X-Git-Url: https://code.delx.au/gnu-emacs/blobdiff_plain/bfe721d172158ccdcd925e55f5a658421ca0d4fe..73e60f534c975124124973b03fa76072a769b6c6:/lispref/debugging.texi diff --git a/lispref/debugging.texi b/lispref/debugging.texi index 6775323049..9c0fa9bc86 100644 --- a/lispref/debugging.texi +++ b/lispref/debugging.texi @@ -1,9 +1,10 @@ @c -*-texinfo-*- @c This is part of the GNU Emacs Lisp Reference Manual. -@c Copyright (C) 1990, 1991, 1992, 1993, 1994 Free Software Foundation, Inc. +@c Copyright (C) 1990, 1991, 1992, 1993, 1994, 1998, 1999, 2002, 2003, 2004, +@c 2005 Free Software Foundation, Inc. @c See the file elisp.texi for copying conditions. @setfilename ../info/debugging -@node Debugging, Read and Print, Byte Compilation, Top +@node Debugging, Read and Print, Advising Functions, Top @chapter Debugging Lisp Programs There are three ways to investigate a problem in an Emacs Lisp program, @@ -12,8 +13,9 @@ depending on what you are doing with the program when the problem appears. @itemize @bullet @item If the problem occurs when you run the program, you can use a Lisp -debugger (either the default debugger or Edebug) to investigate what is -happening during execution. +debugger to investigate what is happening during execution. In addition +to the ordinary debugger, Emacs comes with a source-level debugger, +Edebug. This chapter describes both of them. @item If the problem is syntactic, so that Lisp cannot even read the program, @@ -26,9 +28,10 @@ compiler, you need to know how to examine the compiler's input buffer. @menu * Debugger:: How the Emacs Lisp debugger is implemented. +* Edebug:: A source-level Emacs Lisp debugger. * Syntax Errors:: How to find syntax errors. +* Test Coverage:: Ensuring you have tested all branches in your code. * Compilation Errors:: How to find errors that show up in byte compilation. -* Edebug:: A source-level Emacs Lisp debugger. @end menu Another useful debugging tool is the dribble file. When a dribble @@ -45,13 +48,13 @@ Afterward, you can examine the file to find out what input was used. @cindex Lisp debugger @cindex break - The @dfn{Lisp debugger} provides the ability to suspend evaluation of -a form. While evaluation is suspended (a state that is commonly known -as a @dfn{break}), you may examine the run time stack, examine the -values of local or global variables, or change those values. Since a -break is a recursive edit, all the usual editing facilities of Emacs are -available; you can even run programs that will enter the debugger -recursively. @xref{Recursive Editing}. + The ordinary @dfn{Lisp debugger} provides the ability to suspend +evaluation of a form. While evaluation is suspended (a state that is +commonly known as a @dfn{break}), you may examine the run time stack, +examine the values of local or global variables, or change those values. +Since a break is a recursive edit, all the usual editing facilities of +Emacs are available; you can even run programs that will enter the +debugger recursively. @xref{Recursive Editing}. @menu * Error Debugging:: Entering the debugger when an error happens. @@ -74,42 +77,93 @@ happens. This allows you to investigate the immediate causes of the error. However, entry to the debugger is not a normal consequence of an -error. Many commands frequently get Lisp errors when invoked in -inappropriate contexts (such as @kbd{C-f} at the end of the buffer) and -during ordinary editing it would be very unpleasant to enter the -debugger each time this happens. If you want errors to enter the -debugger, set the variable @code{debug-on-error} to non-@code{nil}. +error. Many commands frequently cause Lisp errors when invoked +inappropriately (such as @kbd{C-f} at the end of the buffer), and during +ordinary editing it would be very inconvenient to enter the debugger +each time this happens. So if you want errors to enter the debugger, set +the variable @code{debug-on-error} to non-@code{nil}. (The command +@code{toggle-debug-on-error} provides an easy way to do this.) @defopt debug-on-error This variable determines whether the debugger is called when an error is signaled and not handled. If @code{debug-on-error} is @code{t}, all -errors call the debugger. If it is @code{nil}, none call the debugger. +kinds of errors call the debugger (except those listed in +@code{debug-ignored-errors}). If it is @code{nil}, none call the +debugger. The value can also be a list of error conditions that should call the debugger. For example, if you set it to the list @code{(void-variable)}, then only errors about a variable that has no value invoke the debugger. -When this variable is non-@code{nil}, Emacs does not catch errors that -happen in process filter functions and sentinels. Therefore, these -errors also can invoke the debugger. @xref{Processes}. +When this variable is non-@code{nil}, Emacs does not create an error +handler around process filter functions and sentinels. Therefore, +errors in these functions also invoke the debugger. @xref{Processes}. +@end defopt + +@defopt debug-ignored-errors +This variable specifies certain kinds of errors that should not enter +the debugger. Its value is a list of error condition symbols and/or +regular expressions. If the error has any of those condition symbols, +or if the error message matches any of the regular expressions, then +that error does not enter the debugger, regardless of the value of +@code{debug-on-error}. + +The normal value of this variable lists several errors that happen often +during editing but rarely result from bugs in Lisp programs. However, +``rarely'' is not ``never''; if your program fails with an error that +matches this list, you will need to change this list in order to debug +the error. The easiest way is usually to set +@code{debug-ignored-errors} to @code{nil}. @end defopt - To debug an error that happens during loading of the @file{.emacs} -file, use the option @samp{-debug-init}, which binds -@code{debug-on-error} to @code{t} while @file{.emacs} is loaded and -inhibits use of @code{condition-case} to catch init file errors. +@defopt eval-expression-debug-on-error +If this variable has a non-@code{nil} value, then +@code{debug-on-error} is set to @code{t} when evaluating with the +command @code{eval-expression}. If +@code{eval-expression-debug-on-error} is @code{nil}, then the value of +@code{debug-on-error} is not changed. @xref{Lisp Eval,, Evaluating +Emacs-Lisp Expressions, emacs, The GNU Emacs Manual}. +@end defopt + +@defopt debug-on-signal +Normally, errors that are caught by @code{condition-case} never run the +debugger, even if @code{debug-on-error} is non-@code{nil}. In other +words, @code{condition-case} gets a chance to handle the error before +the debugger gets a chance. + +If you set @code{debug-on-signal} to a non-@code{nil} value, then the +debugger gets the first chance at every error; an error will invoke the +debugger regardless of any @code{condition-case}, if it fits the +criteria specified by the values of @code{debug-on-error} and +@code{debug-ignored-errors}. + +@strong{Warning:} This variable is strong medicine! Various parts of +Emacs handle errors in the normal course of affairs, and you may not +even realize that errors happen there. If you set +@code{debug-on-signal} to a non-@code{nil} value, those errors will +enter the debugger. + +@strong{Warning:} @code{debug-on-signal} has no effect when +@code{debug-on-error} is @code{nil}. +@end defopt - If your @file{.emacs} file sets @code{debug-on-error}, the effect may -not last past the end of loading @file{.emacs}. (This is an undesirable -byproduct of the code that implements the @samp{-debug-init} command -line option.) The best way to make @file{.emacs} set + To debug an error that happens during loading of the init +file, use the option @samp{--debug-init}. This binds +@code{debug-on-error} to @code{t} while loading the init file, and +bypasses the @code{condition-case} which normally catches errors in the +init file. + + If your init file sets @code{debug-on-error}, the effect may +not last past the end of loading the init file. (This is an undesirable +byproduct of the code that implements the @samp{--debug-init} command +line option.) The best way to make the init file set @code{debug-on-error} permanently is with @code{after-init-hook}, like this: @example (add-hook 'after-init-hook - '(lambda () (setq debug-on-error t))) + (lambda () (setq debug-on-error t))) @end example @node Infinite Loops @@ -121,7 +175,7 @@ this: When a program loops infinitely and fails to return, your first problem is to stop the loop. On most operating systems, you can do this -with @kbd{C-g}, which causes quit. +with @kbd{C-g}, which causes a @dfn{quit}. Ordinary quitting gives no information about why the program was looping. To get more information, you can set the variable @@ -156,26 +210,31 @@ called shortly before the problem, step quickly over the call to that function, and then step through its caller. @deffn Command debug-on-entry function-name - This function requests @var{function-name} to invoke the debugger each time -it is called. It works by inserting the form @code{(debug 'debug)} into -the function definition as the first form. - - Any function defined as Lisp code may be set to break on entry, -regardless of whether it is interpreted code or compiled code. If the -function is a command, it will enter the debugger when called from Lisp -and when called interactively (after the reading of the arguments). You -can't debug primitive functions (i.e., those written in C) this way. - - When @code{debug-on-entry} is called interactively, it prompts -for @var{function-name} in the minibuffer. - - If the function is already set up to invoke the debugger on entry, -@code{debug-on-entry} does nothing. - - @strong{Note:} if you redefine a function after using -@code{debug-on-entry} on it, the code to enter the debugger is lost. - - @code{debug-on-entry} returns @var{function-name}. +This function requests @var{function-name} to invoke the debugger each +time it is called. It works by inserting the form +@code{(implement-debug-on-entry)} into the function definition as the +first form. + +Any function or macro defined as Lisp code may be set to break on +entry, regardless of whether it is interpreted code or compiled code. +If the function is a command, it will enter the debugger when called +from Lisp and when called interactively (after the reading of the +arguments). You can also set debug-on-entry for primitive functions +(i.e., those written in C) this way, but it only takes effect when the +primitive is called from Lisp code. Debug-on-entry is not allowed for +special forms. + +When @code{debug-on-entry} is called interactively, it prompts for +@var{function-name} in the minibuffer. If the function is already set +up to invoke the debugger on entry, @code{debug-on-entry} does nothing. +@code{debug-on-entry} always returns @var{function-name}. + +@strong{Warning:} if you redefine a function after using +@code{debug-on-entry} on it, the code to enter the debugger is +discarded by the redefinition. In effect, redefining the function +cancels the break-on-entry feature for that function. + +Here's an example to illustrate use of this function: @example @group @@ -194,14 +253,12 @@ for @var{function-name} in the minibuffer. @group ------ Buffer: *Backtrace* ------ -Entering: +Debugger entered--entering a function: * fact(3) - eval-region(4870 4878 t) - byte-code("...") + eval((fact 3)) + eval-last-sexp-1(nil) eval-last-sexp(nil) - (let ...) - eval-insert-last-sexp(nil) -* call-interactively(eval-insert-last-sexp) + call-interactively(eval-last-sexp) ------ Buffer: *Backtrace* ------ @end group @@ -214,15 +271,13 @@ Entering: @end example @end deffn -@deffn Command cancel-debug-on-entry function-name +@deffn Command cancel-debug-on-entry &optional function-name This function undoes the effect of @code{debug-on-entry} on @var{function-name}. When called interactively, it prompts for @var{function-name} in the minibuffer. If @var{function-name} is -@code{nil} or the empty string, it cancels debugging for all functions. - -If @code{cancel-debug-on-entry} is called more than once on the same -function, the second call does nothing. @code{cancel-debug-on-entry} -returns @var{function-name}. +omitted or @code{nil}, it cancels break-on-entry for all functions. +Calling @code{cancel-debug-on-entry} does nothing to a function which is +not currently set up to break on entry. @end deffn @node Explicit Debug @@ -231,8 +286,9 @@ returns @var{function-name}. You can cause the debugger to be called at a certain point in your program by writing the expression @code{(debug)} at that point. To do this, visit the source file, insert the text @samp{(debug)} at the -proper place, and type @kbd{C-M-x}. Be sure to undo this insertion -before you save the file! +proper place, and type @kbd{C-M-x} (@code{eval-defun}, a Lisp mode key +binding). @strong{Warning:} if you do this for temporary debugging +purposes, be sure to undo this insertion before you save the file! The place where you insert @samp{(debug)} must be a place where an additional form can be evaluated and its value ignored. (If the value @@ -269,31 +325,33 @@ moving point to the line describing that frame. (A stack frame is the place where the Lisp interpreter records information about a particular invocation of a function.) The frame whose line point is on is considered the @dfn{current frame}. Some of the debugger commands -operate on the current frame. +operate on the current frame. If a line starts with a star, that means +that exiting that frame will call the debugger again. This is useful +for examining the return value of a function. + + If a function name is underlined, that means the debugger knows +where its source code is located. You can click @kbd{Mouse-2} on that +name, or move to it and type @key{RET}, to visit the source code. The debugger itself must be run byte-compiled, since it makes assumptions about how many stack frames are used for the debugger itself. These assumptions are false if the debugger is running interpreted. -@need 3000 - @node Debugger Commands @subsection Debugger Commands @cindex debugger command list - Inside the debugger (in Debugger mode), these special commands are -available in addition to the usual cursor motion commands. (Keep in -mind that all the usual facilities of Emacs, such as switching windows -or buffers, are still available.) - - The most important use of debugger commands is for stepping through -code, so that you can see how control flows. The debugger can step -through the control structures of an interpreted function, but cannot do -so in a byte-compiled function. If you would like to step through a -byte-compiled function, replace it with an interpreted definition of the -same function. (To do this, visit the source file for the function and -type @kbd{C-M-x} on its definition.) + The debugger buffer (in Debugger mode) provides special commands in +addition to the usual Emacs commands. The most important use of +debugger commands is for stepping through code, so that you can see +how control flows. The debugger can step through the control +structures of an interpreted function, but cannot do so in a +byte-compiled function. If you would like to step through a +byte-compiled function, replace it with an interpreted definition of +the same function. (To do this, visit the source for the function and +type @kbd{C-M-x} on its definition.) You cannot use the Lisp debugger +to step through a primitive function. Here is a list of Debugger mode commands: @@ -301,8 +359,8 @@ type @kbd{C-M-x} on its definition.) @item c Exit the debugger and continue execution. When continuing is possible, it resumes execution of the program as if the debugger had never been -entered (aside from the effect of any variables or data structures you -may have changed while inside the debugger). +entered (aside from any side-effects that you caused by changing +variable values or data structures while inside the debugger). Continuing is possible after entry to the debugger due to function entry or exit, explicit invocation, or quitting. You cannot continue if the @@ -326,16 +384,26 @@ in the backtrace buffer. @item u Don't enter the debugger when the current frame is exited. This -cancels a @kbd{b} command on that frame. +cancels a @kbd{b} command on that frame. The visible effect is to +remove the star from the line in the backtrace buffer. + +@item j +Flag the current frame like @kbd{b}. Then continue execution like +@kbd{c}, but temporarily disable break-on-entry for all functions that +are set up to do so by @code{debug-on-entry}. @item e Read a Lisp expression in the minibuffer, evaluate it, and print the value in the echo area. The debugger alters certain important variables, and the current buffer, as part of its operation; @kbd{e} -temporarily restores their outside-the-debugger values so you can -examine them. This makes the debugger more transparent. By contrast, -@kbd{M-:} does nothing special in the debugger; it shows you the -variable values within the debugger. +temporarily restores their values from outside the debugger, so you can +examine and change them. This makes the debugger more transparent. By +contrast, @kbd{M-:} does nothing special in the debugger; it shows you +the variable values within the debugger. + +@item R +Like @kbd{e}, but also save the result of evaluation in the +buffer @samp{*Debugger-record*}. @item q Terminate the program being debugged; return to top-level Emacs @@ -349,19 +417,27 @@ Return a value from the debugger. The value is computed by reading an expression with the minibuffer and evaluating it. The @kbd{r} command is useful when the debugger was invoked due to exit -from a Lisp call frame (as requested with @kbd{b}); then the value -specified in the @kbd{r} command is used as the value of that frame. It -is also useful if you call @code{debug} and use its return value. -Otherwise, @kbd{r} has the same effect as @kbd{c}, and the specified -return value does not matter. +from a Lisp call frame (as requested with @kbd{b} or by entering the +frame with @kbd{d}); then the value specified in the @kbd{r} command is +used as the value of that frame. It is also useful if you call +@code{debug} and use its return value. Otherwise, @kbd{r} has the same +effect as @kbd{c}, and the specified return value does not matter. You can't use @kbd{r} when the debugger was entered due to an error. + +@item l +Display a list of functions that will invoke the debugger when called. +This is a list of functions that are set to break on entry by means of +@code{debug-on-entry}. @strong{Warning:} if you redefine such a +function and thus cancel the effect of @code{debug-on-entry}, it may +erroneously show up in this list. @end table @node Invoking the Debugger @subsection Invoking the Debugger - Here we describe fully the function used to invoke the debugger. + Here we describe in full detail the function @code{debug} that is used +to invoke the debugger. @defun debug &rest debugger-args This function enters the debugger. It switches buffers to a buffer @@ -370,62 +446,59 @@ recursive entry to the debugger, etc.), and fills it with information about the stack of Lisp function calls. It then enters a recursive edit, showing the backtrace buffer in Debugger mode. -The Debugger mode @kbd{c} and @kbd{r} commands exit the recursive edit; -then @code{debug} switches back to the previous buffer and returns to -whatever called @code{debug}. This is the only way the function -@code{debug} can return to its caller. +The Debugger mode @kbd{c}, @kbd{d}, @kbd{j}, and @kbd{r} commands exit +the recursive edit; then @code{debug} switches back to the previous +buffer and returns to whatever called @code{debug}. This is the only +way the function @code{debug} can return to its caller. -If the first of the @var{debugger-args} passed to @code{debug} is -@code{nil} (or if it is not one of the special values in the table -below), then @code{debug} displays the rest of its arguments at the -top of the @samp{*Backtrace*} buffer. This mechanism is used to display -a message to the user. +The use of the @var{debugger-args} is that @code{debug} displays the +rest of its arguments at the top of the @samp{*Backtrace*} buffer, so +that the user can see them. Except as described below, this is the +@emph{only} way these arguments are used. -However, if the first argument passed to @code{debug} is one of the -following special values, then it has special significance. Normally, -these values are passed to @code{debug} only by the internals of Emacs -and the debugger, and not by programmers calling @code{debug}. - -The special values are: +However, certain values for first argument to @code{debug} have a +special significance. (Normally, these values are used only by the +internals of Emacs, and not by programmers calling @code{debug}.) Here +is a table of these special values: @table @code @item lambda @cindex @code{lambda} in debug -A first argument of @code{lambda} means @code{debug} was called because -of entry to a function when @code{debug-on-next-call} was -non-@code{nil}. The debugger displays @samp{Entering:} as a line of -text at the top of the buffer. +A first argument of @code{lambda} means @code{debug} was called +because of entry to a function when @code{debug-on-next-call} was +non-@code{nil}. The debugger displays @samp{Debugger +entered--entering a function:} as a line of text at the top of the +buffer. @item debug -@code{debug} as first argument indicates a call to @code{debug} because +@code{debug} as first argument means @code{debug} was called because of entry to a function that was set to debug on entry. The debugger -displays @samp{Entering:}, just as in the @code{lambda} case. It also -marks the stack frame for that function so that it will invoke the -debugger when exited. +displays the string @samp{Debugger entered--entering a function:}, +just as in the @code{lambda} case. It also marks the stack frame for +that function so that it will invoke the debugger when exited. @item t When the first argument is @code{t}, this indicates a call to -@code{debug} due to evaluation of a list form when -@code{debug-on-next-call} is non-@code{nil}. The debugger displays the -following as the top line in the buffer: - -@smallexample -Beginning evaluation of function call form: -@end smallexample +@code{debug} due to evaluation of a function call form when +@code{debug-on-next-call} is non-@code{nil}. The debugger displays +@samp{Debugger entered--beginning evaluation of function call form:} +as the top line in the buffer. @item exit When the first argument is @code{exit}, it indicates the exit of a stack frame previously marked to invoke the debugger on exit. The second argument given to @code{debug} in this case is the value being -returned from the frame. The debugger displays @samp{Return value:} on -the top line of the buffer, followed by the value being returned. +returned from the frame. The debugger displays @samp{Debugger +entered--returning value:} in the top line of the buffer, followed by +the value being returned. @item error @cindex @code{error} in debug When the first argument is @code{error}, the debugger indicates that -it is being entered because an error or @code{quit} was signaled and not -handled, by displaying @samp{Signaling:} followed by the error signaled -and any arguments to @code{signal}. For example, +it is being entered because an error or @code{quit} was signaled and +not handled, by displaying @samp{Debugger entered--Lisp error:} +followed by the error signaled and any arguments to @code{signal}. +For example, @example @group @@ -435,7 +508,7 @@ and any arguments to @code{signal}. For example, @group ------ Buffer: *Backtrace* ------ -Signaling: (arith-error) +Debugger entered--Lisp error: (arith-error) /(1 0) ... ------ Buffer: *Backtrace* ------ @@ -463,14 +536,14 @@ debugger. @defvar debugger The value of this variable is the function to call to invoke the -debugger. Its value must be a function of any number of arguments (or, -more typically, the name of a function). Presumably this function will -enter some kind of debugger. The default value of the variable is +debugger. Its value must be a function of any number of arguments, or, +more typically, the name of a function. This function should invoke +some kind of debugger. The default value of the variable is @code{debug}. The first argument that Lisp hands to the function indicates why it was called. The convention for arguments is detailed in the description -of @code{debug}. +of @code{debug} (@pxref{Invoking the Debugger}). @end defvar @deffn Command backtrace @@ -484,11 +557,13 @@ value is always @code{nil}. In the following example, a Lisp expression calls @code{backtrace} explicitly. This prints the backtrace to the stream -@code{standard-output}: in this case, to the buffer -@samp{backtrace-output}. Each line of the backtrace represents one -function call. The line shows the values of the function's arguments if -they are all known. If they are still being computed, the line says so. -The arguments of special forms are elided. +@code{standard-output}, which, in this case, is the buffer +@samp{backtrace-output}. + +Each line of the backtrace represents one function call. The line shows +the values of the function's arguments if they are all known; if they +are still being computed, the line says so. The arguments of special +forms are elided. @smallexample @group @@ -499,29 +574,28 @@ The arguments of special forms are elided. (1+ var) (list 'testing (backtrace)))))))) - @result{} nil + @result{} (testing nil) @end group @group ----------- Buffer: backtrace-output ------------ backtrace() (list ...computing arguments...) +@end group (progn ...) eval((progn (1+ var) (list (quote testing) (backtrace)))) (setq ...) (save-excursion ...) (let ...) (with-output-to-temp-buffer ...) - eval-region(1973 2142 #) - byte-code("... for eval-print-last-sexp ...") - eval-print-last-sexp(nil) -* call-interactively(eval-print-last-sexp) + eval((with-output-to-temp-buffer ...)) + eval-last-sexp-1(nil) +@group + eval-last-sexp(nil) + call-interactively(eval-last-sexp) ----------- Buffer: backtrace-output ------------ @end group @end smallexample - -The character @samp{*} indicates a frame whose debug-on-exit flag is -set. @end deffn @ignore @c Not worth mentioning @@ -568,11 +642,12 @@ This function is used only by the debugger. This variable records the debugging status of the current interactive command. Each time a command is called interactively, this variable is bound to @code{nil}. The debugger can set this variable to leave -information for future debugger invocations during the same command. +information for future debugger invocations during the same command +invocation. -The advantage, for the debugger, of using this variable rather than -another global variable is that the data will never carry over to a -subsequent command invocation. +The advantage of using this variable rather than an ordinary global +variable is that the data will never carry over to a subsequent command +invocation. @end defvar @defun backtrace-frame frame-number @@ -580,11 +655,11 @@ The function @code{backtrace-frame} is intended for use in Lisp debuggers. It returns information about what computation is happening in the stack frame @var{frame-number} levels down. -If that frame has not evaluated the arguments yet (or is a special -form), the value is @code{(nil @var{function} @var{arg-forms}@dots{})}. +If that frame has not evaluated the arguments yet, or is a special +form, the value is @code{(nil @var{function} @var{arg-forms}@dots{})}. If that frame has evaluated its arguments and called its function -already, the value is @code{(t @var{function} +already, the return value is @code{(t @var{function} @var{arg-values}@dots{})}. In the return value, @var{function} is whatever was supplied as the @@ -596,6 +671,8 @@ If @var{frame-number} is out of range, @code{backtrace-frame} returns @code{nil}. @end defun +@include edebug.texi + @node Syntax Errors @section Debugging Invalid Lisp Syntax @@ -614,7 +691,9 @@ if it goes to the place where that defun appears to end. If it does not, there is a problem in that defun. However, unmatched parentheses are the most common syntax errors in -Lisp, and we can give further advice for those cases. +Lisp, and we can give further advice for those cases. (In addition, +just moving point through the code with Show Paren mode enabled might +find the mismatch.) @menu * Excess Open:: How to find a spurious open paren or missing close. @@ -625,18 +704,16 @@ Lisp, and we can give further advice for those cases. @subsection Excess Open Parentheses The first step is to find the defun that is unbalanced. If there is -an excess open parenthesis, the way to do this is to insert a -close parenthesis at the end of the file and type @kbd{C-M-b} -(@code{backward-sexp}). This will move you to the beginning of the -defun that is unbalanced. (Then type @kbd{C-@key{SPC} C-_ C-u -C-@key{SPC}} to set the mark there, undo the insertion of the -close parenthesis, and finally return to the mark.) +an excess open parenthesis, the way to do this is to go to the end of +the file and type @kbd{C-u C-M-u}. This will move you to the +beginning of the first defun that is unbalanced. The next step is to determine precisely what is wrong. There is no -way to be sure of this except to study the program, but often the +way to be sure of this except by studying the program, but often the existing indentation is a clue to where the parentheses should have been. The easiest way to use this clue is to reindent with @kbd{C-M-q} -and see what moves. +and see what moves. @strong{But don't do this yet!} Keep reading, +first. Before you do this, make sure the defun has enough close parentheses. Otherwise, @kbd{C-M-q} will get an error, or will reindent all the rest @@ -660,14 +737,12 @@ anything. @node Excess Close @subsection Excess Close Parentheses - To deal with an excess close parenthesis, first insert an open -parenthesis at the beginning of the file, back up over it, and type -@kbd{C-M-f} to find the end of the unbalanced defun. (Then type -@kbd{C-@key{SPC} C-_ C-u C-@key{SPC}} to set the mark there, undo the -insertion of the open parenthesis, and finally return to the mark.) + To deal with an excess close parenthesis, first go to the beginning +of the file, then type @kbd{C-u -1 C-M-u} to find the end of the first +unbalanced defun. Then find the actual matching close parenthesis by typing @kbd{C-M-f} -at the beginning of the defun. This will leave you somewhere short of +at the beginning of that defun. This will leave you somewhere short of the place where the defun ought to end. It is possible that you will find a spurious close parenthesis in that vicinity. @@ -680,11 +755,48 @@ found the discrepancy, undo the @kbd{C-M-q} with @kbd{C-_}, since the old indentation is probably appropriate to the intended parentheses. After you think you have fixed the problem, use @kbd{C-M-q} again. If -the old indentation actually fit the intended nesting of parentheses, +the old indentation actually fits the intended nesting of parentheses, and you have put back those parentheses, @kbd{C-M-q} should not change anything. -@node Compilation Errors, Edebug, Syntax Errors, Debugging +@node Test Coverage +@section Test Coverage +@cindex coverage testing + +@findex testcover-start +@findex testcover-mark-all +@findex testcover-next-mark + You can do coverage testing for a file of Lisp code by loading the +@code{testcover} library and using the command @kbd{M-x +testcover-start @key{RET} @var{file} @key{RET}} to instrument the +code. Then test your code by calling it one or more times. Then use +the command @kbd{M-x testcover-mark-all} to display colored highlights +on the code to show where coverage is insufficient. The command +@kbd{M-x testcover-next-mark} will move point forward to the next +highlighted spot. + + Normally, a red highlight indicates the form was never completely +evaluated; a brown highlight means it always evaluated to the same +value (meaning there has been little testing of what is done with the +result). However, the red highlight is skipped for forms that can't +possibly complete their evaluation, such as @code{error}. The brown +highlight is skipped for forms that are expected to always evaluate to +the same value, such as @code{(setq x 14)}. + + For difficult cases, you can add do-nothing macros to your code to +give advice to the test coverage tool. + +@defmac 1value form +Evaluate @var{form} and return its value, but inform coverage testing +that @var{form}'s value should always be the same. +@end defmac + +@defmac noreturn form +Evaluate @var{form}, informing coverage testing that @var{form} should +never return. If it ever does return, you get a run-time error. +@end defmac + +@node Compilation Errors @section Debugging Problems in Compilation When an error happens during byte compilation, it is normally due to @@ -709,4 +821,6 @@ successfully, then point is located at the end of the form. In this case, this technique can't localize the error precisely, but can still show you which function to check. -@include edebug.texi +@ignore + arch-tag: ddc57378-b0e6-4195-b7b6-43f8777395a7 +@end ignore