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<H2><A NAME="sec:1.1"><SPAN class="sec-nr">1.1</SPAN> <SPAN class="sec-title">SWI-Prolog</SPAN></A></H2>
<A NAME="sec:swiprolog"></A>
<P>SWI-Prolog started back in 1986 with the requirement for a Prolog
that could handle recursive interaction with the C-language: Prolog
calling C and C calling Prolog recursively. Those days Prolog systems
were very aware of its environment and we needed such a system to
support interactive applications. Since then, SWI-Prolog's development
has been guided by requests from the user community, especially
focussing on (in arbitrary order) interaction with the environment,
scalability, (I/O) performance, standard compliance, teaching and the
program development environment.
<P>SWI-Prolog is based on a very simple Prolog virtual machine called
ZIP
<CITE><A class="cite" href="Bibliography.html#Bowen:83">Bowen <EM>et al.</EM>,
1983</A>, <A class="cite" href="Bibliography.html#Neumerkel:93">Neumerkel,
1993</A></CITE> which defines only 7 instructions. Prolog can easily be
compiled into this language and the abstract machine code is easily
decompiled back into Prolog. As it is also possible to wire a standard
4-port debugger in the virtual machine there is no need for a
distinction between compiled and interpreted code. Besides simplifying
the design of the Prolog system itself this approach has advantages for
program development: the compiler is simple and fast, the user does not
have to decide in advance whether debugging is required and the system
only runs slightly slower when in debug mode. The price we have to pay
is some performance degradation (taking out the debugger from the VM
interpreter improves performance by about 20%) and somewhat additional
memory usage to help the decompiler and debugger.
<P>SWI-Prolog extends the minimal set of instructions described in
<CITE><A class="cite" href="Bibliography.html#Bowen:83">Bowen <EM>et al.</EM>,
1983</A></CITE> to improve performance. While extending this set care
has been taken to maintain the advantages of decompilation and tracing
of compiled code. The extensions include specialised instructions for
unification, predicate invocation, some frequently used built-in
predicates, arithmetic, and control (<A class="pred" href="control.html#;/2">;/2</A>, <A class="pred" href="control.html#|/2">|/2</A>),
if-then (<A class="pred" href="control.html#send_arrow/2">->/2</A>)
and negation-by-failure (<A class="pred" href="control.html#\+/1">\+/1</A>).
<H3><A NAME="sec:1.1.1"><SPAN class="sec-nr">1.1.1</SPAN> <SPAN class="sec-title">Books
about Prolog</SPAN></A></H3>
<A NAME="sec:books"></A>
<P>This manual does not describe the full syntax and semantics of
Prolog, nor how one should write a program in Prolog. These subjects
have been described extensively in the literature. See <CITE><A class="cite" href="Bibliography.html#Bratko:86">Bratko,
1986</A></CITE>,
<CITE><A class="cite" href="Bibliography.html#Sterling:86">Sterling &
Shapiro, 1986</A></CITE>, and <CITE><A class="cite" href="Bibliography.html#Clocksin:87">Clocksin &
Melish, 1987</A></CITE>. For more advanced Prolog material see <CITE><A class="cite" href="Bibliography.html#Keefe:90">O'Keefe,
1990</A></CITE>. Syntax and standard operator declarations confirm to
the `Edinburgh standard'. Most built in predicates are compatible with
those described in <CITE><A class="cite" href="Bibliography.html#Clocksin:87">Clocksin &
Melish, 1987</A></CITE>. SWI-Prolog also offers a number of primitive
predicates compatible with Quintus Prolog<SUP class="fn">1<SPAN class="fn-text">Quintus
is a trademark of Quintus Computer Systems Inc., USA</SPAN></SUP>
<CITE><A class="cite" href="Bibliography.html#QUINTUS:manual">Qui, 1997</A></CITE>
and BIM_Prolog<SUP class="fn">2<SPAN class="fn-text">BIM is a trademark
of BIM sa/nv., Belgium</SPAN></SUP>
<CITE><A class="cite" href="Bibliography.html#BIMPROLOG:manual">BIM,
1989</A></CITE>.
<P>ISO compliant predicates are based on ``Prolog: The Standard'',
<CITE><A class="cite" href="Bibliography.html#Deransart:96">Deransart <EM>et
al.</EM>, 1996</A></CITE>, validated using <CITE><A class="cite" href="Bibliography.html#stdprolog:98">Hodgson,
1998</A></CITE>.
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