libsigrok/bindings/cxx/include/libsigrokcxx/libsigrokcxx.hpp

1082 lines
33 KiB
C++

/*
* This file is part of the libsigrok project.
*
* Copyright (C) 2013-2014 Martin Ling <martin-sigrok@earth.li>
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/**
@mainpage API Reference
Introduction
------------
The libsigrokcxx API provides an object-oriented C++ interface to the
functionality in libsigrok, including automatic memory and resource management.
It is built on top of the public libsigrok C API, and is designed to be used as
a standalone alternative API. Programs should not mix usage of the C and C++
APIs; the C++ interface code needs to have full control of all C API calls for
resources to be managed correctly.
Memory management
-----------------
All runtime objects created through the C++ API are passed and accessed via
shared pointers, using the C++11 std::shared_ptr implementation. This means
that a reference count is kept for each object.
Shared pointers can be copied and assigned in a user's program, automatically
updating their reference count and deleting objects when they are no longer in
use. The C++ interface code also keeps track of internal dependencies between
libsigrok resources, and ensures that objects are not prematurely deleted when
their resources are in use by other objects.
This means that management of libsigrokcxx objects and their underlying
libsigrok resources can be treated as fully automatic. As long as all shared
pointers to objects are deleted or reassigned when no longer in use, all
underlying resources will be released at the right time.
Getting started
---------------
Usage of the C++ API needs to begin with a call to sigrok::Context::create().
This will create the global libsigrok context and returns a shared pointer to
the sigrok::Context object. Methods on this object provide access to the
hardware drivers, input and output formats supported by the library, as well
as means of creating other objects such as sessions and triggers.
Error handling
--------------
When any libsigrok C API call returns an error, a sigrok::Error exception is
raised, which provides access to the error code and description.
*/
#ifndef LIBSIGROKCXX_HPP
#define LIBSIGROKCXX_HPP
#include <libsigrok/libsigrok.h>
/* Suppress warnings due to glibmm's use of std::auto_ptr<> in a public
* header file. To be removed once glibmm is fixed. */
G_GNUC_BEGIN_IGNORE_DEPRECATIONS
#include <glibmm.h>
G_GNUC_END_IGNORE_DEPRECATIONS
#include <stdexcept>
#include <memory>
#include <vector>
#include <map>
#include <set>
namespace sigrok
{
using namespace std;
/* Forward declarations */
class SR_API Error;
class SR_API Context;
class SR_API Driver;
class SR_API Device;
class SR_API HardwareDevice;
class SR_API Channel;
class SR_API Session;
class SR_API ConfigKey;
class SR_API Capability;
class SR_API InputFormat;
class SR_API OutputFormat;
class SR_API OutputFlag;
class SR_API LogLevel;
class SR_API ChannelGroup;
class SR_API Trigger;
class SR_API TriggerStage;
class SR_API TriggerMatch;
class SR_API TriggerMatchType;
class SR_API ChannelType;
class SR_API Packet;
class SR_API PacketPayload;
class SR_API PacketType;
class SR_API Quantity;
class SR_API Unit;
class SR_API QuantityFlag;
class SR_API Rational;
class SR_API Input;
class SR_API InputDevice;
class SR_API Output;
class SR_API DataType;
class SR_API Option;
class SR_API UserDevice;
/** Exception thrown when an error code is returned by any libsigrok call. */
class SR_API Error: public exception
{
public:
explicit Error(int result);
~Error() noexcept;
const int result;
const char *what() const noexcept;
};
/* Base template for classes whose resources are owned by a parent object. */
template <class Class, class Parent>
class SR_API ParentOwned
{
private:
/* Weak pointer for shared_from_this() implementation. */
weak_ptr<Class> _weak_this;
static void reset_parent(Class *object)
{
if (!object->_parent)
throw Error(SR_ERR_BUG);
object->_parent.reset();
}
protected:
/* Parent object which owns this child object's underlying structure.
This shared pointer will be null when this child is unused, but
will be assigned to point to the parent before any shared pointer
to this child is handed out to the user.
When the reference count of this child falls to zero, this shared
pointer to its parent is reset by a custom deleter on the child's
shared pointer.
This strategy ensures that the destructors for both the child and
the parent are called at the correct time, i.e. only when all
references to both the parent and all its children are gone. */
shared_ptr<Parent> _parent;
ParentOwned() {}
/* Note, this implementation will create a new smart_ptr if none exists. */
shared_ptr<Class> shared_from_this()
{
shared_ptr<Class> shared = _weak_this.lock();
if (!shared)
{
shared.reset(static_cast<Class *>(this), &reset_parent);
_weak_this = shared;
}
return shared;
}
shared_ptr<Class> share_owned_by(shared_ptr<Parent> parent)
{
if (!parent)
throw Error(SR_ERR_BUG);
this->_parent = parent;
return shared_from_this();
}
public:
/* Get parent object that owns this object. */
shared_ptr<Parent> parent()
{
return _parent;
}
};
/* Base template for classes whose resources are owned by the user. */
template <class Class>
class SR_API UserOwned : public enable_shared_from_this<Class>
{
protected:
UserOwned() {}
shared_ptr<Class> shared_from_this()
{
auto shared = enable_shared_from_this<Class>::shared_from_this();
if (!shared)
throw Error(SR_ERR_BUG);
return shared;
}
};
/** Type of log callback */
typedef function<void(const LogLevel *, string message)> LogCallbackFunction;
/** Resource reader delegate. */
class SR_API ResourceReader
{
public:
ResourceReader() {}
virtual ~ResourceReader();
private:
/** Resource open hook. */
virtual void open(struct sr_resource *res, string name) = 0;
/** Resource close hook. */
virtual void close(struct sr_resource *res) = 0;
/** Resource read hook. */
virtual size_t read(const struct sr_resource *res, void *buf, size_t count) = 0;
static SR_PRIV int open_callback(struct sr_resource *res,
const char *name, void *cb_data) noexcept;
static SR_PRIV int close_callback(struct sr_resource *res,
void *cb_data) noexcept;
static SR_PRIV gssize read_callback(const struct sr_resource *res,
void *buf, size_t count, void *cb_data) noexcept;
friend class Context;
};
/** The global libsigrok context */
class SR_API Context : public UserOwned<Context>
{
public:
/** Create new context */
static shared_ptr<Context> create();
/** libsigrok package version. */
static string package_version();
/** libsigrok library version. */
static string lib_version();
/** Available hardware drivers, indexed by name. */
map<string, shared_ptr<Driver> > drivers();
/** Available input formats, indexed by name. */
map<string, shared_ptr<InputFormat> > input_formats();
/** Lookup the responsible input module for an input file. */
shared_ptr<InputFormat> input_format_match(string filename);
/** Available output formats, indexed by name. */
map<string, shared_ptr<OutputFormat> > output_formats();
/** Current log level. */
const LogLevel *log_level() const;
/** Set the log level.
* @param level LogLevel to use. */
void set_log_level(const LogLevel *level);
/** Set the log callback.
* @param callback Callback of the form callback(LogLevel, string). */
void set_log_callback(LogCallbackFunction callback);
/** Set the log callback to the default handler. */
void set_log_callback_default();
/** Install a delegate for reading resource files.
* @param reader The resource reader delegate, or nullptr to unset. */
void set_resource_reader(ResourceReader *reader);
/** Create a new session. */
shared_ptr<Session> create_session();
/** Create a new user device. */
shared_ptr<UserDevice> create_user_device(
string vendor, string model, string version);
/** Create a header packet. */
shared_ptr<Packet> create_header_packet(Glib::TimeVal start_time);
/** Create a meta packet. */
shared_ptr<Packet> create_meta_packet(
map<const ConfigKey *, Glib::VariantBase> config);
/** Create a logic packet. */
shared_ptr<Packet> create_logic_packet(
void *data_pointer, size_t data_length, unsigned int unit_size);
/** Create an analog packet. */
shared_ptr<Packet> create_analog_packet(
vector<shared_ptr<Channel> > channels,
const float *data_pointer, unsigned int num_samples, const Quantity *mq,
const Unit *unit, vector<const QuantityFlag *> mqflags);
/** Load a saved session.
* @param filename File name string. */
shared_ptr<Session> load_session(string filename);
/** Create a new trigger.
* @param name Name string for new trigger. */
shared_ptr<Trigger> create_trigger(string name);
/** Open an input file.
* @param filename File name string. */
shared_ptr<Input> open_file(string filename);
/** Open an input stream based on header data.
* @param header Initial data from stream. */
shared_ptr<Input> open_stream(string header);
map<string, string> serials(shared_ptr<Driver> driver) const;
private:
struct sr_context *_structure;
map<string, unique_ptr<Driver> > _drivers;
map<string, unique_ptr<InputFormat> > _input_formats;
map<string, unique_ptr<OutputFormat> > _output_formats;
Session *_session;
LogCallbackFunction _log_callback;
Context();
~Context();
friend class Session;
friend class Driver;
friend struct std::default_delete<Context>;
};
/** An object that can be configured. */
class SR_API Configurable
{
public:
/** Supported configuration keys. */
set<const ConfigKey *> config_keys() const;
/** Read configuration for the given key.
* @param key ConfigKey to read. */
Glib::VariantBase config_get(const ConfigKey *key) const;
/** Set configuration for the given key to a specified value.
* @param key ConfigKey to set.
* @param value Value to set. */
void config_set(const ConfigKey *key, const Glib::VariantBase &value);
/** Enumerate available values for the given configuration key.
* @param key ConfigKey to enumerate values for. */
Glib::VariantContainerBase config_list(const ConfigKey *key) const;
/** Enumerate configuration capabilities for the given configuration key.
* @param key ConfigKey to enumerate capabilities for. */
set<const Capability *> config_capabilities(const ConfigKey *key) const;
/** Check whether a configuration capability is supported for a given key.
* @param key ConfigKey to check.
* @param capability Capability to check for. */
bool config_check(const ConfigKey *key, const Capability *capability) const;
protected:
Configurable(
struct sr_dev_driver *driver,
struct sr_dev_inst *sdi,
struct sr_channel_group *channel_group);
virtual ~Configurable();
struct sr_dev_driver *config_driver;
struct sr_dev_inst *config_sdi;
struct sr_channel_group *config_channel_group;
};
/** A hardware driver provided by the library */
class SR_API Driver : public ParentOwned<Driver, Context>, public Configurable
{
public:
/** Name of this driver. */
string name() const;
/** Long name for this driver. */
string long_name() const;
/** Scan options supported by this driver. */
set<const ConfigKey *> scan_options() const;
/** Scan for devices and return a list of devices found.
* @param options Mapping of (ConfigKey, value) pairs. */
vector<shared_ptr<HardwareDevice> > scan(map<const ConfigKey *, Glib::VariantBase>
options = map<const ConfigKey *, Glib::VariantBase>());
private:
struct sr_dev_driver *_structure;
bool _initialized;
vector<HardwareDevice *> _devices;
explicit Driver(struct sr_dev_driver *structure);
~Driver();
friend class Context;
friend class HardwareDevice;
friend class ChannelGroup;
friend struct std::default_delete<Driver>;
};
/** A generic device, either hardware or virtual */
class SR_API Device : public Configurable
{
public:
/** Vendor name for this device. */
string vendor() const;
/** Model name for this device. */
string model() const;
/** Version string for this device. */
string version() const;
/** Serial number for this device. */
string serial_number() const;
/** Connection ID for this device. */
string connection_id() const;
/** List of the channels available on this device. */
vector<shared_ptr<Channel> > channels();
/** Channel groups available on this device, indexed by name. */
map<string, shared_ptr<ChannelGroup> > channel_groups();
/** Open device. */
void open();
/** Close device. */
void close();
protected:
explicit Device(struct sr_dev_inst *structure);
~Device();
virtual shared_ptr<Device> get_shared_from_this() = 0;
shared_ptr<Channel> get_channel(struct sr_channel *ptr);
struct sr_dev_inst *_structure;
map<struct sr_channel *, unique_ptr<Channel> > _channels;
private:
map<string, unique_ptr<ChannelGroup> > _channel_groups;
friend class Session;
friend class Channel;
friend class ChannelGroup;
friend class Output;
friend class Analog;
friend struct std::default_delete<Device>;
};
/** A real hardware device, connected via a driver */
class SR_API HardwareDevice :
public UserOwned<HardwareDevice>,
public Device
{
public:
/** Driver providing this device. */
shared_ptr<Driver> driver();
private:
HardwareDevice(shared_ptr<Driver> driver, struct sr_dev_inst *structure);
~HardwareDevice();
shared_ptr<Device> get_shared_from_this();
shared_ptr<Driver> _driver;
friend class Driver;
friend class ChannelGroup;
friend struct std::default_delete<HardwareDevice>;
};
/** A virtual device, created by the user */
class SR_API UserDevice :
public UserOwned<UserDevice>,
public Device
{
public:
/** Add a new channel to this device. */
shared_ptr<Channel> add_channel(unsigned int index, const ChannelType *type, string name);
private:
UserDevice(string vendor, string model, string version);
~UserDevice();
shared_ptr<Device> get_shared_from_this();
friend class Context;
friend struct std::default_delete<UserDevice>;
};
/** A channel on a device */
class SR_API Channel :
public ParentOwned<Channel, Device>
{
public:
/** Current name of this channel. */
string name() const;
/** Set the name of this channel. *
* @param name Name string to set. */
void set_name(string name);
/** Type of this channel. */
const ChannelType *type() const;
/** Enabled status of this channel. */
bool enabled() const;
/** Set the enabled status of this channel.
* @param value Boolean value to set. */
void set_enabled(bool value);
/** Get the index number of this channel. */
unsigned int index() const;
private:
explicit Channel(struct sr_channel *structure);
~Channel();
struct sr_channel *_structure;
const ChannelType * const _type;
friend class Device;
friend class UserDevice;
friend class ChannelGroup;
friend class Session;
friend class TriggerStage;
friend class Context;
friend struct std::default_delete<Channel>;
};
/** A group of channels on a device, which share some configuration */
class SR_API ChannelGroup :
public ParentOwned<ChannelGroup, Device>,
public Configurable
{
public:
/** Name of this channel group. */
string name() const;
/** List of the channels in this group. */
vector<shared_ptr<Channel> > channels();
private:
ChannelGroup(const Device *device, struct sr_channel_group *structure);
~ChannelGroup();
vector<Channel *> _channels;
friend class Device;
friend struct std::default_delete<ChannelGroup>;
};
/** A trigger configuration */
class SR_API Trigger : public UserOwned<Trigger>
{
public:
/** Name of this trigger configuration. */
string name() const;
/** List of the stages in this trigger. */
vector<shared_ptr<TriggerStage> > stages();
/** Add a new stage to this trigger. */
shared_ptr<TriggerStage> add_stage();
private:
Trigger(shared_ptr<Context> context, string name);
~Trigger();
struct sr_trigger *_structure;
shared_ptr<Context> _context;
vector<unique_ptr<TriggerStage> > _stages;
friend class Context;
friend class Session;
friend struct std::default_delete<Trigger>;
};
/** A stage in a trigger configuration */
class SR_API TriggerStage :
public ParentOwned<TriggerStage, Trigger>
{
public:
/** Index number of this stage. */
int number() const;
/** List of match conditions on this stage. */
vector<shared_ptr<TriggerMatch> > matches();
/** Add a new match condition to this stage.
* @param channel Channel to match on.
* @param type TriggerMatchType to apply. */
void add_match(shared_ptr<Channel> channel, const TriggerMatchType *type);
/** Add a new match condition to this stage.
* @param channel Channel to match on.
* @param type TriggerMatchType to apply.
* @param value Threshold value. */
void add_match(shared_ptr<Channel> channel, const TriggerMatchType *type, float value);
private:
struct sr_trigger_stage *_structure;
vector<unique_ptr<TriggerMatch> > _matches;
explicit TriggerStage(struct sr_trigger_stage *structure);
~TriggerStage();
friend class Trigger;
friend struct std::default_delete<TriggerStage>;
};
/** A match condition in a trigger configuration */
class SR_API TriggerMatch :
public ParentOwned<TriggerMatch, TriggerStage>
{
public:
/** Channel this condition matches on. */
shared_ptr<Channel> channel();
/** Type of match. */
const TriggerMatchType *type() const;
/** Threshold value. */
float value() const;
private:
TriggerMatch(struct sr_trigger_match *structure, shared_ptr<Channel> channel);
~TriggerMatch();
struct sr_trigger_match *_structure;
shared_ptr<Channel> _channel;
friend class TriggerStage;
friend struct std::default_delete<TriggerMatch>;
};
/** Type of session stopped callback */
typedef function<void()> SessionStoppedCallback;
/** Type of datafeed callback */
typedef function<void(shared_ptr<Device>, shared_ptr<Packet>)>
DatafeedCallbackFunction;
/* Data required for C callback function to call a C++ datafeed callback */
class SR_PRIV DatafeedCallbackData
{
public:
void run(const struct sr_dev_inst *sdi,
const struct sr_datafeed_packet *pkt);
private:
DatafeedCallbackFunction _callback;
DatafeedCallbackData(Session *session,
DatafeedCallbackFunction callback);
Session *_session;
friend class Session;
};
/** A virtual device associated with a stored session */
class SR_API SessionDevice :
public ParentOwned<SessionDevice, Session>,
public Device
{
private:
explicit SessionDevice(struct sr_dev_inst *sdi);
~SessionDevice();
shared_ptr<Device> get_shared_from_this();
friend class Session;
friend struct std::default_delete<SessionDevice>;
};
/** A sigrok session */
class SR_API Session : public UserOwned<Session>
{
public:
/** Add a device to this session.
* @param device Device to add. */
void add_device(shared_ptr<Device> device);
/** List devices attached to this session. */
vector<shared_ptr<Device> > devices();
/** Remove all devices from this session. */
void remove_devices();
/** Add a datafeed callback to this session.
* @param callback Callback of the form callback(Device, Packet). */
void add_datafeed_callback(DatafeedCallbackFunction callback);
/** Remove all datafeed callbacks from this session. */
void remove_datafeed_callbacks();
/** Start the session. */
void start();
/** Run the session event loop. */
void run();
/** Stop the session. */
void stop();
/** Return whether the session is running. */
bool is_running() const;
/** Set callback to be invoked on session stop. */
void set_stopped_callback(SessionStoppedCallback callback);
/** Get current trigger setting. */
shared_ptr<Trigger> trigger();
/** Get the context. */
shared_ptr<Context> context();
/** Set trigger setting.
* @param trigger Trigger object to use. */
void set_trigger(shared_ptr<Trigger> trigger);
/** Get filename this session was loaded from. */
string filename() const;
private:
explicit Session(shared_ptr<Context> context);
Session(shared_ptr<Context> context, string filename);
~Session();
shared_ptr<Device> get_device(const struct sr_dev_inst *sdi);
struct sr_session *_structure;
const shared_ptr<Context> _context;
map<const struct sr_dev_inst *, unique_ptr<SessionDevice> > _owned_devices;
map<const struct sr_dev_inst *, shared_ptr<Device> > _other_devices;
vector<unique_ptr<DatafeedCallbackData> > _datafeed_callbacks;
SessionStoppedCallback _stopped_callback;
string _filename;
shared_ptr<Trigger> _trigger;
friend class Context;
friend class DatafeedCallbackData;
friend class SessionDevice;
friend struct std::default_delete<Session>;
};
/** A packet on the session datafeed */
class SR_API Packet : public UserOwned<Packet>
{
public:
/** Type of this packet. */
const PacketType *type() const;
/** Payload of this packet. */
shared_ptr<PacketPayload> payload();
private:
Packet(shared_ptr<Device> device,
const struct sr_datafeed_packet *structure);
~Packet();
const struct sr_datafeed_packet *_structure;
shared_ptr<Device> _device;
unique_ptr<PacketPayload> _payload;
friend class Session;
friend class Output;
friend class DatafeedCallbackData;
friend class Header;
friend class Meta;
friend class Logic;
friend class Analog;
friend class Context;
friend struct std::default_delete<Packet>;
};
/** Abstract base class for datafeed packet payloads */
class SR_API PacketPayload
{
protected:
PacketPayload();
virtual ~PacketPayload() = 0;
private:
virtual shared_ptr<PacketPayload> share_owned_by(shared_ptr<Packet> parent) = 0;
friend class Packet;
friend class Output;
friend struct std::default_delete<PacketPayload>;
};
/** Payload of a datafeed header packet */
class SR_API Header :
public ParentOwned<Header, Packet>,
public PacketPayload
{
public:
/* Feed version number. */
int feed_version() const;
/* Start time of this session. */
Glib::TimeVal start_time() const;
private:
explicit Header(const struct sr_datafeed_header *structure);
~Header();
shared_ptr<PacketPayload> share_owned_by(shared_ptr<Packet> parent);
const struct sr_datafeed_header *_structure;
friend class Packet;
};
/** Payload of a datafeed metadata packet */
class SR_API Meta :
public ParentOwned<Meta, Packet>,
public PacketPayload
{
public:
/* Mapping of (ConfigKey, value) pairs. */
map<const ConfigKey *, Glib::VariantBase> config() const;
private:
explicit Meta(const struct sr_datafeed_meta *structure);
~Meta();
shared_ptr<PacketPayload> share_owned_by(shared_ptr<Packet> parent);
const struct sr_datafeed_meta *_structure;
map<const ConfigKey *, Glib::VariantBase> _config;
friend class Packet;
};
/** Payload of a datafeed packet with logic data */
class SR_API Logic :
public ParentOwned<Logic, Packet>,
public PacketPayload
{
public:
/* Pointer to data. */
void *data_pointer();
/* Data length in bytes. */
size_t data_length() const;
/* Size of each sample in bytes. */
unsigned int unit_size() const;
private:
explicit Logic(const struct sr_datafeed_logic *structure);
~Logic();
shared_ptr<PacketPayload> share_owned_by(shared_ptr<Packet> parent);
const struct sr_datafeed_logic *_structure;
friend class Packet;
friend class Analog;
friend struct std::default_delete<Logic>;
};
/** Payload of a datafeed packet with analog data */
class SR_API Analog :
public ParentOwned<Analog, Packet>,
public PacketPayload
{
public:
/** Pointer to data. */
void *data_pointer();
/**
* Fills dest pointer with the analog data converted to float.
* The pointer must have space for num_samples() floats.
*/
void get_data_as_float(float *dest);
/** Number of samples in this packet. */
unsigned int num_samples() const;
/** Channels for which this packet contains data. */
vector<shared_ptr<Channel> > channels();
/** Size of a single sample in bytes. */
unsigned int unitsize() const;
/** Samples use a signed data type. */
bool is_signed() const;
/** Samples use float. */
bool is_float() const;
/** Samples are stored in big-endian order. */
bool is_bigendian() const;
/**
* Number of significant digits after the decimal point if positive,
* or number of non-significant digits before the decimal point if negative
* (refers to the value we actually read on the wire).
*/
int digits() const;
/** TBD */
bool is_digits_decimal() const;
/** TBD */
shared_ptr<Rational> scale();
/** TBD */
shared_ptr<Rational> offset();
/** Measured quantity of the samples in this packet. */
const Quantity *mq() const;
/** Unit of the samples in this packet. */
const Unit *unit() const;
/** Measurement flags associated with the samples in this packet. */
vector<const QuantityFlag *> mq_flags() const;
/**
* Provides a Logic packet that contains a conversion of the analog
* data using a simple threshold.
*
* @param threshold Threshold to use.
* @param data_ptr Pointer to num_samples() bytes where the logic
* samples are stored. When nullptr, memory for
* logic->data_pointer() will be allocated and must
* be freed by the caller.
*/
shared_ptr<Logic> get_logic_via_threshold(float threshold,
uint8_t *data_ptr=nullptr) const;
/**
* Provides a Logic packet that contains a conversion of the analog
* data using a Schmitt-Trigger.
*
* @param lo_thr Low threshold to use (anything below this is low).
* @param hi_thr High threshold to use (anything above this is high).
* @param state Points to a byte that contains the current state of the
* converter. For best results, set to value of logic
* sample n-1.
* @param data_ptr Pointer to num_samples() bytes where the logic
* samples are stored. When nullptr, memory for
* logic->data_pointer() will be allocated and must be
* freed by the caller.
*/
shared_ptr<Logic> get_logic_via_schmitt_trigger(float lo_thr,
float hi_thr, uint8_t *state, uint8_t *data_ptr=nullptr) const;
private:
explicit Analog(const struct sr_datafeed_analog *structure);
~Analog();
shared_ptr<PacketPayload> share_owned_by(shared_ptr<Packet> parent);
const struct sr_datafeed_analog *_structure;
friend class Packet;
};
/** Number represented by a numerator/denominator integer pair */
class SR_API Rational :
public ParentOwned<Rational, Analog>
{
public:
/** Numerator, i.e. the dividend. */
int64_t numerator() const;
/** Denominator, i.e. the divider. */
uint64_t denominator() const;
/** Actual (lossy) value. */
float value() const;
private:
explicit Rational(const struct sr_rational *structure);
~Rational();
shared_ptr<Rational> share_owned_by(shared_ptr<Analog> parent);
const struct sr_rational *_structure;
friend class Analog;
friend struct std::default_delete<Rational>;
};
/** An input format supported by the library */
class SR_API InputFormat :
public ParentOwned<InputFormat, Context>
{
public:
/** Name of this input format. */
string name() const;
/** Description of this input format. */
string description() const;
/** A list of preferred file name extensions for this file format.
* @note This list is a recommendation only. */
vector<string> extensions() const;
/** Options supported by this input format. */
map<string, shared_ptr<Option> > options();
/** Create an input using this input format.
* @param options Mapping of (option name, value) pairs. */
shared_ptr<Input> create_input(map<string, Glib::VariantBase>
options = map<string, Glib::VariantBase>());
private:
explicit InputFormat(const struct sr_input_module *structure);
~InputFormat();
const struct sr_input_module *_structure;
friend class Context;
friend class InputDevice;
friend struct std::default_delete<InputFormat>;
};
/** An input instance (an input format applied to a file or stream) */
class SR_API Input : public UserOwned<Input>
{
public:
/** Virtual device associated with this input. */
shared_ptr<InputDevice> device();
/** Send next stream data.
* @param data Next stream data.
* @param length Length of data. */
void send(void *data, size_t length);
/** Signal end of input data. */
void end();
void reset();
private:
Input(shared_ptr<Context> context, const struct sr_input *structure);
~Input();
const struct sr_input *_structure;
shared_ptr<Context> _context;
unique_ptr<InputDevice> _device;
friend class Context;
friend class InputFormat;
friend struct std::default_delete<Input>;
};
/** A virtual device associated with an input */
class SR_API InputDevice :
public ParentOwned<InputDevice, Input>,
public Device
{
private:
InputDevice(shared_ptr<Input> input, struct sr_dev_inst *sdi);
~InputDevice();
shared_ptr<Device> get_shared_from_this();
shared_ptr<Input> _input;
friend class Input;
friend struct std::default_delete<InputDevice>;
};
/** An option used by an output format */
class SR_API Option : public UserOwned<Option>
{
public:
/** Short name of this option suitable for command line usage. */
string id() const;
/** Short name of this option suitable for GUI usage. */
string name() const;
/** Description of this option in a sentence. */
string description() const;
/** Default value for this option. */
Glib::VariantBase default_value() const;
/** Possible values for this option, if a limited set. */
vector<Glib::VariantBase> values() const;
/** Parse a string argument into the appropriate type for this option. */
Glib::VariantBase parse_string(string value);
private:
Option(const struct sr_option *structure,
shared_ptr<const struct sr_option *> structure_array);
~Option();
const struct sr_option *_structure;
shared_ptr<const struct sr_option *> _structure_array;
friend class InputFormat;
friend class OutputFormat;
friend struct std::default_delete<Option>;
};
/** An output format supported by the library */
class SR_API OutputFormat :
public ParentOwned<OutputFormat, Context>
{
public:
/** Name of this output format. */
string name() const;
/** Description of this output format. */
string description() const;
/** A list of preferred file name extensions for this file format.
* @note This list is a recommendation only. */
vector<string> extensions() const;
/** Options supported by this output format. */
map<string, shared_ptr<Option> > options();
/** Create an output using this format.
* @param device Device to output for.
* @param options Mapping of (option name, value) pairs. */
shared_ptr<Output> create_output(shared_ptr<Device> device,
map<string, Glib::VariantBase> options = map<string, Glib::VariantBase>());
/** Create an output using this format.
* @param filename Name of destination file.
* @param device Device to output for.
* @param options Mapping of (option name, value) pairs. */
shared_ptr<Output> create_output(string filename,
shared_ptr<Device> device,
map<string, Glib::VariantBase> options = map<string, Glib::VariantBase>());
/**
* Checks whether a given flag is set.
* @param flag Flag to check
* @return true if flag is set for this module
* @see sr_output_flags
*/
bool test_flag(const OutputFlag *flag) const;
private:
explicit OutputFormat(const struct sr_output_module *structure);
~OutputFormat();
const struct sr_output_module *_structure;
friend class Context;
friend class Output;
friend struct std::default_delete<OutputFormat>;
};
/** An output instance (an output format applied to a device) */
class SR_API Output : public UserOwned<Output>
{
public:
/** Update output with data from the given packet.
* @param packet Packet to handle. */
string receive(shared_ptr<Packet> packet);
private:
Output(shared_ptr<OutputFormat> format, shared_ptr<Device> device);
Output(shared_ptr<OutputFormat> format,
shared_ptr<Device> device, map<string, Glib::VariantBase> options);
Output(string filename, shared_ptr<OutputFormat> format,
shared_ptr<Device> device, map<string, Glib::VariantBase> options);
~Output();
const struct sr_output *_structure;
const shared_ptr<OutputFormat> _format;
const shared_ptr<Device> _device;
const map<string, Glib::VariantBase> _options;
friend class OutputFormat;
friend struct std::default_delete<Output>;
};
/** Base class for objects which wrap an enumeration value from libsigrok */
template <class Class, typename Enum> class SR_API EnumValue
{
public:
/** The integer constant associated with this value. */
int id() const
{
return static_cast<int>(_id);
}
/** The name associated with this value. */
string name() const
{
return _name;
}
/** Get value associated with a given integer constant. */
static const Class *get(int id)
{
const auto pos = _values.find(static_cast<Enum>(id));
if (pos == _values.end())
throw Error(SR_ERR_ARG);
return pos->second;
}
/** Get possible values. */
static std::vector<const Class *> values()
{
std::vector<const Class *> result;
for (auto entry : _values)
result.push_back(entry.second);
return result;
}
protected:
EnumValue(Enum id, const char name[]) : _id(id), _name(name)
{
}
~EnumValue()
{
}
private:
static const std::map<const Enum, const Class * const> _values;
const Enum _id;
const string _name;
};
}
#include <libsigrokcxx/enums.hpp>
#endif