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443 lines
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443 lines
18 KiB
Plaintext
Here are the guidelines for being an Emacs pretester.
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If you would like to do this, say so, and I'll add you to
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the pretest list.
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Information for Emacs Pretesters
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The purpose of Emacs pretesting is to verify that the new Emacs
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distribution, about to be released, works properly on your system *with
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no change whatever*, when installed following the precise
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recommendations that come with the Emacs distribution.
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Here are some guidelines on how to do pretesting so as to make it
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helpful. All of them follow from common sense together with the
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nature of the purpose and the situation.
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Please save this file, and reread it when a new series of pretests
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starts.
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* Get the pretest from gnu/emacs/emacs-MM.NN.tar.gz and
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gnu/emacs/leim-MM.NN.tar.gz on alpha.gnu.org.
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* After a few days of testing, if there are no problems, please report
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that Emacs works for you and what configuration you are testing it on.
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* If you want to communicate with other pretesters, send mail to
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emacs-pretesters@gnu.org. I don't use that mailing list when I send
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to you because I've found that mailing lists tend to amplify random
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noise into long discussions or even arguments, and that can waste a
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lot of time. But when you have a reason to ask other pretesters for
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help, you can do it that way.
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* It is absolutely vital that you tell me about even the smallest
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change or departure from the standard sources and procedure.
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Otherwise, you are not testing the same program that I asked you to
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test. Testing a different program is usually of no use whatever. It
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can even cause trouble if you fail to tell me that you tested some
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other program instead of what I am about to release. I might think
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that Emacs works, when in fact it has not even been tried, and might
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have a glaring fault.
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* Don't use a site-load.el file or a site-init.el file when you pretest.
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Using either of those files means you are not testing Emacs as a typical
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site would use it.
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Actually, it does no harm to test Emacs with such customizations *as
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well as* testing it "out of the box". Anything you do that could find
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a bug is useful, as long as you make sure I know exactly what you did.
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The important point is that testing with local changes is no
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substitute for testing Emacs exactly as it is distributed.
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* Even changing the compilation options counts as a change in the
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program. The Emacs sources specify which compilation options to use.
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Some of them are specified in makefiles, and some in machine-specific
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configuration files. They also give you ways to override this--but if
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you do, then you are not testing what ordinary users will do.
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Therefore, when pretesting, it is vital to test with the default
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compilation options.
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(Testing with a different set of options can be useful *in addition*,
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but not *instead of* the default options.)
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* The machine and system configuration files of Emacs are parts of
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Emacs. So when you test Emacs, you need to do it with the
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configuration files that come with Emacs.
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If Emacs does not come with configuration files for a certain machine,
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and you test it with configuration files that don't come with Emacs,
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this is effectively changing Emacs. Because the crucial fact about
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the planned release is that, without changes, it doesn't work on that
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machine.
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To make Emacs work on that machine, I would need to install new
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configuration files. That is not out of the question, since it is
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safe--it certainly won't break any other machines that already work.
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But you will have to rush me the legal papers to give the FSF
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permission to use such a large piece of text.
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* Look in the etc/MACHINES file.
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The etc/MACHINES file says which configuration files to use for your
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machine, so use the ones that are recommended. If you guess, you might
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guess wrong and encounter spurious difficulties. What's more, if you
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don't follow etc/MACHINES then you aren't helping to test that its
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recommendations are valid.
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The etc/MACHINES file may describe other things that you need to do
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to make Emacs work on your machine. If so, you should follow these
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recommendations also, for the same reason.
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* Send your problem reports to emacs-pretest-bug@gnu.org, not
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bug-gnu-emacs.
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Sometimes I won't know what to do about a system-dependent issue, and
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I may need people to tell me what happens if you try a certain thing
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on a certain system. When this happens, I'll send out a query.
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* Don't delay sending information.
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When you test on a system and encounter no problems, please tell me
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about it right away. That way, I will know that someone has tested
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Emacs on that kind of system.
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Please don't wait for several days "to see if it really works before
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you say anything." Tell me right away that Emacs seems basically to
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work; then, if you notice a problem a few days later, tell me
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immediately about that when you see it.
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It is okay if you double check things before reporting a problem, such
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as to see if you can easily fix it. But don't wait very long. A good
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rule to use in pretesting is always to tell me about every problem on
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the same day you encounter it, even if that means you can't find a
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solution before you report the problem.
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I'd much rather hear about a problem today and a solution tomorrow
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than get both of them tomorrow at the same time.
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* Make each bug report self-contained.
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If you refer back to another message, whether from you or from someone
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else, then it will be necessary for anyone who wants to investigate
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the bug to find the other message. This may be difficult, it is
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probably time-consuming.
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To help me save time, simply copy the relevant parts of any previous
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messages into your own bug report.
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In particular, if I ask you for more information because a bug report
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was incomplete, it is best to send me the *entire* collection of
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relevant information, all together. If you send just the additional
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information, that makes me do extra work. There is even a risk that
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I won't remember what question you are sending me the answer to.
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* When you encounter a bug that manifests itself as a Lisp error,
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try setting debug-on-error to t and making the bug happen again.
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Then you will get a Lisp backtrace. Including that in your bug report
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is very useful.
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* Debugging optimized code is possible, if you compile with GCC, but
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in some cases the optimized code can be confusing. If you are not
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accustomed to that, recompile Emacs without -O. One way to do this is
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make clean
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make CFLAGS=-g
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* If you use X windows, it is a good idea to run Emacs under GDB (or
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some other suitable debugger) *all the time*, at least while
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pretesting.
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Then, when Emacs crashes, you will be able to debug the live process,
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not just a core dump. The `pr' command defined in src/.gdbinit is very
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useful in this case for examining Lisp_Object values as they would
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appear in Lisp.
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If you can't use `pr' because Emacs has got a fault already, or
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because you have only a core dump, you can use `xtype' to look at the
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type of a value, and then choose one of the other commands `xsymbol',
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`xstring', `xcons', `xvector' and so on to examine the contents.
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I myself *always* run Emacs under GDB so that I can debug conveniently
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if the occasion arises.
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* To get Lisp-level backtrace information within GDB,
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look for stack frames that call Ffuncall. Select them one by one in GDB
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and type this:
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p *args
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pr
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This will print the name of the Lisp function called by that level
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of function calling.
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By printing the remaining elements of args, you can see the argument
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values. Here's how to print the first argument:
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p args[1]
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pr
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If you do not have a live process, you can use xtype and the other
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x... commands such as xsymbol to get such information, albeit less
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conveniently.
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* Even with a live process, these x... commands are useful for
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examining the fields in a buffer, window, process, frame or marker.
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Here's an example using concepts explained in the node "Value History"
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of the GDB manual to print the variable frame from this line in
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xmenu.c:
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buf.frame_or_window = Fcons (frame, prefix);
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First, use these commands:
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cd src
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gdb emacs
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b xmenu.c:1209
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r -q
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Then type C-x 5 2 to create a new frame, and it hits the breakpoint:
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(gdb) p frame
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$1 = 1077872640
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(gdb) xtype
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Lisp_Vectorlike
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PVEC_FRAME
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(gdb) xframe
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$2 = (struct frame *) 0x3f0800
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(gdb) p *$
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$3 = {
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size = 536871989,
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next = 0x366240,
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name = 809661752,
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[...]
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}
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(gdb) p $3->name
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$4 = 809661752
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Now we can use `pr' to print the name of the frame:
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(gdb) pr
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"emacs@steenrod.math.nwu.edu"
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* The Emacs C code heavily uses macros defined in lisp.h. So suppose
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we want the address of the l-value expression near the bottom of
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`kbd_buffer_store_event' from keyboard.c:
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XVECTOR (kbd_buffer_frame_or_window)->contents[kbd_store_ptr
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- kbd_buffer]
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= event->frame_or_window);
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XVECTOR is a macro, and therefore GDB does not know about it.
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GDB cannot evaluate p XVECTOR (kbd_buffer_frame_or_window).
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However, you can use the xvector command in GDB to get the same
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result. Here is how:
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(gdb) p kbd_buffer_frame_or_window
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$1 = 1078005760
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(gdb) xvector
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$2 = (struct Lisp_Vector *) 0x411000
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0
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(gdb) p $->contents[kbd_store_ptr - kbd_buffer]
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$3 = 1077872640
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(gdb) p &$
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$4 = (int *) 0x411008
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* Here's a related example of macros and the GDB `define' command.
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There are many Lisp vectors such as `recent_keys', which contains the
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last 100 keystrokes. We can print this Lisp vector
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p recent_keys
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pr
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But this may be inconvenient, since `recent_keys' is much more verbose
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than `C-h l'. We might want to print only the last 10 elements of
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this vector. `recent_keys' is updated in keyboard.c by the command
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XVECTOR (recent_keys)->contents[recent_keys_index] = c;
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So we define a GDB command `xvector-elts', so the last 10 keystrokes
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are printed by
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xvector-elts recent_keys recent_keys_index 10
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where you can define xvector-elts as follows:
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define xvector-elts
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set $i = 0
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p $arg0
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xvector
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set $foo = $
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while $i < $arg2
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p $foo->contents[$arg1-($i++)]
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pr
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end
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document xvector-elts
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Prints a range of elements of a Lisp vector.
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xvector-elts v n i
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prints `i' elements of the vector `v' ending at the index `n'.
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end
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* To debug what happens while preloading and dumping Emacs,
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do `gdb temacs' and start it with `r -batch -l loadup dump'.
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If temacs actually succeeds when running under GDB in this way, do not
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try to run the dumped Emacs, because it was dumped with the GDB
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breakpoints in it.
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* If you encounter X protocol errors, try evaluating (x-synchronize t).
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That puts Emacs into synchronous mode, where each Xlib call checks for
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errors before it returns. This mode is much slower, but when you get
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an error, you will see exactly which call really caused the error.
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* If the symptom of the bug is that Emacs fails to respond, don't
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assume Emacs is `hung'--it may instead be in an infinite loop. To
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find out which, make the problem happen under GDB and stop Emacs once
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it is not responding. (If Emacs is using X Windows directly, you can
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stop Emacs by typing C-z at the GDB job.) Then try stepping with
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`step'. If Emacs is hung, the `step' command won't return. If it is
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looping, `step' will return.
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If this shows Emacs is hung in a system call, stop it again and
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examine the arguments of the call. In your bug report, state exactly
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where in the source the system call is, and what the arguments are.
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If Emacs is in an infinite loop, please determine where the loop
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starts and ends. The easiest way to do this is to use the GDB command
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`finish'. Each time you use it, Emacs resumes execution until it
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exits one stack frame. Keep typing `finish' until it doesn't
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return--that means the infinite loop is in the stack frame which you
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just tried to finish.
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Stop Emacs again, and use `finish' repeatedly again until you get back
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to that frame. Then use `next' to step through that frame. By
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stepping, you will see where the loop starts and ends. Also please
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examine the data being used in the loop and try to determine why the
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loop does not exit when it should. Include all of this information in
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your bug report.
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* If certain operations in Emacs are slower than they used to be, here
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is some advice for how to find out why.
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Stop Emacs repeatedly during the slow operation, and make a backtrace
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each time. Compare the backtraces looking for a pattern--a specific
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function that shows up more often than you'd expect.
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If you don't see a pattern in the C backtraces, get some Lisp
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backtrace information by looking at Ffuncall frames (see above), and
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again look for a pattern.
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When using X, you can stop Emacs at any time by typing C-z at GDB.
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When not using X, you can do this with C-g.
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* Configure tries to figure out what kind of system you have by
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compiling and linking programs which calls various functions and looks
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at whether that succeeds. The file config.log contains any messages
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produced by compilers while running configure, to aid debugging if
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configure makes a mistake. But note that config.cache reads:
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# Giving --cache-file=/dev/null disables caching, for debugging configure.
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or more simply,
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rm config.cache
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./configure
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* Always be precise when talking about changes you have made. Show
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things rather than describing them. Use exact filenames (relative to
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the main directory of the distribution), not partial ones. For
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example, say "I changed Makefile" rather than "I changed the
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makefile". Instead of saying "I defined the MUMBLE macro", send a
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diff.
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* Always use `diff -c' to make diffs. If you don't include context, it
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may be hard for me to figure out where you propose to make the
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changes. So I might have to ignore your patch.
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* When you write a fix, keep in mind that I can't install a change
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that *might* break other systems without the risk that it will fail to
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work and therefore require an additional cycle of pretesting.
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People often suggest fixing a problem by changing config.h or
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src/ymakefile or even src/Makefile to do something special that a
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particular system needs. Sometimes it is totally obvious that such
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changes would break Emacs for almost all users. I can't possibly make
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a change like that. All I can do is send it back to you and ask you
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to find a fix that is safe to install.
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Sometimes people send fixes that *might* be an improvement in
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general--but it is hard to be sure of this. I can install such
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changes some of the time, but not during pretest, when I am trying to
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get a new version to work reliably as quickly as possible.
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The safest changes for me to install are changes to the s- and m-
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files. At least I know those can't affect most systems.
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Another safe kind of change is one that uses a conditional to make
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sure it will apply only to a particular kind of system. Ordinarily,
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that is a bad way to solve a problem, and I would want to find a
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cleaner alternative. But the virtue of safety can make it superior at
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pretest time.
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* Don't try changing Emacs *in any way* unless it fails to work unchanged.
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* Don't even suggest changes to add features or make something
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cleaner. Every change I install could introduce a bug, so I won't
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install a change during pretest unless I see it is *necessary*.
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* If you would like to suggest changes for purposes other than fixing
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user-visible bugs, don't wait till pretest time. Instead, send them
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after I have made a release that proves to be stable. Then I can give
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your suggestions proper consideration. If you send them at pretest
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time, I will have to defer them till later, and that might mean I
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forget all about them.
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* In some cases, if you don't follow these guidelines, your
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information might still be useful, but I might have to do more work to
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make use of it. Unfortunately, I am so far behind in my work that I
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just can't keep up unless you help me to do it efficiently.
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Some suggestions for debugging on MS Windows:
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Marc Fleischeuers, Geoff Voelker and Andrew Innes
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To debug emacs with Microsoft Visual C++, you either start emacs from
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the debugger or attach the debugger to a running emacs process. To
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start emacs from the debugger, you can use the file bin/debug.bat. The
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Microsoft Developer studio will start and under Project, Settings,
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Debug, General you can set the command-line arguments and emacs'
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startup directory. Set breakpoints (Edit, Breakpoints) at Fsignal and
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other functions that you want to examine. Run the program (Build,
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Start debug). Emacs will start and the debugger will take control as
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soon as a breakpoint is hit.
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You can also attach the debugger to an already running emacs process.
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To do this, start up the Microsoft Developer studio and select Build,
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Start debug, Attach to process. Choose the emacs process from the
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list. Send a break to the running process (Debug, Break) and you will
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find that execution is halted somewhere in user32.dll. Open the stack
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trace window and go up the stack to w32_msg_pump. Now you can set
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breakpoints in emacs (Edit, Breakpoints). Continue the running emacs
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process (Debug, Step out) and control will return to emacs, until a
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breakpoint is hit.
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To examine the contents of a lisp variable, you can use the function
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'debug_print'. Right-click on a variable, select QuickWatch, and
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place 'debug_print(' and ')' around the expression. Press
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'Recalculate' and the output is sent to the 'Debug' pane in the Output
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window. If emacs was started from the debugger, a console window was
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opened at emacs' startup; this console window also shows the output of
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'debug_print'. It is also possible to keep appropriately masked and
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typecast lisp symbols in the Watch window, this is more convenient
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when steeping though the code. For instance, on entering
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apply_lambda, you can watch (struct Lisp_Symbol *) (0xfffffff &
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args[0]).
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Local Variables:
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mode: text
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End:
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# arch-tag: caf47b2c-b56b-44f7-a760-b5bfbed15fd3
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