4 # Babeltrace CTF Writer example script.
6 # Copyright 2013 EfficiOS Inc.
8 # Author: Jérémie Galarneau <jeremie.galarneau@efficios.com>
10 # Permission is hereby granted, free of charge, to any person obtaining a copy
11 # of this software and associated documentation files (the "Software"), to deal
12 # in the Software without restriction, including without limitation the rights
13 # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
14 # copies of the Software, and to permit persons to whom the Software is
15 # furnished to do so, subject to the following conditions:
17 # The above copyright notice and this permission notice shall be included in
18 # all copies or substantial portions of the Software.
22 from babeltrace
import *
24 trace_path
= tempfile
.mkdtemp()
26 print("Writing trace at {}".format(trace_path
))
27 writer
= CTFWriter
.Writer(trace_path
)
29 clock
= CTFWriter
.Clock("A_clock")
30 print("Clock name is \"{}\"".format(clock
.name
))
31 clock
.description
= "Simple clock"
32 print("Clock description is \"{}\"".format(clock
.description
))
33 print("Clock frequency is {}".format(clock
.frequency
))
34 print("Clock precision is {}".format(clock
.precision
))
35 print("Clock offset_seconds is {}".format(clock
.offset_seconds
))
36 print("Clock offset is {}".format(clock
.offset
))
37 print("Clock is absolute: {}".format(clock
.absolute
))
38 print("Clock time is {}".format(clock
.time
))
40 writer
.add_clock(clock
)
41 writer
.add_environment_field("Python_version", str(sys
.version_info
))
43 stream_class
= CTFWriter
.StreamClass("test_stream")
44 stream_class
.clock
= clock
46 event_class
= CTFWriter
.EventClass("SimpleEvent")
48 # Create a int32_t equivalent type
49 int32_type
= CTFWriter
.IntegerFieldDeclaration(32)
50 int32_type
.signed
= True
52 # Create a uint16_t equivalent type
53 uint16_type
= CTFWriter
.IntegerFieldDeclaration(16)
54 uint16_type
.signed
= False
56 # Create a string type
57 string_type
= CTFWriter
.StringFieldDeclaration()
59 # Create a structure type containing both an integer and a string
60 structure_type
= CTFWriter
.StructureFieldDeclaration()
61 structure_type
.add_field(int32_type
, "an_integer")
62 structure_type
.add_field(string_type
, "a_string_field")
63 event_class
.add_field(structure_type
, "structure_field")
65 # Create a floating point type
66 floating_point_type
= CTFWriter
.FloatFieldDeclaration()
67 floating_point_type
.exponent_digits
= CTFWriter
.FloatFieldDeclaration
.FLT_EXP_DIG
68 floating_point_type
.mantissa_digits
= CTFWriter
.FloatFieldDeclaration
.FLT_MANT_DIG
69 event_class
.add_field(floating_point_type
, "float_field")
71 # Create an enumeration type
72 int10_type
= CTFWriter
.IntegerFieldDeclaration(10)
73 enumeration_type
= CTFWriter
.EnumerationFieldDeclaration(int10_type
)
74 enumeration_type
.add_mapping("FIRST_ENTRY", 0, 4)
75 enumeration_type
.add_mapping("SECOND_ENTRY", 5, 5)
76 enumeration_type
.add_mapping("THIRD_ENTRY", 6, 10)
77 event_class
.add_field(enumeration_type
, "enum_field")
79 # Create an array type
80 array_type
= CTFWriter
.ArrayFieldDeclaration(int10_type
, 5)
81 event_class
.add_field(array_type
, "array_field")
83 # Create a sequence type
84 sequence_type
= CTFWriter
.SequenceFieldDeclaration(int32_type
, "sequence_len")
85 event_class
.add_field(uint16_type
, "sequence_len")
86 event_class
.add_field(sequence_type
, "sequence_field")
88 stream_class
.add_event_class(event_class
)
89 stream
= writer
.create_stream(stream_class
)
92 event
= CTFWriter
.Event(event_class
)
95 structure_field
= event
.payload("structure_field")
96 integer_field
= structure_field
.field("an_integer")
97 integer_field
.value
= i
99 string_field
= structure_field
.field("a_string_field")
100 string_field
.value
= "Test string."
102 float_field
= event
.payload("float_field")
103 float_field
.value
= float(i
) + (float(i
) / 100.0)
105 array_field
= event
.payload("array_field")
107 element
= array_field
.field(j
)
108 element
.value
= i
+ j
110 event
.payload("sequence_len").value
= i
% 10
111 sequence_field
= event
.payload("sequence_field")
112 sequence_field
.length
= event
.payload("sequence_len")
113 for j
in range(event
.payload("sequence_len").value
):
114 sequence_field
.field(j
).value
= i
+ j
116 enumeration_field
= event
.payload("enum_field")
117 integer_field
= enumeration_field
.container
118 enumeration_field
.value
= i
% 10
120 stream
.append_event(event
)
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