/* -*- c++ -*- */
/*
* Copyright 2004,2009-2011,2013 Free Software Foundation, Inc.
*
* This file is part of GNU Radio
*
* SPDX-License-Identifier: GPL-3.0-or-later
*
*/
#ifndef INCLUDED_GR_RUNTIME_BUFFER_READER_H
#define INCLUDED_GR_RUNTIME_BUFFER_READER_H
#include <gnuradio/api.h>
#include <gnuradio/buffer.h>
#include <gnuradio/logger.h>
#include <gnuradio/runtime_types.h>
#include <gnuradio/tags.h>
#include <gnuradio/thread/thread.h>
#include <memory>
namespace gr {
class buffer_reader_sm;
/*!
* \brief Create a new gr::buffer_reader and attach it to buffer \p buf
* \param buf is the buffer the \p gr::buffer_reader reads from.
* \param nzero_preload -- number of zero items to "preload" into buffer.
* \param link is the block that reads from the buffer using this gr::buffer_reader.
* \param delay Optional setting to declare the buffer's sample delay.
*/
GR_RUNTIME_API buffer_reader_sptr buffer_add_reader(buffer_sptr buf,
int nzero_preload,
block_sptr link = block_sptr(),
int delay = 0);
//! returns # of buffers currently allocated
GR_RUNTIME_API long buffer_ncurrently_allocated();
// ---------------------------------------------------------------------------
/*!
* \brief How we keep track of the readers of a gr::buffer.
* \ingroup internal
*/
class GR_RUNTIME_API buffer_reader
{
public:
#ifdef BUFFER_DEBUG
gr::logger_ptr d_logger;
gr::logger_ptr d_debug_logger;
#endif
virtual ~buffer_reader();
/*!
* Declares the sample delay for this reader.
*
* See gr::block::declare_sample_delay for details.
*
* \param delay The new sample delay
*/
void declare_sample_delay(unsigned delay);
/*!
* Gets the sample delay for this reader.
*
* See gr::block::sample_delay for details.
*/
unsigned sample_delay() const;
/*!
* \brief Return number of items available for reading.
*/
virtual int items_available() const;
/*!
* \brief Return buffer this reader reads from.
*/
buffer_sptr buffer() const { return d_buffer; }
/*!
* \brief Return maximum number of items that could ever be available for reading.
* This is used as a sanity check in the scheduler to avoid looping forever.
*/
int max_possible_items_available() const { return d_buffer->bufsize() - 1; }
/*!
* \brief return pointer to read buffer.
*
* The return value points to items_available() number of items
*/
const void* read_pointer();
/*
* \brief tell buffer we read \p items from it
*/
void update_read_pointer(int nitems);
void set_done(bool done) { d_buffer->set_done(done); }
bool done() const { return d_buffer->done(); }
gr::thread::mutex* mutex() { return d_buffer->mutex(); }
uint64_t nitems_read() const { return d_abs_read_offset; }
void reset_nitem_counter()
{
d_read_index = 0;
d_abs_read_offset = 0;
}
size_t get_sizeof_item() { return d_buffer->get_sizeof_item(); }
/*!
* \brief Return the block that reads via this reader.
*
*/
block_sptr link() const { return block_sptr(d_link); }
/*!
* \brief Given a [start,end), returns a vector all tags in the range.
*
* Get a vector of tags in given range. Range of counts is from start to end-1.
*
* Tags are tuples of:
* (item count, source id, key, value)
*
* \param v a vector reference to return tags into
* \param abs_start a uint64 count of the start of the range of interest
* \param abs_end a uint64 count of the end of the range of interest
* \param id the unique ID of the block to make sure already deleted tags
* are not returned
*/
void get_tags_in_range(std::vector<tag_t>& v,
uint64_t abs_start,
uint64_t abs_end,
long id);
/*!
* \brief Returns true when the current thread is ready to call the callback,
* false otherwise. Delegate calls to buffer class's input_blkd_cb_ready().
* Note if input_blocked_callback is overridden then this function should
* also be overridden.
*/
virtual bool input_blkd_cb_ready(int items_required) const { return false; }
/*!
* \brief Callback function that the scheduler will call when it determines
* that the input is blocked. Delegate calls to buffer class's
* input_blocked_callback(). Override this function if needed.
*/
virtual bool input_blocked_callback(int items_required, int items_avail)
{
return false;
}
// -------------------------------------------------------------------------
unsigned int get_read_index() const { return d_read_index; }
uint64_t get_abs_read_offset() const { return d_abs_read_offset; }
protected:
friend class buffer;
friend class buffer_double_mapped;
friend class buffer_single_mapped;
friend class buffer_reader_sm;
friend GR_RUNTIME_API buffer_reader_sptr buffer_add_reader(buffer_sptr buf,
int nzero_preload,
block_sptr link,
int delay);
buffer_sptr d_buffer;
unsigned int d_read_index; // in items [0,d->buffer.d_bufsize) ** see NB
uint64_t d_abs_read_offset; // num items seen since the start ** see NB
std::weak_ptr<block> d_link; // block that reads via this buffer reader
unsigned d_attr_delay; // sample delay attribute for tag propagation
// ** NB: buffer::d_mutex protects d_read_index and d_abs_read_offset
//! constructor is private. Use gr::buffer::add_reader to create instances
buffer_reader(buffer_sptr buffer, unsigned int read_index, block_sptr link);
};
//! returns # of buffer_readers currently allocated
GR_RUNTIME_API long buffer_reader_ncurrently_allocated();
} /* namespace gr */
#endif /* INCLUDED_GR_RUNTIME_BUFFER_READER_H */