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1 .. _messaging:
1 .. _messaging:
2
2
3 ======================
3 ======================
4 Messaging in IPython
4 Messaging in IPython
5 ======================
5 ======================
6
6
7
7
8 Introduction
8 Introduction
9 ============
9 ============
10
10
11 This document explains the basic communications design and messaging
11 This document explains the basic communications design and messaging
12 specification for how the various IPython objects interact over a network
12 specification for how the various IPython objects interact over a network
13 transport. The current implementation uses the ZeroMQ_ library for messaging
13 transport. The current implementation uses the ZeroMQ_ library for messaging
14 within and between hosts.
14 within and between hosts.
15
15
16 .. Note::
16 .. Note::
17
17
18 This document should be considered the authoritative description of the
18 This document should be considered the authoritative description of the
19 IPython messaging protocol, and all developers are strongly encouraged to
19 IPython messaging protocol, and all developers are strongly encouraged to
20 keep it updated as the implementation evolves, so that we have a single
20 keep it updated as the implementation evolves, so that we have a single
21 common reference for all protocol details.
21 common reference for all protocol details.
22
22
23 The basic design is explained in the following diagram:
23 The basic design is explained in the following diagram:
24
24
25 .. image:: figs/frontend-kernel.png
25 .. image:: figs/frontend-kernel.png
26 :width: 450px
26 :width: 450px
27 :alt: IPython kernel/frontend messaging architecture.
27 :alt: IPython kernel/frontend messaging architecture.
28 :align: center
28 :align: center
29 :target: ../_images/frontend-kernel.png
29 :target: ../_images/frontend-kernel.png
30
30
31 A single kernel can be simultaneously connected to one or more frontends. The
31 A single kernel can be simultaneously connected to one or more frontends. The
32 kernel has three sockets that serve the following functions:
32 kernel has three sockets that serve the following functions:
33
33
34 1. stdin: this ROUTER socket is connected to all frontends, and it allows
34 1. stdin: this ROUTER socket is connected to all frontends, and it allows
35 the kernel to request input from the active frontend when :func:`raw_input` is called.
35 the kernel to request input from the active frontend when :func:`raw_input` is called.
36 The frontend that executed the code has a DEALER socket that acts as a 'virtual keyboard'
36 The frontend that executed the code has a DEALER socket that acts as a 'virtual keyboard'
37 for the kernel while this communication is happening (illustrated in the
37 for the kernel while this communication is happening (illustrated in the
38 figure by the black outline around the central keyboard). In practice,
38 figure by the black outline around the central keyboard). In practice,
39 frontends may display such kernel requests using a special input widget or
39 frontends may display such kernel requests using a special input widget or
40 otherwise indicating that the user is to type input for the kernel instead
40 otherwise indicating that the user is to type input for the kernel instead
41 of normal commands in the frontend.
41 of normal commands in the frontend.
42
42
43 2. Shell: this single ROUTER socket allows multiple incoming connections from
43 2. Shell: this single ROUTER socket allows multiple incoming connections from
44 frontends, and this is the socket where requests for code execution, object
44 frontends, and this is the socket where requests for code execution, object
45 information, prompts, etc. are made to the kernel by any frontend. The
45 information, prompts, etc. are made to the kernel by any frontend. The
46 communication on this socket is a sequence of request/reply actions from
46 communication on this socket is a sequence of request/reply actions from
47 each frontend and the kernel.
47 each frontend and the kernel.
48
48
49 3. IOPub: this socket is the 'broadcast channel' where the kernel publishes all
49 3. IOPub: this socket is the 'broadcast channel' where the kernel publishes all
50 side effects (stdout, stderr, etc.) as well as the requests coming from any
50 side effects (stdout, stderr, etc.) as well as the requests coming from any
51 client over the shell socket and its own requests on the stdin socket. There
51 client over the shell socket and its own requests on the stdin socket. There
52 are a number of actions in Python which generate side effects: :func:`print`
52 are a number of actions in Python which generate side effects: :func:`print`
53 writes to ``sys.stdout``, errors generate tracebacks, etc. Additionally, in
53 writes to ``sys.stdout``, errors generate tracebacks, etc. Additionally, in
54 a multi-client scenario, we want all frontends to be able to know what each
54 a multi-client scenario, we want all frontends to be able to know what each
55 other has sent to the kernel (this can be useful in collaborative scenarios,
55 other has sent to the kernel (this can be useful in collaborative scenarios,
56 for example). This socket allows both side effects and the information
56 for example). This socket allows both side effects and the information
57 about communications taking place with one client over the shell channel
57 about communications taking place with one client over the shell channel
58 to be made available to all clients in a uniform manner.
58 to be made available to all clients in a uniform manner.
59
59
60 All messages are tagged with enough information (details below) for clients
60 All messages are tagged with enough information (details below) for clients
61 to know which messages come from their own interaction with the kernel and
61 to know which messages come from their own interaction with the kernel and
62 which ones are from other clients, so they can display each type
62 which ones are from other clients, so they can display each type
63 appropriately.
63 appropriately.
64
64
65 The actual format of the messages allowed on each of these channels is
65 The actual format of the messages allowed on each of these channels is
66 specified below. Messages are dicts of dicts with string keys and values that
66 specified below. Messages are dicts of dicts with string keys and values that
67 are reasonably representable in JSON. Our current implementation uses JSON
67 are reasonably representable in JSON. Our current implementation uses JSON
68 explicitly as its message format, but this shouldn't be considered a permanent
68 explicitly as its message format, but this shouldn't be considered a permanent
69 feature. As we've discovered that JSON has non-trivial performance issues due
69 feature. As we've discovered that JSON has non-trivial performance issues due
70 to excessive copying, we may in the future move to a pure pickle-based raw
70 to excessive copying, we may in the future move to a pure pickle-based raw
71 message format. However, it should be possible to easily convert from the raw
71 message format. However, it should be possible to easily convert from the raw
72 objects to JSON, since we may have non-python clients (e.g. a web frontend).
72 objects to JSON, since we may have non-python clients (e.g. a web frontend).
73 As long as it's easy to make a JSON version of the objects that is a faithful
73 As long as it's easy to make a JSON version of the objects that is a faithful
74 representation of all the data, we can communicate with such clients.
74 representation of all the data, we can communicate with such clients.
75
75
76 .. Note::
76 .. Note::
77
77
78 Not all of these have yet been fully fleshed out, but the key ones are, see
78 Not all of these have yet been fully fleshed out, but the key ones are, see
79 kernel and frontend files for actual implementation details.
79 kernel and frontend files for actual implementation details.
80
80
81 General Message Format
81 General Message Format
82 ======================
82 ======================
83
83
84 A message is defined by the following four-dictionary structure::
84 A message is defined by the following four-dictionary structure::
85
85
86 {
86 {
87 # The message header contains a pair of unique identifiers for the
87 # The message header contains a pair of unique identifiers for the
88 # originating session and the actual message id, in addition to the
88 # originating session and the actual message id, in addition to the
89 # username for the process that generated the message. This is useful in
89 # username for the process that generated the message. This is useful in
90 # collaborative settings where multiple users may be interacting with the
90 # collaborative settings where multiple users may be interacting with the
91 # same kernel simultaneously, so that frontends can label the various
91 # same kernel simultaneously, so that frontends can label the various
92 # messages in a meaningful way.
92 # messages in a meaningful way.
93 'header' : {
93 'header' : {
94 'msg_id' : uuid,
94 'msg_id' : uuid,
95 'username' : str,
95 'username' : str,
96 'session' : uuid,
96 'session' : uuid,
97 # All recognized message type strings are listed below.
97 # All recognized message type strings are listed below.
98 'msg_type' : str,
98 'msg_type' : str,
99 },
99 },
100
100
101 # In a chain of messages, the header from the parent is copied so that
101 # In a chain of messages, the header from the parent is copied so that
102 # clients can track where messages come from.
102 # clients can track where messages come from.
103 'parent_header' : dict,
103 'parent_header' : dict,
104
104
105 # Any metadata associated with the message.
105 # Any metadata associated with the message.
106 'metadata' : dict,
106 'metadata' : dict,
107
107
108 # The actual content of the message must be a dict, whose structure
108 # The actual content of the message must be a dict, whose structure
109 # depends on the message type.
109 # depends on the message type.
110 'content' : dict,
110 'content' : dict,
111 }
111 }
112
112
113 The Wire Protocol
113 The Wire Protocol
114 =================
114 =================
115
115
116
116
117 This message format exists at a high level,
117 This message format exists at a high level,
118 but does not describe the actual *implementation* at the wire level in zeromq.
118 but does not describe the actual *implementation* at the wire level in zeromq.
119 The canonical implementation of the message spec is our :class:`~IPython.kernel.zmq.session.Session` class.
119 The canonical implementation of the message spec is our :class:`~IPython.kernel.zmq.session.Session` class.
120
120
121 .. note::
121 .. note::
122
122
123 This section should only be relevant to non-Python consumers of the protocol.
123 This section should only be relevant to non-Python consumers of the protocol.
124 Python consumers should simply import and use IPython's own implementation of the wire protocol
124 Python consumers should simply import and use IPython's own implementation of the wire protocol
125 in the :class:`IPython.kernel.zmq.session.Session` object.
125 in the :class:`IPython.kernel.zmq.session.Session` object.
126
126
127 Every message is serialized to a sequence of at least six blobs of bytes:
127 Every message is serialized to a sequence of at least six blobs of bytes:
128
128
129 .. sourcecode:: python
129 .. sourcecode:: python
130
130
131 [
131 [
132 b'u-u-i-d', # zmq identity(ies)
132 b'u-u-i-d', # zmq identity(ies)
133 b'<IDS|MSG>', # delimiter
133 b'<IDS|MSG>', # delimiter
134 b'baddad42', # HMAC signature
134 b'baddad42', # HMAC signature
135 b'{header}', # serialized header dict
135 b'{header}', # serialized header dict
136 b'{parent_header}', # serialized parent header dict
136 b'{parent_header}', # serialized parent header dict
137 b'{metadata}', # serialized metadata dict
137 b'{metadata}', # serialized metadata dict
138 b'{content}, # serialized content dict
138 b'{content}, # serialized content dict
139 b'blob', # extra raw data buffer(s)
139 b'blob', # extra raw data buffer(s)
140 ...
140 ...
141 ]
141 ]
142
142
143 The front of the message is the ZeroMQ routing prefix,
143 The front of the message is the ZeroMQ routing prefix,
144 which can be zero or more socket identities.
144 which can be zero or more socket identities.
145 This is every piece of the message prior to the delimiter key ``<IDS|MSG>``.
145 This is every piece of the message prior to the delimiter key ``<IDS|MSG>``.
146 In the case of IOPub, there should be just one prefix component,
146 In the case of IOPub, there should be just one prefix component,
147 which is the topic for IOPub subscribers, e.g. ``pyout``, ``display_data``.
147 which is the topic for IOPub subscribers, e.g. ``pyout``, ``display_data``.
148
148
149 .. note::
149 .. note::
150
150
151 In most cases, the IOPub topics are irrelevant and completely ignored,
151 In most cases, the IOPub topics are irrelevant and completely ignored,
152 because frontends just subscribe to all topics.
152 because frontends just subscribe to all topics.
153 The convention used in the IPython kernel is to use the msg_type as the topic,
153 The convention used in the IPython kernel is to use the msg_type as the topic,
154 and possibly extra information about the message, e.g. ``pyout`` or ``stream.stdout``
154 and possibly extra information about the message, e.g. ``pyout`` or ``stream.stdout``
155
155
156 After the delimiter is the `HMAC`_ signature of the message, used for authentication.
156 After the delimiter is the `HMAC`_ signature of the message, used for authentication.
157 If authentication is disabled, this should be an empty string.
157 If authentication is disabled, this should be an empty string.
158 By default, the hashing function used for computing these signatures is sha256.
158 By default, the hashing function used for computing these signatures is sha256.
159
159
160 .. _HMAC: http://en.wikipedia.org/wiki/HMAC
160 .. _HMAC: http://en.wikipedia.org/wiki/HMAC
161
161
162 .. note::
162 .. note::
163
163
164 To disable authentication and signature checking,
164 To disable authentication and signature checking,
165 set the `key` field of a connection file to an empty string.
165 set the `key` field of a connection file to an empty string.
166
166
167 The signature is the HMAC hex digest of the concatenation of:
167 The signature is the HMAC hex digest of the concatenation of:
168
168
169 - A shared key (typically the ``key`` field of a connection file)
169 - A shared key (typically the ``key`` field of a connection file)
170 - The serialized header dict
170 - The serialized header dict
171 - The serialized parent header dict
171 - The serialized parent header dict
172 - The serialized metadata dict
172 - The serialized metadata dict
173 - The serialized content dict
173 - The serialized content dict
174
174
175 In Python, this is implemented via:
175 In Python, this is implemented via:
176
176
177 .. sourcecode:: python
177 .. sourcecode:: python
178
178
179 # once:
179 # once:
180 digester = HMAC(key, digestmod=hashlib.sha256)
180 digester = HMAC(key, digestmod=hashlib.sha256)
181
181
182 # for each message
182 # for each message
183 d = digester.copy()
183 d = digester.copy()
184 for serialized_dict in (header, parent, metadata, content):
184 for serialized_dict in (header, parent, metadata, content):
185 d.update(serialized_dict)
185 d.update(serialized_dict)
186 signature = d.hexdigest()
186 signature = d.hexdigest()
187
187
188 After the signature is the actual message, always in four frames of bytes.
188 After the signature is the actual message, always in four frames of bytes.
189 The four dictionaries that compose a message are serialized separately,
189 The four dictionaries that compose a message are serialized separately,
190 in the order of header, parent header, metadata, and content.
190 in the order of header, parent header, metadata, and content.
191 These can be serialized by any function that turns a dict into bytes.
191 These can be serialized by any function that turns a dict into bytes.
192 The default and most common serialization is JSON, but msgpack and pickle
192 The default and most common serialization is JSON, but msgpack and pickle
193 are common alternatives.
193 are common alternatives.
194
194
195 After the serialized dicts are zero to many raw data buffers,
195 After the serialized dicts are zero to many raw data buffers,
196 which can be used by message types that support binary data (mainly apply and data_pub).
196 which can be used by message types that support binary data (mainly apply and data_pub).
197
197
198
198
199 Python functional API
199 Python functional API
200 =====================
200 =====================
201
201
202 As messages are dicts, they map naturally to a ``func(**kw)`` call form. We
202 As messages are dicts, they map naturally to a ``func(**kw)`` call form. We
203 should develop, at a few key points, functional forms of all the requests that
203 should develop, at a few key points, functional forms of all the requests that
204 take arguments in this manner and automatically construct the necessary dict
204 take arguments in this manner and automatically construct the necessary dict
205 for sending.
205 for sending.
206
206
207 In addition, the Python implementation of the message specification extends
207 In addition, the Python implementation of the message specification extends
208 messages upon deserialization to the following form for convenience::
208 messages upon deserialization to the following form for convenience::
209
209
210 {
210 {
211 'header' : dict,
211 'header' : dict,
212 # The msg's unique identifier and type are always stored in the header,
212 # The msg's unique identifier and type are always stored in the header,
213 # but the Python implementation copies them to the top level.
213 # but the Python implementation copies them to the top level.
214 'msg_id' : uuid,
214 'msg_id' : uuid,
215 'msg_type' : str,
215 'msg_type' : str,
216 'parent_header' : dict,
216 'parent_header' : dict,
217 'content' : dict,
217 'content' : dict,
218 'metadata' : dict,
218 'metadata' : dict,
219 }
219 }
220
220
221 All messages sent to or received by any IPython process should have this
221 All messages sent to or received by any IPython process should have this
222 extended structure.
222 extended structure.
223
223
224
224
225 Messages on the shell ROUTER/DEALER sockets
225 Messages on the shell ROUTER/DEALER sockets
226 ===========================================
226 ===========================================
227
227
228 .. _execute:
228 .. _execute:
229
229
230 Execute
230 Execute
231 -------
231 -------
232
232
233 This message type is used by frontends to ask the kernel to execute code on
233 This message type is used by frontends to ask the kernel to execute code on
234 behalf of the user, in a namespace reserved to the user's variables (and thus
234 behalf of the user, in a namespace reserved to the user's variables (and thus
235 separate from the kernel's own internal code and variables).
235 separate from the kernel's own internal code and variables).
236
236
237 Message type: ``execute_request``::
237 Message type: ``execute_request``::
238
238
239 content = {
239 content = {
240 # Source code to be executed by the kernel, one or more lines.
240 # Source code to be executed by the kernel, one or more lines.
241 'code' : str,
241 'code' : str,
242
242
243 # A boolean flag which, if True, signals the kernel to execute
243 # A boolean flag which, if True, signals the kernel to execute
244 # this code as quietly as possible. This means that the kernel
244 # this code as quietly as possible. This means that the kernel
245 # will compile the code with 'exec' instead of 'single' (so
245 # will compile the code with 'exec' instead of 'single' (so
246 # sys.displayhook will not fire), forces store_history to be False,
246 # sys.displayhook will not fire), forces store_history to be False,
247 # and will *not*:
247 # and will *not*:
248 # - broadcast exceptions on the PUB socket
248 # - broadcast exceptions on the PUB socket
249 # - do any logging
249 # - do any logging
250 #
250 #
251 # The default is False.
251 # The default is False.
252 'silent' : bool,
252 'silent' : bool,
253
253
254 # A boolean flag which, if True, signals the kernel to populate history
254 # A boolean flag which, if True, signals the kernel to populate history
255 # The default is True if silent is False. If silent is True, store_history
255 # The default is True if silent is False. If silent is True, store_history
256 # is forced to be False.
256 # is forced to be False.
257 'store_history' : bool,
257 'store_history' : bool,
258
258
259 # A list of variable names from the user's namespace to be retrieved.
259 # A list of variable names from the user's namespace to be retrieved.
260 # What returns is a rich representation of each variable (dict keyed by name).
260 # What returns is a rich representation of each variable (dict keyed by name).
261 # See the display_data content for the structure of the representation data.
261 # See the display_data content for the structure of the representation data.
262 'user_variables' : list,
262 'user_variables' : list,
263
263
264 # Similarly, a dict mapping names to expressions to be evaluated in the
264 # Similarly, a dict mapping names to expressions to be evaluated in the
265 # user's dict.
265 # user's dict.
266 'user_expressions' : dict,
266 'user_expressions' : dict,
267
267
268 # Some frontends (e.g. the Notebook) do not support stdin requests. If
268 # Some frontends (e.g. the Notebook) do not support stdin requests. If
269 # raw_input is called from code executed from such a frontend, a
269 # raw_input is called from code executed from such a frontend, a
270 # StdinNotImplementedError will be raised.
270 # StdinNotImplementedError will be raised.
271 'allow_stdin' : True,
271 'allow_stdin' : True,
272
272
273 }
273 }
274
274
275 The ``code`` field contains a single string (possibly multiline). The kernel
275 The ``code`` field contains a single string (possibly multiline). The kernel
276 is responsible for splitting this into one or more independent execution blocks
276 is responsible for splitting this into one or more independent execution blocks
277 and deciding whether to compile these in 'single' or 'exec' mode (see below for
277 and deciding whether to compile these in 'single' or 'exec' mode (see below for
278 detailed execution semantics).
278 detailed execution semantics).
279
279
280 The ``user_`` fields deserve a detailed explanation. In the past, IPython had
280 The ``user_`` fields deserve a detailed explanation. In the past, IPython had
281 the notion of a prompt string that allowed arbitrary code to be evaluated, and
281 the notion of a prompt string that allowed arbitrary code to be evaluated, and
282 this was put to good use by many in creating prompts that displayed system
282 this was put to good use by many in creating prompts that displayed system
283 status, path information, and even more esoteric uses like remote instrument
283 status, path information, and even more esoteric uses like remote instrument
284 status acquired over the network. But now that IPython has a clean separation
284 status acquired over the network. But now that IPython has a clean separation
285 between the kernel and the clients, the kernel has no prompt knowledge; prompts
285 between the kernel and the clients, the kernel has no prompt knowledge; prompts
286 are a frontend-side feature, and it should be even possible for different
286 are a frontend-side feature, and it should be even possible for different
287 frontends to display different prompts while interacting with the same kernel.
287 frontends to display different prompts while interacting with the same kernel.
288
288
289 The kernel now provides the ability to retrieve data from the user's namespace
289 The kernel now provides the ability to retrieve data from the user's namespace
290 after the execution of the main ``code``, thanks to two fields in the
290 after the execution of the main ``code``, thanks to two fields in the
291 ``execute_request`` message:
291 ``execute_request`` message:
292
292
293 - ``user_variables``: If only variables from the user's namespace are needed, a
293 - ``user_variables``: If only variables from the user's namespace are needed, a
294 list of variable names can be passed and a dict with these names as keys and
294 list of variable names can be passed and a dict with these names as keys and
295 their :func:`repr()` as values will be returned.
295 their :func:`repr()` as values will be returned.
296
296
297 - ``user_expressions``: For more complex expressions that require function
297 - ``user_expressions``: For more complex expressions that require function
298 evaluations, a dict can be provided with string keys and arbitrary python
298 evaluations, a dict can be provided with string keys and arbitrary python
299 expressions as values. The return message will contain also a dict with the
299 expressions as values. The return message will contain also a dict with the
300 same keys and the :func:`repr()` of the evaluated expressions as value.
300 same keys and the :func:`repr()` of the evaluated expressions as value.
301
301
302 With this information, frontends can display any status information they wish
302 With this information, frontends can display any status information they wish
303 in the form that best suits each frontend (a status line, a popup, inline for a
303 in the form that best suits each frontend (a status line, a popup, inline for a
304 terminal, etc).
304 terminal, etc).
305
305
306 .. Note::
306 .. Note::
307
307
308 In order to obtain the current execution counter for the purposes of
308 In order to obtain the current execution counter for the purposes of
309 displaying input prompts, frontends simply make an execution request with an
309 displaying input prompts, frontends simply make an execution request with an
310 empty code string and ``silent=True``.
310 empty code string and ``silent=True``.
311
311
312 Execution semantics
312 Execution semantics
313 ~~~~~~~~~~~~~~~~~~~
313 ~~~~~~~~~~~~~~~~~~~
314
314
315 When the silent flag is false, the execution of use code consists of the
315 When the silent flag is false, the execution of use code consists of the
316 following phases (in silent mode, only the ``code`` field is executed):
316 following phases (in silent mode, only the ``code`` field is executed):
317
317
318 1. Run the ``pre_runcode_hook``.
318 1. Run the ``pre_runcode_hook``.
319
319
320 2. Execute the ``code`` field, see below for details.
320 2. Execute the ``code`` field, see below for details.
321
321
322 3. If #2 succeeds, compute ``user_variables`` and ``user_expressions`` are
322 3. If #2 succeeds, compute ``user_variables`` and ``user_expressions`` are
323 computed. This ensures that any error in the latter don't harm the main
323 computed. This ensures that any error in the latter don't harm the main
324 code execution.
324 code execution.
325
325
326 4. Call any method registered with :meth:`register_post_execute`.
326 4. Call any method registered with :meth:`register_post_execute`.
327
327
328 .. warning::
328 .. warning::
329
329
330 The API for running code before/after the main code block is likely to
330 The API for running code before/after the main code block is likely to
331 change soon. Both the ``pre_runcode_hook`` and the
331 change soon. Both the ``pre_runcode_hook`` and the
332 :meth:`register_post_execute` are susceptible to modification, as we find a
332 :meth:`register_post_execute` are susceptible to modification, as we find a
333 consistent model for both.
333 consistent model for both.
334
334
335 To understand how the ``code`` field is executed, one must know that Python
335 To understand how the ``code`` field is executed, one must know that Python
336 code can be compiled in one of three modes (controlled by the ``mode`` argument
336 code can be compiled in one of three modes (controlled by the ``mode`` argument
337 to the :func:`compile` builtin):
337 to the :func:`compile` builtin):
338
338
339 *single*
339 *single*
340 Valid for a single interactive statement (though the source can contain
340 Valid for a single interactive statement (though the source can contain
341 multiple lines, such as a for loop). When compiled in this mode, the
341 multiple lines, such as a for loop). When compiled in this mode, the
342 generated bytecode contains special instructions that trigger the calling of
342 generated bytecode contains special instructions that trigger the calling of
343 :func:`sys.displayhook` for any expression in the block that returns a value.
343 :func:`sys.displayhook` for any expression in the block that returns a value.
344 This means that a single statement can actually produce multiple calls to
344 This means that a single statement can actually produce multiple calls to
345 :func:`sys.displayhook`, if for example it contains a loop where each
345 :func:`sys.displayhook`, if for example it contains a loop where each
346 iteration computes an unassigned expression would generate 10 calls::
346 iteration computes an unassigned expression would generate 10 calls::
347
347
348 for i in range(10):
348 for i in range(10):
349 i**2
349 i**2
350
350
351 *exec*
351 *exec*
352 An arbitrary amount of source code, this is how modules are compiled.
352 An arbitrary amount of source code, this is how modules are compiled.
353 :func:`sys.displayhook` is *never* implicitly called.
353 :func:`sys.displayhook` is *never* implicitly called.
354
354
355 *eval*
355 *eval*
356 A single expression that returns a value. :func:`sys.displayhook` is *never*
356 A single expression that returns a value. :func:`sys.displayhook` is *never*
357 implicitly called.
357 implicitly called.
358
358
359
359
360 The ``code`` field is split into individual blocks each of which is valid for
360 The ``code`` field is split into individual blocks each of which is valid for
361 execution in 'single' mode, and then:
361 execution in 'single' mode, and then:
362
362
363 - If there is only a single block: it is executed in 'single' mode.
363 - If there is only a single block: it is executed in 'single' mode.
364
364
365 - If there is more than one block:
365 - If there is more than one block:
366
366
367 * if the last one is a single line long, run all but the last in 'exec' mode
367 * if the last one is a single line long, run all but the last in 'exec' mode
368 and the very last one in 'single' mode. This makes it easy to type simple
368 and the very last one in 'single' mode. This makes it easy to type simple
369 expressions at the end to see computed values.
369 expressions at the end to see computed values.
370
370
371 * if the last one is no more than two lines long, run all but the last in
371 * if the last one is no more than two lines long, run all but the last in
372 'exec' mode and the very last one in 'single' mode. This makes it easy to
372 'exec' mode and the very last one in 'single' mode. This makes it easy to
373 type simple expressions at the end to see computed values. - otherwise
373 type simple expressions at the end to see computed values. - otherwise
374 (last one is also multiline), run all in 'exec' mode
374 (last one is also multiline), run all in 'exec' mode
375
375
376 * otherwise (last one is also multiline), run all in 'exec' mode as a single
376 * otherwise (last one is also multiline), run all in 'exec' mode as a single
377 unit.
377 unit.
378
378
379 Any error in retrieving the ``user_variables`` or evaluating the
379 Any error in retrieving the ``user_variables`` or evaluating the
380 ``user_expressions`` will result in a simple error message in the return fields
380 ``user_expressions`` will result in a simple error message in the return fields
381 of the form::
381 of the form::
382
382
383 [ERROR] ExceptionType: Exception message
383 [ERROR] ExceptionType: Exception message
384
384
385 The user can simply send the same variable name or expression for evaluation to
385 The user can simply send the same variable name or expression for evaluation to
386 see a regular traceback.
386 see a regular traceback.
387
387
388 Errors in any registered post_execute functions are also reported similarly,
388 Errors in any registered post_execute functions are also reported similarly,
389 and the failing function is removed from the post_execution set so that it does
389 and the failing function is removed from the post_execution set so that it does
390 not continue triggering failures.
390 not continue triggering failures.
391
391
392 Upon completion of the execution request, the kernel *always* sends a reply,
392 Upon completion of the execution request, the kernel *always* sends a reply,
393 with a status code indicating what happened and additional data depending on
393 with a status code indicating what happened and additional data depending on
394 the outcome. See :ref:`below <execution_results>` for the possible return
394 the outcome. See :ref:`below <execution_results>` for the possible return
395 codes and associated data.
395 codes and associated data.
396
396
397
397
398 Execution counter (old prompt number)
398 Execution counter (old prompt number)
399 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
399 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
400
400
401 The kernel has a single, monotonically increasing counter of all execution
401 The kernel has a single, monotonically increasing counter of all execution
402 requests that are made with ``store_history=True``. This counter is used to populate
402 requests that are made with ``store_history=True``. This counter is used to populate
403 the ``In[n]``, ``Out[n]`` and ``_n`` variables, so clients will likely want to
403 the ``In[n]``, ``Out[n]`` and ``_n`` variables, so clients will likely want to
404 display it in some form to the user, which will typically (but not necessarily)
404 display it in some form to the user, which will typically (but not necessarily)
405 be done in the prompts. The value of this counter will be returned as the
405 be done in the prompts. The value of this counter will be returned as the
406 ``execution_count`` field of all ``execute_reply`` messages.
406 ``execution_count`` field of all ``execute_reply`` messages.
407
407
408 .. _execution_results:
408 .. _execution_results:
409
409
410 Execution results
410 Execution results
411 ~~~~~~~~~~~~~~~~~
411 ~~~~~~~~~~~~~~~~~
412
412
413 Message type: ``execute_reply``::
413 Message type: ``execute_reply``::
414
414
415 content = {
415 content = {
416 # One of: 'ok' OR 'error' OR 'abort'
416 # One of: 'ok' OR 'error' OR 'abort'
417 'status' : str,
417 'status' : str,
418
418
419 # The global kernel counter that increases by one with each request that
419 # The global kernel counter that increases by one with each request that
420 # stores history. This will typically be used by clients to display
420 # stores history. This will typically be used by clients to display
421 # prompt numbers to the user. If the request did not store history, this will
421 # prompt numbers to the user. If the request did not store history, this will
422 # be the current value of the counter in the kernel.
422 # be the current value of the counter in the kernel.
423 'execution_count' : int,
423 'execution_count' : int,
424 }
424 }
425
425
426 When status is 'ok', the following extra fields are present::
426 When status is 'ok', the following extra fields are present::
427
427
428 {
428 {
429 # 'payload' will be a list of payload dicts.
429 # 'payload' will be a list of payload dicts.
430 # Each execution payload is a dict with string keys that may have been
430 # Each execution payload is a dict with string keys that may have been
431 # produced by the code being executed. It is retrieved by the kernel at
431 # produced by the code being executed. It is retrieved by the kernel at
432 # the end of the execution and sent back to the front end, which can take
432 # the end of the execution and sent back to the front end, which can take
433 # action on it as needed. See main text for further details.
433 # action on it as needed.
434 # The only requirement of each payload dict is that it have a 'source' key,
435 # which is a string classifying the payload (e.g. 'pager').
434 'payload' : list(dict),
436 'payload' : list(dict),
435
437
436 # Results for the user_variables and user_expressions.
438 # Results for the user_variables and user_expressions.
437 'user_variables' : dict,
439 'user_variables' : dict,
438 'user_expressions' : dict,
440 'user_expressions' : dict,
439 }
441 }
440
442
441 .. admonition:: Execution payloads
443 .. admonition:: Execution payloads
442
444
443 The notion of an 'execution payload' is different from a return value of a
445 The notion of an 'execution payload' is different from a return value of a
444 given set of code, which normally is just displayed on the pyout stream
446 given set of code, which normally is just displayed on the pyout stream
445 through the PUB socket. The idea of a payload is to allow special types of
447 through the PUB socket. The idea of a payload is to allow special types of
446 code, typically magics, to populate a data container in the IPython kernel
448 code, typically magics, to populate a data container in the IPython kernel
447 that will be shipped back to the caller via this channel. The kernel
449 that will be shipped back to the caller via this channel. The kernel
448 has an API for this in the PayloadManager::
450 has an API for this in the PayloadManager::
449
451
450 ip.payload_manager.write_payload(payload_dict)
452 ip.payload_manager.write_payload(payload_dict)
451
453
452 which appends a dictionary to the list of payloads.
454 which appends a dictionary to the list of payloads.
453
455
454 The payload API is not yet stabilized,
456 The payload API is not yet stabilized,
455 and should probably not be supported by non-Python kernels at this time.
457 and should probably not be supported by non-Python kernels at this time.
456 In such cases, the payload list should always be empty.
458 In such cases, the payload list should always be empty.
457
459
458
460
459 When status is 'error', the following extra fields are present::
461 When status is 'error', the following extra fields are present::
460
462
461 {
463 {
462 'ename' : str, # Exception name, as a string
464 'ename' : str, # Exception name, as a string
463 'evalue' : str, # Exception value, as a string
465 'evalue' : str, # Exception value, as a string
464
466
465 # The traceback will contain a list of frames, represented each as a
467 # The traceback will contain a list of frames, represented each as a
466 # string. For now we'll stick to the existing design of ultraTB, which
468 # string. For now we'll stick to the existing design of ultraTB, which
467 # controls exception level of detail statefully. But eventually we'll
469 # controls exception level of detail statefully. But eventually we'll
468 # want to grow into a model where more information is collected and
470 # want to grow into a model where more information is collected and
469 # packed into the traceback object, with clients deciding how little or
471 # packed into the traceback object, with clients deciding how little or
470 # how much of it to unpack. But for now, let's start with a simple list
472 # how much of it to unpack. But for now, let's start with a simple list
471 # of strings, since that requires only minimal changes to ultratb as
473 # of strings, since that requires only minimal changes to ultratb as
472 # written.
474 # written.
473 'traceback' : list,
475 'traceback' : list,
474 }
476 }
475
477
476
478
477 When status is 'abort', there are for now no additional data fields. This
479 When status is 'abort', there are for now no additional data fields. This
478 happens when the kernel was interrupted by a signal.
480 happens when the kernel was interrupted by a signal.
479
481
480
482
481 Object information
483 Object information
482 ------------------
484 ------------------
483
485
484 One of IPython's most used capabilities is the introspection of Python objects
486 One of IPython's most used capabilities is the introspection of Python objects
485 in the user's namespace, typically invoked via the ``?`` and ``??`` characters
487 in the user's namespace, typically invoked via the ``?`` and ``??`` characters
486 (which in reality are shorthands for the ``%pinfo`` magic). This is used often
488 (which in reality are shorthands for the ``%pinfo`` magic). This is used often
487 enough that it warrants an explicit message type, especially because frontends
489 enough that it warrants an explicit message type, especially because frontends
488 may want to get object information in response to user keystrokes (like Tab or
490 may want to get object information in response to user keystrokes (like Tab or
489 F1) besides from the user explicitly typing code like ``x??``.
491 F1) besides from the user explicitly typing code like ``x??``.
490
492
491 Message type: ``object_info_request``::
493 Message type: ``object_info_request``::
492
494
493 content = {
495 content = {
494 # The (possibly dotted) name of the object to be searched in all
496 # The (possibly dotted) name of the object to be searched in all
495 # relevant namespaces
497 # relevant namespaces
496 'oname' : str,
498 'oname' : str,
497
499
498 # The level of detail desired. The default (0) is equivalent to typing
500 # The level of detail desired. The default (0) is equivalent to typing
499 # 'x?' at the prompt, 1 is equivalent to 'x??'.
501 # 'x?' at the prompt, 1 is equivalent to 'x??'.
500 'detail_level' : int,
502 'detail_level' : int,
501 }
503 }
502
504
503 The returned information will be a dictionary with keys very similar to the
505 The returned information will be a dictionary with keys very similar to the
504 field names that IPython prints at the terminal.
506 field names that IPython prints at the terminal.
505
507
506 Message type: ``object_info_reply``::
508 Message type: ``object_info_reply``::
507
509
508 content = {
510 content = {
509 # The name the object was requested under
511 # The name the object was requested under
510 'name' : str,
512 'name' : str,
511
513
512 # Boolean flag indicating whether the named object was found or not. If
514 # Boolean flag indicating whether the named object was found or not. If
513 # it's false, all other fields will be empty.
515 # it's false, all other fields will be empty.
514 'found' : bool,
516 'found' : bool,
515
517
516 # Flags for magics and system aliases
518 # Flags for magics and system aliases
517 'ismagic' : bool,
519 'ismagic' : bool,
518 'isalias' : bool,
520 'isalias' : bool,
519
521
520 # The name of the namespace where the object was found ('builtin',
522 # The name of the namespace where the object was found ('builtin',
521 # 'magics', 'alias', 'interactive', etc.)
523 # 'magics', 'alias', 'interactive', etc.)
522 'namespace' : str,
524 'namespace' : str,
523
525
524 # The type name will be type.__name__ for normal Python objects, but it
526 # The type name will be type.__name__ for normal Python objects, but it
525 # can also be a string like 'Magic function' or 'System alias'
527 # can also be a string like 'Magic function' or 'System alias'
526 'type_name' : str,
528 'type_name' : str,
527
529
528 # The string form of the object, possibly truncated for length if
530 # The string form of the object, possibly truncated for length if
529 # detail_level is 0
531 # detail_level is 0
530 'string_form' : str,
532 'string_form' : str,
531
533
532 # For objects with a __class__ attribute this will be set
534 # For objects with a __class__ attribute this will be set
533 'base_class' : str,
535 'base_class' : str,
534
536
535 # For objects with a __len__ attribute this will be set
537 # For objects with a __len__ attribute this will be set
536 'length' : int,
538 'length' : int,
537
539
538 # If the object is a function, class or method whose file we can find,
540 # If the object is a function, class or method whose file we can find,
539 # we give its full path
541 # we give its full path
540 'file' : str,
542 'file' : str,
541
543
542 # For pure Python callable objects, we can reconstruct the object
544 # For pure Python callable objects, we can reconstruct the object
543 # definition line which provides its call signature. For convenience this
545 # definition line which provides its call signature. For convenience this
544 # is returned as a single 'definition' field, but below the raw parts that
546 # is returned as a single 'definition' field, but below the raw parts that
545 # compose it are also returned as the argspec field.
547 # compose it are also returned as the argspec field.
546 'definition' : str,
548 'definition' : str,
547
549
548 # The individual parts that together form the definition string. Clients
550 # The individual parts that together form the definition string. Clients
549 # with rich display capabilities may use this to provide a richer and more
551 # with rich display capabilities may use this to provide a richer and more
550 # precise representation of the definition line (e.g. by highlighting
552 # precise representation of the definition line (e.g. by highlighting
551 # arguments based on the user's cursor position). For non-callable
553 # arguments based on the user's cursor position). For non-callable
552 # objects, this field is empty.
554 # objects, this field is empty.
553 'argspec' : { # The names of all the arguments
555 'argspec' : { # The names of all the arguments
554 args : list,
556 args : list,
555 # The name of the varargs (*args), if any
557 # The name of the varargs (*args), if any
556 varargs : str,
558 varargs : str,
557 # The name of the varkw (**kw), if any
559 # The name of the varkw (**kw), if any
558 varkw : str,
560 varkw : str,
559 # The values (as strings) of all default arguments. Note
561 # The values (as strings) of all default arguments. Note
560 # that these must be matched *in reverse* with the 'args'
562 # that these must be matched *in reverse* with the 'args'
561 # list above, since the first positional args have no default
563 # list above, since the first positional args have no default
562 # value at all.
564 # value at all.
563 defaults : list,
565 defaults : list,
564 },
566 },
565
567
566 # For instances, provide the constructor signature (the definition of
568 # For instances, provide the constructor signature (the definition of
567 # the __init__ method):
569 # the __init__ method):
568 'init_definition' : str,
570 'init_definition' : str,
569
571
570 # Docstrings: for any object (function, method, module, package) with a
572 # Docstrings: for any object (function, method, module, package) with a
571 # docstring, we show it. But in addition, we may provide additional
573 # docstring, we show it. But in addition, we may provide additional
572 # docstrings. For example, for instances we will show the constructor
574 # docstrings. For example, for instances we will show the constructor
573 # and class docstrings as well, if available.
575 # and class docstrings as well, if available.
574 'docstring' : str,
576 'docstring' : str,
575
577
576 # For instances, provide the constructor and class docstrings
578 # For instances, provide the constructor and class docstrings
577 'init_docstring' : str,
579 'init_docstring' : str,
578 'class_docstring' : str,
580 'class_docstring' : str,
579
581
580 # If it's a callable object whose call method has a separate docstring and
582 # If it's a callable object whose call method has a separate docstring and
581 # definition line:
583 # definition line:
582 'call_def' : str,
584 'call_def' : str,
583 'call_docstring' : str,
585 'call_docstring' : str,
584
586
585 # If detail_level was 1, we also try to find the source code that
587 # If detail_level was 1, we also try to find the source code that
586 # defines the object, if possible. The string 'None' will indicate
588 # defines the object, if possible. The string 'None' will indicate
587 # that no source was found.
589 # that no source was found.
588 'source' : str,
590 'source' : str,
589 }
591 }
590
592
591
593
592 Complete
594 Complete
593 --------
595 --------
594
596
595 Message type: ``complete_request``::
597 Message type: ``complete_request``::
596
598
597 content = {
599 content = {
598 # The text to be completed, such as 'a.is'
600 # The text to be completed, such as 'a.is'
599 # this may be an empty string if the frontend does not do any lexing,
601 # this may be an empty string if the frontend does not do any lexing,
600 # in which case the kernel must figure out the completion
602 # in which case the kernel must figure out the completion
601 # based on 'line' and 'cursor_pos'.
603 # based on 'line' and 'cursor_pos'.
602 'text' : str,
604 'text' : str,
603
605
604 # The full line, such as 'print a.is'. This allows completers to
606 # The full line, such as 'print a.is'. This allows completers to
605 # make decisions that may require information about more than just the
607 # make decisions that may require information about more than just the
606 # current word.
608 # current word.
607 'line' : str,
609 'line' : str,
608
610
609 # The entire block of text where the line is. This may be useful in the
611 # The entire block of text where the line is. This may be useful in the
610 # case of multiline completions where more context may be needed. Note: if
612 # case of multiline completions where more context may be needed. Note: if
611 # in practice this field proves unnecessary, remove it to lighten the
613 # in practice this field proves unnecessary, remove it to lighten the
612 # messages.
614 # messages.
613
615
614 'block' : str or null/None,
616 'block' : str or null/None,
615
617
616 # The position of the cursor where the user hit 'TAB' on the line.
618 # The position of the cursor where the user hit 'TAB' on the line.
617 'cursor_pos' : int,
619 'cursor_pos' : int,
618 }
620 }
619
621
620 Message type: ``complete_reply``::
622 Message type: ``complete_reply``::
621
623
622 content = {
624 content = {
623 # The list of all matches to the completion request, such as
625 # The list of all matches to the completion request, such as
624 # ['a.isalnum', 'a.isalpha'] for the above example.
626 # ['a.isalnum', 'a.isalpha'] for the above example.
625 'matches' : list,
627 'matches' : list,
626
628
627 # the substring of the matched text
629 # the substring of the matched text
628 # this is typically the common prefix of the matches,
630 # this is typically the common prefix of the matches,
629 # and the text that is already in the block that would be replaced by the full completion.
631 # and the text that is already in the block that would be replaced by the full completion.
630 # This would be 'a.is' in the above example.
632 # This would be 'a.is' in the above example.
631 'text' : str,
633 'text' : str,
632
634
633 # status should be 'ok' unless an exception was raised during the request,
635 # status should be 'ok' unless an exception was raised during the request,
634 # in which case it should be 'error', along with the usual error message content
636 # in which case it should be 'error', along with the usual error message content
635 # in other messages.
637 # in other messages.
636 'status' : 'ok'
638 'status' : 'ok'
637 }
639 }
638
640
639
641
640 History
642 History
641 -------
643 -------
642
644
643 For clients to explicitly request history from a kernel. The kernel has all
645 For clients to explicitly request history from a kernel. The kernel has all
644 the actual execution history stored in a single location, so clients can
646 the actual execution history stored in a single location, so clients can
645 request it from the kernel when needed.
647 request it from the kernel when needed.
646
648
647 Message type: ``history_request``::
649 Message type: ``history_request``::
648
650
649 content = {
651 content = {
650
652
651 # If True, also return output history in the resulting dict.
653 # If True, also return output history in the resulting dict.
652 'output' : bool,
654 'output' : bool,
653
655
654 # If True, return the raw input history, else the transformed input.
656 # If True, return the raw input history, else the transformed input.
655 'raw' : bool,
657 'raw' : bool,
656
658
657 # So far, this can be 'range', 'tail' or 'search'.
659 # So far, this can be 'range', 'tail' or 'search'.
658 'hist_access_type' : str,
660 'hist_access_type' : str,
659
661
660 # If hist_access_type is 'range', get a range of input cells. session can
662 # If hist_access_type is 'range', get a range of input cells. session can
661 # be a positive session number, or a negative number to count back from
663 # be a positive session number, or a negative number to count back from
662 # the current session.
664 # the current session.
663 'session' : int,
665 'session' : int,
664 # start and stop are line numbers within that session.
666 # start and stop are line numbers within that session.
665 'start' : int,
667 'start' : int,
666 'stop' : int,
668 'stop' : int,
667
669
668 # If hist_access_type is 'tail' or 'search', get the last n cells.
670 # If hist_access_type is 'tail' or 'search', get the last n cells.
669 'n' : int,
671 'n' : int,
670
672
671 # If hist_access_type is 'search', get cells matching the specified glob
673 # If hist_access_type is 'search', get cells matching the specified glob
672 # pattern (with * and ? as wildcards).
674 # pattern (with * and ? as wildcards).
673 'pattern' : str,
675 'pattern' : str,
674
676
675 # If hist_access_type is 'search' and unique is true, do not
677 # If hist_access_type is 'search' and unique is true, do not
676 # include duplicated history. Default is false.
678 # include duplicated history. Default is false.
677 'unique' : bool,
679 'unique' : bool,
678
680
679 }
681 }
680
682
681 .. versionadded:: 4.0
683 .. versionadded:: 4.0
682 The key ``unique`` for ``history_request``.
684 The key ``unique`` for ``history_request``.
683
685
684 Message type: ``history_reply``::
686 Message type: ``history_reply``::
685
687
686 content = {
688 content = {
687 # A list of 3 tuples, either:
689 # A list of 3 tuples, either:
688 # (session, line_number, input) or
690 # (session, line_number, input) or
689 # (session, line_number, (input, output)),
691 # (session, line_number, (input, output)),
690 # depending on whether output was False or True, respectively.
692 # depending on whether output was False or True, respectively.
691 'history' : list,
693 'history' : list,
692 }
694 }
693
695
694
696
695 Connect
697 Connect
696 -------
698 -------
697
699
698 When a client connects to the request/reply socket of the kernel, it can issue
700 When a client connects to the request/reply socket of the kernel, it can issue
699 a connect request to get basic information about the kernel, such as the ports
701 a connect request to get basic information about the kernel, such as the ports
700 the other ZeroMQ sockets are listening on. This allows clients to only have
702 the other ZeroMQ sockets are listening on. This allows clients to only have
701 to know about a single port (the shell channel) to connect to a kernel.
703 to know about a single port (the shell channel) to connect to a kernel.
702
704
703 Message type: ``connect_request``::
705 Message type: ``connect_request``::
704
706
705 content = {
707 content = {
706 }
708 }
707
709
708 Message type: ``connect_reply``::
710 Message type: ``connect_reply``::
709
711
710 content = {
712 content = {
711 'shell_port' : int, # The port the shell ROUTER socket is listening on.
713 'shell_port' : int, # The port the shell ROUTER socket is listening on.
712 'iopub_port' : int, # The port the PUB socket is listening on.
714 'iopub_port' : int, # The port the PUB socket is listening on.
713 'stdin_port' : int, # The port the stdin ROUTER socket is listening on.
715 'stdin_port' : int, # The port the stdin ROUTER socket is listening on.
714 'hb_port' : int, # The port the heartbeat socket is listening on.
716 'hb_port' : int, # The port the heartbeat socket is listening on.
715 }
717 }
716
718
717
719
718 Kernel info
720 Kernel info
719 -----------
721 -----------
720
722
721 If a client needs to know information about the kernel, it can
723 If a client needs to know information about the kernel, it can
722 make a request of the kernel's information.
724 make a request of the kernel's information.
723 This message can be used to fetch core information of the
725 This message can be used to fetch core information of the
724 kernel, including language (e.g., Python), language version number and
726 kernel, including language (e.g., Python), language version number and
725 IPython version number, and the IPython message spec version number.
727 IPython version number, and the IPython message spec version number.
726
728
727 Message type: ``kernel_info_request``::
729 Message type: ``kernel_info_request``::
728
730
729 content = {
731 content = {
730 }
732 }
731
733
732 Message type: ``kernel_info_reply``::
734 Message type: ``kernel_info_reply``::
733
735
734 content = {
736 content = {
735 # Version of messaging protocol (mandatory).
737 # Version of messaging protocol (mandatory).
736 # The first integer indicates major version. It is incremented when
738 # The first integer indicates major version. It is incremented when
737 # there is any backward incompatible change.
739 # there is any backward incompatible change.
738 # The second integer indicates minor version. It is incremented when
740 # The second integer indicates minor version. It is incremented when
739 # there is any backward compatible change.
741 # there is any backward compatible change.
740 'protocol_version': [int, int],
742 'protocol_version': [int, int],
741
743
742 # IPython version number (optional).
744 # IPython version number (optional).
743 # Non-python kernel backend may not have this version number.
745 # Non-python kernel backend may not have this version number.
744 # The last component is an extra field, which may be 'dev' or
746 # The last component is an extra field, which may be 'dev' or
745 # 'rc1' in development version. It is an empty string for
747 # 'rc1' in development version. It is an empty string for
746 # released version.
748 # released version.
747 'ipython_version': [int, int, int, str],
749 'ipython_version': [int, int, int, str],
748
750
749 # Language version number (mandatory).
751 # Language version number (mandatory).
750 # It is Python version number (e.g., [2, 7, 3]) for the kernel
752 # It is Python version number (e.g., [2, 7, 3]) for the kernel
751 # included in IPython.
753 # included in IPython.
752 'language_version': [int, ...],
754 'language_version': [int, ...],
753
755
754 # Programming language in which kernel is implemented (mandatory).
756 # Programming language in which kernel is implemented (mandatory).
755 # Kernel included in IPython returns 'python'.
757 # Kernel included in IPython returns 'python'.
756 'language': str,
758 'language': str,
757 }
759 }
758
760
759
761
760 Kernel shutdown
762 Kernel shutdown
761 ---------------
763 ---------------
762
764
763 The clients can request the kernel to shut itself down; this is used in
765 The clients can request the kernel to shut itself down; this is used in
764 multiple cases:
766 multiple cases:
765
767
766 - when the user chooses to close the client application via a menu or window
768 - when the user chooses to close the client application via a menu or window
767 control.
769 control.
768 - when the user types 'exit' or 'quit' (or their uppercase magic equivalents).
770 - when the user types 'exit' or 'quit' (or their uppercase magic equivalents).
769 - when the user chooses a GUI method (like the 'Ctrl-C' shortcut in the
771 - when the user chooses a GUI method (like the 'Ctrl-C' shortcut in the
770 IPythonQt client) to force a kernel restart to get a clean kernel without
772 IPythonQt client) to force a kernel restart to get a clean kernel without
771 losing client-side state like history or inlined figures.
773 losing client-side state like history or inlined figures.
772
774
773 The client sends a shutdown request to the kernel, and once it receives the
775 The client sends a shutdown request to the kernel, and once it receives the
774 reply message (which is otherwise empty), it can assume that the kernel has
776 reply message (which is otherwise empty), it can assume that the kernel has
775 completed shutdown safely.
777 completed shutdown safely.
776
778
777 Upon their own shutdown, client applications will typically execute a last
779 Upon their own shutdown, client applications will typically execute a last
778 minute sanity check and forcefully terminate any kernel that is still alive, to
780 minute sanity check and forcefully terminate any kernel that is still alive, to
779 avoid leaving stray processes in the user's machine.
781 avoid leaving stray processes in the user's machine.
780
782
781 Message type: ``shutdown_request``::
783 Message type: ``shutdown_request``::
782
784
783 content = {
785 content = {
784 'restart' : bool # whether the shutdown is final, or precedes a restart
786 'restart' : bool # whether the shutdown is final, or precedes a restart
785 }
787 }
786
788
787 Message type: ``shutdown_reply``::
789 Message type: ``shutdown_reply``::
788
790
789 content = {
791 content = {
790 'restart' : bool # whether the shutdown is final, or precedes a restart
792 'restart' : bool # whether the shutdown is final, or precedes a restart
791 }
793 }
792
794
793 .. Note::
795 .. Note::
794
796
795 When the clients detect a dead kernel thanks to inactivity on the heartbeat
797 When the clients detect a dead kernel thanks to inactivity on the heartbeat
796 socket, they simply send a forceful process termination signal, since a dead
798 socket, they simply send a forceful process termination signal, since a dead
797 process is unlikely to respond in any useful way to messages.
799 process is unlikely to respond in any useful way to messages.
798
800
799
801
800 Messages on the PUB/SUB socket
802 Messages on the PUB/SUB socket
801 ==============================
803 ==============================
802
804
803 Streams (stdout, stderr, etc)
805 Streams (stdout, stderr, etc)
804 ------------------------------
806 ------------------------------
805
807
806 Message type: ``stream``::
808 Message type: ``stream``::
807
809
808 content = {
810 content = {
809 # The name of the stream is one of 'stdout', 'stderr'
811 # The name of the stream is one of 'stdout', 'stderr'
810 'name' : str,
812 'name' : str,
811
813
812 # The data is an arbitrary string to be written to that stream
814 # The data is an arbitrary string to be written to that stream
813 'data' : str,
815 'data' : str,
814 }
816 }
815
817
816 Display Data
818 Display Data
817 ------------
819 ------------
818
820
819 This type of message is used to bring back data that should be diplayed (text,
821 This type of message is used to bring back data that should be diplayed (text,
820 html, svg, etc.) in the frontends. This data is published to all frontends.
822 html, svg, etc.) in the frontends. This data is published to all frontends.
821 Each message can have multiple representations of the data; it is up to the
823 Each message can have multiple representations of the data; it is up to the
822 frontend to decide which to use and how. A single message should contain all
824 frontend to decide which to use and how. A single message should contain all
823 possible representations of the same information. Each representation should
825 possible representations of the same information. Each representation should
824 be a JSON'able data structure, and should be a valid MIME type.
826 be a JSON'able data structure, and should be a valid MIME type.
825
827
826 Some questions remain about this design:
828 Some questions remain about this design:
827
829
828 * Do we use this message type for pyout/displayhook? Probably not, because
830 * Do we use this message type for pyout/displayhook? Probably not, because
829 the displayhook also has to handle the Out prompt display. On the other hand
831 the displayhook also has to handle the Out prompt display. On the other hand
830 we could put that information into the metadata secion.
832 we could put that information into the metadata secion.
831
833
832 Message type: ``display_data``::
834 Message type: ``display_data``::
833
835
834 content = {
836 content = {
835
837
836 # Who create the data
838 # Who create the data
837 'source' : str,
839 'source' : str,
838
840
839 # The data dict contains key/value pairs, where the kids are MIME
841 # The data dict contains key/value pairs, where the kids are MIME
840 # types and the values are the raw data of the representation in that
842 # types and the values are the raw data of the representation in that
841 # format.
843 # format.
842 'data' : dict,
844 'data' : dict,
843
845
844 # Any metadata that describes the data
846 # Any metadata that describes the data
845 'metadata' : dict
847 'metadata' : dict
846 }
848 }
847
849
848
850
849 The ``metadata`` contains any metadata that describes the output.
851 The ``metadata`` contains any metadata that describes the output.
850 Global keys are assumed to apply to the output as a whole.
852 Global keys are assumed to apply to the output as a whole.
851 The ``metadata`` dict can also contain mime-type keys, which will be sub-dictionaries,
853 The ``metadata`` dict can also contain mime-type keys, which will be sub-dictionaries,
852 which are interpreted as applying only to output of that type.
854 which are interpreted as applying only to output of that type.
853 Third parties should put any data they write into a single dict
855 Third parties should put any data they write into a single dict
854 with a reasonably unique name to avoid conflicts.
856 with a reasonably unique name to avoid conflicts.
855
857
856 The only metadata keys currently defined in IPython are the width and height
858 The only metadata keys currently defined in IPython are the width and height
857 of images::
859 of images::
858
860
859 'metadata' : {
861 'metadata' : {
860 'image/png' : {
862 'image/png' : {
861 'width': 640,
863 'width': 640,
862 'height': 480
864 'height': 480
863 }
865 }
864 }
866 }
865
867
866
868
867 Raw Data Publication
869 Raw Data Publication
868 --------------------
870 --------------------
869
871
870 ``display_data`` lets you publish *representations* of data, such as images and html.
872 ``display_data`` lets you publish *representations* of data, such as images and html.
871 This ``data_pub`` message lets you publish *actual raw data*, sent via message buffers.
873 This ``data_pub`` message lets you publish *actual raw data*, sent via message buffers.
872
874
873 data_pub messages are constructed via the :func:`IPython.lib.datapub.publish_data` function:
875 data_pub messages are constructed via the :func:`IPython.lib.datapub.publish_data` function:
874
876
875 .. sourcecode:: python
877 .. sourcecode:: python
876
878
877 from IPython.kernel.zmq.datapub import publish_data
879 from IPython.kernel.zmq.datapub import publish_data
878 ns = dict(x=my_array)
880 ns = dict(x=my_array)
879 publish_data(ns)
881 publish_data(ns)
880
882
881
883
882 Message type: ``data_pub``::
884 Message type: ``data_pub``::
883
885
884 content = {
886 content = {
885 # the keys of the data dict, after it has been unserialized
887 # the keys of the data dict, after it has been unserialized
886 keys = ['a', 'b']
888 keys = ['a', 'b']
887 }
889 }
888 # the namespace dict will be serialized in the message buffers,
890 # the namespace dict will be serialized in the message buffers,
889 # which will have a length of at least one
891 # which will have a length of at least one
890 buffers = ['pdict', ...]
892 buffers = ['pdict', ...]
891
893
892
894
893 The interpretation of a sequence of data_pub messages for a given parent request should be
895 The interpretation of a sequence of data_pub messages for a given parent request should be
894 to update a single namespace with subsequent results.
896 to update a single namespace with subsequent results.
895
897
896 .. note::
898 .. note::
897
899
898 No frontends directly handle data_pub messages at this time.
900 No frontends directly handle data_pub messages at this time.
899 It is currently only used by the client/engines in :mod:`IPython.parallel`,
901 It is currently only used by the client/engines in :mod:`IPython.parallel`,
900 where engines may publish *data* to the Client,
902 where engines may publish *data* to the Client,
901 of which the Client can then publish *representations* via ``display_data``
903 of which the Client can then publish *representations* via ``display_data``
902 to various frontends.
904 to various frontends.
903
905
904 Python inputs
906 Python inputs
905 -------------
907 -------------
906
908
907 These messages are the re-broadcast of the ``execute_request``.
909 These messages are the re-broadcast of the ``execute_request``.
908
910
909 Message type: ``pyin``::
911 Message type: ``pyin``::
910
912
911 content = {
913 content = {
912 'code' : str, # Source code to be executed, one or more lines
914 'code' : str, # Source code to be executed, one or more lines
913
915
914 # The counter for this execution is also provided so that clients can
916 # The counter for this execution is also provided so that clients can
915 # display it, since IPython automatically creates variables called _iN
917 # display it, since IPython automatically creates variables called _iN
916 # (for input prompt In[N]).
918 # (for input prompt In[N]).
917 'execution_count' : int
919 'execution_count' : int
918 }
920 }
919
921
920 Python outputs
922 Python outputs
921 --------------
923 --------------
922
924
923 When Python produces output from code that has been compiled in with the
925 When Python produces output from code that has been compiled in with the
924 'single' flag to :func:`compile`, any expression that produces a value (such as
926 'single' flag to :func:`compile`, any expression that produces a value (such as
925 ``1+1``) is passed to ``sys.displayhook``, which is a callable that can do with
927 ``1+1``) is passed to ``sys.displayhook``, which is a callable that can do with
926 this value whatever it wants. The default behavior of ``sys.displayhook`` in
928 this value whatever it wants. The default behavior of ``sys.displayhook`` in
927 the Python interactive prompt is to print to ``sys.stdout`` the :func:`repr` of
929 the Python interactive prompt is to print to ``sys.stdout`` the :func:`repr` of
928 the value as long as it is not ``None`` (which isn't printed at all). In our
930 the value as long as it is not ``None`` (which isn't printed at all). In our
929 case, the kernel instantiates as ``sys.displayhook`` an object which has
931 case, the kernel instantiates as ``sys.displayhook`` an object which has
930 similar behavior, but which instead of printing to stdout, broadcasts these
932 similar behavior, but which instead of printing to stdout, broadcasts these
931 values as ``pyout`` messages for clients to display appropriately.
933 values as ``pyout`` messages for clients to display appropriately.
932
934
933 IPython's displayhook can handle multiple simultaneous formats depending on its
935 IPython's displayhook can handle multiple simultaneous formats depending on its
934 configuration. The default pretty-printed repr text is always given with the
936 configuration. The default pretty-printed repr text is always given with the
935 ``data`` entry in this message. Any other formats are provided in the
937 ``data`` entry in this message. Any other formats are provided in the
936 ``extra_formats`` list. Frontends are free to display any or all of these
938 ``extra_formats`` list. Frontends are free to display any or all of these
937 according to its capabilities. ``extra_formats`` list contains 3-tuples of an ID
939 according to its capabilities. ``extra_formats`` list contains 3-tuples of an ID
938 string, a type string, and the data. The ID is unique to the formatter
940 string, a type string, and the data. The ID is unique to the formatter
939 implementation that created the data. Frontends will typically ignore the ID
941 implementation that created the data. Frontends will typically ignore the ID
940 unless if it has requested a particular formatter. The type string tells the
942 unless if it has requested a particular formatter. The type string tells the
941 frontend how to interpret the data. It is often, but not always a MIME type.
943 frontend how to interpret the data. It is often, but not always a MIME type.
942 Frontends should ignore types that it does not understand. The data itself is
944 Frontends should ignore types that it does not understand. The data itself is
943 any JSON object and depends on the format. It is often, but not always a string.
945 any JSON object and depends on the format. It is often, but not always a string.
944
946
945 Message type: ``pyout``::
947 Message type: ``pyout``::
946
948
947 content = {
949 content = {
948
950
949 # The counter for this execution is also provided so that clients can
951 # The counter for this execution is also provided so that clients can
950 # display it, since IPython automatically creates variables called _N
952 # display it, since IPython automatically creates variables called _N
951 # (for prompt N).
953 # (for prompt N).
952 'execution_count' : int,
954 'execution_count' : int,
953
955
954 # data and metadata are identical to a display_data message.
956 # data and metadata are identical to a display_data message.
955 # the object being displayed is that passed to the display hook,
957 # the object being displayed is that passed to the display hook,
956 # i.e. the *result* of the execution.
958 # i.e. the *result* of the execution.
957 'data' : dict,
959 'data' : dict,
958 'metadata' : dict,
960 'metadata' : dict,
959 }
961 }
960
962
961 Python errors
963 Python errors
962 -------------
964 -------------
963
965
964 When an error occurs during code execution
966 When an error occurs during code execution
965
967
966 Message type: ``pyerr``::
968 Message type: ``pyerr``::
967
969
968 content = {
970 content = {
969 # Similar content to the execute_reply messages for the 'error' case,
971 # Similar content to the execute_reply messages for the 'error' case,
970 # except the 'status' field is omitted.
972 # except the 'status' field is omitted.
971 }
973 }
972
974
973 Kernel status
975 Kernel status
974 -------------
976 -------------
975
977
976 This message type is used by frontends to monitor the status of the kernel.
978 This message type is used by frontends to monitor the status of the kernel.
977
979
978 Message type: ``status``::
980 Message type: ``status``::
979
981
980 content = {
982 content = {
981 # When the kernel starts to execute code, it will enter the 'busy'
983 # When the kernel starts to execute code, it will enter the 'busy'
982 # state and when it finishes, it will enter the 'idle' state.
984 # state and when it finishes, it will enter the 'idle' state.
983 # The kernel will publish state 'starting' exactly once at process startup.
985 # The kernel will publish state 'starting' exactly once at process startup.
984 execution_state : ('busy', 'idle', 'starting')
986 execution_state : ('busy', 'idle', 'starting')
985 }
987 }
986
988
987 Clear output
989 Clear output
988 ------------
990 ------------
989
991
990 This message type is used to clear the output that is visible on the frontend.
992 This message type is used to clear the output that is visible on the frontend.
991
993
992 Message type: ``clear_output``::
994 Message type: ``clear_output``::
993
995
994 content = {
996 content = {
995
997
996 # Wait to clear the output until new output is available. Clears the
998 # Wait to clear the output until new output is available. Clears the
997 # existing output immediately before the new output is displayed.
999 # existing output immediately before the new output is displayed.
998 # Useful for creating simple animations with minimal flickering.
1000 # Useful for creating simple animations with minimal flickering.
999 'wait' : bool,
1001 'wait' : bool,
1000 }
1002 }
1001
1003
1002 Messages on the stdin ROUTER/DEALER sockets
1004 Messages on the stdin ROUTER/DEALER sockets
1003 ===========================================
1005 ===========================================
1004
1006
1005 This is a socket where the request/reply pattern goes in the opposite direction:
1007 This is a socket where the request/reply pattern goes in the opposite direction:
1006 from the kernel to a *single* frontend, and its purpose is to allow
1008 from the kernel to a *single* frontend, and its purpose is to allow
1007 ``raw_input`` and similar operations that read from ``sys.stdin`` on the kernel
1009 ``raw_input`` and similar operations that read from ``sys.stdin`` on the kernel
1008 to be fulfilled by the client. The request should be made to the frontend that
1010 to be fulfilled by the client. The request should be made to the frontend that
1009 made the execution request that prompted ``raw_input`` to be called. For now we
1011 made the execution request that prompted ``raw_input`` to be called. For now we
1010 will keep these messages as simple as possible, since they only mean to convey
1012 will keep these messages as simple as possible, since they only mean to convey
1011 the ``raw_input(prompt)`` call.
1013 the ``raw_input(prompt)`` call.
1012
1014
1013 Message type: ``input_request``::
1015 Message type: ``input_request``::
1014
1016
1015 content = { 'prompt' : str }
1017 content = { 'prompt' : str }
1016
1018
1017 Message type: ``input_reply``::
1019 Message type: ``input_reply``::
1018
1020
1019 content = { 'value' : str }
1021 content = { 'value' : str }
1020
1022
1021 .. Note::
1023 .. Note::
1022
1024
1023 We do not explicitly try to forward the raw ``sys.stdin`` object, because in
1025 We do not explicitly try to forward the raw ``sys.stdin`` object, because in
1024 practice the kernel should behave like an interactive program. When a
1026 practice the kernel should behave like an interactive program. When a
1025 program is opened on the console, the keyboard effectively takes over the
1027 program is opened on the console, the keyboard effectively takes over the
1026 ``stdin`` file descriptor, and it can't be used for raw reading anymore.
1028 ``stdin`` file descriptor, and it can't be used for raw reading anymore.
1027 Since the IPython kernel effectively behaves like a console program (albeit
1029 Since the IPython kernel effectively behaves like a console program (albeit
1028 one whose "keyboard" is actually living in a separate process and
1030 one whose "keyboard" is actually living in a separate process and
1029 transported over the zmq connection), raw ``stdin`` isn't expected to be
1031 transported over the zmq connection), raw ``stdin`` isn't expected to be
1030 available.
1032 available.
1031
1033
1032
1034
1033 Heartbeat for kernels
1035 Heartbeat for kernels
1034 =====================
1036 =====================
1035
1037
1036 Initially we had considered using messages like those above over ZMQ for a
1038 Initially we had considered using messages like those above over ZMQ for a
1037 kernel 'heartbeat' (a way to detect quickly and reliably whether a kernel is
1039 kernel 'heartbeat' (a way to detect quickly and reliably whether a kernel is
1038 alive at all, even if it may be busy executing user code). But this has the
1040 alive at all, even if it may be busy executing user code). But this has the
1039 problem that if the kernel is locked inside extension code, it wouldn't execute
1041 problem that if the kernel is locked inside extension code, it wouldn't execute
1040 the python heartbeat code. But it turns out that we can implement a basic
1042 the python heartbeat code. But it turns out that we can implement a basic
1041 heartbeat with pure ZMQ, without using any Python messaging at all.
1043 heartbeat with pure ZMQ, without using any Python messaging at all.
1042
1044
1043 The monitor sends out a single zmq message (right now, it is a str of the
1045 The monitor sends out a single zmq message (right now, it is a str of the
1044 monitor's lifetime in seconds), and gets the same message right back, prefixed
1046 monitor's lifetime in seconds), and gets the same message right back, prefixed
1045 with the zmq identity of the DEALER socket in the heartbeat process. This can be
1047 with the zmq identity of the DEALER socket in the heartbeat process. This can be
1046 a uuid, or even a full message, but there doesn't seem to be a need for packing
1048 a uuid, or even a full message, but there doesn't seem to be a need for packing
1047 up a message when the sender and receiver are the exact same Python object.
1049 up a message when the sender and receiver are the exact same Python object.
1048
1050
1049 The model is this::
1051 The model is this::
1050
1052
1051 monitor.send(str(self.lifetime)) # '1.2345678910'
1053 monitor.send(str(self.lifetime)) # '1.2345678910'
1052
1054
1053 and the monitor receives some number of messages of the form::
1055 and the monitor receives some number of messages of the form::
1054
1056
1055 ['uuid-abcd-dead-beef', '1.2345678910']
1057 ['uuid-abcd-dead-beef', '1.2345678910']
1056
1058
1057 where the first part is the zmq.IDENTITY of the heart's DEALER on the engine, and
1059 where the first part is the zmq.IDENTITY of the heart's DEALER on the engine, and
1058 the rest is the message sent by the monitor. No Python code ever has any
1060 the rest is the message sent by the monitor. No Python code ever has any
1059 access to the message between the monitor's send, and the monitor's recv.
1061 access to the message between the monitor's send, and the monitor's recv.
1060
1062
1061 Custom Messages
1063 Custom Messages
1062 ===============
1064 ===============
1063
1065
1064 IPython 2.0 adds a messaging system for developers to add their own objects with Frontend
1066 IPython 2.0 adds a messaging system for developers to add their own objects with Frontend
1065 and Kernel-side components, and allow them to communicate with each other.
1067 and Kernel-side components, and allow them to communicate with each other.
1066 To do this, IPython adds a notion of a ``Comm``, which exists on both sides,
1068 To do this, IPython adds a notion of a ``Comm``, which exists on both sides,
1067 and can communicate in either direction.
1069 and can communicate in either direction.
1068
1070
1069 These messages are fully symmetrical - both the Kernel and the Frontend can send each message,
1071 These messages are fully symmetrical - both the Kernel and the Frontend can send each message,
1070 and no messages expect a reply.
1072 and no messages expect a reply.
1071 The Kernel listens for these messages on the Shell channel,
1073 The Kernel listens for these messages on the Shell channel,
1072 and the Frontend listens for them on the IOPub channel.
1074 and the Frontend listens for them on the IOPub channel.
1073
1075
1074 .. versionadded:: 2.0
1076 .. versionadded:: 2.0
1075
1077
1076 Opening a Comm
1078 Opening a Comm
1077 --------------
1079 --------------
1078
1080
1079 Opening a Comm produces a ``comm_open`` message, to be sent to the other side::
1081 Opening a Comm produces a ``comm_open`` message, to be sent to the other side::
1080
1082
1081 {
1083 {
1082 'comm_id' : 'u-u-i-d',
1084 'comm_id' : 'u-u-i-d',
1083 'target_name' : 'my_comm',
1085 'target_name' : 'my_comm',
1084 'data' : {}
1086 'data' : {}
1085 }
1087 }
1086
1088
1087 Every Comm has an ID and a target name.
1089 Every Comm has an ID and a target name.
1088 The code handling the message on the receiving side is responsible for maintaining a mapping
1090 The code handling the message on the receiving side is responsible for maintaining a mapping
1089 of target_name keys to constructors.
1091 of target_name keys to constructors.
1090 After a ``comm_open`` message has been sent,
1092 After a ``comm_open`` message has been sent,
1091 there should be a corresponding Comm instance on both sides.
1093 there should be a corresponding Comm instance on both sides.
1092 The ``data`` key is always a dict and can be any extra JSON information used in initialization of the comm.
1094 The ``data`` key is always a dict and can be any extra JSON information used in initialization of the comm.
1093
1095
1094 If the ``target_name`` key is not found on the receiving side,
1096 If the ``target_name`` key is not found on the receiving side,
1095 then it should immediately reply with a ``comm_close`` message to avoid an inconsistent state.
1097 then it should immediately reply with a ``comm_close`` message to avoid an inconsistent state.
1096
1098
1097 Comm Messages
1099 Comm Messages
1098 -------------
1100 -------------
1099
1101
1100 Comm messages are one-way communications to update comm state,
1102 Comm messages are one-way communications to update comm state,
1101 used for synchronizing widget state, or simply requesting actions of a comm's counterpart.
1103 used for synchronizing widget state, or simply requesting actions of a comm's counterpart.
1102
1104
1103 Essentially, each comm pair defines their own message specification implemented inside the ``data`` dict.
1105 Essentially, each comm pair defines their own message specification implemented inside the ``data`` dict.
1104
1106
1105 There are no expected replies (of course, one side can send another ``comm_msg`` in reply).
1107 There are no expected replies (of course, one side can send another ``comm_msg`` in reply).
1106
1108
1107 Message type: ``comm_msg``::
1109 Message type: ``comm_msg``::
1108
1110
1109 {
1111 {
1110 'comm_id' : 'u-u-i-d',
1112 'comm_id' : 'u-u-i-d',
1111 'data' : {}
1113 'data' : {}
1112 }
1114 }
1113
1115
1114 Tearing Down Comms
1116 Tearing Down Comms
1115 ------------------
1117 ------------------
1116
1118
1117 Since comms live on both sides, when a comm is destroyed the other side must be notified.
1119 Since comms live on both sides, when a comm is destroyed the other side must be notified.
1118 This is done with a ``comm_close`` message.
1120 This is done with a ``comm_close`` message.
1119
1121
1120 Message type: ``comm_close``::
1122 Message type: ``comm_close``::
1121
1123
1122 {
1124 {
1123 'comm_id' : 'u-u-i-d',
1125 'comm_id' : 'u-u-i-d',
1124 'data' : {}
1126 'data' : {}
1125 }
1127 }
1126
1128
1127 Output Side Effects
1129 Output Side Effects
1128 -------------------
1130 -------------------
1129
1131
1130 Since comm messages can execute arbitrary user code,
1132 Since comm messages can execute arbitrary user code,
1131 handlers should set the parent header and publish status busy / idle,
1133 handlers should set the parent header and publish status busy / idle,
1132 just like an execute request.
1134 just like an execute request.
1133
1135
1134
1136
1135 ToDo
1137 ToDo
1136 ====
1138 ====
1137
1139
1138 Missing things include:
1140 Missing things include:
1139
1141
1140 * Important: finish thinking through the payload concept and API.
1142 * Important: finish thinking through the payload concept and API.
1141
1143
1142 * Important: ensure that we have a good solution for magics like %edit. It's
1144 * Important: ensure that we have a good solution for magics like %edit. It's
1143 likely that with the payload concept we can build a full solution, but not
1145 likely that with the payload concept we can build a full solution, but not
1144 100% clear yet.
1146 100% clear yet.
1145
1147
1146 .. include:: ../links.txt
1148 .. include:: ../links.txt
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