/*****************************************************************************
* variables.c: routines for object variables handling
*****************************************************************************
- * Copyright (C) 2002-2006 the VideoLAN team
+ * Copyright (C) 2002-2009 the VideoLAN team
* $Id$
*
* Authors: Samuel Hocevar <sam@zoy.org>
#endif
#include <vlc_common.h>
+#include <vlc_charset.h>
#include "variables.h"
#include "libvlc.h"
-#include "vlc_interface.h"
#include <assert.h>
/*****************************************************************************
* Local duplication functions, and local deallocation functions
*****************************************************************************/
static void DupDummy( vlc_value_t *p_val ) { (void)p_val; /* unused */ }
-static void DupString( vlc_value_t *p_val ) { if( p_val->psz_string ) p_val->psz_string = strdup( p_val->psz_string ); }
+static void DupString( vlc_value_t *p_val )
+{
+ p_val->psz_string = strdup( p_val->psz_string ? p_val->psz_string : "" );
+}
static void DupList( vlc_value_t *p_val )
{
*****************************************************************************/
static int GetUnused ( vlc_object_t *, const char * );
static uint32_t HashString ( const char * );
-static int Insert ( variable_t *, int, const char * );
-static int InsertInner ( variable_t *, int, uint32_t );
-static int Lookup ( variable_t *, size_t, const char * );
+static int Insert ( variable_t **, int, const char * );
+static int InsertInner ( variable_t **, int, uint32_t );
+static int Lookup ( variable_t **, size_t, const char * );
static void CheckValue ( variable_t *, vlc_value_t * );
static int InheritValue( vlc_object_t *, const char *, vlc_value_t *,
int );
+static int TriggerCallback( vlc_object_t *, variable_t *, const char *,
+ vlc_value_t );
+
+static void Destroy( variable_t *p_var )
+{
+ p_var->ops->pf_free( &p_var->val );
+ if( p_var->choices.i_count )
+ {
+ for( int i = 0 ; i < p_var->choices.i_count ; i++ )
+ {
+ p_var->ops->pf_free( &p_var->choices.p_values[i] );
+ free( p_var->choices_text.p_values[i].psz_string );
+ }
+ free( p_var->choices.p_values );
+ free( p_var->choices_text.p_values );
+ }
+ free( p_var->psz_name );
+ free( p_var->psz_text );
+ free( p_var->p_entries );
+ free( p_var );
+}
/**
* Initialize a vlc variable
*/
int __var_Create( vlc_object_t *p_this, const char *psz_name, int i_type )
{
- int i_new;
- variable_t *p_var;
static vlc_list_t dummy_null_list = {0, NULL, NULL};
- vlc_object_internals_t *p_priv = vlc_internals( p_this );
-
- vlc_mutex_lock( &p_priv->var_lock );
-
- /* FIXME: if the variable already exists, we don't duplicate it. But we
- * duplicate the lookups. It's not that serious, but if anyone finds some
- * time to rework Insert() so that only one lookup has to be done, feel
- * free to do so. */
- i_new = Lookup( p_priv->p_vars, p_priv->i_vars, psz_name );
-
- if( i_new >= 0 )
- {
- /* If the types differ, variable creation failed. */
- if( (i_type & ~(VLC_VAR_DOINHERIT|VLC_VAR_ISCOMMAND)) != p_priv->p_vars[i_new].i_type )
- {
- vlc_mutex_unlock( &p_priv->var_lock );
- return VLC_EBADVAR;
- }
-
- p_priv->p_vars[i_new].i_usage++;
- if( i_type & VLC_VAR_ISCOMMAND )
- p_priv->p_vars[i_new].i_type |= VLC_VAR_ISCOMMAND;
- vlc_mutex_unlock( &p_priv->var_lock );
- return VLC_SUCCESS;
- }
-
- i_new = Insert( p_priv->p_vars, p_priv->i_vars, psz_name );
-
- if( (p_priv->i_vars & 15) == 15 )
- {
- p_priv->p_vars = realloc( p_priv->p_vars,
- (p_priv->i_vars+17) * sizeof(variable_t) );
- }
-
- memmove( p_priv->p_vars + i_new + 1,
- p_priv->p_vars + i_new,
- (p_priv->i_vars - i_new) * sizeof(variable_t) );
-
- p_priv->i_vars++;
+ assert( p_this );
- p_var = &p_priv->p_vars[i_new];
- memset( p_var, 0, sizeof(*p_var) );
+ variable_t *p_var = calloc( 1, sizeof( *p_var ) );
+ if( p_var == NULL )
+ return VLC_ENOMEM;
p_var->i_hash = HashString( psz_name );
p_var->psz_name = strdup( psz_name );
p_var->psz_text = NULL;
p_var->i_type = i_type & ~VLC_VAR_DOINHERIT;
- memset( &p_var->val, 0, sizeof(vlc_value_t) );
p_var->i_usage = 1;
break;
}
- /* Duplicate the default data we stored. */
- p_var->ops->pf_dup( &p_var->val );
-
if( i_type & VLC_VAR_DOINHERIT )
{
- vlc_value_t val;
-
- if( InheritValue( p_this, psz_name, &val, p_var->i_type )
- == VLC_SUCCESS )
+ if( InheritValue( p_this, psz_name, &p_var->val, p_var->i_type ) )
+ msg_Err( p_this, "cannot inherit value for %s", psz_name );
+ else if( i_type & VLC_VAR_HASCHOICE )
{
- /* Free data if needed */
- p_var->ops->pf_free( &p_var->val );
- /* Set the variable */
- p_var->val = val;
+ /* We must add the inherited value to our choice list */
+ p_var->i_default = 0;
- if( i_type & VLC_VAR_HASCHOICE )
- {
- /* We must add the inherited value to our choice list */
- p_var->i_default = 0;
-
- INSERT_ELEM( p_var->choices.p_values, p_var->choices.i_count,
- 0, val );
- INSERT_ELEM( p_var->choices_text.p_values,
- p_var->choices_text.i_count, 0, val );
- p_var->ops->pf_dup( &p_var->choices.p_values[0] );
- p_var->choices_text.p_values[0].psz_string = NULL;
- }
+ INSERT_ELEM( p_var->choices.p_values, p_var->choices.i_count,
+ 0, p_var->val );
+ INSERT_ELEM( p_var->choices_text.p_values,
+ p_var->choices_text.i_count, 0, p_var->val );
+ p_var->ops->pf_dup( &p_var->choices.p_values[0] );
+ p_var->choices_text.p_values[0].psz_string = NULL;
}
}
+ vlc_object_internals_t *p_priv = vlc_internals( p_this );
+ int i_new;
+
+ vlc_mutex_lock( &p_priv->var_lock );
+
+ /* FIXME: if the variable already exists, we don't duplicate it. But we
+ * duplicate the lookups. It's not that serious, but if anyone finds some
+ * time to rework Insert() so that only one lookup has to be done, feel
+ * free to do so. */
+ i_new = Lookup( p_priv->pp_vars, p_priv->i_vars, psz_name );
+
+ if( i_new >= 0 )
+ {
+ /* If the types differ, variable creation failed. */
+ if( (i_type & VLC_VAR_CLASS) != (p_priv->pp_vars[i_new]->i_type & VLC_VAR_CLASS) )
+ {
+ msg_Err( p_this, "Variable '%s' (0x%04x) already exist but with a different type (0x%04x)",
+ psz_name, p_priv->pp_vars[i_new]->i_type, i_type );
+ vlc_mutex_unlock( &p_priv->var_lock );
+ return VLC_EBADVAR;
+ }
+
+ p_priv->pp_vars[i_new]->i_usage++;
+ p_priv->pp_vars[i_new]->i_type |= ( i_type & VLC_VAR_ISCOMMAND );
+ p_priv->pp_vars[i_new]->i_type |= ( i_type & VLC_VAR_HASCHOICE );
+ vlc_mutex_unlock( &p_priv->var_lock );
+
+ /* We did not need to create a new variable, free everything... */
+ Destroy( p_var );
+ return VLC_SUCCESS;
+ }
+
+ i_new = Insert( p_priv->pp_vars, p_priv->i_vars, psz_name );
+
+ if( (p_priv->i_vars & 15) == 0 )
+ p_priv->pp_vars = xrealloc( p_priv->pp_vars,
+ (p_priv->i_vars+16) * sizeof(variable_t *) );
+
+ memmove( p_priv->pp_vars + i_new + 1,
+ p_priv->pp_vars + i_new,
+ (p_priv->i_vars - i_new) * sizeof(variable_t *) );
+
+ p_priv->i_vars++;
+
+ p_priv->pp_vars[i_new] = p_var;
vlc_mutex_unlock( &p_priv->var_lock );
return VLC_SUCCESS;
{
int i_var, i;
variable_t *p_var;
+
+ assert( p_this );
+
vlc_object_internals_t *p_priv = vlc_internals( p_this );
vlc_mutex_lock( &p_priv->var_lock );
return i_var;
}
- p_var = &p_priv->p_vars[i_var];
+ p_var = p_priv->pp_vars[i_var];
if( p_var->i_usage > 1 )
{
return VLC_SUCCESS;
}
- /* Free value if needed */
- p_var->ops->pf_free( &p_var->val );
-
- /* Free choice list if needed */
- if( p_var->choices.i_count )
- {
- for( i = 0 ; i < p_var->choices.i_count ; i++ )
- {
- p_var->ops->pf_free( &p_var->choices.p_values[i] );
- free( p_var->choices_text.p_values[i].psz_string );
- }
- free( p_var->choices.p_values );
- free( p_var->choices_text.p_values );
- }
+ p_priv->i_vars--;
+ memmove( p_priv->pp_vars + i_var,
+ p_priv->pp_vars + i_var + 1,
+ (p_priv->i_vars - i_var) * sizeof(variable_t *) );
- /* Free callbacks if needed */
- if( p_var->p_entries )
+ if( p_priv->i_vars == 0 )
{
- free( p_var->p_entries );
+ free( p_priv->pp_vars );
+ p_priv->pp_vars = NULL;
}
-
- free( p_var->psz_name );
- free( p_var->psz_text );
-
- memmove( p_priv->p_vars + i_var,
- p_priv->p_vars + i_var + 1,
- (p_priv->i_vars - i_var - 1) * sizeof(variable_t) );
-
+ else
if( (p_priv->i_vars & 15) == 0 )
{
- p_priv->p_vars = realloc( p_priv->p_vars,
- (p_priv->i_vars) * sizeof( variable_t ) );
+ variable_t **pp_vars = realloc( p_priv->pp_vars,
+ (p_priv->i_vars) * sizeof(variable_t *) );
+ if( pp_vars != NULL )
+ p_priv->pp_vars = pp_vars;
}
-
- p_priv->i_vars--;
-
vlc_mutex_unlock( &p_priv->var_lock );
+ Destroy( p_var );
return VLC_SUCCESS;
}
int i_var, i;
variable_t *p_var;
vlc_value_t oldval;
+
+ assert( p_this );
+
vlc_object_internals_t *p_priv = vlc_internals( p_this );
vlc_mutex_lock( &p_priv->var_lock );
- i_var = Lookup( p_priv->p_vars, p_priv->i_vars, psz_name );
+ i_var = Lookup( p_priv->pp_vars, p_priv->i_vars, psz_name );
if( i_var < 0 )
{
return VLC_ENOVAR;
}
- p_var = &p_priv->p_vars[i_var];
+ p_var = p_priv->pp_vars[i_var];
switch( i_action )
{
}
}
break;
- case VLC_VAR_FREELIST:
- FreeList( p_val );
- if( p_val2 && p_val2->p_list )
- {
- for( i = 0; i < p_val2->p_list->i_count; i++ )
- free( p_val2->p_list->p_values[i].psz_string );
- if( p_val2->p_list->i_count )
- {
- free( p_val2->p_list->p_values );
- free( p_val2->p_list->pi_types );
- }
- free( p_val2->p_list );
- }
- break;
case VLC_VAR_SETTEXT:
free( p_var->psz_text );
if( p_val && p_val->psz_string )
p_var->psz_text = strdup( p_val->psz_string );
+ else
+ p_var->psz_text = NULL;
break;
case VLC_VAR_GETTEXT:
- p_val->psz_string = NULL;
- if( p_var->psz_text )
- {
- p_val->psz_string = strdup( p_var->psz_text );
- }
- break;
- case VLC_VAR_INHERITVALUE:
- {
- vlc_value_t val;
-
- if( InheritValue( p_this,
- p_val2 ? p_val2->psz_string : psz_name,
- &val, p_var->i_type )
- == VLC_SUCCESS )
- {
- /* Duplicate already done */
-
- /* Backup needed stuff */
- oldval = p_var->val;
- /* Check boundaries and list */
- CheckValue( p_var, &val );
- /* Set the variable */
- p_var->val = val;
- /* Free data if needed */
- p_var->ops->pf_free( &oldval );
- }
-
- if( p_val )
- {
- *p_val = p_var->val;
- p_var->ops->pf_dup( p_val );
- }
- }
+ p_val->psz_string = p_var->psz_text ? strdup( p_var->psz_text )
+ : NULL;
break;
-
case VLC_VAR_SETISCOMMAND:
p_var->i_type |= VLC_VAR_ISCOMMAND;
break;
return VLC_SUCCESS;
}
+
+/**
+ * Perform a Get and Set on a variable
+ *
+ * \param p_this: The object that hold the variable
+ * \param psz_name: the name of the variable
+ * \param i_action: the action to perform
+ * \param p_val: The action parameter
+ * \return vlc error codes
+ */
+int __var_GetAndSet( vlc_object_t *p_this, const char *psz_name, int i_action,
+ vlc_value_t val )
+{
+ int i_var;
+ int i_ret = VLC_SUCCESS;
+ variable_t *p_var;
+ vlc_value_t oldval;
+
+ assert( p_this );
+
+ vlc_object_internals_t *p_priv = vlc_internals( p_this );
+
+ vlc_mutex_lock( &p_priv->var_lock );
+ i_var = GetUnused( p_this, psz_name );
+ if( i_var < 0 )
+ {
+ vlc_mutex_unlock( &p_priv->var_lock );
+ return i_var;
+ }
+
+ p_var = p_priv->pp_vars[i_var];
+
+ /* Duplicated data if needed */
+ //p_var->ops->pf_dup( &val );
+
+ /* Backup needed stuff */
+ oldval = p_var->val;
+
+ /* depending of the action requiered */
+ switch( i_action )
+ {
+ case VLC_VAR_TOGGLE_BOOL:
+ assert( ( p_var->i_type & VLC_VAR_BOOL ) == VLC_VAR_BOOL );
+ p_var->val.b_bool = !p_var->val.b_bool;
+ break;
+ case VLC_VAR_INTEGER_INCDEC:
+ assert( ( p_var->i_type & VLC_VAR_INTEGER ) == VLC_VAR_INTEGER );
+ p_var->val.i_int += val.i_int;
+ break;
+ default:
+ vlc_mutex_unlock( &p_priv->var_lock );
+ return VLC_EGENERIC;
+ }
+
+ /* Check boundaries */
+ CheckValue( p_var, &p_var->val );
+
+ /* Deal with callbacks.*/
+ if( p_var->i_entries )
+ i_ret = TriggerCallback( p_this, p_var, psz_name, oldval );
+
+ vlc_mutex_unlock( &p_priv->var_lock );
+
+ return i_ret;
+}
+
+
/**
* Request a variable's type
*
int __var_Type( vlc_object_t *p_this, const char *psz_name )
{
int i_var, i_type;
+
+ assert( p_this );
+
vlc_object_internals_t *p_priv = vlc_internals( p_this );
vlc_mutex_lock( &p_priv->var_lock );
- i_var = Lookup( p_priv->p_vars, p_priv->i_vars, psz_name );
+ i_var = Lookup( p_priv->pp_vars, p_priv->i_vars, psz_name );
if( i_var < 0 )
{
return 0;
}
- i_type = p_priv->p_vars[i_var].i_type;
+ i_type = p_priv->pp_vars[i_var]->i_type;
vlc_mutex_unlock( &p_priv->var_lock );
int expected_type, vlc_value_t val )
{
int i_var;
+ int i_ret = VLC_SUCCESS;
variable_t *p_var;
vlc_value_t oldval;
+
+ assert( p_this );
+
vlc_object_internals_t *p_priv = vlc_internals( p_this );
vlc_mutex_lock( &p_priv->var_lock );
return i_var;
}
- p_var = &p_priv->p_vars[i_var];
- assert( (p_var->i_type & VLC_VAR_CLASS) == 0 || expected_type == 0 ||
+ p_var = p_priv->pp_vars[i_var];
+ assert( expected_type == 0 ||
(p_var->i_type & VLC_VAR_CLASS) == expected_type );
/* Duplicate data if needed */
/* Set the variable */
p_var->val = val;
- /* Deal with callbacks. Tell we're in a callback, release the lock,
- * call stored functions, retake the lock. */
+ /* Deal with callbacks */
if( p_var->i_entries )
- {
- int i_var;
- int i_entries = p_var->i_entries;
- callback_entry_t *p_entries = p_var->p_entries;
-
- p_var->b_incallback = true;
- vlc_mutex_unlock( &p_priv->var_lock );
-
- /* The real calls */
- for( ; i_entries-- ; )
- {
- p_entries[i_entries].pf_callback( p_this, psz_name, oldval, val,
- p_entries[i_entries].p_data );
- }
-
- vlc_mutex_lock( &p_priv->var_lock );
-
- i_var = Lookup( p_priv->p_vars, p_priv->i_vars, psz_name );
- if( i_var < 0 )
- {
- msg_Err( p_this, "variable %s has disappeared", psz_name );
- vlc_mutex_unlock( &p_priv->var_lock );
- return VLC_ENOVAR;
- }
-
- p_var = &p_priv->p_vars[i_var];
- p_var->b_incallback = false;
- }
+ i_ret = TriggerCallback( p_this, p_var, psz_name, oldval );
/* Free data if needed */
p_var->ops->pf_free( &oldval );
vlc_mutex_unlock( &p_priv->var_lock );
- return VLC_SUCCESS;
+ return i_ret;
}
int var_GetChecked( vlc_object_t *p_this, const char *psz_name,
int expected_type, vlc_value_t *p_val )
{
+ assert( p_this );
+
vlc_object_internals_t *p_priv = vlc_internals( p_this );
int i_var, err = VLC_SUCCESS;
vlc_mutex_lock( &p_priv->var_lock );
- i_var = Lookup( p_priv->p_vars, p_priv->i_vars, psz_name );
+ i_var = Lookup( p_priv->pp_vars, p_priv->i_vars, psz_name );
if( i_var >= 0 )
{
- variable_t *p_var = &p_priv->p_vars[i_var];
+ variable_t *p_var = p_priv->pp_vars[i_var];
- assert( (p_var->i_type & VLC_VAR_CLASS) == 0 || expected_type == 0 ||
+ assert( expected_type == 0 ||
(p_var->i_type & VLC_VAR_CLASS) == expected_type );
/* Really get the variable */
*p_val = p_var->val;
+#ifndef NDEBUG
+ /* Alert if the type is VLC_VAR_VOID */
+ if( ( p_var->i_type & VLC_VAR_TYPE ) == VLC_VAR_VOID )
+ msg_Warn( p_this, "Calling var_GetVoid on the void variable '%s' (0x%04x)", psz_name, p_var->i_type );
+#endif
+
/* Duplicate value if needed */
p_var->ops->pf_dup( p_val );
}
int i_var;
variable_t *p_var;
callback_entry_t entry;
+
+ assert( p_this );
+
vlc_object_internals_t *p_priv = vlc_internals( p_this );
entry.pf_callback = pf_callback;
i_var = GetUnused( p_this, psz_name );
if( i_var < 0 )
{
+#ifndef NDEBUG
+ msg_Warn( p_this, "Failed to add a callback to the non-existing "
+ "variable '%s'", psz_name );
+#endif
vlc_mutex_unlock( &p_priv->var_lock );
return i_var;
}
- p_var = &p_priv->p_vars[i_var];
+ p_var = p_priv->pp_vars[i_var];
INSERT_ELEM( p_var->p_entries,
p_var->i_entries,
{
int i_entry, i_var;
variable_t *p_var;
+#ifndef NDEBUG
+ bool b_found_similar = false;
+#endif
+
+ assert( p_this );
+
vlc_object_internals_t *p_priv = vlc_internals( p_this );
vlc_mutex_lock( &p_priv->var_lock );
return i_var;
}
- p_var = &p_priv->p_vars[i_var];
+ p_var = p_priv->pp_vars[i_var];
for( i_entry = p_var->i_entries ; i_entry-- ; )
{
{
break;
}
+#ifndef NDEBUG
+ else if( p_var->p_entries[i_entry].pf_callback == pf_callback )
+ b_found_similar = true;
+#endif
}
if( i_entry < 0 )
{
+#ifndef NDEBUG
+ if( b_found_similar )
+ fprintf( stderr, "Calling var_DelCallback for '%s' with the same "
+ "function but not the same data.", psz_name );
+ assert( 0 );
+#endif
vlc_mutex_unlock( &p_priv->var_lock );
return VLC_EGENERIC;
}
int __var_TriggerCallback( vlc_object_t *p_this, const char *psz_name )
{
int i_var;
+ int i_ret = VLC_SUCCESS;
variable_t *p_var;
- vlc_value_t oldval;
+
+ assert( p_this );
+
vlc_object_internals_t *p_priv = vlc_internals( p_this );
vlc_mutex_lock( &p_priv->var_lock );
return i_var;
}
- p_var = &p_priv->p_vars[i_var];
-
- /* Backup needed stuff */
- oldval = p_var->val;
+ p_var = p_priv->pp_vars[i_var];
/* Deal with callbacks. Tell we're in a callback, release the lock,
* call stored functions, retake the lock. */
if( p_var->i_entries )
- {
- int i_var;
- int i_entries = p_var->i_entries;
- callback_entry_t *p_entries = p_var->p_entries;
-
- p_var->b_incallback = true;
- vlc_mutex_unlock( &p_priv->var_lock );
-
- /* The real calls */
- for( ; i_entries-- ; )
- {
- p_entries[i_entries].pf_callback( p_this, psz_name, oldval, oldval,
- p_entries[i_entries].p_data );
- }
-
- vlc_mutex_lock( &p_priv->var_lock );
-
- i_var = Lookup( p_priv->p_vars, p_priv->i_vars, psz_name );
- if( i_var < 0 )
- {
- msg_Err( p_this, "variable %s has disappeared", psz_name );
- vlc_mutex_unlock( &p_priv->var_lock );
- return VLC_ENOVAR;
- }
-
- p_var = &p_priv->p_vars[i_var];
- p_var->b_incallback = false;
- }
+ i_ret = TriggerCallback( p_this, p_var, psz_name, p_var->val );
vlc_mutex_unlock( &p_priv->var_lock );
- return VLC_SUCCESS;
+ return i_ret;
}
/** Parse a stringified option
/* Create the variable in the input object.
* Children of the input object will be able to retreive this value
* thanks to the inheritance property of the object variables. */
- var_Create( p_obj, psz_name, i_type );
+ __var_Create( p_obj, psz_name, i_type );
switch( i_type )
{
break;
case VLC_VAR_FLOAT:
- val.f_float = atof( psz_value );
+ val.f_float = us_atof( psz_value );
break;
case VLC_VAR_STRING:
goto cleanup;
}
- var_Set( p_obj, psz_name, val );
+ __var_Set( p_obj, psz_name, val );
- // If that's a list, remove all elements allocated
+ /* If that's a list, remove all elements allocated */
if( i_type == VLC_VAR_LIST )
FreeList( &val );
/* Following functions are local */
/*****************************************************************************
- * GetUnused: find an unused variable from its name
- *****************************************************************************
- * We do i_tries tries before giving up, just in case the variable is being
- * modified and called from a callback.
+ * GetUnused: find an unused (not in callback) variable from its name
*****************************************************************************/
static int GetUnused( vlc_object_t *p_this, const char *psz_name )
{
- int i_var, i_tries = 0;
+ assert( p_this );
+
vlc_object_internals_t *p_priv = vlc_internals( p_this );
while( true )
{
- i_var = Lookup( p_priv->p_vars, p_priv->i_vars, psz_name );
+ int i_var;
+
+ i_var = Lookup( p_priv->pp_vars, p_priv->i_vars, psz_name );
if( i_var < 0 )
{
return VLC_ENOVAR;
}
- if( ! p_priv->p_vars[i_var].b_incallback )
+ if( ! p_priv->pp_vars[i_var]->b_incallback )
{
return i_var;
}
- if( i_tries++ > 100 )
- {
- msg_Err( p_this, "caught in a callback deadlock? ('%s')", psz_name );
- return VLC_ETIMEOUT;
- }
-
- vlc_mutex_unlock( &p_priv->var_lock );
- msleep( THREAD_SLEEP );
- vlc_mutex_lock( &p_priv->var_lock );
+ mutex_cleanup_push( &p_priv->var_lock );
+ vlc_cond_wait( &p_priv->var_wait, &p_priv->var_lock );
+ vlc_cleanup_pop( );
}
}
* to see how we handle them.
* XXX: does this really need to be written recursively?
*****************************************************************************/
-static int Insert( variable_t *p_vars, int i_count, const char *psz_name )
+static int Insert( variable_t **pp_vars, int i_count, const char *psz_name )
{
if( i_count == 0 )
{
return 0;
}
- return InsertInner( p_vars, i_count, HashString( psz_name ) );
+ return InsertInner( pp_vars, i_count, HashString( psz_name ) );
}
-static int InsertInner( variable_t *p_vars, int i_count, uint32_t i_hash )
+static int InsertInner( variable_t **pp_vars, int i_count, uint32_t i_hash )
{
int i_middle;
- if( i_hash <= p_vars[0].i_hash )
+ if( i_hash <= pp_vars[0]->i_hash )
{
return 0;
}
- if( i_hash >= p_vars[i_count - 1].i_hash )
+ if( i_hash >= pp_vars[i_count - 1]->i_hash )
{
return i_count;
}
i_middle = i_count / 2;
/* We know that 0 < i_middle */
- if( i_hash < p_vars[i_middle].i_hash )
+ if( i_hash < pp_vars[i_middle]->i_hash )
{
- return InsertInner( p_vars, i_middle, i_hash );
+ return InsertInner( pp_vars, i_middle, i_hash );
}
/* We know that i_middle + 1 < i_count */
- if( i_hash > p_vars[i_middle + 1].i_hash )
+ if( i_hash > pp_vars[i_middle + 1]->i_hash )
{
- return i_middle + 1 + InsertInner( p_vars + i_middle + 1,
+ return i_middle + 1 + InsertInner( pp_vars + i_middle + 1,
i_count - i_middle - 1,
i_hash );
}
static int u32cmp( const void *key, const void *data )
{
- const variable_t *p_var = data;
+ const variable_t *const *pp_var = data;
uint32_t hash = *(const uint32_t *)key ;
- if( hash > p_var->i_hash )
+ if( hash > (*pp_var)->i_hash )
return 1;
- if( hash < p_var->i_hash )
+ if( hash < (*pp_var)->i_hash )
return -1;
return 0;
}
* We use a recursive inner function indexed on the hash. Care is taken of
* possible hash collisions.
*****************************************************************************/
-static int Lookup( variable_t *p_vars, size_t i_count, const char *psz_name )
+static int Lookup( variable_t **pp_vars, size_t i_count, const char *psz_name )
{
- variable_t *p_var;
+ variable_t **pp_var;
uint32_t i_hash;
i_hash = HashString( psz_name );
- p_var = bsearch( &i_hash, p_vars, i_count, sizeof( *p_var ), u32cmp );
+ pp_var = bsearch( &i_hash, pp_vars, i_count, sizeof( *pp_var ), u32cmp );
/* Hash not found */
- if( p_var == NULL )
+ if( pp_var == NULL )
return -1;
assert( i_count > 0 );
/* Find the first entry with the right hash */
- while( (p_var > p_vars) && (i_hash == p_var[-1].i_hash) )
- p_var--;
+ while( (pp_var > pp_vars) && (i_hash == pp_var[-1]->i_hash) )
+ pp_var--;
- assert( p_var->i_hash == i_hash );
+ assert( (*pp_var)->i_hash == i_hash );
/* Hash collision should be very unlikely, but we cannot guarantee
* it will never happen. So we do an exhaustive search amongst all
* entries with the same hash. Typically, there is only one anyway. */
- for( variable_t *p_end = p_vars + i_count;
- (p_var < p_end) && (i_hash == p_var->i_hash);
- p_var++ )
+ for( variable_t **p_end = pp_vars + i_count;
+ (pp_var < p_end) && (i_hash == (*pp_var)->i_hash);
+ pp_var++ )
{
- if( !strcmp( psz_name, p_var->psz_name ) )
- return p_var - p_vars;
+ if( !strcmp( psz_name, (*pp_var)->psz_name ) )
+ return pp_var - pp_vars;
}
/* Hash found, but entry not found */
{
int i;
- /* FIXME: the list is sorted, dude. Use something cleverer. */
+ /* This list is not sorted so go throug it (this is a small list) */
for( i = p_var->choices.i_count ; i-- ; )
{
if( p_var->ops->pf_cmp( *p_val, p_var->choices.p_values[i] ) == 0 )
}
/*****************************************************************************
- * InheritValue: try to inherit the value of this variable from the same one
- * in our closest parent, libvlc or ultimately from the configuration.
+ * InheritValue: try to inherit the value of this variable from the closest
+ * ancestor objects or ultimately from the configuration.
* The function should always be entered with the object var_lock locked.
*****************************************************************************/
static int InheritValue( vlc_object_t *p_this, const char *psz_name,
vlc_value_t *p_val, int i_type )
{
- int i_var;
- variable_t *p_var;
-
- if( p_this->p_parent || ( p_this->p_libvlc && p_this != p_this->p_libvlc ) )
- {
- vlc_object_internals_t *p_priv;
-
- if( p_this->p_parent )
- p_priv = vlc_internals( p_this->p_parent );
- else
- p_priv = vlc_internals( p_this->p_libvlc );
-
- i_var = Lookup( p_priv->p_vars, p_priv->i_vars, psz_name );
-
- if( i_var >= 0 )
- {
- /* We found it! */
- p_var = &p_priv->p_vars[i_var];
-
- /* Really get the variable */
- *p_val = p_var->val;
-
- /* Duplicate value if needed */
- p_var->ops->pf_dup( p_val );
-
+ i_type &= VLC_VAR_CLASS;
+ for( vlc_object_t *obj = p_this->p_parent; obj != NULL; obj = obj->p_parent )
+ if( var_GetChecked( obj, psz_name, i_type, p_val ) == VLC_SUCCESS )
return VLC_SUCCESS;
- }
- else if ( p_this->p_parent ) /* We are still not there */
- return InheritValue( p_this->p_parent, psz_name, p_val, i_type );
-
- /* else take value from config */
- }
-
+ /* else take value from config */
switch( i_type & VLC_VAR_CLASS )
{
case VLC_VAR_STRING:
break;
}
default:
+ msg_Warn( p_this, "Could not inherit value for var %s "
+ "from config. Invalid Type", psz_name );
return VLC_ENOOBJ;
break;
}
+ /*msg_Dbg( p_this, "Inherited value for var %s from config", psz_name );*/
return VLC_SUCCESS;
}
+
+/**********************************************************************
+ * Trigger the callbacks.
+ * Tell we're in a callback, release the lock, call stored functions,
+ * retake the lock.
+ **********************************************************************/
+static int TriggerCallback( vlc_object_t *p_this, variable_t *p_var,
+ const char *psz_name, vlc_value_t oldval )
+{
+ int i_entries = p_var->i_entries;
+ callback_entry_t *p_entries = p_var->p_entries;
+
+ assert( p_this );
+
+ vlc_object_internals_t *p_priv = vlc_internals( p_this );
+
+ p_var->b_incallback = true;
+ vlc_mutex_unlock( &p_priv->var_lock );
+
+ /* The real calls */
+ for( ; i_entries-- ; )
+ {
+ p_entries[i_entries].pf_callback( p_this, psz_name, oldval, p_var->val,
+ p_entries[i_entries].p_data );
+ }
+
+ vlc_mutex_lock( &p_priv->var_lock );
+ p_var->b_incallback = false;
+ vlc_cond_broadcast( &p_priv->var_wait );
+
+ return VLC_SUCCESS;
+}
+
+
/**********************************************************************
* Execute a var command on an object identified by its name
**********************************************************************/
i_ret = var_SetInteger( p_obj, psz_cmd, atoi( psz_arg ) );
break;
case VLC_VAR_FLOAT:
- i_ret = var_SetFloat( p_obj, psz_cmd, atof( psz_arg ) );
+ i_ret = var_SetFloat( p_obj, psz_cmd, us_atof( psz_arg ) );
break;
case VLC_VAR_STRING:
i_ret = var_SetString( p_obj, psz_cmd, psz_arg );
return i_ret;
}
+
+
+/**
+ * Free a list and the associated strings
+ * @param p_val: the list variable
+ * @param p_val2: the variable associated or NULL
+ */
+void var_FreeList( vlc_value_t *p_val, vlc_value_t *p_val2 )
+{
+ FreeList( p_val );
+ if( p_val2 && p_val2->p_list )
+ {
+ for( int i = 0; i < p_val2->p_list->i_count; i++ )
+ free( p_val2->p_list->p_values[i].psz_string );
+ if( p_val2->p_list->i_count )
+ {
+ free( p_val2->p_list->p_values );
+ free( p_val2->p_list->pi_types );
+ }
+ free( p_val2->p_list );
+ }
+}