// class TraceCollection to prevent direct access to struct bt_context
%pythoncode%{
-class TraceCollection:
- """
- The TraceCollection is the object that contains all currently opened traces.
- """
-
- def __init__(self):
- self._tc = _bt_context_create()
-
- def __del__(self):
- _bt_context_put(self._tc)
-
- def add_trace(self, path, format_str):
- """
- Add a trace by path to the TraceCollection.
-
- Open a trace.
-
- path is the path to the trace, it is not recursive.
- If "path" is None, stream_list is used instead as a list
- of mmap streams to open for the trace.
-
- format is a string containing the format name in which the trace was
- produced.
-
- Return: the corresponding TraceHandle on success or None on error.
- """
- ret = _bt_context_add_trace(self._tc, path, format_str, None, None, None)
- if ret < 0:
- return None
-
- th = TraceHandle.__new__(TraceHandle)
- th._id = ret
- th._trace_collection = self
- return th
-
- def add_traces_recursive(self, path, format_str):
- """
- Open a trace recursively.
-
- Find each trace present in the subdirectory starting from the given
- path, and add them to the TraceCollection.
-
- Return a dict of TraceHandle instances (the full path is the key).
- Return None on error.
- """
-
- import os
-
- trace_handles = {}
-
- noTrace = True
- error = False
-
- for fullpath, dirs, files in os.walk(path):
- if "metadata" in files:
- trace_handle = self.add_trace(fullpath, format_str)
- if trace_handle is None:
- error = True
- continue
-
- trace_handles[fullpath] = trace_handle
- noTrace = False
- if noTrace and error:
- return None
- return trace_handles
-
- def remove_trace(self, trace_handle):
- """
- Remove a trace from the TraceCollection.
- Effectively closing the trace.
- """
- try:
- _bt_context_remove_trace(self._tc, trace_handle._id)
- except AttributeError:
- raise TypeError("in remove_trace, "
- "argument 2 must be a TraceHandle instance")
-
- @property
- def events(self):
- """
- Generator function to iterate over the events of open in the current
- TraceCollection.
-
- Due to limitations of the native Babeltrace API, only one event
- may be "alive" at a time (i.e. a user should never store a copy
- of the events returned by this function for ulterior use). Users
- shall make sure to copy the information they need from an event
- before accessing the next one.
-
- Furthermore, event objects become invalid when the generator goes
- out of scope as the underlying iterator will be reclaimed. Using an
- event after the the generator has gone out of scope may result in a
- crash or data corruption.
- """
- begin_pos_ptr = _bt_iter_pos()
- end_pos_ptr = _bt_iter_pos()
- begin_pos_ptr.type = SEEK_BEGIN
- end_pos_ptr.type = SEEK_LAST
-
- for event in self._events(begin_pos_ptr, end_pos_ptr):
- yield event
-
- def events_timestamps(self, timestamp_begin, timestamp_end):
- """
- Generator function to iterate over the events of open in the current
- TraceCollection from timestamp_begin to timestamp_end.
- """
- begin_pos_ptr = _bt_iter_pos()
- end_pos_ptr = _bt_iter_pos()
- begin_pos_ptr.type = end_pos_ptr.type = SEEK_TIME
- begin_pos_ptr.u.seek_time = timestamp_begin
- end_pos_ptr.u.seek_time = timestamp_end
-
- for event in self._events(begin_pos_ptr, end_pos_ptr):
- yield event
-
- @property
- def timestamp_begin(self):
- pos_ptr = _bt_iter_pos()
- pos_ptr.type = SEEK_BEGIN
- return self._timestamp_at_pos(pos_ptr)
-
- @property
- def timestamp_end(self):
- pos_ptr = _bt_iter_pos()
- pos_ptr.type = SEEK_LAST
- return self._timestamp_at_pos(pos_ptr)
-
- def _timestamp_at_pos(self, pos_ptr):
- ctf_it_ptr = _bt_ctf_iter_create(self._tc, pos_ptr, pos_ptr)
- if ctf_it_ptr is None:
- raise NotImplementedError("Creation of multiple iterators is unsupported.")
- ev_ptr = _bt_ctf_iter_read_event(ctf_it_ptr)
- _bt_ctf_iter_destroy(ctf_it_ptr)
- if ev_ptr is None:
- return None;
-
- def _events(self, begin_pos_ptr, end_pos_ptr):
- ctf_it_ptr = _bt_ctf_iter_create(self._tc, begin_pos_ptr, end_pos_ptr)
- if ctf_it_ptr is None:
- raise NotImplementedError(
- "Creation of multiple iterators is unsupported.")
-
- while True:
- ev_ptr = _bt_ctf_iter_read_event(ctf_it_ptr)
- if ev_ptr is None:
- break
-
- ev = Event.__new__(Event)
- ev._e = ev_ptr
- try:
- yield ev
- except GeneratorExit:
- break
-
- ret = _bt_iter_next(_bt_ctf_get_iter(ctf_it_ptr))
- if ret != 0:
- break
-
- _bt_ctf_iter_destroy(ctf_it_ptr)
+class TraceCollection:
+ """
+ The TraceCollection is the object that contains all currently opened traces.
+ """
+
+ def __init__(self):
+ self._tc = _bt_context_create()
+
+ def __del__(self):
+ _bt_context_put(self._tc)
+
+ def add_trace(self, path, format_str):
+ """
+ Add a trace by path to the TraceCollection.
+
+ Open a trace.
+
+ path is the path to the trace, it is not recursive.
+ If "path" is None, stream_list is used instead as a list
+ of mmap streams to open for the trace.
+
+ format is a string containing the format name in which the trace was
+ produced.
+
+ Return: the corresponding TraceHandle on success or None on error.
+ """
+ ret = _bt_context_add_trace(
+ self._tc,
+ path,
+ format_str,
+ None,
+ None,
+ None)
+ if ret < 0:
+ return None
+
+ th = TraceHandle.__new__(TraceHandle)
+ th._id = ret
+ th._trace_collection = self
+ return th
+
+ def add_traces_recursive(self, path, format_str):
+ """
+ Open a trace recursively.
+
+ Find each trace present in the subdirectory starting from the given
+ path, and add them to the TraceCollection.
+
+ Return a dict of TraceHandle instances (the full path is the key).
+ Return None on error.
+ """
+
+ import os
+
+ trace_handles = {}
+
+ noTrace = True
+ error = False
+
+ for fullpath, dirs, files in os.walk(path):
+ if "metadata" in files:
+ trace_handle = self.add_trace(fullpath, format_str)
+ if trace_handle is None:
+ error = True
+ continue
+
+ trace_handles[fullpath] = trace_handle
+ noTrace = False
+
+ if noTrace and error:
+ return None
+ return trace_handles
+
+ def remove_trace(self, trace_handle):
+ """
+ Remove a trace from the TraceCollection.
+ Effectively closing the trace.
+ """
+ try:
+ _bt_context_remove_trace(self._tc, trace_handle._id)
+ except AttributeError:
+ raise TypeError("in remove_trace, "
+ "argument 2 must be a TraceHandle instance")
+
+ @property
+ def events(self):
+ """
+ Generator function to iterate over the events of open in the current
+ TraceCollection.
+
+ Due to limitations of the native Babeltrace API, only one event
+ may be "alive" at a time (i.e. a user should never store a copy
+ of the events returned by this function for ulterior use). Users
+ shall make sure to copy the information they need from an event
+ before accessing the next one.
+
+ Furthermore, event objects become invalid when the generator goes
+ out of scope as the underlying iterator will be reclaimed. Using an
+ event after the the generator has gone out of scope may result in a
+ crash or data corruption.
+ """
+ begin_pos_ptr = _bt_iter_pos()
+ end_pos_ptr = _bt_iter_pos()
+ begin_pos_ptr.type = SEEK_BEGIN
+ end_pos_ptr.type = SEEK_LAST
+
+ for event in self._events(begin_pos_ptr, end_pos_ptr):
+ yield event
+
+ def events_timestamps(self, timestamp_begin, timestamp_end):
+ """
+ Generator function to iterate over the events of open in the current
+ TraceCollection from timestamp_begin to timestamp_end.
+ """
+ begin_pos_ptr = _bt_iter_pos()
+ end_pos_ptr = _bt_iter_pos()
+ begin_pos_ptr.type = end_pos_ptr.type = SEEK_TIME
+ begin_pos_ptr.u.seek_time = timestamp_begin
+ end_pos_ptr.u.seek_time = timestamp_end
+
+ for event in self._events(begin_pos_ptr, end_pos_ptr):
+ yield event
+
+ @property
+ def timestamp_begin(self):
+ pos_ptr = _bt_iter_pos()
+ pos_ptr.type = SEEK_BEGIN
+ return self._timestamp_at_pos(pos_ptr)
+
+ @property
+ def timestamp_end(self):
+ pos_ptr = _bt_iter_pos()
+ pos_ptr.type = SEEK_LAST
+ return self._timestamp_at_pos(pos_ptr)
+
+ def _timestamp_at_pos(self, pos_ptr):
+ ctf_it_ptr = _bt_ctf_iter_create(self._tc, pos_ptr, pos_ptr)
+ if ctf_it_ptr is None:
+ raise NotImplementedError(
+ "Creation of multiple iterators is unsupported.")
+ ev_ptr = _bt_ctf_iter_read_event(ctf_it_ptr)
+ _bt_ctf_iter_destroy(ctf_it_ptr)
+ if ev_ptr is None:
+ return None
+
+ def _events(self, begin_pos_ptr, end_pos_ptr):
+ ctf_it_ptr = _bt_ctf_iter_create(self._tc, begin_pos_ptr, end_pos_ptr)
+ if ctf_it_ptr is None:
+ raise NotImplementedError(
+ "Creation of multiple iterators is unsupported.")
+
+ while True:
+ ev_ptr = _bt_ctf_iter_read_event(ctf_it_ptr)
+ if ev_ptr is None:
+ break
+
+ ev = Event.__new__(Event)
+ ev._e = ev_ptr
+ try:
+ yield ev
+ except GeneratorExit:
+ break
+
+ ret = _bt_iter_next(_bt_ctf_get_iter(ctf_it_ptr))
+ if ret != 0:
+ break
+
+ _bt_ctf_iter_destroy(ctf_it_ptr)
%}
%pythoncode %{
def print_format_list(babeltrace_file):
- """
- Print a list of available formats to file.
-
- babeltrace_file must be a File instance opened in write mode.
- """
- try:
- if babeltrace_file._file is not None:
- _bt_print_format_list(babeltrace_file._file)
- except AttributeError:
- raise TypeError("in print_format_list, "
- "argument 1 must be a File instance")
+ """
+ Print a list of available formats to file.
+
+ babeltrace_file must be a File instance opened in write mode.
+ """
+ try:
+ if babeltrace_file._file is not None:
+ _bt_print_format_list(babeltrace_file._file)
+ except AttributeError:
+ raise TypeError("in print_format_list, "
+ "argument 1 must be a File instance")
%}
# Based on enum bt_clock_type in clock-type.h
class ClockType:
- CLOCK_CYCLES = 0
- CLOCK_REAL = 1
+ CLOCK_CYCLES = 0
+ CLOCK_REAL = 1
-class TraceHandle(object):
- """
- The TraceHandle allows the user to manipulate a trace file directly.
- It is a unique identifier representing a trace file.
- Do not instantiate.
- """
-
- def __init__(self):
- raise NotImplementedError("TraceHandle cannot be instantiated")
-
- def __repr__(self):
- return "Babeltrace TraceHandle: trace_id('{0}')".format(self._id)
-
- @property
- def id(self):
- """Return the TraceHandle id."""
- return self._id
-
- @property
- def path(self):
- """Return the path of a TraceHandle."""
- return _bt_trace_handle_get_path(self._trace_collection._tc, self._id)
-
- @property
- def timestamp_begin(self):
- """Return the creation time of the buffers of a trace."""
- return _bt_trace_handle_get_timestamp_begin(
- self._trace_collection._tc, self._id, ClockType.CLOCK_REAL)
-
- @property
- def timestamp_end(self):
- """Return the destruction timestamp of the buffers of a trace."""
- return _bt_trace_handle_get_timestamp_end(
- self._trace_collection._tc, self._id, ClockType.CLOCK_REAL)
-
- @property
- def events(self):
- """
- Generator returning all events (EventDeclaration) in a trace.
- """
- ret = _bt_python_event_decl_listcaller(self.id, self._trace_collection._tc)
- if not isinstance(ret, list):
- return
+class TraceHandle(object):
- ptr_list, count = ret
- for i in range(count):
- tmp = EventDeclaration.__new__(EventDeclaration)
- tmp._ed = _bt_python_decl_one_from_list(ptr_list, i)
- yield tmp
+ """
+ The TraceHandle allows the user to manipulate a trace file directly.
+ It is a unique identifier representing a trace file.
+ Do not instantiate.
+ """
+
+ def __init__(self):
+ raise NotImplementedError("TraceHandle cannot be instantiated")
+
+ def __repr__(self):
+ return "Babeltrace TraceHandle: trace_id('{0}')".format(self._id)
+
+ @property
+ def id(self):
+ """Return the TraceHandle id."""
+ return self._id
+
+ @property
+ def path(self):
+ """Return the path of a TraceHandle."""
+ return _bt_trace_handle_get_path(self._trace_collection._tc, self._id)
+
+ @property
+ def timestamp_begin(self):
+ """Return the creation time of the buffers of a trace."""
+ return _bt_trace_handle_get_timestamp_begin(
+ self._trace_collection._tc, self._id, ClockType.CLOCK_REAL)
+
+ @property
+ def timestamp_end(self):
+ """Return the destruction timestamp of the buffers of a trace."""
+ return _bt_trace_handle_get_timestamp_end(
+ self._trace_collection._tc, self._id, ClockType.CLOCK_REAL)
+
+ @property
+ def events(self):
+ """
+ Generator returning all events (EventDeclaration) in a trace.
+ """
+ ret = _bt_python_event_decl_listcaller(
+ self.id,
+ self._trace_collection._tc)
+
+ if not isinstance(ret, list):
+ return
+
+ ptr_list, count = ret
+ for i in range(count):
+ tmp = EventDeclaration.__new__(EventDeclaration)
+ tmp._ed = _bt_python_decl_one_from_list(ptr_list, i)
+ yield tmp
%}
-
// =================================================================
// CTF
// =================================================================
%pythoncode%{
class CTFStringEncoding:
- NONE = 0
- UTF8 = 1
- ASCII = 2
- UNKNOWN = 3
+ NONE = 0
+ UTF8 = 1
+ ASCII = 2
+ UNKNOWN = 3
# Based on the enum in ctf-writer/writer.h
class ByteOrder:
- BYTE_ORDER_NATIVE = 0
- BYTE_ORDER_LITTLE_ENDIAN = 1
- BYTE_ORDER_BIG_ENDIAN = 2
- BYTE_ORDER_NETWORK = 3
- BYTE_ORDER_UNKNOWN = 4 # Python-specific entry
-
-#enum equivalent, accessible constants
-#These are taken directly from ctf/events.h
-#All changes to enums must also be made here
+ BYTE_ORDER_NATIVE = 0
+ BYTE_ORDER_LITTLE_ENDIAN = 1
+ BYTE_ORDER_BIG_ENDIAN = 2
+ BYTE_ORDER_NETWORK = 3
+ BYTE_ORDER_UNKNOWN = 4 # Python-specific entry
+
+# enum equivalent, accessible constants
+# These are taken directly from ctf/events.h
+# All changes to enums must also be made here
class CTFTypeId:
- UNKNOWN = 0
- INTEGER = 1
- FLOAT = 2
- ENUM = 3
- STRING = 4
- STRUCT = 5
- UNTAGGED_VARIANT = 6
- VARIANT = 7
- ARRAY = 8
- SEQUENCE = 9
- NR_CTF_TYPES = 10
- def type_name(id):
- name = "UNKNOWN_TYPE"
- constants = [attr for attr in dir(CTFTypeId) if not callable(getattr(CTFTypeId, attr)) and not attr.startswith("__")]
- for attr in constants:
- if getattr(CTFTypeId, attr) == id:
- name = attr
- break
- return name
+ UNKNOWN = 0
+ INTEGER = 1
+ FLOAT = 2
+ ENUM = 3
+ STRING = 4
+ STRUCT = 5
+ UNTAGGED_VARIANT = 6
+ VARIANT = 7
+ ARRAY = 8
+ SEQUENCE = 9
+ NR_CTF_TYPES = 10
+
+ def type_name(id):
+ name = "UNKNOWN_TYPE"
+ constants = [
+ attr for attr in dir(CTFTypeId) if not callable(
+ getattr(
+ CTFTypeId,
+ attr)) and not attr.startswith("__")]
+ for attr in constants:
+ if getattr(CTFTypeId, attr) == id:
+ name = attr
+ break
+ return name
+
class CTFScope:
- TRACE_PACKET_HEADER = 0
- STREAM_PACKET_CONTEXT = 1
- STREAM_EVENT_HEADER = 2
- STREAM_EVENT_CONTEXT = 3
- EVENT_CONTEXT = 4
- EVENT_FIELDS = 5
-
- def scope_name(scope):
- name = "UNKNOWN_SCOPE"
- constants = [attr for attr in dir(CTFScope) if not callable(getattr(CTFScope, attr)) and not attr.startswith("__")]
- for attr in constants:
- if getattr(CTFScope, attr) == scope:
- name = attr
- break
- return name
+ TRACE_PACKET_HEADER = 0
+ STREAM_PACKET_CONTEXT = 1
+ STREAM_EVENT_HEADER = 2
+ STREAM_EVENT_CONTEXT = 3
+ EVENT_CONTEXT = 4
+ EVENT_FIELDS = 5
+
+ def scope_name(scope):
+ name = "UNKNOWN_SCOPE"
+ constants = [
+ attr for attr in dir(CTFScope) if not callable(
+ getattr(
+ CTFScope,
+ attr)) and not attr.startswith("__")]
+ for attr in constants:
+ if getattr(CTFScope, attr) == scope:
+ name = attr
+ break
+ return name
# Priority of the scopes when searching for event fields
_scopes = [CTFScope.EVENT_FIELDS, CTFScope.EVENT_CONTEXT, CTFScope.STREAM_EVENT_CONTEXT,
- CTFScope.STREAM_EVENT_HEADER, CTFScope.STREAM_PACKET_CONTEXT, CTFScope.TRACE_PACKET_HEADER]
+ CTFScope.STREAM_EVENT_HEADER, CTFScope.STREAM_PACKET_CONTEXT, CTFScope.TRACE_PACKET_HEADER]
import collections
from datetime import datetime
+
+
class Event(collections.Mapping):
- """
- This class represents an event from the trace.
- It is obtained using the TraceCollection generator functions.
- Do not instantiate.
- """
- def __init__(self):
- raise NotImplementedError("Event cannot be instantiated")
- @property
- def name(self):
- """Return the name of the event or None on error."""
- return _bt_ctf_event_name(self._e)
+ """
+ This class represents an event from the trace.
+ It is obtained using the TraceCollection generator functions.
+ Do not instantiate.
+ """
+
+ def __init__(self):
+ raise NotImplementedError("Event cannot be instantiated")
+
+ @property
+ def name(self):
+ """Return the name of the event or None on error."""
+ return _bt_ctf_event_name(self._e)
+
+ @property
+ def cycles(self):
+ """
+ Return the timestamp of the event as written in
+ the packet (in cycles) or -1ULL on error.
+ """
+ return _bt_ctf_get_cycles(self._e)
+
+ @property
+ def timestamp(self):
+ """
+ Return the timestamp of the event offset with the
+ system clock source or -1ULL on error.
+ """
+ return _bt_ctf_get_timestamp(self._e)
+
+ @property
+ def datetime(self):
+ """
+ Return a datetime object based on the event's
+ timestamp. Note that the datetime class' precision
+ is limited to microseconds.
+ """
+ return datetime.fromtimestamp(self.timestamp / 1E9)
+
+ def field_with_scope(self, field_name, scope):
+ """
+ Get field_name's value in scope.
+ None is returned if no field matches field_name.
+ """
+ if not scope in _scopes:
+ raise ValueError("Invalid scope provided")
+ field = self._field_with_scope(field_name, scope)
+ if field is not None:
+ return field.value
+ return None
+
+ def field_list_with_scope(self, scope):
+ """Return a list of field names in scope."""
+ if not scope in _scopes:
+ raise ValueError("Invalid scope provided")
+ field_names = []
+ for field in self._field_list_with_scope(scope):
+ field_names.append(field.name)
+ return field_names
+
+ @property
+ def handle(self):
+ """
+ Get the TraceHandle associated with this event
+ Return None on error
+ """
+ ret = _bt_ctf_event_get_handle_id(self._e)
+ if ret < 0:
+ return None
+
+ th = TraceHandle.__new__(TraceHandle)
+ th._id = ret
+ th._trace_collection = self.get_trace_collection()
+ return th
+
+ @property
+ def trace_collection(self):
+ """
+ Get the TraceCollection associated with this event.
+ Return None on error.
+ """
+ trace_collection = TraceCollection()
+ trace_collection._tc = _bt_ctf_event_get_context(self._e)
+ if trace_collection._tc is None:
+ return None
+ else:
+ return trace_collection
+
+ def __getitem__(self, field_name):
+ """
+ Get field_name's value. If the field_name exists in multiple
+ scopes, the first field found is returned. The scopes are searched
+ in the following order:
+ 1) EVENT_FIELDS
+ 2) EVENT_CONTEXT
+ 3) STREAM_EVENT_CONTEXT
+ 4) STREAM_EVENT_HEADER
+ 5) STREAM_PACKET_CONTEXT
+ 6) TRACE_PACKET_HEADER
+ None is returned if no field matches field_name.
+
+ Use field_with_scope() to explicitly access fields in a given
+ scope.
+ """
+ field = self._field(field_name)
+ if field is not None:
+ return field.value
+ raise KeyError(field_name)
+
+ def __iter__(self):
+ for key in self.keys():
+ yield key
+
+ def __len__(self):
+ count = 0
+ for scope in _scopes:
+ scope_ptr = _bt_ctf_get_top_level_scope(self._e, scope)
+ ret = _bt_python_field_listcaller(self._e, scope_ptr)
+ if isinstance(ret, list):
+ count += ret[1]
+ return count
+
+ def __contains__(self, field_name):
+ return self._field(field_name) is not None
+
+ def keys(self):
+ """Return a list of field names."""
+ field_names = set()
+ for scope in _scopes:
+ for name in self.field_list_with_scope(scope):
+ field_names.add(name)
+ return list(field_names)
+
+ def get(self, field_name, default=None):
+ field = self._field(field_name)
+ if field is None:
+ return default
+ return field.value
+
+ def items(self):
+ for field in self.keys():
+ yield (field, self[field])
+
+ def _field_with_scope(self, field_name, scope):
+ scope_ptr = _bt_ctf_get_top_level_scope(self._e, scope)
+ if scope_ptr is None:
+ return None
+
+ definition_ptr = _bt_ctf_get_field(self._e, scope_ptr, field_name)
+ if definition_ptr is None:
+ return None
+
+ field = _Definition(definition_ptr, scope)
+ return field
+
+ def _field(self, field_name):
+ field = None
+ for scope in _scopes:
+ field = self._field_with_scope(field_name, scope)
+ if field is not None:
+ break
+ return field
+
+ def _field_list_with_scope(self, scope):
+ fields = []
+ scope_ptr = _bt_ctf_get_top_level_scope(self._e, scope)
+
+ # Returns a list [list_ptr, count]. If list_ptr is NULL, SWIG will only
+ # provide the "count" return value
+ count = 0
+ list_ptr = None
+ ret = _bt_python_field_listcaller(self._e, scope_ptr)
+ if isinstance(ret, list):
+ list_ptr, count = ret
+
+ for i in range(count):
+ definition_ptr = _bt_python_field_one_from_list(list_ptr, i)
+ if definition_ptr is not None:
+ definition = _Definition(definition_ptr, scope)
+ fields.append(definition)
+ return fields
- @property
- def cycles(self):
- """
- Return the timestamp of the event as written in
- the packet (in cycles) or -1ULL on error.
- """
- return _bt_ctf_get_cycles(self._e)
-
- @property
- def timestamp(self):
- """
- Return the timestamp of the event offset with the
- system clock source or -1ULL on error.
- """
- return _bt_ctf_get_timestamp(self._e)
-
- @property
- def datetime(self):
- """
- Return a datetime object based on the event's
- timestamp. Note that the datetime class' precision
- is limited to microseconds.
- """
- return datetime.fromtimestamp(self.timestamp / 1E9)
-
- def field_with_scope(self, field_name, scope):
- """
- Get field_name's value in scope.
- None is returned if no field matches field_name.
- """
- if not scope in _scopes:
- raise ValueError("Invalid scope provided")
- field = self._field_with_scope(field_name, scope)
- if field is not None:
- return field.value
- return None
-
- def field_list_with_scope(self, scope):
- """Return a list of field names in scope."""
- if not scope in _scopes:
- raise ValueError("Invalid scope provided")
- field_names = []
- for field in self._field_list_with_scope(scope):
- field_names.append(field.name)
- return field_names
-
- @property
- def handle(self):
- """
- Get the TraceHandle associated with this event
- Return None on error
- """
- ret = _bt_ctf_event_get_handle_id(self._e)
- if ret < 0:
- return None
-
- th = TraceHandle.__new__(TraceHandle)
- th._id = ret
- th._trace_collection = self.get_trace_collection()
- return th
-
- @property
- def trace_collection(self):
- """
- Get the TraceCollection associated with this event.
- Return None on error.
- """
- trace_collection = TraceCollection()
- trace_collection._tc = _bt_ctf_event_get_context(self._e);
- if trace_collection._tc is None:
- return None
- else:
- return trace_collection
-
- def __getitem__(self, field_name):
- """
- Get field_name's value. If the field_name exists in multiple
- scopes, the first field found is returned. The scopes are searched
- in the following order:
- 1) EVENT_FIELDS
- 2) EVENT_CONTEXT
- 3) STREAM_EVENT_CONTEXT
- 4) STREAM_EVENT_HEADER
- 5) STREAM_PACKET_CONTEXT
- 6) TRACE_PACKET_HEADER
- None is returned if no field matches field_name.
-
- Use field_with_scope() to explicitly access fields in a given
- scope.
- """
- field = self._field(field_name)
- if field is not None:
- return field.value
- raise KeyError(field_name)
-
- def __iter__(self):
- for key in self.keys():
- yield key
-
- def __len__(self):
- count = 0
- for scope in _scopes:
- scope_ptr = _bt_ctf_get_top_level_scope(self._e, scope)
- ret = _bt_python_field_listcaller(self._e, scope_ptr)
- if isinstance(ret, list):
- count += ret[1]
- return count
-
- def __contains__(self, field_name):
- return self._field(field_name) is not None
-
- def keys(self):
- """Return a list of field names."""
- field_names = set()
- for scope in _scopes:
- for name in self.field_list_with_scope(scope):
- field_names.add(name)
- return list(field_names)
-
- def get(self, field_name, default = None):
- field = self._field(field_name)
- if field is None:
- return default
- return field.value
-
- def items(self):
- for field in self.keys():
- yield (field, self[field])
-
- def _field_with_scope(self, field_name, scope):
- scope_ptr = _bt_ctf_get_top_level_scope(self._e, scope)
- if scope_ptr is None:
- return None
-
- definition_ptr = _bt_ctf_get_field(self._e, scope_ptr, field_name)
- if definition_ptr is None:
- return None
-
- field = _Definition(definition_ptr, scope)
- return field
-
- def _field(self, field_name):
- field = None
- for scope in _scopes:
- field = self._field_with_scope(field_name, scope)
- if field is not None:
- break
- return field
-
- def _field_list_with_scope(self, scope):
- fields = []
- scope_ptr = _bt_ctf_get_top_level_scope(self._e, scope)
-
- # Returns a list [list_ptr, count]. If list_ptr is NULL, SWIG will only
- # provide the "count" return value
- count = 0
- list_ptr = None
- ret = _bt_python_field_listcaller(self._e, scope_ptr)
- if isinstance(ret, list):
- list_ptr, count = ret
-
- for i in range(count):
- definition_ptr = _bt_python_field_one_from_list(list_ptr, i)
- if definition_ptr is not None:
- definition = _Definition(definition_ptr, scope)
- fields.append(definition)
- return fields
class FieldError(Exception):
- def __init__(self, value):
- self.value = value
- def __str__(self):
- return repr(self.value)
+ def __init__(self, value):
+ self.value = value
+
+ def __str__(self):
+ return repr(self.value)
+
class EventDeclaration(object):
- """Event declaration class. Do not instantiate."""
- MAX_UINT64 = 0xFFFFFFFFFFFFFFFF
-
- def __init__(self):
- raise NotImplementedError("EventDeclaration cannot be instantiated")
-
- @property
- def name(self):
- """Return the name of the event or None on error"""
- return _bt_ctf_get_decl_event_name(self._ed)
-
- @property
- def id(self):
- """Return the event-ID of the event or -1 on error"""
- id = _bt_ctf_get_decl_event_id(self._ed)
- if id == self.MAX_UINT64:
- id = -1
- return id
-
- @property
- def fields(self):
- """
- Generator returning all FieldDeclarations of an event, going through
- each scope in the following order:
- 1) EVENT_FIELDS
- 2) EVENT_CONTEXT
- 3) STREAM_EVENT_CONTEXT
- 4) STREAM_EVENT_HEADER
- 5) STREAM_PACKET_CONTEXT
- 6) TRACE_PACKET_HEADER
- """
- for scope in _scopes:
- for declaration in self.fields_scope(scope):
- yield declaration
-
- def fields_scope(self, scope):
- """
- Generator returning FieldDeclarations of the current event in scope.
- """
- ret = _by_python_field_decl_listcaller(self._ed, scope)
-
- if not isinstance(ret, list):
- return
-
- list_ptr, count = ret
- for i in range(count):
- field_declaration_ptr = _bt_python_field_decl_one_from_list(list_ptr, i)
- if field_declaration_ptr is not None:
- declaration_ptr = _bt_ctf_get_decl_from_field_decl(field_declaration_ptr)
- field_declaration = _create_field_declaration(declaration_ptr, _bt_ctf_get_decl_field_name(field_declaration_ptr), scope)
- yield field_declaration
+
+ """Event declaration class. Do not instantiate."""
+ MAX_UINT64 = 0xFFFFFFFFFFFFFFFF
+
+ def __init__(self):
+ raise NotImplementedError("EventDeclaration cannot be instantiated")
+
+ @property
+ def name(self):
+ """Return the name of the event or None on error"""
+ return _bt_ctf_get_decl_event_name(self._ed)
+
+ @property
+ def id(self):
+ """Return the event-ID of the event or -1 on error"""
+ id = _bt_ctf_get_decl_event_id(self._ed)
+ if id == self.MAX_UINT64:
+ id = -1
+ return id
+
+ @property
+ def fields(self):
+ """
+ Generator returning all FieldDeclarations of an event, going through
+ each scope in the following order:
+ 1) EVENT_FIELDS
+ 2) EVENT_CONTEXT
+ 3) STREAM_EVENT_CONTEXT
+ 4) STREAM_EVENT_HEADER
+ 5) STREAM_PACKET_CONTEXT
+ 6) TRACE_PACKET_HEADER
+ """
+ for scope in _scopes:
+ for declaration in self.fields_scope(scope):
+ yield declaration
+
+ def fields_scope(self, scope):
+ """
+ Generator returning FieldDeclarations of the current event in scope.
+ """
+ ret = _by_python_field_decl_listcaller(self._ed, scope)
+
+ if not isinstance(ret, list):
+ return
+
+ list_ptr, count = ret
+ for i in range(count):
+ field_declaration_ptr = _bt_python_field_decl_one_from_list(
+ list_ptr,
+ i)
+ if field_declaration_ptr is not None:
+ declaration_ptr = _bt_ctf_get_decl_from_field_decl(
+ field_declaration_ptr)
+ field_declaration = _create_field_declaration(
+ declaration_ptr,
+ _bt_ctf_get_decl_field_name(field_declaration_ptr),
+ scope)
+ yield field_declaration
+
class FieldDeclaration(object):
- """Field declaration class. Do not instantiate."""
- def __init__(self):
- raise NotImplementedError("FieldDeclaration cannot be instantiated")
- def __repr__(self):
- return "({0}) {1} {2}".format(CTFScope.scope_name(self.scope), CTFTypeId.type_name(self.type), self.name)
+ """Field declaration class. Do not instantiate."""
- @property
- def name(self):
- """Return the name of a FieldDeclaration or None on error."""
- return self._name
+ def __init__(self):
+ raise NotImplementedError("FieldDeclaration cannot be instantiated")
- @property
- def type(self):
- """
- Return the FieldDeclaration's type. One of the entries in class
- CTFTypeId.
- """
- return _bt_ctf_field_type(self._fd)
+ def __repr__(self):
+ return "({0}) {1} {2}".format(
+ CTFScope.scope_name(self.scope), CTFTypeId.type_name(self.type), self.name)
- @property
- def scope(self):
- """
- Return the FieldDeclaration's scope.
- """
- return self._s
+ @property
+ def name(self):
+ """Return the name of a FieldDeclaration or None on error."""
+ return self._name
-class IntegerFieldDeclaration(FieldDeclaration):
- """Do not instantiate."""
- def __init__(self):
- raise NotImplementedError("IntegerFieldDeclaration cannot be instantiated")
+ @property
+ def type(self):
+ """
+ Return the FieldDeclaration's type. One of the entries in class
+ CTFTypeId.
+ """
+ return _bt_ctf_field_type(self._fd)
- @property
- def signedness(self):
- """
- Return the signedness of an integer:
- 0 if unsigned; 1 if signed; -1 on error.
- """
- return _bt_ctf_get_int_signedness(self._fd)
+ @property
+ def scope(self):
+ """
+ Return the FieldDeclaration's scope.
+ """
+ return self._s
- @property
- def base(self):
- """Return the base of an int or a negative value on error."""
- return _bt_ctf_get_int_base(self._fd)
- @property
- def byte_order(self):
- """
- Return the byte order. One of class ByteOrder's entries.
- """
- ret = _bt_ctf_get_int_byte_order(self._fd)
- if ret == 1234:
- return ByteOrder.BYTE_ORDER_LITTLE_ENDIAN
- elif ret == 4321:
- return ByteOrder.BYTE_ORDER_BIG_ENDIAN
- else:
- return ByteOrder.BYTE_ORDER_UNKNOWN
+class IntegerFieldDeclaration(FieldDeclaration):
- @property
- def length(self):
- """
- Return the size, in bits, of an int or a negative
- value on error.
- """
- return _bt_ctf_get_int_len(self._fd)
+ """Do not instantiate."""
+
+ def __init__(self):
+ raise NotImplementedError(
+ "IntegerFieldDeclaration cannot be instantiated")
+
+ @property
+ def signedness(self):
+ """
+ Return the signedness of an integer:
+ 0 if unsigned; 1 if signed; -1 on error.
+ """
+ return _bt_ctf_get_int_signedness(self._fd)
+
+ @property
+ def base(self):
+ """Return the base of an int or a negative value on error."""
+ return _bt_ctf_get_int_base(self._fd)
+
+ @property
+ def byte_order(self):
+ """
+ Return the byte order. One of class ByteOrder's entries.
+ """
+ ret = _bt_ctf_get_int_byte_order(self._fd)
+ if ret == 1234:
+ return ByteOrder.BYTE_ORDER_LITTLE_ENDIAN
+ elif ret == 4321:
+ return ByteOrder.BYTE_ORDER_BIG_ENDIAN
+ else:
+ return ByteOrder.BYTE_ORDER_UNKNOWN
+
+ @property
+ def length(self):
+ """
+ Return the size, in bits, of an int or a negative
+ value on error.
+ """
+ return _bt_ctf_get_int_len(self._fd)
+
+ @property
+ def encoding(self):
+ """
+ Return the encoding. One of class CTFStringEncoding's entries.
+ Return a negative value on error.
+ """
+ return _bt_ctf_get_encoding(self._fd)
- @property
- def encoding(self):
- """
- Return the encoding. One of class CTFStringEncoding's entries.
- Return a negative value on error.
- """
- return _bt_ctf_get_encoding(self._fd)
class EnumerationFieldDeclaration(FieldDeclaration):
- """Do not instantiate."""
- def __init__(self):
- raise NotImplementedError("EnumerationFieldDeclaration cannot be instantiated")
+
+ """Do not instantiate."""
+
+ def __init__(self):
+ raise NotImplementedError(
+ "EnumerationFieldDeclaration cannot be instantiated")
+
class ArrayFieldDeclaration(FieldDeclaration):
- """Do not instantiate."""
- def __init__(self):
- raise NotImplementedError("ArrayFieldDeclaration cannot be instantiated")
- @property
- def length(self):
- """
- Return the length of an array or a negative
- value on error.
- """
- return _bt_ctf_get_array_len(self._fd)
+ """Do not instantiate."""
+
+ def __init__(self):
+ raise NotImplementedError(
+ "ArrayFieldDeclaration cannot be instantiated")
+
+ @property
+ def length(self):
+ """
+ Return the length of an array or a negative
+ value on error.
+ """
+ return _bt_ctf_get_array_len(self._fd)
+
+ @property
+ def element_declaration(self):
+ """
+ Return element declaration.
+ """
+ field_decl_ptr = _bt_python_get_array_element_declaration(self._fd)
+ return _create_field_declaration(field_decl_ptr, "", self.scope)
- @property
- def element_declaration(self):
- """
- Return element declaration.
- """
- field_decl_ptr = _bt_python_get_array_element_declaration(self._fd)
- return _create_field_declaration(field_decl_ptr, "", self.scope)
class SequenceFieldDeclaration(FieldDeclaration):
- """Do not instantiate."""
- def __init__(self):
- raise NotImplementedError("SequenceFieldDeclaration cannot be instantiated")
- @property
- def element_declaration(self):
- """
- Return element declaration.
- """
- field_decl_ptr = _bt_python_get_sequence_element_declaration(self._fd)
- return _create_field_declaration(field_decl_ptr, "", self.scope)
+ """Do not instantiate."""
+
+ def __init__(self):
+ raise NotImplementedError(
+ "SequenceFieldDeclaration cannot be instantiated")
+
+ @property
+ def element_declaration(self):
+ """
+ Return element declaration.
+ """
+ field_decl_ptr = _bt_python_get_sequence_element_declaration(self._fd)
+ return _create_field_declaration(field_decl_ptr, "", self.scope)
+
class FloatFieldDeclaration(FieldDeclaration):
- """Do not instantiate."""
- def __init__(self):
- raise NotImplementedError("FloatFieldDeclaration cannot be instantiated")
+
+ """Do not instantiate."""
+
+ def __init__(self):
+ raise NotImplementedError(
+ "FloatFieldDeclaration cannot be instantiated")
+
class StructureFieldDeclaration(FieldDeclaration):
- """Do not instantiate."""
- def __init__(self):
- raise NotImplementedError("StructureFieldDeclaration cannot be instantiated")
-class StringFieldDeclaration(FieldDeclaration):
- """Do not instantiate."""
- def __init__(self):
- raise NotImplementedError("StringFieldDeclaration cannot be instantiated")
+ """Do not instantiate."""
-class VariantFieldDeclaration(FieldDeclaration):
- """Do not instantiate."""
- def __init__(self):
- raise NotImplementedError("VariantFieldDeclaration cannot be instantiated")
+ def __init__(self):
+ raise NotImplementedError(
+ "StructureFieldDeclaration cannot be instantiated")
-def field_error():
- """
- Return the last error code encountered while
- accessing a field and reset the error flag.
- Return 0 if no error, a negative value otherwise.
- """
- return _bt_ctf_field_get_error()
-def _create_field_declaration(declaration_ptr, name, scope):
- """
- Private field declaration factory.
- """
- if declaration_ptr is None:
- raise ValueError("declaration_ptr must be valid")
- if not scope in _scopes:
- raise ValueError("Invalid scope provided")
-
- type = _bt_ctf_field_type(declaration_ptr)
- declaration = None
- if type == CTFTypeId.INTEGER:
- declaration = IntegerFieldDeclaration.__new__(IntegerFieldDeclaration)
- elif type == CTFTypeId.ENUM:
- declaration = EnumerationFieldDeclaration.__new__(EnumerationFieldDeclaration)
- elif type == CTFTypeId.ARRAY:
- declaration = ArrayFieldDeclaration.__new__(ArrayFieldDeclaration)
- elif type == CTFTypeId.SEQUENCE:
- declaration = SequenceFieldDeclaration.__new__(SequenceFieldDeclaration)
- elif type == CTFTypeId.FLOAT:
- declaration = FloatFieldDeclaration.__new__(FloatFieldDeclaration)
- elif type == CTFTypeId.STRUCT:
- declaration = StructureFieldDeclaration.__new__(StructureFieldDeclaration)
- elif type == CTFTypeId.STRING:
- declaration = StringFieldDeclaration.__new__(StringFieldDeclaration)
- elif type == CTFTypeId.VARIANT:
- declaration = VariantFieldDeclaration.__new__(VariantFieldDeclaration)
- else:
- return declaration
-
- declaration._fd = declaration_ptr
- declaration._s = scope
- declaration._name = name
- return declaration
+class StringFieldDeclaration(FieldDeclaration):
-class _Definition(object):
- def __init__(self, definition_ptr, scope):
- self._d = definition_ptr
- self._s = scope
- if not scope in _scopes:
- ValueError("Invalid scope provided")
+ """Do not instantiate."""
- @property
- def name(self):
- """Return the name of a field or None on error."""
- return _bt_ctf_field_name(self._d)
+ def __init__(self):
+ raise NotImplementedError(
+ "StringFieldDeclaration cannot be instantiated")
- @property
- def type(self):
- """Return the type of a field or -1 if unknown."""
- return _bt_ctf_field_type(_bt_ctf_get_decl_from_def(self._d))
- @property
- def declaration(self):
- """Return the associated Definition object."""
- return _create_field_declaration(_bt_ctf_get_decl_from_def(self._d), self.name, self.scope)
+class VariantFieldDeclaration(FieldDeclaration):
- def _get_enum_str(self):
- """
- Return the string matching the current enumeration.
- Return None on error.
- """
- return _bt_ctf_get_enum_str(self._d)
+ """Do not instantiate."""
- def _get_array_element_at(self, index):
- """
- Return the array's element at position index.
- Return None on error
- """
- array_ptr = _bt_python_get_array_from_def(self._d)
- if array_ptr is None:
- return None
+ def __init__(self):
+ raise NotImplementedError(
+ "VariantFieldDeclaration cannot be instantiated")
- definition_ptr = _bt_array_index(array_ptr, index)
- if definition_ptr is None:
- return None
- return _Definition(definition_ptr, self.scope)
- def _get_sequence_len(self):
- """
- Return the len of a sequence or a negative
- value on error.
- """
- seq = _bt_python_get_sequence_from_def(self._d)
- return _bt_sequence_len(seq)
+def field_error():
+ """
+ Return the last error code encountered while
+ accessing a field and reset the error flag.
+ Return 0 if no error, a negative value otherwise.
+ """
+ return _bt_ctf_field_get_error()
- def _get_sequence_element_at(self, index):
- """
- Return the sequence's element at position index,
- otherwise return None
- """
- seq = _bt_python_get_sequence_from_def(self._d)
- if seq is not None:
- definition_ptr = _bt_sequence_index(seq, index)
- if definition_ptr is not None:
- return _Definition(definition_ptr, self.scope)
- return None
- def _get_uint64(self):
- """
- Return the value associated with the field.
- If the field does not exist or is not of the type requested,
- the value returned is undefined. To check if an error occured,
- use the field_error() function after accessing a field.
- """
- return _bt_ctf_get_uint64(self._d)
+def _create_field_declaration(declaration_ptr, name, scope):
+ """
+ Private field declaration factory.
+ """
+ if declaration_ptr is None:
+ raise ValueError("declaration_ptr must be valid")
+ if not scope in _scopes:
+ raise ValueError("Invalid scope provided")
+
+ type = _bt_ctf_field_type(declaration_ptr)
+ declaration = None
+ if type == CTFTypeId.INTEGER:
+ declaration = IntegerFieldDeclaration.__new__(IntegerFieldDeclaration)
+ elif type == CTFTypeId.ENUM:
+ declaration = EnumerationFieldDeclaration.__new__(
+ EnumerationFieldDeclaration)
+ elif type == CTFTypeId.ARRAY:
+ declaration = ArrayFieldDeclaration.__new__(ArrayFieldDeclaration)
+ elif type == CTFTypeId.SEQUENCE:
+ declaration = SequenceFieldDeclaration.__new__(
+ SequenceFieldDeclaration)
+ elif type == CTFTypeId.FLOAT:
+ declaration = FloatFieldDeclaration.__new__(FloatFieldDeclaration)
+ elif type == CTFTypeId.STRUCT:
+ declaration = StructureFieldDeclaration.__new__(
+ StructureFieldDeclaration)
+ elif type == CTFTypeId.STRING:
+ declaration = StringFieldDeclaration.__new__(StringFieldDeclaration)
+ elif type == CTFTypeId.VARIANT:
+ declaration = VariantFieldDeclaration.__new__(VariantFieldDeclaration)
+ else:
+ return declaration
+
+ declaration._fd = declaration_ptr
+ declaration._s = scope
+ declaration._name = name
+ return declaration
- def _get_int64(self):
- """
- Return the value associated with the field.
- If the field does not exist or is not of the type requested,
- the value returned is undefined. To check if an error occured,
- use the field_error() function after accessing a field.
- """
- return _bt_ctf_get_int64(self._d)
-
- def _get_char_array(self):
- """
- Return the value associated with the field.
- If the field does not exist or is not of the type requested,
- the value returned is undefined. To check if an error occurred,
- use the field_error() function after accessing a field.
- """
- return _bt_ctf_get_char_array(self._d)
-
- def _get_str(self):
- """
- Return the value associated with the field.
- If the field does not exist or is not of the type requested,
- the value returned is undefined. To check if an error occurred,
- use the field_error() function after accessing a field.
- """
- return _bt_ctf_get_string(self._d)
-
- def _get_float(self):
- """
- Return the value associated with the field.
- If the field does not exist or is not of the type requested,
- the value returned is undefined. To check if an error occurred,
- use the field_error() function after accessing a field.
- """
- return _bt_ctf_get_float(self._d)
-
- def _get_variant(self):
- """
- Return the variant's selected field.
- If the field does not exist or is not of the type requested,
- the value returned is undefined. To check if an error occurred,
- use the field_error() function after accessing a field.
- """
- return _bt_ctf_get_variant(self._d)
- def _get_struct_field_count(self):
- """
- Return the number of fields contained in the structure.
- If the field does not exist or is not of the type requested,
- the value returned is undefined.
- """
- return _bt_ctf_get_struct_field_count(self._d)
-
- def _get_struct_field_at(self, i):
- """
- Return the structure's field at position i.
- If the field does not exist or is not of the type requested,
- the value returned is undefined. To check if an error occurred,
- use the field_error() function after accessing a field.
- """
- return _bt_ctf_get_struct_field_index(self._d, i)
-
- @property
- def value(self):
- """
- Return the value associated with the field according to its type.
- Return None on error.
- """
- id = self.type
- value = None
-
- if id == CTFTypeId.STRING:
- value = self._get_str()
- elif id == CTFTypeId.ARRAY:
- element_decl = self.declaration.element_declaration
- if ((element_decl.type == CTFTypeId.INTEGER
- and element_decl.length == 8)
- and (element_decl.encoding == CTFStringEncoding.ASCII or element_decl.encoding == CTFStringEncoding.UTF8)):
- value = _bt_python_get_array_string(self._d)
- else:
- value = []
- for i in range(self.declaration.length):
- element = self._get_array_element_at(i)
- value.append(element.value)
- elif id == CTFTypeId.INTEGER:
- if self.declaration.signedness == 0:
- value = self._get_uint64()
- else:
- value = self._get_int64()
- elif id == CTFTypeId.ENUM:
- value = self._get_enum_str()
- elif id == CTFTypeId.SEQUENCE:
- element_decl = self.declaration.element_declaration
- if ((element_decl.type == CTFTypeId.INTEGER
- and element_decl.length == 8)
- and (element_decl.encoding == CTFStringEncoding.ASCII or element_decl.encoding == CTFStringEncoding.UTF8)):
- value = _bt_python_get_sequence_string(self._d)
- else:
- seq_len = self._get_sequence_len()
- value = []
- for i in range(seq_len):
- evDef = self._get_sequence_element_at(i)
- value.append(evDef.value)
- elif id == CTFTypeId.FLOAT:
- value = self._get_float()
- elif id == CTFTypeId.VARIANT:
- variant = _Definition.__new__(_Definition)
- variant._d = self._get_variant();
- value = variant.value
- elif id == CTFTypeId.STRUCT:
- value = {}
- for i in range(self._get_struct_field_count()):
- member = _Definition(self._get_struct_field_at(i), self.scope)
- value[member.name] = member.value
-
- if field_error():
- raise FieldError("Error occurred while accessing field {} of type {}".format(self.name, CTFTypeId.type_name(id)))
- return value
-
- @property
- def scope(self):
- """Return the scope of a field or None on error."""
- return self._s
+class _Definition(object):
+
+ def __init__(self, definition_ptr, scope):
+ self._d = definition_ptr
+ self._s = scope
+ if not scope in _scopes:
+ ValueError("Invalid scope provided")
+
+ @property
+ def name(self):
+ """Return the name of a field or None on error."""
+ return _bt_ctf_field_name(self._d)
+
+ @property
+ def type(self):
+ """Return the type of a field or -1 if unknown."""
+ return _bt_ctf_field_type(_bt_ctf_get_decl_from_def(self._d))
+
+ @property
+ def declaration(self):
+ """Return the associated Definition object."""
+ return _create_field_declaration(
+ _bt_ctf_get_decl_from_def(self._d), self.name, self.scope)
+
+ def _get_enum_str(self):
+ """
+ Return the string matching the current enumeration.
+ Return None on error.
+ """
+ return _bt_ctf_get_enum_str(self._d)
+
+ def _get_array_element_at(self, index):
+ """
+ Return the array's element at position index.
+ Return None on error
+ """
+ array_ptr = _bt_python_get_array_from_def(self._d)
+ if array_ptr is None:
+ return None
+
+ definition_ptr = _bt_array_index(array_ptr, index)
+ if definition_ptr is None:
+ return None
+ return _Definition(definition_ptr, self.scope)
+
+ def _get_sequence_len(self):
+ """
+ Return the len of a sequence or a negative
+ value on error.
+ """
+ seq = _bt_python_get_sequence_from_def(self._d)
+ return _bt_sequence_len(seq)
+
+ def _get_sequence_element_at(self, index):
+ """
+ Return the sequence's element at position index,
+ otherwise return None
+ """
+ seq = _bt_python_get_sequence_from_def(self._d)
+ if seq is not None:
+ definition_ptr = _bt_sequence_index(seq, index)
+ if definition_ptr is not None:
+ return _Definition(definition_ptr, self.scope)
+ return None
+
+ def _get_uint64(self):
+ """
+ Return the value associated with the field.
+ If the field does not exist or is not of the type requested,
+ the value returned is undefined. To check if an error occured,
+ use the field_error() function after accessing a field.
+ """
+ return _bt_ctf_get_uint64(self._d)
+
+ def _get_int64(self):
+ """
+ Return the value associated with the field.
+ If the field does not exist or is not of the type requested,
+ the value returned is undefined. To check if an error occured,
+ use the field_error() function after accessing a field.
+ """
+ return _bt_ctf_get_int64(self._d)
+
+ def _get_char_array(self):
+ """
+ Return the value associated with the field.
+ If the field does not exist or is not of the type requested,
+ the value returned is undefined. To check if an error occurred,
+ use the field_error() function after accessing a field.
+ """
+ return _bt_ctf_get_char_array(self._d)
+
+ def _get_str(self):
+ """
+ Return the value associated with the field.
+ If the field does not exist or is not of the type requested,
+ the value returned is undefined. To check if an error occurred,
+ use the field_error() function after accessing a field.
+ """
+ return _bt_ctf_get_string(self._d)
+
+ def _get_float(self):
+ """
+ Return the value associated with the field.
+ If the field does not exist or is not of the type requested,
+ the value returned is undefined. To check if an error occurred,
+ use the field_error() function after accessing a field.
+ """
+ return _bt_ctf_get_float(self._d)
+
+ def _get_variant(self):
+ """
+ Return the variant's selected field.
+ If the field does not exist or is not of the type requested,
+ the value returned is undefined. To check if an error occurred,
+ use the field_error() function after accessing a field.
+ """
+ return _bt_ctf_get_variant(self._d)
+
+ def _get_struct_field_count(self):
+ """
+ Return the number of fields contained in the structure.
+ If the field does not exist or is not of the type requested,
+ the value returned is undefined.
+ """
+ return _bt_ctf_get_struct_field_count(self._d)
+
+ def _get_struct_field_at(self, i):
+ """
+ Return the structure's field at position i.
+ If the field does not exist or is not of the type requested,
+ the value returned is undefined. To check if an error occurred,
+ use the field_error() function after accessing a field.
+ """
+ return _bt_ctf_get_struct_field_index(self._d, i)
+
+ @property
+ def value(self):
+ """
+ Return the value associated with the field according to its type.
+ Return None on error.
+ """
+ id = self.type
+ value = None
+
+ if id == CTFTypeId.STRING:
+ value = self._get_str()
+ elif id == CTFTypeId.ARRAY:
+ element_decl = self.declaration.element_declaration
+ if ((element_decl.type == CTFTypeId.INTEGER
+ and element_decl.length == 8)
+ and (element_decl.encoding == CTFStringEncoding.ASCII or element_decl.encoding == CTFStringEncoding.UTF8)):
+ value = _bt_python_get_array_string(self._d)
+ else:
+ value = []
+ for i in range(self.declaration.length):
+ element = self._get_array_element_at(i)
+ value.append(element.value)
+ elif id == CTFTypeId.INTEGER:
+ if self.declaration.signedness == 0:
+ value = self._get_uint64()
+ else:
+ value = self._get_int64()
+ elif id == CTFTypeId.ENUM:
+ value = self._get_enum_str()
+ elif id == CTFTypeId.SEQUENCE:
+ element_decl = self.declaration.element_declaration
+ if ((element_decl.type == CTFTypeId.INTEGER
+ and element_decl.length == 8)
+ and (element_decl.encoding == CTFStringEncoding.ASCII or element_decl.encoding == CTFStringEncoding.UTF8)):
+ value = _bt_python_get_sequence_string(self._d)
+ else:
+ seq_len = self._get_sequence_len()
+ value = []
+ for i in range(seq_len):
+ evDef = self._get_sequence_element_at(i)
+ value.append(evDef.value)
+ elif id == CTFTypeId.FLOAT:
+ value = self._get_float()
+ elif id == CTFTypeId.VARIANT:
+ variant = _Definition.__new__(_Definition)
+ variant._d = self._get_variant()
+ value = variant.value
+ elif id == CTFTypeId.STRUCT:
+ value = {}
+ for i in range(self._get_struct_field_count()):
+ member = _Definition(self._get_struct_field_at(i), self.scope)
+ value[member.name] = member.value
+
+ if field_error():
+ raise FieldError(
+ "Error occurred while accessing field {} of type {}".format(
+ self.name,
+ CTFTypeId.type_name(id)))
+ return value
+
+ @property
+ def scope(self):
+ """Return the scope of a field or None on error."""
+ return self._s
%}
void bt_ctf_writer_put(struct bt_ctf_writer *writer);
%pythoncode %{
-import uuid
+
+from uuid import UUID
+
class CTFWriter:
- # Used to compare to -1ULL in error checks
- _MAX_UINT64 = 0xFFFFFFFFFFFFFFFF
+ # Used to compare to -1ULL in error checks
+ _MAX_UINT64 = 0xFFFFFFFFFFFFFFFF
- """
+ """
Enumeration mapping class. start and end values are inclusive.
"""
- class EnumerationMapping:
- def __init__(self, name, start, end):
- self.name = name
- self.start = start
- self.end = end
+ class EnumerationMapping:
- class Clock:
- def __init__(self, name):
- self._c = _bt_ctf_clock_create(name)
- if self._c is None:
- raise ValueError("Invalid clock name.")
+ def __init__(self, name, start, end):
+ self.name = name
+ self.start = start
+ self.end = end
- def __del__(self):
- _bt_ctf_clock_put(self._c)
+ class Clock:
- """
+ def __init__(self, name):
+ self._c = _bt_ctf_clock_create(name)
+ if self._c is None:
+ raise ValueError("Invalid clock name.")
+
+ def __del__(self):
+ _bt_ctf_clock_put(self._c)
+
+ """
Get the clock's name.
"""
- @property
- def name(self):
- name = _bt_ctf_clock_get_name(self._c)
- if name is None:
- raise ValueError("Invalid clock instance.")
- return name
+ @property
+ def name(self):
+ name = _bt_ctf_clock_get_name(self._c)
+ if name is None:
+ raise ValueError("Invalid clock instance.")
+ return name
- """
+ """
Get the clock's description. None if unset.
"""
- @property
- def description(self):
- return _bt_ctf_clock_get_description(self._c)
+ @property
+ def description(self):
+ return _bt_ctf_clock_get_description(self._c)
- """
+ """
Set the clock's description. The description appears in the clock's TSDL
meta-data.
"""
- @description.setter
- def description(self, desc):
- ret = _bt_ctf_clock_set_description(self._c, str(desc))
- if ret < 0:
- raise ValueError("Invalid clock description.")
+ @description.setter
+ def description(self, desc):
+ ret = _bt_ctf_clock_set_description(self._c, str(desc))
+ if ret < 0:
+ raise ValueError("Invalid clock description.")
- """
+ """
Get the clock's frequency (Hz).
"""
- @property
- def frequency(self):
- freq = _bt_ctf_clock_get_frequency(self._c)
- if freq == CTFWriter._MAX_UINT64:
- raise ValueError("Invalid clock instance")
- return freq
+ @property
+ def frequency(self):
+ freq = _bt_ctf_clock_get_frequency(self._c)
+ if freq == CTFWriter._MAX_UINT64:
+ raise ValueError("Invalid clock instance")
+ return freq
- """
+ """
Set the clock's frequency (Hz).
"""
- @frequency.setter
- def frequency(self, freq):
- ret = _bt_ctf_clock_set_frequency(self._c, freq)
- if ret < 0:
- raise ValueError("Invalid frequency value.")
+ @frequency.setter
+ def frequency(self, freq):
+ ret = _bt_ctf_clock_set_frequency(self._c, freq)
+ if ret < 0:
+ raise ValueError("Invalid frequency value.")
- """
+ """
Get the clock's precision (in clock ticks).
"""
- @property
- def precision(self):
- precision = _bt_ctf_clock_get_precision(self._c)
- if precision == CTFWriter._MAX_UINT64:
- raise ValueError("Invalid clock instance")
- return precision
+ @property
+ def precision(self):
+ precision = _bt_ctf_clock_get_precision(self._c)
+ if precision == CTFWriter._MAX_UINT64:
+ raise ValueError("Invalid clock instance")
+ return precision
- """
+ """
Set the clock's precision (in clock ticks).
"""
- @precision.setter
- def precision(self, precision):
- ret = _bt_ctf_clock_set_precision(self._c, precision)
+ @precision.setter
+ def precision(self, precision):
+ ret = _bt_ctf_clock_set_precision(self._c, precision)
- """
+ """
Get the clock's offset in seconds from POSIX.1 Epoch.
"""
- @property
- def offset_seconds(self):
- offset_s = _bt_ctf_clock_get_offset_s(self._c)
- if offset_s == CTFWriter._MAX_UINT64:
- raise ValueError("Invalid clock instance")
- return offset_s
+ @property
+ def offset_seconds(self):
+ offset_s = _bt_ctf_clock_get_offset_s(self._c)
+ if offset_s == CTFWriter._MAX_UINT64:
+ raise ValueError("Invalid clock instance")
+ return offset_s
- """
+ """
Set the clock's offset in seconds from POSIX.1 Epoch.
"""
- @offset_seconds.setter
- def offset_seconds(self, offset_s):
- ret = _bt_ctf_clock_set_offset_s(self._c, offset_s)
- if ret < 0:
- raise ValueError("Invalid offset value.")
+ @offset_seconds.setter
+ def offset_seconds(self, offset_s):
+ ret = _bt_ctf_clock_set_offset_s(self._c, offset_s)
+ if ret < 0:
+ raise ValueError("Invalid offset value.")
- """
+ """
Get the clock's offset in ticks from POSIX.1 Epoch + offset in seconds.
"""
- @property
- def offset(self):
- offset = _bt_ctf_clock_get_offset(self._c)
- if offset == CTFWriter._MAX_UINT64:
- raise ValueError("Invalid clock instance")
- return offset
+ @property
+ def offset(self):
+ offset = _bt_ctf_clock_get_offset(self._c)
+ if offset == CTFWriter._MAX_UINT64:
+ raise ValueError("Invalid clock instance")
+ return offset
- """
+ """
Set the clock's offset in ticks from POSIX.1 Epoch + offset in seconds.
"""
- @offset.setter
- def offset(self, offset):
- ret = _bt_ctf_clock_set_offset(self._c, offset)
- if ret < 0:
- raise ValueError("Invalid offset value.")
+ @offset.setter
+ def offset(self, offset):
+ ret = _bt_ctf_clock_set_offset(self._c, offset)
+ if ret < 0:
+ raise ValueError("Invalid offset value.")
- """
+ """
Get a clock's absolute attribute. A clock is absolute if the clock
is a global reference across the trace's other clocks.
"""
- @property
- def absolute(self):
- is_absolute = _bt_ctf_clock_get_is_absolute(self._c)
- if is_absolute == -1:
- raise ValueError("Invalid clock instance")
- return False if is_absolute == 0 else True
+ @property
+ def absolute(self):
+ is_absolute = _bt_ctf_clock_get_is_absolute(self._c)
+ if is_absolute == -1:
+ raise ValueError("Invalid clock instance")
+ return False if is_absolute == 0 else True
- """
+ """
Set a clock's absolute attribute. A clock is absolute if the clock
is a global reference across the trace's other clocks.
"""
- @absolute.setter
- def absolute(self, is_absolute):
- ret = _bt_ctf_clock_set_is_absolute(self._c, int(is_absolute))
- if ret < 0:
- raise ValueError("Could not set the clock's absolute attribute.")
+ @absolute.setter
+ def absolute(self, is_absolute):
+ ret = _bt_ctf_clock_set_is_absolute(self._c, int(is_absolute))
+ if ret < 0:
+ raise ValueError(
+ "Could not set the clock's absolute attribute.")
- """
+ """
Get a clock's UUID (an object of type UUID).
"""
- @property
- def uuid(self):
- uuid_list = []
- for i in range(16):
- ret, value = _bt_python_ctf_clock_get_uuid_index(self._c, i)
- if ret < 0:
- raise ValueError("Invalid clock instance")
- uuid_list.append(value)
- return uuid.UUID(bytes=bytes(uuid_list))
-
- """
+ @property
+ def uuid(self):
+ uuid_list = []
+ for i in range(16):
+ ret, value = _bt_python_ctf_clock_get_uuid_index(self._c, i)
+ if ret < 0:
+ raise ValueError("Invalid clock instance")
+ uuid_list.append(value)
+ return UUID(bytes=bytes(uuid_list))
+
+ """
Set a clock's UUID (an object of type UUID).
"""
- @uuid.setter
- def uuid(self, uuid):
- uuid_bytes = uuid.bytes
- if len(uuid_bytes) != 16:
- raise ValueError("Invalid UUID provided. UUID length must be 16 bytes")
- for i in range(len(uuid_bytes)):
- ret = _bt_python_ctf_clock_set_uuid_index(self._c, i, uuid_bytes[i])
- if ret < 0:
- raise ValueError("Invalid clock instance")
-
- """
+ @uuid.setter
+ def uuid(self, uuid):
+ uuid_bytes = uuid.bytes
+ if len(uuid_bytes) != 16:
+ raise ValueError(
+ "Invalid UUID provided. UUID length must be 16 bytes")
+ for i in range(len(uuid_bytes)):
+ ret = _bt_python_ctf_clock_set_uuid_index(
+ self._c,
+ i,
+ uuid_bytes[i])
+ if ret < 0:
+ raise ValueError("Invalid clock instance")
+
+ """
Get the current time in nanoseconds since the clock's origin (offset and
offset_s attributes).
"""
- @property
- def time(self):
- time = _bt_ctf_clock_get_time(self._c)
- if time == CTFWriter._MAX_UINT64:
- raise ValueError("Invalid clock instance")
- return time
+ @property
+ def time(self):
+ time = _bt_ctf_clock_get_time(self._c)
+ if time == CTFWriter._MAX_UINT64:
+ raise ValueError("Invalid clock instance")
+ return time
- """
+ """
Set the current time in nanoseconds since the clock's origin (offset and
offset_s attributes). The clock's value will be sampled as events are
appended to a stream.
"""
- @time.setter
- def time(self, time):
- ret = _bt_ctf_clock_set_time(self._c, time)
- if ret < 0:
- raise ValueError("Invalid time value.")
-
- class FieldDeclaration:
- """
- FieldDeclaration should not be instantiated directly. Instantiate
- one of the concrete FieldDeclaration classes.
- """
- class IntegerBase:
- # These values are based on the bt_ctf_integer_base enum
- # declared in event-types.h.
- INTEGER_BASE_UNKNOWN = -1
- INTEGER_BASE_BINARY = 2
- INTEGER_BASE_OCTAL = 8
- INTEGER_BASE_DECIMAL = 10
- INTEGER_BASE_HEXADECIMAL = 16
-
- def __init__(self):
- if self._ft is None:
- raise ValueError("FieldDeclaration creation failed.")
-
- def __del__(self):
- _bt_ctf_field_type_put(self._ft)
-
- @staticmethod
- def _create_field_declaration_from_native_instance(native_field_declaration):
- type_dict = {
- CTFTypeId.INTEGER : CTFWriter.IntegerFieldDeclaration,
- CTFTypeId.FLOAT : CTFWriter.FloatFieldDeclaration,
- CTFTypeId.ENUM : CTFWriter.EnumerationFieldDeclaration,
- CTFTypeId.STRING : CTFWriter.StringFieldDeclaration,
- CTFTypeId.STRUCT : CTFWriter.StructureFieldDeclaration,
- CTFTypeId.VARIANT : CTFWriter.VariantFieldDeclaration,
- CTFTypeId.ARRAY : CTFWriter.ArrayFieldDeclaration,
- CTFTypeId.SEQUENCE : CTFWriter.SequenceFieldDeclaration
- }
-
- field_type_id = _bt_ctf_field_type_get_type_id(native_field_declaration)
- if field_type_id == CTFTypeId.UNKNOWN:
- raise TypeError("Invalid field instance")
-
- declaration = CTFWriter.Field.__new__(CTFWriter.Field)
- declaration._ft = native_field_declaration
- declaration.__class__ = type_dict[field_type_id]
- return declaration
-
- """
+ @time.setter
+ def time(self, time):
+ ret = _bt_ctf_clock_set_time(self._c, time)
+ if ret < 0:
+ raise ValueError("Invalid time value.")
+
+ class FieldDeclaration:
+
+ """
+ FieldDeclaration should not be instantiated directly. Instantiate
+ one of the concrete FieldDeclaration classes.
+ """
+ class IntegerBase:
+ # These values are based on the bt_ctf_integer_base enum
+ # declared in event-types.h.
+ INTEGER_BASE_UNKNOWN = -1
+ INTEGER_BASE_BINARY = 2
+ INTEGER_BASE_OCTAL = 8
+ INTEGER_BASE_DECIMAL = 10
+ INTEGER_BASE_HEXADECIMAL = 16
+
+ def __init__(self):
+ if self._ft is None:
+ raise ValueError("FieldDeclaration creation failed.")
+
+ def __del__(self):
+ _bt_ctf_field_type_put(self._ft)
+
+ @staticmethod
+ def _create_field_declaration_from_native_instance(
+ native_field_declaration):
+ type_dict = {
+ CTFTypeId.INTEGER: CTFWriter.IntegerFieldDeclaration,
+ CTFTypeId.FLOAT: CTFWriter.FloatFieldDeclaration,
+ CTFTypeId.ENUM: CTFWriter.EnumerationFieldDeclaration,
+ CTFTypeId.STRING: CTFWriter.StringFieldDeclaration,
+ CTFTypeId.STRUCT: CTFWriter.StructureFieldDeclaration,
+ CTFTypeId.VARIANT: CTFWriter.VariantFieldDeclaration,
+ CTFTypeId.ARRAY: CTFWriter.ArrayFieldDeclaration,
+ CTFTypeId.SEQUENCE: CTFWriter.SequenceFieldDeclaration
+ }
+
+ field_type_id = _bt_ctf_field_type_get_type_id(
+ native_field_declaration)
+ if field_type_id == CTFTypeId.UNKNOWN:
+ raise TypeError("Invalid field instance")
+
+ declaration = CTFWriter.Field.__new__(CTFWriter.Field)
+ declaration._ft = native_field_declaration
+ declaration.__class__ = type_dict[field_type_id]
+ return declaration
+
+ """
Get the field declaration's alignment. Returns -1 on error.
"""
- @property
- def alignment(self):
- return _bt_ctf_field_type_get_alignment(self._ft)
+ @property
+ def alignment(self):
+ return _bt_ctf_field_type_get_alignment(self._ft)
- """
+ """
Set the field declaration's alignment. Defaults to 1 (bit-aligned). However,
some types, such as structures and string, may impose other alignment
constraints.
"""
- @alignment.setter
- def alignment(self, alignment):
- ret = _bt_ctf_field_type_set_alignment(self._ft, alignment)
- if ret < 0:
- raise ValueError("Invalid alignment value.")
+ @alignment.setter
+ def alignment(self, alignment):
+ ret = _bt_ctf_field_type_set_alignment(self._ft, alignment)
+ if ret < 0:
+ raise ValueError("Invalid alignment value.")
- """
+ """
Get the field declaration's byte order. One of the ByteOrder's constant.
"""
- @property
- def byte_order(self):
- return _bt_ctf_field_type_get_byte_order(self._ft)
+ @property
+ def byte_order(self):
+ return _bt_ctf_field_type_get_byte_order(self._ft)
- """
+ """
Set the field declaration's byte order. Use constants defined in the ByteOrder
class.
"""
- @byte_order.setter
- def byte_order(self, byte_order):
- ret = _bt_ctf_field_type_set_byte_order(self._ft, byte_order)
- if ret < 0:
- raise ValueError("Could not set byte order value.")
+ @byte_order.setter
+ def byte_order(self, byte_order):
+ ret = _bt_ctf_field_type_set_byte_order(self._ft, byte_order)
+ if ret < 0:
+ raise ValueError("Could not set byte order value.")
- class IntegerFieldDeclaration(FieldDeclaration):
- """
- Create a new integer field declaration of the given size.
- """
- def __init__(self, size):
- self._ft = _bt_ctf_field_type_integer_create(size)
- super().__init__()
+ class IntegerFieldDeclaration(FieldDeclaration):
- """
+ """
+ Create a new integer field declaration of the given size.
+ """
+
+ def __init__(self, size):
+ self._ft = _bt_ctf_field_type_integer_create(size)
+ super().__init__()
+
+ """
Get an integer's size.
"""
- @property
- def size(self):
- ret = _bt_ctf_field_type_integer_get_size(self._ft)
- if ret < 0:
- raise ValueError("Could not get Integer's size attribute.")
- else:
- return ret
+ @property
+ def size(self):
+ ret = _bt_ctf_field_type_integer_get_size(self._ft)
+ if ret < 0:
+ raise ValueError("Could not get Integer's size attribute.")
+ else:
+ return ret
- """
+ """
Get an integer's signedness attribute.
"""
- @property
- def signed(self):
- ret = _bt_ctf_field_type_integer_get_signed(self._ft)
- if ret < 0:
- raise ValueError("Could not get Integer's signed attribute.")
- elif ret > 0:
- return True
- else:
- return False
-
- """
+ @property
+ def signed(self):
+ ret = _bt_ctf_field_type_integer_get_signed(self._ft)
+ if ret < 0:
+ raise ValueError("Could not get Integer's signed attribute.")
+ elif ret > 0:
+ return True
+ else:
+ return False
+
+ """
Set an integer's signedness attribute.
"""
- @signed.setter
- def signed(self, signed):
- ret = _bt_ctf_field_type_integer_set_signed(self._ft, signed)
- if ret < 0:
- raise ValueError("Could not set Integer's signed attribute.")
+ @signed.setter
+ def signed(self, signed):
+ ret = _bt_ctf_field_type_integer_set_signed(self._ft, signed)
+ if ret < 0:
+ raise ValueError("Could not set Integer's signed attribute.")
- """
+ """
Get the integer's base used to pretty-print the resulting trace.
Returns a constant from the FieldDeclaration.IntegerBase class.
"""
- @property
- def base(self):
- return _bt_ctf_field_type_integer_get_base(self._ft)
+ @property
+ def base(self):
+ return _bt_ctf_field_type_integer_get_base(self._ft)
- """
+ """
Set the integer's base used to pretty-print the resulting trace.
The base must be a constant of the FieldDeclarationIntegerBase class.
"""
- @base.setter
- def base(self, base):
- ret = _bt_ctf_field_type_integer_set_base(self._ft, base)
- if ret < 0:
- raise ValueError("Could not set Integer's base.")
+ @base.setter
+ def base(self, base):
+ ret = _bt_ctf_field_type_integer_set_base(self._ft, base)
+ if ret < 0:
+ raise ValueError("Could not set Integer's base.")
- """
+ """
Get the integer's encoding (one of the constants of the
CTFStringEncoding class).
Returns a constant from the CTFStringEncoding class.
"""
- @property
- def encoding(self):
- return _bt_ctf_field_type_integer_get_encoding(self._ft)
+ @property
+ def encoding(self):
+ return _bt_ctf_field_type_integer_get_encoding(self._ft)
- """
+ """
An integer encoding may be set to signal that the integer must be printed
as a text character. Must be a constant from the CTFStringEncoding class.
"""
- @encoding.setter
- def encoding(self, encoding):
- ret = _bt_ctf_field_type_integer_set_encoding(self._ft, encoding)
- if ret < 0:
- raise ValueError("Could not set Integer's encoding.")
+ @encoding.setter
+ def encoding(self, encoding):
+ ret = _bt_ctf_field_type_integer_set_encoding(self._ft, encoding)
+ if ret < 0:
+ raise ValueError("Could not set Integer's encoding.")
- class EnumerationFieldDeclaration(FieldDeclaration):
- """
- Create a new enumeration field declaration with the given underlying container type.
- """
- def __init__(self, integer_type):
- if integer_type is None or not isinstance(integer_type, CTFWriter.IntegerFieldDeclaration):
- raise TypeError("Invalid integer container.")
+ class EnumerationFieldDeclaration(FieldDeclaration):
- self._ft = _bt_ctf_field_type_enumeration_create(integer_type._ft)
- super().__init__()
+ """
+ Create a new enumeration field declaration with the given underlying container type.
+ """
- """
+ def __init__(self, integer_type):
+ if integer_type is None or not isinstance(
+ integer_type, CTFWriter.IntegerFieldDeclaration):
+ raise TypeError("Invalid integer container.")
+
+ self._ft = _bt_ctf_field_type_enumeration_create(integer_type._ft)
+ super().__init__()
+
+ """
Get the enumeration's underlying container type.
"""
- @property
- def container(self):
- ret = _bt_ctf_field_type_enumeration_get_container_type(self._ft)
- if ret is None:
- raise TypeError("Invalid enumeration declaration")
- return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(ret)
+ @property
+ def container(self):
+ ret = _bt_ctf_field_type_enumeration_get_container_type(self._ft)
+ if ret is None:
+ raise TypeError("Invalid enumeration declaration")
+ return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(
+ ret)
- """
+ """
Add a mapping to the enumeration. The range's values are inclusive.
"""
- def add_mapping(self, name, range_start, range_end):
- if range_start < 0 or range_end < 0:
- ret = _bt_ctf_field_type_enumeration_add_mapping(self._ft, str(name), range_start, range_end)
- else:
- ret = _bt_ctf_field_type_enumeration_add_mapping_unsigned(self._ft, str(name), range_start, range_end)
- if ret < 0:
- raise ValueError("Could not add mapping to enumeration declaration.")
-
- """
+ def add_mapping(self, name, range_start, range_end):
+ if range_start < 0 or range_end < 0:
+ ret = _bt_ctf_field_type_enumeration_add_mapping(
+ self._ft,
+ str(name),
+ range_start,
+ range_end)
+ else:
+ ret = _bt_ctf_field_type_enumeration_add_mapping_unsigned(
+ self._ft,
+ str(name),
+ range_start,
+ range_end)
+
+ if ret < 0:
+ raise ValueError(
+ "Could not add mapping to enumeration declaration.")
+
+ """
Generator returning instances of EnumerationMapping.
"""
- @property
- def mappings(self):
- signed = self.container.signed
-
- count = _bt_ctf_field_type_enumeration_get_mapping_count(self._ft)
- for i in range(count):
- if signed:
- ret = _bt_python_ctf_field_type_enumeration_get_mapping(self._ft, i)
- else:
- ret = _bt_python_ctf_field_type_enumeration_get_mapping_unsigned(self._ft, i)
-
- if len(ret) != 3:
- raise TypeError("Could not get Enumeration mapping at index {}".format(i))
- name, range_start, range_end = ret
- yield CTFWriter.EnumerationMapping(name, range_start, range_end)
-
- """
+ @property
+ def mappings(self):
+ signed = self.container.signed
+
+ count = _bt_ctf_field_type_enumeration_get_mapping_count(self._ft)
+ for i in range(count):
+ if signed:
+ ret = _bt_python_ctf_field_type_enumeration_get_mapping(
+ self._ft,
+ i)
+ else:
+ ret = _bt_python_ctf_field_type_enumeration_get_mapping_unsigned(
+ self._ft,
+ i)
+
+ if len(ret) != 3:
+ raise TypeError(
+ "Could not get Enumeration mapping at index {}".format(i))
+ name, range_start, range_end = ret
+ yield CTFWriter.EnumerationMapping(name, range_start, range_end)
+
+ """
Get a mapping by name (EnumerationMapping).
"""
- def get_mapping_by_name(self, name):
- ret, index = _bt_ctf_field_type_enumeration_get_mapping_index_by_name(self._ft, name);
- if ret < 0:
- return None
- if self.container.signed:
- ret = _bt_python_ctf_field_type_enumeration_get_mapping(self._ft, index)
- else:
- ret = _bt_python_ctf_field_type_enumeration_get_mapping_unsigned(self._ft, index)
-
- if len(ret) != 3:
- raise TypeError("Could not get Enumeration mapping at index {}".format(i))
- name, range_start, range_end = ret
- return CTFWriter.EnumerationMapping(name, range_start, range_end)
-
- """
+ def get_mapping_by_name(self, name):
+ ret, index = _bt_ctf_field_type_enumeration_get_mapping_index_by_name(
+ self._ft, name)
+ if ret < 0:
+ return None
+
+ if self.container.signed:
+ ret = _bt_python_ctf_field_type_enumeration_get_mapping(
+ self._ft,
+ index)
+ else:
+ ret = _bt_python_ctf_field_type_enumeration_get_mapping_unsigned(
+ self._ft,
+ index)
+
+ if len(ret) != 3:
+ raise TypeError(
+ "Could not get Enumeration mapping at index {}".format(i))
+ name, range_start, range_end = ret
+ return CTFWriter.EnumerationMapping(name, range_start, range_end)
+
+ """
Get a mapping by value (EnumerationMapping).
"""
- def get_mapping_by_value(self, value):
- if value < 0:
- ret, index = _bt_ctf_field_type_enumeration_get_mapping_index_by_value(self._ft, value);
- else:
- ret, index = _bt_ctf_field_type_enumeration_get_mapping_index_by_unsigned_value(self._ft, value);
- if ret < 0:
- return None
-
- if self.container.signed:
- ret = _bt_python_ctf_field_type_enumeration_get_mapping(self._ft, index)
- else:
- ret = _bt_python_ctf_field_type_enumeration_get_mapping_unsigned(self._ft, index)
-
- if len(ret) != 3:
- raise TypeError("Could not get Enumeration mapping at index {}".format(i))
- name, range_start, range_end = ret
- return CTFWriter.EnumerationMapping(name, range_start, range_end)
-
- class FloatFieldDeclaration(FieldDeclaration):
- FLT_EXP_DIG = 8
- DBL_EXP_DIG = 11
- FLT_MANT_DIG = 24
- DBL_MANT_DIG = 53
-
- """
+ def get_mapping_by_value(self, value):
+ if value < 0:
+ ret, index = _bt_ctf_field_type_enumeration_get_mapping_index_by_value(
+ self._ft, value)
+ else:
+ ret, index = _bt_ctf_field_type_enumeration_get_mapping_index_by_unsigned_value(
+ self._ft, value)
+
+ if ret < 0:
+ return None
+
+ if self.container.signed:
+ ret = _bt_python_ctf_field_type_enumeration_get_mapping(
+ self._ft,
+ index)
+ else:
+ ret = _bt_python_ctf_field_type_enumeration_get_mapping_unsigned(
+ self._ft,
+ index)
+
+ if len(ret) != 3:
+ raise TypeError(
+ "Could not get Enumeration mapping at index {}".format(i))
+ name, range_start, range_end = ret
+ return CTFWriter.EnumerationMapping(name, range_start, range_end)
+
+ class FloatFieldDeclaration(FieldDeclaration):
+ FLT_EXP_DIG = 8
+ DBL_EXP_DIG = 11
+ FLT_MANT_DIG = 24
+ DBL_MANT_DIG = 53
+
+ """
Create a new floating point field declaration.
"""
- def __init__(self):
- self._ft = _bt_ctf_field_type_floating_point_create()
- super().__init__()
- """
+ def __init__(self):
+ self._ft = _bt_ctf_field_type_floating_point_create()
+ super().__init__()
+
+ """
Get the number of exponent digits used to store the floating point field.
"""
- @property
- def exponent_digits(self):
- ret = _bt_ctf_field_type_floating_point_get_exponent_digits(self._ft)
- if ret < 0:
- raise TypeError("Could not get Floating point exponent digit count")
- return ret
+ @property
+ def exponent_digits(self):
+ ret = _bt_ctf_field_type_floating_point_get_exponent_digits(
+ self._ft)
+ if ret < 0:
+ raise TypeError(
+ "Could not get Floating point exponent digit count")
+ return ret
- """
+ """
Set the number of exponent digits to use to store the floating point field.
The only values currently supported are FLT_EXP_DIG and DBL_EXP_DIG which
are defined as constants of this class.
"""
- @exponent_digits.setter
- def exponent_digits(self, exponent_digits):
- ret = _bt_ctf_field_type_floating_point_set_exponent_digits(self._ft, exponent_digits)
- if ret < 0:
- raise ValueError("Could not set exponent digit count.")
+ @exponent_digits.setter
+ def exponent_digits(self, exponent_digits):
+ ret = _bt_ctf_field_type_floating_point_set_exponent_digits(
+ self._ft,
+ exponent_digits)
+ if ret < 0:
+ raise ValueError("Could not set exponent digit count.")
- """
+ """
Get the number of mantissa digits used to store the floating point field.
"""
- @property
- def mantissa_digits(self):
- ret = _bt_ctf_field_type_floating_point_get_mantissa_digits(self._ft)
- if ret < 0:
- raise TypeError("Could not get Floating point mantissa digit count")
- return ret
+ @property
+ def mantissa_digits(self):
+ ret = _bt_ctf_field_type_floating_point_get_mantissa_digits(
+ self._ft)
+ if ret < 0:
+ raise TypeError(
+ "Could not get Floating point mantissa digit count")
+ return ret
- """
+ """
Set the number of mantissa digits to use to store the floating point field.
The only values currently supported are FLT_MANT_DIG and DBL_MANT_DIG which
are defined as constants of this class.
"""
- @mantissa_digits.setter
- def mantissa_digits(self, mantissa_digits):
- ret = _bt_ctf_field_type_floating_point_set_mantissa_digits(self._ft, mantissa_digits)
- if ret < 0:
- raise ValueError("Could not set mantissa digit count.")
+ @mantissa_digits.setter
+ def mantissa_digits(self, mantissa_digits):
+ ret = _bt_ctf_field_type_floating_point_set_mantissa_digits(
+ self._ft,
+ mantissa_digits)
+ if ret < 0:
+ raise ValueError("Could not set mantissa digit count.")
- class StructureFieldDeclaration(FieldDeclaration):
- """
- Create a new structure field declaration.
- """
- def __init__(self):
- self._ft = _bt_ctf_field_type_structure_create()
- super().__init__()
+ class StructureFieldDeclaration(FieldDeclaration):
- """
+ """
+ Create a new structure field declaration.
+ """
+
+ def __init__(self):
+ self._ft = _bt_ctf_field_type_structure_create()
+ super().__init__()
+
+ """
Add a field of type "field_type" to the structure.
"""
- def add_field(self, field_type, field_name):
- ret = _bt_ctf_field_type_structure_add_field(self._ft, field_type._ft, str(field_name))
- if ret < 0:
- raise ValueError("Could not add field to structure.")
- """
+ def add_field(self, field_type, field_name):
+ ret = _bt_ctf_field_type_structure_add_field(
+ self._ft,
+ field_type._ft,
+ str(field_name))
+ if ret < 0:
+ raise ValueError("Could not add field to structure.")
+
+ """
Generator returning the structure's field as tuples of (field name, field declaration).
"""
- @property
- def fields(self):
- count = _bt_ctf_field_type_structure_get_field_count(self._ft)
- if count < 0:
- raise TypeError("Could not get Structure field count")
-
- for i in range(count):
- field_name = _bt_python_ctf_field_type_structure_get_field_name(self._ft, i)
- if field_name is None:
- raise TypeError("Could not get Structure field name at index {}".format(i))
+ @property
+ def fields(self):
+ count = _bt_ctf_field_type_structure_get_field_count(self._ft)
+ if count < 0:
+ raise TypeError("Could not get Structure field count")
+
+ for i in range(count):
+ field_name = _bt_python_ctf_field_type_structure_get_field_name(
+ self._ft,
+ i)
+ if field_name is None:
+ raise TypeError(
+ "Could not get Structure field name at index {}".format(i))
+
+ field_type_native = _bt_python_ctf_field_type_structure_get_field_type(
+ self._ft,
+ i)
+ if field_type_native is None:
+ raise TypeError(
+ "Could not get Structure field type at index {}".format(i))
+
+ field_type = CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(
+ field_type_native)
+ yield (field_name, field_type)
+
+ """
+ Get a field declaration by name (FieldDeclaration).
+ """
- field_type_native = _bt_python_ctf_field_type_structure_get_field_type(self._ft, i)
- if field_type_native is None:
- raise TypeError("Could not get Structure field type at index {}".format(i))
+ def get_field_by_name(self, name):
+ field_type_native = _bt_ctf_field_type_structure_get_field_type_by_name(
+ self._ft,
+ name)
+ if field_type_native is None:
+ raise TypeError(
+ "Could not find Structure field with name {}".format(name))
- field_type = CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(field_type_native)
- yield (field_name, field_type)
+ return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(
+ field_type_native)
- """
- Get a field declaration by name (FieldDeclaration).
- """
- def get_field_by_name(self, name):
- field_type_native = _bt_ctf_field_type_structure_get_field_type_by_name(self._ft, name)
- if field_type_native is None:
- raise TypeError("Could not find Structure field with name {}".format(name))
+ class VariantFieldDeclaration(FieldDeclaration):
- return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(field_type_native)
+ """
+ Create a new variant field declaration.
+ """
- class VariantFieldDeclaration(FieldDeclaration):
- """
- Create a new variant field declaration.
- """
- def __init__(self, enum_tag, tag_name):
- if enum_tag is None or not isinstance(enum_tag, CTFWriter.EnumerationFieldDeclaration):
- raise TypeError("Invalid tag type; must be of type EnumerationFieldDeclaration.")
+ def __init__(self, enum_tag, tag_name):
+ if enum_tag is None or not isinstance(
+ enum_tag, CTFWriter.EnumerationFieldDeclaration):
+ raise TypeError(
+ "Invalid tag type; must be of type EnumerationFieldDeclaration.")
- self._ft = _bt_ctf_field_type_variant_create(enum_tag._ft, str(tag_name))
- super().__init__()
+ self._ft = _bt_ctf_field_type_variant_create(
+ enum_tag._ft,
+ str(tag_name))
+ super().__init__()
- """
+ """
Get the variant's tag name.
"""
- @property
- def tag_name(self):
- ret = _bt_ctf_field_type_variant_get_tag_name(self._ft)
- if ret is None:
- raise TypeError("Could not get Variant tag name")
- return ret
+ @property
+ def tag_name(self):
+ ret = _bt_ctf_field_type_variant_get_tag_name(self._ft)
+ if ret is None:
+ raise TypeError("Could not get Variant tag name")
+ return ret
- """
+ """
Get the variant's tag type.
"""
- @property
- def tag_type(self):
- ret = _bt_ctf_field_type_variant_get_tag_type(self._ft)
- if ret is None:
- raise TypeError("Could not get Variant tag type")
- return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(ret)
+ @property
+ def tag_type(self):
+ ret = _bt_ctf_field_type_variant_get_tag_type(self._ft)
+ if ret is None:
+ raise TypeError("Could not get Variant tag type")
+ return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(
+ ret)
- """
+ """
Add a field of type "field_type" to the variant.
"""
- def add_field(self, field_type, field_name):
- ret = _bt_ctf_field_type_variant_add_field(self._ft, field_type._ft, str(field_name))
- if ret < 0:
- raise ValueError("Could not add field to variant.")
-
- """
- Generator returning the variant's field as tuples of (field name, field declaration).
- """
- @property
- def fields(self):
- count = _bt_ctf_field_type_variant_get_field_count(self._ft)
- if count < 0:
- raise TypeError("Could not get Variant field count")
-
- for i in range(count):
- field_name = _bt_python_ctf_field_type_variant_get_field_name(self._ft, i)
- if field_name is None:
- raise TypeError("Could not get Variant field name at index {}".format(i))
- field_type_native = _bt_python_ctf_field_type_variant_get_field_type(self._ft, i)
- if field_type_native is None:
- raise TypeError("Could not get Variant field type at index {}".format(i))
-
- field_type = CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(field_type_native)
- yield (field_name, field_type)
+ def add_field(self, field_type, field_name):
+ ret = _bt_ctf_field_type_variant_add_field(
+ self._ft,
+ field_type._ft,
+ str(field_name))
+ if ret < 0:
+ raise ValueError("Could not add field to variant.")
+ """
+ Generator returning the variant's field as tuples of (field name, field declaration).
"""
+ @property
+ def fields(self):
+ count = _bt_ctf_field_type_variant_get_field_count(self._ft)
+ if count < 0:
+ raise TypeError("Could not get Variant field count")
+
+ for i in range(count):
+ field_name = _bt_python_ctf_field_type_variant_get_field_name(
+ self._ft,
+ i)
+ if field_name is None:
+ raise TypeError(
+ "Could not get Variant field name at index {}".format(i))
+
+ field_type_native = _bt_python_ctf_field_type_variant_get_field_type(
+ self._ft,
+ i)
+ if field_type_native is None:
+ raise TypeError(
+ "Could not get Variant field type at index {}".format(i))
+
+ field_type = CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(
+ field_type_native)
+ yield (field_name, field_type)
+
+ """
Get a field declaration by name (FieldDeclaration).
"""
- def get_field_by_name(self, name):
- field_type_native = _bt_ctf_field_type_variant_get_field_type_by_name(self._ft, name)
- if field_type_native is None:
- raise TypeError("Could not find Variant field with name {}".format(name))
- return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(field_type_native)
+ def get_field_by_name(self, name):
+ field_type_native = _bt_ctf_field_type_variant_get_field_type_by_name(
+ self._ft,
+ name)
+ if field_type_native is None:
+ raise TypeError(
+ "Could not find Variant field with name {}".format(name))
- """
+ return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(
+ field_type_native)
+
+ """
Get a field declaration from tag (EnumerationField).
"""
- def get_field_from_tag(self, tag):
- field_type_native = _bt_ctf_field_type_variant_get_field_type_from_tag(self._ft, tag._f)
- if field_type_native is None:
- raise TypeError("Could not find Variant field with tag value {}".format(tag.value))
- return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(field_type_native)
+ def get_field_from_tag(self, tag):
+ field_type_native = _bt_ctf_field_type_variant_get_field_type_from_tag(
+ self._ft,
+ tag._f)
+ if field_type_native is None:
+ raise TypeError(
+ "Could not find Variant field with tag value {}".format(
+ tag.value))
- class ArrayFieldDeclaration(FieldDeclaration):
- """
- Create a new array field declaration.
- """
- def __init__(self, element_type, length):
- self._ft = _bt_ctf_field_type_array_create(element_type._ft, length)
- super().__init__()
+ return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(
+ field_type_native)
- """
+ class ArrayFieldDeclaration(FieldDeclaration):
+
+ """
+ Create a new array field declaration.
+ """
+
+ def __init__(self, element_type, length):
+ self._ft = _bt_ctf_field_type_array_create(
+ element_type._ft,
+ length)
+ super().__init__()
+
+ """
Get the array's element type.
"""
- @property
- def element_type(self):
- ret = _bt_ctf_field_type_array_get_element_type(self._ft)
- if ret is None:
- raise TypeError("Could not get Array element type")
- return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(ret)
+ @property
+ def element_type(self):
+ ret = _bt_ctf_field_type_array_get_element_type(self._ft)
+ if ret is None:
+ raise TypeError("Could not get Array element type")
+ return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(
+ ret)
- """
+ """
Get the array's length.
"""
- @property
- def length(self):
- ret = _bt_ctf_field_type_array_get_length(self._ft)
- if ret < 0:
- raise TypeError("Could not get Array length")
- return ret
+ @property
+ def length(self):
+ ret = _bt_ctf_field_type_array_get_length(self._ft)
+ if ret < 0:
+ raise TypeError("Could not get Array length")
+ return ret
- class SequenceFieldDeclaration(FieldDeclaration):
- """
- Create a new sequence field declaration.
- """
- def __init__(self, element_type, length_field_name):
- self._ft = _bt_ctf_field_type_sequence_create(element_type._ft, str(length_field_name))
- super().__init__()
+ class SequenceFieldDeclaration(FieldDeclaration):
- """
+ """
+ Create a new sequence field declaration.
+ """
+
+ def __init__(self, element_type, length_field_name):
+ self._ft = _bt_ctf_field_type_sequence_create(
+ element_type._ft,
+ str(length_field_name))
+ super().__init__()
+
+ """
Get the sequence's element type.
"""
- @property
- def element_type(self):
- ret = _bt_ctf_field_type_sequence_get_element_type(self._ft)
- if ret is None:
- raise TypeError("Could not get Sequence element type")
- return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(ret)
+ @property
+ def element_type(self):
+ ret = _bt_ctf_field_type_sequence_get_element_type(self._ft)
+ if ret is None:
+ raise TypeError("Could not get Sequence element type")
+ return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(
+ ret)
- """
+ """
Get the sequence's length field name.
"""
- @property
- def length_field_name(self):
- ret = _bt_ctf_field_type_sequence_get_length_field_name(self._ft)
- if ret is None:
- raise TypeError("Could not get Sequence length field name")
- return ret
+ @property
+ def length_field_name(self):
+ ret = _bt_ctf_field_type_sequence_get_length_field_name(self._ft)
+ if ret is None:
+ raise TypeError("Could not get Sequence length field name")
+ return ret
- class StringFieldDeclaration(FieldDeclaration):
- """
- Create a new string field declaration.
- """
- def __init__(self):
- self._ft = _bt_ctf_field_type_string_create()
- super().__init__()
+ class StringFieldDeclaration(FieldDeclaration):
- """
+ """
+ Create a new string field declaration.
+ """
+
+ def __init__(self):
+ self._ft = _bt_ctf_field_type_string_create()
+ super().__init__()
+
+ """
Get a string declaration's encoding (a constant from the CTFStringEncoding class).
"""
- @property
- def encoding(self):
- return _bt_ctf_field_type_string_get_encoding(self._ft)
+ @property
+ def encoding(self):
+ return _bt_ctf_field_type_string_get_encoding(self._ft)
- """
+ """
Set a string declaration's encoding. Must be a constant from the CTFStringEncoding class.
"""
- @encoding.setter
- def encoding(self, encoding):
- ret = _bt_ctf_field_type_string_set_encoding(self._ft, encoding)
- if ret < 0:
- raise ValueError("Could not set string encoding.")
+ @encoding.setter
+ def encoding(self, encoding):
+ ret = _bt_ctf_field_type_string_set_encoding(self._ft, encoding)
+ if ret < 0:
+ raise ValueError("Could not set string encoding.")
- """
+ """
Create an instance of a field.
"""
- @staticmethod
- def create_field(field_type):
- if field_type is None or not isinstance(field_type, CTFWriter.FieldDeclaration):
- raise TypeError("Invalid field_type. Type must be a FieldDeclaration-derived class.")
-
- if isinstance(field_type, CTFWriter.IntegerFieldDeclaration):
- return CTFWriter.IntegerField(field_type)
- elif isinstance(field_type, CTFWriter.EnumerationFieldDeclaration):
- return CTFWriter.EnumerationField(field_type)
- elif isinstance(field_type, CTFWriter.FloatFieldDeclaration):
- return CTFWriter.FloatFieldingPoint(field_type)
- elif isinstance(field_type, CTFWriter.StructureFieldDeclaration):
- return CTFWriter.StructureField(field_type)
- elif isinstance(field_type, CTFWriter.VariantFieldDeclaration):
- return CTFWriter.VariantField(field_type)
- elif isinstance(field_type, CTFWriter.ArrayFieldDeclaration):
- return CTFWriter.ArrayField(field_type)
- elif isinstance(field_type, CTFWriter.SequenceFieldDeclaration):
- return CTFWriter.SequenceField(field_type)
- elif isinstance(field_type, CTFWriter.StringFieldDeclaration):
- return CTFWriter.StringField(field_type)
-
- class Field:
- """
- Base class, do not instantiate.
- """
- def __init__(self, field_type):
- if not isinstance(field_type, CTFWriter.FieldDeclaration):
- raise TypeError("Invalid field_type argument.")
-
- self._f = _bt_ctf_field_create(field_type._ft)
- if self._f is None:
- raise ValueError("Field creation failed.")
-
- def __del__(self):
- _bt_ctf_field_put(self._f)
-
- @staticmethod
- def _create_field_from_native_instance(native_field_instance):
- type_dict = {
- CTFTypeId.INTEGER : CTFWriter.IntegerField,
- CTFTypeId.FLOAT : CTFWriter.FloatFieldingPoint,
- CTFTypeId.ENUM : CTFWriter.EnumerationField,
- CTFTypeId.STRING : CTFWriter.StringField,
- CTFTypeId.STRUCT : CTFWriter.StructureField,
- CTFTypeId.VARIANT : CTFWriter.VariantField,
- CTFTypeId.ARRAY : CTFWriter.ArrayField,
- CTFTypeId.SEQUENCE : CTFWriter.SequenceField
- }
-
- field_type = _bt_python_get_field_type(native_field_instance)
- if field_type == CTFTypeId.UNKNOWN:
- raise TypeError("Invalid field instance")
-
- field = CTFWriter.Field.__new__(CTFWriter.Field)
- field._f = native_field_instance
- field.__class__ = type_dict[field_type]
- return field
-
- @property
- def declaration(self):
- native_field_type = _bt_ctf_field_get_type(self._f)
- if native_field_type is None:
- raise TypeError("Invalid field instance")
- return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(native_field_type)
-
- class IntegerField(Field):
- """
- Get an integer field's value.
- """
- @property
- def value(self):
- signedness = _bt_python_field_integer_get_signedness(self._f)
- if signedness < 0:
- raise TypeError("Invalid integer instance.")
-
- if signedness == 0:
- ret, value = _bt_ctf_field_unsigned_integer_get_value(self._f)
- else:
- ret, value = _bt_ctf_field_signed_integer_get_value(self._f)
-
- if ret < 0:
- raise ValueError("Could not get integer field value.")
- return value
-
- """
+ @staticmethod
+ def create_field(field_type):
+ if field_type is None or not isinstance(
+ field_type, CTFWriter.FieldDeclaration):
+ raise TypeError(
+ "Invalid field_type. Type must be a FieldDeclaration-derived class.")
+
+ if isinstance(field_type, CTFWriter.IntegerFieldDeclaration):
+ return CTFWriter.IntegerField(field_type)
+ elif isinstance(field_type, CTFWriter.EnumerationFieldDeclaration):
+ return CTFWriter.EnumerationField(field_type)
+ elif isinstance(field_type, CTFWriter.FloatFieldDeclaration):
+ return CTFWriter.FloatFieldingPoint(field_type)
+ elif isinstance(field_type, CTFWriter.StructureFieldDeclaration):
+ return CTFWriter.StructureField(field_type)
+ elif isinstance(field_type, CTFWriter.VariantFieldDeclaration):
+ return CTFWriter.VariantField(field_type)
+ elif isinstance(field_type, CTFWriter.ArrayFieldDeclaration):
+ return CTFWriter.ArrayField(field_type)
+ elif isinstance(field_type, CTFWriter.SequenceFieldDeclaration):
+ return CTFWriter.SequenceField(field_type)
+ elif isinstance(field_type, CTFWriter.StringFieldDeclaration):
+ return CTFWriter.StringField(field_type)
+
+ class Field:
+
+ """
+ Base class, do not instantiate.
+ """
+
+ def __init__(self, field_type):
+ if not isinstance(field_type, CTFWriter.FieldDeclaration):
+ raise TypeError("Invalid field_type argument.")
+
+ self._f = _bt_ctf_field_create(field_type._ft)
+ if self._f is None:
+ raise ValueError("Field creation failed.")
+
+ def __del__(self):
+ _bt_ctf_field_put(self._f)
+
+ @staticmethod
+ def _create_field_from_native_instance(native_field_instance):
+ type_dict = {
+ CTFTypeId.INTEGER: CTFWriter.IntegerField,
+ CTFTypeId.FLOAT: CTFWriter.FloatFieldingPoint,
+ CTFTypeId.ENUM: CTFWriter.EnumerationField,
+ CTFTypeId.STRING: CTFWriter.StringField,
+ CTFTypeId.STRUCT: CTFWriter.StructureField,
+ CTFTypeId.VARIANT: CTFWriter.VariantField,
+ CTFTypeId.ARRAY: CTFWriter.ArrayField,
+ CTFTypeId.SEQUENCE: CTFWriter.SequenceField
+ }
+
+ field_type = _bt_python_get_field_type(native_field_instance)
+ if field_type == CTFTypeId.UNKNOWN:
+ raise TypeError("Invalid field instance")
+
+ field = CTFWriter.Field.__new__(CTFWriter.Field)
+ field._f = native_field_instance
+ field.__class__ = type_dict[field_type]
+ return field
+
+ @property
+ def declaration(self):
+ native_field_type = _bt_ctf_field_get_type(self._f)
+ if native_field_type is None:
+ raise TypeError("Invalid field instance")
+ return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(
+ native_field_type)
+
+ class IntegerField(Field):
+
+ """
+ Get an integer field's value.
+ """
+ @property
+ def value(self):
+ signedness = _bt_python_field_integer_get_signedness(self._f)
+ if signedness < 0:
+ raise TypeError("Invalid integer instance.")
+
+ if signedness == 0:
+ ret, value = _bt_ctf_field_unsigned_integer_get_value(self._f)
+ else:
+ ret, value = _bt_ctf_field_signed_integer_get_value(self._f)
+
+ if ret < 0:
+ raise ValueError("Could not get integer field value.")
+ return value
+
+ """
Set an integer field's value.
"""
- @value.setter
- def value(self, value):
- if not isinstance(value, int):
- raise TypeError("IntegerField's value must be an int")
-
- signedness = _bt_python_field_integer_get_signedness(self._f)
- if signedness < 0:
- raise TypeError("Invalid integer instance.")
-
- if signedness == 0:
- ret = _bt_ctf_field_unsigned_integer_set_value(self._f, value)
- else:
- ret = _bt_ctf_field_signed_integer_set_value(self._f, value)
-
- if ret < 0:
- raise ValueError("Could not set integer field value.")
-
- class EnumerationField(Field):
- """
- Return the enumeration's underlying container field (an integer field).
- """
- @property
- def container(self):
- container = CTFWriter.IntegerField.__new__(CTFWriter.IntegerField)
- container._f = _bt_ctf_field_enumeration_get_container(self._f)
- if container._f is None:
- raise TypeError("Invalid enumeration field type.")
- return container
-
- """
+ @value.setter
+ def value(self, value):
+ if not isinstance(value, int):
+ raise TypeError("IntegerField's value must be an int")
+
+ signedness = _bt_python_field_integer_get_signedness(self._f)
+ if signedness < 0:
+ raise TypeError("Invalid integer instance.")
+
+ if signedness == 0:
+ ret = _bt_ctf_field_unsigned_integer_set_value(self._f, value)
+ else:
+ ret = _bt_ctf_field_signed_integer_set_value(self._f, value)
+
+ if ret < 0:
+ raise ValueError("Could not set integer field value.")
+
+ class EnumerationField(Field):
+
+ """
+ Return the enumeration's underlying container field (an integer field).
+ """
+ @property
+ def container(self):
+ container = CTFWriter.IntegerField.__new__(CTFWriter.IntegerField)
+ container._f = _bt_ctf_field_enumeration_get_container(self._f)
+ if container._f is None:
+ raise TypeError("Invalid enumeration field type.")
+ return container
+
+ """
Get the enumeration field's mapping name.
"""
- @property
- def value(self):
- value = _bt_ctf_field_enumeration_get_mapping_name(self._f)
- if value is None:
- raise ValueError("Could not get enumeration's mapping name.")
- return value
+ @property
+ def value(self):
+ value = _bt_ctf_field_enumeration_get_mapping_name(self._f)
+ if value is None:
+ raise ValueError("Could not get enumeration's mapping name.")
+ return value
- """
+ """
Set the enumeration field's value. Must be an integer as mapping names
may be ambiguous.
"""
- @value.setter
- def value(self, value):
- if not isinstance(value, int):
- raise TypeError("EnumerationField value must be an int")
- self.container.value = value
-
- class FloatFieldingPoint(Field):
- """
- Get a floating point field's value.
- """
- @property
- def value(self):
- ret, value = _bt_ctf_field_floating_point_get_value(self._f)
- if ret < 0:
- raise ValueError("Could not get floating point field value.")
- return value
-
- """
+ @value.setter
+ def value(self, value):
+ if not isinstance(value, int):
+ raise TypeError("EnumerationField value must be an int")
+ self.container.value = value
+
+ class FloatFieldingPoint(Field):
+
+ """
+ Get a floating point field's value.
+ """
+ @property
+ def value(self):
+ ret, value = _bt_ctf_field_floating_point_get_value(self._f)
+ if ret < 0:
+ raise ValueError("Could not get floating point field value.")
+ return value
+
+ """
Set a floating point field's value.
"""
- @value.setter
- def value(self, value):
- if not isinstance(value, int) and not isinstance(value, float):
- raise TypeError("Value must be either a float or an int")
-
- ret = _bt_ctf_field_floating_point_set_value(self._f, float(value))
- if ret < 0:
- raise ValueError("Could not set floating point field value.")
-
- class StructureField(Field):
- """
- Get the structure's field corresponding to the provided field name.
- """
- def field(self, field_name):
- native_instance = _bt_ctf_field_structure_get_field(self._f, str(field_name))
- if native_instance is None:
- raise ValueError("Invalid field_name provided.")
- return CTFWriter.Field._create_field_from_native_instance(native_instance)
-
- class VariantField(Field):
+ @value.setter
+ def value(self, value):
+ if not isinstance(value, int) and not isinstance(value, float):
+ raise TypeError("Value must be either a float or an int")
+
+ ret = _bt_ctf_field_floating_point_set_value(self._f, float(value))
+ if ret < 0:
+ raise ValueError("Could not set floating point field value.")
+
+ class StructureField(Field):
+
+ """
+ Get the structure's field corresponding to the provided field name.
+ """
+
+ def field(self, field_name):
+ native_instance = _bt_ctf_field_structure_get_field(
+ self._f,
+ str(field_name))
+ if native_instance is None:
+ raise ValueError("Invalid field_name provided.")
+ return CTFWriter.Field._create_field_from_native_instance(
+ native_instance)
+
+ class VariantField(Field):
+
+ """
+ Return the variant's selected field. The "tag" field is the selector enum field.
+ """
+
+ def field(self, tag):
+ native_instance = _bt_ctf_field_variant_get_field(self._f, tag._f)
+ if native_instance is None:
+ raise ValueError("Invalid tag provided.")
+ return CTFWriter.Field._create_field_from_native_instance(
+ native_instance)
+
+ class ArrayField(Field):
+
+ """
+ Return the array's field at position "index".
+ """
+
+ def field(self, index):
+ native_instance = _bt_ctf_field_array_get_field(self._f, index)
+ if native_instance is None:
+ raise IndexError("Invalid index provided.")
+ return CTFWriter.Field._create_field_from_native_instance(
+ native_instance)
+
+ class SequenceField(Field):
+
+ """
+ Get the sequence's length field (IntegerField).
+ """
+ @property
+ def length(self):
+ native_instance = _bt_ctf_field_sequence_get_length(self._f)
+ if native_instance is None:
+ length = -1
+ return CTFWriter.Field._create_field_from_native_instance(
+ native_instance)
+
+ """
+ Set the sequence's length field (IntegerField).
"""
- Return the variant's selected field. The "tag" field is the selector enum field.
+ @length.setter
+ def length(self, length_field):
+ if not isinstance(length_field, CTFWriter.IntegerField):
+ raise TypeError("Invalid length field.")
+ if length_field.declaration.signed:
+ raise TypeError("Sequence field length must be unsigned")
+ ret = _bt_ctf_field_sequence_set_length(self._f, length_field._f)
+ if ret < 0:
+ raise ValueError("Could not set sequence length.")
+
+ """
+ Return the sequence's field at position "index".
"""
- def field(self, tag):
- native_instance = _bt_ctf_field_variant_get_field(self._f, tag._f)
- if native_instance is None:
- raise ValueError("Invalid tag provided.")
- return CTFWriter.Field._create_field_from_native_instance(native_instance)
- class ArrayField(Field):
- """
- Return the array's field at position "index".
- """
- def field(self, index):
- native_instance = _bt_ctf_field_array_get_field(self._f, index)
- if native_instance is None:
- raise IndexError("Invalid index provided.")
- return CTFWriter.Field._create_field_from_native_instance(native_instance)
+ def field(self, index):
+ native_instance = _bt_ctf_field_sequence_get_field(self._f, index)
+ if native_instance is None:
+ raise ValueError("Could not get sequence element at index.")
+ return CTFWriter.Field._create_field_from_native_instance(
+ native_instance)
- class SequenceField(Field):
- """
- Get the sequence's length field (IntegerField).
- """
- @property
- def length(self):
- native_instance = _bt_ctf_field_sequence_get_length(self._f)
- if native_instance is None:
- length = -1
- return CTFWriter.Field._create_field_from_native_instance(native_instance)
+ class StringField(Field):
- """
- Set the sequence's length field (IntegerField).
- """
- @length.setter
- def length(self, length_field):
- if not isinstance(length_field, CTFWriter.IntegerField):
- raise TypeError("Invalid length field.")
- if length_field.declaration.signed:
- raise TypeError("Sequence field length must be unsigned")
- ret = _bt_ctf_field_sequence_set_length(self._f, length_field._f)
- if ret < 0:
- raise ValueError("Could not set sequence length.")
+ """
+ Get a string field's value.
+ """
+ @property
+ def value(self):
+ return _bt_ctf_field_string_get_value(self._f)
+ """
+ Set a string field's value.
"""
- Return the sequence's field at position "index".
- """
- def field(self, index):
- native_instance = _bt_ctf_field_sequence_get_field(self._f, index)
- if native_instance is None:
- raise ValueError("Could not get sequence element at index.")
- return CTFWriter.Field._create_field_from_native_instance(native_instance)
+ @value.setter
+ def value(self, value):
+ ret = _bt_ctf_field_string_set_value(self._f, str(value))
+ if ret < 0:
+ raise ValueError("Could not set string field value.")
- class StringField(Field):
- """
- Get a string field's value.
- """
- @property
- def value(self):
- return _bt_ctf_field_string_get_value(self._f)
+ class EventClass:
- """
- Set a string field's value.
- """
- @value.setter
- def value(self, value):
- ret = _bt_ctf_field_string_set_value(self._f, str(value))
- if ret < 0:
- raise ValueError("Could not set string field value.")
+ """
+ Create a new event class of the given name.
+ """
- class EventClass:
- """
- Create a new event class of the given name.
- """
- def __init__(self, name):
- self._ec = _bt_ctf_event_class_create(name)
- if self._ec is None:
- raise ValueError("Event class creation failed.")
+ def __init__(self, name):
+ self._ec = _bt_ctf_event_class_create(name)
+ if self._ec is None:
+ raise ValueError("Event class creation failed.")
- def __del__(self):
- _bt_ctf_event_class_put(self._ec)
+ def __del__(self):
+ _bt_ctf_event_class_put(self._ec)
- """
+ """
Add a field of type "field_type" to the event class.
"""
- def add_field(self, field_type, field_name):
- ret = _bt_ctf_event_class_add_field(self._ec, field_type._ft, str(field_name))
- if ret < 0:
- raise ValueError("Could not add field to event class.")
- """
+ def add_field(self, field_type, field_name):
+ ret = _bt_ctf_event_class_add_field(
+ self._ec,
+ field_type._ft,
+ str(field_name))
+ if ret < 0:
+ raise ValueError("Could not add field to event class.")
+
+ """
Get the event class' name.
"""
- @property
- def name(self):
- name = _bt_ctf_event_class_get_name(self._ec)
- if name is None:
- raise TypeError("Could not get EventClass name")
- return name
+ @property
+ def name(self):
+ name = _bt_ctf_event_class_get_name(self._ec)
+ if name is None:
+ raise TypeError("Could not get EventClass name")
+ return name
- """
+ """
Get the event class' id. Returns a negative value if unset.
"""
- @property
- def id(self):
- id = _bt_ctf_event_class_get_id(self._ec)
- if id < 0:
- raise TypeError("Could not get EventClass id")
- return id
+ @property
+ def id(self):
+ id = _bt_ctf_event_class_get_id(self._ec)
+ if id < 0:
+ raise TypeError("Could not get EventClass id")
+ return id
- """
+ """
Set the event class' id. Throws a TypeError if the event class
is already registered to a stream class.
"""
- @id.setter
- def id(self, id):
- ret = _bt_ctf_event_class_set_id(self._ec, id)
- if ret < 0:
- raise TypeError("Can't change an Event Class's id after it has been assigned to a stream class")
+ @id.setter
+ def id(self, id):
+ ret = _bt_ctf_event_class_set_id(self._ec, id)
+ if ret < 0:
+ raise TypeError(
+ "Can't change an Event Class's id after it has been assigned to a stream class")
- """
+ """
Get the event class' stream class. Returns None if unset.
"""
- @property
- def stream_class(self):
- stream_class_native = _bt_ctf_event_class_get_stream_class(self._ec)
- if stream_class_native is None:
- return None
- stream_class = CTFWriter.StreamClass.__new__(CTFWriter.StreamClass)
- stream_class._sc = stream_class_native
- return stream_class
-
- """
+ @property
+ def stream_class(self):
+ stream_class_native = _bt_ctf_event_class_get_stream_class(
+ self._ec)
+ if stream_class_native is None:
+ return None
+ stream_class = CTFWriter.StreamClass.__new__(CTFWriter.StreamClass)
+ stream_class._sc = stream_class_native
+ return stream_class
+
+ """
Generator returning the event class' fields as tuples of (field name, field declaration).
"""
- @property
- def fields(self):
- count = _bt_ctf_event_class_get_field_count(self._ec)
- if count < 0:
- raise TypeError("Could not get EventClass' field count")
-
- for i in range(count):
- field_name = _bt_python_ctf_event_class_get_field_name(self._ec, i)
- if field_name is None:
- raise TypeError("Could not get EventClass' field name at index {}".format(i))
+ @property
+ def fields(self):
+ count = _bt_ctf_event_class_get_field_count(self._ec)
+ if count < 0:
+ raise TypeError("Could not get EventClass' field count")
+
+ for i in range(count):
+ field_name = _bt_python_ctf_event_class_get_field_name(
+ self._ec,
+ i)
+ if field_name is None:
+ raise TypeError(
+ "Could not get EventClass' field name at index {}".format(i))
+
+ field_type_native = _bt_python_ctf_event_class_get_field_type(
+ self._ec,
+ i)
+ if field_type_native is None:
+ raise TypeError(
+ "Could not get EventClass' field type at index {}".format(i))
+
+ field_type = CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(
+ field_type_native)
+ yield (field_name, field_type)
+
+ """
+ Get a field declaration by name (FieldDeclaration).
+ """
- field_type_native = _bt_python_ctf_event_class_get_field_type(self._ec, i)
- if field_type_native is None:
- raise TypeError("Could not get EventClass' field type at index {}".format(i))
+ def get_field_by_name(self, name):
+ field_type_native = _bt_ctf_event_class_get_field_by_name(
+ self._ec,
+ name)
+ if field_type_native is None:
+ raise TypeError(
+ "Could not find EventClass field with name {}".format(name))
+ return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(
+ field_type_native)
- field_type = CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(field_type_native)
- yield (field_name, field_type)
+ class Event:
- """
- Get a field declaration by name (FieldDeclaration).
- """
- def get_field_by_name(self, name):
- field_type_native = _bt_ctf_event_class_get_field_by_name(self._ec, name)
- if field_type_native is None:
- raise TypeError("Could not find EventClass field with name {}".format(name))
- return CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(field_type_native)
+ """
+ Create a new event of the given event class.
+ """
- class Event:
- """
- Create a new event of the given event class.
- """
- def __init__(self, event_class):
- if not isinstance(event_class, CTFWriter.EventClass):
- raise TypeError("Invalid event_class argument.")
+ def __init__(self, event_class):
+ if not isinstance(event_class, CTFWriter.EventClass):
+ raise TypeError("Invalid event_class argument.")
- self._e = _bt_ctf_event_create(event_class._ec)
- if self._e is None:
- raise ValueError("Event creation failed.")
+ self._e = _bt_ctf_event_create(event_class._ec)
+ if self._e is None:
+ raise ValueError("Event creation failed.")
- def __del__(self):
- _bt_ctf_event_put(self._e)
+ def __del__(self):
+ _bt_ctf_event_put(self._e)
- """
+ """
Get the event's class.
"""
- @property
- def event_class(self):
- event_class_native = _bt_ctf_event_get_class(self._e)
- if event_class_native is None:
- return None
- event_class = CTFWriter.EventClass.__new__(CTFWriter.EventClass)
- event_class._ec = event_class_native
- return event_class
+ @property
+ def event_class(self):
+ event_class_native = _bt_ctf_event_get_class(self._e)
+ if event_class_native is None:
+ return None
+ event_class = CTFWriter.EventClass.__new__(CTFWriter.EventClass)
+ event_class._ec = event_class_native
+ return event_class
- """
+ """
Get a clock from event. Returns None if the event's class
is not registered to a stream class.
"""
- def clock(self):
- clock_instance = _bt_ctf_event_get_clock(self._e)
- if clock_instance is None:
- return None
- clock = CTFWriter.Clock.__new__(CTFWriter.Clock)
- clock._c = clock_instance
- return clock
- """
+ def clock(self):
+ clock_instance = _bt_ctf_event_get_clock(self._e)
+ if clock_instance is None:
+ return None
+ clock = CTFWriter.Clock.__new__(CTFWriter.Clock)
+ clock._c = clock_instance
+ return clock
+
+ """
Get a field from event.
"""
- def payload(self, field_name):
- native_instance = _bt_ctf_event_get_payload(self._e, str(field_name))
- if native_instance is None:
- raise ValueError("Could not get event payload.")
- return CTFWriter.Field._create_field_from_native_instance(native_instance)
- """
+ def payload(self, field_name):
+ native_instance = _bt_ctf_event_get_payload(
+ self._e,
+ str(field_name))
+ if native_instance is None:
+ raise ValueError("Could not get event payload.")
+ return CTFWriter.Field._create_field_from_native_instance(
+ native_instance)
+
+ """
Set a manually created field as an event's payload.
"""
- def set_payload(self, field_name, value_field):
- if not isinstance(value, CTFWriter.Field):
- raise TypeError("Invalid value type.")
- ret = _bt_ctf_event_set_payload(self._e, str(field_name), value_field._f)
- if ret < 0:
- raise ValueError("Could not set event field payload.")
- class StreamClass:
- """
- Create a new stream class of the given name.
- """
- def __init__(self, name):
- self._sc = _bt_ctf_stream_class_create(name)
- if self._sc is None:
- raise ValueError("Stream class creation failed.")
+ def set_payload(self, field_name, value_field):
+ if not isinstance(value, CTFWriter.Field):
+ raise TypeError("Invalid value type.")
+ ret = _bt_ctf_event_set_payload(
+ self._e,
+ str(field_name),
+ value_field._f)
+ if ret < 0:
+ raise ValueError("Could not set event field payload.")
- def __del__(self):
- _bt_ctf_stream_class_put(self._sc)
+ class StreamClass:
- """
+ """
+ Create a new stream class of the given name.
+ """
+
+ def __init__(self, name):
+ self._sc = _bt_ctf_stream_class_create(name)
+ if self._sc is None:
+ raise ValueError("Stream class creation failed.")
+
+ def __del__(self):
+ _bt_ctf_stream_class_put(self._sc)
+
+ """
Get a stream class' name.
"""
- @property
- def name(self):
- name = _bt_ctf_stream_class_get_name(self._sc)
- if name is None:
- raise TypeError("Could not get StreamClass name")
- return name
+ @property
+ def name(self):
+ name = _bt_ctf_stream_class_get_name(self._sc)
+ if name is None:
+ raise TypeError("Could not get StreamClass name")
+ return name
- """
+ """
Get a stream class' clock.
"""
- @property
- def clock(self):
- clock_instance = _bt_ctf_stream_class_get_clock(self._sc)
- if clock_instance is None:
- return None
- clock = CTFWriter.Clock.__new__(CTFWriter.Clock)
- clock._c = clock_instance
- return clock
+ @property
+ def clock(self):
+ clock_instance = _bt_ctf_stream_class_get_clock(self._sc)
+ if clock_instance is None:
+ return None
+ clock = CTFWriter.Clock.__new__(CTFWriter.Clock)
+ clock._c = clock_instance
+ return clock
- """
+ """
Assign a clock to a stream class.
"""
- @clock.setter
- def clock(self, clock):
- if not isinstance(clock, CTFWriter.Clock):
- raise TypeError("Invalid clock type.")
+ @clock.setter
+ def clock(self, clock):
+ if not isinstance(clock, CTFWriter.Clock):
+ raise TypeError("Invalid clock type.")
- ret = _bt_ctf_stream_class_set_clock(self._sc, clock._c)
- if ret < 0:
- raise ValueError("Could not set stream class clock.")
+ ret = _bt_ctf_stream_class_set_clock(self._sc, clock._c)
+ if ret < 0:
+ raise ValueError("Could not set stream class clock.")
- """
+ """
Get a stream class' id.
"""
- @property
- def id(self):
- ret = _bt_ctf_stream_class_get_id(self._sc)
- if ret < 0:
- raise TypeError("Could not get StreamClass id")
- return ret
+ @property
+ def id(self):
+ ret = _bt_ctf_stream_class_get_id(self._sc)
+ if ret < 0:
+ raise TypeError("Could not get StreamClass id")
+ return ret
- """
+ """
Assign an id to a stream class.
"""
- @id.setter
- def id(self, id):
- ret = _bt_ctf_stream_class_set_id(self._sc, id)
- if ret < 0:
- raise TypeError("Could not set stream class id.")
+ @id.setter
+ def id(self, id):
+ ret = _bt_ctf_stream_class_set_id(self._sc, id)
+ if ret < 0:
+ raise TypeError("Could not set stream class id.")
- """
+ """
Generator returning the stream class' event classes.
"""
- @property
- def event_classes(self):
- count = _bt_ctf_stream_class_get_event_class_count(self._sc)
- if count < 0:
- raise TypeError("Could not get StreamClass' event class count")
-
- for i in range(count):
- event_class_native = _bt_ctf_stream_class_get_event_class(self._sc, i)
- if event_class_native is None:
- raise TypeError("Could not get StreamClass' event class at index {}".format(i))
-
- event_class = CTFWriter.EventClass.__new__(CTFWriter.EventClass)
- event_class._ec = event_class_native
- yield event_class
-
- """
+ @property
+ def event_classes(self):
+ count = _bt_ctf_stream_class_get_event_class_count(self._sc)
+ if count < 0:
+ raise TypeError("Could not get StreamClass' event class count")
+
+ for i in range(count):
+ event_class_native = _bt_ctf_stream_class_get_event_class(
+ self._sc,
+ i)
+ if event_class_native is None:
+ raise TypeError(
+ "Could not get StreamClass' event class at index {}".format(i))
+
+ event_class = CTFWriter.EventClass.__new__(
+ CTFWriter.EventClass)
+ event_class._ec = event_class_native
+ yield event_class
+
+ """
Add an event class to a stream class. New events can be added even after a
stream has been instantiated and events have been appended. However, a stream
will not accept events of a class that has not been added to the stream
class beforehand.
"""
- def add_event_class(self, event_class):
- if not isinstance(event_class, CTFWriter.EventClass):
- raise TypeError("Invalid event_class type.")
- ret = _bt_ctf_stream_class_add_event_class(self._sc, event_class._ec)
- if ret < 0:
- raise ValueError("Could not add event class.")
+ def add_event_class(self, event_class):
+ if not isinstance(event_class, CTFWriter.EventClass):
+ raise TypeError("Invalid event_class type.")
- """
- Get the StreamClass' packet context type (StructureFieldDeclaration)
- """
- @property
- def packet_context_type(self):
- field_type_native = _bt_ctf_stream_class_get_packet_context_type(self._sc)
- if field_type_native is None:
- raise ValueError("Invalid StreamClass")
- field_type = CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(field_type_native)
- return field_type
+ ret = _bt_ctf_stream_class_add_event_class(
+ self._sc,
+ event_class._ec)
+ if ret < 0:
+ raise ValueError("Could not add event class.")
+ """
+ Get the StreamClass' packet context type (StructureFieldDeclaration)
"""
+ @property
+ def packet_context_type(self):
+ field_type_native = _bt_ctf_stream_class_get_packet_context_type(
+ self._sc)
+ if field_type_native is None:
+ raise ValueError("Invalid StreamClass")
+ field_type = CTFWriter.FieldDeclaration._create_field_declaration_from_native_instance(
+ field_type_native)
+ return field_type
+
+ """
Set a StreamClass' packet context type. Must be of type
StructureFieldDeclaration.
"""
- @packet_context_type.setter
- def packet_context_type(self, field_type):
- if not isinstance(field_type, CTFWriter.StructureFieldDeclaration):
- raise TypeError("field_type argument must be of type StructureFieldDeclaration.")
- ret = _bt_ctf_stream_class_set_packet_context_type(self._sc, field_type._ft)
- if ret < 0:
- raise ValueError("Failed to set packet context type.")
+ @packet_context_type.setter
+ def packet_context_type(self, field_type):
+ if not isinstance(field_type, CTFWriter.StructureFieldDeclaration):
+ raise TypeError(
+ "field_type argument must be of type StructureFieldDeclaration.")
+ ret = _bt_ctf_stream_class_set_packet_context_type(
+ self._sc,
+ field_type._ft)
+ if ret < 0:
+ raise ValueError("Failed to set packet context type.")
- class Stream:
- """
- Create a stream of the given class.
- """
- def __init__(self, stream_class):
- if not isinstance(stream_class, CTFWriter.StreamClass):
- raise TypeError("Invalid stream_class argument must be of type StreamClass.")
+ class Stream:
- self._s = _bt_ctf_stream_create(stream_class._sc)
- if self._s is None:
- raise ValueError("Stream creation failed.")
+ """
+ Create a stream of the given class.
+ """
- def __del__(self):
- _bt_ctf_stream_put(self._s)
+ def __init__(self, stream_class):
+ if not isinstance(stream_class, CTFWriter.StreamClass):
+ raise TypeError(
+ "Invalid stream_class argument must be of type StreamClass.")
- """
+ self._s = _bt_ctf_stream_create(stream_class._sc)
+ if self._s is None:
+ raise ValueError("Stream creation failed.")
+
+ def __del__(self):
+ _bt_ctf_stream_put(self._s)
+
+ """
Get a stream's discarded event count.
"""
- @property
- def discarded_events(self):
- ret, count = _bt_ctf_stream_get_discarded_events_count(self._s)
- if ret < 0:
- raise ValueError("Could not get the stream's discarded events count")
- return count
+ @property
+ def discarded_events(self):
+ ret, count = _bt_ctf_stream_get_discarded_events_count(self._s)
+ if ret < 0:
+ raise ValueError(
+ "Could not get the stream's discarded events count")
+ return count
- """
+ """
Increase the current packet's discarded event count.
"""
- def append_discarded_events(self, event_count):
- _bt_ctf_stream_append_discarded_events(self._s, event_count)
- """
+ def append_discarded_events(self, event_count):
+ _bt_ctf_stream_append_discarded_events(self._s, event_count)
+
+ """
Append "event" to the stream's current packet. The stream's associated clock
will be sampled during this call. The event shall not be modified after
being appended to a stream.
"""
- def append_event(self, event):
- ret = _bt_ctf_stream_append_event(self._s, event._e)
- if ret < 0:
- raise ValueError("Could not append event to stream.")
- """
+ def append_event(self, event):
+ ret = _bt_ctf_stream_append_event(self._s, event._e)
+ if ret < 0:
+ raise ValueError("Could not append event to stream.")
+
+ """
Get a Stream's packet context field (a StructureField).
"""
- @property
- def packet_context(self):
- native_field = _bt_ctf_stream_get_packet_context(self._s)
- if native_field is None:
- raise ValueError("Invalid Stream.")
- return CTFWriter.Field._create_field_from_native_instance(native_field)
+ @property
+ def packet_context(self):
+ native_field = _bt_ctf_stream_get_packet_context(self._s)
+ if native_field is None:
+ raise ValueError("Invalid Stream.")
+ return CTFWriter.Field._create_field_from_native_instance(
+ native_field)
- """
+ """
Set a Stream's packet context field (must be a StructureField).
"""
- @packet_context.setter
- def packet_context(self, field):
- if not isinstance(field, CTFWriter.StructureField):
- raise TypeError("Argument field must be of type StructureField")
- ret = _bt_ctf_stream_set_packet_context(self._s, field._f)
- if ret < 0:
- raise ValueError("Invalid packet context field.")
+ @packet_context.setter
+ def packet_context(self, field):
+ if not isinstance(field, CTFWriter.StructureField):
+ raise TypeError(
+ "Argument field must be of type StructureField")
+ ret = _bt_ctf_stream_set_packet_context(self._s, field._f)
+ if ret < 0:
+ raise ValueError("Invalid packet context field.")
- """
+ """
The stream's current packet's events will be flushed to disk. Events
subsequently appended to the stream will be added to a new packet.
"""
- def flush(self):
- ret = _bt_ctf_stream_flush(self._s)
- if ret < 0:
- raise ValueError("Could not flush stream.")
- class Writer:
- """
- Create a new writer that will produce a trace in the given path.
- """
- def __init__(self, path):
- self._w = _bt_ctf_writer_create(path)
- if self._w is None:
- raise ValueError("Writer creation failed.")
+ def flush(self):
+ ret = _bt_ctf_stream_flush(self._s)
+ if ret < 0:
+ raise ValueError("Could not flush stream.")
- def __del__(self):
- _bt_ctf_writer_put(self._w)
+ class Writer:
- """
+ """
+ Create a new writer that will produce a trace in the given path.
+ """
+
+ def __init__(self, path):
+ self._w = _bt_ctf_writer_create(path)
+ if self._w is None:
+ raise ValueError("Writer creation failed.")
+
+ def __del__(self):
+ _bt_ctf_writer_put(self._w)
+
+ """
Create a new stream instance and register it to the writer.
"""
- def create_stream(self, stream_class):
- if not isinstance(stream_class, CTFWriter.StreamClass):
- raise TypeError("Invalid stream_class type.")
- stream = CTFWriter.Stream.__new__(CTFWriter.Stream)
- stream._s = _bt_ctf_writer_create_stream(self._w, stream_class._sc)
- return stream
+ def create_stream(self, stream_class):
+ if not isinstance(stream_class, CTFWriter.StreamClass):
+ raise TypeError("Invalid stream_class type.")
- """
+ stream = CTFWriter.Stream.__new__(CTFWriter.Stream)
+ stream._s = _bt_ctf_writer_create_stream(self._w, stream_class._sc)
+ return stream
+
+ """
Add an environment field to the trace.
"""
- def add_environment_field(self, name, value):
- ret = _bt_ctf_writer_add_environment_field(self._w, str(name), str(value))
- if ret < 0:
- raise ValueError("Could not add environment field to trace.")
- """
+ def add_environment_field(self, name, value):
+ ret = _bt_ctf_writer_add_environment_field(
+ self._w,
+ str(name),
+ str(value))
+ if ret < 0:
+ raise ValueError("Could not add environment field to trace.")
+
+ """
Add a clock to the trace. Clocks assigned to stream classes must be
registered to the writer.
"""
- def add_clock(self, clock):
- ret = _bt_ctf_writer_add_clock(self._w, clock._c)
- if ret < 0:
- raise ValueError("Could not add clock to Writer.")
- """
+ def add_clock(self, clock):
+ ret = _bt_ctf_writer_add_clock(self._w, clock._c)
+ if ret < 0:
+ raise ValueError("Could not add clock to Writer.")
+
+ """
Get the trace's TSDL meta-data.
"""
- @property
- def metadata(self):
- return _bt_ctf_writer_get_metadata_string(self._w)
+ @property
+ def metadata(self):
+ return _bt_ctf_writer_get_metadata_string(self._w)
- """
+ """
Flush the trace's metadata to the metadata file.
"""
- def flush_metadata(self):
- _bt_ctf_writer_flush_metadata(self._w)
- """
+ def flush_metadata(self):
+ _bt_ctf_writer_flush_metadata(self._w)
+
+ """
Get the trace's byte order. Must be a constant from the ByteOrder
class.
"""
- @property
- def byte_order(self):
- raise NotImplementedError("Getter not implemented.")
+ @property
+ def byte_order(self):
+ raise NotImplementedError("Getter not implemented.")
- """
+ """
Set the trace's byte order. Must be a constant from the ByteOrder
class. Defaults to BYTE_ORDER_NATIVE, the host machine's endianness.
"""
- @byte_order.setter
- def byte_order(self, byte_order):
- ret = _bt_ctf_writer_set_byte_order(self._w, byte_order)
- if ret < 0:
- raise ValueError("Could not set trace's byte order.")
+ @byte_order.setter
+ def byte_order(self, byte_order):
+ ret = _bt_ctf_writer_set_byte_order(self._w, byte_order)
+ if ret < 0:
+ raise ValueError("Could not set trace's byte order.")
%}