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/*
libparted - a library for manipulating disk partitions
Copyright (C) 2001, 2007, 2009-2014, 2019-2022 Free Software Foundation,
Inc.
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; either version 3 of the License, or
(at your option) any later version.
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, see <http://www.gnu.org/licenses/>.
*/
/** \file timer.c */
/**
* \addtogroup PedTimer
*
* \brief A PedTimer keeps track of the progress of a single (possibly
* compound) operation.
*
* The user of libparted constructs a PedTimer, and passes it to libparted
* functions that are likely to be expensive operations
* (like ped_file_system_resize). Use of timers is optional... you may
* pass NULL instead.
*
* When you create a PedTimer, you must specify a timer handler function.
* This will be called when there's an update on how work is progressing.
*
* Timers may be nested. When a timer is constructed, you can choose
* to assign it a parent, along with an estimate of what proportion of
* the total (parent's) time will be used in the nested operation. In
* this case, the nested timer's handler is internal to libparted,
* and simply updates the parent's progress, and calls its handler.
*
* @{
*/
#include <config.h>
#include <parted/parted.h>
#include <parted/debug.h>
typedef struct {
PedTimer* parent;
float nest_frac;
float start_frac;
} NestedContext;
/**
* \brief Creates a timer.
*
* Context will be passed in the \p context
* argument to the \p handler, when it is invoked.
*
* \return a new PedTimer
*/
PedTimer*
ped_timer_new (PedTimerHandler* handler, void* context)
{
PedTimer* timer;
PED_ASSERT (handler != NULL);
timer = (PedTimer*) ped_malloc (sizeof (PedTimer));
if (!timer)
return NULL;
timer->handler = handler;
timer->context = context;
ped_timer_reset (timer);
return timer;
}
/**
* \brief Destroys a \p timer.
*/
void
ped_timer_destroy (PedTimer* timer)
{
if (!timer)
return;
free (timer);
}
/* This function is used by ped_timer_new_nested() as the timer->handler
* function.
*/
static void
_nest_handler (PedTimer* timer, void* context)
{
NestedContext* ncontext = (NestedContext*) context;
ped_timer_update (
ncontext->parent,
ncontext->start_frac + ncontext->nest_frac * timer->frac);
}
/**
* \brief Creates a new nested timer.
*
* This function creates a "nested" timer that describes the progress
* of a subtask. \p parent is the parent timer, and \p nested_frac is
* the estimated proportion (between 0 and 1) of the time that will be
* spent doing the nested timer's operation. The timer should only be
* constructed immediately prior to starting the nested operation.
* (It will be inaccurate, otherwise).
* Updates to the progress of the subtask are propagated
* back through to the parent task's timer.
*
* \return nested timer
*/
PedTimer*
ped_timer_new_nested (PedTimer* parent, float nest_frac)
{
NestedContext* context;
if (!parent)
return NULL;
PED_ASSERT (nest_frac >= 0.0f);
PED_ASSERT (nest_frac <= 1.0f);
context = (NestedContext*) ped_malloc (sizeof (NestedContext));
if (!context)
return NULL;
context->parent = parent;
context->nest_frac = nest_frac;
context->start_frac = parent->frac;
return ped_timer_new (_nest_handler, context);
}
/**
* \brief Destroys a nested \p timer.
*/
void
ped_timer_destroy_nested (PedTimer* timer)
{
if (!timer)
return;
free (timer->context);
ped_timer_destroy (timer);
}
/**
* \internal
*
* \brief This function calls the update handler, making sure that it has
* the latest time.
*
* First it updates \p timer->now and recomputes \p timer->predicted_end,
* and then calls the handler.
*/
void
ped_timer_touch (PedTimer* timer)
{
if (!timer)
return;
timer->now = time (NULL);
if (timer->now > timer->predicted_end)
timer->predicted_end = timer->now;
timer->handler (timer, timer->context);
}
/**
* \internal
*
* \brief This function sets the \p timer into a "start of task" position.
*
* It resets the \p timer, by setting \p timer->start and \p timer->now
* to the current time.
*/
void
ped_timer_reset (PedTimer* timer)
{
if (!timer)
return;
timer->start = timer->now = timer->predicted_end = time (NULL);
timer->state_name = NULL;
timer->frac = 0;
ped_timer_touch (timer);
}
/**
* \internal
*
* \brief This function tells a \p timer what fraction \p frac of the task
* has been completed.
*
* Sets the new \p timer->frac, and calls ped_timer_touch().
*/
void
ped_timer_update (PedTimer* timer, float frac)
{
if (!timer)
return;
timer->now = time (NULL);
timer->frac = frac;
if (frac)
timer->predicted_end
= timer->start
+ (long) ((timer->now - timer->start) / frac);
ped_timer_touch (timer);
}
/**
* \internal
*
* \brief This function changes the description of the current task that the
* \p timer describes.
*
* Sets a new name - \p state_name - for the current "phase" of the operation,
* and calls ped_timer_touch().
*/
void
ped_timer_set_state_name (PedTimer* timer, const char* state_name)
{
if (!timer)
return;
timer->state_name = state_name;
ped_timer_touch (timer);
}
/** @} */
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