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Have NATNUMP give t for positive bignums; check limits appropriately. src/ChangeLog addition: 2010-11-20 Aidan Kehoe <kehoea@parhasard.net> * abbrev.c (Fexpand_abbrev): * alloc.c: * alloc.c (Fmake_list): * alloc.c (Fmake_vector): * alloc.c (Fmake_bit_vector): * alloc.c (Fmake_byte_code): * alloc.c (Fmake_string): * alloc.c (vars_of_alloc): * bytecode.c (UNUSED): * bytecode.c (Fbyte_code): * chartab.c (decode_char_table_range): * cmds.c (Fself_insert_command): * data.c (check_integer_range): * data.c (Fnatnump): * data.c (Fnonnegativep): * data.c (Fstring_to_number): * elhash.c (hash_table_size_validate): * elhash.c (decode_hash_table_size): * eval.c (Fbacktrace_frame): * event-stream.c (lisp_number_to_milliseconds): * event-stream.c (Faccept_process_output): * event-stream.c (Frecent_keys): * event-stream.c (Fdispatch_event): * events.c (Fmake_event): * events.c (Fevent_timestamp): * events.c (Fevent_timestamp_lessp): * events.h: * events.h (struct command_builder): * file-coding.c (gzip_putprop): * fns.c: * fns.c (check_sequence_range): * fns.c (Frandom): * fns.c (Fnthcdr): * fns.c (Flast): * fns.c (Fnbutlast): * fns.c (Fbutlast): * fns.c (Fmember): * fns.c (Ffill): * fns.c (Freduce): * fns.c (replace_string_range_1): * fns.c (Freplace): * font-mgr.c (Ffc_pattern_get): * frame-msw.c (msprinter_set_frame_properties): * glyphs.c (check_valid_xbm_inline): * indent.c (Fmove_to_column): * intl-win32.c (mswindows_multibyte_to_unicode_putprop): * lisp.h: * lisp.h (ARRAY_DIMENSION_LIMIT): * lread.c (decode_mode_1): * mule-ccl.c (ccl_get_compiled_code): * number.h: * process-unix.c (unix_open_multicast_group): * process.c (Fset_process_window_size): * profile.c (Fstart_profiling): * unicode.c (Funicode_to_char): Change NATNUMP to return 1 for positive bignums; changes uses of it and of CHECK_NATNUM appropriately, usually by checking for an integer in an appropriate range. Add array-dimension-limit and use it in #'make-vector, #'make-string. Add array-total-size-limit, array-rank-limit while we're at it, for the sake of any Common Lisp-oriented code that uses these limits. Rename check_int_range to check_integer_range, have it take Lisp_Objects (and thus bignums) instead. Remove bignum_butlast(), just set int_n to an appropriately large integer if N is a bignum. Accept bignums in check_sequence_range(), change the functions that use check_sequence_range() appropriately. Move the definition of NATNUMP() to number.h; document why it's a reasonable name, contradicting an old comment. tests/ChangeLog addition: 2010-11-20 Aidan Kehoe <kehoea@parhasard.net> * automated/lisp-tests.el: * automated/lisp-tests.el (featurep): * automated/lisp-tests.el (wrong-type-argument): * automated/mule-tests.el (featurep): Check for args-out-of-range errors instead of wrong-type-argument errors in various places when code is handed a large bignum instead of a fixnum. Also check for the wrong-type-argument errors when giving the same code a non-integer value.
author Aidan Kehoe <kehoea@parhasard.net>
date Sat, 20 Nov 2010 16:49:11 +0000
parents 6772ce4d982b
children 9fae6227ede5
line wrap: on
line source

@c -*-texinfo-*-
@c This is part of the XEmacs Lisp Reference Manual.
@c Copyright (C) 1996 Ben Wing.
@c See the file lispref.texi for copying conditions.
@setfilename ../../info/range-tables.info
@node Range Tables, Databases, Hash Tables, top
@chapter Range Tables
@cindex Range Tables

A range table is a table that efficiently associates values with
ranges of fixnums.

Note that range tables have a read syntax, like this:

@example
#s(range-table type start-closed-end-open data ((-3 2) foo (5 20) bar))
@end example

This maps integers in the range [-3, 2) to @code{foo} and integers
in the range [5, 20) to @code{bar}.

By default, range tables have a @var{type} of
@code{start-closed-end-open}. (@strong{NOTE}: This is a change from
21.4 and earlier, where there was no @var{type} and range tables were always
closed on both ends.) This makes them work like text properties.

@defun range-table-p object
Return non-@code{nil} if @var{object} is a range table.
@end defun

@menu
* Introduction to Range Tables:: Range tables efficiently map ranges of
                                 integers to values.
* Working With Range Tables::    Range table functions.
@end menu

@node Introduction to Range Tables
@section Introduction to Range Tables

@defun make-range-table &optional type
Make a new, empty range table.

@var{type} is a symbol indicating how ranges are assumed to function
at their ends.  It can be one of

@example
SYMBOL                                     RANGE-START         RANGE-END
------                                     -----------         ---------
`start-closed-end-open'  (the default)     closed              open
`start-closed-end-closed'                  closed              closed
`start-open-end-open'                      open                open
`start-open-end-closed'                    open                closed
@end example

A @dfn{closed} endpoint of a range means that the number at that end
is included in the range.  For an @dfn{open} endpoint, the number
would not be included.

For example, a closed-open range from 5 to 20 would be indicated as
@samp{[5, 20)} where a bracket indicates a closed end and a
parenthesis an open end, and would mean `all the numbers between 5 and
20', including 5 but not 20.  This seems a little strange at first but
is in fact extremely common in the outside world as well as in
computers and makes things work sensibly.  For example, if I say
"there are seven days between today and next week today", I'm
including today but not next week today; if I included both, there
would be eight days.  Similarly, there are 15 (= 20 - 5) elements in
the range @samp{[5, 20)}, but 16 in the range @samp{[5, 20]}.
@end defun

@defun copy-range-table range-table
This function returns a new range table which contains the same values
for the same ranges as @var{range-table}.  The values will not
themselves be copied.
@end defun

@node Working With Range Tables
@section Working With Range Tables

@defun get-range-table pos range-table &optional default
This function finds value for position @var{pos} in @var{range-table}.
If there is no corresponding value, return @var{default} (defaults to
@code{nil}).

@strong{NOTE}: If you are working with ranges that are closed at the
start and open at the end (the default), and you put a value for a
range with @var{start} equal to @var{end}, @code{get-range-table} will
@strong{not} return that value!  You would need to set @var{end} one
greater than @var{start}.
@end defun

@defun put-range-table start end value range-table
This function sets the value for range (@var{start}, @var{end}) to be
@var{value} in @var{range-table}.

@strong{NOTE}: Unless you are working with ranges that are closed at
both ends, nothing will happen if @var{start} equals @var{end}.
@end defun

@defun remove-range-table start end range-table
This function removes the value for range (@var{start}, @var{end}) in
@var{range-table}.
@end defun

@defun clear-range-table range-table
This function flushes @var{range-table}.
@end defun

@defun map-range-table function range-table
This function maps @var{function} over entries in @var{range-table},
calling it with three args, the beginning and end of the range and the
corresponding value.
@end defun