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Sat Mar 24 20:47:54 2018 +0100 (16 months ago)
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     1 (*:maxLineLen=78:*)
     3 theory Server
     4 imports Base
     5 begin
     7 chapter \<open>The Isabelle server\<close>
     9 text \<open>
    10   An Isabelle session requires at least two processes, which are both rather
    11   heavy: Isabelle/Scala for the system infrastructure and Isabelle/ML for the
    12   logic session (e.g.\ HOL). In principle, these processes can be invoked
    13   directly on the command-line, e.g.\ via @{tool java}, @{tool scala}, @{tool
    14   process}, @{tool console}, but this approach is inadequate for reactive
    15   applications that require quick responses from the prover.
    17   In contrast, the Isabelle server exposes Isabelle/Scala as a
    18   ``terminate-stay-resident'' application that manages multiple logic
    19   \<^emph>\<open>sessions\<close> and concurrent tasks to use \<^emph>\<open>theories\<close>. This provides an
    20   analogous to @{ML Thy_Info.use_theories} in Isabelle/ML, but with full
    21   concurrency and Isabelle/PIDE markup.
    23   The client/server arrangement via TCP sockets also opens possibilities for
    24   remote Isabelle services that are accessed by local applications, e.g.\ via
    25   an SSH tunnel.
    26 \<close>
    29 section \<open>Command-line tools\<close>
    31 subsection \<open>Server \label{sec:tool-server}\<close>
    33 text \<open>
    34   The @{tool_def server} tool manages resident server processes:
    35   @{verbatim [display]
    36 \<open>Usage: isabelle server [OPTIONS]
    38   Options are:
    39     -L FILE      logging on FILE
    40     -c           console interaction with specified server
    41     -l           list servers (alternative operation)
    42     -n NAME      explicit server name (default: isabelle)
    43     -p PORT      explicit server port
    44     -s           assume existing server, no implicit startup
    45     -x           exit specified server (alternative operation)
    47   Manage resident Isabelle servers.\<close>}
    49   The main operation of \<^verbatim>\<open>isabelle server\<close> is to ensure that a named server is
    50   running, either by finding an already running process (according to the
    51   central database file @{path "$ISABELLE_HOME_USER/servers.db"}) or by
    52   becoming itself a new server that accepts connections on a particular TCP
    53   socket. The server name and its address are printed as initial output line.
    54   If another server instance is already running, the current
    55   \<^verbatim>\<open>isabelle server\<close> process will terminate; otherwise, it keeps running as a
    56   new server process until an explicit \<^verbatim>\<open>shutdown\<close> command is received.
    57   Further details of the server socket protocol are explained in
    58   \secref{sec:server-protocol}.
    60   Other server management operations are invoked via options \<^verbatim>\<open>-l\<close> and \<^verbatim>\<open>-x\<close>
    61   (see below).
    63   \<^medskip>
    64   Option \<^verbatim>\<open>-n\<close> specifies an alternative server name: at most one process for
    65   each name may run, but each server instance supports multiple connections
    66   and logic sessions.
    68   \<^medskip>
    69   Option \<^verbatim>\<open>-p\<close> specifies an explicit TCP port for the server socket (which is
    70   always on \<^verbatim>\<open>localhost\<close>): the default is to let the operating system assign a
    71   free port number.
    73   \<^medskip>
    74   Option \<^verbatim>\<open>-s\<close> strictly assumes that the specified server process is already
    75   running, skipping the optional server startup phase.
    77   \<^medskip>
    78   Option \<^verbatim>\<open>-c\<close> connects the console in/out channels after the initial check
    79   for a suitable server process. Also note that the @{tool client} tool
    80   (\secref{sec:tool-client}) provides a command-line editor to interact with
    81   the server.
    83   \<^medskip>
    84   Option \<^verbatim>\<open>-L\<close> specifies a log file for exceptional output of internal server
    85   and session operations.
    87   \<^medskip>
    88   Operation \<^verbatim>\<open>-l\<close> lists all active server processes with their connection
    89   details.
    91   \<^medskip>
    92   Operation \<^verbatim>\<open>-x\<close> exits the specified server process by sending it a
    93   \<^verbatim>\<open>shutdown\<close> command.
    94 \<close>
    97 subsection \<open>Client \label{sec:tool-client}\<close>
    99 text \<open>
   100   The @{tool_def client} tool provides console interaction for Isabelle
   101   servers:
   102   @{verbatim [display]
   103 \<open>Usage: isabelle client [OPTIONS]
   105   Options are:
   106     -n NAME      explicit server name
   107     -p PORT      explicit server port
   109   Console interaction for Isabelle server (with line-editor).\<close>}
   111   This is a wrapper to \<^verbatim>\<open>isabelle server -s -c\<close> for interactive
   112   experimentation, which uses @{setting ISABELLE_LINE_EDITOR} if available.
   113   The server name is sufficient for identification, as the client can
   114   determine the connection details from the local database of active servers.
   116   \<^medskip>
   117   Option \<^verbatim>\<open>-n\<close> specifies an explicit server name as in @{tool server}.
   119   \<^medskip>
   120   Option \<^verbatim>\<open>-p\<close> specifies an explicit server port as in @{tool server}.
   121 \<close>
   124 subsection \<open>Examples\<close>
   126 text \<open>
   127   Ensure that a particular server instance is running in the background:
   128   @{verbatim [display] \<open>isabelle server -n test &\<close>}
   130   The first line of output presents the connection details:\<^footnote>\<open>This information
   131   may be used in other TCP clients, without access to Isabelle/Scala and the
   132   underlying database of running servers.\<close>
   133   @{verbatim [display] \<open>server "test" = (password "XYZ")\<close>}
   135   \<^medskip>
   136   List available server processes:
   137   @{verbatim [display] \<open>isabelle server -l\<close>}
   139   \<^medskip>
   140   Connect the command-line client to the above test server:
   141   @{verbatim [display] \<open>isabelle client -n test\<close>}
   143   Interaction now works on a line-by-line basis, with commands like \<^verbatim>\<open>help\<close> or
   144   \<^verbatim>\<open>echo\<close>. For example, some JSON values may be echoed like this:
   146   @{verbatim [display]
   147 \<open>echo 42
   148 echo [1, 2, 3]
   149 echo {"a": "text", "b": true, "c": 42}\<close>}
   151   Closing the connection (via CTRL-D) leaves the server running: it is
   152   possible to reconnect again, and have multiple connections at the same time.
   154   \<^medskip>
   155   Exit the named server on the command-line:
   156   @{verbatim [display] \<open>isabelle server -n test -x\<close>}
   157 \<close>
   160 section \<open>Protocol messages \label{sec:server-protocol}\<close>
   162 text \<open>
   163   The Isabelle server listens on a regular TCP socket, using a line-oriented
   164   protocol of structured messages. Input \<^emph>\<open>commands\<close> and output \<^emph>\<open>results\<close>
   165   (via \<^verbatim>\<open>OK\<close> or \<^verbatim>\<open>ERROR\<close>) are strictly alternating on the toplevel, but
   166   commands may also return a \<^emph>\<open>task\<close> identifier to indicate an ongoing
   167   asynchronous process that is joined later (via \<^verbatim>\<open>FINISHED\<close> or \<^verbatim>\<open>FAILED\<close>).
   168   Asynchronous \<^verbatim>\<open>NOTE\<close> messages may occur at any time: they are independent of
   169   the main command-result protocol.
   171   For example, the synchronous \<^verbatim>\<open>echo\<close> command immediately returns its
   172   argument as \<^verbatim>\<open>OK\<close> result. In contrast, the asynchronous \<^verbatim>\<open>session_build\<close>
   173   command returns \<^verbatim>\<open>OK {"task":\<close>\<open>id\<close>\<^verbatim>\<open>}\<close> and continues in the background. It
   174   will eventually produce \<^verbatim>\<open>FINISHED {"task":\<close>\<open>id\<close>\<^verbatim>\<open>,\<close>\<open>\<dots>\<close>\<^verbatim>\<open>}\<close> or
   175   \<^verbatim>\<open>FAILED {"task":\<close>\<open>id\<close>\<^verbatim>\<open>,\<close>\<open>\<dots>\<close>\<^verbatim>\<open>}\<close> with the final result. Intermediately, it
   176   may emit asynchronous messages of the form \<^verbatim>\<open>NOTE {"task":\<close>\<open>id\<close>\<^verbatim>\<open>,\<close>\<open>\<dots>\<close>\<^verbatim>\<open>}\<close>
   177   to inform about its progress. Due to the explicit task identifier, the
   178   client can show these messages in the proper context, e.g.\ a GUI window for
   179   this particular session build job.
   181   \medskip Subsequently, the protocol message formats are described in further
   182   detail.
   183 \<close>
   186 subsection \<open>Byte messages\<close>
   188 text \<open>
   189   The client-server connection is a raw byte-channel for bidirectional
   190   communication, but the Isabelle server always works with messages of a
   191   particular length. Messages are written as a single chunk that is flushed
   192   immediately.
   194   Message boundaries are determined as follows:
   196     \<^item> A \<^emph>\<open>short message\<close> consists of a single line: it is a sequence of
   197     arbitrary bytes excluding CR (13) and LF (10), and terminated by CR-LF or
   198     just LF.
   200     \<^item> A \<^emph>\<open>long message\<close> starts with a single that consists only of decimal
   201     digits: these are interpreted as length of the subsequent block of
   202     arbitrary bytes. A final line-terminator (as above) may be included here,
   203     but is not required.
   205   Messages in JSON format (see below) always fit on a single line, due to
   206   escaping of newline characters within string literals. This is convenient
   207   for interactive experimentation, but it can impact performance for very long
   208   messages. If the message byte-length is given on the preceding line, the
   209   server can read the message more efficiently as a single block.
   210 \<close>
   213 subsection \<open>Text messages\<close>
   215 text \<open>
   216   Messages are read and written as byte streams (with byte lengths), but the
   217   content is always interpreted as plain text in terms of the UTF-8
   218   encoding.\<^footnote>\<open>See also the ``UTF-8 Everywhere Manifesto''
   219   \<^url>\<open>\<close>.\<close>
   221   Note that line-endings and other formatting characters are invariant wrt.
   222   UTF-8 representation of text: thus implementations are free to determine the
   223   overall message structure before or after applying the text encoding.
   224 \<close>
   227 subsection \<open>Input and output messages \label{sec:input-output-messages}\<close>
   229 text \<open>
   230   Server input and output messages have a uniform format as follows:
   232     \<^item> \<open>name argument\<close> such that:
   234     \<^item> \<open>name\<close> is the longest prefix consisting of ASCII letters, digits,
   235     ``\<^verbatim>\<open>_\<close>'', ``\<^verbatim>\<open>.\<close>'',
   237     \<^item> the separator between \<open>name\<close> and \<open>argument\<close> is the longest possible
   238     sequence of ASCII blanks (it could be empty, e.g.\ when the argument
   239     starts with a quote or bracket),
   241     \<^item> \<open>argument\<close> is the rest of the message without line terminator.
   243   \<^medskip>
   244   Input messages are sent from the client to the server. Here the \<open>name\<close>
   245   specifies a \<^emph>\<open>server command\<close>: the list of known commands may be
   246   retrieved via the \<^verbatim>\<open>help\<close> command.
   248   \<^medskip>
   249   Output messages are sent from the server to the client. Here the \<open>name\<close>
   250   specifies the \<^emph>\<open>server reply\<close>, which always has a specific meaning as
   251   follows:
   253     \<^item> synchronous results: \<^verbatim>\<open>OK\<close> or \<^verbatim>\<open>ERROR\<close>
   254     \<^item> asynchronous results: \<^verbatim>\<open>FINISHED\<close> or \<^verbatim>\<open>FAILED\<close>
   255     \<^item> intermediate notifications: \<^verbatim>\<open>NOTE\<close>
   257   \<^medskip>
   258   The \<open>argument\<close> format is uniform for both input and output messages:
   260     \<^item> empty argument (Scala type \<^verbatim>\<open>Unit\<close>)
   261     \<^item> XML element in YXML notation (Scala type \<^verbatim>\<open>XML.Elem\<close>)
   262     \<^item> JSON value (Scala type \<^verbatim>\<open>JSON.T\<close>)
   264   JSON values may consist of objects (records), arrays (lists), strings,
   265   numbers, bools, null.\<^footnote>\<open>See also the official specification
   266   \<^url>\<open>\<close> and unofficial explorations ``Parsing JSON is a
   267   Minefield'' \<^url>\<open>\<close>.\<close> Since JSON requires
   268   explicit quotes and backslash-escapes to represent arbitrary text, the YXML
   269   notation for XML trees (\secref{sec:yxml-vs-xml}) works better
   270   for large messages with a lot of PIDE markup.
   272   Nonetheless, the most common commands use JSON by default: big chunks of
   273   text (theory sources etc.) are taken from the underlying file-system and
   274   results are pre-formatted for plain-text output, without PIDE markup
   275   information. This is a concession to simplicity: the server imitates the
   276   appearance of command-line tools on top of the Isabelle/PIDE infrastructure.
   277 \<close>
   280 subsection \<open>Initial password exchange\<close>
   282 text \<open>
   283   Whenever a new client opens the server socket, the initial message needs to
   284   be its unique password. The server replies either with \<^verbatim>\<open>OK\<close> (and some
   285   information about the Isabelle version) or by silent disconnection of what
   286   is considered an illegal connection attempt. Note that @{tool client}
   287   already presents the correct password internally.
   289   Server passwords are created as Universally Unique Identifier (UUID) in
   290   Isabelle/Scala and stored in a per-user database, with restricted
   291   file-system access only for the current user. The Isabelle/Scala server
   292   implementation is careful to expose the password only on private output
   293   channels, and not on a process command-line (which is accessible to other
   294   users, e.g.\ via the \<^verbatim>\<open>ps\<close> command).
   295 \<close>
   298 subsection \<open>Synchronous commands\<close>
   300 text \<open>
   301   A \<^emph>\<open>synchronous command\<close> corresponds to regular function application in
   302   Isabelle/Scala, with single argument and result (regular or error). Both the
   303   argument and the result may consist of type \<^verbatim>\<open>Unit\<close>, \<^verbatim>\<open>XML.Elem\<close>, \<^verbatim>\<open>JSON.T\<close>.
   304   An error result typically consists of a JSON object with error message and
   305   potentially further result fields (this resembles exceptions in Scala).
   307   These are the protocol exchanges for both cases of command execution:
   308   \begin{center}
   309   \begin{tabular}{rl}
   310   \<^bold>\<open>input:\<close> & \<open>command argument\<close> \\
   311   (a) regular \<^bold>\<open>output:\<close> & \<^verbatim>\<open>OK\<close> \<open>result\<close> \\
   312   (b) error \<^bold>\<open>output:\<close> & \<^verbatim>\<open>ERROR\<close> \<open>result\<close> \\
   313   \end{tabular}
   314   \end{center}
   315 \<close>
   318 subsection \<open>Asynchronous commands\<close>
   320 text \<open>
   321   An \<^emph>\<open>asynchronous command\<close> corresponds to an ongoing process that finishes
   322   or fails eventually, while emitting arbitrary notifications in between.
   323   Formally, it starts as synchronous command with immediate result \<^verbatim>\<open>OK\<close>
   324   giving the \<^verbatim>\<open>task\<close> identifier, or an immediate \<^verbatim>\<open>ERROR\<close> that indicates bad
   325   command syntax. For a running task, the termination is indicated later by
   326   \<^verbatim>\<open>FINISHED\<close> or \<^verbatim>\<open>FAILED\<close>, together with its ultimate result value.
   328   These are the protocol exchanges for various cases of command task
   329   execution:
   331   \begin{center}
   332   \begin{tabular}{rl}
   333   \<^bold>\<open>input:\<close> & \<open>command argument\<close> \\
   334   immediate \<^bold>\<open>output:\<close> & \<^verbatim>\<open>OK {"task":\<close>\<open>id\<close>\<^verbatim>\<open>}\<close> \\
   335   intermediate \<^bold>\<open>output:\<close> & \<^verbatim>\<open>NOTE {"task":\<close>\<open>id\<close>\<^verbatim>\<open>,\<close>\<open>\<dots>\<close>\<^verbatim>\<open>}\<close> \\
   336   (a) regular \<^bold>\<open>output:\<close> & \<^verbatim>\<open>FINISHED {"task":\<close>\<open>id\<close>\<^verbatim>\<open>,\<close>\<open>\<dots>\<close>\<^verbatim>\<open>}\<close> \\
   337   (b) error \<^bold>\<open>output:\<close> & \<^verbatim>\<open>FAILED {"task":\<close>\<open>id\<close>\<^verbatim>\<open>,\<close>\<open>\<dots>\<close>\<^verbatim>\<open>}\<close> \\[3ex]
   338   \<^bold>\<open>input:\<close> & \<open>command argument\<close> \\
   339   immediate \<^bold>\<open>output:\<close> & \<^verbatim>\<open>ERROR\<close>~\<open>\<dots>\<close> \\
   340   \end{tabular}
   341   \end{center}
   343   All asynchronous messages are decorated with the task identifier that was
   344   revealed in the immediate (synchronous) result. Thus the client can
   345   invoke further asynchronous commands and still dispatch the resulting stream of
   346   asynchronous messages properly.
   348   The synchronous command \<^verbatim>\<open>cancel {"task":\<close>~\<open>id\<close>\<^verbatim>\<open>}\<close> tells the specified task
   349   to terminate prematurely: usually causing a \<^verbatim>\<open>FAILED\<close> result, but this is
   350   not guaranteed: the cancel event may come too late or the running process
   351   may just ignore it.
   352 \<close>
   355 section \<open>Types for JSON values \label{sec:json-types}\<close>
   357 text \<open>
   358   In order to specify concrete JSON types for command arguments and result
   359   messages, the following type definition language shall be used:
   361   \<^rail>\<open>
   362     @{syntax type_def}: @'type' @{syntax name} '=' @{syntax type}
   363     ;
   364     @{syntax type}: @{syntax name} | @{syntax value} | 'any' | 'null' |
   365       'bool' | 'int' | 'long' | 'double' | 'string' | '[' @{syntax type} ']' |
   366       '{' (@{syntax field_type} ',' *) '}' |
   367       @{syntax type} '\<oplus>' @{syntax type} |
   368       @{syntax type} '|' @{syntax type} |
   369       '(' @{syntax type} ')'
   370     ;
   371     @{syntax field_type}: @{syntax name} ('?'?) ':' @{syntax type}
   372   \<close>
   374   This is a simplified variation of TypeScript
   375   interfaces.\<^footnote>\<open>\<^url>\<open>\<close>\<close>
   376   The meaning of these types is specified wrt. the Isabelle/Scala
   377   implementation as follows.
   379   \<^item> A \<open>name\<close> refers to a type defined elsewhere. The environment of type
   380   definitions is given informally: put into proper foundational order, it
   381   needs to specify a strongly normalizing system of syntactic abbreviations;
   382   type definitions may not be recursive.
   384   \<^item> A \<open>value\<close> in JSON notation represents the singleton type of the given
   385   item. For example, the string \<^verbatim>\<open>"error"\<close> can be used as type for a slot that
   386   is guaranteed to contain that constant.
   388   \<^item> Type \<open>any\<close> is the super type of all other types: it is an untyped slot in
   389   the specification and corresponds to \<^verbatim>\<open>Any\<close> or \<^verbatim>\<open>JSON.T\<close> in Isabelle/Scala.
   391   \<^item> Type \<open>null\<close> is the type of the improper value \<open>null\<close>; it corresponds to
   392   type \<^verbatim>\<open>Null\<close> in Scala and is normally not used in Isabelle/Scala.\<^footnote>\<open>See also
   393   ``Null References: The Billion Dollar Mistake'' by Tony Hoare
   394   \<^url>\<open>\<close>.\<close>
   396   \<^item> Type \<open>bool\<close> is the type of the truth values \<^verbatim>\<open>true\<close> and \<^verbatim>\<open>false\<close>; it
   397   corresponds to \<^verbatim>\<open>Boolean\<close> in Scala.
   399   \<^item> Types \<open>int\<close>, \<open>long\<close>, \<open>double\<close> are specific versions of the generic
   400   \<open>number\<close> type, corresponding to \<^verbatim>\<open>Int\<close>, \<^verbatim>\<open>Long\<close>, \<^verbatim>\<open>Double\<close> in Scala, but
   401   \<^verbatim>\<open>Long\<close> is limited to 53 bit precision.\<^footnote>\<open>Implementations of JSON typically
   402   standardize \<open>number\<close> to \<^verbatim>\<open>Double\<close>, which can absorb \<^verbatim>\<open>Int\<close> faithfully, but
   403   not all of \<^verbatim>\<open>Long\<close>.\<close>
   405   \<^item> Type \<open>string\<close> represents Unicode text; it corresponds to type \<^verbatim>\<open>String\<close> in
   406   Scala.
   408   \<^item> Type \<open>[t]\<close> is the array (or list) type over \<open>t\<close>; it corresponds to
   409   \<^verbatim>\<open>List[t]\<close> in Scala. The list type is co-variant as usual (i.e.\ monotonic
   410   wrt. the subtype relation).
   412   \<^item> Object types describe the possible content of JSON records, with field
   413   names and types. A question mark after a field name means that it is
   414   optional. In Scala this could refer to an explicit type \<^verbatim>\<open>Option[t]\<close>, e.g.\
   415   \<open>{a: int, b?: string}\<close> corresponding to a Scala case class with arguments
   416   \<^verbatim>\<open>a: Int\<close>, \<^verbatim>\<open>b: Option[String]\<close>.
   418   Alternatively, optional fields can have a default value. If nothing else is
   419   specified, a standard ``empty value'' is used for each type, i.e.\ \<^verbatim>\<open>0\<close> for
   420   the number types, \<^verbatim>\<open>false\<close> for \<open>bool\<close>, or the empty string, array, object
   421   etc.
   423   Object types are \<^emph>\<open>permissive\<close> in the sense that only the specified field
   424   names need to conform to the given types, but unspecified fields may be
   425   present as well.
   427   \<^item> The type expression \<open>t\<^sub>1 \<oplus> t\<^sub>2\<close> only works for two object types with
   428   disjoint field names: it is the concatenation of the respective @{syntax
   429   field_type} specifications taken together. For example: \<open>{task: string} \<oplus>
   430   {ok: bool}\<close> is the equivalent to \<open>{task: string, ok: bool}\<close>.
   432   \<^item> The type expression \<open>t\<^sub>1 | t\<^sub>2\<close> is the disjoint union of two types, either
   433   one of the two cases may occur.
   435   \<^item> Parentheses \<open>(t)\<close> merely group type expressions syntactically.
   438   These types correspond to JSON values in an obvious manner, which is not
   439   further described here. For example, the JSON array \<^verbatim>\<open>[1, 2, 3]\<close> conforms to
   440   types \<open>[int]\<close>, \<open>[long]\<close>, \<open>[double]\<close>, \<open>[any]\<close>, \<open>any\<close>.
   442   Note that JSON objects require field names to be quoted, but the type
   443   language omits quotes for clarity. Thus the object \<^verbatim>\<open>{"a": 42, "b": "xyz"}\<close>
   444   conforms to the type \<open>{a: int, b: string}\<close>, for example.
   446   \<^medskip>
   447   The absence of an argument or result is represented by the Scala type
   448   \<^verbatim>\<open>Unit\<close>: it is written as empty text in the message \<open>argument\<close>
   449   (\secref{sec:input-output-messages}). This is not part of the JSON language.
   451   Server replies have name tags like \<^verbatim>\<open>OK\<close>, \<^verbatim>\<open>ERROR\<close>: these are used literally
   452   together with type specifications to indicate the particular name with the
   453   type of its argument, e.g.\ \<^verbatim>\<open>OK\<close>~\<open>[string]\<close> for a regular result that is a
   454   list (JSON array) of strings.
   456   \<^bigskip>
   457   Here are some common type definitions, for use in particular specifications
   458   of command arguments and results.
   460   \<^item> \<^bold>\<open>type\<close>~\<open>position = {line?: int, offset?: int, end_offset?: int, file?:
   461   string, id?: long}\<close> describes a source position within Isabelle text. Only
   462   the \<open>line\<close> and \<open>file\<close> fields make immediate sense to external programs.
   463   Detailed \<open>offset\<close> and \<open>end_offset\<close> positions are counted according to
   464   Isabelle symbols, see @{ML_type Symbol.symbol} in Isabelle/ML @{cite
   465   "isabelle-implementation"}. The position \<open>id\<close> belongs to the representation
   466   of command transactions in the Isabelle/PIDE protocol: it normally does not
   467   occur in externalized positions.
   469   \<^item> \<^bold>\<open>type\<close>~\<open>message = {kind: string, message: string, pos?: position}\<close> where
   470   the \<open>kind\<close> provides some hint about the role and importance of the message.
   471   The main message kinds are \<^verbatim>\<open>writeln\<close> (for regular output), \<^verbatim>\<open>warning\<close>,
   472   \<^verbatim>\<open>error\<close>.
   474   \<^item> \<^bold>\<open>type\<close>~\<open>error_message = {kind:\<close>~\<^verbatim>\<open>"error"\<close>\<open>, message: string}\<close> refers to
   475   error messages in particular. These occur routinely with \<^verbatim>\<open>ERROR\<close> or
   476   \<^verbatim>\<open>FAILED\<close> replies, but also as initial command syntax errors (which are
   477   omitted in the command specifications below).
   479   \<^item> \<^bold>\<open>type\<close>~\<open>theory_progress = {kind:\<close>~\<^verbatim>\<open>"writeln"\<close>\<open>, message: string, theory:
   480   string, session: string}\<close> reports formal progress in loading theories (e.g.\
   481   when building a session image). Apart from a regular output message, it also
   482   reveals the formal theory name (e.g.\ \<^verbatim>\<open>"HOL.Nat"\<close>) and session name (e.g.\
   483   \<^verbatim>\<open>"HOL"\<close>). Note that some rare theory names lack a proper session prefix,
   484   e.g. theory \<^verbatim>\<open>"Main"\<close> in session \<^verbatim>\<open>"HOL"\<close>.
   486   \<^item> \<^bold>\<open>type\<close>~\<open>timing = {elapsed: double, cpu: double, gc: double}\<close> refers to
   487   common Isabelle timing information in seconds, usually with a precision of
   488   three digits after the point (whole milliseconds).
   490   \<^item> \<^bold>\<open>type\<close>~\<open>uuid = string\<close> refers to a Universally Unique Identifier (UUID)
   491   as plain text.\<^footnote>\<open>See \<^url>\<open>\<close> and
   492   \<^url>\<open>\<close>.\<close> Such
   493   identifiers are created as private random numbers of the server and only
   494   revealed to the client that creates a certain resource (e.g.\ task or
   495   session). A client may disclose this information for use in a different
   496   client connection: this allows to share sessions between multiple
   497   connections.
   499   Client commands need to provide syntactically wellformed UUIDs: this is
   500   trivial to achieve by using only identifiers that have been produced by the
   501   server beforehand.
   503   \<^item> \<^bold>\<open>type\<close>~\<open>task = {task: uuid}\<close> identifies a newly created asynchronous task
   504   and thus allows the client to control it by the \<^verbatim>\<open>cancel\<close> command. The same
   505   task identification is included in all messages produced by this task.
   507   \<^item> \<^bold>\<open>type\<close> \<open>session_id = {session_id: uuid}\<close> identifies a newly created PIDE
   508   session managed by the server. Sessions are independent of client
   509   connections and may be shared by different clients, as long as the internal
   510   session identifier is known.
   512   \<^item> \<^bold>\<open>type\<close> \<open>node = {node_name: string, theory_name: string}\<close> represents the
   513   internal node name of a theory. The \<open>node_name\<close> is derived from the
   514   canonical theory file-name (e.g.\ \<^verbatim>\<open>"~~/src/HOL/ex/Seq.thy"\<close> after
   515   normalization within the file-system). The \<open>theory_name\<close> is the
   516   session-qualified theory name (e.g.\ \<^verbatim>\<open>HOL-ex.Seq\<close>).
   518   \<^item> \<^bold>\<open>type\<close> \<open>node_status = {ok: bool, total: int, unprocessed: int, running:
   519   int, warned: int, failed: int, finished: int, consolidated: bool}\<close>
   520   represents a formal theory node status of the PIDE document model. Fields
   521   \<open>total\<close>, \<open>unprocessed\<close>, \<open>running\<close>, \<open>warned\<close>, \<open>failed\<close>, \<open>finished\<close> account
   522   for individual commands within a theory node; \<open>ok\<close> is an abstraction for
   523   \<open>failed = 0\<close>. The \<open>consolidated\<close> flag indicates whether the outermost theory
   524   command structure has finished (or failed) and the final \<^theory_text>\<open>end\<close> command has
   525   been checked.
   526 \<close>
   529 section \<open>Server commands and results\<close>
   531 text \<open>
   532   Here follows an overview of particular Isabelle server commands with their
   533   results, which are usually represented as JSON values with types according
   534   to \secref{sec:json-types}. The general format of input and output messages
   535   is described in \secref{sec:input-output-messages}. The relevant
   536   Isabelle/Scala source files are:
   538   \<^medskip>
   539   \begin{tabular}{l}
   540   \<^file>\<open>$ISABELLE_HOME/src/Pure/Tools/server_commands.scala\<close> \\
   541   \<^file>\<open>$ISABELLE_HOME/src/Pure/Tools/server.scala\<close> \\
   542   \<^file>\<open>$ISABELLE_HOME/src/Pure/General/json.scala\<close> \\
   543   \end{tabular}
   544 \<close>
   547 subsection \<open>Command \<^verbatim>\<open>help\<close>\<close>
   549 text \<open>
   550   \begin{tabular}{ll}
   551   regular result: & \<^verbatim>\<open>OK\<close> \<open>[string]\<close> \\
   552   \end{tabular}
   553   \<^medskip>
   555   The \<^verbatim>\<open>help\<close> command has no argument and returns the list of server command
   556   names. This is occasionally useful for interactive experimentation (see also
   557   @{tool client} in \secref{sec:tool-client}).
   558 \<close>
   561 subsection \<open>Command \<^verbatim>\<open>echo\<close>\<close>
   563 text \<open>
   564   \begin{tabular}{ll}
   565   argument: & \<open>any\<close> \\
   566   regular result: & \<^verbatim>\<open>OK\<close> \<open>any\<close> \\
   567   \end{tabular}
   568   \<^medskip>
   570   The \<^verbatim>\<open>echo\<close> command is the identity function: it returns its argument as
   571   regular result. This is occasionally useful for testing and interactive
   572   experimentation (see also @{tool client} in \secref{sec:tool-client}).
   574   The Scala type of \<^verbatim>\<open>echo\<close> is actually more general than given above:
   575   \<^verbatim>\<open>Unit\<close>, \<^verbatim>\<open>XML.Elem\<close>, \<^verbatim>\<open>JSON.T\<close> work uniformly. Note that \<^verbatim>\<open>XML.Elem\<close> might
   576   be difficult to type on the console in its YXML syntax
   577   (\secref{sec:yxml-vs-xml}).
   578 \<close>
   581 subsection \<open>Command \<^verbatim>\<open>shutdown\<close>\<close>
   583 text \<open>
   584   \begin{tabular}{ll}
   585   regular result: & \<^verbatim>\<open>OK\<close> \\
   586   \end{tabular}
   587   \<^medskip>
   589   The \<^verbatim>\<open>shutdown\<close> command has no argument and result value. It forces a
   590   shutdown of the connected server process, stopping all open sessions and
   591   closing the server socket. This may disrupt pending commands on other
   592   connections!
   594   \<^medskip>
   595   The command-line invocation \<^verbatim>\<open>isabelle server -x\<close> opens a server connection
   596   and issues a \<^verbatim>\<open>shutdown\<close> command (see also \secref{sec:tool-server}).
   597 \<close>
   600 subsection \<open>Command \<^verbatim>\<open>cancel\<close>\<close>
   602 text \<open>
   603   \begin{tabular}{ll}
   604   argument: & \<open>task\<close> \\
   605   regular result: & \<^verbatim>\<open>OK\<close> \\
   606   \end{tabular}
   607   \<^medskip>
   609   The command \<^verbatim>\<open>cancel {"task":\<close>~\<open>id\<close>\<^verbatim>\<open>}\<close> attempts to cancel the specified
   610   task.
   612   Cancellation is merely a hint that the client prefers an ongoing process to
   613   be stopped. The command always succeeds formally, but it may get ignored by
   614   a task that is still running; it might also refer to a non-existing or
   615   no-longer existing task (without producing an error).
   617   Successful cancellation typically leads to an asynchronous failure of type
   618   \<^verbatim>\<open>FAILED {\<close>\<open>task: uuid, message:\<close>~\<^verbatim>\<open>"Interrupt"}\<close>. A different message is
   619   also possible, depending how the task handles the event.
   620 \<close>
   623 subsection \<open>Command \<^verbatim>\<open>session_build\<close> \label{sec:command-session-build}\<close>
   625 text \<open>
   626   \begin{tabular}{lll}
   627   argument: & \<open>session_build_args\<close> \\
   628   immediate result: & \<^verbatim>\<open>OK\<close> \<open>task\<close> \\
   629   notifications: & \<^verbatim>\<open>NOTE\<close> \<open>task \<oplus> (theory_progress | message)\<close> \\
   630   regular result: & \<^verbatim>\<open>FINISHED\<close> \<open>task \<oplus> session_build_results\<close> \\
   631   error result: & \<^verbatim>\<open>FAILED\<close> \<open>task \<oplus> error_message \<oplus> session_build_results\<close> \\[2ex]
   632   \end{tabular}
   634   \begin{tabular}{lll}
   635   \<^bold>\<open>type\<close> \<open>session_build_args =\<close> \\
   636   \quad\<open>{session: string,\<close> \\
   637   \quad~~\<open>preferences?: string,\<close> & \<^bold>\<open>default:\<close> server preferences \\
   638   \quad~~\<open>options?: [string],\<close> \\
   639   \quad~~\<open>dirs?: [string],\<close> \\
   640   \quad~~\<open>include_sessions: [string],\<close> \\
   641   \quad~~\<open>system_mode?: bool,\<close> \\
   642   \quad~~\<open>verbose?: bool}\<close> \\[2ex]
   643   \end{tabular}
   645   \begin{tabular}{ll}
   646   \<^bold>\<open>type\<close> \<open>session_build_result =\<close> \\
   647   \quad\<open>{session: string,\<close> \\
   648   \quad~~\<open>ok: bool,\<close> \\
   649   \quad~~\<open>return_code: int,\<close> \\
   650   \quad~~\<open>timeout: bool,\<close> \\
   651   \quad~~\<open>timing: timing}\<close> \\[2ex]
   653   \<^bold>\<open>type\<close> \<open>session_build_results =\<close> \\
   654   \quad\<open>{ok: bool,\<close> \\
   655   \quad~~\<open>return_code: int,\<close> \\
   656   \quad~~\<open>sessions: [session_build_result]}\<close> \\
   657   \end{tabular}
   658 \<close>
   660 text \<open>
   661   The \<^verbatim>\<open>session_build\<close> command prepares a session image for interactive use of
   662   theories. This is a limited version of command-line tool @{tool build}
   663   (\secref{sec:tool-build}), with specific options to request a formal context
   664   for an interactive PIDE session.
   666   The build process is asynchronous, with notifications that inform about the
   667   progress of loaded theories. Some further informative messages are output as
   668   well.
   670   Coordination of independent build processes is at the discretion of the
   671   client (or end-user), just as for @{tool build} and @{tool jedit}. There is
   672   no built-in coordination of conflicting builds with overlapping hierarchies
   673   of session images. In the worst case, a session image produced by one task
   674   may get overwritten by another task!
   675 \<close>
   678 subsubsection \<open>Arguments\<close>
   680 text \<open>
   681   The \<open>session\<close> field specifies the target session name. The build process
   682   will produce all required ancestor images according to the overall session
   683   graph.
   685   \<^medskip>
   686   The environment of Isabelle system options is determined from \<open>preferences\<close>
   687   that are augmented by \<open>options\<close>, which is a list individual updates of the
   688   form the \<open>name\<close>\<^verbatim>\<open>=\<close>\<open>value\<close> or \<open>name\<close> (the latter abbreviates
   689   \<open>name\<close>\<^verbatim>\<open>=true\<close>); see also command-line option \<^verbatim>\<open>-o\<close> for @{tool build}. The
   690   preferences are loaded from the file
   691   \<^path>\<open>$ISABELLE_HOME_USER/etc/preferences\<close> by default, but the client may
   692   provide alternative contents for it (as text, not a file-name). This could
   693   be relevant in situations where client and server run in different
   694   operating-system contexts.
   696   \<^medskip>
   697   The \<open>dirs\<close> field specifies additional directories for session ROOT and ROOTS
   698   files (\secref{sec:session-root}). This augments the name space of available
   699   sessions; see also option \<^verbatim>\<open>-d\<close> in @{tool build}.
   701   \<^medskip>
   702   The \<open>include_sessions\<close> field specifies sessions whose theories should be
   703   included in the overall name space of session-qualified theory names. This
   704   corresponds to a \<^bold>\<open>sessions\<close> specification in ROOT files
   705   (\secref{sec:session-root}). It enables the \<^verbatim>\<open>use_theories\<close> command
   706   (\secref{sec:command-use-theories}) to refer to sources from other sessions
   707   in a robust manner, instead of relying on directory locations.
   709   \<^medskip>
   710   The \<open>system_mode\<close> field set to \<^verbatim>\<open>true\<close> stores resulting session images and
   711   log files in @{path "$ISABELLE_HOME/heaps"} instead of the default location
   712   @{setting ISABELLE_OUTPUT} (which is normally in @{setting
   713   ISABELLE_HOME_USER}). See also option \<^verbatim>\<open>-s\<close> in @{tool build}.
   715   \<^medskip>
   716   The \<open>verbose\<close> field set to \<^verbatim>\<open>true\<close> yields extra verbosity. The effect is
   717   similar to option \<^verbatim>\<open>-v\<close> in @{tool build}.
   718 \<close>
   721 subsubsection \<open>Intermediate output\<close>
   723 text \<open>
   724   The asynchronous notifications of command \<^verbatim>\<open>session_build\<close> mainly serve as
   725   progress indicator: the output resembles that of the session build window of
   726   Isabelle/jEdit after startup @{cite "isabelle-jedit"}.
   728   For the client it is usually sufficient to print the messages in plain text,
   729   but note that \<open>theory_progress\<close> also reveals formal \<open>theory\<close> and
   730   \<open>session\<close> names directly.
   731 \<close>
   734 subsubsection \<open>Results\<close>
   736 text \<open>
   737   The overall \<open>session_build_results\<close> contain both a summary and an entry
   738   \<open>session_build_result\<close> for each session in the build hierarchy. The result
   739   is always provided, independently of overall success (\<^verbatim>\<open>FINISHED\<close> task) or
   740   failure (\<^verbatim>\<open>FAILED\<close> task).
   742   The \<open>ok\<close> field tells abstractly, whether all required session builds came
   743   out as \<open>ok\<close>, i.e.\ with zero \<open>return_code\<close>. A non-zero \<open>return_code\<close>
   744   indicates an error according to usual POSIX conventions for process exit.
   746   The individual \<open>session_build_result\<close> entries provide extra fields:
   748   \<^item> \<open>timeout\<close> tells if the build process was aborted after running too long,
   750   \<^item> \<open>timing\<close> gives the overall process timing in the usual Isabelle format
   751   with elapsed, CPU, GC time.
   752 \<close>
   755 subsubsection \<open>Examples\<close>
   757 text \<open>
   758   Build of a session image from the Isabelle distribution:
   759   @{verbatim [display] \<open>session_build {"session": "HOL-Word"}\<close>}
   761   Build a session image from the Archive of Formal Proofs:
   762   @{verbatim [display] \<open>session_build {"session": "Coinductive", "dirs": ["$AFP_BASE/thys"]}\<close>}
   763 \<close>
   766 subsection \<open>Command \<^verbatim>\<open>session_start\<close> \label{sec:command-session-start}\<close>
   768 text \<open>
   769   \begin{tabular}{lll}
   770   argument: & \<open>session_build_args \<oplus> {print_mode?: [string]}\<close> \\
   771   immediate result: & \<^verbatim>\<open>OK\<close> \<open>task\<close> \\
   772   notifications: & \<^verbatim>\<open>NOTE\<close> \<open>task \<oplus> (theory_progress | message)\<close> \\
   773   regular result: & \<^verbatim>\<open>FINISHED\<close> \<open>task \<oplus> session_id \<oplus> {tmp_dir: string}\<close> \\
   774   error result: & \<^verbatim>\<open>FAILED\<close> \<open>task \<oplus> error_message\<close> \\[2ex]
   775   \end{tabular}
   777   \<^medskip>
   778   The \<^verbatim>\<open>session_start\<close> command starts a new Isabelle/PIDE session with
   779   underlying Isabelle/ML process, based on a session image that it produces on
   780   demand using \<^verbatim>\<open>session_build\<close>. Thus it accepts all \<open>session_build_args\<close> and
   781   produces similar notifications, but the detailed \<open>session_build_results\<close> are
   782   omitted.
   784   The session build and startup process is asynchronous: when the task is
   785   finished, the session remains active for commands, until a \<^verbatim>\<open>session_stop\<close>
   786   or \<^verbatim>\<open>shutdown\<close> command is sent to the server.
   788   Sessions are independent of client connections: it is possible to start a
   789   session and later apply \<^verbatim>\<open>use_theories\<close> on different connections, as long as
   790   the internal session identifier is known: shared theory imports will be used
   791   only once (and persist until purged explicitly).
   792 \<close>
   795 subsubsection \<open>Arguments\<close>
   797 text \<open>
   798   Most arguments are shared with \<^verbatim>\<open>session_build\<close>
   799   (\secref{sec:command-session-build}).
   801   \<^medskip>
   802   The \<open>print_mode\<close> field adds identifiers of print modes to be made active for
   803   this session. For example, \<^verbatim>\<open>"print_mode": ["ASCII"]\<close> prefers ASCII
   804   replacement syntax over mathematical Isabelle symbols. See also option \<^verbatim>\<open>-m\<close>
   805   in @{tool process} (\secref{sec:tool-process}).
   806 \<close>
   809 subsubsection \<open>Results\<close>
   811 text \<open>
   812   The \<open>session_id\<close> provides the internal identification of the session object
   813   within the sever process. It can remain active as long as the server is
   814   running, independently of the current client connection.
   816   \<^medskip>
   817   The \<open>tmp_dir\<close> fields reveals a temporary directory that is specifically
   818   created for this session and deleted after it has been stopped. This may
   819   serve as auxiliary file-space for the \<^verbatim>\<open>use_theories\<close> command, but
   820   concurrent use requires some care in naming temporary files, e.g.\ by
   821   using sub-directories with globally unique names.
   822 \<close>
   825 subsection \<open>Examples\<close>
   827 text \<open>
   828   Start a default Isabelle/HOL session:
   829   @{verbatim [display] \<open>session_start {"session": "HOL"}\<close>}
   831   Start a session from the Archive of Formal Proofs:
   832   @{verbatim [display] \<open>session_start {"session": "Coinductive", "dirs": ["$AFP_BASE/thys"]}\<close>}
   833 \<close>
   836 subsection \<open>Command \<^verbatim>\<open>session_stop\<close>\<close>
   838 text \<open>
   839   \begin{tabular}{ll}
   840   argument: & \<open>session_id\<close> \\
   841   immediate result: & \<^verbatim>\<open>OK\<close> \<open>task\<close> \\
   842   regular result: & \<^verbatim>\<open>FINISHED\<close> \<open>task \<oplus> session_stop_result\<close> \\
   843   error result: & \<^verbatim>\<open>FAILED\<close> \<open>task \<oplus> error_message \<oplus> session_stop_result\<close> \\[2ex]
   844   \end{tabular}
   846   \begin{tabular}{l}
   847   \<^bold>\<open>type\<close> \<open>session_stop_result = {ok: bool, return_code: int}\<close>
   848   \end{tabular}
   850   \<^medskip>
   851   The \<^verbatim>\<open>session_stop\<close> command forces a shutdown of the identified PIDE
   852   session. This asynchronous tasks usually finishes quickly. Failure only
   853   happens in unusual situations, according to the return code of the
   854   underlying Isabelle/ML process.
   855 \<close>
   858 subsubsection \<open>Arguments\<close>
   860 text \<open>
   861   The \<open>session_id\<close> provides the UUID originally created by the server for this
   862   session.
   863 \<close>
   866 subsubsection \<open>Results\<close>
   868 text \<open>
   869   The \<open>ok\<close> field tells abstractly, whether the Isabelle/ML process has
   870   terminated properly.
   872   The \<open>return_code\<close> field expresses this information according to usual POSIX
   873   conventions for process exit.
   874 \<close>
   877 subsection \<open>Command \<^verbatim>\<open>use_theories\<close> \label{sec:command-use-theories}\<close>
   879 text \<open>
   880   \begin{tabular}{ll}
   881   argument: & \<open>use_theories_arguments\<close> \\
   882   immediate result: & \<^verbatim>\<open>OK\<close> \<open>task\<close> \\
   883   regular result: & \<^verbatim>\<open>FINISHED\<close> \<open>use_theories_results\<close> \\
   884   \end{tabular}
   886   \begin{tabular}{ll}
   887   \<^bold>\<open>type\<close> \<open>use_theories_arguments =\<close> \\
   888   \quad\<open>{session_id: uuid,\<close> \\
   889   \quad~~\<open>theories: [string],\<close> \\
   890   \quad~~\<open>master_dir?: string,\<close> \\
   891   \quad~~\<open>pretty_margin?: double\<close> & \<^bold>\<open>default:\<close> \<^verbatim>\<open>76\<close> \\
   892   \quad~~\<open>unicode_symbols?: bool}\<close> \\[2ex]
   894   \<^bold>\<open>type\<close> \<open>use_theories_results =\<close> \\
   895   \quad\<open>{ok: bool,\<close> \\
   896   \quad~~\<open>errors: [message],\<close> \\
   897   \quad~~\<open>nodes: [node \<oplus> {status: node_status, messages: [message]}]}\<close> \\
   898   \end{tabular}
   900   \<^medskip>
   901   The \<^verbatim>\<open>use_theories\<close> command updates the identified session by adding the
   902   current version of theory files to it, while dependencies are resolved
   903   implicitly. The command succeeds eventually, when all theories have been
   904   \<^emph>\<open>consolidated\<close> in the sense the formal \<open>node_status\<close>
   905   (\secref{sec:json-types}): the outermost command structure has finished (or
   906   failed) and the final \<^theory_text>\<open>end\<close> command of each theory has been checked.
   908   Already used theories persist in the session until purged explicitly
   909   (\secref{sec:command-purge-theories}). This also means that repeated
   910   invocations of \<^verbatim>\<open>use_theories\<close> are idempotent: it could make sense to do
   911   that with different values for \<open>pretty_margin\<close> or \<open>unicode_symbols\<close> to get
   912   different formatting for \<open>errors\<close> or \<open>messages\<close>.
   913 \<close>
   916 subsubsection \<open>Arguments\<close>
   918 text \<open>
   919   The \<open>session_id\<close> is the identifier provided by the server, when the session
   920   was created (possibly on a different client connection).
   922   \<^medskip>
   923   The \<open>theories\<close> field specifies theory names as in theory \<^theory_text>\<open>imports\<close> or in
   924   ROOT \<^bold>\<open>theories\<close>.
   926   \<^medskip>
   927   The \<open>master_dir\<close> field specifies the master directory of imported theories:
   928   it acts like the ``current working directory'' for locating theory files.
   929   This may be omitted if all entries of \<open>theories\<close> use an absolute path name
   930   (e.g.\ \<^verbatim>\<open>"~~/src/HOL/ex/Seq.thy"\<close>) or session-qualified theory name (e.g.\
   931   \<^verbatim>\<open>"HOL-ex/Seq"\<close>).
   933   \<^medskip>
   934   The \<open>pretty_margin\<close> field specifies the line width for pretty-printing. The
   935   default is suitable for classic console output. Formatting happens at the
   936   end of \<^verbatim>\<open>use_theories\<close>, when all prover messages are exported to the client.
   938   \<^medskip>
   939   The \<open>unicode_symbols\<close> field set to \<^verbatim>\<open>true\<close> renders message output for direct
   940   output on a Unicode capable channel, ideally with the Isabelle fonts as in
   941   Isabelle/jEdit. The default is to keep the symbolic representation of
   942   Isabelle text, e.g.\ \<^verbatim>\<open>\<forall>\<close> instead of its rendering as \<open>\<forall>\<close>. This means the
   943   client needs to perform its own rendering before presenting it to the
   944   end-user.
   945 \<close>
   948 subsubsection \<open>Results\<close>
   950 text \<open>
   951   The \<open>ok\<close> field indicates overall success of processing the specified
   952   theories with all their dependencies.
   954   When \<open>ok\<close> is \<^verbatim>\<open>false\<close>, the \<open>errors\<close> field lists all errors cumulatively
   955   (including imported theories). The messages contain position information for
   956   the original theory nodes.
   958   \<^medskip>
   959   The \<open>nodes\<close> field provides detailed information about each imported theory
   960   node. The individual fields are as follows:
   962   \<^item> \<open>node_name\<close>: the canonical name for the theory node, based on its
   963   file-system location;
   965   \<^item> \<open>theory_name\<close>: the logical theory name;
   967   \<^item> \<open>status\<close>: the overall node status, e.g.\ see the visualization in the
   968   \<open>Theories\<close> panel of Isabelle/jEdit @{cite "isabelle-jedit"};
   970   \<^item> \<open>messages\<close>: the main bulk of prover messages produced in this theory
   971   (with kind \<^verbatim>\<open>writeln\<close>, \<^verbatim>\<open>warning\<close>, \<^verbatim>\<open>error\<close>).
   972 \<close>
   975 subsubsection \<open>Examples\<close>
   977 text \<open>
   978   Process some example theory from the Isabelle distribution, within the
   979   context of an already started session for Isabelle/HOL (see also
   980   \secref{sec:command-session-start}):
   981   @{verbatim [display] \<open>use_theories {"session_id": ..., "theories": ["~~/src/HOL/ex/Seq"]}\<close>}
   983   \<^medskip>
   984   Process some example theories in the context of their (single) parent
   985   session:
   987   @{verbatim [display] \<open>session_start {"session": "HOL-Library"}
   988 use_theories {"session_id": ..., "theories": ["~~/src/HOL/Unix/Unix"]}
   989 session_stop {"session_id": ...}\<close>}
   991   \<^medskip>
   992   Process some example theories that import other theories via
   993   session-qualified theory names:
   995   @{verbatim [display] \<open>session_start {"session": "HOL", "include_sessions": ["HOL-Unix"]}
   996 use_theories {"session_id": ..., "theories": ["HOL-Unix.Unix"]}
   997 session_stop {"session_id": ...}\<close>}
   998 \<close>
  1001 subsection \<open>Command \<^verbatim>\<open>purge_theories\<close> \label{sec:command-purge-theories}\<close>
  1003 text \<open>
  1004   \begin{tabular}{ll}
  1005   argument: & \<open>purge_theories_arguments\<close> \\
  1006   regular result: & \<^verbatim>\<open>OK\<close> \<open>purge_theories_result\<close> \\
  1007   \end{tabular}
  1009   \begin{tabular}{ll}
  1010   \<^bold>\<open>type\<close> \<open>purge_theories_arguments =\<close> \\
  1011   \quad\<open>{session_id: uuid,\<close> \\
  1012   \quad~~\<open>theories: [string],\<close> \\
  1013   \quad~~\<open>master_dir?: string,\<close> \\
  1014   \quad~~\<open>all?: bool}\<close> \\[2ex]
  1015   \end{tabular}
  1017   \begin{tabular}{ll}
  1018   \<^bold>\<open>type\<close> \<open>purge_theories_result = {purged: [string]}\<close> \\
  1019   \end{tabular}
  1021   \<^medskip>
  1022   The \<^verbatim>\<open>purge_theories\<close> command updates the identified session by removing
  1023   theories that are no longer required: theories that are used in pending
  1024   \<^verbatim>\<open>use_theories\<close> tasks or imported by other theories are retained.
  1025 \<close>
  1028 subsubsection \<open>Arguments\<close>
  1030 text \<open>
  1031   The \<open>session_id\<close> is the identifier provided by the server, when the session
  1032   was created (possibly on a different client connection).
  1034   \<^medskip>
  1035   The \<open>theories\<close> field specifies theory names to be purged: imported
  1036   dependencies are \<^emph>\<open>not\<close> completed. Instead it is possible to provide the
  1037   already completed import graph returned by \<^verbatim>\<open>use_theories\<close> as \<open>nodes\<close> /
  1038   \<open>node_name\<close>.
  1040   \<^medskip>
  1041   The \<open>master_dir\<close> field specifies the master directory as in \<^verbatim>\<open>use_theories\<close>.
  1042   It is redundant, when passing fully-qualified theory node names (e.g.\
  1043   \<open>node_name\<close> from \<open>nodes\<close> in \<open>use_theories_results\<close>).
  1045   \<^medskip>
  1046   The \<open>all\<close> field set to \<^verbatim>\<open>true\<close> attempts to purge all presently loaded
  1047   theories.
  1048 \<close>
  1051 subsubsection \<open>Results\<close>
  1053 text \<open>
  1054   The \<open>purged\<close> field gives the theory nodes that were actually removed.
  1056   \<^medskip>
  1057   The \<open>retained\<close> field gives the remaining theory nodes, i.e.\ the complement
  1058   of \<open>purged\<close>.
  1059 \<close>
  1061 end