- Reference manual
- Built-in Predicates
- Notation of Predicate Descriptions
- Character representation
- Loading Prolog source files
- Editor Interface
- List the program, predicates or clauses
- Verify Type of a Term
- Comparison and Unification of Terms
- Control Predicates
- Meta-Call Predicates
- Delimited continuations
- Exception handling
- Handling signals
- DCG Grammar rules
- Declaring predicate properties
- Examining the program
- Input and output
- Status of streams
- Primitive character I/O
- Term reading and writing
- Analysing and Constructing Terms
- Analysing and Constructing Atoms
- Localization (locale) support
- Character properties
- Character Conversion
- Misc arithmetic support predicates
- Built-in list operations
- Finding all Solutions to a Goal
- Formatted Write
- Global variables
- Terminal Control
- Operating System Interaction
- File System Interaction
- User Top-level Manipulation
- Creating a Protocol of the User Interaction
- Debugging and Tracing Programs
- Obtaining Runtime Statistics
- Execution profiling
- Memory Management
- Windows DDE interface
- Built-in Predicates
- Reference manual
This section is a reference to the debugger interaction predicates. A more use-oriented overview of the debugger is in section 2.9.
If you have installed XPCE, you can use the graphical front-end of the tracer. This front-end is installed using the predicate guitracer/0.
- Start the tracer. trace/0 itself cannot be seen in the tracer. Note that the Prolog top level treats trace/0 special; it means `trace the next goal'.
- True if the tracer is currently switched on. tracing/0 itself cannot be seen in the tracer.
- Stop the tracer. notrace/0 itself cannot be seen in the tracer.
- Installs hooks (see prolog_trace_interception/4) into the system that redirect tracing information to a GUI front-end providing structured access to variable bindings, graphical overview of the stack and highlighting of relevant source code.
- Revert back to the textual tracer.
- Equivalent to
- trace(+Pred, +Ports)
- Put a trace point on all predicates satisfying the predicate
Pred. Ports is a list of port names (
fail). The atom
allrefers to all ports. If the port is preceded by a
sign, the trace point is cleared for the port. If it is preceded by a
, the trace point is set.
The predicate trace/2 activates debug mode (see debug/0). Each time a port (of the 4-port model) is passed that has a trace point set, the goal is printed as with trace/0. Unlike trace/0, however, the execution is continued without asking for further information. Examples:
Trace all ports of hello with any arity in any module.
?- trace(foo/2, +fail).
Trace failures of foo/2 in any module.
?- trace(bar/1, -all).
Stop tracing bar/1.
The predicate debugging/0 shows all currently defined trace points.
- Call Goal, but suspend the debugger while Goal is executing. The current implementation cuts the choice points of Goal after successful completion. See once/1. Later implementations may have the same semantics as call/1.
- Start debugger. In debug mode, Prolog stops at spy and trace points,
disables last-call optimisation and aggressive destruction of choice
points to make debugging information accessible. Implemented by the
Prolog flag debug.
Note that the
min_freeparameter of all stacks is enlarged to 8 K cells if debugging is switched off in order to avoid excessive GC. GC complicates tracing because it renames the _G<NNN> variables and replaces unreachable variables with the atom
<garbage_collected>. Calling nodebug/0 does not reset the initial free-margin because several parts of the top level and debugger disable debugging of system code regions. See also set_prolog_stack/2.
- Stop debugger. Implemented by the Prolog flag debug. See also debug/0.
- Print debug status and spy points on current output stream. See also the Prolog flag debug.
- Put a spy point on all predicates meeting the predicate specification Pred. See section 4.5.
- Remove spy point from all predicates meeting the predicate specification Pred.
- Remove all spy points from the entire program.
- Set/query leashing (ports which allow for user interaction). Ports
is one of +Name, -Name, ?Name or a list
+Name enables leashing on that port, -Name
disables it and
?Name succeeds or fails according to the current setting.
Recognised ports are
unify. The special shorthand
allrefers to all ports,
fullrefers to all ports except for the unify port (default).
halfrefers to the
- Set the ports shown by the debugger. See leash/1
for a description of the Ports specification. Default is
- unknown(-Old, +New)
- Edinburgh-Prolog compatibility predicate, interfacing to the ISO Prolog
flag unknown. Values
fail. If the unknown flag is set to
warning, unknown/2 reports the value as
- Modify/query style checking options. Spec is one of the terms
below or a list of these.
- +Style enables a style check
- -Style disables a style check
- ?(Style) queries a style check (note the brackets). If Style is unbound, all active style check options are returned on backtracking.
Loading a file using load_files/2 or one of its derived predicates reset the style checking options to their value before loading the file, scoping the option to the remainder of the file and all files loaded after changing the style checking.
- The predicate read_clause/3 (used by the compiler to read source code) warns on variables appearing only once in a term (clause) which have a name not starting with an underscore. See section 220.127.116.11 for details on variable handling and warnings.
- This warning is generated by the compiler for BIPs (built-in predicates)
that are inlined by the compiler and for which the compiler can prove
that they are meaningless. An example is using ==/2
against a not-yet-initialised variable as illustrated in the example
below. This comparison is always
always_false(X) :- X == Y, write(Y).
- Verifies that if a variable is introduced in a branch and used
after the branch, it is introduced in all branches. This code
aims at bugs following the skeleton below, where
p(Next)may be called with Next unbound.
p(Arg) :- ( Cond -> Next = value1 ; true ), p(Next).
If a variable V is intended to be left unbound, one can use
V=_. This construct is removed by the compiler and thus has no implications for the performance of your program.
This check was suggested together with semantic singleton checking. The SWI-Prolog libraries contain about a hundred clauses that are triggered by this style check. Unlike semantic singleton analysis, only a tiny fraction of these clauses proofed faulty. In most cases, the branches failing to bind the variable fail or raise an exception or the caller handles the case where the variable is unbound. The status of this style check is unclear. It might be removed in the future or it might be enhanced with a deeper analysis to be more precise.
- The predicate read/1
and derived predicates produce an error message on quoted atoms or
strings with more than 6 unescaped newlines. Newlines may be
c. This flag also enables warnings on
<newline> followed by blank space in native mode. See section 18.104.22.168. Note that the ISO standard does not allow for unescaped newlines in quoted atoms.
- Warn if the clauses for a predicate are not together in the same source file. It is advised to disable the warning for discontiguous predicates using the discontiguous/1 directive.
- Warn on atoms and variable names holding non-ASCII characters that are not quoted. See also section 22.214.171.124.