Exemple #1
0
void
getproperty(unicap_handle_t handle, unicap_property_t *prop, char *propid)
{
  int i;
  for(i = 0; SUCCESS(unicap_enumerate_properties(handle, NULL, prop,i)); i++)
    {
      unicap_property_t p = *prop;
      if(strcmp(propid, p.identifier) == 0)
	{
	  unicap_get_property(handle, prop);
	  break;
	}
    }
}
Exemple #2
0
//--------------------------------------------------------------------
void ofUCUtils::queryUC_imageProperties(void) {

	unicap_property_t property;
	ofLog(OF_NOTICE,"ofUCUtils : Video settings:");
	const int PPTY_TYPE_MAPPED_FLOAT=UNICAP_PROPERTY_TYPE_UNKNOWN + 1;
	int status = STATUS_SUCCESS;
	int ppty_type;
	for (int i=0; i<MAX_PROPERTIES; i++) {
		status = unicap_enumerate_properties(handle, NULL, &property, i);
		if ( !SUCCESS( status ))
			return;

		status = unicap_get_property(handle, &property );
		if ( !SUCCESS( status )) {
			ofLog(OF_ERROR,"ofUCUtils : Error getting %s value\n", property.identifier);
			return;
		}

		ppty_type = property.type;
		switch (ppty_type) {
		case PPTY_TYPE_MAPPED_FLOAT:
		case UNICAP_PROPERTY_TYPE_RANGE:
		case UNICAP_PROPERTY_TYPE_VALUE_LIST:
			if (property.value>0 && property.value<1) {
				ofLog(OF_NOTICE,"\t%s: 1/%.0f \n", property.identifier, 1/property.value);
			} else {
				ofLog(OF_NOTICE,"\t%s: %.2f \n", property.identifier, property.value);
			}
			break;
		case UNICAP_PROPERTY_TYPE_MENU:
			printf("\t%s: %s \n", property.identifier, property.menu_item);
			break;
		default:
			break;
		}

	}

}
int main( int argc, char **argv )
{
   unicap_handle_t handle;
   unicap_device_t device;
   unicap_device_t device_spec;
   unicap_property_t property;
   unicap_property_t property_spec;

   int list_only = 0;
   int get_property = 0;
   int value_set = 0;
	
   int i;
   int c = 0;

   unicap_void_device( &device_spec );
   unicap_void_property( &property );
	
   while( c != -1 )
   {
      c = getopt( argc, argv, "gp:M:v:m:l" );
      switch( c )
      {
	 case 'p':
	    if( optarg )
	    {
	       strcpy( property.identifier, optarg );
	    }
	    break;
		      
	 case 'M':
	    if( optarg )
	    {
	       printf( "Model: %s\n", optarg );
	       strcpy( device_spec.model_name, optarg );
	    }
	    else
	    {
	       print_usage( argv[0] );
	       exit( 1 );
	    }
	    break;
				
	 case 'v':
	    if( optarg )
	    {
	       sscanf( optarg, "%f", &property_spec.value );
	       value_set = 1;
	    }
	    else
	    {
	       print_usage( argv[0] );
	       exit( 1 );
	    }
	    break;
				
	 case 'm':
	    if( optarg )
	    {
	       strcpy( property.menu_item, optarg );
	    }
	    else
	    {
	       print_usage( argv[0] );
	       exit( 1 );
	    }
	    break;
				
	 case 'l':
	    list_only = 1;
	    break;
	 case 'g':
	    get_property = 1;
	    break;
				
	 case -1:
	    printf( "optind: %d\n", optind );
	    break;
				
	 default:
	    print_usage( argv[0] );
	    exit( 1 );
	    break;
      }
   }
	
	

   //
   // Enumerate all video capture devices; if more than 1 device present, ask for which device to open
   //
   for( i = 0; SUCCESS( unicap_enumerate_devices( &device_spec, &device, i ) ); i++ )
   {
      printf( "%i: %s\n", i, device.identifier );
   }
   if( --i > 0 )
   {
      printf( "Select video capture device: " );
      scanf( "%d", &i );
   }

   if( !SUCCESS( unicap_enumerate_devices( NULL, &device, i ) ) )
   {
      fprintf( stderr, "Failed to get info for device '%s'\n", device.identifier );
      exit( 1 );
   }

   /*
     Acquire a handle to this device
   */
   if( !SUCCESS( unicap_open( &handle, &device ) ) )
   {
      fprintf( stderr, "Failed to open device: %s\n", device.identifier );
      exit( 1 );
   }

   printf( "Opened video capture device: %s\n", device.identifier );

	
   // Initialize a property specifier structure
   unicap_void_property( &property_spec );
   strcpy( property_spec.identifier, property.identifier );

   printf( "Supported properties: \n" );
   printf( "\tName\t\tValue\n" );

   //
   // Print a list of all properties matching the specifier. For a "void" specifier, this matches all 
   //   properties supported by the device
   // If more than 1 property is supported, ask for which property to modify
   for( i = 0; SUCCESS( unicap_enumerate_properties( handle, &property_spec, &property, i ) ); i++ )
   {
      unicap_get_property( handle, &property );
      printf( "%i: \t%s\t\t", i, property.identifier );
      switch( property.type )
      {
	 case UNICAP_PROPERTY_TYPE_RANGE:
	 case UNICAP_PROPERTY_TYPE_VALUE_LIST:
	    printf( "%f", property.value );
	    break;
		      
	 case UNICAP_PROPERTY_TYPE_MENU:
	    printf( "%s", property.menu_item );
	    break;
		      
	 case UNICAP_PROPERTY_TYPE_FLAGS:
	 {
	    int j;
	    const char *flags[] =
	       { "MANUAL", 
		 "AUTO", 
		 "ONE_PUSH", 
		 "READ_OUT", 
		 "ON_OFF", 
		 "READ_ONLY", 
		 "FORMAT_CHANGE" 
	       };
		      
		      
	    for( j = 0; j < ( sizeof( flags ) / sizeof( char* ) ); j++ )
	    {
	       if( ( property.flags & ( 1<<j ) ) == ( 1<<j ) )
	       {
		  printf( "%s ",flags[j] );
	       }
	    }
	 }
	 break;
		   
	 default:
	    break;
      }
		
      printf( "\n" );
   }
   if( --i > 1 )
   {
      printf( "Select a property to edit: " );
      scanf( "%d", &i );
   }

   // Now get the description of the requested property. unicap_enumerate_property gives the 
   // property structure initialized to the default values. So just change the value of the 
   // returned property to the new one and set it using 'unicap_set_property'
   if( !SUCCESS( unicap_enumerate_properties( handle, &property_spec, &property, i ) ) )
   {
      printf( "Failed to enumerate property\n" );
      exit( -1 );
   }

   
   switch( property.type )
   {
      case UNICAP_PROPERTY_TYPE_RANGE:
      case UNICAP_PROPERTY_TYPE_VALUE_LIST:
      {
	 if( !value_set )
	 {
	    double new_value;
	    printf( "Enter new value for property '%s' ( floating point value ): ", property.identifier );
	    scanf( "%lf", &new_value );
	    property.value = new_value;
	    property.flags = UNICAP_FLAGS_MANUAL;
	 }
	 else
	 {
	    property.value = property_spec.value;
	 }
      }
      break;
	   
      case UNICAP_PROPERTY_TYPE_MENU:
      {
	 printf( "Enter new value for property '%s' ( string ): ", property.identifier );
	 scanf( "%128s", property.menu_item );
      }
      break;

      case UNICAP_PROPERTY_TYPE_FLAGS:
      {
	 int i;
	 char buf[128];
	 char *str;
	 printf( "Enter new flags for property '%s' ( out of ", property.identifier );

	 for( i = 0; i < ( sizeof( property_flag_strings ) / sizeof( struct flag_string ) ); i++ )
	 {
	    if( property.flags_mask & property_flag_strings[i].flag )
	    {
	       printf( "%s ", property_flag_strings[i].name );
	    }
	 }
	 printf( "): " );
	 scanf( "%128s", buf );
	 str = strtok( buf, " " );
	 property.flags = 0;
	 while( str )
	 {
	    for( i = 0; i < ( sizeof( property_flag_strings ) / sizeof( struct flag_string ) ); i++ )
	    {
	       if( !strcmp( str, property_flag_strings[i].name ) )
	       {
		  property.flags |= property_flag_strings[i].flag;
		  break;
	       }
	    }
		 
	    if( i == ( sizeof( property_flag_strings ) / sizeof( struct flag_string ) ) )
	    {
	       printf( "Unknown flag: %s\n", str );
	       break;
	    }
	    str = strtok( NULL, " " );
	 }
      }   
   }
	

   if( !get_property )
   {
      if( !SUCCESS( unicap_set_property( handle, &property ) ) )
      {
	 printf( "Failed to set property!\n" );
      }
   }
   else
   {
      char buffer[512];
      int s = sizeof( buffer );
      if( !SUCCESS( unicap_get_property( handle, &property ) ) )
      {
	 printf( "Failed to set property!\n" );
      }

      unicap_describe_property( &property, buffer, &s );
	   
      printf( "%s\n", buffer );
   }
	

   unicap_close( handle );
	
	
   return 0;
}
int UnicapCamera::Open()
{
	unicap_device_t  device;
	unicap_handle_t  handle;
	unicap_format_t format;
	
	//Initialisation
	if (m_Device == NULL)
	{
		m_Device = (unicap_device_t *)malloc(sizeof(unicap_device_t));
		if (m_Device == NULL)
		{
			printf("UnicapCamera::Open: Error, no memory!\n");
			return ERROR_NO_MEMORY;
		}
	}
	
	if (m_Handle == NULL)
	{
		m_Handle = (unicap_handle_t *)malloc(sizeof(unicap_handle_t));
			if (m_Handle == NULL)
		{
			printf("UnicapCamera::Open: Error, no memory!\n");
			return ERROR_NO_MEMORY;
		}
	}
	if (m_Format == NULL)
	{
		m_Format = (unicap_format_t *)malloc(sizeof(unicap_format_t));
		if (m_Format == NULL)
		{
			printf("UnicapCamera::Open: Error, no memory!\n");
			return ERROR_NO_MEMORY;
		}
	}
	
	
	// Search camera devices
	
	if( !SUCCESS( unicap_enumerate_devices( NULL, &device, 0 ) ) )
	{
		printf("UnicapCamera::Open: No device found!\n");
		return ERROR_NO_CAMERAS_FOUND;
	}
	else
	{
		*m_Device = device;
		printf("UnicapCamera::Open: Device %s found, vendor: %s, controlled by %s, %s\n", m_Device->identifier, m_Device->vendor_name, m_Device->device, m_Device->cpi_layer);
	}

	/*
	  Acquire a handle to this device
	 */
	if( !SUCCESS( unicap_open( &handle, m_Device ) ) )
	{
		printf("UnicapCamera::Open: Failed to open device %s: %s\n", m_Device->identifier, strerror(errno));
		return ERROR_CAMERA_COULD_NOT_BE_OPENED;
	}
	else
	{
		*m_Handle = handle;
		m_CameraActive = true;
		printf("DUnicapCamera::Open:evice %s successfully opened!\n", m_Device->identifier);
		
	}
	
	
	//Set format according to specified resolution	
	if( !SUCCESS( unicap_enumerate_formats( *m_Handle, NULL, &format, m_Resolution ) ) )
	{
		printf("UnicapCamera::Open: Failed to get video format, setting to default\n" );
			
		
		//return UNSPECIFIED_ERROR;;
	}
	else
	{
		*m_Format = format;
		printf("UnicapCamera::Open: Format %s chosen\n", format.identifier );
		printf("UnicapCamera::Open: Setting video format: \nwidth: %d\nheight: %d\nbpp: %d\nFOURCC: %c%c%c%c\n\n", \
		m_Format->size.width,\
		m_Format->size.height,\
		m_Format->bpp, \
		m_Format->fourcc & 0xff, \
		( m_Format->fourcc >> 8 ) & 0xff, \
		( m_Format->fourcc >> 16 ) & 0xff, \
		( m_Format->fourcc >> 24 ) & 0xff  \
		);
		/*
		Set this video format
		*/
		if( !SUCCESS( unicap_set_format( *m_Handle, m_Format ) ) )
		{
			printf("UnicapCamera::Open: Failed to set video format\n" );
			return UNSPECIFIED_ERROR;
		}
	}
	
	unicap_property_t property;

	// Set white balance mode to auto
        strcpy( property.identifier, "white_balance_mode" );
        if( !SUCCESS( unicap_get_property( *m_Handle, &property ) ) )
        {
                fprintf( stderr, "UnicapCamera::Open: Failed to get WB mode property\n" );
                exit( 1 );
        }

        // Set auto on this property
        property.flags = UNICAP_FLAGS_AUTO;//UNICAP_FLAGS_MANUAL;
        unicap_set_property( handle, &property );
	
	if( !SUCCESS( unicap_set_property( *m_Handle, &property ) ) )
        {
                printf( "UnicapCamera::Open: Failed to set property!\n" );
		return UNSPECIFIED_ERROR;
        }
	
	if( !SUCCESS( unicap_get_property( *m_Handle, &property ) ) )
        {
                fprintf( stderr, "UnicapCamera::Open: Failed to get WB mode property\n" );
                exit( 1 );
        }

        printf( "UnicapCamera::Open: Current white balance mode: %s\n", property.flags & UNICAP_FLAGS_AUTO ? "AUTO" : "MANUAL" );
	
	
	
	if( !SUCCESS( unicap_start_capture( *m_Handle ) ) )
		{
			printf( "UnicapCamera::Open: Failed to start capture on device %s\n", m_Device->identifier );
			return   UNSPECIFIED_ERROR;
		}
		
		

		
	return OK;
	
}