drummer/datastruct.c
Arnaud G. GIBERT 843d73655d Add "Velocity Ignore" and "Note Off Ignore" setup change via MIDI,
Add channel_id, velocity_ignore_note, note_off_ignore_note, velocity_ignore_flag, note_off_ignore_flag control ports,
Add LV2 port-groups support,
Minor changes.
2022-05-11 12:52:37 +02:00

3002 lines
79 KiB
C

/*----------------------------------------------------------------------------*/
/* Includes */
/*----------------------------------------------------------------------------*/
#define _DATASTRUCT_C_
#include <drummer.h>
/*----------------------------------------------------------------------------*/
/* */
/*----------------------------------------------------------------------------*/
NDT_Status DR_Layer_Manager( NDT_Root *Root_Ptr, NDT_Index_Id Index_Id, NDT_Node *Node_Ptr, NDT_Command Command, va_list *Args_Ptr)
{
NDT_Command_Name Command_Name;
switch( Command)
{
case NDD_CMD_MANAGER_VERSION:
{
ND_VA_ARG_GET( Version_Name_Ptr, *Args_Ptr, NDT_Version_Name *);
Command_Name = "NDD_CMD_MANAGER_VERSION";
*Version_Name_Ptr = "$Revision: 1.0 $ $Name: Layer_Manager $ $Date: 2021/12/12 21:27:12 $ $Author: agibert $";
return( NDS_OK);
}
case NDD_CMD_INDEX_GET:
{
ND_VA_ARG_GET( Reply_Index_Id_Ptr, *Args_Ptr, NDT_Index_Id *);
ND_VA_ARG_GET( Reply_Command_Ptr, *Args_Ptr, NDT_Command *);
ND_VA_ARG_GET( Cmd, *Args_Ptr, NDT_Command);
ND_VA_ARG_GET( Layer_Ptr, *Args_Ptr, DRT_Layer *);
Command_Name = "NDD_CMD_INDEX_GET";
switch(Cmd)
{
case NDD_CMD_INDEX0_PRINT:
{
*Reply_Index_Id_Ptr = 0;
*Reply_Command_Ptr = Cmd;
break;
}
case NDD_CMD_INDEX1_PRINT:
{
*Reply_Index_Id_Ptr = 1;
*Reply_Command_Ptr = Cmd;
break;
}
default:
{
*Reply_Index_Id_Ptr = Index_Id;
*Reply_Command_Ptr = Cmd;
break;
}
}
return( NDS_OK);
}
case NDD_CMD_VALUE_ALLOC:
{
ND_VA_ARG_GET( Layer_Ptr_Ptr, *Args_Ptr, DRT_Layer **);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( Layer_Template_Ptr, user_args, DRT_Layer *);
ND_VA_LIST_CLOSE( user_args);
Command_Name = "NDD_CMD_VALUE_ALLOC";
if( ( *Layer_Ptr_Ptr = (DRT_Layer *)malloc( sizeof( DRT_Layer))) != NULL)
{
( *Layer_Ptr_Ptr)->Id = Root_Ptr->Index_Tab[NDD_INDEX_PRIMARY].Node_Number;
strncpy( ( *Layer_Ptr_Ptr)->FileName, Layer_Template_Ptr->FileName, DRD_FILENAME_SIZE);
( *Layer_Ptr_Ptr)->Sample_Ptr = Layer_Template_Ptr->Sample_Ptr;
( *Layer_Ptr_Ptr)->Sample_Size = Layer_Template_Ptr->Sample_Size;
( *Layer_Ptr_Ptr)->SF_Info_Ptr = Layer_Template_Ptr->SF_Info_Ptr;
( *Layer_Ptr_Ptr)->Min = Layer_Template_Ptr->Min;
( *Layer_Ptr_Ptr)->Max = Layer_Template_Ptr->Max;
( *Layer_Ptr_Ptr)->Gain = Layer_Template_Ptr->Gain;
( *Layer_Ptr_Ptr)->Pitch = Layer_Template_Ptr->Pitch;
( *Layer_Ptr_Ptr)->Instrument_Ptr = Layer_Template_Ptr->Instrument_Ptr;
return( NDS_OK);
}
else
{
return( NDS_KO);
}
}
case NDD_CMD_VALUE_FREE:
{
ND_VA_ARG_GET( Layer_Ptr, *Args_Ptr, DRT_Layer *);
Command_Name = "NDD_CMD_VALUE_FREE";
DR_Layer_Sample_UnLoad( Layer_Ptr);
free( Layer_Ptr);
return( NDS_OK);
}
case NDD_CMD_VALUE_COMP:
{
ND_VA_ARG_GET( Layer1_Ptr, *Args_Ptr, DRT_Layer *);
ND_VA_ARG_GET( Layer2_Ptr, *Args_Ptr, DRT_Layer *);
long rc;
Command_Name = "NDD_CMD_VALUE_COMP";
switch( Index_Id)
{
case 0:
{
rc = Layer1_Ptr->Id - Layer2_Ptr->Id;
break;
}
case 1:
{
rc = strcmp( Layer1_Ptr->FileName, Layer2_Ptr->FileName);
break;
}
default:
{
printf( "Unknown COMP idx (%d)!\n", Index_Id);
return( NDS_KO);
}
}
if( rc < 0)
{
return( NDS_LOWER);
}
else
{
if( rc > 0)
{
return( NDS_GREATER);
}
else
{
return( NDS_EQUAL);
}
}
}
case NDD_CMD_VALUE_ADD:
{
/*
ND_VA_ARG_GET( Value_Ptr, *Args_Ptr, void *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( user_data, user_args, user_type);
ND_VA_ARG_GET( ..., user_args, ...);
ND_VA_LIST_CLOSE( user_args);
*/
Command_Name = "NDD_CMD_VALUE_ADD";
return( NDS_OK);
}
case NDD_CMD_VALUE_REMOVE:
{
/*
ND_VA_ARG_GET( Value_Ptr, *Args_Ptr, void *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( user_data, user_args, user_type);
ND_VA_ARG_GET( ..., user_args, ...);
ND_VA_LIST_CLOSE( user_args);
*/
Command_Name = "NDD_CMD_VALUE_REMOVE";
return( NDS_OK);
}
case NDD_CMD_VALUE_PRINT:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
ND_VA_LIST_OPEN( lib_args, *Args_Ptr);
ND_VA_ARG_GET( Out, lib_args, FILE *);
ND_VA_ARG_GET( Recursive_Mode, lib_args, NDT_Recursive_Mode);
ND_VA_ARG_GET( Recursive_Depth, lib_args, NDT_Recursive_Depth);
ND_VA_ARG_GET( Recursive_Offset, lib_args, NDT_Recursive_Offset);
ND_VA_LIST_OPEN( user_args, lib_args);
ND_VA_ARG_GET( Count_Ptr, user_args, long *);
ND_VA_LIST_CLOSE( user_args);
ND_VA_LIST_CLOSE( lib_args);
DRT_Layer *Layer_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_VALUE_PRINT";
if( DR_Layer_Dump( Layer_Ptr, ++(*Count_Ptr)) != DRS_OK)
{
return( NDS_KO);
}
else
{
return( NDS_OK);
}
}
case NDD_CMD_INFO_PRINT:
{
Command_Name = "NDD_CMD_INFO_PRINT";
return( NDS_OK);
}
case NDD_CMD_INDEX0_PRINT:
case NDD_CMD_INDEX1_PRINT:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( Out, user_args, FILE *);
ND_VA_ARG_GET( Count_Ptr, user_args, long *);
ND_VA_LIST_CLOSE( user_args);
DRT_Layer *Layer_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_INDEX_PRINT";
if( DR_Layer_Dump( Layer_Ptr, ++(*Count_Ptr)) != DRS_OK)
{
return( NDS_KO);
}
else
{
return( NDS_OK);
}
}
case NDD_CMD_STATS_GET:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( Layer_Count_Ptr, user_args, long *);
ND_VA_ARG_GET( Sample_Count_Ptr, user_args, long *);
ND_VA_LIST_CLOSE( user_args);
DRT_Layer *Layer_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_STATS_GET";
(*Layer_Count_Ptr)++;
if( Layer_Ptr->Sample_Ptr != NULL)
{
(*Sample_Count_Ptr)++;
}
return( NDS_OK);
}
case NDD_CMD_SAMPLE_LOAD:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
DRT_Layer *Layer_Ptr = Node_Ptr->Value;
DRT_Status status;
Command_Name = "NDD_CMD_SAMPLE_LOAD";
if( Layer_Ptr->Instrument_Ptr->Kit_Ptr->Base_Ptr->Task_Load_Layer_Flag == DRD_TRUE)
{
status = DR_Task_Run( Layer_Ptr->Instrument_Ptr->Kit_Ptr->Base_Ptr, DRD_TASK_CMD_LAYER_LOAD, (void *)Layer_Ptr);
}
else
{
status = DR_Layer_Sample_Load( Layer_Ptr);
}
if( status != DRS_OK)
{
return( NDS_OK); // Continue even if sample loading fail...
}
else
{
return( NDS_OK);
}
}
case NDD_CMD_SAMPLE_UNLOAD:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( Kit_Ptr, user_args, DRT_Kit *);
ND_VA_LIST_CLOSE( user_args);
DRT_Layer *Layer_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_SAMPLE_UNLOAD";
if( DR_Layer_Sample_UnLoad( Layer_Ptr) != DRS_OK)
{
return( NDS_OK); // Continue even if sample unloading fail...
}
else
{
return( NDS_OK);
}
}
default:
{
printf( "Layer_Manager() called with an undefined command %d\n", Command);
return( NDS_ERRAPI);
}
}
printf( "Layer_Manager() called with command %d (%s)\n", Command, Command_Name);
return( NDS_OK);
}
/*----------------------------------------------------------------------------*/
/* */
/*----------------------------------------------------------------------------*/
NDT_Status DR_Instrument_Manager( NDT_Root *Root_Ptr, NDT_Index_Id Index_Id, NDT_Node *Node_Ptr, NDT_Command Command, va_list *Args_Ptr)
{
NDT_Command_Name Command_Name;
switch( Command)
{
case NDD_CMD_MANAGER_VERSION:
{
ND_VA_ARG_GET( Version_Name_Ptr, *Args_Ptr, NDT_Version_Name *);
Command_Name = "NDD_CMD_MANAGER_VERSION";
*Version_Name_Ptr = "$Revision: 1.0 $ $Name: Instrument_Manager $ $Date: 2021/12/12 21:27:12 $ $Author: agibert $";
return( NDS_OK);
}
case NDD_CMD_INDEX_GET:
{
ND_VA_ARG_GET( Reply_Index_Id_Ptr, *Args_Ptr, NDT_Index_Id *);
ND_VA_ARG_GET( Reply_Command_Ptr, *Args_Ptr, NDT_Command *);
ND_VA_ARG_GET( Cmd, *Args_Ptr, NDT_Command);
ND_VA_ARG_GET( Instrument_Ptr, *Args_Ptr, DRT_Instrument *);
Command_Name = "NDD_CMD_INDEX_GET";
switch(Cmd)
{
case NDD_CMD_INDEX0_PRINT:
{
*Reply_Index_Id_Ptr = 0;
*Reply_Command_Ptr = Cmd;
break;
}
case NDD_CMD_INDEX1_PRINT:
{
*Reply_Index_Id_Ptr = 1;
*Reply_Command_Ptr = Cmd;
break;
}
default:
{
*Reply_Index_Id_Ptr = Index_Id;
*Reply_Command_Ptr = Cmd;
break;
}
}
return( NDS_OK);
}
case NDD_CMD_VALUE_ALLOC:
{
ND_VA_ARG_GET( Instrument_Ptr_Ptr, *Args_Ptr, DRT_Instrument **);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( Instrument_Template_Ptr, user_args, DRT_Instrument *);
ND_VA_LIST_CLOSE( user_args);
NDT_Status nd_status;
Command_Name = "NDD_CMD_VALUE_ALLOC";
if( ( *Instrument_Ptr_Ptr = (DRT_Instrument *)malloc( sizeof( DRT_Instrument))) != NULL)
{
( *Instrument_Ptr_Ptr)->Id = Root_Ptr->Index_Tab[NDD_INDEX_PRIMARY].Node_Number;
strncpy( ( *Instrument_Ptr_Ptr)->Name, Instrument_Template_Ptr->Name, DRD_NAME_SIZE);
( *Instrument_Ptr_Ptr)->Gain = Instrument_Template_Ptr->Gain;
( *Instrument_Ptr_Ptr)->Pan_Left = Instrument_Template_Ptr->Pan_Left;
( *Instrument_Ptr_Ptr)->Pan_Right = Instrument_Template_Ptr->Pan_Right;
( *Instrument_Ptr_Ptr)->Kit_Ptr = Instrument_Template_Ptr->Kit_Ptr;
if( ( nd_status = ND_DataStruct_Open( &((*Instrument_Ptr_Ptr)->Layer_DS_Ptr), DRD_LAYER_DS_INDEX_NB, DRG_Layer_DS_Index_Tab_Initial, "Layer_Manager", DR_Layer_Manager, NULL, NULL, NULL, NULL, NDD_TRUE, NULL)) != NDS_OK)
{
printf( "DR_Instrument_Manager: ND_DataStruct_Open() failed (%d)!\n", nd_status);
return( NDS_KO);
}
else
{
return( NDS_OK);
}
}
else
{
return( NDS_KO);
}
}
case NDD_CMD_VALUE_FREE:
{
ND_VA_ARG_GET( Instrument_Ptr, *Args_Ptr, DRT_Instrument *);
NDT_Status nd_status;
Command_Name = "NDD_CMD_VALUE_FREE";
if( ( nd_status = ND_DataStruct_Close( Instrument_Ptr->Layer_DS_Ptr)) != NDS_OK)
{
printf( "DR_Instrument_Manager: Can't close Kit_DS (%d)!\n", nd_status);
return( DRS_KO);
}
free( Instrument_Ptr);
return( NDS_OK);
}
case NDD_CMD_VALUE_COMP:
{
ND_VA_ARG_GET( Instrument1_Ptr, *Args_Ptr, DRT_Instrument *);
ND_VA_ARG_GET( Instrument2_Ptr, *Args_Ptr, DRT_Instrument *);
long rc;
Command_Name = "NDD_CMD_VALUE_COMP";
switch( Index_Id)
{
case 0:
{
rc = Instrument1_Ptr->Id - Instrument2_Ptr->Id;
break;
}
case 1:
{
rc = strcmp( Instrument1_Ptr->Name, Instrument2_Ptr->Name);
break;
}
default:
{
printf( "Unknown COMP idx (%d)!\n", Index_Id);
return( NDS_KO);
}
}
if( rc < 0)
{
return( NDS_LOWER);
}
else
{
if( rc > 0)
{
return( NDS_GREATER);
}
else
{
return( NDS_EQUAL);
}
}
}
case NDD_CMD_VALUE_ADD:
{
/*
ND_VA_ARG_GET( Value_Ptr, *Args_Ptr, void *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( user_data, user_args, user_type);
ND_VA_ARG_GET( ..., user_args, ...);
ND_VA_LIST_CLOSE( user_args);
*/
Command_Name = "NDD_CMD_VALUE_ADD";
return( NDS_OK);
}
case NDD_CMD_VALUE_REMOVE:
{
/*
ND_VA_ARG_GET( Value_Ptr, *Args_Ptr, void *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( user_data, user_args, user_type);
ND_VA_ARG_GET( ..., user_args, ...);
ND_VA_LIST_CLOSE( user_args);
*/
Command_Name = "NDD_CMD_VALUE_REMOVE";
return( NDS_OK);
}
case NDD_CMD_VALUE_PRINT:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
ND_VA_LIST_OPEN( lib_args, *Args_Ptr);
ND_VA_ARG_GET( Out, lib_args, FILE *);
ND_VA_ARG_GET( Recursive_Mode, lib_args, NDT_Recursive_Mode);
ND_VA_ARG_GET( Recursive_Depth, lib_args, NDT_Recursive_Depth);
ND_VA_ARG_GET( Recursive_Offset, lib_args, NDT_Recursive_Offset);
ND_VA_LIST_OPEN( user_args, lib_args);
ND_VA_ARG_GET( Count_Ptr, user_args, long *);
ND_VA_LIST_CLOSE( user_args);
ND_VA_LIST_CLOSE( lib_args);
DRT_Instrument *Instrument_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_VALUE_PRINT";
if( DR_Instrument_Dump( Instrument_Ptr, ++(*Count_Ptr)) != DRS_OK)
{
return( NDS_KO);
}
else
{
return( NDS_OK);
}
}
case NDD_CMD_INFO_PRINT:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
ND_VA_LIST_OPEN( lib_args, *Args_Ptr);
ND_VA_ARG_GET( Out, lib_args, FILE *);
ND_VA_ARG_GET( Recursive_Mode, lib_args, NDT_Recursive_Mode);
ND_VA_ARG_GET( Recursive_Depth, lib_args, NDT_Recursive_Depth);
ND_VA_ARG_GET( Recursive_Offset, lib_args, NDT_Recursive_Offset);
ND_VA_LIST_CLOSE( lib_args);
NDT_Status nd_status;
DRT_Instrument *Instrument_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_INFO_PRINT";
if( ( nd_status = ND_DataStruct_Info_Print( Out, Instrument_Ptr->Layer_DS_Ptr, NDD_RECURSIVE_MODE_PARENT_CHILD, 0, 0)) != NDS_OK)
{
printf( "DR_Instrument_Manager: ND_DataStruct_Info_Print() failed (%d)!\n", nd_status);
return( DRS_KO);
}
return( NDS_OK);
}
case NDD_CMD_INDEX0_PRINT:
case NDD_CMD_INDEX1_PRINT:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( Out, user_args, FILE *);
ND_VA_ARG_GET( Count_Ptr, user_args, long *);
ND_VA_LIST_CLOSE( user_args);
DRT_Instrument *Instrument_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_INDEX_PRINT";
if( DR_Instrument_Dump( Instrument_Ptr, ++(*Count_Ptr)) != DRS_OK)
{
return( NDS_KO);
}
else
{
return( NDS_OK);
}
}
case NDD_CMD_STATS_GET:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( Instrument_Count_Ptr, user_args, long *);
ND_VA_ARG_GET( Layer_Count_Ptr, user_args, long *);
ND_VA_ARG_GET( Sample_Count_Ptr, user_args, long *);
ND_VA_LIST_CLOSE( user_args);
DRT_Instrument *Instrument_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_STATS_GET";
(*Instrument_Count_Ptr)++;
// (*Layers_Count_Ptr) += Instrument_Ptr->Layer_DS_Ptr->Index_Tab[NDD_INDEX_PRIMARY].Node_Number;
// return( NDS_OK);
return( ND_DataStruct_Traverse( Instrument_Ptr->Layer_DS_Ptr, NDD_CMD_STATS_GET, Layer_Count_Ptr, Sample_Count_Ptr));
}
case NDD_CMD_SAMPLE_LOAD:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
DRT_Instrument *Instrument_Ptr = Node_Ptr->Value;
DRT_Status status;
Command_Name = "NDD_CMD_SAMPLE_LOAD";
if( Instrument_Ptr->Kit_Ptr->Base_Ptr->Task_Load_Instrument_Flag == DRD_TRUE)
{
status = DR_Task_Run( Instrument_Ptr->Kit_Ptr->Base_Ptr, DRD_TASK_CMD_INSTRUMENT_LOAD, (void *)Instrument_Ptr);
}
else
{
status = DR_Instrument_Sample_Load( Instrument_Ptr);
}
if( status != DRS_OK)
{
return( NDS_OK); // Continue even if sample loading fail...
}
else
{
return( NDS_OK);
}
}
case NDD_CMD_SAMPLE_UNLOAD:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( Kit_Ptr, user_args, DRT_Kit *);
ND_VA_LIST_CLOSE( user_args);
DRT_Instrument *Instrument_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_SAMPLE_UNLOAD";
if( DR_Instrument_Sample_UnLoad( Instrument_Ptr) != DRS_OK)
{
return( NDS_KO);
}
else
{
return( NDS_OK);
}
// return( ND_DataStruct_Traverse( Instrument_Ptr->Layer_DS_Ptr, NDD_CMD_SAMPLE_UNLOAD, Kit_Ptr));
}
default:
{
printf( "Instrument_Manager() called with an undefined command %d\n", Command);
return( NDS_ERRAPI);
}
}
printf( "Instrument_Manager() called with command %d (%s)\n", Command, Command_Name);
return( NDS_OK);
}
/*----------------------------------------------------------------------------*/
/* */
/*----------------------------------------------------------------------------*/
NDT_Status DR_Kit_Manager( NDT_Root *Root_Ptr, NDT_Index_Id Index_Id, NDT_Node *Node_Ptr, NDT_Command Command, va_list *Args_Ptr)
{
NDT_Command_Name Command_Name;
switch( Command)
{
case NDD_CMD_MANAGER_VERSION:
{
ND_VA_ARG_GET( Version_Name_Ptr, *Args_Ptr, NDT_Version_Name *);
Command_Name = "NDD_CMD_MANAGER_VERSION";
*Version_Name_Ptr = "$Revision: 1.0 $ $Name: Kit_Manager $ $Date: 2021/12/12 21:27:12 $ $Author: agibert $";
return( NDS_OK);
}
case NDD_CMD_INDEX_GET:
{
ND_VA_ARG_GET( Reply_Index_Id_Ptr, *Args_Ptr, NDT_Index_Id *);
ND_VA_ARG_GET( Reply_Command_Ptr, *Args_Ptr, NDT_Command *);
ND_VA_ARG_GET( Cmd, *Args_Ptr, NDT_Command);
ND_VA_ARG_GET( Kit_Ptr, *Args_Ptr, DRT_Kit *);
Command_Name = "NDD_CMD_INDEX_GET";
switch(Cmd)
{
/*
case NDT_CMD_SOME_USER_CMD:
{
*Reply_Index_Id_Ptr = 0;
*Reply_Command_Ptr = NDD_CMD_SOME_OTHER_CMD;
break;
}
...
*/
case NDD_CMD_VALUE_FIND:
{
if( Kit_Ptr->Id != DRD_ID_UNKNOWN)
{
*Reply_Index_Id_Ptr = 0;
}
else
{
// fprintf( stderr, "IDX 1!\n");
*Reply_Index_Id_Ptr = 1;
}
*Reply_Command_Ptr = Cmd;
break;
}
case NDD_CMD_INDEX0_PRINT:
{
*Reply_Index_Id_Ptr = 0;
*Reply_Command_Ptr = Cmd;
break;
}
case NDD_CMD_VALUE_PRINT:
case NDD_CMD_INDEX1_PRINT:
{
*Reply_Index_Id_Ptr = 0;
*Reply_Command_Ptr = Cmd;
break;
}
case NDD_CMD_ID_REFRESH:
{
*Reply_Index_Id_Ptr = 1;
*Reply_Command_Ptr = Cmd;
break;
}
default:
{
*Reply_Index_Id_Ptr = Index_Id;
*Reply_Command_Ptr = Cmd;
break;
}
}
return( NDS_OK);
}
case NDD_CMD_VALUE_ALLOC:
{
ND_VA_ARG_GET( Kit_Ptr_Ptr, *Args_Ptr, DRT_Kit **);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( Kit_Template_Ptr, user_args, DRT_Kit *);
ND_VA_LIST_CLOSE( user_args);
NDT_Status nd_status;
Command_Name = "NDD_CMD_VALUE_ALLOC";
if( ( *Kit_Ptr_Ptr = (DRT_Kit *)malloc( sizeof( DRT_Kit))) != NULL)
{
( *Kit_Ptr_Ptr)->Id = Root_Ptr->Index_Tab[NDD_INDEX_PRIMARY].Node_Number;
( *Kit_Ptr_Ptr)->Logical_Id = Kit_Template_Ptr->Logical_Id;
( *Kit_Ptr_Ptr)->Status = Kit_Template_Ptr->Status;
strncpy( ( *Kit_Ptr_Ptr)->Name, Kit_Template_Ptr->Name, DRD_NAME_SIZE);
strncpy( ( *Kit_Ptr_Ptr)->Desc, Kit_Template_Ptr->Desc, DRD_DESC_SIZE);
strncpy( ( *Kit_Ptr_Ptr)->DirName, Kit_Template_Ptr->DirName, DRD_DIRNAME_SIZE);
( *Kit_Ptr_Ptr)->Base_Ptr = Kit_Template_Ptr->Base_Ptr;
if( ( nd_status = ND_DataStruct_Open( &((*Kit_Ptr_Ptr)->Instrument_DS_Ptr), DRD_INSTRUMENT_DS_INDEX_NB, DRG_Instrument_DS_Index_Tab_Initial, "Instrument_Manager", DR_Instrument_Manager, NULL, NULL, NULL, NULL, NDD_TRUE, NULL)) != NDS_OK)
{
printf( "DR_Kit_Manager: ND_DataStruct_Open() failed (%d)!\n", nd_status);
return( NDS_KO);
}
return( NDS_OK);
}
else
{
return( NDS_KO);
}
}
case NDD_CMD_VALUE_FREE:
{
ND_VA_ARG_GET( Kit_Ptr, *Args_Ptr, DRT_Kit *);
NDT_Status nd_status;
Command_Name = "NDD_CMD_VALUE_FREE";
if( ( nd_status = ND_DataStruct_Close( Kit_Ptr->Instrument_DS_Ptr)) != NDS_OK)
{
printf( "DR_Kit_Manager: Can't close Kit_DS (%d)!\n", nd_status);
return( DRS_KO);
}
free( Kit_Ptr);
return( NDS_OK);
}
case NDD_CMD_VALUE_COMP:
{
ND_VA_ARG_GET( Kit1_Ptr, *Args_Ptr, DRT_Kit *);
ND_VA_ARG_GET( Kit2_Ptr, *Args_Ptr, DRT_Kit *);
long rc;
Command_Name = "NDD_CMD_VALUE_COMP";
switch( Index_Id)
{
case 0:
{
rc = Kit1_Ptr->Id - Kit2_Ptr->Id;
break;
}
case 1:
{
if( ( Kit1_Ptr->Name[0] != 0) && ( Kit2_Ptr->Name[0] != 0))
{
rc = strcmp( Kit1_Ptr->Name, Kit2_Ptr->Name);
}
else
{
rc = Kit1_Ptr->Logical_Id - Kit2_Ptr->Logical_Id;
// fprintf( stderr, "Comp: (%ld) - (%ld) = (%ld)\n", Kit1_Ptr->Logical_Id, Kit2_Ptr->Logical_Id, rc);
}
break;
}
default:
{
printf( "Unknown COMP idx (%d)!\n", Index_Id);
return( NDS_KO);
}
}
if( rc < 0)
{
return( NDS_LOWER);
}
else
{
if( rc > 0)
{
return( NDS_GREATER);
}
else
{
return( NDS_EQUAL);
}
}
}
case NDD_CMD_VALUE_ADD:
{
/*
ND_VA_ARG_GET( Value_Ptr, *Args_Ptr, void *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( user_data, user_args, user_type);
ND_VA_ARG_GET( ..., user_args, ...);
ND_VA_LIST_CLOSE( user_args);
*/
Command_Name = "NDD_CMD_VALUE_ADD";
return( NDS_OK);
}
case NDD_CMD_VALUE_REMOVE:
{
/*
ND_VA_ARG_GET( Value_Ptr, *Args_Ptr, void *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( user_data, user_args, user_type);
ND_VA_ARG_GET( ..., user_args, ...);
ND_VA_LIST_CLOSE( user_args);
*/
Command_Name = "NDD_CMD_VALUE_REMOVE";
return( NDS_OK);
}
case NDD_CMD_VALUE_PRINT:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
ND_VA_LIST_OPEN( lib_args, *Args_Ptr);
ND_VA_ARG_GET( Out, lib_args, FILE *);
ND_VA_ARG_GET( Recursive_Mode, lib_args, NDT_Recursive_Mode);
ND_VA_ARG_GET( Recursive_Depth, lib_args, NDT_Recursive_Depth);
ND_VA_ARG_GET( Recursive_Offset, lib_args, NDT_Recursive_Offset);
ND_VA_LIST_OPEN( user_args, lib_args);
ND_VA_ARG_GET( Count_Ptr, user_args, long *);
ND_VA_LIST_CLOSE( user_args);
ND_VA_LIST_CLOSE( lib_args);
DRT_Kit *Kit_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_VALUE_PRINT";
/*
fprintf( stderr, "CurId: (%03ld)", Kit_Ptr->Id);
fprintf( stderr, " ParentId: ");
if( Node_Ptr->Parent == NULL)
{
fprintf( stderr, "NULL ");
}
else
{
fprintf( stderr, "(%03ld)", ((DRT_Kit *)Node_Ptr->Parent->Value)->Id);
}
fprintf( stderr, " LeftId: ");
if( Node_Ptr->Left == NULL)
{
fprintf( stderr, "NULL ");
}
else
{
fprintf( stderr, "(%03ld)", ((DRT_Kit *)Node_Ptr->Left->Value)->Id);
}
fprintf( stderr, " RightId: ");
if( Node_Ptr->Right == NULL)
{
fprintf( stderr, "NULL ");
}
else
{
fprintf( stderr, "(%03ld)", ((DRT_Kit *)Node_Ptr->Right->Value)->Id);
}
fprintf( stderr, "\n");
return( NDS_OK);
*/
if( DR_Kit_Dump( Kit_Ptr, ++(*Count_Ptr)) != DRS_OK)
{
return( NDS_KO);
}
else
{
return( NDS_OK);
}
}
case NDD_CMD_INFO_PRINT:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
ND_VA_LIST_OPEN( lib_args, *Args_Ptr);
ND_VA_ARG_GET( Out, lib_args, FILE *);
ND_VA_ARG_GET( Recursive_Mode, lib_args, NDT_Recursive_Mode);
ND_VA_ARG_GET( Recursive_Depth, lib_args, NDT_Recursive_Depth);
ND_VA_ARG_GET( Recursive_Offset, lib_args, NDT_Recursive_Offset);
ND_VA_LIST_CLOSE( lib_args);
NDT_Status nd_status;
DRT_Kit *Kit_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_INFO_PRINT";
if( ( nd_status = ND_DataStruct_Info_Print( Out, Kit_Ptr->Instrument_DS_Ptr, NDD_RECURSIVE_MODE_PARENT_CHILD, 0, 0)) != NDS_OK)
{
printf( "DR_Kit_Manager: ND_DataStruct_Info_Print() failed (%d)!\n", nd_status);
return( DRS_KO);
}
return( NDS_OK);
}
case NDD_CMD_GRAPH_PRINT:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
DRT_Kit *Kit_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_GRAPH_PRINT";
fprintf( stderr, " node%03ld [ label =\"<f0> | <f1> %03ld\\n%20s | <f2> \"];\n", Kit_Ptr->Id, Kit_Ptr->Id, Kit_Ptr->Name);
if( Node_Ptr->Left != NULL)
{
fprintf( stderr, " node%03ld:f0 -> node%03ld:f1;\n", Kit_Ptr->Id, ((DRT_Kit *)Node_Ptr->Left->Value)->Id);
}
if( Node_Ptr->Right != NULL)
{
fprintf( stderr, " node%03ld:f2 -> node%03ld:f1;\n", Kit_Ptr->Id, ((DRT_Kit *)Node_Ptr->Right->Value)->Id);
}
fprintf( stderr, "\n");
return( NDS_OK);
}
case NDD_CMD_INDEX0_PRINT:
case NDD_CMD_INDEX1_PRINT:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( Out, user_args, FILE *);
ND_VA_ARG_GET( Count_Ptr, user_args, long *);
ND_VA_LIST_CLOSE( user_args);
DRT_Kit *Kit_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_INDEX_PRINT";
if( DR_Kit_Dump( Kit_Ptr, ++(*Count_Ptr)) != DRS_OK)
{
return( NDS_KO);
}
else
{
return( NDS_OK);
}
}
case NDD_CMD_ID_REFRESH:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( Count_Ptr, user_args, DRT_Kit_Id *);
ND_VA_LIST_CLOSE( user_args);
DRT_Kit *Kit_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_ID_REFRESH";
Kit_Ptr->Logical_Id = (*Count_Ptr)++;
return( NDS_OK);
}
case NDD_CMD_STATS_GET:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( Kit_Count_Ptr, user_args, long *);
ND_VA_ARG_GET( Instrument_Count_Ptr, user_args, long *);
ND_VA_ARG_GET( Layer_Count_Ptr, user_args, long *);
ND_VA_ARG_GET( Sample_Count_Ptr, user_args, long *);
ND_VA_LIST_CLOSE( user_args);
DRT_Kit *Kit_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_STATS_GET";
(*Kit_Count_Ptr)++;
return( ND_DataStruct_Traverse( Kit_Ptr->Instrument_DS_Ptr, NDD_CMD_STATS_GET, Instrument_Count_Ptr, Layer_Count_Ptr, Sample_Count_Ptr));
}
case NDD_CMD_SAMPLE_LOAD:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
DRT_Kit *Kit_Ptr = Node_Ptr->Value;
DRT_Status status;
Command_Name = "NDD_CMD_SAMPLE_LOAD";
if( Kit_Ptr->Base_Ptr->Task_Load_Kit_Flag == DRD_TRUE)
{
status = DR_Task_Run( Kit_Ptr->Base_Ptr, DRD_TASK_CMD_KIT_LOAD, (void *)Kit_Ptr);
}
else
{
status = DR_Kit_Sample_Load( Kit_Ptr);
}
if( status != DRS_OK)
{
return( NDS_KO);
}
else
{
return( NDS_OK);
}
}
case NDD_CMD_SAMPLE_UNLOAD:
{
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
DRT_Kit *Kit_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_SAMPLE_UNLOAD";
if( DR_Kit_Sample_UnLoad( Kit_Ptr) != DRS_OK)
{
return( NDS_KO);
}
else
{
return( NDS_OK);
}
}
/*
case NDD_CMD_PHONEBOOK_SAVE:
{
*/ /*
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( user_data, user_args, user_type);
ND_VA_ARG_GET( ..., user_args, ...);
ND_VA_LIST_CLOSE( user_args);
*/ /*
ND_VA_ARG_GET( Next_Node_Ptr, *Args_Ptr, NDT_Node *);
ND_VA_LIST_OPEN( user_args, *Args_Ptr);
ND_VA_ARG_GET( Out, user_args, FILE *);
ND_VA_ARG_GET( Count_Ptr, user_args, long *);
ND_VA_LIST_CLOSE( user_args);
DRT_Kit *Kit_Ptr = Node_Ptr->Value;
Command_Name = "NDD_CMD_PHONEBOOK_SAVE";
fprintf( Out, "%s:%s:%s:%s\n", Kit_Ptr->Number, Kit_Ptr->Name, Kit_Ptr->Address, Kit_Ptr->Email);
(*Count_Ptr)++;
return( NDS_OK);
}
*/
default:
{
printf( "Kit_Manager() called with an undefined command %d\n", Command);
return( NDS_ERRAPI);
}
}
printf( "Kit_Manager() called with command %d (%s)\n", Command, Command_Name);
return( NDS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Layer_Add */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Layer_Add( DRT_Layer **Layer_Ptr_Ptr, NDT_Root *DS_Ptr, DRT_Layer *Layer_Template_Ptr)
{
NDT_Status nd_status;
if( ( nd_status = ND_Value_Alloc( DS_Ptr, (void **)Layer_Ptr_Ptr, Layer_Template_Ptr)) != NDS_OK)
{
printf( "Can't allocate new layer: ND_Value_Alloc() failed (%d)!\n", nd_status);
return( DRS_KO);
}
else
{
if( ( nd_status = ND_DataStruct_Value_Add( DS_Ptr, (void *)*Layer_Ptr_Ptr)) != NDS_OK)
{
printf( "Can't add new layer: ND_Value_Add() failed (%d)!\n", nd_status);
return( DRS_KO);
}
}
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Layer_Sample_Load */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Layer_Sample_Load( DRT_Layer *Layer_Ptr)
{
DRT_Status status;
SNDFILE *sndf_ptr;
DRT_SampleRate samplerate = Layer_Ptr->Instrument_Ptr->Kit_Ptr->Base_Ptr->SampleRate;
// fprintf( stderr, "Loading: [%s]\n", Layer_Ptr->FileName);
if( Layer_Ptr->SF_Info_Ptr != NULL)
{
if( Layer_Ptr->Sample_Ptr != NULL)
{
fprintf( stderr, "Skiping: [%s]\n", Layer_Ptr->FileName);
return( DRS_OK);
}
else
{
fprintf( stderr, "Freeing SF_Info: [%s]\n", Layer_Ptr->FileName);
free( Layer_Ptr->SF_Info_Ptr );
}
}
else
{
if( Layer_Ptr->Sample_Ptr != NULL)
{
fprintf( stderr, "Freeing Sample: [%s]\n", Layer_Ptr->FileName);
free( Layer_Ptr->Sample_Ptr);
}
}
if( ( Layer_Ptr->SF_Info_Ptr = malloc( sizeof(SF_INFO))) == NULL)
{
fprintf( stderr, "Can't allocate SF_Info buffer!\n");
return( DRS_KO);
}
memset( Layer_Ptr->SF_Info_Ptr, 0, sizeof(SF_INFO));
if( ( sndf_ptr = sf_open( Layer_Ptr->FileName, SFM_READ, Layer_Ptr->SF_Info_Ptr)) == NULL)
{
fprintf( stderr, "Can't open sample file [%s] (%ld)!\n", Layer_Ptr->FileName, (long)sf_strerror( (SNDFILE *)( Layer_Ptr->Sample_Ptr)));
status = DRS_KO;
}
else
{
if( Layer_Ptr->SF_Info_Ptr->channels > 2)
{
fprintf(stderr, "Too many channels: Can only handle mono / stereo samples!\n");
status = DRS_KO;
}
else
{
Layer_Ptr->Sample_Size = Layer_Ptr->SF_Info_Ptr->frames * Layer_Ptr->SF_Info_Ptr->channels;
if( ( Layer_Ptr->Sample_Ptr = malloc( Layer_Ptr->Sample_Size * sizeof( float))) == NULL)
{
fprintf(stderr,"Can't allocate sample memory: (%ld) for [%s]!\n", Layer_Ptr->Sample_Size, Layer_Ptr->FileName);
status = DRS_KO;
}
else
{
sf_read_float( sndf_ptr, Layer_Ptr->Sample_Ptr, ( Layer_Ptr->Sample_Size));
status = DRS_OK;
// convert rate if needed
if( Layer_Ptr->SF_Info_Ptr->samplerate != samplerate)
{
int src_status;
SRC_DATA src_data;
long out_size;
// fprintf( stderr, "Resampling: [%s] (%d)->(%d)\n", Layer_Ptr->FileName, Layer_Ptr->SF_Info_Ptr->samplerate, samplerate);
src_data.data_in = Layer_Ptr->Sample_Ptr;
src_data.input_frames = Layer_Ptr->SF_Info_Ptr->frames;
src_data.src_ratio = (double)samplerate / Layer_Ptr->SF_Info_Ptr->samplerate;
src_data.output_frames = (long)ceil( Layer_Ptr->SF_Info_Ptr->frames * src_data.src_ratio);
out_size = src_data.output_frames * Layer_Ptr->SF_Info_Ptr->channels * sizeof( float);
if( ( src_data.data_out = malloc( out_size)) == NULL)
{
fprintf( stderr,"Can't allocate resample memory: (%ld) for [%s]!\n", out_size, Layer_Ptr->FileName);
status = DRS_KO;
}
else
{
if( ( src_status = src_simple( &src_data, DRD_RATE_CONV_QUALITY, Layer_Ptr->SF_Info_Ptr->channels)) != 0)
{
fprintf( stderr,"Can't convert rate for [%s]: [%s]\n", Layer_Ptr->FileName, src_strerror( src_status));
free( src_data.data_out);
}
else
{
if( src_data.input_frames_used != Layer_Ptr->SF_Info_Ptr->frames)
{
fprintf(stderr,"Didn't consume all input frames. used: %li had: %li gened: %li\n",
src_data.input_frames_used, Layer_Ptr->SF_Info_Ptr->frames, src_data.output_frames_gen);
}
free( Layer_Ptr->Sample_Ptr);
Layer_Ptr->Sample_Ptr = src_data.data_out;
Layer_Ptr->Sample_Size = src_data.output_frames_gen * Layer_Ptr->SF_Info_Ptr->channels;
Layer_Ptr->SF_Info_Ptr->samplerate = samplerate;
Layer_Ptr->SF_Info_Ptr->frames = src_data.output_frames_gen;
}
}
}
}
}
sf_close( sndf_ptr);
}
return( status);
}
/*----------------------------------------------------------------------------*/
/* DR_Layer_Sample_UnLoad */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Layer_Sample_UnLoad( DRT_Layer *Layer_Ptr)
{
// fprintf( stderr, "UnLoading: [%s]\n", Layer_Ptr->FileName);
if( Layer_Ptr->Sample_Ptr != NULL)
{
// fprintf( stderr, "Freeing Sample!\n");
free( Layer_Ptr->Sample_Ptr);
}
if( Layer_Ptr->SF_Info_Ptr != NULL)
{
// fprintf( stderr, "Freeing SF_Info!\n");
free( Layer_Ptr->SF_Info_Ptr);
}
return( NDS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Layer_Dump */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Layer_Dump( DRT_Layer *Layer_Ptr, long count)
{
NDT_Status nd_status;
fprintf( stderr, " %03ld) Layer: ", count);
fprintf( stderr, " Id: (% 3ld) File Name: [%s] Sample: [%lx] Sample Size: (%ld) Min: (%f) Max: (%f) Gain: (%f) Pitch: (%f) Intrument Id: (% 3ld)",
Layer_Ptr->Id, Layer_Ptr->FileName, (long)Layer_Ptr->Sample_Ptr, Layer_Ptr->Sample_Size, Layer_Ptr->Min, Layer_Ptr->Max, Layer_Ptr->Gain, Layer_Ptr->Pitch, Layer_Ptr->Instrument_Ptr->Id);
if( Layer_Ptr->SF_Info_Ptr != NULL)
{
fprintf( stderr, " Channels: (%d) Rate: (%d)\n", Layer_Ptr->SF_Info_Ptr->channels, Layer_Ptr->SF_Info_Ptr->samplerate);
}
else
{
fprintf( stderr, "\n");
}
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Instrument_Add */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Instrument_Add( DRT_Instrument **Instrument_Ptr_Ptr, NDT_Root *DS_Ptr, DRT_Instrument *Instrument_Template_Ptr)
{
NDT_Status nd_status;
if( ( nd_status = ND_Value_Alloc( DS_Ptr, (void **)Instrument_Ptr_Ptr, Instrument_Template_Ptr)) != NDS_OK)
{
printf( "Can't allocate new instrument: ND_Value_Alloc() failed (%d)!\n", nd_status);
return( DRS_KO);
}
else
{
if( ( nd_status = ND_DataStruct_Value_Add( DS_Ptr, (void *)*Instrument_Ptr_Ptr)) != NDS_OK)
{
printf( "Can't add new instrument: ND_Value_Add() failed (%d)!\n", nd_status);
return( DRS_KO);
}
}
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Instrument_Dump */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Instrument_Dump( DRT_Instrument *Instrument_Ptr, long Count)
{
NDT_Status nd_status;
long count2;
fprintf( stderr, " %03ld) Instrument: ", Count);
fprintf( stderr, " Id: (% 3ld) Name: [%s] Gain: (%f) Pan Left: (%f) Pan Right: (%f) Kit Id: (% 3ld)\n",
Instrument_Ptr->Id, Instrument_Ptr->Name, Instrument_Ptr->Gain, Instrument_Ptr->Pan_Left, Instrument_Ptr->Pan_Right, Instrument_Ptr->Kit_Ptr->Id);
// fprintf( stderr, "\n");
fprintf( stderr, " Layer List:\n");
if( Instrument_Ptr->Layer_DS_Ptr->Index_Tab[NDD_INDEX_PRIMARY].Node_Number == 0)
{
fprintf( stderr, " Empty list!\n");
}
else
{
count2 = 0;
if( ( nd_status = ND_DataStruct_Value_Print( stderr, Instrument_Ptr->Layer_DS_Ptr, NDD_RECURSIVE_MODE_PARENT_CHILD, 0, 0, &count2)) != NDS_OK)
{
printf( "Cant't dump layers: ND_DataStruct_Traverse() failed (%d)!\n", nd_status);
return( DRS_KO);
}
}
fprintf( stderr, "\n");
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Instrument_Sample_Load */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Instrument_Sample_Load( DRT_Instrument *Instrument_Ptr)
{
NDT_Status nd_status;
if( ( nd_status = ND_DataStruct_Traverse( Instrument_Ptr->Layer_DS_Ptr, NDD_CMD_SAMPLE_LOAD)) != NDS_OK)
{
printf( "Cant't load instrument samples: ND_DataStruct_Traverse() failed (%d)!\n", nd_status);
return( DRS_KO);
}
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Instrument_Sample_UnLoad */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Instrument_Sample_UnLoad( DRT_Instrument *Instrument_Ptr)
{
NDT_Status nd_status;
if( ( nd_status = ND_DataStruct_Traverse( Instrument_Ptr->Layer_DS_Ptr, NDD_CMD_SAMPLE_UNLOAD)) != NDS_OK)
{
printf( "Cant't unload instrument samples: ND_DataStruct_Traverse() failed (%d)\n", nd_status);
return( DRS_KO);
}
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Kit_Add */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Kit_Add( DRT_Kit **Kit_Ptr_Ptr, NDT_Root *DS_Ptr, DRT_Kit *Kit_Template_Ptr)
{
NDT_Status nd_status;
if( ( nd_status = ND_Value_Alloc( DS_Ptr, (void **)Kit_Ptr_Ptr, Kit_Template_Ptr)) != NDS_OK)
{
printf( "Can't allocate new kit: ND_Value_Alloc() failed (%d)!\n", nd_status);
return( DRS_KO);
}
else
{
if( ( nd_status = ND_DataStruct_Value_Add( DS_Ptr, (void **)*Kit_Ptr_Ptr)) != NDS_OK)
{
printf( "Can't add new kit: ND_Value_Add() failed (%d)!\n", nd_status);
return( DRS_KO);
}
}
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Kit_Id_Find */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Kit_Id_Find( DRT_Kit **Kit_Ptr_Ptr, NDT_Root *DS_Ptr, DRT_Kit_Id Kit_Id)
{
DRT_Status status;
NDT_Status nd_status;
DRT_Kit kit_template;
kit_template.Id = Kit_Id;
kit_template.Logical_Id = DRD_ID_UNKNOWN;
kit_template.Name[0] = '\0';
if( ( nd_status = ND_DataStruct_Value_Find( (void **)Kit_Ptr_Ptr, DS_Ptr, &kit_template)) != NDS_OK)
{
fprintf( stderr, "DR_Kit_Id_Find: Find error: (%d)!\n", nd_status);
status = DRS_KO;
}
else
{
if( *Kit_Ptr_Ptr == NULL)
{
fprintf( stderr, "Can't find: Kit with id: (%ld)!\n", Kit_Id);
status = DRS_KO;
}
else
{
status = DRS_OK;
}
}
return( status);
}
/*----------------------------------------------------------------------------*/
/* DR_Kit_Logical_Id_Find */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Kit_Logical_Id_Find( DRT_Kit **Kit_Ptr_Ptr, NDT_Root *DS_Ptr, DRT_Kit_Id Kit_Logical_Id)
{
DRT_Status status;
NDT_Status nd_status;
DRT_Kit kit_template;
kit_template.Id = DRD_ID_UNKNOWN;
kit_template.Logical_Id = Kit_Logical_Id;
kit_template.Name[0] = '\0';
if( ( nd_status = ND_DataStruct_Value_Find( (void **)Kit_Ptr_Ptr, DS_Ptr, &kit_template)) != NDS_OK)
{
fprintf( stderr, "DR_Kit_Logical_Id_Find: Find error: (%d)!\n", nd_status);
status = DRS_KO;
}
else
{
if( *Kit_Ptr_Ptr == NULL)
{
fprintf( stderr, "Can't find: kit with logical id: [%d]!\n", Kit_Logical_Id);
status = DRS_KO;
}
else
{
status = DRS_OK;
}
}
return( status);
}
/*----------------------------------------------------------------------------*/
/* DR_Kit_Name_Find */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Kit_Name_Find( DRT_Kit **Kit_Ptr_Ptr, NDT_Root *DS_Ptr, char *Kit_Name)
{
DRT_Status status;
NDT_Status nd_status;
DRT_Kit kit_template;
kit_template.Id = DRD_ID_UNKNOWN;
kit_template.Logical_Id = DRD_ID_UNKNOWN;
strncpy( kit_template.Name, Kit_Name, DRD_NAME_LEN);
if( ( nd_status = ND_DataStruct_Value_Find( (void **)Kit_Ptr_Ptr, DS_Ptr, &kit_template)) != NDS_OK)
{
fprintf( stderr, "DR_Kit_Name_Find: Find error: (%d)!\n", nd_status);
status = DRS_KO;
}
else
{
if( *Kit_Ptr_Ptr == NULL)
{
fprintf( stderr, "Can't find: Kit with name: [%s]!\n", Kit_Name);
status = DRS_KO;
}
else
{
status = DRS_OK;
}
}
return( status);
}
/*----------------------------------------------------------------------------*/
/* DR_Kit_Dump */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Kit_Dump( DRT_Kit *Kit_Ptr, long Count)
{
NDT_Status nd_status;
long count2;
fprintf( stderr, " %03ld) DrumKit:", Count);
fprintf( stderr, " Id: (% 3ld) Logical Id: (% 3ld) Status: [%s] Name: [%s] Descrition: [%.32s] Dir Name: [%s] Sample Rate: (%d)\n",
Kit_Ptr->Id, Kit_Ptr->Logical_Id, DR_LOAD_STATUS_ASCII_GET( Kit_Ptr), Kit_Ptr->Name, Kit_Ptr->Desc, Kit_Ptr->DirName, Kit_Ptr->Base_Ptr->SampleRate);
fprintf( stderr, " Instruments List:\n");
if( Kit_Ptr->Instrument_DS_Ptr == NULL)
{
fprintf( stderr, " Uninitialised list!\n");
}
else
{
if( Kit_Ptr->Instrument_DS_Ptr->Index_Tab[NDD_INDEX_PRIMARY].Node_Number == 0)
{
fprintf( stderr, " Empty list!\n");
}
else
{
count2 = 0;
if( ( nd_status = ND_DataStruct_Value_Print( stderr, Kit_Ptr->Instrument_DS_Ptr, NDD_RECURSIVE_MODE_PARENT_CHILD, 0, 0, &count2)) != NDS_OK)
{
printf( "Cant't dump intruments: ND_DataStruct_Traverse() failed (%d)!\n", nd_status);
return( DRS_KO);
}
}
}
fprintf( stderr, "\n");
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_XML_Node_Exist */
/*----------------------------------------------------------------------------*/
DRT_Status DR_XML_Node_Exist( xmlDocPtr Xml_Doc, xmlXPathContextPtr Xml_XpathCtx, char *Xpath_Request)
{
DRT_Status status;
xmlXPathObjectPtr xml_xpathobj;
xmlNodeSetPtr nodeset;
char *tmpval_ptr;
long tmpval_len;
if( ( xml_xpathobj = xmlXPathEvalExpression( (xmlChar *)Xpath_Request, Xml_XpathCtx)) == NULL)
{
fprintf( stderr, "DR_XML_Node_Exist: xmlXPathEvalExpression failed [%s]!\n", Xpath_Request);
status = DRS_KO;
}
else
{
nodeset = xml_xpathobj->nodesetval;
if( xmlXPathNodeSetIsEmpty( nodeset))
{
// fprintf( stderr, "[%s] not found!\n", Xpath_Request);
status = DRS_KO;
}
else
{
// fprintf( stderr, "[%s] found!\n", Xpath_Request);
status = DRS_OK;
}
}
xmlXPathFreeObject( xml_xpathobj);
return( status);
}
/*----------------------------------------------------------------------------*/
/* DR_XML_Value_Get */
/*----------------------------------------------------------------------------*/
DRT_Status DR_XML_Value_Get( char *Value_Ptr, long Max_Len, xmlDocPtr Xml_Doc, xmlXPathContextPtr Xml_XpathCtx, char *Xpath_HeadRequest, char *Xpath_TailRequest)
{
DRT_Status status;
xmlXPathObjectPtr xml_xpathobj;
xmlNodeSetPtr nodeset;
char *tmpval_ptr;
long tmpval_len;
char xpath_request[1024];
strcpy( xpath_request, Xpath_HeadRequest);
strcat( xpath_request, Xpath_TailRequest);
if( ( xml_xpathobj = xmlXPathEvalExpression( (xmlChar *)xpath_request, Xml_XpathCtx)) == NULL)
{
fprintf( stderr, "DR_XML_Value_Get: xmlXPathEvalExpression failed! [%s]\n", xpath_request);
status = DRS_KO;
}
else
{
nodeset = xml_xpathobj->nodesetval;
if( xmlXPathNodeSetIsEmpty( nodeset))
{
fprintf( stderr, "[%s] not found!\n", xpath_request);
status = DRS_KO;
}
else
{
if( ( tmpval_ptr = (char *)xmlNodeListGetString( Xml_Doc, nodeset->nodeTab[0]->xmlChildrenNode, 1)) == NULL)
{
fprintf( stderr, "[%s] value not found!\n", xpath_request);
status = DRS_KO;
}
else
{
// fprintf( stderr, "[%s] = [%s] found!\n", nodeset->nodeTab[0]->name, tmpval_ptr);
if( ( tmpval_len = strlen( tmpval_ptr)) > Max_Len)
{
fprintf( stderr, "Value too long (%ld)>(%ld)!\n", tmpval_len, Max_Len);
status = DRS_OK;
}
else
{
strcpy( Value_Ptr, tmpval_ptr);
status = DRS_OK;
}
}
xmlFree( tmpval_ptr);
}
}
xmlXPathFreeObject( xml_xpathobj);
return( status);
}
/*----------------------------------------------------------------------------*/
/* DR_XML_Query_Tab_Exec */
/*----------------------------------------------------------------------------*/
DRT_Status DR_XML_Query_Tab_Exec( void *Value_Ptr, xmlDocPtr XML_Doc, xmlXPathContextPtr XML_XpathCtx, char *Xpath_Head, DRT_XML_Query *XML_Query_Tab)
{
DRT_Status status;
char reply_str[DRD_DESC_SIZE];
int i;
i=0;
while( XML_Query_Tab[i].XPath_Query != NULL)
{
if( ( status = DR_XML_Value_Get( reply_str, DRD_DESC_LEN, XML_Doc, XML_XpathCtx, Xpath_Head, XML_Query_Tab[i].XPath_Query)) != DRS_OK)
{
strcpy( reply_str, "");
}
switch( XML_Query_Tab[i].Value_Type)
{
case DRD_XML_QUERY_VALUE_STRING:
{
strncpy( ( Value_Ptr + XML_Query_Tab[i].Value_Offset), reply_str, XML_Query_Tab[i].Value_Len);
break;
}
case DRD_XML_QUERY_VALUE_INT:
{
*( (int *)( Value_Ptr + XML_Query_Tab[i].Value_Offset)) = atoi( reply_str);
break;
}
case DRD_XML_QUERY_VALUE_LONG:
{
*( (long *)( Value_Ptr + XML_Query_Tab[i].Value_Offset)) = strtol( reply_str, NULL, 10);
break;
}
case DRD_XML_QUERY_VALUE_LONGLONG:
{
*( (long long *)( Value_Ptr + XML_Query_Tab[i].Value_Offset)) = strtoll( reply_str, NULL, 10);
break;
}
case DRD_XML_QUERY_VALUE_FLOAT:
{
*( (float *)( Value_Ptr + XML_Query_Tab[i].Value_Offset)) = strtof( reply_str, NULL);
break;
}
case DRD_XML_QUERY_VALUE_DOUBLE:
{
*( (double *)( Value_Ptr + XML_Query_Tab[i].Value_Offset)) = strtod( reply_str, NULL);
break;
}
default:
{
fprintf( stderr, "Unknown valute type: (%d)\n", XML_Query_Tab[i].Value_Type);
break;
}
}
i++;
}
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Kit_Load */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Kit_Load( DRT_Base *Base_Ptr, char *FileName)
{
DRT_Status status;
NDT_Status nd_status;
DRT_Kit kit_template;
DRT_Kit *kit_ptr;
DRT_Instrument instrument_template;
DRT_Instrument *instrument_ptr;
DRT_Layer layer_template;
DRT_Layer *layer_ptr;
xmlDocPtr xml_doc;
xmlXPathContextPtr xml_xpathCtx;
xmlXPathObjectPtr xml_xpathObj;
char tmp_filename[DRD_FILENAME_SIZE];
char xpath_head[1024];
char reply_str[256];
int instrument, layer;
short i;
kit_template.Id = DRD_ID_UNKNOWN;
kit_template.Logical_Id = DRD_ID_UNKNOWN;
kit_template.Status = DRD_LOAD_STATUS_UNLOADED;
kit_template.Base_Ptr = Base_Ptr;
layer_template.Sample_Ptr = NULL;
layer_template.Sample_Size = 0;
layer_template.SF_Info_Ptr = NULL;
fprintf( stderr, "Loading: [%s]...\n", FileName);
if( strlen( FileName) > DRD_FILENAME_LEN)
{
fprintf( stderr, "Kit file name too long [%s]!", FileName);
status = DRS_KO;
}
else
{
strcpy( tmp_filename, FileName);
strcpy( kit_template.DirName, dirname(tmp_filename));
if( ( xml_doc = xmlParseFile( FileName)) == NULL)
{
fprintf( stderr, "xml_doc failed!\n");
status = DRS_KO;
}
else
{
if( ( xml_xpathCtx = xmlXPathNewContext( xml_doc)) == NULL)
{
fprintf( stderr, "xmlXPathNewContext failed!\n");
status = DRS_KO;
}
else
{
if( xmlXPathRegisterNs( xml_xpathCtx, (xmlChar *)"drumkit", (xmlChar *)"http://www.hydrogen-music.org/drumkit") != 0)
{
fprintf( stderr,"Error: unable to register default NS!\n");
status = DRS_KO;
}
if( ( status = DR_XML_Node_Exist( xml_doc, xml_xpathCtx, DRD_XML_XPATH_DRUMKIT_BASE_STR) != DRS_OK))
{
fprintf( stderr, "Bad drumkit file!\n");
}
else
{
DR_XML_Query_Tab_Exec( &kit_template, xml_doc, xml_xpathCtx, DRD_XML_XPATH_DRUMKIT_BASE_STR, DRG_XML_Query_Tab_Kit);
if( ( status = DR_Kit_Add( &kit_ptr, Base_Ptr->Kit_DS_Ptr, &kit_template)) != DRS_OK)
{
fprintf( stderr, "Can't create a new kit!\n");
}
else
{
// fprintf( stderr, "New kit!\n");
status = DRS_OK;
instrument = 1;
instrument_template.Kit_Ptr = kit_ptr;
while( ( status == DRS_OK)
&& ( sprintf( xpath_head, DRD_XML_XPATH_DRUMKIT_INSTRUMENT_FULL, instrument) > 0)
&& ( DR_XML_Node_Exist( xml_doc, xml_xpathCtx, xpath_head) == DRS_OK))
{
instrument_template.Id = -1;
DR_XML_Query_Tab_Exec( &instrument_template, xml_doc, xml_xpathCtx, xpath_head, DRG_XML_Query_Tab_Instrument);
if( instrument_template.Id == -1)
{
fprintf( stderr, "Instrument id not found!\n");
}
else
{
if( ( status = DR_Instrument_Add( &instrument_ptr, kit_ptr->Instrument_DS_Ptr, &instrument_template)) != DRS_OK)
{
fprintf( stderr, "Can't create a new instrument!\n");
}
else
{
// fprintf( stderr, "New Instrument!\n");
}
layer = 1;
layer_template.Instrument_Ptr = instrument_ptr;
while( ( status == DRS_OK)
&& ( sprintf( xpath_head, DRD_XML_XPATH_DRUMKIT_LAYER_FULL, instrument, layer) > 0)
&& ( DR_XML_Node_Exist( xml_doc, xml_xpathCtx, xpath_head) == DRS_OK))
{
DR_XML_Query_Tab_Exec( &layer_template, xml_doc, xml_xpathCtx, xpath_head, DRG_XML_Query_Tab_Layer);
strcpy( tmp_filename, kit_template.DirName);
strcat( tmp_filename, "/");
strcat( tmp_filename, layer_template.FileName);
strcpy( layer_template.FileName, tmp_filename);
if( ( status = DR_Layer_Add( &layer_ptr, instrument_ptr->Layer_DS_Ptr, &layer_template)) != DRS_OK)
{
fprintf( stderr, "Can't create a new layer!\n");
}
else
{
// fprintf( stderr, "New layer!\n");
layer++;
}
}
}
instrument++;
}
}
}
xmlXPathFreeContext( xml_xpathCtx);
}
xmlFreeDoc( xml_doc);
}
}
xmlCleanupParser();
return( status);
}
/*----------------------------------------------------------------------------*/
/* DR_Kit_Sample_Load */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Kit_Sample_Load( DRT_Kit *Kit_Ptr)
{
NDT_Status nd_status;
if( DR_LOAD_STATUS_LOADED_IS( Kit_Ptr))
{
fprintf( stderr, "Loading kit samples: [%s] Skiped!\n", Kit_Ptr->Name);
}
else
{
fprintf( stderr, "Loading kit samples: [%s]!\n", Kit_Ptr->Name);
if( ( nd_status = ND_DataStruct_Traverse( Kit_Ptr->Instrument_DS_Ptr, NDD_CMD_SAMPLE_LOAD)) != NDS_OK)
{
printf( "Cant't load kit samples: ND_DataStruct_Traverse() failed (%d)!\n", nd_status);
return( DRS_KO);
}
if( Kit_Ptr->Base_Ptr->Task_Sync_Kit_Flag == DRD_TRUE)
{
if( DR_Task_Wait( Kit_Ptr->Base_Ptr) != DRS_OK)
{
printf( "DR_Task_Wait failed (%d)!\n");
return( DRS_KO);
}
}
Kit_Ptr->Status = DRD_LOAD_STATUS_LOADED;
}
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Kit_Sample_UnLoad */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Kit_Sample_UnLoad( DRT_Kit *Kit_Ptr)
{
NDT_Status nd_status;
if( !DR_LOAD_STATUS_LOADED_IS( Kit_Ptr))
{
fprintf( stderr, "UnLoading kit samples: [%s] Skiped!\n", Kit_Ptr->Name);
}
else
{
fprintf( stderr, "UnLoading kit samples: [%s]!\n", Kit_Ptr->Name);
if( ( nd_status = ND_DataStruct_Traverse( Kit_Ptr->Instrument_DS_Ptr, NDD_CMD_SAMPLE_UNLOAD, Kit_Ptr)) != NDS_OK)
{
printf( "Cant't unload kit samples: ND_DataStruct_Traverse() failed (%d)\n", nd_status);
return( DRS_KO);
}
Kit_Ptr->Status = DRD_LOAD_STATUS_UNLOADED;
}
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Kits_Sample_Load */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Kits_Sample_Load( DRT_Base *Base_Ptr)
{
NDT_Status nd_status;
fprintf( stderr, "Loading kits samples!\n");
if( ( nd_status = ND_DataStruct_Traverse( Base_Ptr->Kit_DS_Ptr, NDD_CMD_SAMPLE_LOAD)) != NDS_OK)
{
printf( "Cant't load kit samples: ND_DataStruct_Traverse() failed (%d)!\n", nd_status);
return( DRS_KO);
}
if( Base_Ptr->Task_Sync_Kits_Flag == DRD_TRUE)
{
fprintf( stderr, "Synchronising...\n");
if( DR_Task_Wait( Base_Ptr) != DRS_OK)
{
fprintf( stderr, "DR_Task_Wait failed (%d)!\n");
return( DRS_KO);
}
fprintf( stderr, "Sync done!\n");
}
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Kits_Sample_UnLoad */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Kits_Sample_UnLoad( DRT_Base *Base_Ptr)
{
NDT_Status nd_status;
fprintf( stderr, "UnLoading kits samples!\n");
if( ( nd_status = ND_DataStruct_Traverse( Base_Ptr->Kit_DS_Ptr, NDD_CMD_SAMPLE_UNLOAD, Base_Ptr->SampleRate)) != NDS_OK)
{
printf( "Cant't unload kit samples: ND_DataStruct_Traverse() failed (%d)!\n", nd_status);
return( DRS_KO);
}
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Kits_Load */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Kits_Load( DRT_Base *Base_Ptr)
{
DRT_Status status;
NDT_Status nd_status;
char glob_pattern[] = "~/.hydrogen/data/drumkits/*/drumkit.xml";
// char glob_pattern[] = "~/.hydrogen/data/drumkits/AVL-BlackPearl-4A-1.1/drumkit.xml";
// char glob_pattern[] = "~/.hydrogen/data/drumkits/Mars Lindrum: 02-Kit 2/drumkit.xml";
// char glob_pattern[] = "~/.hydrogen/data/drumkits/Mars Mod */drumkit.xml";
glob_t glob_struct;
int i;
DRT_Kit_Id count = 0L;
LIBXML_TEST_VERSION;
if( glob( glob_pattern, (GLOB_NOSORT + GLOB_TILDE), NULL, &glob_struct) != 0)
{
fprintf( stderr, "glob() error!\n");
status = DRS_KO;
}
else
{
for( i = 0; i < glob_struct.gl_pathc; i++)
{
// printf( "[%s]\n", glob_struct.gl_pathv[i]);
if( ( status = DR_Kit_Load( Base_Ptr, glob_struct.gl_pathv[i])) != DRS_OK)
{
fprintf( stderr, "Can't load kit [%s]!\n", glob_struct.gl_pathv[i]);
}
}
if( ( nd_status = ND_DataStruct_Traverse( Base_Ptr->Kit_DS_Ptr, NDD_CMD_ID_REFRESH, &count)) != NDS_OK)
{
printf( "Can't refresh kit id: ND_DataStruct_Traverse() failed (%d)!\n", nd_status);
status = DRS_KO;
}
else
{
if( ( nd_status = ND_DataStruct_Convert( Base_Ptr->Kit_DS_Ptr, DRG_Kit_DS_Index_Tab_Final)) != NDS_OK)
{
fprintf( stderr, "ND_DataStruct_Convert() failed (%d)!\n", status);
status = DRS_KO;
}
else
{
status = DRS_OK;
}
}
}
globfree( &glob_struct);
// DR_Kits_Dump( Base_Ptr);
// Base_Ptr->SampleRate=44100;
/*
status = DR_Layer_Sample_Load( (DRT_Layer *)(
((DRT_Instrument *)(
((DRT_Kit *)(Base_Ptr->Kit_DS_Ptr->Index_Tab[NDD_INDEX_PRIMARY].Head->Value))
->Instrument_DS_Ptr->Index_Tab[NDD_INDEX_PRIMARY].Head->Value))
->Layer_DS_Ptr->Index_Tab[NDD_INDEX_PRIMARY].Head->Value),
(DRT_Kit *)(Base_Ptr->Kit_DS_Ptr->Index_Tab[NDD_INDEX_PRIMARY].Head->Value), Base_Ptr->SampleRate);
*/
/*
if( Base_Ptr->Kit_DS_Ptr->Index_Tab[NDD_INDEX_PRIMARY].Head != NULL)
{
status = DR_Kit_Sample_Load( (DRT_Kit *)(Base_Ptr->Kit_DS_Ptr->Index_Tab[NDD_INDEX_PRIMARY].Head->Value),
Base_Ptr->SampleRate);
}
*/
// status = DR_Kits_Sample_Load( Base_Ptr);
return( status);
}
/*----------------------------------------------------------------------------*/
/* DR_Kits_Stats_Dump */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Kits_Stats_Dump( DRT_Base *Base_Ptr)
{
NDT_Status nd_status;
DRT_Id kit_count = 0;
DRT_Id instrument_count = 0;
DRT_Id layer_count = 0;
DRT_Id sample_count = 0;
if( ( nd_status = ND_DataStruct_Traverse( Base_Ptr->Kit_DS_Ptr, NDD_CMD_STATS_GET, &kit_count, &instrument_count, &layer_count, &sample_count)) != NDS_OK)
{
printf( "Can't compute stats: ND_DataStruct_Traverse() failed (%d)!\n", nd_status);
return( DRS_KO);
}
fprintf( stderr, "Number of Kits: (%ld) Number of Instruments: (%ld) Number of Layers: (%ld) Number of Loaded Samples: (%ld)\n", kit_count, instrument_count, layer_count, sample_count);
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Kits_Dump */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Kits_Dump( DRT_Base *Base_Ptr)
{
NDT_Status nd_status;
DRT_Kit_Id count = 0;
fprintf( stderr, "\n");
fprintf( stderr, "Sample Rate: (%d)\n", Base_Ptr->SampleRate);
fprintf( stderr, "DrumKit List:\n");
if( ( nd_status = ND_DataStruct_Value_Print( stderr, Base_Ptr->Kit_DS_Ptr, NDD_RECURSIVE_MODE_PARENT_CHILD, 0, 0, &count)) != NDS_OK)
{
printf( "Can't dump kits: ND_DataStruct_Value_Print() failed (%d)!\n", nd_status);
return( DRS_KO);
}
if( DR_Kits_Stats_Dump( Base_Ptr) != DRS_OK)
{
return( DRS_KO);
}
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Kits_Graph_Dump */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Kits_Graph_Dump( DRT_Base *Base_Ptr)
{
NDT_Status nd_status;
fprintf( stderr, "digraph G\n{\n node [shape = record];\n\n");
if( ( nd_status = ND_DataStruct_Traverse( Base_Ptr->Kit_DS_Ptr, NDD_CMD_GRAPH_PRINT)) != NDS_OK)
{
printf( "Can't dump graph kits: ND_DataStruct_Value_Print() failed (%d)!\n", nd_status);
return( DRS_KO);
}
fprintf( stderr, "}\n");
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Task_Tread */
/*----------------------------------------------------------------------------*/
static void *DR_Task_Thread( DRT_Base *Base_Ptr)
{
pthread_t my_thread_id = pthread_self();
short task_id;
// fprintf( stderr, "Start Task Thread (%d)!\n", my_thread_id);
for( task_id = 0; ( Base_Ptr->Task_Tab[task_id].Thread != my_thread_id) && ( task_id < Base_Ptr->Task_Number); task_id++);
if( task_id == Base_Ptr->Task_Number)
{
fprintf( stderr, "Can't find my id: (%d)!\n", my_thread_id);
}
else
{
// fprintf( stderr, "I'm: (%02d)!\n", task_id);
pthread_mutex_lock( &( Base_Ptr->Task_Mutex));
do
{
switch( Base_Ptr->Task_Tab[task_id].Command)
{
case DRD_TASK_CMD_TASK_SPAWN:
{
// fprintf( stderr, "I'm: (%02d) Spawning!\n", task_id);
Base_Ptr->Task_Tab[task_id].Status = DRD_TASK_STATUS_RUNNING;
Base_Ptr->Task_Tab[task_id].Count = 0L;
break;
}
case DRD_TASK_CMD_TASK_KILL:
{
// fprintf( stderr, "I'm: (%02d) Killing!\n", task_id);
Base_Ptr->Task_Tab[task_id].Status = DRD_TASK_STATUS_KILLED;
pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
break;
}
case DRD_TASK_CMD_INSTRUMENT_LOAD:
case DRD_TASK_CMD_LAYER_LOAD:
case DRD_TASK_CMD_KIT_LOAD:
{
Base_Ptr->Task_Tab[task_id].Status = DRD_TASK_STATUS_RUNNING;
// Base_Ptr->Task_Count_Waiting--;
pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
switch( Base_Ptr->Task_Tab[task_id].Command)
{
case DRD_TASK_CMD_LAYER_LOAD:
{
DR_Layer_Sample_Load( (DRT_Layer *)( Base_Ptr->Task_Tab[task_id].Target_Ptr));
break;
}
case DRD_TASK_CMD_INSTRUMENT_LOAD:
{
DR_Instrument_Sample_Load( (DRT_Instrument *)( Base_Ptr->Task_Tab[task_id].Target_Ptr));
break;
}
case DRD_TASK_CMD_KIT_LOAD:
{
DR_Kit_Sample_Load( (DRT_Kit *)( Base_Ptr->Task_Tab[task_id].Target_Ptr));
break;
}
}
Base_Ptr->Task_Tab[task_id].Count++;
pthread_mutex_lock( &( Base_Ptr->Task_Mutex));
break;
}
default:
{
printf( "DR_Task_Thread called with an undefined command [%d] [%s]\n", Base_Ptr->Task_Tab[task_id].Command, DR_TASK_CMD_ASCII_GET( &(Base_Ptr->Task_Tab[task_id])));
}
}
if( DR_TASK_STATUS_RUNNING_IS( &( Base_Ptr->Task_Tab[task_id])))
{
// fprintf( stderr, "I'm: (%02d) Waiting!\n", task_id);
Base_Ptr->Task_Tab[task_id].Status = DRD_TASK_STATUS_WAITING;
Base_Ptr->Task_Tab[task_id].Command = DRD_TASK_CMD_NONE;
Base_Ptr->Task_Tab[task_id].Target_Ptr = NULL;
Base_Ptr->Task_Count_Waiting++;
pthread_cond_signal( &( Base_Ptr->Task_Cond));
pthread_cond_wait( &( Base_Ptr->Task_Tab[task_id].Cond), &( Base_Ptr->Task_Mutex));
}
}
while( ! DR_TASK_STATUS_KILLED_IS( &( Base_Ptr->Task_Tab[task_id])));
pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
// fprintf( stderr, "I'm: (%02d) and killed!\n", task_id);
}
return(0);
}
/*----------------------------------------------------------------------------*/
/* DR_Task_Id_Run */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Task_Id_Run( DRT_Task_Id Task_Id, DRT_Base *Base_Ptr, DRT_Task_Command Command, void *Target_Ptr)
{
DRT_Status status;
// pthread_mutex_lock( &( Base_Ptr->Task_Mutex));
if( !DR_TASK_STATUS_WAITING_IS( &( Base_Ptr->Task_Tab[Task_Id])))
{
fprintf( stderr, "Task_Id_Run: Inconsistent task status: [%s]!\n", DR_TASK_STATUS_ASCII_GET( &( Base_Ptr->Task_Tab[Task_Id])));
// pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
status = DRS_KO;
}
else
{
Base_Ptr->Task_Tab[Task_Id].Command = Command;
Base_Ptr->Task_Tab[Task_Id].Target_Ptr = Target_Ptr;
Base_Ptr->Task_Count_Waiting--;
pthread_cond_signal( &( Base_Ptr->Task_Tab[Task_Id].Cond));
// pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
status = DRS_OK;
}
return( status);
}
/*----------------------------------------------------------------------------*/
/* DR_Task_Kill */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Task_Id_Kill( DRT_Task_Id Task_Id, DRT_Base *Base_Ptr)
{
DRT_Status status;
pthread_mutex_lock( &( Base_Ptr->Task_Mutex));
if( !DR_TASK_STATUS_WAITING_IS( &( Base_Ptr->Task_Tab[Task_Id])))
{
fprintf( stderr, "Task_Kill: Inconsistent task status: [%s]!\n", DR_TASK_STATUS_ASCII_GET( &( Base_Ptr->Task_Tab[Task_Id])));
pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
status = DRS_KO;
}
else
{
// fprintf( stderr, "Killing task id: (%d)!\n", Task_Id);
Base_Ptr->Task_Tab[Task_Id].Command = DRD_TASK_CMD_TASK_KILL;
Base_Ptr->Task_Tab[Task_Id].Target_Ptr = NULL;
pthread_cond_signal( &( Base_Ptr->Task_Tab[Task_Id].Cond));
pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
status = DRS_OK;
}
return( status);
}
/*----------------------------------------------------------------------------*/
/* DR_Task_Run */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Task_Run( DRT_Base *Base_Ptr, DRT_Task_Command Command, void *Target_Ptr)
{
DRT_Task_Id task_id;
DRT_Boolean found = DRD_FALSE;
// fprintf( stderr, "Task Run: Called!\n");
Base_Ptr->Task_Count_Run++;
while( found != DRD_TRUE)
{
pthread_mutex_lock( &( Base_Ptr->Task_Mutex));
if( Base_Ptr->Task_Count_Waiting > 0)
{
// while( ( task_id < Base_Ptr->Task_Number) && ( found != DRD_TRUE))
for( task_id = 0; ( task_id < Base_Ptr->Task_Number) && ( found != DRD_TRUE); task_id++)
{
if( DR_TASK_STATUS_WAITING_IS( &( Base_Ptr->Task_Tab[task_id])) && DR_TASK_CMD_NONE_IS( &( Base_Ptr->Task_Tab[task_id])))
{
// pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
// fprintf( stderr, "Task Run: Found (%d)!\n", task_id);
if( DR_Task_Id_Run( task_id, Base_Ptr, Command, Target_Ptr) != DRS_OK)
{
fprintf( stderr, "Can't run task !\n");
pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
return( DRS_KO);
}
pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
found = DRD_TRUE;
}
}
if( found != DRD_TRUE)
{
DR_Tasks_Dump( Base_Ptr);
Base_Ptr->Task_Count_FakeWU++;
}
}
if( found != DRD_TRUE)
{
// fprintf( stderr, "Task Run: Sleeping!\n");
Base_Ptr->Task_Count_Sleep++;
pthread_cond_wait( &( Base_Ptr->Task_Cond), &( Base_Ptr->Task_Mutex));
pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
}
}
return( DRS_OK);
}
/*
DRT_Status DR_Task_Run( DRT_Base *Base_Ptr, DRT_Task_Command Command, void *Target_Ptr)
{
DRT_Task_Id task_id;
DRT_Boolean found = DRD_FALSE;
// fprintf( stderr, "Task Run: Called!\n");
Base_Ptr->Task_Count_Run++;
while( found != DRD_TRUE)
{
task_id = 0;
pthread_mutex_lock( &( Base_Ptr->Task_Mutex));
while( ( task_id < Base_Ptr->Task_Number) && ( found != DRD_TRUE))
{
if( DR_TASK_STATUS_WAITING_IS( &( Base_Ptr->Task_Tab[task_id])) && DR_TASK_CMD_NONE_IS( &( Base_Ptr->Task_Tab[task_id])))
{
// pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
// fprintf( stderr, "Task Run: Found (%d)!\n", task_id);
if( DR_Task_Id_Run( task_id, Base_Ptr, Command, Target_Ptr) != DRS_OK)
{
fprintf( stderr, "Can't run task !\n");
pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
return( DRS_KO);
}
pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
found = DRD_TRUE;
}
task_id++;
}
if( found != DRD_TRUE)
{
// fprintf( stderr, "Task Run: Sleeping!\n");
Base_Ptr->Task_Count_Sleep++;
pthread_cond_wait( &( Base_Ptr->Task_Cond), &( Base_Ptr->Task_Mutex));
pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
}
}
return( DRS_OK);
}
*/
/*----------------------------------------------------------------------------*/
/* DR_Task_Wait */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Task_Wait( DRT_Base *Base_Ptr)
{
DRT_Task_Id task_id, count = 0;
pthread_mutex_lock( &( Base_Ptr->Task_Mutex));
while( count < Base_Ptr->Task_Number)
{
task_id = 0;
count = 0;
for( task_id = 0; task_id < Base_Ptr->Task_Number; task_id++)
{
if( DR_TASK_STATUS_WAITING_IS( &( Base_Ptr->Task_Tab[task_id])) && DR_TASK_CMD_NONE_IS( &( Base_Ptr->Task_Tab[task_id])))
{
count++;
}
}
if( count < Base_Ptr->Task_Number)
{
// DR_Tasks_Dump( Base_Ptr);
pthread_cond_wait( &( Base_Ptr->Task_Cond), &( Base_Ptr->Task_Mutex));
}
}
pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_Tasks_Dump */
/*----------------------------------------------------------------------------*/
DRT_Status DR_Tasks_Dump( DRT_Base *Base_Ptr)
{
DRT_Task_Id task_id;
// pthread_mutex_lock( &( Base_Ptr->Task_Mutex));
fprintf( stderr, "Task Number: (%d) Task Load Layer: [%s] Task Load Instrument: [%s] Task Load Kit: [%s] Task Sync Kit: [%s] Task Sync Kits: [%s]\n",
Base_Ptr->Task_Number, DR_BOOLEAN_VALUE_ASCII_GET( Base_Ptr->Task_Load_Layer_Flag), DR_BOOLEAN_VALUE_ASCII_GET( Base_Ptr->Task_Load_Instrument_Flag), DR_BOOLEAN_VALUE_ASCII_GET(Base_Ptr->Task_Load_Kit_Flag), DR_BOOLEAN_VALUE_ASCII_GET(Base_Ptr->Task_Sync_Kit_Flag), DR_BOOLEAN_VALUE_ASCII_GET(Base_Ptr->Task_Sync_Kits_Flag));
fprintf( stderr, "Task Tab:\n");
for( task_id = 0; task_id < Base_Ptr->Task_Number; task_id++)
{
fprintf( stderr, " Id: (%02d) Status: [%s] Thread: (%ld) Command: [%s] Target Ptr: [%lx] Count: (%ld)\n",
task_id, DR_TASK_STATUS_ASCII_GET( &(Base_Ptr->Task_Tab[task_id])), (long)( Base_Ptr->Task_Tab[task_id].Thread), DR_TASK_CMD_ASCII_GET( &( Base_Ptr->Task_Tab[task_id])), Base_Ptr->Task_Tab[task_id].Target_Ptr, Base_Ptr->Task_Tab[task_id].Count);
}
fprintf( stderr, "Task Count Waiting: (%ld) Task Count Run: (%ld) Task Count Sleep: (%ld) Task Count FakeWU: (%ld)\n", Base_Ptr->Task_Count_Waiting, Base_Ptr->Task_Count_Run, Base_Ptr->Task_Count_Sleep, Base_Ptr->Task_Count_FakeWU);
// pthread_mutex_unlock( &( Base_Ptr->Task_Mutex));
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_DataStruct_Init */
/*----------------------------------------------------------------------------*/
DRT_Status DR_DataStruct_Init( DRT_Base *Base_Ptr, DRT_SampleRate SampleRate, DRT_Task_Id Task_Number)
{
NDT_Status nd_status;
DRT_Task_Id task_id;
if( ( nd_status = ND_Library_Open( NDD_TRUE)) != NDS_OK)
{
fprintf( stderr, "Can't open node library (%d)!\n", nd_status);
return( DRS_KO);
}
if( ( nd_status = ND_DataStruct_Open( &(Base_Ptr->Kit_DS_Ptr), DRD_KIT_DS_INDEX_NB, DRG_Kit_DS_Index_Tab_Initial, "Kit_Manager", DR_Kit_Manager, NULL, NULL, NULL, NULL, NDD_TRUE, NULL)) != NDS_OK)
{
fprintf( stderr, "Kit_DS: ND_DataStruct_Open() failed (%d)!\n", nd_status);
return( DRS_KO);
}
Base_Ptr->SampleRate = SampleRate;
/*
Base_Ptr->Velocity_Ignore_Flag = DRD_VELOCITY_IGNORE_FLAG_DEFAULT;
Base_Ptr->Note_Off_Ignore_Flag = DRD_NOTE_OFF_IGNORE_FLAG_DEFAULT;
Base_Ptr->Velocity_Ignore_Note = DRD_VELOCITY_IGNORE_NOTE_DEFAULT;
Base_Ptr->Note_Off_Ignore_Note = DRD_NOTE_OFF_IGNORE_NOTE_DEFAULT;
*/
Base_Ptr->Channel_Id_Ptr = NULL;
Base_Ptr->Base_Note_Ptr = NULL;
Base_Ptr->Velocity_Ignore_Note_Ptr = NULL;
Base_Ptr->Note_Off_Ignore_Note_Ptr = NULL;
Base_Ptr->Velocity_Ignore_Flag_Ptr = NULL;
Base_Ptr->Note_Off_Ignore_Flag_Ptr = NULL;
Base_Ptr->Task_Number = Task_Number;
Base_Ptr->Task_Load_Layer_Flag = DRD_TASK_LOAD_LAYER_DEFAULT;
Base_Ptr->Task_Load_Instrument_Flag = DRD_TASK_LOAD_INSTRUMENT_DEFAULT;
Base_Ptr->Task_Load_Kit_Flag = DRD_TASK_LOAD_KIT_DEFAULT;
Base_Ptr->Task_Sync_Kit_Flag = DRD_TASK_SYNC_KIT_DEFAULT;
Base_Ptr->Task_Sync_Kits_Flag = DRD_TASK_SYNC_KITS_DEFAULT;
Base_Ptr->Task_Count_Waiting = 0L;
Base_Ptr->Task_Count_Run = 0L;
Base_Ptr->Task_Count_Sleep = 0L;
Base_Ptr->Task_Count_FakeWU = 0L;
if( ( Base_Ptr->Task_Tab = malloc( sizeof( DRT_Task) * Task_Number)) == NULL)
{
fprintf( stderr, "Can't allocate task tab!\n");
return( NDS_KO);
}
else
{
if( pthread_mutex_init( &( Base_Ptr->Task_Mutex), 0))
{
fprintf( stderr, "Could not initialize global task mutex!\n");
return( NDS_KO);
}
if( pthread_cond_init( &( Base_Ptr->Task_Cond), 0))
{
fprintf( stderr, "Could not initialize global task cond!\n");
return( NDS_KO);
}
for( task_id = 0; task_id < Task_Number; task_id++)
{
Base_Ptr->Task_Tab[task_id].Status = DRD_TASK_STATUS_UNSPAWNED;
Base_Ptr->Task_Tab[task_id].Command = DRD_TASK_CMD_TASK_SPAWN;
Base_Ptr->Task_Tab[task_id].Target_Ptr = NULL;
Base_Ptr->Task_Tab[task_id].Count = 0L;
if( pthread_cond_init( &( Base_Ptr->Task_Tab[task_id].Cond), 0))
{
fprintf( stderr, "Could not initialize task cond!\n");
return( NDS_KO);
}
if( pthread_create( &(Base_Ptr->Task_Tab[task_id].Thread), 0, (void * (*)(void *))DR_Task_Thread, Base_Ptr))
{
fprintf( stderr, "Could not initialize task thread!\n");
return( NDS_KO);
}
}
}
return( DRS_OK);
}
/*----------------------------------------------------------------------------*/
/* DR_DataStruct_DeInit */
/*----------------------------------------------------------------------------*/
DRT_Status DR_DataStruct_DeInit( DRT_Base *Base_Ptr)
{
NDT_Status nd_status;
DRT_Task_Id task_id;
for( task_id = 0; task_id < Base_Ptr->Task_Number; task_id++)
{
if( DR_Task_Id_Kill( task_id, Base_Ptr) != DRS_OK)
{
printf( "Can't kill task: (%d)!\n", task_id);
return( NDS_KO);
}
}
// sleep(5);
if( ( nd_status = ND_DataStruct_Close( Base_Ptr->Kit_DS_Ptr)) != NDS_OK)
{
printf( "Can't close Kit_DS (%d)!\n", nd_status);
return( DRS_KO);
}
if( ( nd_status = ND_Library_Close()) != NDS_OK)
{
fprintf( stderr, "Can't close node library (%d)!\n", nd_status);
return( DRS_KO);
}
return( DRS_OK);
}