A Guide To The Erlang Source

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A guide to the erlang source.

1 Download
2 Tree
3 Atoms
4 Basic types
5 Trivia
6 BIFs
7 More types
8 SMP
9 Locking
10 Scheduler
11 Process
12 Monitors and links

[edit] Download

The source can be downloaded from: https://github.com/erlang/otp

[edit] Tree

Most of the interesting code is in: erts/emulator/beam

[edit] Atoms

The atoms used in erlang are listed in erts/emulator/beam/atom.names and are referenced in the code as am_foo. So the 'EXIT' atom is am_EXIT in the code.

[edit] Basic types

See sys.h for the basic datatypes:

** Data types:
**
** Eterm: A tagged erlang term (possibly 64 bits)
** BeamInstr: A beam code instruction unit, possibly larger than Eterm, not smaller.
** UInt:  An unsigned integer exactly as large as an Eterm.
** SInt:  A signed integer exactly as large as an eterm and therefor large
**        enough to hold the return value of the signed_val() macro.
** UWord: An unsigned integer at least as large as a void * and also as large
**          or larger than an Eterm
** SWord: A signed integer at least as large as a void * and also as large
**          or larger than an Eterm
** Uint32: An unsigned integer of 32 bits exactly
** Sint32: A signed integer of 32 bits exactly
** Uint16: An unsigned integer of 16 bits exactly
** Sint16: A signed integer of 16 bits exactly.

See erts/emulator/beam/big.c for the conversion between types. For example:

 uint_to_big(Uint x, Eterm *y).
 term_to_Uint(Eterm term, Uint *up).

An Eterm can contain any erlang term like atoms, integers, etc. Some util methods can be found in erl_term.h to get the value out:

is_atom
is_fun
...

More util methods in

[edit] Trivia

rp = receiving process / registered process
cp = calling process
rq = runqueue

[edit] BIFs

The bifs are summed up in the bif.tab file. For example:

bif 'erl.lang':exit/1 ebif_exit_1
bif erlang:exit/2

This means the exit bif is mapped to the exit_1 method in the bif.c file. The bif.c file holds the bif implementations like:

BIF_RETTYPE spawn_3(BIF_ALIST_3) {...

BIF_ALIST_3 means you have BIF_P, BIF_ARG1 to 3 and The arguments BIF_ARG1 are Eterms, so you have to check them with

is_number(BIF_ARG_1), is_atom, is_tuple, is_list etc

As defined in bif.h:

#define BIF_RETTYPE Eterm

#define BIF_P A__p

#define BIF_ALIST_0 Process* A__p
#define BIF_ALIST_1 Process* A__p, Eterm A_1
#define BIF_ALIST_2 Process* A__p, Eterm A_1, Eterm A_2
#define BIF_ALIST_3 Process* A__p, Eterm A_1, Eterm A_2, Eterm A_3

#define BIF_ARG_1  A_1
#define BIF_ARG_2  A_2
#define BIF_ARG_3  A_3

To bif to set process flags:

BIF_RETTYPE process_flag_2(BIF_ALIST_2)
{
   Eterm old_value;
  ...

   else if (BIF_ARG_1 == am_priority) {
       erts_smp_proc_lock(BIF_P, ERTS_PROC_LOCK_STATUS);
       old_value = erts_set_process_priority(BIF_P, BIF_ARG_2);
       erts_smp_proc_unlock(BIF_P, ERTS_PROC_LOCK_STATUS);
       if (old_value == THE_NON_VALUE)
	   goto error;
       BIF_RET(old_value);
   }

am_priority is one of the predefined atoms (like am_EXIT). BIF_ARG_1 is an Eterm that can contain the erlang atom 'priority'. BIF_RETTYPE is an Eterm: we return the old priority as an Eterm.

More bifs in bif.c (these are called in erlang like erlang:register(,...))

process_flag/2
process_flag/3, ...
process_info/1 and /2
register/2
whereis/1
exit/2

[edit] More types

structs

ErlSpawnOpts
Process (see erl_process.h )
ErtsProcLocks
ErtsMonitor
ErtsRunQueue

[edit] SMP

http://en.wikipedia.org/wiki/Symmetric_multiprocessing You will see this a lot in the code: #ifdef ERTS_SMP Things get more complicated, with regards to locking etc. if SMP is enabled.

[edit] Locking

...

[edit] Scheduler

The process struct is defined in erts/emulator/beam/process.h. The important function is Process *schedule(Process *p, int calls) in process.c . The next process is picked in "pick_next_process" of that method.

[edit] Process

The main struct is Process as defined in erl_process.h, Each process has its own heap. Some variables:

int prio
Uint reds
ErlMessageQueue msg
Eterm id (the pid)
Uint flags

Process statuses are:

define P_FREE 0
define P_RUNABLE 1
define P_WAITING 2
define P_RUNNING 3
define P_EXITING 4
define P_GARBING 5
define P_SUSPENDED 6

[edit] Monitors and links

See erl_monitor.c and .h. The main structs are ErtsLinks and ErtsMonitor. Each process has a *ErtLinks and *ErtsMonitor (herein all its links/monitors are kept as an AVL tree). Actions are done with erts_sweep_links(ErtsLink *root, ...) and erts_sweep_monitors(ErtsMonitor *root, ...).

Retrieved from "http://www.trapexit.org/A_Guide_To_The_Erlang_Source"

A Guide To The Erlang Source

From Erlang Community

Current revision

Contents

[edit] Download

[edit] Tree

[edit] Atoms

[edit] Basic types

[edit] Trivia

[edit] BIFs

[edit] More types

[edit] SMP

[edit] Locking

[edit] Scheduler

[edit] Process

[edit] Monitors and links

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 == Basic types ==
 See sys.h for the basic datatypes:
+<code>
 ** Data types:
 **
 ** Uint16: An unsigned integer of 16 bits exactly
 ** Sint16: A signed integer of 16 bits exactly.
+</code>
-See erts/emulator/beam/big.c for the conversion between types. For example uint_to_big(Uint x, Eterm *y). term_to_Uint(Eterm term, Uint *up).
+See erts/emulator/beam/big.c for the conversion between types. For example:
+<code>
+ uint_to_big(Uint x, Eterm *y).
+ term_to_Uint(Eterm term, Uint *up).
+</code>
 An Eterm can contain any erlang term like atoms, integers, etc.
+Some util methods can be found in erl_term.h to get the value out:
+<code>
+is_atom
+is_fun
+...
+</code>
+More util methods in
+== Trivia ==
+* rp = receiving process / registered process
+* cp = calling process
+* rq = runqueue
 == BIFs ==
 The bifs are summed up in the bif.tab file. For example:
-bif 'erl.lang':exit/1
+<code>
-ebif_exit_1
+bif 'erl.lang':exit/1 ebif_exit_1
 bif erlang:exit/2
+</code>
 This means the exit bif is mapped to the exit_1 method in the bif.c file.
 BIF_ALIST_3 means you have BIF_P, BIF_ARG1 to 3 and
-The arguments BIF_ARG1 are Eterms, so you have to check them with is_number(BIF_ARG_1), is_atom, is_tuple, etc
+The arguments BIF_ARG1 are Eterms, so you have to check them with
+is_number(BIF_ARG_1),
+is_atom,
+is_tuple,
+is_list
+etc
 As defined in bif.h:
+<code>
 #define BIF_RETTYPE Eterm
 #define BIF_ARG_2  A_2
 #define BIF_ARG_3  A_3
+</code>
+To bif to set process flags:
+<code>
+BIF_RETTYPE process_flag_2(BIF_ALIST_2)
+{
+   Eterm old_value;
+  ...
+   else if (BIF_ARG_1 == am_priority) {
+       erts_smp_proc_lock(BIF_P, ERTS_PROC_LOCK_STATUS);
+       old_value = erts_set_process_priority(BIF_P, BIF_ARG_2);
+       erts_smp_proc_unlock(BIF_P, ERTS_PROC_LOCK_STATUS);
+       if (old_value == THE_NON_VALUE)
+	   goto error;
+       BIF_RET(old_value);
+   }
+</code>
+am_priority is one of the predefined atoms (like am_EXIT). BIF_ARG_1 is an Eterm that can contain the erlang atom 'priority'.
+BIF_RETTYPE is an Eterm: we return the old priority as an Eterm.
+More bifs in bif.c (these are called in erlang like erlang:register(,...))
+* process_flag/2
+* process_flag/3, ...
+* process_info/1 and /2
+* register/2
+* whereis/1
+* exit/2
 == More types ==
 structs
-ErlSpawnOpts
+* ErlSpawnOpts
-Process
+* Process (see erl_process.h )
-ErtsProcLocks
+* ErtsProcLocks
-ErtsMonitor
+* ErtsMonitor
+* ErtsRunQueue
 == SMP ==
 == Locking ==
+...
 == Process ==
+The main struct is Process as defined in erl_process.h, Each process has its own heap.
+Some variables:
+* int prio
+* Uint reds
+* ErlMessageQueue msg
+* Eterm id  (the pid)
+* Uint flags
 Process statuses are:
 #define P_FREE      0