- swipl
- library
- error.pl
- debug.pl -- Print debug messages and test assertions
- apply.pl -- Apply predicates on a list
- lists.pl
- broadcast.pl
- predicate_options.pl
- shlib.pl
- option.pl -- Option list processing
- thread_pool.pl
- gensym.pl -- Generate unique symbols
- settings.pl -- Setting management
- arithmetic.pl -- Extensible arithmetic
- main.pl -- Provide entry point for scripts
- readutil.pl -- Read utilities
- operators.pl -- Manage operators
- pairs.pl -- Operations on key-value lists
- prolog_source.pl -- Examine Prolog source-files
- quasi_quotations.pl -- Define Quasi Quotation syntax
- url.pl -- Analysing and constructing URL
- www_browser.pl -- Open a URL in the users browser
- prolog_colour.pl -- Prolog syntax colouring support.
- record.pl -- Access compound arguments by name
- prolog_xref.pl -- Prolog cross-referencer data collection
- occurs.pl -- Finding and counting sub-terms
- ordsets.pl -- Ordered set manipulation
- assoc.pl -- Binary associations
- ugraphs.pl -- Graph manipulation library
- iostream.pl -- Utilities to deal with streams
- atom.pl -- Operations on atoms
- prolog_pack.pl -- A package manager for Prolog
- solution_sequences.pl -- Modify solution sequences
- git.pl -- Run GIT commands
- ctypes.pl -- Character code classification
- utf8.pl -- UTF-8 encoding/decoding on lists of character codes.
- base64.pl -- Base64 encoding and decoding
- persistency.pl -- Provide persistent dynamic predicates
- pure_input.pl -- Pure Input from files and streams
- nb_set.pl -- Non-backtrackable sets
- aggregate.pl -- Aggregation operators on backtrackable predicates
- csv.pl -- Process CSV (Comma-Separated Values) data
- dialect.pl -- Support multiple Prolog dialects
- apply_macros.pl -- Goal expansion rules to avoid meta-calling
- yall.pl -- Lambda expressions
- prolog_code.pl -- Utilities for reasoning about code
- dif.pl -- The dif/2 constraint
- thread.pl -- High level thread primitives
- rbtrees.pl -- Red black trees
- nb_rbtrees.pl -- Non-backtrackable operations on red black trees
- random.pl -- Random numbers
- sandbox.pl -- Sandboxed Prolog code
- prolog_format.pl -- Analyse format specifications
- pprint.pl -- Pretty Print Prolog terms
- modules.pl -- Module utility predicates
- lazy_lists.pl -- Lazy list handling
- edinburgh.pl -- Some traditional Edinburgh predicates
- prolog_clause.pl -- Get detailed source-information about a clause
- prolog_breakpoints.pl -- Manage Prolog break-points
- dicts.pl -- Dict utilities
- prolog_profile.pl -- Execution profiler
- backcomp.pl -- Backward compatibility
- date.pl -- Process dates and times
- listing.pl -- List programs and pretty print clauses
- quintus.pl -- Quintus compatibility
- terms.pl -- Term manipulation
- prolog_codewalk.pl -- Prolog code walker
- prolog_metainference.pl -- Infer meta-predicate properties
- prolog_jiti.pl -- Just In Time Indexing (JITI) utilities
- system.pl -- System utilities
- check.pl -- Consistency checking
- tables.pl -- XSB interface to tables
- prolog_debug.pl -- User level debugging tools
- optparse.pl -- command line parsing
- threadutil.pl -- Interactive thread utilities
- ansi_term.pl -- Print decorated text to ANSI consoles
- increval.pl -- Incremental dynamic predicate modification
- rwlocks.pl -- Read/write locks
- prolog_trace.pl -- Print access to predicates
- prolog_wrap.pl -- Wrapping predicates
- prolog_stack.pl -- Examine the Prolog stack
- statistics.pl -- Get information about resource usage
- portray_text.pl -- Portray text
- coinduction.pl -- Co-Logic Programming
- sort.pl
- heaps.pl -- heaps/priority queues
- tty.pl -- Terminal operations
- hashtable.pl -- Hash tables
- writef.pl -- Old-style formatted write
- files.pl
- explain.pl -- Describe Prolog Terms
- wfs.pl -- Well Founded Semantics interface
- base32.pl -- Base32 encoding and decoding
- charsio.pl -- I/O on Lists of Character Codes
- codesio.pl -- I/O on Lists of Character Codes
- varnumbers.pl -- Utilities for numbered terms
- when.pl -- Conditional coroutining
- oset.pl -- Ordered set manipulation
- help.pl -- Text based manual
- exceptions.pl -- Exception classification
- edit.pl -- Editor interface
- make.pl -- Reload modified source files
- zip.pl -- Access resource ZIP archives
- prolog_coverage.pl -- Coverage analysis tool
- intercept.pl -- Intercept and signal interface
- strings.pl -- String utilities
- fastrw.pl -- Fast reading and writing of terms
- qsave.pl -- Save current program as a state or executable
- prolog_autoload.pl -- Autoload all dependencies
- streams.pl -- Manage Prolog streams
- win_menu.pl -- Console window menu
- prolog_history.pl -- Per-directory persistent commandline history
- prolog_config.pl -- Provide configuration information
- shell.pl -- Elementary shell commands
- prolog_versions.pl -- Demand specific (Prolog) versions
- macros.pl -- Macro expansion
- library
- wrap_predicate(:Head, +Name, -Wrapped, +Body) is det
- Wrap the predicate referenced by Head using Body. Subsequent calls
to Head call the given Body term. Body may call the original
definition through Wrapped. Wrapped is a term of the shape below,
where Closure is an opaque blob.
call(Closure(A1, ...))
Name names the wrapper for inspection using predicate_property/2 or deletion using unwrap_predicate/2. If Head has a wrapper with Name the Body of the existing wrapper is updated without changing the order of the registered wrappers. The same predicate may be wrapped multiple times. Multiple wrappers are executed starting with the last registered (outermost).
The predicate referenced by Head does not need to be defined at the moment the wrapper is installed. If Head is undefined, the predicate is created instead of searched for using e.g., the auto loader.
Registered wrappers are not part of saved states (see qsave_program/2) and thus need to be re-registered, for example using initialization/1.
An example of using wrap_predicate/4 for computing GCD:
:- wrap_predicate(gcd(A,B,Gcd), gcd_wrap, W, gcd_wrap(W, A, B, Gcd)). gcd(X, Y, Gcd), X < Y => gcd(X, Y-X, Gcd). gcd(X, Y, Gcd), X > Y => gcd(Y, X-Y, Gcd). gcd(X, _, Gcd) => Gcd = X. gcd_wrap(call(Closure), X, Y, Gcd) :- functor(Closure, ClosureBlob, 3), X_eval is X, Y_eval is Y, call(ClosureBlob, X_eval, Y_eval, Gcd).or (less efficient):
gcd_wrap(call(Closure), X, Y, Gcd) :- functor(Closure, ClosureBlob, 3), call(ClosureBlob, X_eval, Y_eval, G), Gcd is G.