Mercurial > hg > xemacs-beta
view etc/tests/external-widget/test-ew-motif.c @ 4921:17362f371cc2
add more byte-code assertions and better failure output
-------------------- ChangeLog entries follow: --------------------
src/ChangeLog addition:
2010-02-03 Ben Wing <ben@xemacs.org>
* alloc.c (Fmake_byte_code):
* bytecode.h:
* lisp.h:
* lread.c:
* lread.c (readevalloop):
* lread.c (Fread):
* lread.c (Fread_from_string):
* lread.c (read_list_conser):
* lread.c (read_list):
* lread.c (vars_of_lread):
* symbols.c:
* symbols.c (Fdefine_function):
Turn on the "compiled-function annotation hack". Implement it
properly by hooking into Fdefalias(). Note in the docstring to
`defalias' that we do this. Remove some old broken code and
change code that implemented the old kludgy way of hooking into
the Lisp reader into bracketed by `#ifdef
COMPILED_FUNCTION_ANNOTATION_HACK_OLD_WAY', which is not enabled.
Also enable byte-code metering when DEBUG_XEMACS -- this is a form
of profiling for computing histograms of which sequences of two
bytecodes are used most often.
* bytecode-ops.h:
* bytecode-ops.h (OPCODE):
New file. Extract out all the opcodes and declare them using
OPCODE(), a bit like frame slots and such. This way the file can
be included multiple times if necessary to iterate multiple times
over the byte opcodes.
* bytecode.c:
* bytecode.c (NUM_REMEMBERED_BYTE_OPS):
* bytecode.c (OPCODE):
* bytecode.c (assert_failed_with_remembered_ops):
* bytecode.c (READ_UINT_2):
* bytecode.c (READ_INT_1):
* bytecode.c (READ_INT_2):
* bytecode.c (PEEK_INT_1):
* bytecode.c (PEEK_INT_2):
* bytecode.c (JUMP_RELATIVE):
* bytecode.c (JUMP_NEXT):
* bytecode.c (PUSH):
* bytecode.c (POP_WITH_MULTIPLE_VALUES):
* bytecode.c (DISCARD):
* bytecode.c (UNUSED):
* bytecode.c (optimize_byte_code):
* bytecode.c (optimize_compiled_function):
* bytecode.c (Fbyte_code):
* bytecode.c (vars_of_bytecode):
* bytecode.c (init_opcode_table_multi_op):
* bytecode.c (reinit_vars_of_bytecode):
* emacs.c (main_1):
* eval.c (funcall_compiled_function):
* symsinit.h:
Any time we change either the instruction pointer or the stack
pointer, assert that we're going to move it to a valid location.
This should catch failures right when they occur rather than
sometime later. This requires that we pass in another couple of
parameters into some functions (only with error-checking enabled,
see below).
Also keep track, using a circular queue, of the last 100 byte
opcodes seen, and when we hit an assert failure during byte-code
execution, output the contents of the queue in a nice readable
fashion. This requires that bytecode-ops.h be included a second
time so that a table mapping opcodes to the name of their operation
can be constructed. This table is constructed in new function
reinit_vars_of_bytecode().
Everything in the last two paras happens only when
ERROR_CHECK_BYTE_CODE.
Add some longish comments describing how the arrays that hold the
stack and instructions, and the pointers used to access them, work.
* gc.c:
Import some code from my `latest-fix' workspace to mark the
staticpro's in order from lowest to highest, rather than highest to
lowest, so it's easier to debug when something goes wrong.
* lisp.h (abort_with_message): Renamed from abort_with_msg().
* symbols.c (defsymbol_massage_name_1):
* symbols.c (defsymbol_nodump):
* symbols.c (defsymbol):
* symbols.c (defkeyword):
* symeval.h (DEFVAR_SYMVAL_FWD_OBJECT):
Make the various calls to staticpro() instead call staticpro_1(),
passing in the name of the C var being staticpro'ed, so that it
shows up in staticpro_names. Otherwise staticpro_names just has
1000+ copies of the word `location'.
| author | Ben Wing <ben@xemacs.org> |
|---|---|
| date | Wed, 03 Feb 2010 08:01:55 -0600 |
| parents | 03ab78e48ef6 |
| children | ba07c880114a |
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/* Test external widget code in Motif. Copyright (C) 1993 Ben Wing. This file is part of XEmacs. XEmacs 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 2, or (at your option) any later version. XEmacs 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 XEmacs; see the file COPYING. If not, write to the Free Software Foundation, Inc., 51 Franklin St - Fifth Floor, Boston, MA 02110-1301, USA. */ #include <Xm/Xm.h> #include <Xm/RowColumn.h> #include <Xm/Scale.h> #include <Xm/PushB.h> #include <Xm/Label.h> #include <Xm/Text.h> #include <Xm/PanedW.h> #include "ExternalClient.h" #ifdef TOOLTALK #include <desktop/tt_c.h> char *HxProcID; #endif XtAppContext xt_app_con; void ScaleValueChangedCB(Widget scale, XtPointer app_data, XtPointer widget_data) { XmScaleCallbackStruct *xms = (XmScaleCallbackStruct *) widget_data; Widget label = (Widget) app_data; char labelarr[10]; XmString labelstr; #if 0 sprintf(labelarr, "%d", xms->value); labelstr = XmStringCreateLocalized(labelarr); XtVaSetValues(label, XmNlabelString, labelstr, NULL); XmStringFree(labelstr); #endif } #ifdef TOOLTALK static void handle_tt_input(XtPointer client_data, int *source, XtInputId *id) { Tt_message m = tt_message_receive(); if (m && !(tt_ptr_error(m))) { tt_message_destroy(m); } } Tt_status HxInitializeToolTalk() { static Boolean initialized = FALSE; if (!initialized) { int fd; Tt_status status; HxProcID = tt_open(); fd = tt_fd(); if (TT_OK != (status = tt_session_join( tt_default_session() ))) return status; (void)XtAppAddInput(xt_app_con, fd, (void *)XtInputReadMask, handle_tt_input, NULL); initialized = TRUE; } return TT_OK; } #endif main(int argc, char **argv) { Widget shell, rowcolumn, scale, pushbutton, label1, label2, text; Widget paned, text2; int n, i; Widget widlist[100]; Widget emacscli[100]; Arg args[100]; int no_ews = 1; char buf[100]; if (argc > 1) no_ews = atoi (argv[1]); shell = XtAppInitialize(&xt_app_con, "Testmotif", NULL, 0, &argc, argv, NULL, NULL, 0); #ifdef TOOLTALK HxInitializeToolTalk(); #endif rowcolumn = XmCreateRowColumn(shell, "rowcolumn", NULL, 0); XtManageChild(rowcolumn); n = 0; XtSetArg(args[n], XmNtraversalOn, TRUE); n++; #if 0 label1 = XmCreateLabel(rowcolumn, "label1", args, n); #endif label1 = XtVaCreateWidget("label1", xmLabelWidgetClass, rowcolumn, XmNwidth, 50, XmNheight, 30, XmNtraversalOn, TRUE, NULL); label2 = XmCreateLabel(rowcolumn, "label2", NULL, 0); scale = XmCreateScale(rowcolumn, "scale", NULL, 0); XtAddCallback(scale, XmNvalueChangedCallback, ScaleValueChangedCB, label1); paned = XmCreatePanedWindow(rowcolumn, "paned", NULL, 0); n = 0; widlist[n++] = label1; widlist[n++] = label2; widlist[n++] = scale; widlist[n++] = paned; XtManageChildren(widlist, n); pushbutton = XmCreatePushButton(paned, "pushbutton", NULL, 0); text = XmCreateText(paned, "text", NULL, 0); for (i=0; i<no_ews; i++) { sprintf (buf, "extcli%d", i); emacscli[i] = XtVaCreateWidget(buf, externalClientWidgetClass, paned, XmNwidth, 500, XmNheight, 200, XmNtraversalOn, TRUE, #ifdef TOOLTALK XtNuseToolTalk, TRUE, #endif NULL); } text2 = XmCreateText(paned, "text2", NULL, 0); n = 0; widlist[n++] = pushbutton; widlist[n++] = text; for (i=0; i<no_ews; i++) widlist[n++] = emacscli[i]; widlist[n++] = text2; XtManageChildren(widlist, n); XtRealizeWidget(shell); { XmString lab; char labarr[1000]; char tmpbuf[50]; strcpy (labarr, "window:"); for (i=0; i<no_ews; i++) { sprintf (tmpbuf, " %d", XtWindow(emacscli[i])); strcat (labarr, tmpbuf); } lab = XmStringCreateLocalized(labarr); XtVaSetValues(label2, XmNlabelString, lab, NULL); XmStringFree(lab); } XtAppMainLoop(xt_app_con); }