GNU Radio Manual and C++ API Reference  3.10.9.1
The Free & Open Software Radio Ecosystem
eye_sink_c.h
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1 /* -*- c++ -*- */
2 /*
3  * Copyright 2020 Free Software Foundation, Inc.
4  *
5  * This file is part of GNU Radio
6  *
7  * SPDX-License-Identifier: GPL-3.0-or-later
8  */
9 
10 #ifndef INCLUDED_QTGUI_EYE_SINK_C_H
11 #define INCLUDED_QTGUI_EYE_SINK_C_H
12 
13 #include <gnuradio/qtgui/api.h>
15 #include <gnuradio/sync_block.h>
16 #include <qapplication.h>
17 
18 namespace gr {
19 namespace qtgui {
20 
21 /*!
22  * \brief A graphical sink to display signals eye patterns.
23  * \ingroup qtgui
24  *
25  * \details
26  * This is a QT-based graphical sink which takes a set of a complex
27  * streams and plots them as an eye pattern. For each signal, both
28  * the signal's I and Q eye patterns are plotted. Eye patterns are
29  * 2 symbol's time long. Symbol rate must be an integer multiple of
30  * the sample rate to obtain the eye pattern.
31  *
32  * Trigger occurs at the beginning of each stream used to plot the
33  * eye pattern; whilst a real eye diagram would be triggered with
34  * a (recovered) symbol clock. For these reasons, triggering of
35  * noisy and/or unsynchronized signals may lead to incorrect eye
36  * pattern.
37  *
38  * The sink supports plotting streaming complex data or
39  * messages. The message port is named "in". The two modes cannot
40  * be used simultaneously, and \p nconnections should be set to 0
41  * when using the message mode. GRC handles this issue by
42  * providing the "Complex Message" type that removes the streaming
43  * port(s).
44  *
45  * This sink can plot messages that contain either uniform vectors
46  * of complex 32 values (pmt::is_c32vector) or PDUs where the data
47  * is a uniform vector of complex 32 values.
48  */
49 class QTGUI_API eye_sink_c : virtual public gr::sync_block
50 {
51 public:
52  // gr::qtgui::eye_sink_c::sptr
53  typedef std::shared_ptr<eye_sink_c> sptr;
54 
55  /*!
56  * \brief Build complex eye sink
57  *
58  * \param size number of points to plot at once
59  * \param samp_rate sample rate (used to set x-axis labels)
60  * \param nconnections number of signals connected to sink
61  * \param parent a QWidget parent object, if any
62  */
63  static sptr make(int size,
64  double samp_rate,
65  unsigned int nconnections = 1,
66  QWidget* parent = NULL);
67 
68  virtual void exec_() = 0;
69  virtual QWidget* qwidget() = 0;
70 
71  virtual void set_y_axis(double min, double max) = 0;
72  virtual void set_y_label(const std::string& label, const std::string& unit = "") = 0;
73  virtual void set_update_time(double t) = 0;
74  virtual void set_samp_per_symbol(unsigned int sps) = 0;
75  virtual void set_line_label(unsigned int which, const std::string& label) = 0;
76  virtual void set_line_color(unsigned int which, const std::string& color) = 0;
77  virtual void set_line_width(unsigned int which, int width) = 0;
78  virtual void set_line_style(unsigned int which, int style) = 0;
79  virtual void set_line_marker(unsigned int which, int marker) = 0;
80  virtual void set_nsamps(const int newsize) = 0;
81  virtual void set_samp_rate(const double samp_rate) = 0;
82  virtual void set_line_alpha(unsigned int which, double alpha) = 0;
83 
84  /*!
85  * Set up a trigger for the sink to know when to start
86  * plotting. Useful to isolate events and avoid noise.
87  *
88  * The trigger modes are Free, Auto, Normal, and Tag (see
89  * gr::qtgui::trigger_mode). The first three are like a normal
90  * oscope trigger function. Free means free running with no
91  * trigger, auto will trigger if the trigger event is seen, but
92  * will still plot otherwise, and normal will hold until the
93  * trigger event is observed. The Tag trigger mode allows us to
94  * trigger off a specific stream tag. The tag trigger is based
95  * only on the name of the tag, so when a tag of the given name
96  * is seen, the trigger is activated.
97  *
98  * In auto and normal mode, we look for the slope of the of the
99  * signal. Given a gr::qtgui::trigger_slope as either Positive
100  * or Negative, if the value between two samples moves in the
101  * given direction (x[1] > x[0] for Positive or x[1] < x[0] for
102  * Negative), then the trigger is activated.
103  *
104  * With the complex eye sink, each input has two eye patterns
105  * drawn for the real and imaginary parts of the signal. When
106  * selecting the \p channel value, channel 0 is the real signal
107  * and channel 1 is the imaginary signal. For more than 1 input
108  * stream, channel 2i is the real part of the ith input and
109  * channel (2i+1) is the imaginary part of the ith input
110  * channel.
111  *
112  * The \p delay value is specified in time based off the sample
113  * rate. If the sample rate of the block is set to 1, the delay
114  * is then also the sample number offset. This is the offset
115  * from the left-hand y-axis of the plot. It delays the signal
116  * to show the trigger event at the given delay along with some
117  * portion of the signal before the event. The delay must be
118  * within 0 - t_max where t_max is the maximum amount of time
119  * displayed on the eye pattern equal to 2 symbol time.
120  *
121  * \param mode The trigger_mode: free, auto, normal, or tag.
122  * \param slope The trigger_slope: positive or negative. Only
123  * used for auto and normal modes.
124  * \param level The magnitude of the trigger even for auto or normal modes.
125  * \param delay The delay (in units of time) for where the trigger happens.
126  * \param channel Which input channel to use for the trigger events.
127  * \param tag_key The name (as a string) of the tag to trigger off
128  * of if using the tag mode.
129  */
132  float level,
133  float delay,
134  int channel,
135  const std::string& tag_key = "") = 0;
136 
137  virtual std::string title() = 0;
138  virtual std::string line_label(unsigned int which) = 0;
139  virtual std::string line_color(unsigned int which) = 0;
140  virtual int line_width(unsigned int which) = 0;
141  virtual int line_style(unsigned int which) = 0;
142  virtual int line_marker(unsigned int which) = 0;
143  virtual double line_alpha(unsigned int which) = 0;
144 
145  virtual void set_size(int width, int height) = 0;
146 
147  virtual void enable_menu(bool en = true) = 0;
148  virtual void enable_grid(bool en = true) = 0;
149  virtual void enable_autoscale(bool en = true) = 0;
150  virtual void
151  enable_stem_plot(bool en = true) = 0; // Used by parent class, do not remove
152  virtual void
153  enable_semilogx(bool en = true) = 0; // Used by parent class, do not remove
154  virtual void
155  enable_semilogy(bool en = true) = 0; // Used by parent class, do not remove
156  virtual void enable_control_panel(bool en = true) = 0;
157  virtual void enable_tags(unsigned int which, bool en) = 0;
158  virtual void enable_tags(bool en) = 0;
159  virtual void enable_axis_labels(bool en = true) = 0;
160  virtual void disable_legend() = 0;
161 
162  virtual int nsamps() const = 0;
163  virtual void reset() = 0;
164 
165  QApplication* d_qApplication;
166 };
167 
168 } // namespace qtgui
169 } // namespace gr
170 
171 #endif /* INCLUDED_QTGUI_EYE_SINK_C_H */
A graphical sink to display signals eye patterns.
Definition: eye_sink_c.h:50
virtual void enable_autoscale(bool en=true)=0
virtual void enable_semilogx(bool en=true)=0
virtual void set_line_color(unsigned int which, const std::string &color)=0
virtual void enable_control_panel(bool en=true)=0
virtual void disable_legend()=0
virtual void set_samp_per_symbol(unsigned int sps)=0
static sptr make(int size, double samp_rate, unsigned int nconnections=1, QWidget *parent=NULL)
Build complex eye sink.
virtual void enable_stem_plot(bool en=true)=0
virtual void set_line_alpha(unsigned int which, double alpha)=0
std::shared_ptr< eye_sink_c > sptr
Definition: eye_sink_c.h:53
virtual void enable_tags(bool en)=0
virtual void set_line_label(unsigned int which, const std::string &label)=0
virtual void enable_axis_labels(bool en=true)=0
virtual void set_line_width(unsigned int which, int width)=0
virtual void set_trigger_mode(gr::qtgui::trigger_mode mode, gr::qtgui::trigger_slope slope, float level, float delay, int channel, const std::string &tag_key="")=0
virtual int line_style(unsigned int which)=0
virtual void set_line_style(unsigned int which, int style)=0
virtual std::string line_label(unsigned int which)=0
virtual std::string line_color(unsigned int which)=0
virtual void set_y_label(const std::string &label, const std::string &unit="")=0
virtual void enable_grid(bool en=true)=0
virtual void set_size(int width, int height)=0
virtual int line_width(unsigned int which)=0
QApplication * d_qApplication
Definition: eye_sink_c.h:165
virtual void enable_semilogy(bool en=true)=0
virtual void enable_tags(unsigned int which, bool en)=0
virtual void set_nsamps(const int newsize)=0
virtual void set_y_axis(double min, double max)=0
virtual void exec_()=0
virtual void set_samp_rate(const double samp_rate)=0
virtual void enable_menu(bool en=true)=0
virtual int line_marker(unsigned int which)=0
virtual void set_line_marker(unsigned int which, int marker)=0
virtual double line_alpha(unsigned int which)=0
virtual void set_update_time(double t)=0
virtual void reset()=0
virtual int nsamps() const =0
virtual std::string title()=0
virtual QWidget * qwidget()=0
synchronous 1:1 input to output with history
Definition: sync_block.h:26
#define QTGUI_API
Definition: gr-qtgui/include/gnuradio/qtgui/api.h:18
trigger_mode
Definition: trigger_mode.h:17
trigger_slope
Definition: trigger_mode.h:24
float min(float a, float b)
GNU Radio logging wrapper.
Definition: basic_block.h:29