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author | xsipewe <[email protected]> | 2016-06-21 15:50:34 +0200 |
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committer | Lukas Larsson <[email protected]> | 2016-07-13 11:30:48 +0200 |
commit | 57c3246511434f42214e113b8902af10ab9cca49 (patch) | |
tree | 3f1550c75327118ad0255220344ee43313f52a67 /erts/doc/src/erl.xml | |
parent | d281213a4a04a61910a6c451d8f5c86e61416bb2 (diff) | |
download | otp-57c3246511434f42214e113b8902af10ab9cca49.tar.gz otp-57c3246511434f42214e113b8902af10ab9cca49.tar.bz2 otp-57c3246511434f42214e113b8902af10ab9cca49.zip |
erts: Editorial changes
Diffstat (limited to 'erts/doc/src/erl.xml')
-rw-r--r-- | erts/doc/src/erl.xml | 2226 |
1 files changed, 1106 insertions, 1120 deletions
diff --git a/erts/doc/src/erl.xml b/erts/doc/src/erl.xml index 37387f2c59..5559aec30e 100644 --- a/erts/doc/src/erl.xml +++ b/erts/doc/src/erl.xml @@ -30,86 +30,92 @@ <file>erl.xml</file> </header> <com>erl</com> - <comsummary>The Erlang Emulator</comsummary> + <comsummary>The Erlang emulator.</comsummary> <description> <p>The <c><![CDATA[erl]]></c> program starts an Erlang runtime system. - The exact details (for example, whether <c><![CDATA[erl]]></c> is a script or - a program and which other programs it calls) are system-dependent.</p> - <p>Windows users probably wants to use the <c><![CDATA[werl]]></c> program + The exact details (for example, whether <c><![CDATA[erl]]></c> is a + script or a program and which other programs it calls) are + system-dependent.</p> + + <p>Windows users probably want to use the <c><![CDATA[werl]]></c> program instead, which runs in its own window with scrollbars and supports - command-line editing. The <c><![CDATA[erl]]></c> program on Windows provides - no line editing in its shell, and on Windows 95 there is no way - to scroll back to text which has scrolled off the screen. - The <c><![CDATA[erl]]></c> program must be used, however, in pipelines or if + command-line editing. The <c><![CDATA[erl]]></c> program on Windows + provides no line editing in its shell, and on Windows 95 there is no way + to scroll back to text that has scrolled off the screen. The + <c><![CDATA[erl]]></c> program must be used, however, in pipelines or if you want to redirect standard input or output.</p> - <note><p>As of ERTS version 5.9 (OTP-R15B) the runtime system will by - default <em>not</em> bind schedulers to logical processors. - For more information see documentation of the - <seealso marker="#+sbt">+sbt</seealso> system flag. - </p> - </note> + + <note> + <p>As from <c>ERTS</c> 5.9 (Erlang/OTP R15B) the runtime system does by + default <em>not</em> bind schedulers to logical processors. + For more information, see system flag + <seealso marker="#+sbt"><c>+sbt</c></seealso>.</p> + </note> </description> + <funcs> <func> <name>erl <arguments></name> - <fsummary>Start an Erlang runtime system</fsummary> + <fsummary>Start an Erlang runtime system.</fsummary> <desc> - <p>Starts an Erlang runtime system.</p> - <p>The arguments can be divided into <em>emulator flags</em>, - <em>flags</em> and <em>plain arguments</em>:</p> - <list type="bulleted"> - <item> - <p>Any argument starting with the character <c><![CDATA[+]]></c> is - interpreted as an <seealso marker="#emu_flags">emulator flag</seealso>.</p> - <p>As indicated by the name, emulator flags controls - the behavior of the emulator.</p> - </item> - <item> - <p>Any argument starting with the character <c><![CDATA[-]]></c> - (hyphen) is interpreted as a - <seealso marker="#init_flags">flag</seealso> which should - be passed to the Erlang part of the runtime system, more - specifically to the <c><![CDATA[init]]></c> system process, see - <seealso marker="init">init(3)</seealso>.</p> - <p>The <c><![CDATA[init]]></c> process itself interprets some of these - flags, the <em>init flags</em>. It also stores any - remaining flags, the <em>user flags</em>. The latter can - be retrieved by calling <c><![CDATA[init:get_argument/1]]></c>.</p> - <p>It can be noted that there are a small number of "-" - flags which now actually are emulator flags, see - the description below.</p> - </item> - <item> - <p>Plain arguments are not interpreted in any way. They are - also stored by the <c><![CDATA[init]]></c> process and can be - retrieved by calling <c><![CDATA[init:get_plain_arguments/0]]></c>. - Plain arguments can occur before the first flag, or after - a <c><![CDATA[--]]></c> flag. Additionally, the flag <c><![CDATA[-extra]]></c> - causes everything that follows to become plain arguments.</p> - </item> - </list> - <p>Example:</p> - <pre> + <p>Starts an Erlang runtime system.</p> + <p>The arguments can be divided into <em>emulator flags</em>, + <em>flags</em>, and <em>plain arguments</em>:</p> + <list type="bulleted"> + <item> + <p>Any argument starting with character <c><![CDATA[+]]></c> is + interpreted as an + <seealso marker="#emu_flags">emulator flag</seealso>.</p> + <p>As indicated by the name, emulator flags control + the behavior of the emulator.</p> + </item> + <item> + <p>Any argument starting with character <c><![CDATA[-]]></c> + (hyphen) is interpreted as a + <seealso marker="#init_flags">flag</seealso>, which is to + be passed to the Erlang part of the runtime system, more + specifically to the <c><![CDATA[init]]></c> system process, see + <seealso marker="init"><c>init(3)</c></seealso>.</p> + <p>The <c><![CDATA[init]]></c> process itself interprets some of + these flags, the <em>init flags</em>. It also stores any + remaining flags, the <em>user flags</em>. The latter can be + retrieved by calling <c><![CDATA[init:get_argument/1]]></c>.</p> + <p>A small number of "-" flags exist, which now actually are + emulator flags, see the description below.</p> + </item> + <item> + <p>Plain arguments are not interpreted in any way. They are also + stored by the <c><![CDATA[init]]></c> process and can be retrieved + by calling <c><![CDATA[init:get_plain_arguments/0]]></c>. + Plain arguments can occur before the first flag, or after a + <c><![CDATA[--]]></c> flag. Also, the <c><![CDATA[-extra]]></c> + flag causes everything that follows to become plain arguments.</p> + </item> + </list> + <p><em>Examples:</em></p> + <pre> % <input>erl +W w -sname arnie +R 9 -s my_init -extra +bertie</input> (arnie@host)1> <input>init:get_argument(sname).</input> {ok,[["arnie"]]} (arnie@host)2> <input>init:get_plain_arguments().</input> ["+bertie"]</pre> - <p>Here <c><![CDATA[+W w]]></c> and <c><![CDATA[+R 9]]></c> are emulator flags. - <c><![CDATA[-s my_init]]></c> is an init flag, interpreted by <c><![CDATA[init]]></c>. - <c><![CDATA[-sname arnie]]></c> is a user flag, stored by <c><![CDATA[init]]></c>. - It is read by Kernel and will cause the Erlang runtime system - to become distributed. Finally, everything after <c><![CDATA[-extra]]></c> - (that is, <c><![CDATA[+bertie]]></c>) is considered as plain arguments.</p> - <pre> + <p>Here <c><![CDATA[+W w]]></c> and <c><![CDATA[+R 9]]></c> are + emulator flags. <c><![CDATA[-s my_init]]></c> is an init flag, + interpreted by <c><![CDATA[init]]></c>. + <c><![CDATA[-sname arnie]]></c> is a user flag, stored by + <c><![CDATA[init]]></c>. It is read by <c>Kernel</c> and causes the + Erlang runtime system to become distributed. Finally, everything after + <c><![CDATA[-extra]]></c> (that is, <c><![CDATA[+bertie]]></c>) is + considered as plain arguments.</p> + <pre> % <input>erl -myflag 1</input> 1> <input>init:get_argument(myflag).</input> {ok,[["1"]]} 2> <input>init:get_plain_arguments().</input> []</pre> - <p>Here the user flag <c><![CDATA[-myflag 1]]></c> is passed to and stored - by the <c><![CDATA[init]]></c> process. It is a user defined flag, - presumably used by some user defined application.</p> + <p>Here the user flag <c><![CDATA[-myflag 1]]></c> is passed to and + stored by the <c><![CDATA[init]]></c> process. It is a user-defined + flag, presumably used by some user-defined application.</p> </desc> </func> </funcs> @@ -117,50 +123,54 @@ <section> <marker id="init_flags"></marker> <title>Flags</title> - <p>In the following list, init flags are marked (init flag). + <p>In the following list, init flags are marked "(init flag)". Unless otherwise specified, all other flags are user flags, for which the values can be retrieved by calling - <c><![CDATA[init:get_argument/1]]></c>. Note that the list of user flags is - not exhaustive, there may be additional, application specific - flags which instead are documented in the corresponding + <c><![CDATA[init:get_argument/1]]></c>. Notice that the list of user + flags is not exhaustive, there can be more application-specific + flags that instead are doscribed in the corresponding application documentation.</p> <taglist> - <tag><c><![CDATA[--]]></c>(init flag)</tag> + <tag><c><![CDATA[--]]></c> (init flag)</tag> <item> <p>Everything following <c><![CDATA[--]]></c> up to the next flag - (<c><![CDATA[-flag]]></c> or <c><![CDATA[+flag]]></c>) is considered plain arguments - and can be retrieved using <c><![CDATA[init:get_plain_arguments/0]]></c>.</p> + (<c><![CDATA[-flag]]></c> or <c><![CDATA[+flag]]></c>) is considered + plain arguments and can be retrieved using + <c><![CDATA[init:get_plain_arguments/0]]></c>.</p> </item> <tag><c><![CDATA[-Application Par Val]]></c></tag> <item> - <p>Sets the application configuration parameter <c><![CDATA[Par]]></c> to - the value <c><![CDATA[Val]]></c> for the application <c><![CDATA[Application]]></c>, - see <seealso marker="kernel:app">app(4)</seealso> and - <seealso marker="kernel:application">application(3)</seealso>.</p> + <p>Sets the application configuration parameter <c><![CDATA[Par]]></c> + to the value <c><![CDATA[Val]]></c> for the application + <c><![CDATA[Application]]></c>; see + <seealso marker="kernel:app"><c>kernel:app(4)</c></seealso> and + <seealso marker="kernel:application"> + <c>kernel:application(3)</c></seealso>.</p> </item> <tag><marker id="args_file"/><c><![CDATA[-args_file FileName]]></c></tag> <item> - <p>Command line arguments are read from the file <c><![CDATA[FileName]]></c>. - The arguments read from the file replace the - '<c><![CDATA[-args_file FileName]]></c>' flag on the resulting command line.</p> - <p>The file <c><![CDATA[FileName]]></c> should be a plain text file and may - contain comments and command line arguments. A comment begins - with a # character and continues until next end of line character. - Backslash (\\) is used as quoting character. All command line - arguments accepted by <c><![CDATA[erl]]></c> are allowed, also the - <c><![CDATA[-args_file FileName]]></c> flag. Be careful not to cause circular - dependencies between files containing the <c><![CDATA[-args_file]]></c> flag, - though.</p> - <p>The <c><![CDATA[-extra]]></c> flag is treated specially. Its scope ends - at the end of the file. Arguments following an <c><![CDATA[-extra]]></c> - flag are moved on the command line into the <c><![CDATA[-extra]]></c> section, - i.e. the end of the command line following after an <c><![CDATA[-extra]]></c> - flag.</p> + <p>Command-line arguments are read from the file + <c><![CDATA[FileName]]></c>. The arguments read from the file replace + flag '<c><![CDATA[-args_file FileName]]></c>' on the resulting + command line.</p> + <p>The file <c><![CDATA[FileName]]></c> is to be a plain text file and + can contain comments and command-line arguments. A comment begins + with a <c>#</c> character and continues until the next end of line + character. Backslash (\\) is used as quoting character. All + command-line arguments accepted by <c><![CDATA[erl]]></c> are allowed, + also flag <c><![CDATA[-args_file FileName]]></c>. Be careful not to + cause circular dependencies between files containing flag + <c><![CDATA[-args_file]]></c>, though.</p> + <p>The flag <c><![CDATA[-extra]]></c> is treated in special way. Its + scope ends at the end of the file. Arguments following an + <c><![CDATA[-extra]]></c> flag are moved on the command line into the + <c><![CDATA[-extra]]></c> section, that is, the end of the command + line following after an <c><![CDATA[-extra]]></c> flag.</p> </item> <tag><c><![CDATA[-async_shell_start]]></c></tag> <item> <p>The initial Erlang shell does not read user input until - the system boot procedure has been completed (Erlang 5.4 and + the system boot procedure has been completed (Erlang/OTP 5.4 and later). This flag disables the start synchronization feature and lets the shell start in parallel with the rest of the system.</p> @@ -168,52 +178,56 @@ <tag><c><![CDATA[-boot File]]></c></tag> <item> <p>Specifies the name of the boot file, <c><![CDATA[File.boot]]></c>, - which is used to start the system. See - <seealso marker="init">init(3)</seealso>. Unless + which is used to start the system; see + <seealso marker="init"><c>init(3)</c></seealso>. Unless <c><![CDATA[File]]></c> contains an absolute path, the system searches - for <c><![CDATA[File.boot]]></c> in the current and <c><![CDATA[$ROOT/bin]]></c> - directories.</p> + for <c><![CDATA[File.boot]]></c> in the current and + <c><![CDATA[$ROOT/bin]]></c> directories.</p> <p>Defaults to <c><![CDATA[$ROOT/bin/start.boot]]></c>.</p> </item> <tag><c><![CDATA[-boot_var Var Dir]]></c></tag> <item> - <p>If the boot script contains a path variable <c><![CDATA[Var]]></c> other - than <c><![CDATA[$ROOT]]></c>, this variable is expanded to <c><![CDATA[Dir]]></c>. - Used when applications are installed in another directory - than <c><![CDATA[$ROOT/lib]]></c>, see - <seealso marker="sasl:systools#make_script/1">systools:make_script/1,2</seealso>.</p> + <p>If the boot script contains a path variable <c><![CDATA[Var]]></c> + other than <c><![CDATA[$ROOT]]></c>, this variable is expanded to + <c><![CDATA[Dir]]></c>. Used when applications are installed in + another directory than <c><![CDATA[$ROOT/lib]]></c>; see + <seealso marker="sasl:systools#make_script/1"> + <c>systools:make_script/1,2</c></seealso> in <c>SASL</c>.</p> </item> <tag><c><![CDATA[-code_path_cache]]></c></tag> <item> - <p>Enables the code path cache of the code server, see - <seealso marker="kernel:code">code(3)</seealso>.</p> + <p>Enables the code path cache of the code server; see + <seealso marker="kernel:code"><c>kernel:code(3)</c></seealso>.</p> </item> <tag><c><![CDATA[-compile Mod1 Mod2 ...]]></c></tag> <item> <p>Compiles the specified modules and then terminates (with non-zero exit code if the compilation of some file did not - succeed). Implies <c><![CDATA[-noinput]]></c>. Not recommended - use - <seealso marker="erlc">erlc</seealso> instead.</p> + succeed). Implies <c><![CDATA[-noinput]]></c>.</p> + <p>Not recommended; use <seealso marker="erlc"><c>erlc</c></seealso> + instead.</p> </item> <tag><c><![CDATA[-config Config]]></c></tag> <item> <p>Specifies the name of a configuration file, <c><![CDATA[Config.config]]></c>, which is used to configure - applications. See - <seealso marker="kernel:app">app(4)</seealso> and - <seealso marker="kernel:application">application(3)</seealso>.</p> + applications; see + <seealso marker="kernel:app"><c>kernel:app(4)</c></seealso> and + <seealso marker="kernel:application"> + <c>kernel:application(3)</c></seealso>.</p> </item> <tag><marker id="connect_all"/><c><![CDATA[-connect_all false]]></c></tag> <item> - <p>If this flag is present, <c><![CDATA[global]]></c> will not maintain a - fully connected network of distributed Erlang nodes, and then - global name registration cannot be used. See - <seealso marker="kernel:global">global(3)</seealso>.</p> + <p>If this flag is present, <c><![CDATA[global]]></c> does not maintain + a fully connected network of distributed Erlang nodes, and then + global name registration cannot be used; see + <seealso marker="kernel:global"><c>kernel:global(3)</c></seealso>.</p> </item> <tag><c><![CDATA[-cookie Cookie]]></c></tag> <item> <p>Obsolete flag without any effect and common misspelling for - <c><![CDATA[-setcookie]]></c>. Use <c><![CDATA[-setcookie]]></c> instead.</p> + <c><![CDATA[-setcookie]]></c>. Use <c><![CDATA[-setcookie]]></c> + instead.</p> </item> <tag><c><![CDATA[-detached]]></c></tag> <item> @@ -223,8 +237,7 @@ </item> <tag><c><![CDATA[-emu_args]]></c></tag> <item> - <p>Useful for debugging. Prints out the actual arguments - sent to the emulator.</p> + <p>Useful for debugging. Prints the arguments sent to the emulator.</p> </item> <tag><c><![CDATA[-env Variable Value]]></c></tag> <item> @@ -234,14 +247,16 @@ <pre> % <input>erl -env DISPLAY gin:0</input></pre> <p>In this example, an Erlang runtime system is started with - the <c><![CDATA[DISPLAY]]></c> environment variable set to <c><![CDATA[gin:0]]></c>.</p> + environment variable <c><![CDATA[DISPLAY]]></c> set to + <c><![CDATA[gin:0]]></c>.</p> </item> - <tag><c><![CDATA[-eval Expr]]></c>(init flag)</tag> + <tag><c><![CDATA[-eval Expr]]></c> (init flag)</tag> <item> - <p>Makes <c><![CDATA[init]]></c> evaluate the expression <c><![CDATA[Expr]]></c>, see - <seealso marker="init">init(3)</seealso>.</p> + <p>Makes <c><![CDATA[init]]></c> evaluate the expression + <c><![CDATA[Expr]]></c>; see + <seealso marker="init"><c>init(3)</c></seealso>.</p> </item> - <tag><c><![CDATA[-extra]]></c>(init flag)</tag> + <tag><c><![CDATA[-extra]]></c> (init flag)</tag> <item> <p>Everything following <c><![CDATA[-extra]]></c> is considered plain arguments and can be retrieved using @@ -249,8 +264,9 @@ </item> <tag><c><![CDATA[-heart]]></c></tag> <item> - <p>Starts heart beat monitoring of the Erlang runtime system. - See <seealso marker="kernel:heart">heart(3)</seealso>.</p> + <p>Starts heartbeat monitoring of the Erlang runtime system; + see <seealso marker="kernel:heart"> + <c>kernel:heart(3)</c></seealso>.</p> </item> <tag><c><![CDATA[-hidden]]></c></tag> <item> @@ -258,91 +274,99 @@ run as a distributed node. Hidden nodes always establish hidden connections to all other nodes except for nodes in the same global group. Hidden connections are not published on - either of the connected nodes, i.e. neither of the connected - nodes are part of the result from <c><![CDATA[nodes/0]]></c> on the other - node. See also hidden global groups, - <seealso marker="kernel:global_group">global_group(3)</seealso>.</p> + any of the connected nodes, that is, none of the connected + nodes are part of the result from <c><![CDATA[nodes/0]]></c> on the + other node. See also hidden global groups; + <seealso marker="kernel:global_group"> + <c>kernel:global_group(3)</c></seealso>.</p> </item> <tag><c><![CDATA[-hosts Hosts]]></c></tag> <item> - <p>Specifies the IP addresses for the hosts on which Erlang - boot servers are running, see - <seealso marker="kernel:erl_boot_server">erl_boot_server(3)</seealso>. - This flag is mandatory if the <c><![CDATA[-loader inet]]></c> flag is - present.</p> - <p>The IP addresses must be given in the standard form (four - decimal numbers separated by periods, for example - <c><![CDATA["150.236.20.74"]]></c>. Hosts names are not acceptable, but - a broadcast address (preferably limited to the local network) + <p>Specifies the IP addresses for the hosts on which Erlang boot servers + are running, see <seealso marker="kernel:erl_boot_server"> + <c>kernel:erl_boot_server(3)</c></seealso>. This flag + is mandatory if flag <c><![CDATA[-loader inet]]></c> is present.</p> + <p>The IP addresses must be specified in the standard form (four + decimal numbers separated by periods, for example, + <c><![CDATA["150.236.20.74"]]></c>. Hosts names are not acceptable, + but a broadcast address (preferably limited to the local network) is.</p> </item> <tag><c><![CDATA[-id Id]]></c></tag> <item> <p>Specifies the identity of the Erlang runtime system. If it is run as a distributed node, <c><![CDATA[Id]]></c> must be identical to - the name supplied together with the <c><![CDATA[-sname]]></c> or - <c><![CDATA[-name]]></c> flag.</p> + the name supplied together with flag <c><![CDATA[-sname]]></c> or + <c><![CDATA[-name]]></c>.</p> </item> <tag><c><![CDATA[-init_debug]]></c></tag> <item> <p>Makes <c><![CDATA[init]]></c> write some debug information while interpreting the boot script.</p> </item> - <tag><marker id="instr"/><c><![CDATA[-instr]]></c>(emulator flag)</tag> + <tag><marker id="instr"/><c><![CDATA[-instr]]></c> (emulator flag)</tag> <item> <p>Selects an instrumented Erlang runtime system (virtual machine) to run, instead of the ordinary one. When running an instrumented runtime system, some resource usage data can be - obtained and analysed using the module <c><![CDATA[instrument]]></c>. + obtained and analyzed using the <c><![CDATA[instrument]]></c> module. Functionally, it behaves exactly like an ordinary Erlang runtime system.</p> </item> <tag><c><![CDATA[-loader Loader]]></c></tag> <item> - <p>Specifies the method used by <c><![CDATA[erl_prim_loader]]></c> to load - Erlang modules into the system. See - <seealso marker="erl_prim_loader">erl_prim_loader(3)</seealso>. - Two <c><![CDATA[Loader]]></c> methods are supported, <c><![CDATA[efile]]></c> and - <c><![CDATA[inet]]></c>. <c><![CDATA[efile]]></c> means use the local file system, - this is the default. <c><![CDATA[inet]]></c> means use a boot server on - another machine, and the <c><![CDATA[-id]]></c>, <c><![CDATA[-hosts]]></c> and - <c><![CDATA[-setcookie]]></c> flags must be specified as well. If - <c><![CDATA[Loader]]></c> is something else, the user supplied + <p>Specifies the method used by <c><![CDATA[erl_prim_loader]]></c> to + load Erlang modules into the system; see + <seealso marker="erl_prim_loader"><c>erl_prim_loader(3)</c></seealso>. + Two <c><![CDATA[Loader]]></c> methods are supported:</p> + <list type="bulleted"> + <item> + <p><c><![CDATA[efile]]></c>, which means use the local file system, + this is the default.</p> + </item> + <item> + <p><c><![CDATA[inet]]></c>, which means use a boot server on + another machine. The flags <c><![CDATA[-id]]></c>, + <c><![CDATA[-hosts]]></c> and <c><![CDATA[-setcookie]]></c> must + also be specified.</p> + </item> + </list> + <p>If <c><![CDATA[Loader]]></c> is something else, the user-supplied <c><![CDATA[Loader]]></c> port program is started.</p> </item> <tag><c><![CDATA[-make]]></c></tag> <item> - <p>Makes the Erlang runtime system invoke <c><![CDATA[make:all()]]></c> in - the current working directory and then terminate. See - <seealso marker="tools:make">make(3)</seealso>. Implies + <p>Makes the Erlang runtime system invoke <c><![CDATA[make:all()]]></c> + in the current working directory and then terminate; see + <seealso marker="tools:make"><c>tools:make(3)</c></seealso>. Implies <c><![CDATA[-noinput]]></c>.</p> </item> <tag><c><![CDATA[-man Module]]></c></tag> <item> - <p>Displays the manual page for the Erlang module <c><![CDATA[Module]]></c>. - Only supported on Unix.</p> + <p>Displays the manual page for the Erlang module + <c><![CDATA[Module]]></c>. Only supported on Unix.</p> </item> <tag><c><![CDATA[-mode interactive | embedded]]></c></tag> <item> - <p>Indicates if the system should load code dynamically - (<c><![CDATA[interactive]]></c>), or if all code should be loaded - during system initialization (<c><![CDATA[embedded]]></c>), see - <seealso marker="kernel:code">code(3)</seealso>. Defaults to - <c><![CDATA[interactive]]></c>.</p> + <p>Indicates if the system is to load code dynamically + (<c><![CDATA[interactive]]></c>), or if all code is to be loaded + during system initialization (<c><![CDATA[embedded]]></c>); see + <seealso marker="kernel:code"><c>kernel:code(3)</c></seealso>. + Defaults to <c><![CDATA[interactive]]></c>.</p> </item> <tag><c><![CDATA[-name Name]]></c></tag> <item> <p>Makes the Erlang runtime system into a distributed node. This flag invokes all network servers necessary for a node to - become distributed. See - <seealso marker="kernel:net_kernel">net_kernel(3)</seealso>. - It is also ensured that <c><![CDATA[epmd]]></c> runs on the current host - before Erlang is started. See - <seealso marker="epmd">epmd(1)</seealso> and the + become distributed; see <seealso marker="kernel:net_kernel"> + <c>kernel:net_kernel(3)</c></seealso>. It is also ensured that + <c><![CDATA[epmd]]></c> runs on the current host before Erlang is + started; see <seealso marker="epmd"><c>epmd(1)</c></seealso>.and the <seealso marker="#start_epmd"><c>-start_epmd</c></seealso> option.</p> - <p>The name of the node will be <c><![CDATA[Name@Host]]></c>, where - <c><![CDATA[Host]]></c> is the fully qualified host name of the current - host. For short names, use the <c><![CDATA[-sname]]></c> flag instead.</p> + <p>The node name will be <c><![CDATA[Name@Host]]></c>, where + <c><![CDATA[Host]]></c> is the fully qualified host name of the + current host. For short names, use flag <c><![CDATA[-sname]]></c> + instead.</p> </item> <tag><c><![CDATA[-noinput]]></c></tag> <item> @@ -353,115 +377,111 @@ <item> <p>Starts an Erlang runtime system with no shell. This flag makes it possible to have the Erlang runtime system as a - component in a series of UNIX pipes.</p> + component in a series of Unix pipes.</p> </item> <tag><c><![CDATA[-nostick]]></c></tag> <item> <p>Disables the sticky directory facility of the Erlang code - server, see - <seealso marker="kernel:code">code(3)</seealso>.</p> + server; see + <seealso marker="kernel:code"><c>kernel:code(3)</c></seealso>.</p> </item> <tag><c><![CDATA[-oldshell]]></c></tag> <item> - <p>Invokes the old Erlang shell from Erlang 3.3. The old shell + <p>Invokes the old Erlang shell from Erlang/OTP 3.3. The old shell can still be used.</p> </item> <tag><c><![CDATA[-pa Dir1 Dir2 ...]]></c></tag> <item> <p>Adds the specified directories to the beginning of the code - path, similar to <c><![CDATA[code:add_pathsa/1]]></c>. See - <seealso marker="kernel:code">code(3)</seealso>. + path, similar to <c><![CDATA[code:add_pathsa/1]]></c>; see + <seealso marker="kernel:code"><c>kernel:code(3)</c></seealso>. As an alternative to <c>-pa</c>, if several directories are to be prepended to the code path and the directories have a - common parent directory, that parent directory could be - specified in the <c>ERL_LIBS</c> environment variable. - See <seealso marker="kernel:code">code(3)</seealso>.</p> + common parent directory, that parent directory can be + specified in environment variable <c>ERL_LIBS</c>; see + <seealso marker="kernel:code"><c>kernel:code(3)</c></seealso>.</p> </item> <tag><c><![CDATA[-pz Dir1 Dir2 ...]]></c></tag> <item> <p>Adds the specified directories to the end of the code path, - similar to <c><![CDATA[code:add_pathsz/1]]></c>. See - <seealso marker="kernel:code">code(3)</seealso>.</p> + similar to <c><![CDATA[code:add_pathsz/1]]></c>; see + <seealso marker="kernel:code"><c>kernel:code(3)</c></seealso>.</p> </item> <tag><c><![CDATA[-path Dir1 Dir2 ...]]></c></tag> <item> - <p>Replaces the path specified in the boot script. See - <seealso marker="sasl:script">script(4)</seealso>.</p> + <p>Replaces the path specified in the boot script; see + <seealso marker="sasl:script"><c>sasl:script(4)</c></seealso>.</p> </item> <tag><c><![CDATA[-proto_dist Proto]]></c></tag> <item> - <p>Specify a protocol for Erlang distribution.</p> - <taglist> - <tag><c>inet_tcp</c></tag> - <item> - <p>TCP over IPv4 (the default)</p> - </item> - <tag><c>inet_tls</c></tag> - <item> - <p>distribution over TLS/SSL</p> - </item> - <tag><c>inet6_tcp</c></tag> - <item> - <p>TCP over IPv6</p> - </item> + <p>Specifies a protocol for Erlang distribution:</p> + <taglist> + <tag><c>inet_tcp</c></tag> + <item>TCP over IPv4 (the default)</item> + <tag><c>inet_tls</c></tag> + <item>Distribution over TLS/SSL</item> + <tag><c>inet6_tcp</c></tag> + <item>TCP over IPv6</item> </taglist> <p>For example, to start up IPv6 distributed nodes:</p> <pre> -% <input>erl -name [email protected] -proto_dist inet6_tcp</input> -</pre> +% <input>erl -name [email protected] -proto_dist inet6_tcp</input></pre> </item> <tag><c><![CDATA[-remsh Node]]></c></tag> <item> - <p>Starts Erlang with a remote shell connected to <c><![CDATA[Node]]></c>.</p> + <p>Starts Erlang with a remote shell connected to + <c><![CDATA[Node]]></c>.</p> </item> <tag><c><![CDATA[-rsh Program]]></c></tag> <item> - <p>Specifies an alternative to <c><![CDATA[rsh]]></c> for starting a slave - node on a remote host. See - <seealso marker="stdlib:slave">slave(3)</seealso>.</p> + <p>Specifies an alternative to <c><![CDATA[rsh]]></c> for starting a + slave node on a remote host; see + <seealso marker="stdlib:slave"><c>stdlib:slave(3)</c></seealso>.</p> </item> - <tag><c><![CDATA[-run Mod [Func [Arg1, Arg2, ...]]]]></c>(init flag)</tag> + <tag><c><![CDATA[-run Mod [Func [Arg1, Arg2, ...]]]]></c> (init + flag)</tag> <item> - <p>Makes <c><![CDATA[init]]></c> call the specified function. <c><![CDATA[Func]]></c> - defaults to <c><![CDATA[start]]></c>. If no arguments are provided, - the function is assumed to be of arity 0. Otherwise it is - assumed to be of arity 1, taking the list - <c><![CDATA[[Arg1,Arg2,...]]]></c> as argument. All arguments are passed - as strings. See - <seealso marker="init">init(3)</seealso>.</p> + <p>Makes <c><![CDATA[init]]></c> call the specified function. + <c><![CDATA[Func]]></c> defaults to <c><![CDATA[start]]></c>. + If no arguments are provided, the function is assumed to be of + arity 0. Otherwise it is assumed to be of arity 1, taking the list + <c><![CDATA[[Arg1,Arg2,...]]]></c> as argument. All arguments are + passed as strings. See <seealso marker="init"> + <c>init(3)</c></seealso>.</p> </item> - <tag><c><![CDATA[-s Mod [Func [Arg1, Arg2, ...]]]]></c>(init flag)</tag> + <tag><c><![CDATA[-s Mod [Func [Arg1, Arg2, ...]]]]></c> (init flag)</tag> <item> - <p>Makes <c><![CDATA[init]]></c> call the specified function. <c><![CDATA[Func]]></c> - defaults to <c><![CDATA[start]]></c>. If no arguments are provided, - the function is assumed to be of arity 0. Otherwise it is - assumed to be of arity 1, taking the list - <c><![CDATA[[Arg1,Arg2,...]]]></c> as argument. All arguments are passed - as atoms. See - <seealso marker="init">init(3)</seealso>.</p> + <p>Makes <c><![CDATA[init]]></c> call the specified function. + <c><![CDATA[Func]]></c> defaults to <c><![CDATA[start]]></c>. + If no arguments are provided, the function is assumed to be of + arity 0. Otherwise it is assumed to be of arity 1, taking the list + <c><![CDATA[[Arg1,Arg2,...]]]></c> as argument. All arguments are + passed as atoms. See <seealso marker="init"> + <c>init(3)</c></seealso>.</p> </item> <tag><c><![CDATA[-setcookie Cookie]]></c></tag> <item> - <p>Sets the magic cookie of the node to <c><![CDATA[Cookie]]></c>, see - <seealso marker="erlang#set_cookie/2">erlang:set_cookie/2</seealso>.</p> + <p>Sets the magic cookie of the node to <c><![CDATA[Cookie]]></c>; see + <seealso marker="erlang#set_cookie/2"> + <c>erlang:set_cookie/2</c></seealso>.</p> </item> <tag><c><![CDATA[-shutdown_time Time]]></c></tag> <item> <p>Specifies how long time (in milliseconds) the <c><![CDATA[init]]></c> process is allowed to spend shutting down the system. If - <c><![CDATA[Time]]></c> ms have elapsed, all processes still existing are - killed. Defaults to <c><![CDATA[infinity]]></c>.</p> + <c><![CDATA[Time]]></c> milliseconds have elapsed, all processes still + existing are killed. Defaults to <c><![CDATA[infinity]]></c>.</p> </item> <tag><c><![CDATA[-sname Name]]></c></tag> <item> - <p>Makes the Erlang runtime system into a distributed node, - similar to <c><![CDATA[-name]]></c>, but the host name portion of the node + <p>Makes the Erlang runtime system into a distributed node, similar to + <c><![CDATA[-name]]></c>, but the host name portion of the node name <c><![CDATA[Name@Host]]></c> will be the short name, not fully qualified.</p> <p>This is sometimes the only way to run distributed Erlang if - the DNS (Domain Name System) is not running. There can be no - communication between nodes running with the <c><![CDATA[-sname]]></c> - flag and those running with the <c><![CDATA[-name]]></c> flag, as node + the Domain Name System (DNS) is not running. No communication can + exist between nodes running with flag <c><![CDATA[-sname]]></c> + and those running with flag <c><![CDATA[-name]]></c>, as node names must be unique in distributed Erlang systems.</p> </item> <tag><marker id="start_epmd"/><c>-start_epmd true | false</c></tag> @@ -481,19 +501,21 @@ </item> <tag><marker id="smp"/><c><![CDATA[-smp [enable|auto|disable]]]></c></tag> <item> - <p><c>-smp enable</c> and <c>-smp</c> starts the Erlang runtime - system with SMP support enabled. This may fail if no runtime + <p><c>-smp enable</c> and <c>-smp</c> start the Erlang runtime + system with SMP support enabled. This can fail if no runtime system with SMP support is available. <c>-smp auto</c> starts the Erlang runtime system with SMP support enabled if it is - available and more than one logical processor are detected. + available and more than one logical processor is detected. <c>-smp disable</c> starts a runtime system without SMP support.</p> - <p><em>NOTE</em>: The runtime system with SMP support will not - be available on all supported platforms. See also the - <seealso marker="#+S">+S</seealso> flag.</p> + <note> + <p>The runtime system with SMP support is not available on all + supported platforms. See also flag + <seealso marker="#+S"><c>+S</c></seealso>.</p> + </note> </item> - <tag><c><![CDATA[-version]]></c>(emulator flag)</tag> + <tag><c><![CDATA[-version]]></c> (emulator flag)</tag> <item> - <p>Makes the emulator print out its version number. The same + <p>Makes the emulator print its version number. The same as <c><![CDATA[erl +V]]></c>.</p> </item> </taglist> @@ -505,133 +527,169 @@ <p><c><![CDATA[erl]]></c> invokes the code for the Erlang emulator (virtual machine), which supports the following flags:</p> <taglist> - <tag><marker id="async_thread_stack_size"/><c><![CDATA[+a size]]></c></tag> + <tag><marker id="async_thread_stack_size"/> + <c><![CDATA[+a size]]></c></tag> <item> <p>Suggested stack size, in kilowords, for threads in the - async-thread pool. Valid range is 16-8192 kilowords. The - default suggested stack size is 16 kilowords, i.e, 64 + async thread pool. Valid range is 16-8192 kilowords. The + default suggested stack size is 16 kilowords, that is, 64 kilobyte on 32-bit architectures. This small default size - has been chosen since the amount of async-threads might - be quite large. The default size is enough for drivers - delivered with Erlang/OTP, but might not be sufficiently - large for other dynamically linked in drivers that use the - <seealso marker="erl_driver#driver_async">driver_async()</seealso> - functionality. Note that the value passed is only a - suggestion, and it might even be ignored on some - platforms.</p> + has been chosen because the number of async threads can + be large. The default size is enough for drivers + delivered with Erlang/OTP, but might not be large + enough for other dynamically linked-in drivers that use the + <seealso marker="erl_driver#driver_async"> + <c>driver_async()</c></seealso> functionality. + Notice that the value passed is only a suggestion, + and it can even be ignored on some platforms.</p> </item> <tag><marker id="async_thread_pool_size"/><c><![CDATA[+A size]]></c></tag> <item> - <p>Sets the number of threads in async thread pool, valid range - is 0-1024. If thread support is available, the default is 10.</p> + <p>Sets the number of threads in async thread pool. Valid range + is 0-1024. Defaults to 10 if thread support is available.</p> </item> <tag><c><![CDATA[+B [c | d | i]]]></c></tag> <item> - <p>The <c><![CDATA[c]]></c> option makes <c><![CDATA[Ctrl-C]]></c> interrupt the current - shell instead of invoking the emulator break handler. - The <c><![CDATA[d]]></c> option (same as specifying <c><![CDATA[+B]]></c> without an - extra option) disables the break handler. The <c><![CDATA[i]]></c> option - makes the emulator ignore any break signal.</p> - <p>If the <c><![CDATA[c]]></c> option is used with <c><![CDATA[oldshell]]></c> on Unix, - <c><![CDATA[Ctrl-C]]></c> will restart the shell process rather than - interrupt it.</p> - <p>Note that on Windows, this flag is only applicable for - <c><![CDATA[werl]]></c>, not <c><![CDATA[erl]]></c> (<c><![CDATA[oldshell]]></c>). Note also that - <c><![CDATA[Ctrl-Break]]></c> is used instead of <c><![CDATA[Ctrl-C]]></c> on Windows.</p> + <p>Option <c><![CDATA[c]]></c> makes <c><![CDATA[Ctrl-C]]></c> + interrupt the current shell instead of invoking the emulator break + handler. Option <c><![CDATA[d]]></c> (same as specifying + <c><![CDATA[+B]]></c> without an extra option) disables the break + handler. Option <c><![CDATA[i]]></c> makes the emulator ignore any + break signal.</p> + <p>If option <c><![CDATA[c]]></c> is used with + <c><![CDATA[oldshell]]></c> on Unix, <c><![CDATA[Ctrl-C]]></c> will + restart the shell process rather than interrupt it.</p> + <p>Notice that on Windows, this flag is only applicable for + <c><![CDATA[werl]]></c>, not <c><![CDATA[erl]]></c> + (<c><![CDATA[oldshell]]></c>). Notice also that + <c><![CDATA[Ctrl-Break]]></c> is used instead of + <c><![CDATA[Ctrl-C]]></c> on Windows.</p> </item> <tag><marker id="+c"/><c><![CDATA[+c true | false]]></c></tag> <item> - <p>Enable or disable - <seealso marker="time_correction#Time_Correction">time correction</seealso>:</p> + <p>Enables or disables + <seealso marker="time_correction#Time_Correction">time + correction</seealso>:</p> <taglist> <tag><c>true</c></tag> - <item><p>Enable time correction. This is the default if - time correction is supported on the specific platform.</p></item> - - <tag><c>false</c></tag> - <item><p>Disable time correction.</p></item> - </taglist> - <p>For backwards compatibility, the boolean value can be omitted. - This is interpreted as <c>+c false</c>. - </p> - </item> - <tag><marker id="+C_"/><c><![CDATA[+C no_time_warp | single_time_warp | multi_time_warp]]></c></tag> - <item> - <p>Set - <seealso marker="time_correction#Time_Warp_Modes">time warp mode</seealso>: - </p> - <taglist> - <tag><c>no_time_warp</c></tag> - <item><p><seealso marker="time_correction#No_Time_Warp_Mode">No Time Warp Mode</seealso> (the default)</p></item> - <tag><c>single_time_warp</c></tag> - <item><p><seealso marker="time_correction#Single_Time_Warp_Mode">Single Time Warp Mode</seealso></p></item> - <tag><c>multi_time_warp</c></tag> - <item><p><seealso marker="time_correction#Multi_Time_Warp_Mode">Multi Time Warp Mode</seealso></p></item> - </taglist> + <item>Enables time correction. This is the default if + time correction is supported on the specific platform.</item> + <tag><c>false</c></tag> + <item>Disables time correction.</item> + </taglist> + <p>For backward compatibility, the boolean value can be omitted. + This is interpreted as <c>+c false</c>.</p> + </item> + <tag><marker id="+C_"/><c><![CDATA[+C no_t<seealso marker="erlang:now/0">erlang:now()</seealso>ime_warp | single_time_warp | + multi_time_warp]]></c></tag> + <item> + <p>Sets <seealso marker="time_correction#Time_Warp_Modes">time warp + mode</seealso>:</p> + <taglist> + <tag><c>no_time_warp</c></tag> + <item><seealso marker="time_correction#No_Time_Warp_Mode"> + No time warp mode</seealso> (the default)</item> + <tag><c>single_time_warp</c></tag> + <item><seealso marker="time_correction#Single_Time_Warp_Mode"> + Single time warp mode</seealso></item> + <tag><c>multi_time_warp</c></tag> + <item><seealso marker="time_correction#Multi_Time_Warp_Mode"> + Multi-time warp mode</seealso></item> + </taglist> </item> <tag><c><![CDATA[+d]]></c></tag> <item> <p>If the emulator detects an internal error (or runs out of memory), - it will by default generate both a crash dump and a core dump. - The core dump will, however, not be very useful since the content - of process heaps is destroyed by the crash dump generation.</p> - - <p>The <c>+d</c> option instructs the emulator to only produce a - core dump and no crash dump if an internal error is detected.</p> - - <p>Calling <c>erlang:halt/1</c> with a string argument will still - produce a crash dump. On Unix systems, sending an emulator process - a SIGUSR1 signal will also force a crash dump.</p> + it, by default, generates both a crash dump and a core dump. + The core dump is, however, not very useful as the content + of process heaps is destroyed by the crash dump generation.</p> + <p>Option <c>+d</c> instructs the emulator to produce only a + core dump and no crash dump if an internal error is detected.</p> + <p>Calling <seealso marker="erlang:halt/1"> + <c>erlang:halt/1</c></seealso> with a string argument still + produces a crash dump. On Unix systems, sending an emulator process + a <c>SIGUSR1</c> signal also forces a crash dump.</p> </item> <tag><marker id="+e"/><c><![CDATA[+e Number]]></c></tag> <item> - <p>Set max number of ETS tables.</p> + <p>Sets the maximum number of <c>ets</c> tables.</p> </item> <tag><c><![CDATA[+ec]]></c></tag> <item> - <p>Force the <c>compressed</c> option on all ETS tables. - Only intended for test and evaluation.</p> + <p>Forces option <c>compressed</c> on all <c>ets</c> tables. + Only intended for test and evaluation.</p> </item> - <tag><marker id="file_name_encoding"></marker><c><![CDATA[+fnl]]></c></tag> + <tag><marker id="file_name_encoding"></marker> + <c><![CDATA[+fnl]]></c></tag> <item> - <p>The VM works with file names as if they are encoded using the ISO-latin-1 encoding, disallowing Unicode characters with codepoints beyond 255.</p> - <p>See <seealso marker="stdlib:unicode_usage#unicode_file_names">STDLIB User's Guide</seealso> for more infomation about unicode file names. Note that this value also applies to command-line parameters and environment variables (see <seealso marker="stdlib:unicode_usage#unicode_in_environment_and_parameters">STDLIB User's Guide</seealso>).</p> + <p>The virtual machine works with filenames as if they are encoded + using the ISO Latin-1 encoding, disallowing Unicode characters with + code points > 255.</p> + <p>For more information about Unicode filenames, see section + <seealso marker="stdlib:unicode_usage#unicode_file_names">Unicode + Filenames</seealso> in the <c>STDLIB</c> User's Guide. Notice that + this value also applies to command-line parameters and environment + variables (see section <seealso + marker="stdlib:unicode_usage#unicode_in_environment_and_parameters"> + Unicode in Enviroment and Parameters</seealso> in the <c>STDLIB</c> + User's Guide).</p> </item> <tag><c><![CDATA[+fnu[{w|i|e}]]]></c></tag> <item> - <p>The VM works with file names as if they are encoded using - UTF-8 (or some other system specific Unicode encoding). This - is the default on operating systems that enforce Unicode - encoding, i.e. Windows and MacOS X.</p> - <p>The <c>+fnu</c> switch can be followed by <c>w</c>, - <c>i</c>, or <c>e</c> to control the way wrongly encoded file - names are to be reported. <c>w</c> means that a warning is - sent to the <c>error_logger</c> whenever a wrongly encoded - file name is "skipped" in directory listings, <c>i</c> means - that those wrongly encoded file names are silently ignored and - <c>e</c> means that the API function will return an error - whenever a wrongly encoded file (or directory) name is - encountered. <c>w</c> is the default. Note that - <c>file:read_link/1</c> will always return an error if the - link points to an invalid file name.</p> - <p>See <seealso marker="stdlib:unicode_usage#unicode_file_names">STDLIB User's Guide</seealso> for more infomation about unicode file names. Note that this value also applies to command-line parameters and environment variables (see <seealso marker="stdlib:unicode_usage#unicode_in_environment_and_parameters">STDLIB User's Guide</seealso>).</p> + <p>The virtual machine works with filenames as if they are encoded + using UTF-8 (or some other system-specific Unicode encoding). This is + the default on operating systems that enforce Unicode encoding, that + is, Windows and MacOS X.</p> + <p>The <c>+fnu</c> switch can be followed by <c>w</c>, <c>i</c>, or + <c>e</c> to control how wrongly encoded filenames are to be + reported:</p> + <list type="bulleted"> + <item> + <p><c>w</c> means that a warning is sent to the <c>error_logger</c> + whenever a wrongly encoded filename is "skipped" in directory + listings. This is the default.</p> + </item> + <item> + <p><c>i</c> means that those wrongly encoded filenames are silently + ignored.</p> + </item> + <item> + <p><c>e</c> means that the API function returns an error whenever a + wrongly encoded filename (or directory name) is encountered.</p> + </item> + </list> + <p>Notice that <seealso marker="kernel:file#read_link/1"> + <c>file:read_link/1</c></seealso> always returns an error if the link + points to an invalid filename.</p> + <p>For more information about Unicode filenames, see section + <seealso marker="stdlib:unicode_usage#unicode_file_names">Unicode + Filenames</seealso> in the <c>STDLIB</c> User's Guide. Notice that + this value also applies to command-line parameters and environment + variables (see section <seealso + marker="stdlib:unicode_usage#unicode_in_environment_and_parameters"> + Unicode in Enviroment and Parameters</seealso> in the <c>STDLIB</c> + User's Guide).</p> </item> <tag><c><![CDATA[+fna[{w|i|e}]]]></c></tag> <item> <p>Selection between <c>+fnl</c> and <c>+fnu</c> is done based - on the current locale settings in the OS, meaning that if you - have set your terminal for UTF-8 encoding, the filesystem is - expected to use the same encoding for file names. This is - default on all operating systems except MacOS X and - Windows.</p> - <p>The <c>+fna</c> switch can be followed by <c>w</c>, - <c>i</c>, or <c>e</c>. This will have effect if the locale - settings cause the behavior of <c>+fnu</c> to be selected. - See the description of <c>+fnu</c> above. If the locale - settings cause the behavior of <c>+fnl</c> to be selected, - then <c>w</c>, <c>i</c>, or <c>e</c> will not have any - effect.</p> - <p>See <seealso marker="stdlib:unicode_usage#unicode_file_names">STDLIB User's Guide</seealso> for more infomation about unicode file names. Note that this value also applies to command-line parameters and environment variables (see <seealso marker="stdlib:unicode_usage#unicode_in_environment_and_parameters">STDLIB User's Guide</seealso>).</p> + on the current locale settings in the OS. This means that if you + have set your terminal for UTF-8 encoding, the filesystem is + expected to use the same encoding for filenames. This is + default on all operating systems, except MacOS X and Windows.</p> + <p>The <c>+fna</c> switch can be followed by <c>w</c>, <c>i</c>, or + <c>e</c>. This has effect if the locale settings cause the behavior + of <c>+fnu</c> to be selected; see the description of <c>+fnu</c> + above. If the locale settings cause the behavior of <c>+fnl</c> to be + selected, then <c>w</c>, <c>i</c>, or <c>e</c> have no effect.</p> + <p>For more information about Unicode filenames, see section + <seealso marker="stdlib:unicode_usage#unicode_file_names">Unicode + Filenames</seealso> in the <c>STDLIB</c> User's Guide. Notice that + this value also applies to command-line parameters and environment + variables (see section <seealso + marker="stdlib:unicode_usage#unicode_in_environment_and_parameters"> + Unicode in Enviroment and Parameters</seealso> in the <c>STDLIB</c> + User's Guide).</p> </item> <tag><c><![CDATA[+hms Size]]></c></tag> <item> @@ -646,26 +704,24 @@ <tag><marker id="+hmax"/><c><![CDATA[+hmax Size]]></c></tag> <item> <p>Sets the default maximum heap size of processes to the size - <c><![CDATA[Size]]></c>. If <c>+hmax</c> is not given, the default is <c>0</c> - which means that no maximum heap size is used. - For more information, see the documentation of + <c><![CDATA[Size]]></c>. Defaults to <c>0</c>, which means that no + maximum heap size is used. For more information, see <seealso marker="erlang#process_flag_max_heap_size"> - <c>process_flag(max_heap_size, MaxHeapSize)</c></seealso>.</p> + <c>process_flag(max_heap_size, MaxHeapSize)</c></seealso>.</p> </item> <tag><marker id="+hmaxel"/><c><![CDATA[+hmaxel true|false]]></c></tag> <item> - <p>Sets whether to send an error logger message for processes that reach - the maximum heap size or not. If <c>+hmaxel</c> is not given, the default is <c>true</c>. - For more information, see the documentation of - <seealso marker="erlang#process_flag_max_heap_size"> + <p>Sets whether to send an error logger message or not for processes + reaching the maximum heap size. Defaults to <c>true</c>. + For more information, see + <seealso marker="erlang#process_flag_max_heap_size"> <c>process_flag(max_heap_size, MaxHeapSize)</c></seealso>.</p> </item> <tag><marker id="+hmaxk"/><c><![CDATA[+hmaxk true|false]]></c></tag> <item> - <p>Sets whether to kill processes that reach the maximum heap size or not. If - <c>+hmaxk</c> is not given, the default is <c>true</c>. For more information, - see the documentation of - <seealso marker="erlang#process_flag_max_heap_size"> + <p>Sets whether to kill processes reaching the maximum heap size or not. + Default to <c>true</c>. For more information, see + <seealso marker="erlang#process_flag_max_heap_size"> <c>process_flag(max_heap_size, MaxHeapSize)</c></seealso>.</p> </item> <tag><c><![CDATA[+hpds Size]]></c></tag> @@ -674,304 +730,231 @@ <c><![CDATA[Size]]></c>.</p> </item> <tag><marker id="+hmqd"/><c>+hmqd off_heap|on_heap</c></tag> - <item><p> - Sets the default value for the process flag - <c>message_queue_data</c>. If <c>+hmqd</c> is not - passed, <c>on_heap</c> will be the default. For more information, - see the documentation of - <seealso marker="erlang#process_flag_message_queue_data"><c>process_flag(message_queue_data, - MQD)</c></seealso>. - </p></item> + <item> + <p>Sets the default value for process flag <c>message_queue_data</c>. + Defaults to <c>on_heap</c>. If <c>+hmqd</c> is not + passed, <c>on_heap</c> will be the default. For more information, see + <seealso marker="erlang#process_flag_message_queue_data"> + <c>process_flag(message_queue_data, MQD)</c></seealso>.</p> + </item> <tag><c><![CDATA[+K true | false]]></c></tag> <item> - <p>Enables or disables the kernel poll functionality if - the emulator supports it. Default is <c><![CDATA[false]]></c> (disabled). - If the emulator does not support kernel poll, and - the <c><![CDATA[+K]]></c> flag is passed to the emulator, a warning is + <p>Enables or disables the kernel poll functionality if supported by + the emulator. Defaults to <c><![CDATA[false]]></c> (disabled). + If the emulator does not support kernel poll, and flag + <c><![CDATA[+K]]></c> is passed to the emulator, a warning is issued at startup.</p> </item> <tag><c><![CDATA[+l]]></c></tag> <item> - <p>Enables auto load tracing, displaying info while loading + <p>Enables autoload tracing, displaying information while loading code.</p> </item> <tag><c><![CDATA[+L]]></c></tag> <item> - <p>Don't load information about source file names and line numbers. - This will save some memory, but exceptions will not contain - information about the file names and line numbers. - </p> + <p>Prevents loading information about source filenames and line + numbers. This saves some memory, but exceptions do not contain + information about the filenames and line numbers.</p> </item> <tag><marker id="erts_alloc"/><c><![CDATA[+MFlag Value]]></c></tag> <item> - <p>Memory allocator specific flags, see - <seealso marker="erts_alloc">erts_alloc(3)</seealso> for - further information.</p> - </item> - <tag><marker id="+n"/><c><![CDATA[+n Behavior]]></c></tag> - <item> - <p>Control behavior of signals to ports.</p> - <p>As of OTP-R16 signals to ports are truly asynchronously - delivered. Note that signals always have been documented as - asynchronous. The underlying implementation has, however, - previously delivered these signals synchronously. Correctly - written Erlang programs should be able to handle this without - any issues. Bugs in existing Erlang programs that make false - assumptions about signals to ports may, however, be tricky to - find. This switch has been introduced in order to at least - make it easier to compare behaviors during a transition period. - Note that <em>this flag is deprecated</em> as of its - introduction, and is scheduled for removal in OTP-R17. - <c>Behavior</c> should be one of the following characters:</p> - <taglist> - <tag><c>d</c></tag> - <item>The default. Asynchronous signals. A process that sends - a signal to a port may continue execution before the signal - has been delivered to the port.</item> - <tag><c>s</c></tag> - <item>Synchronous signals. A processes that sends a signal - to a port will not continue execution until the signal has - been delivered. Should <em>only</em> be used for testing and - debugging.</item> - <tag><c>a</c></tag> - <item>Asynchronous signals. As the default, but a processes - that sends a signal will even more frequently continue - execution before the signal has been delivered to the - port. Should <em>only</em> be used for testing and - debugging.</item> - </taglist> - </item> - <tag><marker id="+pc"/><marker id="printable_character_range"/><c><![CDATA[+pc Range]]></c></tag> - <item> - <p>Sets the range of characters that the system will consider printable in heuristic detection of strings. This typically affects the shell, debugger and io:format functions (when ~tp is used in the format string).</p> - <p>Currently two values for the <c>Range</c> are supported:</p> - <taglist> - <tag><c>latin1</c></tag> <item>The default. Only characters - in the ISO-latin-1 range can be considered printable, which means - that a character with a code point > 255 will never be - considered printable and that lists containing such - characters will be displayed as lists of integers rather - than text strings by tools.</item> - <tag><c>unicode</c></tag> - <item>All printable Unicode characters are considered when - determining if a list of integers is to be displayed in - string syntax. This may give unexpected results if for - example your font does not cover all Unicode - characters.</item> - </taglist> - <p>Se also <seealso marker="stdlib:io#printable_range/0"> - io:printable_range/0</seealso>.</p> - </item> - <tag><marker id="+P"/><marker id="max_processes"/><c><![CDATA[+P Number|legacy]]></c></tag> - <item> - <p>Sets the maximum number of simultaneously existing processes for this - system if a <c>Number</c> is passed as value. Valid range for - <c>Number</c> is <c>[1024-134217727]</c></p> - <p><em>NOTE</em>: The actual maximum chosen may be much larger than - the <c>Number</c> passed. Currently the runtime system often, - but not always, chooses a value that is a power of 2. This might, - however, be changed in the future. The actual value chosen can be - checked by calling - <seealso marker="erlang#system_info_process_limit">erlang:system_info(process_limit)</seealso>.</p> - <p>The default value is <c>262144</c></p> - <p>If <c>legacy</c> is passed as value, the legacy algorithm for - allocation of process identifiers will be used. Using the legacy - algorithm, identifiers will be allocated in a strictly increasing - fashion until largest possible identifier has been reached. Note that - this algorithm suffers from performance issues and can under certain - circumstances be extremely expensive. The legacy algoritm is deprecated, - and the <c>legacy</c> option is scheduled for removal in OTP-R18.</p> - </item> - <tag><marker id="+Q"/><marker id="max_ports"/><c><![CDATA[+Q Number|legacy]]></c></tag> - <item> - <p>Sets the maximum number of simultaneously existing ports for this - system if a Number is passed as value. Valid range for <c>Number</c> - is <c>[1024-134217727]</c></p> - <p><em>NOTE</em>: The actual maximum chosen may be much larger than - the actual <c>Number</c> passed. Currently the runtime system often, - but not always, chooses a value that is a power of 2. This might, - however, be changed in the future. The actual value chosen can be - checked by calling - <seealso marker="erlang#system_info_port_limit">erlang:system_info(port_limit)</seealso>.</p> - <p>The default value used is normally <c>65536</c>. However, if - the runtime system is able to determine maximum amount of file - descriptors that it is allowed to open and this value is larger - than <c>65536</c>, the chosen value will increased to a value - larger or equal to the maximum amount of file descriptors that - can be opened.</p> - <p>On Windows the default value is set to <c>8196</c> because the - normal OS limitations are set higher than most machines can handle.</p> - <p>Previously the environment variable <c>ERL_MAX_PORTS</c> was used - for setting the maximum number of simultaneously existing ports. This - environment variable is deprecated, and scheduled for removal in - OTP-R17, but can still be used.</p> - <p>If <c>legacy</c> is passed as value, the legacy algorithm for - allocation of port identifiers will be used. Using the legacy - algorithm, identifiers will be allocated in a strictly increasing - fashion until largest possible identifier has been reached. Note that - this algorithm suffers from performance issues and can under certain - circumstances be extremely expensive. The legacy algoritm is deprecated, - and the <c>legacy</c> option is scheduled for removal in OTP-R18.</p> + <p>Memory allocator-specific flags. For more information, see + <seealso marker="erts_alloc"><c>erts_alloc(3)</c></seealso>.</p> + </item> + <tag><marker id="+pc"/><marker id="printable_character_range"/> + <c><![CDATA[+pc Range]]></c></tag> + <item> + <p>Sets the range of characters that the system considers printable in + heuristic detection of strings. This typically affects the shell, + debugger, and <c>io:format</c> functions (when <c>~tp</c> is used in + the format string).</p> + <p>Two values are supported for <c>Range</c>:</p> + <taglist> + <tag><c>latin1</c></tag> + <item>The default. Only characters in the ISO Latin-1 range can be + considered printable. This means that a character with a code point + > 255 is never considered printable and that lists containing + such characters are displayed as lists of integers rather than text + strings by tools.</item> + <tag><c>unicode</c></tag> + <item>All printable Unicode characters are considered when + determining if a list of integers is to be displayed in + string syntax. This can give unexpected results if, for + example, your font does not cover all Unicode characters.</item> + </taglist> + <p>See also <seealso marker="stdlib:io#printable_range/0"> + <c>io:printable_range/0</c></seealso> in <c>STDLIB</c>.</p> </item> <tag><marker id="compat_rel"/><c><![CDATA[+R ReleaseNumber]]></c></tag> <item> <p>Sets the compatibility mode.</p> - <p>The distribution mechanism is not backwards compatible by - default. This flags sets the emulator in compatibility mode + <p>The distribution mechanism is not backward compatible by + default. This flag sets the emulator in compatibility mode with an earlier Erlang/OTP release <c><![CDATA[ReleaseNumber]]></c>. The release number must be in the range <c><![CDATA[<current release>-2..<current release>]]></c>. This - limits the emulator, making it possible for it to communicate - with Erlang nodes (as well as C- and Java nodes) running that - earlier release.</p> - <p>Note: Make sure all nodes (Erlang-, C-, and Java nodes) of - a distributed Erlang system is of the same Erlang/OTP release, - or from two different Erlang/OTP releases X and Y, where - <em>all</em> Y nodes have compatibility mode X.</p> + limits the emulator, making it possible for it to communicate + with Erlang nodes (as well as C- and Java nodes) running that + earlier release.</p> + <note> + <p>Ensure that all nodes (Erlang-, C-, and Java nodes) of + a distributed Erlang system is of the same Erlang/OTP release, + or from two different Erlang/OTP releases X and Y, where + <em>all</em> Y nodes have compatibility mode X.</p> + </note> </item> <tag><c><![CDATA[+r]]></c></tag> <item> - <p>Force ets memory block to be moved on realloc.</p> + <p>Forces <c>ets</c> memory block to be moved on realloc.</p> </item> <tag><marker id="+rg"/><c><![CDATA[+rg ReaderGroupsLimit]]></c></tag> <item> - <p>Limits the amount of reader groups used by read/write locks - optimized for read operations in the Erlang runtime system. By - default the reader groups limit equals 64.</p> - <p>When the amount of schedulers is less than or equal to the reader - groups limit, each scheduler has its own reader group. When the - amount of schedulers is larger than the reader groups limit, - schedulers share reader groups. Shared reader groups degrades - read lock and read unlock performance while a large amount of - reader groups degrades write lock performance, so the limit is a - tradeoff between performance for read operations and performance - for write operations. Each reader group currently consumes 64 byte - in each read/write lock. Also note that a runtime system using - shared reader groups benefits from <seealso marker="#+sbt">binding - schedulers to logical processors</seealso>, since the reader groups - are distributed better between schedulers.</p> - </item> - <tag><marker id="+S"/><c><![CDATA[+S Schedulers:SchedulerOnline]]></c></tag> - <item> - <p>Sets the number of scheduler threads to create and scheduler - threads to set online when SMP support has been enabled. The maximum for - both values is 1024. If the Erlang runtime system is able to determine the - amount of logical processors configured and logical processors available, - <c>Schedulers</c> will default to logical processors configured, and - <c>SchedulersOnline</c> will default to logical processors available; - otherwise, the default values will be 1. <c>Schedulers</c> may be omitted - if <c>:SchedulerOnline</c> is not and vice versa. The number of schedulers - online can be changed at run time via - <seealso marker="erlang#system_flag_schedulers_online">erlang:system_flag(schedulers_online, SchedulersOnline)</seealso>. - </p> - <p>If <c>Schedulers</c> or <c>SchedulersOnline</c> is specified as a - negative number, the value is subtracted from the default number of - logical processors configured or logical processors available, respectively. - </p> - <p>Specifying the value 0 for <c>Schedulers</c> or <c>SchedulersOnline</c> - resets the number of scheduler threads or scheduler threads online respectively - to its default value. - </p> - <p>This option is ignored if the emulator doesn't have - SMP support enabled (see the <seealso marker="#smp">-smp</seealso> - flag).</p> - </item> - <tag><marker id="+SP"/><c><![CDATA[+SP SchedulersPercentage:SchedulersOnlinePercentage]]></c></tag> - <item> - <p>Similar to <seealso marker="#+S">+S</seealso> but uses percentages to set the - number of scheduler threads to create, based on logical processors configured, - and scheduler threads to set online, based on logical processors available, when - SMP support has been enabled. Specified values must be greater than 0. For example, - <c>+SP 50:25</c> sets the number of scheduler threads to 50% of the logical processors - configured and the number of scheduler threads online to 25% of the logical processors available. - <c>SchedulersPercentage</c> may be omitted if <c>:SchedulersOnlinePercentage</c> is - not and vice versa. The number of schedulers online can be changed at run time via - <seealso marker="erlang#system_flag_schedulers_online">erlang:system_flag(schedulers_online, SchedulersOnline)</seealso>. - </p> - <p>This option interacts with <seealso marker="#+S">+S</seealso> settings. - For example, on a system with 8 logical cores configured and 8 logical cores - available, the combination of the options <c>+S 4:4 +SP 50:25</c> (in either order) - results in 2 scheduler threads (50% of 4) and 1 scheduler thread online (25% of 4). - </p> - <p>This option is ignored if the emulator doesn't have - SMP support enabled (see the <seealso marker="#smp">-smp</seealso> - flag).</p> - </item> - <tag><marker id="+SDcpu"/><c><![CDATA[+SDcpu DirtyCPUSchedulers:DirtyCPUSchedulersOnline]]></c></tag> - <item> - <p>Sets the number of dirty CPU scheduler threads to create and dirty - CPU scheduler threads to set online when threading support has been - enabled. The maximum for both values is 1024, and each value is further - limited by the settings for normal schedulers: the number of dirty CPU - scheduler threads created cannot exceed the number of normal scheduler - threads created, and the number of dirty CPU scheduler threads online - cannot exceed the number of normal scheduler threads online (see the - <seealso marker="#+S">+S</seealso> and <seealso marker="#+SP">+SP</seealso> - flags for more details). By default, the number of dirty CPU scheduler - threads created equals the number of normal scheduler threads created, - and the number of dirty CPU scheduler threads online equals the number - of normal scheduler threads online. <c>DirtyCPUSchedulers</c> may be - omitted if <c>:DirtyCPUSchedulersOnline</c> is not and vice versa. The - number of dirty CPU schedulers online can be changed at run time via - <seealso marker="erlang#system_flag_dirty_cpu_schedulers_online">erlang:system_flag(dirty_cpu_schedulers_online, DirtyCPUSchedulersOnline)</seealso>. - </p> - <p> - The amount of dirty CPU schedulers is limited by the amount of - normal schedulers in order to limit the effect on processes - executing on ordinary schedulers. If the amount of dirty CPU - schedulers was allowed to be unlimited, dirty CPU bound jobs would - potentially starve normal jobs. - </p> - <p>This option is ignored if the emulator doesn't have threading support - enabled. Currently, <em>this option is experimental</em> and is supported only - if the emulator was configured and built with support for dirty schedulers - enabled (it's disabled by default). - </p> - </item> - <tag><marker id="+SDPcpu"/><c><![CDATA[+SDPcpu DirtyCPUSchedulersPercentage:DirtyCPUSchedulersOnlinePercentage]]></c></tag> - <item> - <p>Similar to <seealso marker="#+SDcpu">+SDcpu</seealso> but uses percentages to set the - number of dirty CPU scheduler threads to create and number of dirty CPU scheduler threads - to set online when threading support has been enabled. Specified values must be greater - than 0. For example, <c>+SDPcpu 50:25</c> sets the number of dirty CPU scheduler threads - to 50% of the logical processors configured and the number of dirty CPU scheduler threads - online to 25% of the logical processors available. <c>DirtyCPUSchedulersPercentage</c> may - be omitted if <c>:DirtyCPUSchedulersOnlinePercentage</c> is not and vice versa. The - number of dirty CPU schedulers online can be changed at run time via - <seealso marker="erlang#system_flag_dirty_cpu_schedulers_online">erlang:system_flag(dirty_cpu_schedulers_online, DirtyCPUSchedulersOnline)</seealso>. - </p> - <p>This option interacts with <seealso marker="#+SDcpu">+SDcpu</seealso> settings. - For example, on a system with 8 logical cores configured and 8 logical cores available, - the combination of the options <c>+SDcpu 4:4 +SDPcpu 50:25</c> (in either order) results - in 2 dirty CPU scheduler threads (50% of 4) and 1 dirty CPU scheduler thread online (25% of 4). - </p> - <p>This option is ignored if the emulator doesn't have threading support - enabled. Currently, <em>this option is experimental</em> and is supported only - if the emulator was configured and built with support for dirty schedulers - enabled (it's disabled by default). - </p> + <p>Limits the number of reader groups used by read/write locks + optimized for read operations in the Erlang runtime system. By + default the reader groups limit is 64.</p> + <p>When the number of schedulers is less than or equal to the reader + groups limit, each scheduler has its own reader group. When the + number of schedulers is larger than the reader groups limit, + schedulers share reader groups. Shared reader groups degrade + read lock and read unlock performance while many + reader groups degrade write lock performance. So, the limit is a + tradeoff between performance for read operations and performance + for write operations. Each reader group consumes 64 byte + in each read/write lock.</p> + <p>Notice that a runtime system using shared reader groups benefits from + <seealso marker="#+sbt">binding schedulers to logical + processors</seealso>, as the reader groups are distributed better + between schedulers.</p> + </item> + <tag><marker id="+S"/> + <c><![CDATA[+S Schedulers:SchedulerOnline]]></c></tag> + <item> + <p>Sets the number of scheduler threads to create and scheduler threads + to set online when SMP support has been enabled. The maximum for both + values is 1024. If the Erlang runtime system is able to determine the + number of logical processors configured and logical processors + available, <c>Schedulers</c> defaults to logical processors + configured, and <c>SchedulersOnline</c> defaults to logical processors + available; otherwise the default values are 1. <c>Schedulers</c> can + be omitted if <c>:SchedulerOnline</c> is not and conversely. The + number of schedulers online can be changed at runtime through + <seealso marker="erlang#system_flag_schedulers_online"> + <c>erlang:system_flag(schedulers_online, + SchedulersOnline)</c></seealso>.</p> + <p>If <c>Schedulers</c> or <c>SchedulersOnline</c> is specified as a + negative number, the value is subtracted from the default number of + logical processors configured or logical processors available, + respectively.</p> + <p>Specifying value <c>0</c> for <c>Schedulers</c> or + <c>SchedulersOnline</c> resets the number of scheduler threads or + scheduler threads online, respectively, to its default value.</p> + <p>This option is ignored if the emulator does not have SMP support + enabled (see flag <seealso marker="#smp"><c>-smp</c></seealso>).</p> + </item> + <tag><marker id="+SP"/><c><![CDATA[+SP + SchedulersPercentage:SchedulersOnlinePercentage]]></c></tag> + <item> + <p>Similar to <seealso marker="#+S"><c>+S</c></seealso> but uses + percentages to set the number of scheduler threads to create, based + on logical processors configured, and scheduler threads to set online, + based on logical processors available, when SMP support has been + enabled. Specified values must be > 0. For example, + <c>+SP 50:25</c> sets the number of scheduler threads to 50% of the + logical processors configured, and the number of scheduler threads + online to 25% of the logical processors available. + <c>SchedulersPercentage</c> can be omitted if + <c>:SchedulersOnlinePercentage</c> is not and conversely. The number + of schedulers online can be changed at runtime through + <seealso marker="erlang#system_flag_schedulers_online"> + <c>erlang:system_flag(schedulers_online, + SchedulersOnline)</c></seealso>.</p> + <p>This option interacts with <seealso marker="#+S"><c>+S</c></seealso> + settings. For example, on a system with 8 logical cores configured + and 8 logical cores available, the combination of the options + <c>+S 4:4 +SP 50:25</c> (in either order) results in 2 scheduler + threads (50% of 4) and 1 scheduler thread online (25% of 4).</p> + <p>This option is ignored if the emulator does not have SMP support + enabled (see flag <seealso marker="#smp"><c>-smp</c></seealso>).</p> + </item> + <tag><marker id="+SDcpu"/><c><![CDATA[+SDcpu + DirtyCPUSchedulers:DirtyCPUSchedulersOnline]]></c></tag> + <item> + <p>Sets the number of dirty CPU scheduler threads to create and dirty + CPU scheduler threads to set online when threading support has been + enabled. The maximum for both values is 1024, and each value is + further limited by the settings for normal schedulers:</p> + <list type="bulleted"> + <item>The number of dirty CPU scheduler threads created cannot exceed + the number of normal scheduler threads created.</item> + <item>The number of dirty CPU scheduler threads online cannot exceed + the number of normal scheduler threads online.</item> + </list> + <p>For details, see the <seealso marker="#+S"><c>+S</c></seealso> and + <seealso marker="#+SP"><c>+SP</c></seealso>. By default, the number + of dirty CPU scheduler threads created equals the number of normal + scheduler threads created, and the number of dirty CPU scheduler + threads online equals the number of normal scheduler threads online. + <c>DirtyCPUSchedulers</c> can be omitted if + <c>:DirtyCPUSchedulersOnline</c> is not and conversely. The number of + dirty CPU schedulers online can be changed at runtime through + <seealso marker="erlang#system_flag_dirty_cpu_schedulers_online"> + <c>erlang:system_flag(dirty_cpu_schedulers_online, + DirtyCPUSchedulersOnline)</c></seealso>.</p> + <p>The amount of dirty CPU schedulers is limited by the amount of + normal schedulers in order to limit the effect on processes + executing on ordinary schedulers. If the amount of dirty CPU + schedulers was allowed to be unlimited, dirty CPU bound jobs would + potentially starve normal jobs.</p> + <p>This option is ignored if the emulator does not have threading + support enabled. <em>This option is experimental</em> and + is supported only if the emulator was configured and built with + support for dirty schedulers enabled (it is disabled by default).</p> + </item> + <tag><marker id="+SDPcpu"/><c><![CDATA[+SDPcpu + DirtyCPUSchedulersPercentage:DirtyCPUSchedulersOnlinePercentage]]></c></tag> + <item> + <p>Similar to <seealso marker="#+SDcpu"><c>+SDcpu</c></seealso> but + uses percentages to set the number of dirty CPU scheduler threads to + create and the number of dirty CPU scheduler threads to set online + when threading support has been enabled. Specified values must be + > 0. For example, <c>+SDPcpu 50:25</c> sets the number of dirty + CPU scheduler threads to 50% of the logical processors configured + and the number of dirty CPU scheduler threads online to 25% of the + logical processors available. <c>DirtyCPUSchedulersPercentage</c> can + be omitted if <c>:DirtyCPUSchedulersOnlinePercentage</c> is not and + conversely. The number of dirty CPU schedulers online can be changed + at runtime through + <seealso marker="erlang#system_flag_dirty_cpu_schedulers_online"> + <c>erlang:system_flag(dirty_cpu_schedulers_online, + DirtyCPUSchedulersOnline)</c></seealso>.</p> + <p>This option interacts with <seealso + marker="#+SDcpu"><c>+SDcpu</c></seealso> settings. For example, on a + system with 8 logical cores configured and 8 logical cores available, + the combination of the options <c>+SDcpu 4:4 +SDPcpu 50:25</c> (in + either order) results in 2 dirty CPU scheduler threads (50% of 4) and + 1 dirty CPU scheduler thread online (25% of 4).</p> + <p>This option is ignored if the emulator does not have threading + support enabled. <em>This option is experimental</em> and + is supported only if the emulator was configured and built with + support for dirty schedulers enabled (it is disabled by default).</p> </item> <tag><marker id="+SDio"/><c><![CDATA[+SDio DirtyIOSchedulers]]></c></tag> <item> - <p>Sets the number of dirty I/O scheduler threads to create when threading - support has been enabled. The valid range is 0-1024. By default, the number - of dirty I/O scheduler threads created is 10, same as the default number of - threads in the <seealso marker="#async_thread_pool_size">async thread pool - </seealso>. - </p> - <p> - The amount of dirty IO schedulers is not limited by the amount of - normal schedulers <seealso marker="#+SDcpu">like the amount of - dirty CPU schedulers</seealso>. This since only I/O bound work is - expected to execute on dirty I/O schedulers. If the user should schedule CPU - bound jobs on dirty I/O schedulers, these jobs might starve ordinary - jobs executing on ordinary schedulers. - </p> - <p>This option is ignored if the emulator doesn't have threading support - enabled. Currently, <em>this option is experimental</em> and is supported only - if the emulator was configured and built with support for dirty schedulers - enabled (it's disabled by default). - </p> + <p>Sets the number of dirty I/O scheduler threads to create when + threading support has been enabled. Valid range is 0-1024. By + default, the number of dirty I/O scheduler threads created is 10, + same as the default number of threads in the <seealso + marker="#async_thread_pool_size">async thread pool</seealso>.</p> + <p>The amount of dirty IO schedulers is not limited by the amount of + normal schedulers <seealso marker="#+SDcpu">like the amount of + dirty CPU schedulers</seealso>. This since only I/O bound work is + expected to execute on dirty I/O schedulers. If the user should schedule CPU + bound jobs on dirty I/O schedulers, these jobs might starve ordinary + jobs executing on ordinary schedulers.</p> + <p>This option is ignored if the emulator does not have threading + support enabled. <em>This option is experimental</em> and + is supported only if the emulator was configured and built with + support for dirty schedulers enabled (it is disabled by default).</p> </item> <tag><c><![CDATA[+sFlag Value]]></c></tag> <item> @@ -979,238 +962,237 @@ <taglist> <tag><marker id="+sbt"/><c>+sbt BindType</c></tag> <item> - <p>Set scheduler bind type.</p> - <p>Schedulers can also be bound using the - <seealso marker="#+stbt">+stbt</seealso> flag. The only difference - between these two flags is how the following errors are handled:</p> - <list> - <item>Binding of schedulers is not supported on the specific - platform.</item> - <item>No available CPU topology. That is the runtime system - was not able to automatically detected the CPU topology, and - no <seealso marker="#+sct">user defined CPU topology</seealso> - was set.</item> - </list> - <p>If any of these errors occur when <c>+sbt</c> has been passed, - the runtime system will print an error message, and refuse to - start. If any of these errors occur when <c>+stbt</c> has been - passed, the runtime system will silently ignore the error, and - start up using unbound schedulers.</p> - <p>Currently valid <c>BindType</c>s: - </p> - <taglist> - <tag><c>u</c></tag> - <item> - <p><c>unbound</c> - Schedulers will not be bound to logical - processors, i.e., the operating system decides where the - scheduler threads execute, and when to migrate them. This is - the default.</p> + <p>Sets scheduler bind type.</p> + <p>Schedulers can also be bound using flag + <seealso marker="#+stbt"><c>+stbt</c></seealso>. The only + difference between these two flags is how the following errors + are handled:</p> + <list type="bulleted"> + <item>Binding of schedulers is not supported on the specific + platform.</item> + <item>No available CPU topology. That is, the runtime system was + not able to detect the CPU topology automatically, and no + <seealso marker="#+sct">user-defined CPU topology</seealso> + was set.</item> + </list> + <p>If any of these errors occur when <c>+sbt</c> has been passed, + the runtime system prints an error message, and refuses to + start. If any of these errors occur when <c>+stbt</c> has been + passed, the runtime system silently ignores the error, and + start up using unbound schedulers.</p> + <p>Valid <c>BindType</c>s:</p> + <taglist> + <tag><c>u</c></tag> + <item><c>unbound</c> - Schedulers are not bound to logical + processors, that is, the operating system decides where the + scheduler threads execute, and when to migrate them. This is + the default. </item> - <tag><c>ns</c></tag> - <item> - <p><c>no_spread</c> - Schedulers with close scheduler - identifiers will be bound as close as possible in hardware.</p> + <tag><c>ns</c></tag> + <item><c>no_spread</c> - Schedulers with close scheduler + identifiers are bound as close as possible in hardware. </item> - <tag><c>ts</c></tag> - <item> - <p><c>thread_spread</c> - Thread refers to hardware threads - (e.g. Intel's hyper-threads). Schedulers with low scheduler - identifiers, will be bound to the first hardware thread of - each core, then schedulers with higher scheduler identifiers - will be bound to the second hardware thread of each core, - etc.</p> + <tag><c>ts</c></tag> + <item><c>thread_spread</c> - Thread refers to hardware threads + (such as Intel's hyper-threads). Schedulers with low scheduler + identifiers, are bound to the first hardware thread of + each core, then schedulers with higher scheduler identifiers + are bound to the second hardware thread of each core,and so on. </item> - <tag><c>ps</c></tag> - <item> - <p><c>processor_spread</c> - Schedulers will be spread like - <c>thread_spread</c>, but also over physical processor chips.</p> + <tag><c>ps</c></tag> + <item><c>processor_spread</c> - Schedulers are spread like + <c>thread_spread</c>, but also over physical processor chips. </item> - <tag><c>s</c></tag> - <item> - <p><c>spread</c> - Schedulers will be spread as much as - possible.</p> + <tag><c>s</c></tag> + <item><c>spread</c> - Schedulers are spread as much as possible. </item> - <tag><c>nnts</c></tag> - <item> - <p><c>no_node_thread_spread</c> - Like <c>thread_spread</c>, - but if multiple NUMA (Non-Uniform Memory Access) nodes exists, - schedulers will be spread over one NUMA node at a time, - i.e., all logical processors of one NUMA node will be bound - to schedulers in sequence.</p> + <tag><c>nnts</c></tag> + <item><c>no_node_thread_spread</c> - Like <c>thread_spread</c>, + but if multiple Non-Uniform Memory Access (NUMA) nodes exist, + schedulers are spread over one NUMA node at a time, + that is, all logical processors of one NUMA node are bound + to schedulers in sequence. </item> - <tag><c>nnps</c></tag> - <item> - <p><c>no_node_processor_spread</c> - Like - <c>processor_spread</c>, but if multiple NUMA nodes exists, - schedulers will be spread over one NUMA node at a time, i.e., - all logical processors of one NUMA node will be bound to - schedulers in sequence.</p> + <tag><c>nnps</c></tag> + <item><c>no_node_processor_spread</c> - Like + <c>processor_spread</c>, but if multiple NUMA nodes exist, + schedulers are spread over one NUMA node at a time, that is, + all logical processors of one NUMA node are bound to + schedulers in sequence. </item> - <tag><c>tnnps</c></tag> - <item> - <p><c>thread_no_node_processor_spread</c> - A combination of - <c>thread_spread</c>, and <c>no_node_processor_spread</c>. - Schedulers will be spread over hardware threads across NUMA - nodes, but schedulers will only be spread over processors - internally in one NUMA node at a time.</p> + <tag><c>tnnps</c></tag> + <item><c>thread_no_node_processor_spread</c> - A combination of + <c>thread_spread</c>, and <c>no_node_processor_spread</c>. + Schedulers are spread over hardware threads across NUMA + nodes, but schedulers are only spread over processors + internally in one NUMA node at a time. </item> - <tag><c>db</c></tag> - <item> - <p><c>default_bind</c> - Binds schedulers the default way. - Currently the default is <c>thread_no_node_processor_spread</c> - (which might change in the future).</p> + <tag><c>db</c></tag> + <item><c>default_bind</c> - Binds schedulers the default way. + Defaults to <c>thread_no_node_processor_spread</c> + (which can change in the future). </item> - </taglist> - <p>Binding of schedulers is currently only supported on newer - Linux, Solaris, FreeBSD, and Windows systems.</p> - <p>If no CPU topology is available when the <c>+sbt</c> flag - is processed and <c>BindType</c> is any other type than - <c>u</c>, the runtime system will fail to start. CPU - topology can be defined using the - <seealso marker="#+sct">+sct</seealso> flag. Note - that the <c>+sct</c> flag may have to be passed before the - <c>+sbt</c> flag on the command line (in case no CPU topology - has been automatically detected).</p> - <p>The runtime system will by default <em>not</em> bind schedulers - to logical processors. - </p> - <p><em>NOTE:</em> If the Erlang runtime system is the only operating system - process that binds threads to logical processors, this - improves the performance of the runtime system. However, - if other operating system processes (as for example - another Erlang runtime system) also bind threads to - logical processors, there might be a performance penalty - instead. In some cases this performance penalty might be - severe. If this is the case, you are advised to not - bind the schedulers.</p> + </taglist> + <p>Binding of schedulers is only supported on newer + Linux, Solaris, FreeBSD, and Windows systems.</p> + <p>If no CPU topology is available when flag <c>+sbt</c> + is processed and <c>BindType</c> is any other type than + <c>u</c>, the runtime system fails to start. CPU + topology can be defined using flag + <seealso marker="#+sct"><c>+sct</c></seealso>. Notice + that flag <c>+sct</c> can have to be passed before flag + <c>+sbt</c> on the command line (if no CPU topology + has been automatically detected).</p> + <p>The runtime system does by default <em>not</em> bind schedulers + to logical processors.</p> + <note> + <p>If the Erlang runtime system is the only operating system + process that binds threads to logical processors, this + improves the performance of the runtime system. However, + if other operating system processes (for example + another Erlang runtime system) also bind threads to + logical processors, there can be a performance penalty + instead. This performance penalty can sometimes be + severe. If so, you are advised not to + bind the schedulers.</p> + </note> <p>How schedulers are bound matters. For example, in - situations when there are fewer running processes than - schedulers online, the runtime system tries to migrate - processes to schedulers with low scheduler identifiers. - The more the schedulers are spread over the hardware, - the more resources will be available to the runtime - system in such situations. - </p> - <p> - <em>NOTE:</em> If a scheduler fails to bind, this - will often be silently ignored. This since it isn't always - possible to verify valid logical processor identifiers. If - an error is reported, it will be reported to the - <c>error_logger</c>. If you want to verify that the - schedulers actually have bound as requested, call - <seealso marker="erlang#system_info_scheduler_bindings">erlang:system_info(scheduler_bindings)</seealso>. - </p> + situations when there are fewer running processes than + schedulers online, the runtime system tries to migrate + processes to schedulers with low scheduler identifiers. + The more the schedulers are spread over the hardware, + the more resources are available to the runtime + system in such situations.</p> + <note> + <p>If a scheduler fails to bind, this is + often silently ignored, as it is not always + possible to verify valid logical processor identifiers. If + an error is reported, it is reported to the + <c>error_logger</c>. If you want to verify that the + schedulers have bound as requested, call + <seealso marker="erlang#system_info_scheduler_bindings"> + <c>erlang:system_info(scheduler_bindings)</c></seealso>.</p> + </note> </item> - <tag><marker id="+sbwt"/><c>+sbwt none|very_short|short|medium|long|very_long</c></tag> - <item> - <p>Set scheduler busy wait threshold. Default is <c>medium</c>. - The threshold determines how long schedulers should busy - wait when running out of work before going to sleep. - </p> - <p><em>NOTE:</em> This flag may be removed or changed at any time - without prior notice. - </p> - </item> - <tag><marker id="+scl"/><c>+scl true|false</c></tag> + <tag><marker id="+sbwt"/> + <c>+sbwt none|very_short|short|medium|long|very_long</c></tag> + <item> + <p>Sets scheduler busy wait threshold. Defaults to <c>medium</c>. + The threshold determines how long schedulers are to busy + wait when running out of work before going to sleep.</p> + <note> + <p>This flag can be removed or changed at any time + without prior notice.</p> + </note> + </item> +<tag><marker id="+scl"/><c>+scl true|false</c></tag> <item> - <p>Enable or disable scheduler compaction of load. By default - scheduler compaction of load is enabled. When enabled, load - balancing will strive for a load distribution which causes - as many scheduler threads as possible to be fully loaded (i.e., - not run out of work). This is accomplished by migrating load - (e.g. runnable processes) into a smaller set of schedulers - when schedulers frequently run out of work. When disabled, - the frequency with which schedulers run out of work will - not be taken into account by the load balancing logic. - <br/> <c>+scl false</c> is similar to - <seealso marker="#+sub">+sub true</seealso> with the difference - that <c>+sub true</c> also will balance scheduler utilization - between schedulers. - </p> + <p>Enables or disables scheduler compaction of load. By default + scheduler compaction of load is enabled. When enabled, load + balancing strives for a load distribution, which causes + as many scheduler threads as possible to be fully loaded (that is, + not run out of work). This is accomplished by migrating load + (for example, runnable processes) into a smaller set of schedulers + when schedulers frequently run out of work. When disabled, + the frequency with which schedulers run out of work is + not taken into account by the load balancing logic.</p> + <p><c>+scl false</c> is similar to + <seealso marker="#+sub"><c>+sub true</c></seealso>, but + <c>+sub true</c> also balances scheduler utilization + between schedulers.</p> </item> <tag><marker id="+sct"/><c>+sct CpuTopology</c></tag> <item> <list type="bulleted"> - <item><c><![CDATA[<Id> = integer(); when 0 =< <Id> =< 65535]]></c></item> + <item><c><![CDATA[<Id> = integer(); when 0 =< <Id> =< 65535]]></c> + </item> <item><c><![CDATA[<IdRange> = <Id>-<Id>]]></c></item> <item><c><![CDATA[<IdOrIdRange> = <Id> | <IdRange>]]></c></item> - <item><c><![CDATA[<IdList> = <IdOrIdRange>,<IdOrIdRange> | <IdOrIdRange>]]></c></item> + <item><c><![CDATA[<IdList> = <IdOrIdRange>,<IdOrIdRange> | + <IdOrIdRange>]]></c></item> <item><c><![CDATA[<LogicalIds> = L<IdList>]]></c></item> - <item><c><![CDATA[<ThreadIds> = T<IdList> | t<IdList>]]></c></item> + <item><c><![CDATA[<ThreadIds> = T<IdList> | t<IdList>]]></c> + </item> <item><c><![CDATA[<CoreIds> = C<IdList> | c<IdList>]]></c></item> - <item><c><![CDATA[<ProcessorIds> = P<IdList> | p<IdList>]]></c></item> + <item><c><![CDATA[<ProcessorIds> = P<IdList> | p<IdList>]]></c> + </item> <item><c><![CDATA[<NodeIds> = N<IdList> | n<IdList>]]></c></item> - <item><c><![CDATA[<IdDefs> = <LogicalIds><ThreadIds><CoreIds><ProcessorIds><NodeIds> | <LogicalIds><ThreadIds><CoreIds><NodeIds><ProcessorIds>]]></c></item> - <item><c><![CDATA[CpuTopology = <IdDefs>:<IdDefs> | <IdDefs>]]></c></item> + <item><c><![CDATA[<IdDefs> = + <LogicalIds><ThreadIds><CoreIds><ProcessorIds><NodeIds> | + <LogicalIds><ThreadIds><CoreIds><NodeIds><ProcessorIds>]]></c> + </item> + <item><c><![CDATA[CpuTopology = <IdDefs>:<IdDefs> | + <IdDefs>]]></c></item> + </list> + <p>Sets a user-defined CPU topology. The user-defined + CPU topology overrides any automatically detected + CPU topology. The CPU topology is used when + <seealso marker="#+sbt">binding schedulers to logical + processors</seealso>.</p> + <p>Uppercase letters signify real identifiers and lowercase + letters signify fake identifiers only used for description + of the topology. Identifiers passed as real identifiers can + be used by the runtime system when trying to access specific + hardware; if they are incorrect the behavior is + undefined. Faked logical CPU identifiers are not accepted, + as there is no point in defining the CPU topology without + real logical CPU identifiers. Thread, core, processor, and + node identifiers can be omitted. If omitted, the thread ID + defaults to <c>t0</c>, the core ID defaults to <c>c0</c>, + the processor ID defaults to <c>p0</c>, and the node ID is + left undefined. Either each logical processor must + belong to only one NUMA node, or no logical + processors must belong to any NUMA nodes.</p> + <p>Both increasing and decreasing <c><![CDATA[<IdRange>]]></c>s + are allowed.</p> + <p>NUMA node identifiers are system wide. That is, each NUMA + node on the system must have a unique identifier. Processor + identifiers are also system wide. Core identifiers are + processor wide. Thread identifiers are core wide.</p> + <p>The order of the identifier types implies the hierarchy of the + CPU topology. The valid orders are as follows:</p> + <list type="bulleted"> + <item> + <p><c><![CDATA[<LogicalIds><ThreadIds><CoreIds><ProcessorIds><NodeIds>]]></c>, + that is, thread is part of a core that is part of a processor, + which is part of a NUMA node.</p> + </item> + <item> + <p><c><![CDATA[<LogicalIds><ThreadIds><CoreIds><NodeIds><ProcessorIds>]]></c>, + that is, thread is part of a core that is part of a NUMA node, + which is part of a processor.</p> + </item> + </list> + <p>A CPU topology can consist of both processor external, and + processor internal NUMA nodes as long as each logical processor + belongs to only one NUMA node. If + <c><![CDATA[<ProcessorIds>]]></c> is omitted, its default position + is before <c><![CDATA[<NodeIds>]]></c>. That is, the default is + processor external NUMA nodes.</p> + <p>If a list of identifiers is used in an + <c><![CDATA[<IdDefs>]]></c>:</p> + <list type="bulleted"> + <item><c><![CDATA[<LogicalIds>]]></c> must be a list + of identifiers.</item> + <item>At least one other identifier type besides + <c><![CDATA[<LogicalIds>]]></c> must also have a + list of identifiers.</item> + <item>All lists of identifiers must produce the + same number of identifiers.</item> </list> - <p>Set a user defined CPU topology. The user defined - CPU topology will override any automatically detected - CPU topology. The CPU topology is used when - <seealso marker="#+sbt">binding schedulers to logical - processors</seealso>. - </p> - <p>Upper-case letters signify real identifiers and lower-case - letters signify fake identifiers only used for description - of the topology. Identifiers passed as real identifiers may - be used by the runtime system when trying to access specific - hardware and if they are not correct the behavior is - undefined. Faked logical CPU identifiers are not accepted - since there is no point in defining the CPU topology without - real logical CPU identifiers. Thread, core, processor, and - node identifiers may be left out. If left out, thread id - defaults to <c>t0</c>, core id defaults to <c>c0</c>, - processor id defaults to <c>p0</c>, and node id will - be left undefined. Either each logical processor must - belong to one and only one NUMA node, or no logical - processors must belong to any NUMA nodes. - </p> - <p>Both increasing and decreasing <c><![CDATA[<IdRange>]]></c>s - are allowed.</p> - <p>NUMA node identifiers are system wide. That is, each NUMA - node on the system have to have a unique identifier. Processor - identifiers are also system wide. Core identifiers are - processor wide. Thread identifiers are core wide.</p> - <p>The order of the identifier types imply the hierarchy of the - CPU topology. Valid orders are either - <c><![CDATA[<LogicalIds><ThreadIds><CoreIds><ProcessorIds><NodeIds>]]></c>, - or - <c><![CDATA[<LogicalIds><ThreadIds><CoreIds><NodeIds><ProcessorIds>]]></c>. - That is, thread is part of a core which is part of a processor - which is part of a NUMA node, or thread is part of a core which - is part of a NUMA node which is part of a processor. A cpu - topology can consist of both processor external, and processor - internal NUMA nodes as long as each logical processor belongs - to one and only one NUMA node. If <c><![CDATA[<ProcessorIds>]]></c> - is left out, its default position will be before - <c><![CDATA[<NodeIds>]]></c>. That is, the default is - processor external NUMA nodes. - </p> - <p>If a list of identifiers is used in an - <c><![CDATA[<IdDefs>]]></c>:</p> - <list type="bulleted"> - <item><c><![CDATA[<LogicalIds>]]></c> have to be a list - of identifiers.</item> - <item>At least one other identifier type apart from - <c><![CDATA[<LogicalIds>]]></c> also have to have a - list of identifiers.</item> - <item>All lists of identifiers have to produce the - same amount of identifiers.</item> - </list> - <p>A simple example. A single quad core processor may be - described this way:</p> + <p>A simple example. A single quad core processor can be + described as follows:</p> <pre> % <input>erl +sct L0-3c0-3</input> 1> <input>erlang:system_info(cpu_topology).</input> [{processor,[{core,{logical,0}}, {core,{logical,1}}, {core,{logical,2}}, - {core,{logical,3}}]}] -</pre> - <p>A little more complicated example. Two quad core - processors. Each processor in its own NUMA node. - The ordering of logical processors is a little weird. - This in order to give a better example of identifier - lists:</p> + {core,{logical,3}}]}]</pre> + <p>A more complicated example with two quad core + processors, each processor in its own NUMA node. + The ordering of logical processors is a bit weird. + This to give a better example of identifier lists:</p> <pre> % <input>erl +sct L0-1,3-2c0-3p0N0:L7,4,6-5c0-3p1N1</input> 1> <input>erlang:system_info(cpu_topology).</input> @@ -1221,239 +1203,247 @@ {node,[{processor,[{core,{logical,7}}, {core,{logical,4}}, {core,{logical,6}}, - {core,{logical,5}}]}]}] -</pre> - <p>As long as real identifiers are correct it is okay - to pass a CPU topology that is not a correct - description of the CPU topology. When used with - care this can actually be very useful. This in - order to trick the emulator to bind its schedulers - as you want. For example, if you want to run multiple - Erlang runtime systems on the same machine, you - want to reduce the amount of schedulers used and - manipulate the CPU topology so that they bind to - different logical CPUs. An example, with two Erlang - runtime systems on a quad core machine:</p> + {core,{logical,5}}]}]}]</pre> + <p>As long as real identifiers are correct, it is OK + to pass a CPU topology that is not a correct + description of the CPU topology. When used with + care this can be very useful. This + to trick the emulator to bind its schedulers + as you want. For example, if you want to run multiple + Erlang runtime systems on the same machine, you + want to reduce the number of schedulers used and + manipulate the CPU topology so that they bind to + different logical CPUs. An example, with two Erlang + runtime systems on a quad core machine:</p> <pre> % <input>erl +sct L0-3c0-3 +sbt db +S3:2 -detached -noinput -noshell -sname one</input> -% <input>erl +sct L3-0c0-3 +sbt db +S3:2 -detached -noinput -noshell -sname two</input> -</pre> - <p>In this example each runtime system have two - schedulers each online, and all schedulers online - will run on different cores. If we change to one - scheduler online on one runtime system, and three - schedulers online on the other, all schedulers - online will still run on different cores.</p> - <p>Note that a faked CPU topology that does not reflect - how the real CPU topology looks like is likely to - decrease the performance of the runtime system.</p> - <p>For more information, see - <seealso marker="erlang#system_info_cpu_topology">erlang:system_info(cpu_topology)</seealso>.</p> +% <input>erl +sct L3-0c0-3 +sbt db +S3:2 -detached -noinput -noshell -sname two</input></pre> + <p>In this example, each runtime system have two + schedulers each online, and all schedulers online + will run on different cores. If we change to one + scheduler online on one runtime system, and three + schedulers online on the other, all schedulers + online will still run on different cores.</p> + <p>Notice that a faked CPU topology that does not reflect + how the real CPU topology looks like is likely to + decrease the performance of the runtime system.</p> + <p>For more information, see + <seealso marker="erlang#system_info_cpu_topology"> + <c>erlang:system_info(cpu_topology)</c></seealso>.</p> </item> <tag><marker id="+secio"/><c>+secio true|false</c></tag> <item> - <p>Enable or disable eager check I/O scheduling. The default - is currently <c>true</c>. The default was changed from <c>false</c> - to <c>true</c> as of erts version 7.0. The behaviour before this - flag was introduced corresponds to <c>+secio false</c>.</p> - <p>The flag effects when schedulers will check for I/O - operations possible to execute, and when such I/O operations - will execute. As the name of the parameter implies, - schedulers will be more eager to check for I/O when - <c>true</c> is passed. This however also implies that - execution of outstanding I/O operation will not be - prioritized to the same extent as when <c>false</c> is - passed.</p> - <p><seealso marker="erlang#system_info_eager_check_io"><c>erlang:system_info(eager_check_io)</c></seealso> - returns the value of this parameter used when starting the VM.</p> + <p>Enables or disables eager check I/O scheduling. Defaults + to <c>true</c>. The default was changed from <c>false</c> + as from <c>ERTS</c> 7.0. The behavior before this + flag was introduced corresponds to <c>+secio false</c>.</p> + <p>The flag effects when schedulers will check for I/O + operations possible to execute, and when such I/O operations + will execute. As the parameter name implies, + schedulers are more eager to check for I/O when + <c>true</c> is passed. This, however, also implies that + execution of outstanding I/O operation is not + prioritized to the same extent as when <c>false</c> is + passed.</p> + <p><seealso marker="erlang#system_info_eager_check_io"> + <c>erlang:system_info(eager_check_io)</c></seealso> + returns the value of this parameter used when starting + the virtual machine.</p> </item> <tag><marker id="+sfwi"/><c>+sfwi Interval</c></tag> <item> - <p>Set scheduler forced wakeup interval. All run queues will - be scanned each <c>Interval</c> milliseconds. While there are - sleeping schedulers in the system, one scheduler will be woken - for each non-empty run queue found. An <c>Interval</c> of zero - disables this feature, which also is the default. - </p> - <p>This feature has been introduced as a temporary workaround - for long-executing native code, and native code that does not - bump reductions properly in OTP. When these bugs have be fixed - the <c>+sfwi</c> flag will be removed. - </p> - </item> + <p>Sets scheduler-forced wakeup interval. All run queues are + scanned each <c>Interval</c> milliseconds. While there are + sleeping schedulers in the system, one scheduler is woken + for each non-empty run queue found. <c>Interval</c> default + to <c>0</c>, meaning this feature is disabled.</p> + <note> + <p>This feature has been introduced as a temporary workaround + for long-executing native code, and native code that does not + bump reductions properly in OTP. When these bugs have be fixed, + this flag will be removed.</p> + </note> + </item> + <tag><marker id="+spp"/><c>+spp Bool</c></tag> + <item> + <p>Sets default scheduler hint for port parallelism. If set to + <c>true</c>, the virtual machine schedules port tasks when it + improves parallelism in the system. If set to <c>false</c>, the + virtual machine tries to perform port tasks immediately, + improving latency at the expense of parallelism. Default to + <c>false</c>. The default used can be inspected in runtime by + calling <seealso marker="erlang#system_info_port_parallelism"> + <c>erlang:system_info(port_parallelism)</c></seealso>. + The default can be overridden on port creation by passing option + <seealso marker="erlang#open_port_parallelism"> + <c>parallelism</c></seealso> to + <seealso marker="erlang#open_port/2"> + <c>erlang:open_port/2</c></seealso></p>. + </item> + <tag><marker id="sched_thread_stack_size"/> + <c><![CDATA[+sss size]]></c></tag> + <item> + <p>Suggested stack size, in kilowords, for scheduler threads. + Valid range is 4-8192 kilowords. The default stack size is + OS-dependent.</p> + </item> <tag><marker id="+stbt"/><c>+stbt BindType</c></tag> <item> - <p>Try to set scheduler bind type. The same as the - <seealso marker="#+sbt">+sbt</seealso> flag with the exception of - how some errors are handled. For more information, see the - documentation of the <seealso marker="#+sbt">+sbt</seealso> flag. - </p> - </item> + <p>Tries to set the scheduler bind type. The same as flag + <seealso marker="#+sbt"><c>+sbt</c></seealso> except + how some errors are handled. For more information, see + <seealso marker="#+sbt"><c>+sbt</c></seealso>.</p> + </item> <tag><marker id="+sub"/><c>+sub true|false</c></tag> <item> - <p>Enable or disable - <seealso marker="erts:erlang#statistics_scheduler_wall_time">scheduler - utilization</seealso> balancing of load. By default scheduler - utilization balancing is disabled and instead scheduler - compaction of load is enabled which will strive for a load - distribution which causes as many scheduler threads as possible - to be fully loaded (i.e., not run out of work). When scheduler - utilization balancing is enabled the system will instead try to - balance scheduler utilization between schedulers. That is, - strive for equal scheduler utilization on all schedulers. - <br/> <c>+sub true</c> is only supported on - systems where the runtime system detects and uses a monotonically - increasing high resolution clock. On other systems, the runtime - system will fail to start. - <br/> <c>+sub true</c> implies - <seealso marker="#+scl">+scl false</seealso>. The difference - between <c>+sub true</c> and <c>+scl false</c> is that - <c>+scl false</c> will not try to balance the scheduler - utilization. - </p> + <p>Enables or disables + <seealso marker="erts:erlang#statistics_scheduler_wall_time"> + scheduler utilization</seealso> balancing of load. By default + scheduler utilization balancing is disabled and instead scheduler + compaction of load is enabled, which strives for a load + distribution that causes as many scheduler threads as possible + to be fully loaded (that is, not run out of work). When scheduler + utilization balancing is enabled, the system instead tries to + balance scheduler utilization between schedulers. That is, + strive for equal scheduler utilization on all schedulers.</p> + <p><c>+sub true</c> is only supported on systems where the runtime + system detects and uses a monotonically increasing high-resolution + clock. On other systems, the runtime system fails to start.</p> + <p><c>+sub true</c> implies <seealso marker="#+scl"> + <c>+scl false</c></seealso>. The difference between + <c>+sub true</c> and <c>+scl false</c> is that <c>+scl false</c> + does not try to balance the scheduler utilization.</p> </item> - <tag><marker id="+swct"/><c>+swct very_eager|eager|medium|lazy|very_lazy</c></tag> - <item> - <p> - Set scheduler wake cleanup threshold. Default is <c>medium</c>. - This flag controls how eager schedulers should be requesting - wake up due to certain cleanup operations. When a lazy setting - is used, more outstanding cleanup operations can be left undone - while a scheduler is idling. When an eager setting is used, - schedulers will more frequently be woken, potentially increasing - CPU-utilization. - </p> - <p><em>NOTE:</em> This flag may be removed or changed at any time without prior notice. - </p> - </item> - <tag><marker id="+sws"/><c>+sws default|legacy</c></tag> - <item> - <p> - Set scheduler wakeup strategy. Default strategy changed in erts-5.10/OTP-R16A. This strategy was previously known as <c>proposal</c> in OTP-R15. The <c>legacy</c> strategy was used as default from R13 up to and including R15. - </p> - <p><em>NOTE:</em> This flag may be removed or changed at any time without prior notice. - </p> - </item> - <tag><marker id="+swt"/><c>+swt very_low|low|medium|high|very_high</c></tag> - <item> - <p>Set scheduler wakeup threshold. Default is <c>medium</c>. - The threshold determines when to wake up sleeping schedulers - when more work than can be handled by currently awake schedulers - exist. A low threshold will cause earlier wakeups, and a high - threshold will cause later wakeups. Early wakeups will - distribute work over multiple schedulers faster, but work will - more easily bounce between schedulers. - </p> - <p><em>NOTE:</em> This flag may be removed or changed at any time - without prior notice. - </p> - </item> - <tag><marker id="+spp"/><c>+spp Bool</c></tag> + <tag><marker id="+swct"/> + <c>+swct very_eager|eager|medium|lazy|very_lazy</c></tag> <item> - <p>Set default scheduler hint for port parallelism. If set to - <c>true</c>, the VM will schedule port tasks when doing so will - improve parallelism in the system. If set to <c>false</c>, the VM - will try to perform port tasks immediately, improving latency at the - expense of parallelism. If this flag has not been passed, the - default scheduler hint for port parallelism is currently - <c>false</c>. The default used can be inspected in runtime by - calling <seealso - marker="erlang#system_info_port_parallelism">erlang:system_info(port_parallelism)</seealso>. - The default can be overriden on port creation by passing the - <seealso marker="erlang#open_port_parallelism">parallelism</seealso> - option to <seealso - marker="erlang#open_port/2">open_port/2</seealso></p>. - </item> - <tag><marker id="sched_thread_stack_size"/><c><![CDATA[+sss size]]></c></tag> - <item> - <p>Suggested stack size, in kilowords, for scheduler threads. - Valid range is 4-8192 kilowords. The default stack size - is OS dependent.</p> - </item> + <p>Sets scheduler wake cleanup threshold. Defaults to <c>medium</c>. + Controls how eager schedulers are to be requesting + wakeup because of certain cleanup operations. When a lazy setting + is used, more outstanding cleanup operations can be left undone + while a scheduler is idling. When an eager setting is used, + schedulers are more frequently woken, potentially increasing + CPU-utilization.</p> + <note> + <p>This flag can be removed or changed at any time without prior + notice.</p> + </note> + </item> + <tag><marker id="+sws"/><c>+sws default|legacy</c></tag> + <item> + <p>Sets scheduler wakeup strategy. Default strategy changed in + <c>ERTS</c> 5.10 (Erlang/OTP R16A). This strategy was known as + <c>proposal</c> in Erlang/OTP R15. The <c>legacy</c> strategy + was used as default from R13 up to and including R15.</p> + <note> + <p>This flag can be removed or changed at any time without prior + notice.</p> + </note> + </item> + <tag><marker id="+swt"/> + <c>+swt very_low|low|medium|high|very_high</c></tag> + <item> + <p>Sets scheduler wakeup threshold. Defaults to <c>medium</c>. + The threshold determines when to wake up sleeping schedulers + when more work than can be handled by currently awake schedulers + exists. A low threshold causes earlier wakeups, and a high + threshold causes later wakeups. Early wakeups distribute work + over multiple schedulers faster, but work does more easily bounce + between schedulers.</p> + <note> + <p>This flag can be removed or changed at any time without prior + notice.</p> + </note> + </item> </taglist> </item> <tag><marker id="+t"/><c><![CDATA[+t size]]></c></tag> <item> - <p>Set the maximum number of atoms the VM can handle. Default is 1048576.</p> + <p>Sets the maximum number of atoms the virtual machine can handle. + Defaults to 1,048,576.</p> </item> <tag><marker id="+T"/><c><![CDATA[+T Level]]></c></tag> <item> - <p>Enables modified timing and sets the modified timing level. - Currently valid range is 0-9. The timing of the runtime system - will change. A high level usually means a greater change than - a low level. Changing the timing can be very useful for finding - timing related bugs.</p> - <p>Currently, modified timing affects the following:</p> + <p>Enables modified timing and sets the modified timing level. Valid + range is 0-9. The timing of the runtime system is changed. A high + level usually means a greater change than a low level. Changing the + timing can be very useful for finding timing-related bugs.</p> + <p>Modified timing affects the following:</p> <taglist> <tag>Process spawning</tag> - <item> - <p>A process calling <c><![CDATA[spawn]]></c>, <c><![CDATA[spawn_link]]></c>, - <c><![CDATA[spawn_monitor]]></c>, or <c><![CDATA[spawn_opt]]></c> will be scheduled - out immediately after completing the call. When higher modified - timing levels are used, the caller will also sleep for a while - after being scheduled out.</p> + <item>A process calling <c><![CDATA[spawn]]></c>, + <c><![CDATA[spawn_link]]></c>, <c><![CDATA[spawn_monitor]]></c>, + or <c><![CDATA[spawn_opt]]></c> is scheduled out immediately + after completing the call. When higher modified timing levels are + used, the caller also sleeps for a while after it is scheduled out. </item> <tag>Context reductions</tag> - <item>The amount of reductions a process is a allowed to - use before being scheduled out is increased or reduced.</item> + <item>The number of reductions a process is allowed to use before it + is scheduled out is increased or reduced. + </item> <tag>Input reductions</tag> - <item>The amount of reductions performed before checking I/O - is increased or reduced.</item> + <item>The number of reductions performed before checking I/O is + increased or reduced. + </item> </taglist> - <p><em>NOTE:</em> Performance will suffer when modified timing - is enabled. This flag is <em>only</em> intended for testing and - debugging. Also note that <c><![CDATA[return_to]]></c> and <c><![CDATA[return_from]]></c> - trace messages will be lost when tracing on the spawn BIFs. This - flag may be removed or changed at any time without prior notice.</p> - </item> - <tag><c><![CDATA[+V]]></c></tag> - <item> - <p>Makes the emulator print out its version number.</p> + <note> + <p>Performance suffers when modified timing is enabled. This flag is + <em>only</em> intended for testing and debugging.</p> + <p><c><![CDATA[return_to]]></c> and <c><![CDATA[return_from]]></c> + trace messages are lost when tracing on the spawn BIFs.</p> + <p>This flag can be removed or changed at any time without prior + notice.</p> + </note> </item> <tag><c><![CDATA[+v]]></c></tag> <item> <p>Verbose.</p> </item> + <tag><c><![CDATA[+V]]></c></tag> + <item> + <p>Makes the emulator print its version number.</p> + </item> <tag><c><![CDATA[+W w | i | e]]></c></tag> <item> - <p>Sets the mapping of warning messages for <c><![CDATA[error_logger]]></c>. - Messages sent to the error logger using one of the warning - routines can be mapped either to errors (<c><![CDATA[+W e]]></c>), - warnings (<c><![CDATA[+W w]]></c>), or info reports - (<c><![CDATA[+W i]]></c>). The default is warnings. + <p>Sets the mapping of warning messages for + <c><![CDATA[error_logger]]></c>. Messages sent to the error logger + using one of the warning routines can be mapped to errors + (<c><![CDATA[+W e]]></c>), warnings (<c><![CDATA[+W w]]></c>), or + information reports (<c><![CDATA[+W i]]></c>). Defaults to warnings. The current mapping can be retrieved using - <c><![CDATA[error_logger:warning_map/0]]></c>. See - <seealso marker="kernel:error_logger#warning_map/0">error_logger(3)</seealso> - for further information.</p> + <c><![CDATA[error_logger:warning_map/0]]></c>. For more information, + see <seealso marker="kernel:error_logger#warning_map/0"> + <c>error_logger:warning_map/0</c></seealso> in <c>Kernel</c>.</p> </item> <tag><c><![CDATA[+zFlag Value]]></c></tag> <item> - <p>Miscellaneous flags.</p> + <p>Miscellaneous flags:</p> <taglist> <tag><marker id="+zdbbl"/><c>+zdbbl size</c></tag> <item> - <p>Set the distribution buffer busy limit - (<seealso marker="erlang#system_info_dist_buf_busy_limit">dist_buf_busy_limit</seealso>) - in kilobytes. Valid range is 1-2097151. Default is 1024.</p> - <p>A larger buffer limit will allow processes to buffer - more outgoing messages over the distribution. When the - buffer limit has been reached, sending processes will be - suspended until the buffer size has shrunk. The buffer - limit is per distribution channel. A higher limit will - give lower latency and higher throughput at the expense - of higher memory usage.</p> + <p>Sets the distribution buffer busy limit + (<seealso marker="erlang#system_info_dist_buf_busy_limit"> + <c>dist_buf_busy_limit</c></seealso>) + in kilobytes. Valid range is 1-2097151. Defaults to 1024.</p> + <p>A larger buffer limit allows processes to buffer + more outgoing messages over the distribution. When the + buffer limit has been reached, sending processes will be + suspended until the buffer size has shrunk. The buffer + limit is per distribution channel. A higher limit + gives lower latency and higher throughput at the expense + of higher memory use.</p> </item> <tag><marker id="+zdntgc"/><c>+zdntgc time</c></tag> <item> - <p>Set the delayed node table garbage collection time - (<seealso marker="erlang#system_info_delayed_node_table_gc">delayed_node_table_gc</seealso>) - in seconds. Valid values are either <c>infinity</c> or - an integer in the range [0-100000000]. Default is 60.</p> - <p>Node table entries that are not referred will linger - in the table for at least the amount of time that this - parameter determines. The lingering prevents repeated - deletions and insertions in the tables from occurring. - </p> + <p>Sets the delayed node table garbage collection time + (<seealso marker="erlang#system_info_delayed_node_table_gc"> + <c>delayed_node_table_gc</c></seealso>) + in seconds. Valid values are either <c>infinity</c> or + an integer in the range 0-100000000. Defaults to 60.</p> + <p>Node table entries that are not referred linger + in the table for at least the amount of time that this + parameter determines. The lingering prevents repeated + deletions and insertions in the tables from occurring.</p> </item> </taglist> </item> @@ -1462,104 +1452,95 @@ <section> <marker id="environment_variables"></marker> - <title>Environment variables</title> + <title>Environment Variables</title> <taglist> <tag><c><![CDATA[ERL_CRASH_DUMP]]></c></tag> <item> <p>If the emulator needs to write a crash dump, the value of this - variable will be the file name of the crash dump file. - If the variable is not set, the name of the crash dump file will - be <c><![CDATA[erl_crash.dump]]></c> in the current directory.</p> + variable is the filename of the crash dump file. + If the variable is not set, the name of the crash dump file is + <c><![CDATA[erl_crash.dump]]></c> in the current directory.</p> </item> <tag><c><![CDATA[ERL_CRASH_DUMP_NICE]]></c></tag> <item> - <p><em>Unix systems</em>: If the emulator needs to write a crash dump, - it will use the value of this variable to set the nice value - for the process, thus lowering its priority. The allowable range is - 1 through 39 (higher values will be replaced with 39). The highest - value, 39, will give the process the lowest priority.</p> + <p><em>Unix systems</em>: If the emulator needs to write a crash dump, + it uses the value of this variable to set the nice value + for the process, thus lowering its priority. Valid range is + 1-39 (higher values are replaced with 39). The highest + value, 39, gives the process the lowest priority.</p> </item> <tag><c><![CDATA[ERL_CRASH_DUMP_SECONDS]]></c></tag> <item> - <p><em>Unix systems</em>: This variable gives the number of seconds that - the emulator will be allowed to spend writing a crash dump. When - the given number of seconds have elapsed, the emulator will be - terminated by a SIGALRM signal.</p> - - <p> If the environment variable is <em>not</em> set or it is set to zero seconds, <c><![CDATA[ERL_CRASH_DUMP_SECONDS=0]]></c>, - the runtime system will not even attempt to write the crash dump file. It will just terminate. - </p> - <p> If the environment variable is set to negative valie, e.g. <c><![CDATA[ERL_CRASH_DUMP_SECONDS=-1]]></c>, - the runtime system will wait indefinitely for the crash dump file to be written. - </p> - <p> This environment variable is used in conjuction with - <seealso marker="kernel:heart"><c>heart</c></seealso> if <c>heart</c> is running: - </p> - <taglist> - <tag><c><![CDATA[ERL_CRASH_DUMP_SECONDS=0]]></c></tag> - <item><p> - Suppresses the writing a crash dump file entirely, - thus rebooting the runtime system immediately. - This is the same as not setting the environment variable. - </p> - </item> - <tag><c><![CDATA[ERL_CRASH_DUMP_SECONDS=-1]]></c></tag> - <item><p>Setting the environment variable to a negative value will cause the - termination of the runtime system to wait until the crash dump file - has been completly written. - </p> - </item> - <tag><c><![CDATA[ERL_CRASH_DUMP_SECONDS=S]]></c></tag> - <item><p> - Will wait for <c>S</c> seconds to complete the crash dump file and - then terminate the runtime system. - </p> - </item> - </taglist> + <p><em>Unix systems</em>: This variable gives the number of seconds + that the emulator is allowed to spend writing a crash dump. When the + given number of seconds have elapsed, the emulator is terminated by a + <c>SIGALRM</c> signal.</p> + <p>If the variable is <em>not</em> set or set to <c>0</c> seconds + (<c><![CDATA[ERL_CRASH_DUMP_SECONDS=0]]></c>), the runtime system does + not even attempt to write the crash dump file. It only terminates.</p> + <p>If the variable is set to negative value, such as + <c><![CDATA[ERL_CRASH_DUMP_SECONDS=-1]]></c>, the runtime system + waits indefinitely for the crash dump file to be written.</p> + <p>This variable is used with <seealso marker="kernel:heart"> + <c>kernel:heart</c></seealso> if <c>heart</c> is running:</p> + <taglist> + <tag><c><![CDATA[ERL_CRASH_DUMP_SECONDS=0]]></c></tag> + <item>Suppresses the writing a crash dump file entirely, thus + rebooting the runtime system immediately. This is the same as not + setting the environment variable. + </item> + <tag><c><![CDATA[ERL_CRASH_DUMP_SECONDS=-1]]></c></tag> + <item>Setting the environment variable to a negative value causes the + termination of the runtime system to wait until the crash dump file + has been completly written. + </item> + <tag><c><![CDATA[ERL_CRASH_DUMP_SECONDS=S]]></c></tag> + <item>Waits for <c>S</c> seconds to complete the crash dump file and + then terminates the runtime system. + </item> + </taglist> </item> <tag><marker id="ERL_AFLAGS"/><c><![CDATA[ERL_AFLAGS]]></c></tag> <item> - <p>The content of this environment variable will be added to the - beginning of the command line for <c><![CDATA[erl]]></c>.</p> - <p>The <c><![CDATA[-extra]]></c> flag is treated specially. Its scope ends - at the end of the environment variable content. Arguments - following an <c><![CDATA[-extra]]></c> flag are moved on the command line into - the <c><![CDATA[-extra]]></c> section, i.e. the end of the command line - following after an <c><![CDATA[-extra]]></c> flag.</p> - </item> - <tag><marker id="ERL_ZFLAGS"/><c><![CDATA[ERL_ZFLAGS]]></c> and <marker id="ERL_FLAGS"/><c><![CDATA[ERL_FLAGS]]></c></tag> - <item> - <p>The content of these environment variables will be added to the - end of the command line for <c><![CDATA[erl]]></c>.</p> - <p>The <c><![CDATA[-extra]]></c> flag is treated specially. Its scope ends - at the end of the environment variable content. Arguments - following an <c><![CDATA[-extra]]></c> flag are moved on the command line into - the <c><![CDATA[-extra]]></c> section, i.e. the end of the command line - following after an <c><![CDATA[-extra]]></c> flag.</p> + <p>The content of this variable is added to the beginning of the + command line for <c><![CDATA[erl]]></c>.</p> + <p>Flag <c><![CDATA[-extra]]></c> is treated in a special way. Its + scope ends at the end of the environment variable content. Arguments + following an <c><![CDATA[-extra]]></c> flag are moved on the command + line into section <c><![CDATA[-extra]]></c>, that is, the end of the + command line following an <c><![CDATA[-extra]]></c> flag.</p> + </item> + <tag><marker id="ERL_ZFLAGS"/><c><![CDATA[ERL_ZFLAGS]]></c> and + <marker id="ERL_FLAGS"/><c><![CDATA[ERL_FLAGS]]></c></tag> + <item> + <p>The content of these variables are added to the end of the command + line for <c><![CDATA[erl]]></c>.</p> + <p>Flag <c><![CDATA[-extra]]></c> is treated in a special way. Its + scope ends at the end of the environment variable content. Arguments + following an <c><![CDATA[-extra]]></c> flag are moved on the command + line into section <c><![CDATA[-extra]]></c>, that is, the end of the + command line following an <c><![CDATA[-extra]]></c> flag.</p> </item> <tag><c><![CDATA[ERL_LIBS]]></c></tag> <item> - <p>This environment variable contains a list of additional library - directories that the code server will search for applications and - add to the code path. - See <seealso marker="kernel:code">code(3)</seealso>.</p> + <p>Contains a list of additional library directories that the code + server searches for applications and adds to the code path; see + <seealso marker="kernel:code"><c>kernel:code(3)</c></seealso>.</p> </item> <tag><c><![CDATA[ERL_EPMD_ADDRESS]]></c></tag> <item> - <p>This environment variable may be set to a comma-separated - list of IP addresses, in which case the - <seealso marker="epmd">epmd</seealso> daemon - will listen only on the specified address(es) and on the - loopback address (which is implicitly added to the list if it - has not been specified).</p> + <p>Can be set to a comma-separated list of IP addresses, in which case + the <seealso marker="epmd"><c>epmd</c></seealso> daemon listens only + on the specified address(es) and on the loopback address (which is + implicitly added to the list if it has not been specified).</p> </item> <tag><c><![CDATA[ERL_EPMD_PORT]]></c></tag> <item> - <p>This environment variable can contain the port number to use when - communicating with <seealso marker="epmd">epmd</seealso>. The default - port will work fine in most cases. A different port can be specified + <p>Can contain the port number to use when communicating with + <seealso marker="epmd"><c>epmd</c></seealso>. The default port works + fine in most cases. A different port can be specified to allow nodes of independent clusters to co-exist on the same host. - All nodes in a cluster must use the same epmd port number.</p> + All nodes in a cluster must use the same <c>epmd</c> port number.</p> </item> </taglist> </section> @@ -1567,59 +1548,64 @@ <section> <marker id="configuration"></marker> <title>Configuration</title> - <p>The standard Erlang/OTP system can be re-configured to change the default - behavior on start-up.</p> + <p>The standard Erlang/OTP system can be reconfigured to change the default + behavior on startup.</p> <taglist> - <tag>The .erlang Start-up File</tag> - <item> - <p>When Erlang/OTP is started, the system searches for a file named .erlang - in the directory where Erlang/OTP is started. If not found, the user's home - directory is searched for an .erlang file.</p> - <p>If an .erlang file is found, it is assumed to contain valid Erlang expressions. - These expressions are evaluated as if they were input to the shell.</p> - <p>A typical .erlang file contains a set of search paths, for example:</p> - <code type="none"><![CDATA[ - io:format("executing user profile in HOME/.erlang\n",[]). - code:add_path("/home/calvin/test/ebin"). - code:add_path("/home/hobbes/bigappl-1.2/ebin"). - io:format(".erlang rc finished\n",[]). - ]]></code> - </item> - <tag>user_default and shell_default</tag> - <item> - <p>Functions in the shell which are not prefixed by a module name are assumed - to be functional objects (Funs), built-in functions (BIFs), or belong to the - module user_default or shell_default.</p> - <p>To include private shell commands, define them in a module user_default and - add the following argument as the first line in the .erlang file.</p> + <tag>The <c>.erlang</c> startup file</tag> + <item> + <p>When Erlang/OTP is started, the system searches for a file named + <c>.erlang</c> in the directory where Erlang/OTP is started. If not + found, the user's home directory is searched for an <c>.erlang</c> + file.</p> + <p>If an <c>.erlang</c> file is found, it is assumed to contain valid + Erlang expressions. These expressions are evaluated as if they were + input to the shell.</p> + <p>A typical <c>.erlang</c> file contains a set of search paths, for + example:</p> <code type="none"><![CDATA[ - code:load_abs("..../user_default"). - ]]></code> - </item> - <tag>erl</tag> - <item> - <p>If the contents of .erlang are changed and a private version of - user_default is defined, it is possible to customize the Erlang/OTP environment. - More powerful changes can be made by supplying command line arguments in the - start-up script erl. Refer to erl(1) and <seealso marker="init">init(3)</seealso> - for further information.</p> - </item> +io:format("executing user profile in HOME/.erlang\n",[]). +code:add_path("/home/calvin/test/ebin"). +code:add_path("/home/hobbes/bigappl-1.2/ebin"). +io:format(".erlang rc finished\n",[]). ]]></code> + </item> + <tag>user_default and shell_default</tag> + <item> + <p>Functions in the shell that are not prefixed by a module name are + assumed to be functional objects (funs), built-in functions (BIFs), + or belong to the module <c>user_default</c> or + <c>shell_default</c>.</p> + <p>To include private shell commands, define them in a module + <c>user_default</c> and add the following argument as the first line + in the <c>.erlang</c> file:</p> + <code type="none"><![CDATA[ +code:load_abs("..../user_default"). ]]></code> + </item> + <tag>erl</tag> + <item> + <p>If the contents of <c>.erlang</c> are changed and a private version + of <c>user_default</c> is defined, the Erlang/OTP environment can be + customized. More powerful changes can be made by supplying + command-line arguments in the startup script <c>erl</c>. For more + information, see <seealso marker="init"><c>init(3)</c></seealso>.</p> + </item> </taglist> </section> - <section> - <title>SEE ALSO</title> - <p><seealso marker="init">init(3)</seealso>, - <seealso marker="erl_prim_loader">erl_prim_loader(3)</seealso>, - <seealso marker="kernel:erl_boot_server">erl_boot_server(3)</seealso>, - <seealso marker="kernel:code">code(3)</seealso>, - <seealso marker="kernel:application">application(3)</seealso>, - <seealso marker="kernel:heart">heart(3)</seealso>, - <seealso marker="kernel:net_kernel">net_kernel(3)</seealso>, - <seealso marker="kernel:auth">auth(3)</seealso>, - <seealso marker="tools:make">make(3)</seealso>, - <seealso marker="epmd">epmd(1)</seealso>, - <seealso marker="erts_alloc">erts_alloc(3)</seealso></p> + <section> + <title>See Also</title> + <p><seealso marker="epmd"><c>epmd(1)</c></seealso>, + <seealso marker="erl_prim_loader"><c>erl_prim_loader(3)</c></seealso>, + <seealso marker="erts_alloc"><c>erts_alloc(3)</c></seealso>, + <seealso marker="init"><c>init(3)</c></seealso>, + <seealso marker="kernel:application"> + <c>kernel:application(3)</c></seealso>, + <seealso marker="kernel:auth"><c>kernel:auth(3)</c></seealso>, + <seealso marker="kernel:code"><c>kernel:code(3)</c></seealso>, + <seealso marker="kernel:erl_boot_server"> + <c>kernel:erl_boot_server(3)</c></seealso>, + <seealso marker="kernel:heart"><c>kernel:heart(3)</c></seealso>, + <seealso marker="kernel:net_kernel"><c>kernel:net_kernel(3)</c></seealso>, + <seealso marker="tools:make"><c>tools:make(3)</c></seealso></p> </section> </comref> |