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author | Andrew Cagney <cagney@redhat.com> | 2003-01-02 14:36:48 +0000 |
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committer | Andrew Cagney <cagney@redhat.com> | 2003-01-02 14:36:48 +0000 |
commit | e632838e2ed40b6dcc74e7624673a0719b8c9cea (patch) | |
tree | 7d235205237fc843043561e323be0718e79bc670 /gdb/doc | |
parent | 1b831c9308be215e465dac7079ba18aca8d2e68f (diff) | |
download | gdb-e632838e2ed40b6dcc74e7624673a0719b8c9cea.zip gdb-e632838e2ed40b6dcc74e7624673a0719b8c9cea.tar.gz gdb-e632838e2ed40b6dcc74e7624673a0719b8c9cea.tar.bz2 |
2003-01-02 Andrew Cagney <ac131313@redhat.com>
* stabs.texinfo: Remove obsolete text.
* gdbint.texinfo: Ditto.
* gdb.texinfo: Ditto.
Diffstat (limited to 'gdb/doc')
-rw-r--r-- | gdb/doc/ChangeLog | 6 | ||||
-rw-r--r-- | gdb/doc/gdb.texinfo | 528 | ||||
-rw-r--r-- | gdb/doc/gdbint.texinfo | 5 | ||||
-rw-r--r-- | gdb/doc/stabs.texinfo | 6 |
4 files changed, 11 insertions, 534 deletions
diff --git a/gdb/doc/ChangeLog b/gdb/doc/ChangeLog index cbf6143..0975876c 100644 --- a/gdb/doc/ChangeLog +++ b/gdb/doc/ChangeLog @@ -1,3 +1,9 @@ +2003-01-02 Andrew Cagney <ac131313@redhat.com> + + * stabs.texinfo: Remove obsolete text. + * gdbint.texinfo: Ditto. + * gdb.texinfo: Ditto. + 2002-12-22 Mark Kettenis <kettenis@gnu.org> * gdbint.texinfo (Target Architecture Definition): Update diff --git a/gdb/doc/gdb.texinfo b/gdb/doc/gdb.texinfo index 56db6ca..f4607b2 100644 --- a/gdb/doc/gdb.texinfo +++ b/gdb/doc/gdb.texinfo @@ -197,12 +197,9 @@ You can use @value{GDBN} to debug programs written in C and C++. For more information, see @ref{Support,,Supported languages}. For more information, see @ref{C,,C and C++}. -@c OBSOLETE @cindex Chill @cindex Modula-2 -Support for Modula-2 -@c OBSOLETE and Chill -is partial. For information on Modula-2, see @ref{Modula-2,,Modula-2}. -@c OBSOLETE For information on Chill, see @ref{Chill}. +Support for Modula-2 is partial. For information on Modula-2, see +@ref{Modula-2,,Modula-2}. @cindex Pascal Debugging Pascal programs which use sets, subranges, file variables, or @@ -7454,11 +7451,6 @@ C@t{++} source file @itemx .F Fortran source file -@c OBSOLETE @item .ch -@c OBSOLETE @itemx .c186 -@c OBSOLETE @itemx .c286 -@c OBSOLETE CHILL source file - @item .mod Modula-2 source file @@ -7730,9 +7722,7 @@ being set automatically by @value{GDBN}. @node Support @section Supported languages -@value{GDBN} supports C, C@t{++}, Fortran, Java, -@c OBSOLETE Chill, -assembly, and Modula-2. +@value{GDBN} supports C, C@t{++}, Fortran, Java, assembly, and Modula-2. @c This is false ... Some @value{GDBN} features may be used in expressions regardless of the language you use: the @value{GDBN} @code{@@} and @code{::} operators, @@ -7751,7 +7741,6 @@ language reference or tutorial. @menu * C:: C and C@t{++} * Modula-2:: Modula-2 -@c OBSOLETE * Chill:: Chill @end menu @node C @@ -8717,505 +8706,6 @@ address can be specified by an integral constant, the construct In @value{GDBN} scripts, the Modula-2 inequality operator @code{#} is interpreted as the beginning of a comment. Use @code{<>} instead. -@c OBSOLETE @node Chill -@c OBSOLETE @subsection Chill -@c OBSOLETE -@c OBSOLETE The extensions made to @value{GDBN} to support Chill only support output -@c OBSOLETE from the @sc{gnu} Chill compiler. Other Chill compilers are not currently -@c OBSOLETE supported, and attempting to debug executables produced by them is most -@c OBSOLETE likely to give an error as @value{GDBN} reads in the executable's symbol -@c OBSOLETE table. -@c OBSOLETE -@c OBSOLETE @c This used to say "... following Chill related topics ...", but since -@c OBSOLETE @c menus are not shown in the printed manual, it would look awkward. -@c OBSOLETE This section covers the Chill related topics and the features -@c OBSOLETE of @value{GDBN} which support these topics. -@c OBSOLETE -@c OBSOLETE @menu -@c OBSOLETE * How modes are displayed:: How modes are displayed -@c OBSOLETE * Locations:: Locations and their accesses -@c OBSOLETE * Values and their Operations:: Values and their Operations -@c OBSOLETE * Chill type and range checks:: -@c OBSOLETE * Chill defaults:: -@c OBSOLETE @end menu -@c OBSOLETE -@c OBSOLETE @node How modes are displayed -@c OBSOLETE @subsubsection How modes are displayed -@c OBSOLETE -@c OBSOLETE The Chill Datatype- (Mode) support of @value{GDBN} is directly related -@c OBSOLETE with the functionality of the @sc{gnu} Chill compiler, and therefore deviates -@c OBSOLETE slightly from the standard specification of the Chill language. The -@c OBSOLETE provided modes are: -@c OBSOLETE -@c OBSOLETE @c FIXME: this @table's contents effectively disable @code by using @r -@c OBSOLETE @c on every @item. So why does it need @code? -@c OBSOLETE @table @code -@c OBSOLETE @item @r{@emph{Discrete modes:}} -@c OBSOLETE @itemize @bullet -@c OBSOLETE @item -@c OBSOLETE @emph{Integer Modes} which are predefined by @code{BYTE, UBYTE, INT, -@c OBSOLETE UINT, LONG, ULONG}, -@c OBSOLETE @item -@c OBSOLETE @emph{Boolean Mode} which is predefined by @code{BOOL}, -@c OBSOLETE @item -@c OBSOLETE @emph{Character Mode} which is predefined by @code{CHAR}, -@c OBSOLETE @item -@c OBSOLETE @emph{Set Mode} which is displayed by the keyword @code{SET}. -@c OBSOLETE @smallexample -@c OBSOLETE (@value{GDBP}) ptype x -@c OBSOLETE type = SET (karli = 10, susi = 20, fritzi = 100) -@c OBSOLETE @end smallexample -@c OBSOLETE If the type is an unnumbered set the set element values are omitted. -@c OBSOLETE @item -@c OBSOLETE @emph{Range Mode} which is displayed by -@c OBSOLETE @smallexample -@c OBSOLETE @code{type = <basemode>(<lower bound> : <upper bound>)} -@c OBSOLETE @end smallexample -@c OBSOLETE where @code{<lower bound>, <upper bound>} can be of any discrete literal -@c OBSOLETE expression (e.g. set element names). -@c OBSOLETE @end itemize -@c OBSOLETE -@c OBSOLETE @item @r{@emph{Powerset Mode:}} -@c OBSOLETE A Powerset Mode is displayed by the keyword @code{POWERSET} followed by -@c OBSOLETE the member mode of the powerset. The member mode can be any discrete mode. -@c OBSOLETE @smallexample -@c OBSOLETE (@value{GDBP}) ptype x -@c OBSOLETE type = POWERSET SET (egon, hugo, otto) -@c OBSOLETE @end smallexample -@c OBSOLETE -@c OBSOLETE @item @r{@emph{Reference Modes:}} -@c OBSOLETE @itemize @bullet -@c OBSOLETE @item -@c OBSOLETE @emph{Bound Reference Mode} which is displayed by the keyword @code{REF} -@c OBSOLETE followed by the mode name to which the reference is bound. -@c OBSOLETE @item -@c OBSOLETE @emph{Free Reference Mode} which is displayed by the keyword @code{PTR}. -@c OBSOLETE @end itemize -@c OBSOLETE -@c OBSOLETE @item @r{@emph{Procedure mode}} -@c OBSOLETE The procedure mode is displayed by @code{type = PROC(<parameter list>) -@c OBSOLETE <return mode> EXCEPTIONS (<exception list>)}. The @code{<parameter -@c OBSOLETE list>} is a list of the parameter modes. @code{<return mode>} indicates -@c OBSOLETE the mode of the result of the procedure if any. The exceptionlist lists -@c OBSOLETE all possible exceptions which can be raised by the procedure. -@c OBSOLETE -@c OBSOLETE @ignore -@c OBSOLETE @item @r{@emph{Instance mode}} -@c OBSOLETE The instance mode is represented by a structure, which has a static -@c OBSOLETE type, and is therefore not really of interest. -@c OBSOLETE @end ignore -@c OBSOLETE -@c OBSOLETE @item @r{@emph{Synchronization Modes:}} -@c OBSOLETE @itemize @bullet -@c OBSOLETE @item -@c OBSOLETE @emph{Event Mode} which is displayed by -@c OBSOLETE @smallexample -@c OBSOLETE @code{EVENT (<event length>)} -@c OBSOLETE @end smallexample -@c OBSOLETE where @code{(<event length>)} is optional. -@c OBSOLETE @item -@c OBSOLETE @emph{Buffer Mode} which is displayed by -@c OBSOLETE @smallexample -@c OBSOLETE @code{BUFFER (<buffer length>)<buffer element mode>} -@c OBSOLETE @end smallexample -@c OBSOLETE where @code{(<buffer length>)} is optional. -@c OBSOLETE @end itemize -@c OBSOLETE -@c OBSOLETE @item @r{@emph{Timing Modes:}} -@c OBSOLETE @itemize @bullet -@c OBSOLETE @item -@c OBSOLETE @emph{Duration Mode} which is predefined by @code{DURATION} -@c OBSOLETE @item -@c OBSOLETE @emph{Absolute Time Mode} which is predefined by @code{TIME} -@c OBSOLETE @end itemize -@c OBSOLETE -@c OBSOLETE @item @r{@emph{Real Modes:}} -@c OBSOLETE Real Modes are predefined with @code{REAL} and @code{LONG_REAL}. -@c OBSOLETE -@c OBSOLETE @item @r{@emph{String Modes:}} -@c OBSOLETE @itemize @bullet -@c OBSOLETE @item -@c OBSOLETE @emph{Character String Mode} which is displayed by -@c OBSOLETE @smallexample -@c OBSOLETE @code{CHARS(<string length>)} -@c OBSOLETE @end smallexample -@c OBSOLETE followed by the keyword @code{VARYING} if the String Mode is a varying -@c OBSOLETE mode -@c OBSOLETE @item -@c OBSOLETE @emph{Bit String Mode} which is displayed by -@c OBSOLETE @smallexample -@c OBSOLETE @code{BOOLS(<string -@c OBSOLETE length>)} -@c OBSOLETE @end smallexample -@c OBSOLETE @end itemize -@c OBSOLETE -@c OBSOLETE @item @r{@emph{Array Mode:}} -@c OBSOLETE The Array Mode is displayed by the keyword @code{ARRAY(<range>)} -@c OBSOLETE followed by the element mode (which may in turn be an array mode). -@c OBSOLETE @smallexample -@c OBSOLETE (@value{GDBP}) ptype x -@c OBSOLETE type = ARRAY (1:42) -@c OBSOLETE ARRAY (1:20) -@c OBSOLETE SET (karli = 10, susi = 20, fritzi = 100) -@c OBSOLETE @end smallexample -@c OBSOLETE -@c OBSOLETE @item @r{@emph{Structure Mode}} -@c OBSOLETE The Structure mode is displayed by the keyword @code{STRUCT(<field -@c OBSOLETE list>)}. The @code{<field list>} consists of names and modes of fields -@c OBSOLETE of the structure. Variant structures have the keyword @code{CASE <field> -@c OBSOLETE OF <variant fields> ESAC} in their field list. Since the current version -@c OBSOLETE of the GNU Chill compiler doesn't implement tag processing (no runtime -@c OBSOLETE checks of variant fields, and therefore no debugging info), the output -@c OBSOLETE always displays all variant fields. -@c OBSOLETE @smallexample -@c OBSOLETE (@value{GDBP}) ptype str -@c OBSOLETE type = STRUCT ( -@c OBSOLETE as x, -@c OBSOLETE bs x, -@c OBSOLETE CASE bs OF -@c OBSOLETE (karli): -@c OBSOLETE cs a -@c OBSOLETE (ott): -@c OBSOLETE ds x -@c OBSOLETE ESAC -@c OBSOLETE ) -@c OBSOLETE @end smallexample -@c OBSOLETE @end table -@c OBSOLETE -@c OBSOLETE @node Locations -@c OBSOLETE @subsubsection Locations and their accesses -@c OBSOLETE -@c OBSOLETE A location in Chill is an object which can contain values. -@c OBSOLETE -@c OBSOLETE A value of a location is generally accessed by the (declared) name of -@c OBSOLETE the location. The output conforms to the specification of values in -@c OBSOLETE Chill programs. How values are specified -@c OBSOLETE is the topic of the next section, @ref{Values and their Operations}. -@c OBSOLETE -@c OBSOLETE The pseudo-location @code{RESULT} (or @code{result}) can be used to -@c OBSOLETE display or change the result of a currently-active procedure: -@c OBSOLETE -@c OBSOLETE @smallexample -@c OBSOLETE set result := EXPR -@c OBSOLETE @end smallexample -@c OBSOLETE -@c OBSOLETE @noindent -@c OBSOLETE This does the same as the Chill action @code{RESULT EXPR} (which -@c OBSOLETE is not available in @value{GDBN}). -@c OBSOLETE -@c OBSOLETE Values of reference mode locations are printed by @code{PTR(<hex -@c OBSOLETE value>)} in case of a free reference mode, and by @code{(REF <reference -@c OBSOLETE mode>) (<hex-value>)} in case of a bound reference. @code{<hex value>} -@c OBSOLETE represents the address where the reference points to. To access the -@c OBSOLETE value of the location referenced by the pointer, use the dereference -@c OBSOLETE operator @samp{->}. -@c OBSOLETE -@c OBSOLETE Values of procedure mode locations are displayed by -@c OBSOLETE @smallexample -@c OBSOLETE @code{@{ PROC -@c OBSOLETE (<argument modes> ) <return mode> @} <address> <name of procedure -@c OBSOLETE location>} -@c OBSOLETE @end smallexample -@c OBSOLETE @code{<argument modes>} is a list of modes according to the parameter -@c OBSOLETE specification of the procedure and @code{<address>} shows the address of -@c OBSOLETE the entry point. -@c OBSOLETE -@c OBSOLETE @ignore -@c OBSOLETE Locations of instance modes are displayed just like a structure with two -@c OBSOLETE fields specifying the @emph{process type} and the @emph{copy number} of -@c OBSOLETE the investigated instance location@footnote{This comes from the current -@c OBSOLETE implementation of instances. They are implemented as a structure (no -@c OBSOLETE na). The output should be something like @code{[<name of the process>; -@c OBSOLETE <instance number>]}.}. The field names are @code{__proc_type} and -@c OBSOLETE @code{__proc_copy}. -@c OBSOLETE -@c OBSOLETE Locations of synchronization modes are displayed like a structure with -@c OBSOLETE the field name @code{__event_data} in case of a event mode location, and -@c OBSOLETE like a structure with the field @code{__buffer_data} in case of a buffer -@c OBSOLETE mode location (refer to previous paragraph). -@c OBSOLETE -@c OBSOLETE Structure Mode locations are printed by @code{[.<field name>: <value>, -@c OBSOLETE ...]}. The @code{<field name>} corresponds to the structure mode -@c OBSOLETE definition and the layout of @code{<value>} varies depending of the mode -@c OBSOLETE of the field. If the investigated structure mode location is of variant -@c OBSOLETE structure mode, the variant parts of the structure are enclosed in curled -@c OBSOLETE braces (@samp{@{@}}). Fields enclosed by @samp{@{,@}} are residing -@c OBSOLETE on the same memory location and represent the current values of the -@c OBSOLETE memory location in their specific modes. Since no tag processing is done -@c OBSOLETE all variants are displayed. A variant field is printed by -@c OBSOLETE @code{(<variant name>) = .<field name>: <value>}. (who implements the -@c OBSOLETE stuff ???) -@c OBSOLETE @smallexample -@c OBSOLETE (@value{GDBP}) print str1 $4 = [.as: 0, .bs: karli, .<TAG>: { (karli) = -@c OBSOLETE [.cs: []], (susi) = [.ds: susi]}] -@c OBSOLETE @end smallexample -@c OBSOLETE @end ignore -@c OBSOLETE -@c OBSOLETE Substructures of string mode-, array mode- or structure mode-values -@c OBSOLETE (e.g. array slices, fields of structure locations) are accessed using -@c OBSOLETE certain operations which are described in the next section, @ref{Values -@c OBSOLETE and their Operations}. -@c OBSOLETE -@c OBSOLETE A location value may be interpreted as having a different mode using the -@c OBSOLETE location conversion. This mode conversion is written as @code{<mode -@c OBSOLETE name>(<location>)}. The user has to consider that the sizes of the modes -@c OBSOLETE have to be equal otherwise an error occurs. Furthermore, no range -@c OBSOLETE checking of the location against the destination mode is performed, and -@c OBSOLETE therefore the result can be quite confusing. -@c OBSOLETE -@c OBSOLETE @smallexample -@c OBSOLETE (@value{GDBP}) print int (s(3 up 4)) XXX TO be filled in !! XXX -@c OBSOLETE @end smallexample -@c OBSOLETE -@c OBSOLETE @node Values and their Operations -@c OBSOLETE @subsubsection Values and their Operations -@c OBSOLETE -@c OBSOLETE Values are used to alter locations, to investigate complex structures in -@c OBSOLETE more detail or to filter relevant information out of a large amount of -@c OBSOLETE data. There are several (mode dependent) operations defined which enable -@c OBSOLETE such investigations. These operations are not only applicable to -@c OBSOLETE constant values but also to locations, which can become quite useful -@c OBSOLETE when debugging complex structures. During parsing the command line -@c OBSOLETE (e.g. evaluating an expression) @value{GDBN} treats location names as -@c OBSOLETE the values behind these locations. -@c OBSOLETE -@c OBSOLETE This section describes how values have to be specified and which -@c OBSOLETE operations are legal to be used with such values. -@c OBSOLETE -@c OBSOLETE @table @code -@c OBSOLETE @item Literal Values -@c OBSOLETE Literal values are specified in the same manner as in @sc{gnu} Chill programs. -@c OBSOLETE For detailed specification refer to the @sc{gnu} Chill implementation Manual -@c OBSOLETE chapter 1.5. -@c OBSOLETE @c FIXME: if the Chill Manual is a Texinfo documents, the above should -@c OBSOLETE @c be converted to a @ref. -@c OBSOLETE -@c OBSOLETE @ignore -@c OBSOLETE @itemize @bullet -@c OBSOLETE @item -@c OBSOLETE @emph{Integer Literals} are specified in the same manner as in Chill -@c OBSOLETE programs (refer to the Chill Standard z200/88 chpt 5.2.4.2) -@c OBSOLETE @item -@c OBSOLETE @emph{Boolean Literals} are defined by @code{TRUE} and @code{FALSE}. -@c OBSOLETE @item -@c OBSOLETE @emph{Character Literals} are defined by @code{'<character>'}. (e.g. -@c OBSOLETE @code{'M'}) -@c OBSOLETE @item -@c OBSOLETE @emph{Set Literals} are defined by a name which was specified in a set -@c OBSOLETE mode. The value delivered by a Set Literal is the set value. This is -@c OBSOLETE comparable to an enumeration in C/C@t{++} language. -@c OBSOLETE @item -@c OBSOLETE @emph{Emptiness Literal} is predefined by @code{NULL}. The value of the -@c OBSOLETE emptiness literal delivers either the empty reference value, the empty -@c OBSOLETE procedure value or the empty instance value. -@c OBSOLETE -@c OBSOLETE @item -@c OBSOLETE @emph{Character String Literals} are defined by a sequence of characters -@c OBSOLETE enclosed in single- or double quotes. If a single- or double quote has -@c OBSOLETE to be part of the string literal it has to be stuffed (specified twice). -@c OBSOLETE @item -@c OBSOLETE @emph{Bitstring Literals} are specified in the same manner as in Chill -@c OBSOLETE programs (refer z200/88 chpt 5.2.4.8). -@c OBSOLETE @item -@c OBSOLETE @emph{Floating point literals} are specified in the same manner as in -@c OBSOLETE (gnu-)Chill programs (refer @sc{gnu} Chill implementation Manual chapter 1.5). -@c OBSOLETE @end itemize -@c OBSOLETE @end ignore -@c OBSOLETE -@c OBSOLETE @item Tuple Values -@c OBSOLETE A tuple is specified by @code{<mode name>[<tuple>]}, where @code{<mode -@c OBSOLETE name>} can be omitted if the mode of the tuple is unambiguous. This -@c OBSOLETE unambiguity is derived from the context of a evaluated expression. -@c OBSOLETE @code{<tuple>} can be one of the following: -@c OBSOLETE -@c OBSOLETE @itemize @bullet -@c OBSOLETE @item @emph{Powerset Tuple} -@c OBSOLETE @item @emph{Array Tuple} -@c OBSOLETE @item @emph{Structure Tuple} -@c OBSOLETE Powerset tuples, array tuples and structure tuples are specified in the -@c OBSOLETE same manner as in Chill programs refer to z200/88 chpt 5.2.5. -@c OBSOLETE @end itemize -@c OBSOLETE -@c OBSOLETE @item String Element Value -@c OBSOLETE A string element value is specified by -@c OBSOLETE @smallexample -@c OBSOLETE @code{<string value>(<index>)} -@c OBSOLETE @end smallexample -@c OBSOLETE where @code{<index>} is a integer expression. It delivers a character -@c OBSOLETE value which is equivalent to the character indexed by @code{<index>} in -@c OBSOLETE the string. -@c OBSOLETE -@c OBSOLETE @item String Slice Value -@c OBSOLETE A string slice value is specified by @code{<string value>(<slice -@c OBSOLETE spec>)}, where @code{<slice spec>} can be either a range of integer -@c OBSOLETE expressions or specified by @code{<start expr> up <size>}. -@c OBSOLETE @code{<size>} denotes the number of elements which the slice contains. -@c OBSOLETE The delivered value is a string value, which is part of the specified -@c OBSOLETE string. -@c OBSOLETE -@c OBSOLETE @item Array Element Values -@c OBSOLETE An array element value is specified by @code{<array value>(<expr>)} and -@c OBSOLETE delivers a array element value of the mode of the specified array. -@c OBSOLETE -@c OBSOLETE @item Array Slice Values -@c OBSOLETE An array slice is specified by @code{<array value>(<slice spec>)}, where -@c OBSOLETE @code{<slice spec>} can be either a range specified by expressions or by -@c OBSOLETE @code{<start expr> up <size>}. @code{<size>} denotes the number of -@c OBSOLETE arrayelements the slice contains. The delivered value is an array value -@c OBSOLETE which is part of the specified array. -@c OBSOLETE -@c OBSOLETE @item Structure Field Values -@c OBSOLETE A structure field value is derived by @code{<structure value>.<field -@c OBSOLETE name>}, where @code{<field name>} indicates the name of a field specified -@c OBSOLETE in the mode definition of the structure. The mode of the delivered value -@c OBSOLETE corresponds to this mode definition in the structure definition. -@c OBSOLETE -@c OBSOLETE @item Procedure Call Value -@c OBSOLETE The procedure call value is derived from the return value of the -@c OBSOLETE procedure@footnote{If a procedure call is used for instance in an -@c OBSOLETE expression, then this procedure is called with all its side -@c OBSOLETE effects. This can lead to confusing results if used carelessly.}. -@c OBSOLETE -@c OBSOLETE Values of duration mode locations are represented by @code{ULONG} literals. -@c OBSOLETE -@c OBSOLETE Values of time mode locations appear as -@c OBSOLETE @smallexample -@c OBSOLETE @code{TIME(<secs>:<nsecs>)} -@c OBSOLETE @end smallexample -@c OBSOLETE -@c OBSOLETE -@c OBSOLETE @ignore -@c OBSOLETE This is not implemented yet: -@c OBSOLETE @item Built-in Value -@c OBSOLETE @noindent -@c OBSOLETE The following built in functions are provided: -@c OBSOLETE -@c OBSOLETE @table @code -@c OBSOLETE @item @code{ADDR()} -@c OBSOLETE @item @code{NUM()} -@c OBSOLETE @item @code{PRED()} -@c OBSOLETE @item @code{SUCC()} -@c OBSOLETE @item @code{ABS()} -@c OBSOLETE @item @code{CARD()} -@c OBSOLETE @item @code{MAX()} -@c OBSOLETE @item @code{MIN()} -@c OBSOLETE @item @code{SIZE()} -@c OBSOLETE @item @code{UPPER()} -@c OBSOLETE @item @code{LOWER()} -@c OBSOLETE @item @code{LENGTH()} -@c OBSOLETE @item @code{SIN()} -@c OBSOLETE @item @code{COS()} -@c OBSOLETE @item @code{TAN()} -@c OBSOLETE @item @code{ARCSIN()} -@c OBSOLETE @item @code{ARCCOS()} -@c OBSOLETE @item @code{ARCTAN()} -@c OBSOLETE @item @code{EXP()} -@c OBSOLETE @item @code{LN()} -@c OBSOLETE @item @code{LOG()} -@c OBSOLETE @item @code{SQRT()} -@c OBSOLETE @end table -@c OBSOLETE -@c OBSOLETE For a detailed description refer to the GNU Chill implementation manual -@c OBSOLETE chapter 1.6. -@c OBSOLETE @end ignore -@c OBSOLETE -@c OBSOLETE @item Zero-adic Operator Value -@c OBSOLETE The zero-adic operator value is derived from the instance value for the -@c OBSOLETE current active process. -@c OBSOLETE -@c OBSOLETE @item Expression Values -@c OBSOLETE The value delivered by an expression is the result of the evaluation of -@c OBSOLETE the specified expression. If there are error conditions (mode -@c OBSOLETE incompatibility, etc.) the evaluation of expressions is aborted with a -@c OBSOLETE corresponding error message. Expressions may be parenthesised which -@c OBSOLETE causes the evaluation of this expression before any other expression -@c OBSOLETE which uses the result of the parenthesised expression. The following -@c OBSOLETE operators are supported by @value{GDBN}: -@c OBSOLETE -@c OBSOLETE @table @code -@c OBSOLETE @item @code{OR, ORIF, XOR} -@c OBSOLETE @itemx @code{AND, ANDIF} -@c OBSOLETE @itemx @code{NOT} -@c OBSOLETE Logical operators defined over operands of boolean mode. -@c OBSOLETE -@c OBSOLETE @item @code{=, /=} -@c OBSOLETE Equality and inequality operators defined over all modes. -@c OBSOLETE -@c OBSOLETE @item @code{>, >=} -@c OBSOLETE @itemx @code{<, <=} -@c OBSOLETE Relational operators defined over predefined modes. -@c OBSOLETE -@c OBSOLETE @item @code{+, -} -@c OBSOLETE @itemx @code{*, /, MOD, REM} -@c OBSOLETE Arithmetic operators defined over predefined modes. -@c OBSOLETE -@c OBSOLETE @item @code{-} -@c OBSOLETE Change sign operator. -@c OBSOLETE -@c OBSOLETE @item @code{//} -@c OBSOLETE String concatenation operator. -@c OBSOLETE -@c OBSOLETE @item @code{()} -@c OBSOLETE String repetition operator. -@c OBSOLETE -@c OBSOLETE @item @code{->} -@c OBSOLETE Referenced location operator which can be used either to take the -@c OBSOLETE address of a location (@code{->loc}), or to dereference a reference -@c OBSOLETE location (@code{loc->}). -@c OBSOLETE -@c OBSOLETE @item @code{OR, XOR} -@c OBSOLETE @itemx @code{AND} -@c OBSOLETE @itemx @code{NOT} -@c OBSOLETE Powerset and bitstring operators. -@c OBSOLETE -@c OBSOLETE @item @code{>, >=} -@c OBSOLETE @itemx @code{<, <=} -@c OBSOLETE Powerset inclusion operators. -@c OBSOLETE -@c OBSOLETE @item @code{IN} -@c OBSOLETE Membership operator. -@c OBSOLETE @end table -@c OBSOLETE @end table -@c OBSOLETE -@c OBSOLETE @node Chill type and range checks -@c OBSOLETE @subsubsection Chill type and range checks -@c OBSOLETE -@c OBSOLETE @value{GDBN} considers two Chill variables mode equivalent if the sizes -@c OBSOLETE of the two modes are equal. This rule applies recursively to more -@c OBSOLETE complex datatypes which means that complex modes are treated -@c OBSOLETE equivalent if all element modes (which also can be complex modes like -@c OBSOLETE structures, arrays, etc.) have the same size. -@c OBSOLETE -@c OBSOLETE Range checking is done on all mathematical operations, assignment, array -@c OBSOLETE index bounds and all built in procedures. -@c OBSOLETE -@c OBSOLETE Strong type checks are forced using the @value{GDBN} command @code{set -@c OBSOLETE check strong}. This enforces strong type and range checks on all -@c OBSOLETE operations where Chill constructs are used (expressions, built in -@c OBSOLETE functions, etc.) in respect to the semantics as defined in the z.200 -@c OBSOLETE language specification. -@c OBSOLETE -@c OBSOLETE All checks can be disabled by the @value{GDBN} command @code{set check -@c OBSOLETE off}. -@c OBSOLETE -@c OBSOLETE @ignore -@c OBSOLETE @c Deviations from the Chill Standard Z200/88 -@c OBSOLETE see last paragraph ? -@c OBSOLETE @end ignore -@c OBSOLETE -@c OBSOLETE @node Chill defaults -@c OBSOLETE @subsubsection Chill defaults -@c OBSOLETE -@c OBSOLETE If type and range checking are set automatically by @value{GDBN}, they -@c OBSOLETE both default to @code{on} whenever the working language changes to -@c OBSOLETE Chill. This happens regardless of whether you or @value{GDBN} -@c OBSOLETE selected the working language. -@c OBSOLETE -@c OBSOLETE If you allow @value{GDBN} to set the language automatically, then entering -@c OBSOLETE code compiled from a file whose name ends with @file{.ch} sets the -@c OBSOLETE working language to Chill. @xref{Automatically, ,Having @value{GDBN} set -@c OBSOLETE the language automatically}, for further details. - @node Symbols @chapter Examining the Symbol Table @@ -11649,7 +11139,6 @@ configurations. * i960:: Intel i960 * M32R/D:: Mitsubishi M32R/D * M68K:: Motorola M68K -@c OBSOLETE * M88K:: Motorola M88K * MIPS Embedded:: MIPS Embedded * OpenRISC 1000:: OpenRisc 1000 * PA:: HP PA Embedded @@ -12085,17 +11574,6 @@ ROMBUG ROM monitor for OS/9000. @end table -@c OBSOLETE @node M88K -@c OBSOLETE @subsection M88K -@c OBSOLETE -@c OBSOLETE @table @code -@c OBSOLETE -@c OBSOLETE @kindex target bug -@c OBSOLETE @item target bug @var{dev} -@c OBSOLETE BUG monitor, running on a MVME187 (m88k) board. -@c OBSOLETE -@c OBSOLETE @end table - @node MIPS Embedded @subsection MIPS Embedded diff --git a/gdb/doc/gdbint.texinfo b/gdb/doc/gdbint.texinfo index 19d0491..c8053c0 100644 --- a/gdb/doc/gdbint.texinfo +++ b/gdb/doc/gdbint.texinfo @@ -1841,7 +1841,6 @@ The file @file{mdebugread.c} implements reading for this format. DWARF 1 is a debugging format that was originally designed to be used with ELF in SVR4 systems. -@c OBSOLETE CHILL_PRODUCER @c GCC_PRODUCER @c GPLUS_PRODUCER @c LCC_PRODUCER @@ -3782,10 +3781,6 @@ for parameters/results have been allocated on the stack. Define this to convert sdb register numbers into @value{GDBN} regnums. If not defined, no conversion will be done. -@c OBSOLETE @item SHIFT_INST_REGS -@c OBSOLETE @findex SHIFT_INST_REGS -@c OBSOLETE (Only used for m88k targets.) - @item SKIP_PERMANENT_BREAKPOINT @findex SKIP_PERMANENT_BREAKPOINT Advance the inferior's PC past a permanent breakpoint. @value{GDBN} normally diff --git a/gdb/doc/stabs.texinfo b/gdb/doc/stabs.texinfo index 6b4c3dc..52b88b4 100644 --- a/gdb/doc/stabs.texinfo +++ b/gdb/doc/stabs.texinfo @@ -1754,8 +1754,7 @@ Pascal set type. @var{type-information} must be a small type such as an enumeration or a subrange, and the type is a bitmask whose length is specified by the number of elements in @var{type-information}. -In CHILL, @c OBSOLETE -if it is a bitstring instead of a set, also use the @samp{S} +In CHILL, if it is a bitstring instead of a set, also use the @samp{S} type attribute (@pxref{String Field}). @item * @var{type-information} @@ -1956,8 +1955,7 @@ string. I don't know the difference. Pascal Stringptr. What is this? This is an AIX feature. @end table -Languages, such as CHILL @c OBSOLETE -which have a string type which is basically +Languages, such as CHILL which have a string type which is basically just an array of characters use the @samp{S} type attribute (@pxref{String Field}). |