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hil_task_create_other_writer

Creates a task for writing to other outputs.

Description

The hil_task_create_other_writer function creates a task for writing to the specified other output channels. The task allows other operations to be performed while the other outputs are being written "in the background". The data written to the other outputs is read from an internal circular "task buffer". This data may be written into the task buffer at any time using the hil_task_write_other function. The size of this task buffer is determined by the samples_in_buffer parameter.

The task does not actually start reading the data from the task buffer and writing it to the other outputs until the hil_task_start function is called. In order for data to be available in the task buffer as soon as the task starts, store data in the buffer using hil_task_write_other prior to starting the task. Since the task writes to the other outputs at the sampling rate specified when the task is started, it will be reading data from the task buffer at that rate. Thus, hil_task_write_other must be called to add more data to the task buffer before all the data in the buffer is depleted. Otherwise the task will have no data to write to the other outputs and will return with a QERR_BUFFER_OVERFLOW error the next time hil_task_write_other is called.

The task must be deleted when it is no longer in use using the hil_task_delete function, in order to free the system and hardware resources used by the task. See Tasks for more information on tasks.

Prototype

t_error 
hil_task_create_other_writer(t_card card, t_uint32 samples_in_buffer,
                             const t_uint32 other_channels[], t_uint32 num_other_channels,
                             t_task *task);
    

Parameters

t_card card

A handle to the board, as returned by hil_open.

t_uint32 samples_in_buffer

The number of samples in the task buffer. The hil_task_write_other function cannot write more samples than this in a single call. If the task buffer underflows because hil_task_write_other has not been called in time to add data to the task buffer then the next call to hil_task_write_other will return an HIL_BUFFER_OVERFLOW error. See Tasks for more information on task buffers.

const t_uint32 [] other_channels

An array containing the channel numbers of the other outputs to be written to by the task.

Select a board type from the list for board-specific details: .

t_uint32 num_other_channels

The number of channels specified in the other_channels array.

t_task task

A handle to the task is returned in the t_task variable passed in this parameter. This argument cannot be NULL. Pass the address of a variable of type t_task.

Return value

The return value is 0 if the task is created successfully. Otherwise a negative error code is returned. Error codes are defined in quanser_errors.h. A suitable error message may be retrieved using msg_get_error_message.

Error codes

QERR_HIL_TASK_CREATE_OTHER_WRITER_NOT_SUPPORTED

This function is not supported by the board-specific HIL driver for this board type.

QERR_INVALID_CARD_HANDLE

An invalid card handle was passed as an argument. Once a card has been closed using hil_close the card handle is invalid.

QERR_TASK_ARGUMENT_IS_NULL

The task argument is NULL. A pointer to a t_task variable must be supplied because this variable must be passed to the other HIL task functions to refer to the task.

QERR_MISSING_OTHER_OUTPUTS

The other output channels argument is NULL when the number of other outputs specified is non-zero.

QERR_TOO_MANY_OTHER_OUTPUT_CHANNELS

Too many other output channels were specified.

QERR_INVALID_OTHER_OUTPUT_CHANNEL

One of the other output channels that was specified is not a valid channel number. Channel numbers range from 0 to one less than the number of channels.

QERR_OTHER_OUTPUT_CHANNELS_NOT_SUPPORTED

Other output channels are not supported by this board.

QERR_INVALID_BOARD_HANDLE

An invalid board handle was passed as an argument to the board-specific HIL driver. Once a card has been closed using hil_close the board handle is invalid.

QERR_INVALID_BUFFER_HANDLE

An invalid buffer handle was passed to a board-specific HIL driver function.

QERR_OPERATION_ARGUMENT_IS_NULL

The operation argument to a board-specific HIL driver is NULL. This situation should never occur unless the user is calling the board-specific driver directly or memory has been corrupted.

QERR_DRIVER_INCOMPATIBLE_WITH_BOARD_DLL

The board-specific HIL driver passed an invalid parameter to the operating system specific kernel-level driver for the board. The board-specific HIL driver is likely not compatible with the operating system specific kernel-level driver for the board. Make sure both are up-to-date and compatible versions.

QERR_INTERNAL_BUFFER_TOO_SMALL

The board-specific HIL driver used an internal buffer that was too small for the operating system specific kernel-level driver for the board. The board-specific HIL driver is likely not compatible with the operating system specific kernel-level driver for the board. Make sure both are up-to-date and compatible versions.

QERR_OUT_OF_REQUIRED_SYSTEM_RESOURCES

There are not enough system resources to perform the requested operation. Try rebooting, requesting fewer samples, or adding more memory to your machine.

QERR_OUT_OF_MEMORY

There is not enough memory to perform the operation.

Requirements

Include Files

Libraries

hil.h

hil.lib;quanser_runtime.lib;quanser_common.lib

Examples


/*
* Writes 5000 samples at 1 kHz to the first four other output channels, using SYSTEM_CLOCK_1.
* Return values are ignored for simplicity.
*/

t_uint32 channels[]        = { 0, 1, 2, 3 };
t_double frequency         = 1000;
t_uint32 samples           = 5000;
t_uint32 samples_in_buffer = frequency;
t_uint32 samples_to_write  = 100;

static t_double buffer[100][4];
t_task task;

/* Fill buffer */
...
hil_task_create_other_writer(board, samples_in_buffer, channels, ARRAY_LENGTH(channels), &task);
hil_task_write_other(task, samples_to_write, buffer); /* pre-fill the task buffer prior to starting the task */
hil_task_start(task, SYSTEM_CLOCK_1, frequency, samples);
for (int index = samples_to_write; index < samples; index += samples_to_write) {
    /* Fill buffer */
    ...
    hil_task_write_other(task, samples_to_write, buffer); /* does not wait for data to be written to the hardware, */
    ...                                                   /* only waits for space in the task buffer */
}
hil_task_flush(task); /* make sure all data has been written to the hardware */
hil_task_stop(task);
hil_task_delete(task);
    

 

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