeline",
"Pipeline",
"GStreamer pipeline description to encode recordings",
NULL,
G_PARAM_READWRITE));
g_object_class_install_property (gobject_class,
PROP_FILENAME,
g_param_spec_string ("filename",
"Filename",
"The filename template to use for output files",
NULL,
G_PARAM_READWRITE));
}
/* Sets the GstCaps (video format, in this case) on the stream
*/
static void
recorder_pipeline_set_caps (RecorderPipeline *pipeline)
{
GstCaps *caps;
/* The data is always native-endian xRGB; videoconvert
* doesn't support little-endian xRGB, but does support
* big-endian BGRx.
*/
caps = gst_caps_new_simple ("video/x-raw",
#if G_BYTE_ORDER == G_LITTLE_ENDIAN
"format", G_TYPE_STRING, "BGRx",
#else
"format", G_TYPE_STRING, "xRGB",
#endif
"bpp", G_TYPE_INT, 32,
"depth", G_TYPE_INT, 24,
"framerate", GST_TYPE_FRACTION, pipeline->recorder->framerate, 1,
"width", G_TYPE_INT, pipeline->recorder->stage_width,
"height", G_TYPE_INT, pipeline->recorder->stage_height,
NULL);
g_object_set (pipeline->src, "caps", caps, NULL);
gst_caps_unref (caps);
}
/* Augments the supplied pipeline with the source elements: the actual
* ShellRecorderSrc element where we inject frames then additional elements
* to convert the output into something palatable.
*/
static gboolean
recorder_pipeline_add_source (RecorderPipeline *pipeline)
{
GstPad *sink_pad = NULL, *src_pad = NULL;
gboolean result = FALSE;
GstElement *videoconvert;
sink_pad = gst_bin_find_unlinked_pad (GST_BIN (pipeline->pipeline), GST_PAD_SINK);
if (sink_pad == NULL)
{
g_warning("ShellRecorder: pipeline has no unlinked sink pad");
goto out;
}
pipeline->src = gst_element_factory_make ("shellrecordersrc", NULL);
if (pipeline->src == NULL)
{
g_warning ("Can't create recorder source element");
goto out;
}
gst_bin_add (GST_BIN (pipeline->pipeline), pipeline->src);
recorder_pipeline_set_caps (pipeline);
/* The videoconvert element is a generic converter; it will convert
* our supplied fixed format data into whatever the encoder wants
*/
videoconvert = gst_element_factory_make ("videoconvert", NULL);
if (!videoconvert)
{
g_warning("Can't create videoconvert element");
goto out;
}
gst_bin_add (GST_BIN (pipeline->pipeline), videoconvert);
gst_element_link_many (pipeline->src, videoconvert, NULL);
src_pad = gst_element_get_static_pad (videoconvert, "src");
if (!src_pad)
{
g_warning("ShellRecorder: can't get src pad to link into pipeline");
goto out;
}
if (gst_pad_link (src_pad, sink_pad) != GST_PAD_LINK_OK)
{
g_warning("ShellRecorder: can't link to sink pad");
goto out;
}
result = TRUE;
out:
if (sink_pad)
gst_object_unref (sink_pad);
if (src_pad)
gst_object_unref (src_pad);
return result;
}
/* Counts '', 'a', ..., 'z', 'aa', ..., 'az', 'ba', ... */
static void
increment_unique (GString *unique)
{
int i;
for (i = unique->len - 1; i >= 0; i--)
{
if (unique->str[i] != 'z')
{
unique->str[i]++;
return;
}
else
unique->str[i] = 'a';
}
g_string_prepend_c (unique, 'a');
}
static char *
get_absolute_path (char *maybe_relative)
{
char *path;
if (g_path_is_absolute (maybe_relative))
path = g_strdup (maybe_relative);
else
{
const char *video_dir = g_get_user_special_dir (G_USER_DIRECTORY_VIDEOS);
path = g_build_filename (video_dir, maybe_relative, NULL);
}
return path;
}
/* Open a file for writing. Opening the file ourselves and using fdsink has
* the advantage over filesink of being able to use O_EXCL when we want to
* avoid overwriting* an existing file. Returns -1 if the file couldn't
* be opened.
*/
static int
recorder_open_outfile (ShellRecorder *recorder)
{
GString *unique = g_string_new (NULL); /* add to filename to make it unique */
const char *pattern;
int flags;
int outfile = -1;
recorder->count++;
pattern = recorder->filename;
if (!pattern)
pattern = DEFAULT_FILENAME;
while (TRUE)
{
GString *filename = g_string_new (NULL);
const char *p;
char *path;
for (p = pattern; *p; p++)
{
if (*p == '%')
{
switch (*(p + 1))
{
case '%':
case '\0':
g_string_append_c (filename, '%');
break;
case 'c':
{
/* Count distinguishing multiple files created in session */
g_string_append_printf (filename, "%d", recorder->count);
recorder->filename_has_count = TRUE;
}
break;
case 'd':
{
/* Appends date according to locale */
GDateTime *datetime = g_date_time_new_now_local ();
char *date_str = g_date_time_format (datetime, "%0x");
char *s;
for (s = date_str; *s; s++)
if (G_IS_DIR_SEPARATOR (*s))
*s = '-';
g_string_append (filename, date_str);
g_free (date_str);
g_date_time_unref (datetime);
}
break;
case 't':
{
/* Appends time according to locale */
GDateTime *datetime = g_date_time_new_now_local ();
char *time_str = g_date_time_format (datetime, "%0X");
char *s;
for (s = time_str; *s; s++)
if (G_IS_DIR_SEPARATOR (*s))
*s = ':';
g_string_append (filename, time_str);
g_free (time_str);
g_date_time_unref (datetime);
}
case 'u':
if (recorder->unique)
g_string_append (filename, recorder->unique);
else
g_string_append (filename, unique->str);
break;
default:
g_warning ("Unknown escape %%%c in filename", *p);
goto out;
}
p++;
}
else
g_string_append_c (filename, *p);
}
/* If a filename is explicitly specified without %u then we assume the user
* is fine with over-writing the old contents; putting %u in the default
* should avoid problems with malicious symlinks.
*/
flags = O_WRONLY | O_CREAT | O_TRUNC;
if (recorder->filename_has_count)
flags |= O_EXCL;
path = get_absolute_path (filename->str);
outfile = open (path, flags, 0666);
if (outfile != -1)
{
g_printerr ("Recording to %s\n", path);
g_string_free (filename, TRUE);
g_free (path);
goto out;
}
if (outfile == -1 &&
(errno != EEXIST || !recorder->filename_has_count))
{
g_warning ("Cannot open output file '%s': %s", filename->str, g_strerror (errno));
g_string_free (filename, TRUE);
g_free (path);
goto out;
}
if (recorder->unique)
{
/* We've already picked a unique string based on count=1, and now we had a collision
* for a subsequent count.
*/
g_warning ("Name collision with existing file for '%s'", filename->str);
g_string_free (filename, TRUE);
g_free (path);
goto out;
}
g_string_free (filename, TRUE);
g_free (path);
increment_unique (unique);
}
out:
if (outfile != -1)
recorder->unique = g_string_free (unique, FALSE);
else
g_string_free (unique, TRUE);
return outfile;
}
/* Augments the supplied pipeline with a sink element to write to the output
* file, if necessary.
*/
static gboolean
recorder_pipeline_add_sink (RecorderPipeline *pipeline)
{
GstPad *sink_pad = NULL, *src_pad = NULL;
GstElement *fdsink;
gboolean result = FALSE;
src_pad = gst_bin_find_unlinked_pad (GST_BIN (pipeline->pipeline), GST_PAD_SRC);
if (src_pad == NULL)
{
/* Nothing to do - assume that we were given a complete pipeline */
return TRUE;
}
pipeline->outfile = recorder_open_outfile (pipeline->recorder);
if (pipeline->outfile == -1)
goto out;
fdsink = gst_element_factory_make ("fdsink", NULL);
if (fdsink == NULL)
{
g_warning("Can't create fdsink element");
goto out;
}
gst_bin_add (GST_BIN (pipeline->pipeline), fdsink);
g_object_set (fdsink, "fd", pipeline->outfile, NULL);
sink_pad = gst_element_get_static_pad (fdsink, "sink");
if (!sink_pad)
{
g_warning("ShellRecorder: can't get sink pad to link pipeline output");
goto out;
}
if (gst_pad_link (src_pad, sink_pad) != GST_PAD_LINK_OK)
{
g_warning("ShellRecorder: can't link to sink pad");
goto out;
}
result = TRUE;
out:
if (src_pad)
gst_object_unref (src_pad);
if (sink_pad)
gst_object_unref (sink_pad);
return result;
}
static gboolean
recorder_update_memory_used_timeout (gpointer data)
{
ShellRecorder *recorder = data;
recorder->update_memory_used_timeout = 0;
recorder_update_memory_used (recorder, TRUE);
return FALSE;
}
/* We throttle down the frequency which we recompute memory usage
* and draw the buffer indicator to avoid cutting into performance.
*/
static void
recorder_pipeline_on_memory_used_changed (ShellRecorderSrc *src,
GParamSpec *spec,
RecorderPipeline *pipeline)
{
ShellRecorder *recorder = pipeline->recorder;
if (!recorder)
return;
if (recorder->update_memory_used_timeout == 0)
recorder->update_memory_used_timeout = g_timeout_add (UPDATE_MEMORY_USED_DELAY,
recorder_update_memory_used_timeout,
recorder);
}
static void
recorder_pipeline_free (RecorderPipeline *pipeline)
{
if (pipeline->pipeline != NULL)
gst_object_unref (pipeline->pipeline);
if (pipeline->outfile != -1)
close (pipeline->outfile);
g_free (pipeline);
}
/* Function gets called on pipeline-global events; we use it to
* know when the pipeline is finished.
*/
static gboolean
recorder_pipeline_bus_watch (GstBus *bus,
GstMessage *message,
gpointer data)
{
RecorderPipeline *pipeline = data;
switch (message->type)
{
case GST_MESSAGE_EOS:
recorder_pipeline_closed (pipeline);
return FALSE; /* remove watch */
case GST_MESSAGE_ERROR:
{
GError *error;
gst_message_parse_error (message, &error, NULL);
g_warning ("Error in recording pipeline: %s\n", error->message);
g_error_free (error);
recorder_pipeline_closed (pipeline);
return FALSE; /* remove watch */
}
default:
break;
}
/* Leave the watch in place */
return TRUE;
}
/* Clean up when the pipeline is finished
*/
static void
recorder_pipeline_closed (RecorderPipeline *pipeline)
{
g_signal_handlers_disconnect_by_func (pipeline->src,
(gpointer) recorder_pipeline_on_memory_used_changed,
pipeline);
gst_element_set_state (pipeline->pipeline, GST_STATE_NULL);
if (pipeline->recorder)
{
ShellRecorder *recorder = pipeline->recorder;
if (pipeline == recorder->current_pipeline)
{
/* Error case; force a close */
recorder->current_pipeline = NULL;
shell_recorder_close (recorder);
}
recorder->pipelines = g_slist_remove (recorder->pipelines, pipeline);
}
recorder_pipeline_free (pipeline);
}
/*
* Replaces '%T' in the passed pipeline with the thread count,
* the maximum possible value is 64 (limit of what vp8enc supports)
*
* It is assumes that %T occurs only once.
*/
static char*
substitute_thread_count (const char *pipeline)
{
char *tmp;
int n_threads;
GString *result;
tmp = strstr (pipeline, "%T");
if (!tmp)
return g_strdup (pipeline);
#ifdef _SC_NPROCESSORS_ONLN
{
int n_processors = sysconf (_SC_NPROCESSORS_ONLN); /* includes hyper-threading */
n_threads = MIN (MAX (1, n_processors - 1), 64);
}
#else
n_threads = 3;
#endif
result = g_string_new (NULL);
g_string_append_len (result, pipeline, tmp - pipeline);
g_string_append_printf (result, "%d", n_threads);
g_string_append (result, tmp + 2);
return g_string_free (result, FALSE);;
}
static gboolean
recorder_open_pipeline (ShellRecorder *recorder)
{
RecorderPipeline *pipeline;
const char *pipeline_description;
char *parsed_pipeline;
GError *error = NULL;
GstBus *bus;
pipeline = g_new0(RecorderPipeline, 1);
pipeline->recorder = recorder;
pipeline->outfile = - 1;
pipeline_description = recorder->pipeline_description;
if (!pipeline_description)
pipeline_description = DEFAULT_PIPELINE;
parsed_pipeline = substitute_thread_count (pipeline_description);
pipeline->pipeline = gst_parse_launch_full (parsed_pipeline, NULL,
GST_PARSE_FLAG_FATAL_ERRORS,
&error);
g_free (parsed_pipeline);
if (pipeline->pipeline == NULL)
{
g_warning ("ShellRecorder: failed to parse pipeline: %s", error->message);
g_error_free (error);
goto error;
}
if (!recorder_pipeline_add_source (pipeline))
goto error;
if (!recorder_pipeline_add_sink (pipeline))
goto error;
gst_element_set_state (pipeline->pipeline, GST_STATE_PLAYING);
bus = gst_pipeline_get_bus (GST_PIPELINE (pipeline->pipeline));
gst_bus_add_watch (bus, recorder_pipeline_bus_watch, pipeline);
gst_object_unref (bus);
g_signal_connect (pipeline->src, "notify::memory-used",
G_CALLBACK (recorder_pipeline_on_memory_used_changed), pipeline);
recorder->current_pipeline = pipeline;
recorder->pipelines = g_slist_prepend (recorder->pipelines, pipeline);
return TRUE;
error:
recorder_pipeline_free (pipeline);
return FALSE;
}
static void
recorder_close_pipeline (ShellRecorder *recorder)
{
if (recorder->current_pipeline != NULL)
{
/* This will send an EOS (end-of-stream) message after the last frame
* is written. The bus watch for the pipeline will get it and do
* final cleanup
*/
shell_recorder_src_close (SHELL_RECORDER_SRC (recorder->current_pipeline->src));
recorder->current_pipeline = NULL;
recorder->filename_has_count = FALSE;
}
}
/**
* shell_recorder_new:
* @stage: The #ClutterStage
*
* Create a new #ShellRecorder to record movies of a #ClutterStage
*
* Return value: The newly created #ShellRecorder object
*/
ShellRecorder *
shell_recorder_new (ClutterStage *stage)
{
return g_object_new (SHELL_TYPE_RECORDER,
"stage", stage,
NULL);
}
/**
* shell_recorder_set_framerate:
* @recorder: the #ShellRecorder
* @framerate: Framerate used for resulting video in frames-per-second.
*
* Sets the number of frames per second we try to record. Less frames
* will be recorded when the screen doesn't need to be redrawn this
* quickly. (This value will also be set as the framerate for the
* GStreamer pipeline; whether that has an effect on the resulting
* video will depend on the details of the pipeline and the codec. The
* default encoding to webm format doesn't pay attention to the pipeline
* framerate.)
*
* The default value is 30.
*/
void
shell_recorder_set_framerate (ShellRecorder *recorder,
int framerate)
{
g_return_if_fail (SHELL_IS_RECORDER (recorder));
recorder_set_framerate (recorder, framerate);
}
/**
* shell_recorder_set_filename:
* @recorder: the #ShellRecorder
* @filename: the filename template to use for output files,
* or %NULL for the defalt value.
*
* Sets the filename that will be used when creating output
* files. This is only used if the configured pipeline has an
* unconnected source pad (as the default pipeline does). If
* the pipeline is complete, then the filename is unused. The
* provided string is used as a template.It can contain
* the following escapes:
*
* %d: The current date as YYYYYMMDD
* %u: A string added to make the filename unique.
* '', 'a', 'b', ... 'aa', 'ab', ..
* %c: A counter that is updated (opening a new file) each
* time the recording stream is paused.
* %%: A literal percent
*
* The default value is 'shell-%d%u-%c.ogg'.
*/
void
shell_recorder_set_filename (ShellRecorder *recorder,
const char *filename)
{
g_return_if_fail (SHELL_IS_RECORDER (recorder));
recorder_set_filename (recorder, filename);
}
/**
* shell_recorder_set_pipeline:
* @recorder: the #ShellRecorder
* @pipeline: (allow-none): the GStreamer pipeline used to encode recordings
* or %NULL for the default value.
*
* Sets the GStreamer pipeline used to encode recordings.
* It follows the syntax used for gst-launch. The pipeline
* should have an unconnected sink pad where the recorded
* video is recorded. It will normally have a unconnected
* source pad; output from that pad will be written into the
* output file. (See shell_recorder_set_filename().) However
* the pipeline can also take care of its own output - this
* might be used to send the output to an icecast server
* via shout2send or similar.
*
* The default value is 'vp8enc quality=8 speed=6 threads=%T ! queue ! webmmux'
*/
void
shell_recorder_set_pipeline (ShellRecorder *recorder,
const char *pipeline)
{
g_return_if_fail (SHELL_IS_RECORDER (recorder));
recorder_set_pipeline (recorder, pipeline);
}
/**
* shell_recorder_record:
* @recorder: the #ShellRecorder
*
* Starts recording, or continues a recording that was previously
* paused. Starting the recording may fail if the output file
* cannot be opened, or if the output stream cannot be created
* for other reasons. In that case a warning is printed to
* stderr. There is no way currently to get details on how
* recording failed to start.
*
* An extra reference count is added to the recorder if recording
* is succesfully started; the recording object will not be freed
* until recording is stopped even if the creator no longer holds
* a reference. Recording is automatically stopped if the stage
* is destroyed.
*
* Return value: %TRUE if recording was succesfully started
*/
gboolean
shell_recorder_record (ShellRecorder *recorder)
{
g_return_val_if_fail (SHELL_IS_RECORDER (recorder), FALSE);
g_return_val_if_fail (recorder->stage != NULL, FALSE);
g_return_val_if_fail (recorder->state != RECORDER_STATE_RECORDING, FALSE);
if (recorder->current_pipeline)
{
/* Adjust the start time so that the times in the stream ignore the
* pause
*/
recorder->start_time = recorder->start_time + (get_wall_time() - recorder->pause_time);
recorder->last_frame_time = 0;
}
else
{
if (!recorder_open_pipeline (recorder))
return FALSE;
recorder->start_time = get_wall_time();
recorder->last_frame_time = 0;
}
recorder->state = RECORDER_STATE_RECORDING;
recorder_add_update_pointer_timeout (recorder);
/* Set up repaint hook */
recorder->repaint_hook_id = clutter_threads_add_repaint_func(recorder_repaint_hook, recorder->stage, NULL);
/* Record an initial frame and also redraw with the indicator */
clutter_actor_queue_redraw (CLUTTER_ACTOR (recorder->stage));
/* We keep a ref while recording to let a caller start a recording then
* drop their reference to the recorder
*/
g_object_ref (recorder);
return TRUE;
}
/**
* shell_recorder_pause:
* @recorder: the #ShellRecorder
*
* Temporarily stop recording. If the specified filename includes
* the %c escape, then the stream is closed and a new stream with
* an incremented counter will be created. Otherwise the stream
* is paused and will be continued when shell_recorder_record()
* is next called.
*/
void
shell_recorder_pause (ShellRecorder *recorder)
{
g_return_if_fail (SHELL_IS_RECORDER (recorder));
g_return_if_fail (recorder->state == RECORDER_STATE_RECORDING);
recorder_remove_update_pointer_timeout (recorder);
/* We want to record one more frame since some time may have
* elapsed since the last frame
*/
clutter_actor_paint (CLUTTER_ACTOR (recorder->stage));
if (recorder->filename_has_count)
recorder_close_pipeline (recorder);
recorder->state = RECORDER_STATE_PAUSED;
recorder->pause_time = get_wall_time();
/* Queue a redraw to remove the recording indicator */
clutter_actor_queue_redraw (CLUTTER_ACTOR (recorder->stage));
if (recorder->repaint_hook_id != 0)
{
clutter_threads_remove_repaint_func (recorder->repaint_hook_id);
recorder->repaint_hook_id = 0;
}
}
/**
* shell_recorder_close:
* @recorder: the #ShellRecorder
*
* Stops recording. It's possible to call shell_recorder_record()
* again to reopen a new recording stream, but unless change the
* recording filename, this may result in the old recording being
* overwritten.
*/
void
shell_recorder_close (ShellRecorder *recorder)
{
g_return_if_fail (SHELL_IS_RECORDER (recorder));
g_return_if_fail (recorder->state != RECORDER_STATE_CLOSED);
if (recorder->state == RECORDER_STATE_RECORDING)
shell_recorder_pause (recorder);
recorder_remove_update_pointer_timeout (recorder);
recorder_remove_redraw_timeout (recorder);
recorder_close_pipeline (recorder);
recorder->state = RECORDER_STATE_CLOSED;
recorder->count = 0;
g_free (recorder->unique);
recorder->unique = NULL;
/* Release the refcount we took when we started recording */
g_object_unref (recorder);
}
/**
* shell_recorder_is_recording:
*
* Determine if recording is currently in progress. (The recorder
* is not paused or closed.)
*
* Return value: %TRUE if the recorder is currently recording.
*/
gboolean
shell_recorder_is_recording (ShellRecorder *recorder)
{
g_return_val_if_fail (SHELL_IS_RECORDER (recorder), FALSE);
return recorder->state == RECORDER_STATE_RECORDING;
}