code: purgatorio

ref: 82a3f55c5fb7b9f7a82449e4eb943c535ec3e491
dir: /man/6/sbl/

.TH SBL 6
.SH NAME
sbl \- symbol table file
.SH DESCRIPTION
A Limbo symbol table file provides type information for the module
in an associated Dis executable file,
for use by debuggers and similar applications.
They are written by the Limbo compiler
when given the
.B -g
option.
The files conventionally have a
.B .sbl
suffix; they need not be stored in the same directory as
the corresponding Dis file.
.PP
The file consists of a header followed by five tables:
.IP
.I "header file-table pc-table type-table fn-table data-table"
.PP
Each table starts with a line containing a decimal
count of the items in that table.
The count can be zero. The following
sections describe the format of table items in each table.
In the description, the following terminals are used.
.PP
A
.I "string"
is a sequence of letters, digits, and the characters _, ., -, and >. Letters are the Unicode characters a through z and A through Z, and all Unicode characters with encoded values greater than A0 hexadecimal.
.PP
An
.I int
is an optional minus sign followed by a sequence of digits, 0 to 9.
.PP
In the following description,
the presence of a space is represented by
.B •
and a newline by
.BR \en .
There are no other spaces between syntactic elements in the file format.
Other special characters represent themselves.
.SS Header
.PP
The header consists of two items.
.ds Os "\v'0.2m'\s-3\|opt\s+3\^\v'-0.2m'
.IP
.EX
.ft I
.nf
header:
	magic\f5\en\fP
	module\f5\en\fP
magic:
	\f5limbo .sbl 2.0\fP
module:
	string
.ft R
.EE
.PP
There have been two previous versions of symbol table format, distinguished
by the number in
.IR magic .
Version
.B 1.
was the original; version
.B 1.1
added more references back to the source; and version
.B 2.0
replaced the original
adt table by a type table and added support for Limbo's
.B pick
construction.
Only version 2.0 is described here; the others are obsolete.
.PP
.I Module
is the name of the module implemented in the Dis file.
Symbol file references to identifiers declared by the implementation module are unqualified.
A name referenced that is imported from any other module is preceded by
.IB m ->
where
.I m
is that module's identifier.
.SS File table
The file table is a list of file names referenced by the rest of the tables. Each file name is terminated by a newline character; within the name, any character other than a newline is valid.
.SS PC table
The PC table relates every instruction in the Dis file to the source from which it was compiled.
The table is indexed by Dis PC to obtain a reference to the corresponding source.
Each item consists of a source description
and a statement reference:
.IP
.EX
.ft I
pc-item:
	src stmt \f5\en\fP
src:
	pos\f5,\fPpos•
pos:
	file\f5:\fP\*(Os line\f5.\fP\*(Os char
file, line, char, stmt:
	int
.ft R
.EE
.PP
A source description
.I src
selects source text as a range of characters within lines of a source file.
.I File
is an index into the file table (origin 0);
.I "line"
and
.I "char"
are positions within that source file, with line numbers starting at 1 and character positions at 0. If
.I "file"
or
.I "line"
is omitted, it is assumed to have the previous value, or 0 if there is no previous value.
.PP
.I Stmt
is the `statement number' of the instruction.
Despite its name, the scope of a statement number is smaller than a Limbo statement:
it identifies a region marked by the compiler for treatment as a unit when debugging.
For instance,
in a
.B for
statement, the initial expression, increment, test, and body all have unique
statement numbers.
All instructions compiled from the same region in a Limbo program have the same statement number.
The number is that of the innermost region that contains the instruction.
.SS Type table
The type table describes the Limbo adts used in the Dis file,
both locally declared and imported.
Each entry describes a
.IR type :
.IP
.EX
.I "type:"
.ft 5
	@ \fItype-index\fP \en
	a \fIadt-item\fP
	p \fIadt-item\fP \fItag-table\fP
	t \fIsize\fP . \fIid-table\fP
	m \fImodule\fP \en \fIsrc\fP
	A \fItype\fP
	C \fItype\fP
	F \fIfn-name\fP \fItype\fP
	L \fItype\fP
	R \fItype\fP
	n
	N
	B
	b
	i
	f
	s
.ft I
type-index:
	int
.EE
.PP
Each leading character specifies a different Limbo type:
.IP
.RS
.TF N
.TP 5n
.B @
existing type referenced by type table index (not self-referential)
.TP
.B A
.B array of
.I type
.TP
.B a
.B adt
without
.B pick
.TP
.B B
.B big
.TP
.B b
.B byte
.TP
.B
C
.B chan of
.I type
.TP
.B
F
.B fn
returning
.I type
.TP
.B f
.B real
.TP
.B i
.B int
.TP
.B L
.B list of
.I type
.TP
.B m
.B module
.TP
.B N
.BR nil 's
type
.TP
.B n
no type (eg, function with no return type)
.TP
.B p
.B adt
with
.B pick
.TP
.B R
.B ref
.I type
.TP
.B s
.B string
.TP
.B t
tuple
.PD
.RE
.PP
A
.I type-index
is an offset in the type table, representing the corresponding type.
.I Size
is the size in bytes of a value of the given type.
The size of basic types is known and does not appear explicitly:
.B big
and
.B real
are 64 bits; all others including strings and reference types are 4 bytes.
(Strings are represented internally by a pointer.)
.PP
Each
.I "id-table"
is preceded by a count of the number of entries, followed by
an
.I id-item
for each entry in the table:
.IP
.EX
.ft I
id-table:
	count \f5\en\fP id-items
id-item:
	id-offset \f5:\fP id-name \f5:\fP src type \f5\en\fP
id-offset:
	int
id-name:
	string
count:
	int
.ft R
.EE
.PP
.I Id-offset
is the number of bytes from the start of the enclosing object to the value of the
object identified by
.IR "id-name" .
.PP
An adt without a
.B pick
clause is described using an
.IR adt-item :
.IP
.EX
.ft I
adt-item:
	adt-name • src size \f5\en\fP id-table
adt-name:
	string
size:
	int
.ft R
.EE
.PP
The
.I id-table
has an entry for every data element of
.IR "adt-name" .
.PP
If an adt has a
.B pick
clause, the adt's type table entry uses the
.B p
type character.
The invariant part of the adt is described by an
.I adt-item
(with zero
.IR size )
and the variant clause is described by a
.I tag-table
of the following form:
.IP
.EX
.ft I
tag-table:
	count \f5\en\fP tag-items
tag-item:
	name \f5:\fP src size \f5\en\fP id-table
  \f1|\fP	name \f5:\fP src \f5\en\fP
.ft R
.EE
.PP
The
.I tag-table
describes the variants of a Limbo adt
that includes a
.B pick
clause.
The
.I name
is the
.B pick
tag for the associated alternative.
If the
.I size
and
.I id-table
are missing, the given variant has the same description
as the previous one.
.PP
A tuple's
.I id-table
contains
.I id-names
of the form
.BI t n,
where
.I n
is the 0-origin index of the item in the tuple.
.PP
.I Src
is as previously defined above in the PC table section.
.SS Fn table
The function table describes each function implemented by the Dis file.
.IP
.EX
.ft I
fn-item:
	fn-pc \f5:\fP fn-name \f5\en\fP args locals return
fn-pc:
	int
fn-name:
	string
args, locals:
	id-table
return:
	type
.ft R
.EE
.PP
.I Fn-pc
is the starting pc for the Dis instructions for
.IR "fn-name" .
If the function is a member of an adt,
the member name is qualified by the adt name, so that
.I fn-name
has the form
.IB `adt-name . member-name'.
Within the
.I id-tables
for
.I args
and
.IR locals ,
the
.I "id-offset"
fields give offsets relative to the function's activation frame.
Furthermore, no table entries are made for
.I args
that are declared
.B nil
(unused).
.SS Data table
The data table describes the global variables in the Dis file. It is an
.IR "id-table" ,
with one entry for each global variable.
.SH SEE ALSO
.IR limbo (1),
.IR wm-deb (1),
.IR debug (2),
.IR dis (6)