------------
The pysigrok API provides an object-oriented Python interface to the
-functionality in libsigrok. It is built on top of the sigrok++ C++ API.
+functionality in libsigrok. It is built on top of the libsigrokcxx C++ API.
Getting started
---------------
%module(docstring=DOCSTRING) classes
%{
+#include <stdio.h>
#include <pygobject.h>
+#include <numpy/arrayobject.h>
+PyObject *PyGObject_lib;
PyObject *GLib;
PyTypeObject *IOChannel;
PyTypeObject *PollFD;
%}
%init %{
- pygobject_init(-1, -1, -1);
+ PyGObject_lib = pygobject_init(-1, -1, -1);
+ if (!PyGObject_lib)
+ fprintf(stderr, "pygobject initialization failed.\n");
GLib = PyImport_ImportModule("gi.repository.GLib");
+ /*
+ * This check can't save us if the import fails, but at least it gives us
+ * a starting point to trace the issue versus straight out crashing.
+ */
+ if (!GLib) {
+ fprintf(stderr, "Import of gi.repository.GLib failed.\n");
+ return;
+ }
IOChannel = (PyTypeObject *) PyObject_GetAttrString(GLib, "IOChannel");
PollFD = (PyTypeObject *) PyObject_GetAttrString(GLib, "PollFD");
+ import_array();
%}
/* Map file objects to file descriptors. */
Py_XDECREF(arglist);
Py_XDECREF(revents_obj);
- if (PyErr_Occurred() || !PyBool_Check(result))
- throw sigrok::Error(SR_ERR);
+ bool completed = !PyErr_Occurred();
+
+ if (!completed)
+ PyErr_Print();
+
+ bool valid_result = (completed && PyBool_Check(result));
+
+ if (completed && !valid_result)
+ {
+ PyErr_SetString(PyExc_TypeError,
+ "EventSource callback did not return a boolean");
+ PyErr_Print();
+ }
- bool retval = (result == Py_True);
+ bool retval = (valid_result && result == Py_True);
Py_XDECREF(result);
PyGILState_Release(gstate);
+ if (!valid_result)
+ throw sigrok::Error(SR_ERR);
+
return retval;
};
if (!PyCallable_Check($input))
SWIG_exception(SWIG_TypeError, "Expected a callable Python object");
- $1 = [=] (const sigrok::LogLevel *loglevel, string message) {
+ $1 = [=] (const sigrok::LogLevel *loglevel, std::string message) {
auto gstate = PyGILState_Ensure();
auto log_obj = SWIG_NewPointerObj(
Py_XDECREF(arglist);
Py_XDECREF(log_obj);
Py_XDECREF(string_obj);
+
+ bool completed = !PyErr_Occurred();
+
+ if (!completed)
+ PyErr_Print();
+
+ bool valid_result = (completed && result == Py_None);
+
Py_XDECREF(result);
+ if (completed && !valid_result)
+ {
+ PyErr_SetString(PyExc_TypeError,
+ "Log callback did not return None");
+ PyErr_Print();
+ }
+
PyGILState_Release(gstate);
+
+ if (!valid_result)
+ throw sigrok::Error(SR_ERR);
};
Py_XINCREF($input);
Py_XDECREF(arglist);
Py_XDECREF(device_obj);
Py_XDECREF(packet_obj);
+
+ bool completed = !PyErr_Occurred();
+
+ if (!completed)
+ PyErr_Print();
+
+ bool valid_result = (completed && result == Py_None);
+
Py_XDECREF(result);
+ if (completed && !valid_result)
+ {
+ PyErr_SetString(PyExc_TypeError,
+ "Datafeed callback did not return None");
+ PyErr_Print();
+ }
+
PyGILState_Release(gstate);
+
+ if (!valid_result)
+ throw sigrok::Error(SR_ERR);
};
Py_XINCREF($input);
}
+/* Cast PacketPayload pointers to correct subclass type. */
+%ignore sigrok::Packet::payload;
+
+%extend sigrok::Packet
+{
+ std::shared_ptr<sigrok::Header> _payload_header()
+ {
+ return dynamic_pointer_cast<sigrok::Header>($self->payload());
+ }
+ std::shared_ptr<sigrok::Meta> _payload_meta()
+ {
+ return dynamic_pointer_cast<sigrok::Meta>($self->payload());
+ }
+ std::shared_ptr<sigrok::Analog> _payload_analog()
+ {
+ return dynamic_pointer_cast<sigrok::Analog>($self->payload());
+ }
+ std::shared_ptr<sigrok::Logic> _payload_logic()
+ {
+ return dynamic_pointer_cast<sigrok::Logic>($self->payload());
+ }
+}
+
+%extend sigrok::Packet
+{
+%pythoncode
+{
+ def _payload(self):
+ if self.type == PacketType.HEADER:
+ return self._payload_header()
+ elif self.type == PacketType.META:
+ return self._payload_meta()
+ elif self.type == PacketType.LOGIC:
+ return self._payload_logic()
+ elif self.type == PacketType.ANALOG:
+ return self._payload_analog()
+ else:
+ return None
+
+ payload = property(_payload)
+}
+}
+
%{
-#include "libsigrok/libsigrok.hpp"
+#include "libsigrokcxx/libsigrokcxx.hpp"
/* Convert from a Python dict to a std::map<std::string, std::string> */
std::map<std::string, std::string> dict_to_map_string(PyObject *dict)
/* Convert from a Python type to Glib::Variant, according to config key data type. */
Glib::VariantBase python_to_variant_by_key(PyObject *input, const sigrok::ConfigKey *key)
{
- enum sr_datatype type = key->get_data_type()->get_id();
+ enum sr_datatype type = (enum sr_datatype) key->data_type()->id();
if (type == SR_T_UINT64 && PyInt_Check(input))
return Glib::Variant<guint64>::create(PyInt_AsLong(input));
if (type == SR_T_UINT64 && PyLong_Check(input))
return Glib::Variant<guint64>::create(PyLong_AsLong(input));
else if (type == SR_T_STRING && PyString_Check(input))
- return Glib::Variant<std::string>::create(PyString_AsString(input));
+ return Glib::Variant<Glib::ustring>::create(PyString_AsString(input));
else if (type == SR_T_BOOL && PyBool_Check(input))
return Glib::Variant<bool>::create(input == Py_True);
else if (type == SR_T_FLOAT && PyFloat_Check(input))
Glib::VariantBase python_to_variant_by_option(PyObject *input,
std::shared_ptr<sigrok::Option> option)
{
- GVariantType *type = option->get_default_value().get_type().gobj();
+ GVariantType *type = option->default_value().get_type().gobj();
if (type == G_VARIANT_TYPE_UINT64 && PyInt_Check(input))
return Glib::Variant<guint64>::create(PyInt_AsLong(input));
if (type == G_VARIANT_TYPE_UINT64 && PyLong_Check(input))
return Glib::Variant<guint64>::create(PyLong_AsLong(input));
else if (type == G_VARIANT_TYPE_STRING && PyString_Check(input))
- return Glib::Variant<std::string>::create(PyString_AsString(input));
+ return Glib::Variant<Glib::ustring>::create(PyString_AsString(input));
else if (type == G_VARIANT_TYPE_BOOLEAN && PyBool_Check(input))
return Glib::Variant<bool>::create(input == Py_True);
else if (type == G_VARIANT_TYPE_DOUBLE && PyFloat_Check(input))
%}
/* Ignore these methods, we will override them below. */
+%ignore sigrok::Analog::data;
%ignore sigrok::Driver::scan;
%ignore sigrok::InputFormat::create_input;
%ignore sigrok::OutputFormat::create_output;
%include "doc.i"
+%define %attributevector(Class, Type, Name, Get)
+%rename(_ ## Get) sigrok::Class::Get;
+%extend sigrok::Class
+{
+%pythoncode
+{
+ Name = property(_ ## Get)
+}
+}
+%enddef
+
+%define %attributemap(Class, Type, Name, Get)
+%rename(_ ## Get) sigrok::Class::Get;
+%extend sigrok::Class
+{
+%pythoncode
+{
+ Name = property(fget = lambda x: x._ ## Get().asdict(), doc=_ ## Get.__doc__)
+}
+}
+%enddef
+
+%define %enumextras(Class)
+%extend sigrok::Class
+{
+ long __hash__()
+ {
+ return (long) $self;
+ }
+
+%pythoncode
+{
+ def __eq__(self, other):
+ return (type(self) is type(other) and hash(self) == hash(other))
+
+ def __ne__(self, other):
+ return (type(self) is not type(other) or hash(self) != hash(other))
+}
+}
+%enddef
+
%include "../../../swig/classes.i"
/* Support Driver.scan() with keyword arguments. */
{
if (!PyString_Check(py_key))
throw sigrok::Error(SR_ERR_ARG);
- auto key = sigrok::ConfigKey::get(PyString_AsString(py_key));
+ auto key = sigrok::ConfigKey::get_by_identifier(PyString_AsString(py_key));
auto value = python_to_variant_by_key(py_value, key);
options[key] = value;
}
std::shared_ptr<sigrok::Input> _create_input_kwargs(PyObject *dict)
{
return $self->create_input(
- dict_to_map_options(dict, $self->get_options()));
+ dict_to_map_options(dict, $self->options()));
}
}
std::shared_ptr<sigrok::Device> device, PyObject *dict)
{
return $self->create_output(device,
- dict_to_map_options(dict, $self->get_options()));
+ dict_to_map_options(dict, $self->options()));
}
}
$self->config_set(key, python_to_variant_by_key(input, key));
}
}
+
+/* Return NumPy array from Analog::data(). */
+%extend sigrok::Analog
+{
+ PyObject * _data()
+ {
+ int nd = 2;
+ npy_intp dims[2];
+ dims[0] = $self->channels().size();
+ dims[1] = $self->num_samples();
+ int typenum = NPY_FLOAT;
+ void *data = $self->data_pointer();
+ return PyArray_SimpleNewFromData(nd, dims, typenum, data);
+ }
+
+%pythoncode
+{
+ data = property(_data)
+}
+}