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|
# Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 2000, 2001,
# 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011
# Free Software Foundation, Inc.
#
# This file is part of GNU Emacs.
#
# GNU Emacs is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3, or (at your option)
# any later version.
#
# GNU Emacs is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with GNU Emacs; see the file COPYING. If not, write to the
# Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
# Boston, MA 02110-1301, USA.
# Force loading of symbols, enough to give us gdb_valbits etc.
set main
# Find lwlib source files too.
dir ../lwlib
#dir /gd/gnu/lesstif-0.89.9/lib/Xm
# Don't enter GDB when user types C-g to quit.
# This has one unfortunate effect: you can't type C-c
# at the GDB to stop Emacs, when using X.
# However, C-z works just as well in that case.
handle 2 noprint pass
# Make it work like SIGINT normally does.
handle SIGTSTP nopass
# Pass on user signals
handle SIGUSR1 noprint pass
handle SIGUSR2 noprint pass
# Don't pass SIGALRM to Emacs. This makes problems when
# debugging.
handle SIGALRM ignore
# $valmask and $tagmask are mask values set up by the xreload macro below.
# Use $bugfix so that the value isn't a constant.
# Using a constant runs into GDB bugs sometimes.
define xgetptr
set $bugfix = $arg0
set $ptr = (gdb_use_union ? (gdb_use_lsb ? $bugfix.u.val << gdb_gctypebits : $bugfix.u.val) : $bugfix & $valmask) | gdb_data_seg_bits
end
define xgetint
set $bugfix = $arg0
set $int = gdb_use_union ? $bugfix.s.val : (gdb_use_lsb ? $bugfix : $bugfix << gdb_gctypebits) >> gdb_gctypebits
end
define xgettype
set $bugfix = $arg0
set $type = gdb_use_union ? $bugfix.s.type : (enum Lisp_Type) (gdb_use_lsb ? $bugfix & $tagmask : $bugfix >> gdb_valbits)
end
# Set up something to print out s-expressions.
# We save and restore print_output_debug_flag to prevent the w32 port
# from calling OutputDebugString, which causes GDB to display each
# character twice (yuk!).
define pr
set $output_debug = print_output_debug_flag
set print_output_debug_flag = 0
set debug_print ($)
set print_output_debug_flag = $output_debug
end
document pr
Print the emacs s-expression which is $.
Works only when an inferior emacs is executing.
end
# Print out s-expressions
define pp
set $tmp = $arg0
set $output_debug = print_output_debug_flag
set print_output_debug_flag = 0
set safe_debug_print ($tmp)
set print_output_debug_flag = $output_debug
end
document pp
Print the argument as an emacs s-expression
Works only when an inferior emacs is executing.
end
# Print out s-expressions from tool bar
define pp1
set $tmp = $arg0
set $output_debug = print_output_debug_flag
set print_output_debug_flag = 0
set safe_debug_print ($tmp)
set print_output_debug_flag = $output_debug
end
document pp1
Print the argument as an emacs s-expression.
Works only when an inferior emacs is executing.
For use on tool bar when debugging in Emacs
where the variable name would not otherwise
be recorded in the GUD buffer.
end
# Print value of lisp variable
define pv
set $tmp = "$arg0"
set $output_debug = print_output_debug_flag
set print_output_debug_flag = 0
set safe_debug_print ( find_symbol_value (intern ($tmp)))
set print_output_debug_flag = $output_debug
end
document pv
Print the value of the lisp variable given as argument.
Works only when an inferior emacs is executing.
end
# Print value of lisp variable
define pv1
set $tmp = "$arg0"
set $output_debug = print_output_debug_flag
set print_output_debug_flag = 0
set safe_debug_print (find_symbol_value (intern ($tmp)))
set print_output_debug_flag = $output_debug
end
document pv1
Print the value of the lisp variable given as argument.
Works only when an inferior emacs is executing.
For use when debugging in Emacs where the variable
name would not otherwise be recorded in the GUD buffer.
end
# Print out current buffer point and boundaries
define ppt
set $b = current_buffer
set $t = $b->text
printf "BUF PT: %d", $b->pt
if ($b->pt != $b->pt_byte)
printf "[%d]", $b->pt_byte
end
printf " of 1..%d", $t->z
if ($t->z != $t->z_byte)
printf "[%d]", $t->z_byte
end
if ($b->begv != 1 || $b->zv != $t->z)
printf " NARROW=%d..%d", $b->begv, $b->zv
if ($b->begv != $b->begv_byte || $b->zv != $b->zv_byte)
printf " [%d..%d]", $b->begv_byte, $b->zv_byte
end
end
printf " GAP: %d", $t->gpt
if ($t->gpt != $t->gpt_byte)
printf "[%d]", $t->gpt_byte
end
printf " SZ=%d\n", $t->gap_size
end
document ppt
Print current buffer's point and boundaries.
Prints values of point, beg, end, narrow, and gap for current buffer.
end
define pitmethod
set $itmethod = $arg0
# output $itmethod
if ($itmethod == 0)
printf "GET_FROM_BUFFER"
end
if ($itmethod == 1)
printf "GET_FROM_DISPLAY_VECTOR"
end
if ($itmethod == 2)
printf "GET_FROM_STRING"
end
if ($itmethod == 3)
printf "GET_FROM_C_STRING"
end
if ($itmethod == 4)
printf "GET_FROM_IMAGE"
end
if ($itmethod == 5)
printf "GET_FROM_STRETCH"
end
if ($itmethod < 0 || $itmethod > 5)
output $itmethod
end
end
document pitmethod
Pretty print it->method given as first arg
end
# Print out iterator given as first arg
define pitx
set $it = $arg0
printf "cur=%d", $it->current.pos.charpos
if ($it->current.pos.charpos != $it->current.pos.bytepos)
printf "[%d]", $it->current.pos.bytepos
end
printf " pos=%d", $it->position.charpos
if ($it->position.charpos != $it->position.bytepos)
printf "[%d]", $it->position.bytepos
end
printf " start=%d", $it->start.pos.charpos
if ($it->start.pos.charpos != $it->start.pos.bytepos)
printf "[%d]", $it->start.pos.bytepos
end
printf " end=%d", $it->end_charpos
printf " stop=%d", $it->stop_charpos
printf " face=%d", $it->face_id
if ($it->multibyte_p)
printf " MB"
end
if ($it->header_line_p)
printf " HL"
end
if ($it->n_overlay_strings > 0)
printf " nov=%d", $it->n_overlay_strings
end
if ($it->sp != 0)
printf " sp=%d", $it->sp
end
# IT_CHARACTER
if ($it->what == 0)
if ($it->len == 1 && $it->c >= ' ' && it->c < 255)
printf " ch='%c'", $it->c
else
printf " ch=[%d,%d]", $it->c, $it->len
end
else
printf " "
# output $it->what
if ($it->what == 0)
printf "IT_CHARACTER"
end
if ($it->what == 1)
printf "IT_COMPOSITION"
end
if ($it->what == 2)
printf "IT_IMAGE"
end
if ($it->what == 3)
printf "IT_STRETCH"
end
if ($it->what == 4)
printf "IT_EOB"
end
if ($it->what == 5)
printf "IT_TRUNCATION"
end
if ($it->what == 6)
printf "IT_CONTINUATION"
end
if ($it->what < 0 || $it->what > 6)
output $it->what
end
end
if ($it->method != 0)
# !GET_FROM_BUFFER
printf " next="
pitmethod $it->method
if ($it->method == 2)
# GET_FROM_STRING
printf "[%d]", $it->current.string_pos.charpos
end
if ($it->method == 4)
# GET_FROM_IMAGE
printf "[%d]", $it->image_id
end
end
printf "\n"
if ($it->region_beg_charpos >= 0)
printf "reg=%d-%d ", $it->region_beg_charpos, $it->region_end_charpos
end
printf "vpos=%d hpos=%d", $it->vpos, $it->hpos,
printf " y=%d lvy=%d", $it->current_y, $it->last_visible_y
printf " x=%d vx=%d-%d", $it->current_x, $it->first_visible_x, $it->last_visible_x
printf " w=%d", $it->pixel_width
printf " a+d=%d+%d=%d", $it->ascent, $it->descent, $it->ascent+$it->descent
printf " max=%d+%d=%d", $it->max_ascent, $it->max_descent, $it->max_ascent+$it->max_descent
printf "\n"
set $i = 0
while ($i < $it->sp && $i < 4)
set $e = $it->stack[$i]
printf "stack[%d]: ", $i
pitmethod $e->method
printf "[%d]", $e->position.charpos
printf "\n"
set $i = $i + 1
end
end
document pitx
Pretty print a display iterator.
Take one arg, an iterator object or pointer.
end
define pit
pitx it
end
document pit
Pretty print the display iterator it.
end
define prowx
set $row = $arg0
printf "y=%d x=%d pwid=%d", $row->y, $row->x, $row->pixel_width
printf " a+d=%d+%d=%d", $row->ascent, $row->height-$row->ascent, $row->height
printf " phys=%d+%d=%d", $row->phys_ascent, $row->phys_height-$row->phys_ascent, $row->phys_height
printf " vis=%d", $row->visible_height
printf " L=%d T=%d R=%d", $row->used[0], $row->used[1], $row->used[2]
printf "\n"
printf "start=%d end=%d", $row->start.pos.charpos, $row->end.pos.charpos
if ($row->enabled_p)
printf " ENA"
end
if ($row->displays_text_p)
printf " DISP"
end
if ($row->mode_line_p)
printf " MODEL"
end
if ($row->continued_p)
printf " CONT"
end
if ($row-> truncated_on_left_p)
printf " TRUNC:L"
end
if ($row-> truncated_on_right_p)
printf " TRUNC:R"
end
if ($row->starts_in_middle_of_char_p)
printf " STARTMID"
end
if ($row->ends_in_middle_of_char_p)
printf " ENDMID"
end
if ($row->ends_in_newline_from_string_p)
printf " ENDNLFS"
end
if ($row->ends_at_zv_p)
printf " ENDZV"
end
if ($row->overlapped_p)
printf " OLAPD"
end
if ($row->overlapping_p)
printf " OLAPNG"
end
printf "\n"
end
document prowx
Pretty print information about glyph_row.
Takes one argument, a row object or pointer.
end
define prow
prowx row
end
document prow
Pretty print information about glyph_row in row.
end
define pcursorx
set $cp = $arg0
printf "y=%d x=%d vpos=%d hpos=%d", $cp->y, $cp->x, $cp->vpos, $cp->hpos
end
document pcursorx
Pretty print a window cursor.
end
define pcursor
printf "output: "
pcursorx output_cursor
printf "\n"
end
document pcursor
Pretty print the output_cursor.
end
define pwinx
set $w = $arg0
xgetint $w->sequence_number
if ($w->mini_p != Qnil)
printf "Mini "
end
printf "Window %d ", $int
xgetptr $w->buffer
set $tem = (struct buffer *) $ptr
xgetptr $tem->name
printf "%s", ((struct Lisp_String *) $ptr)->data
printf "\n"
xgetptr $w->start
set $tem = (struct Lisp_Marker *) $ptr
printf "start=%d end:", $tem->charpos
if ($w->window_end_valid != Qnil)
xgetint $w->window_end_pos
printf "pos=%d", $int
xgetint $w->window_end_vpos
printf " vpos=%d", $int
else
printf "invalid"
end
printf " vscroll=%d", $w->vscroll
if ($w->force_start != Qnil)
printf " FORCE_START"
end
if ($w->must_be_updated_p)
printf " MUST_UPD"
end
printf "\n"
printf "cursor: "
pcursorx $w->cursor
printf " phys: "
pcursorx $w->phys_cursor
if ($w->phys_cursor_on_p)
printf " ON"
else
printf " OFF"
end
printf " blk="
if ($w->last_cursor_off_p != $w->cursor_off_p)
if ($w->last_cursor_off_p)
printf "ON->"
else
printf "OFF->"
end
end
if ($w->cursor_off_p)
printf "ON"
else
printf "OFF"
end
printf "\n"
end
document pwinx
Pretty print a window structure.
Takes one argument, a pointer to a window structure.
end
define pwin
pwinx w
end
document pwin
Pretty print window structure w.
end
define pgx
set $g = $arg0
# CHAR_GLYPH
if ($g->type == 0)
if ($g->u.ch >= ' ' && $g->u.ch < 127)
printf "CHAR[%c]", $g->u.ch
else
printf "CHAR[0x%x]", $g->u.ch
end
end
# COMPOSITE_GLYPH
if ($g->type == 1)
printf "COMP[%d (%d..%d)]", $g->u.cmp.id, $g->u.cmp.from, $g->u.cmp.to
end
# IMAGE_GLYPH
if ($g->type == 2)
printf "IMAGE[%d]", $g->u.img_id
end
# STRETCH_GLYPH
if ($g->type == 3)
printf "STRETCH[%d+%d]", $g->u.stretch.height, $g->u.stretch.ascent
end
xgettype ($g->object)
if ($type == Lisp_String)
printf " str=%x[%d]", $g->object, $g->charpos
else
printf " pos=%d", $g->charpos
end
printf " w=%d a+d=%d+%d", $g->pixel_width, $g->ascent, $g->descent
# If not DEFAULT_FACE_ID
if ($g->face_id != 0)
printf " face=%d", $g->face_id
end
if ($g->voffset)
printf " vof=%d", $g->voffset
end
if ($g->multibyte_p)
printf " MB"
end
if ($g->padding_p)
printf " PAD"
end
if ($g->glyph_not_available_p)
printf " N/A"
end
if ($g->overlaps_vertically_p)
printf " OVL"
end
if ($g->left_box_line_p)
printf " ["
end
if ($g->right_box_line_p)
printf " ]"
end
if ($g->slice.x || $g->slice.y || $g->slice.width || $g->slice.height)
printf " slice=%d,%d,%d,%d" ,$g->slice.x, $g->slice.y, $g->slice.width, $g->slice.height
end
printf "\n"
end
document pgx
Pretty print a glyph structure.
Takes one argument, a pointer to a glyph structure.
end
define pg
set $pgidx = 0
pgx glyph
end
document pg
Pretty print glyph structure glyph.
end
define pgi
set $pgidx = $arg0
pgx (&glyph[$pgidx])
end
document pgi
Pretty print glyph structure glyph[I].
Takes one argument, a integer I.
end
define pgn
set $pgidx = $pgidx + 1
pgx (&glyph[$pgidx])
end
document pgn
Pretty print next glyph structure.
end
define pgrowx
set $row = $arg0
set $area = 0
set $xofs = $row->x
while ($area < 3)
set $used = $row->used[$area]
if ($used > 0)
set $gl0 = $row->glyphs[$area]
set $pgidx = 0
printf "%s: %d glyphs\n", ($area == 0 ? "LEFT" : $area == 2 ? "RIGHT" : "TEXT"), $used
while ($pgidx < $used)
printf "%3d %4d: ", $pgidx, $xofs
pgx $gl0[$pgidx]
set $xofs = $xofs + $gl0[$pgidx]->pixel_width
set $pgidx = $pgidx + 1
end
end
set $area = $area + 1
end
end
document pgrowx
Pretty print all glyphs in a row structure.
Takes one argument, a pointer to a row structure.
end
define pgrow
pgrowx row
end
document pgrow
Pretty print all glyphs in row structure row.
end
define pgrowit
pgrowx it->glyph_row
end
document pgrowit
Pretty print all glyphs in it->glyph_row.
end
define xtype
xgettype $
output $type
echo \n
if $type == Lisp_Misc
xmisctype
else
if $type == Lisp_Vectorlike
xvectype
end
end
end
document xtype
Print the type of $, assuming it is an Emacs Lisp value.
If the first type printed is Lisp_Vector or Lisp_Misc,
a second line gives the more precise type.
end
define xvectype
xgetptr $
set $size = ((struct Lisp_Vector *) $ptr)->size
output ($size & PVEC_FLAG) ? (enum pvec_type) ($size & PVEC_TYPE_MASK) : $size & ~gdb_array_mark_flag
echo \n
end
document xvectype
Print the size or vector subtype of $.
This command assumes that $ is a vector or pseudovector.
end
define xmisctype
xgetptr $
output (enum Lisp_Misc_Type) (((struct Lisp_Free *) $ptr)->type)
echo \n
end
document xmisctype
Assume that $ is some misc type and print its specific type.
end
define xint
xgetint $
print $int
end
document xint
Print $ as an Emacs Lisp integer. This gets the sign right.
end
define xptr
xgetptr $
print (void *) $ptr
end
document xptr
Print the pointer portion of an Emacs Lisp value in $.
end
define xmarker
xgetptr $
print (struct Lisp_Marker *) $ptr
end
document xmarker
Print $ as a marker pointer.
This command assumes that $ is an Emacs Lisp marker value.
end
define xoverlay
xgetptr $
print (struct Lisp_Overlay *) $ptr
end
document xoverlay
Print $ as a overlay pointer.
This command assumes that $ is an Emacs Lisp overlay value.
end
define xmiscfree
xgetptr $
print (struct Lisp_Free *) $ptr
end
document xmiscfree
Print $ as a misc free-cell pointer.
This command assumes that $ is an Emacs Lisp Misc value.
end
define xintfwd
xgetptr $
print (struct Lisp_Intfwd *) $ptr
end
document xintfwd
Print $ as an integer forwarding pointer.
This command assumes that $ is an Emacs Lisp Misc value.
end
define xboolfwd
xgetptr $
print (struct Lisp_Boolfwd *) $ptr
end
document xboolfwd
Print $ as a boolean forwarding pointer.
This command assumes that $ is an Emacs Lisp Misc value.
end
define xobjfwd
xgetptr $
print (struct Lisp_Objfwd *) $ptr
end
document xobjfwd
Print $ as an object forwarding pointer.
This command assumes that $ is an Emacs Lisp Misc value.
end
define xbufobjfwd
xgetptr $
print (struct Lisp_Buffer_Objfwd *) $ptr
end
document xbufobjfwd
Print $ as a buffer-local object forwarding pointer.
This command assumes that $ is an Emacs Lisp Misc value.
end
define xkbobjfwd
xgetptr $
print (struct Lisp_Kboard_Objfwd *) $ptr
end
document xkbobjfwd
Print $ as a kboard-local object forwarding pointer.
This command assumes that $ is an Emacs Lisp Misc value.
end
define xbuflocal
xgetptr $
print (struct Lisp_Buffer_Local_Value *) $ptr
end
document xbuflocal
Print $ as a buffer-local-value pointer.
This command assumes that $ is an Emacs Lisp Misc value.
end
define xsymbol
set $sym = $
xgetptr $sym
print (struct Lisp_Symbol *) $ptr
xprintsym $sym
echo \n
end
document xsymbol
Print the name and address of the symbol $.
This command assumes that $ is an Emacs Lisp symbol value.
end
define xstring
xgetptr $
print (struct Lisp_String *) $ptr
xprintstr $
echo \n
end
document xstring
Print the contents and address of the string $.
This command assumes that $ is an Emacs Lisp string value.
end
define xvector
xgetptr $
print (struct Lisp_Vector *) $ptr
output ($->size > 50) ? 0 : ($->contents[0])@($->size & ~gdb_array_mark_flag)
echo \n
end
document xvector
Print the contents and address of the vector $.
This command assumes that $ is an Emacs Lisp vector value.
end
define xprocess
xgetptr $
print (struct Lisp_Process *) $ptr
output *$
echo \n
end
document xprocess
Print the address of the struct Lisp_process to which $ points.
This command assumes that $ is a Lisp_Object.
end
define xframe
xgetptr $
print (struct frame *) $ptr
xgetptr $->name
set $ptr = (struct Lisp_String *) $ptr
xprintstr $ptr
echo \n
end
document xframe
Print $ as a frame pointer.
This command assumes $ is an Emacs Lisp frame value.
end
define xcompiled
xgetptr $
print (struct Lisp_Vector *) $ptr
output ($->contents[0])@($->size & 0xff)
end
document xcompiled
Print $ as a compiled function pointer.
This command assumes that $ is an Emacs Lisp compiled value.
end
define xwindow
xgetptr $
print (struct window *) $ptr
set $window = (struct window *) $ptr
xgetint $window->total_cols
set $width=$int
xgetint $window->total_lines
set $height=$int
xgetint $window->left_col
set $left=$int
xgetint $window->top_line
set $top=$int
printf "%dx%d+%d+%d\n", $width, $height, $left, $top
end
document xwindow
Print $ as a window pointer, assuming it is an Emacs Lisp window value.
Print the window's position as "WIDTHxHEIGHT+LEFT+TOP".
end
define xwinconfig
xgetptr $
print (struct save_window_data *) $ptr
end
document xwinconfig
Print $ as a window configuration pointer.
This command assumes that $ is an Emacs Lisp window configuration value.
end
define xsubr
xgetptr $
print (struct Lisp_Subr *) $ptr
output *$
echo \n
end
document xsubr
Print the address of the subr which the Lisp_Object $ points to.
end
define xchartable
xgetptr $
print (struct Lisp_Char_Table *) $ptr
printf "Purpose: "
xprintsym $->purpose
printf " %d extra slots", ($->size & 0x1ff) - 68
echo \n
end
document xchartable
Print the address of the char-table $, and its purpose.
This command assumes that $ is an Emacs Lisp char-table value.
end
define xboolvector
xgetptr $
print (struct Lisp_Bool_Vector *) $ptr
output ($->size > 256) ? 0 : ($->data[0])@((($->size & ~gdb_array_mark_flag) + 7)/ 8)
echo \n
end
document xboolvector
Print the contents and address of the bool-vector $.
This command assumes that $ is an Emacs Lisp bool-vector value.
end
define xbuffer
xgetptr $
print (struct buffer *) $ptr
xgetptr $->name
output ((struct Lisp_String *) $ptr)->data
echo \n
end
document xbuffer
Set $ as a buffer pointer and the name of the buffer.
This command assumes $ is an Emacs Lisp buffer value.
end
define xhashtable
xgetptr $
print (struct Lisp_Hash_Table *) $ptr
end
document xhashtable
Set $ as a hash table pointer.
This command assumes that $ is an Emacs Lisp hash table value.
end
define xcons
xgetptr $
print (struct Lisp_Cons *) $ptr
output/x *$
echo \n
end
document xcons
Print the contents of $ as an Emacs Lisp cons.
end
define nextcons
p $.u.cdr
xcons
end
document nextcons
Print the contents of the next cell in a list.
This command assumes that the last thing you printed was a cons cell contents
(type struct Lisp_Cons) or a pointer to one.
end
define xcar
xgetptr $
xgettype $
print/x ($type == Lisp_Cons ? ((struct Lisp_Cons *) $ptr)->car : 0)
end
document xcar
Assume that $ is an Emacs Lisp pair and print its car.
end
define xcdr
xgetptr $
xgettype $
print/x ($type == Lisp_Cons ? ((struct Lisp_Cons *) $ptr)->u.cdr : 0)
end
document xcdr
Assume that $ is an Emacs Lisp pair and print its cdr.
end
define xlist
xgetptr $
set $cons = (struct Lisp_Cons *) $ptr
xgetptr Qnil
set $nil = $ptr
set $i = 0
while $cons != $nil && $i < 10
p/x $cons->car
xpr
xgetptr $cons->u.cdr
set $cons = (struct Lisp_Cons *) $ptr
set $i = $i + 1
printf "---\n"
end
if $cons == $nil
printf "nil\n"
else
printf "...\n"
p $ptr
end
end
document xlist
Print $ assuming it is a list.
end
define xfloat
xgetptr $
print ((struct Lisp_Float *) $ptr)->u.data
end
document xfloat
Print $ assuming it is a lisp floating-point number.
end
define xscrollbar
xgetptr $
print (struct scrollbar *) $ptr
output *$
echo \n
end
document xscrollbar
Print $ as a scrollbar pointer.
end
define xpr
xtype
if $type == Lisp_Int
xint
end
if $type == Lisp_Symbol
xsymbol
end
if $type == Lisp_String
xstring
end
if $type == Lisp_Cons
xcons
end
if $type == Lisp_Float
xfloat
end
if $type == Lisp_Misc
set $misc = (enum Lisp_Misc_Type) (((struct Lisp_Free *) $ptr)->type)
if $misc == Lisp_Misc_Free
xmiscfree
end
if $misc == Lisp_Misc_Boolfwd
xboolfwd
end
if $misc == Lisp_Misc_Marker
xmarker
end
if $misc == Lisp_Misc_Intfwd
xintfwd
end
if $misc == Lisp_Misc_Boolfwd
xboolfwd
end
if $misc == Lisp_Misc_Objfwd
xobjfwd
end
if $misc == Lisp_Misc_Buffer_Objfwd
xbufobjfwd
end
if $misc == Lisp_Misc_Buffer_Local_Value
xbuflocal
end
# if $misc == Lisp_Misc_Some_Buffer_Local_Value
# xvalue
# end
if $misc == Lisp_Misc_Overlay
xoverlay
end
if $misc == Lisp_Misc_Kboard_Objfwd
xkbobjfwd
end
# if $misc == Lisp_Misc_Save_Value
# xsavevalue
# end
end
if $type == Lisp_Vectorlike
set $size = ((struct Lisp_Vector *) $ptr)->size
if ($size & PVEC_FLAG)
set $vec = (enum pvec_type) ($size & PVEC_TYPE_MASK)
if $vec == PVEC_NORMAL_VECTOR
xvector
end
if $vec == PVEC_PROCESS
xprocess
end
if $vec == PVEC_FRAME
xframe
end
if $vec == PVEC_COMPILED
xcompiled
end
if $vec == PVEC_WINDOW
xwindow
end
if $vec == PVEC_WINDOW_CONFIGURATION
xwinconfig
end
if $vec == PVEC_SUBR
xsubr
end
if $vec == PVEC_CHAR_TABLE
xchartable
end
if $vec == PVEC_BOOL_VECTOR
xboolvector
end
if $vec == PVEC_BUFFER
xbuffer
end
if $vec == PVEC_HASH_TABLE
xhashtable
end
else
xvector
end
end
end
document xpr
Print $ as a lisp object of any type.
end
define xprintstr
set $data = (char *) $arg0->data
output ($arg0->size > 1000) ? 0 : ($data[0])@($arg0->size_byte < 0 ? $arg0->size & ~gdb_array_mark_flag : $arg0->size_byte)
end
define xprintsym
xgetptr $arg0
set $sym = (struct Lisp_Symbol *) $ptr
xgetptr $sym->xname
set $sym_name = (struct Lisp_String *) $ptr
xprintstr $sym_name
end
document xprintsym
Print argument as a symbol.
end
define xcoding
set $tmp = (struct Lisp_Hash_Table *) ((Vcoding_system_hash_table & $valmask) | gdb_data_seg_bits)
set $tmp = (struct Lisp_Vector *) (($tmp->key_and_value & $valmask) | gdb_data_seg_bits)
set $name = $tmp->contents[$arg0 * 2]
print $name
pr
print $tmp->contents[$arg0 * 2 + 1]
pr
end
document xcoding
Print the name and attributes of coding system that has ID (argument).
end
define xcharset
set $tmp = (struct Lisp_Hash_Table *) ((Vcharset_hash_table & $valmask) | gdb_data_seg_bits)
set $tmp = (struct Lisp_Vector *) (($tmp->key_and_value & $valmask) | gdb_data_seg_bits)
p $tmp->contents[charset_table[$arg0].hash_index * 2]
pr
end
document xcharset
Print the name of charset that has ID (argument).
end
define xfontset
xgetptr $
set $tbl = (struct Lisp_Char_Table *) $ptr
print $tbl
xgetint $tbl->extras[0]
printf " ID:%d", $int
xgettype $tbl->extras[1]
xgetptr $tbl->extras[1]
if $type == Lisp_String
set $ptr = (struct Lisp_String *) $ptr
printf " Name:"
xprintstr $ptr
else
xgetptr $tbl->extras[2]
set $ptr = (struct Lisp_Char_Table *) $ptr
xgetptr $ptr->extras[1]
set $ptr = (struct Lisp_String *) $ptr
printf " Realized from:"
xprintstr $ptr
end
echo \n
end
define xfont
xgetptr $
set $size = (((struct Lisp_Vector *) $ptr)->size & 0x1FF)
if $size == FONT_SPEC_MAX
print (struct font_spec *) $ptr
else
if $size == FONT_ENTITY_MAX
print (struct font_entity *) $ptr
else
print (struct font *) $ptr
end
end
end
document xfont
Print $ assuming it is a list font (font-spec, font-entity, or font-object).
end
define xbacktrace
set $bt = backtrace_list
while $bt
xgettype (*$bt->function)
if $type == Lisp_Symbol
xprintsym (*$bt->function)
printf " (0x%x)\n", $bt->args
else
xgetptr *$bt->function
printf "0x%x ", $ptr
if $type == Lisp_Vectorlike
xgetptr (*$bt->function)
set $size = ((struct Lisp_Vector *) $ptr)->size
output ($size & PVEC_FLAG) ? (enum pvec_type) ($size & PVEC_TYPE_MASK) : $size & ~gdb_array_mark_flag
else
printf "Lisp type %d", $type
end
echo \n
end
set $bt = $bt->next
end
end
document xbacktrace
Print a backtrace of Lisp function calls from backtrace_list.
Set a breakpoint at Fsignal and call this to see from where
an error was signaled.
end
define which
set debug_print (which_symbols ($arg0))
end
document which
Print symbols which references a given lisp object
either as its symbol value or symbol function.
end
define xbytecode
set $bt = byte_stack_list
while $bt
xgettype ($bt->byte_string)
printf "0x%x => ", $bt->byte_string
which $bt->byte_string
set $bt = $bt->next
end
end
document xbytecode
Print a backtrace of the byte code stack.
end
# Show Lisp backtrace after normal backtrace.
define hookpost-backtrace
set $bt = backtrace_list
if $bt
echo \n
echo Lisp Backtrace:\n
xbacktrace
end
end
define xreload
set $tagmask = (((long)1 << gdb_gctypebits) - 1)
set $valmask = gdb_use_lsb ? ~($tagmask) : ((long)1 << gdb_valbits) - 1
end
document xreload
When starting Emacs a second time in the same gdb session under
FreeBSD 2.2.5, gdb 4.13, $valmask have lost
their values. (The same happens on current (2000) versions of GNU/Linux
with gdb 5.0.)
This function reloads them.
end
xreload
# Flush display (X only)
define ff
set x_flush (0)
end
document ff
Flush pending X window display updates to screen.
Works only when an inferior emacs is executing.
end
define hook-run
xreload
end
# Call xreload if a new Emacs executable is loaded.
define hookpost-run
xreload
end
set print pretty on
set print sevenbit-strings
show environment DISPLAY
show environment TERM
# People get bothered when they see messages about non-existent functions...
xgetptr Vsystem_type
# $ptr is NULL in temacs
if ($ptr != 0)
set $tem = (struct Lisp_Symbol *) $ptr
xgetptr $tem->xname
set $tem = (struct Lisp_String *) $ptr
set $tem = (char *) $tem->data
# Don't let abort actually run, as it will make stdio stop working and
# therefore the `pr' command above as well.
if $tem[0] == 'w' && $tem[1] == 'i' && $tem[2] == 'n' && $tem[3] == 'd'
# The windows-nt build replaces abort with its own function.
break w32_abort
else
break abort
end
end
# x_error_quitter is defined only on X. But window-system is set up
# only at run time, during Emacs startup, so we need to defer setting
# the breakpoint. init_sys_modes is the first function called on
# every platform after init_display, where window-system is set.
tbreak init_sys_modes
commands
silent
xgetptr Vinitial_window_system
set $tem = (struct Lisp_Symbol *) $ptr
xgetptr $tem->xname
set $tem = (struct Lisp_String *) $ptr
set $tem = (char *) $tem->data
# If we are running in synchronous mode, we want a chance to look
# around before Emacs exits. Perhaps we should put the break
# somewhere else instead...
if $tem[0] == 'x' && $tem[1] == '\0'
break x_error_quitter
end
continue
end
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