X-Git-Url: http://repo.macrolet.net/gitweb/?a=blobdiff_plain;f=doc%2Fintro.sgml;h=8cb110d3ed9d954c8b1c8275679a2ba280c6c06b;hb=1b650be8b800cf96e2c268ae317fb26d0bf36827;hp=2f33f5f3dc7979a4a1b0115f5af990048a0ebceb;hpb=a530bbe337109d898d5b4a001fc8f1afa3b5dc39;p=sbcl.git
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--- a/doc/intro.sgml
+++ b/doc/intro.sgml
@@ -5,50 +5,86 @@
specific to &SBCL;, not on behavior which is common to all
implementations of &ANSI; &CommonLisp;.
-More Information on &CommonLisp; in General</>
+<sect1 id="more-cl-info">
+<title>Where To Go For More Information about &CommonLisp; in General
-If you are an experienced programmer in general but need
-information on using &CommonLisp; in particular, ANSI Common
-Lisp, by Paul Graham, is a good place to start. Paradigms
-Of Artificial Intelligence Programming, by Peter Norvig, also has
-some good information on general &CommonLisp; programming, and many
-nontrivial examples. For CLOS in particular, Object-Oriented
-Programming In Common Lisp by Sonya Keene is useful.
-
-Two very useful resources for working with any implementation of
+Regardless of your ability level, two very useful resources
+for working with any implementation of
&CommonLisp; are the
ILISP
package for Emacs and
the &CommonLisp;
HyperSpec.
+If you're not a programmer and you're trying to learn,
+many introductory Lisp books are available. However, we don't have any
+standout favorites. If you can't decide, try checking the Usenet
+comp.lang.lisp FAQ for recent recommendations.
+
+If you are an experienced programmer in other languages
+but need to learn about Lisp, three books stand out.
+
+ ANSI Common Lisp, by Paul Graham,
+ will teach you about most of the language. (And later it might
+ also be worth checking out On Lisp, by the same
+ author.)
+ Paradigms Of Artificial Intelligence
+ Programming, by Peter Norvig, also has some good information
+ on general &CommonLisp; programming, and many nontrivial examples.
+ Whether or not your work is AI, it's a very good book to look
+ at.
+
+ Neither of the books above emphasizes CLOS, but
+ Object-Oriented Programming In Common Lisp by Sonya Keene
+ does. Even if you're very knowledgeable about object oriented
+ programming in the abstract, it's worth looking at this book
+ if you want to do any OO in &CommonLisp;. Some abstractions
+ in CLOS (especially multiple dispatch) go beyond anything
+ you'll see in most OO systems, and there are a number of lesser
+ differences as well. This book tends to help with the culture shock.
+
+
+
+
+
-More Information on SBCL
+
+Where To Go For More Information About &SBCL;
+
+Before you read this user manual, you should probably read
+two other things.
+
+ You should know how to program in &CommonLisp;.
+ If you don't already know how, you should probably read a
+ book on it.
+ The Unix man page for &SBCL; will tell you
+ how to start the &SBCL; environment, so you can get to the
+ classic hello, world level of knowledge. It's the file
+ called sbcl.1 in the &SBCL; distribution. If &SBCL; is
+ installed on your system, you can read a formatted copy by
+ executing the command man sbcl.
+
+
-Besides this manual, some other &SBCL;-specific information is
-available:
+Besides this user manual and the Unix man page, some
+other &SBCL;-specific information is available:
- There is a Unix man page file
- sbcl.1 in the &SBCL; distribution,
- describing command options and other usage information
- for the Unix sbcl command which invokes
- the &SBCL; system.
+ The
+ &SBCL; home page has some general
+ information, plus links to mailing lists devoted to &SBCL;,
+ and to archives of these mailing lists.Documentation for non-&ANSI; extensions for
various commands is available online from the &SBCL; executable
itself. The extensions for functions which have their own
command prompts (e.g. the debugger, and inspect)
are documented in text available by typing help
at their command prompts. The extensions for functions which
- don't have their own command prompt (e.g. trace)
- are described in their documentation strings,
+ don't have their own command prompt (like trace
+ does) are described in their documentation strings,
unless your &SBCL was compiled with an option not
to include documentation strings, in which case the doc strings
are only readable in the source code.
- The
- &SBCL; home page has some general
- information, plus links to mailing lists devoted to &SBCL;,
- and to archives of these mailing lists.Some low-level information describing the
programming details of the conversion from &CMUCL; to &SBCL;
is available in the doc/FOR-CMUCL-DEVELOPERS
@@ -58,20 +94,22 @@ available:
-System Implementation and History</>
+<sect1 id="implementation">
+<title>Overview Of SBCL, How It Works And Where It Came From</>
-<para>You can work productively with SBCL without understanding
-anything about how it was and is implemented, but a little knowledge
-can be helpful in order to better understand error messages,
-troubleshoot problems, to understand why some parts of the system are
-better debugged than others, and to anticipate which known bugs, known
-performance problems, and missing extensions are likely to be fixed,
-tuned, or added.</para>
+<para>You can work productively with SBCL without knowing anything
+understanding anything about where it came from, how it is implemented,
+or how it extends the &ANSI; &CommonLisp; standard. However,
+a little knowledge can be helpful in order to understand error
+messages, to troubleshoot problems, to understand why some parts of
+the system are better debugged than others, and to anticipate which
+known bugs, known performance problems, and missing extensions are
+likely to be fixed, tuned, or added. </para>
<para>&SBCL; is descended from &CMUCL;, which is itself descended from
-Spice Lisp. Early implementations for the Mach operating system on the
-IBM RT, back in the 1980s. Design decisions from that time are still
-reflected in the current implementation:
+Spice Lisp, including early implementations for the Mach operating
+system on the IBM RT, back in the 1980s. Design decisions from that
+time are still reflected in the current implementation:
<itemizedlist>
<listitem><para>The system expects to be loaded into a
fixed-at-compile-time location in virtual memory, and also expects
@@ -84,7 +122,8 @@ reflected in the current implementation:
<listitem><para>A word is a 32-bit quantity. The system has been
ported to many processor architectures without altering this
basic principle. Some hacks allow the system to run on the Alpha
- chip (a 64-bit architecture) but the assumption that a word is
+ chip (a 64-bit architecture) but even there 32-bit words are
+ used. The assumption that a word is
32 bits wide is implicit in hundreds of places in the
system.</para></listitem>
<listitem><para>The system is implemented as a C program which is
@@ -100,14 +139,30 @@ collector (<quote>GC</>), which has various implications (mostly good)
for performance. These are discussed in <link linkend="efficiency">
another chapter</link>.</para>
-<para>The direct ancestor of &SBCL; is the X86 port of &CMUCL;.
-This port is in some ways the least mature of any in the &CMUCL;
-system, and some things (like profiling and backtracing)
-do not work particularly well there. &SBCL; should be able
-to improve in these areas, but it may take a while.</para>
+<para>&SBCL; has diverged from &CMUCL; in that &SBCL; is now
+essentially a <quote>compiler-only implementation</quote> of
+&CommonLisp;. A &CommonLisp; implementation is permitted to implement
+both a compiler and an interpreter, and there's some special support
+in the standard (e.g. the distinction between <function>functionp</>
+and <function>compiled-function-p</>) to help support that. But &SBCL;
+has only a vestigial, rudimentary true interpreter. In &SBCL;, the
+<function>eval</> function only truly <quote>interprets</quote> a few
+special classes of forms, such as symbols which are
+<function>boundp</>. More complicated forms are evaluated by calling
+<function>compile</> and then calling <function>funcall</> on the
+returned result.
+</para>
+
+<para>The direct ancestor of &SBCL; is the X86 port of &CMUCL;. This
+port was in some ways the most cobbled-together of all the &CMUCL;
+ports, since a number of strange changes had to be made to support the
+register-poor X86 architecture. Some things (like tracing and
+debugging) do not work particularly well there. &SBCL; should be able
+to improve in these areas (and has already improved in some other
+areas), but it takes a while.</para>
-<para>The &SBCL; GC, like the GC on the X86 port of &CMUCL;, is
-<emphasis>conservative</>. This means that it doesn't maintain a
+<para>On the x86, &SBCL; like the X86 port of &CMUCL;, uses a
+<emphasis>conservative</> GC. This means that it doesn't maintain a
strict separation between tagged and untagged data, instead treating
some untagged data (e.g. raw floating point numbers) as
possibly-tagged data and so not collecting any Lisp objects that they
@@ -128,15 +183,16 @@ running system with new versions. This quasi-build procedure can cause
various bizarre bootstrapping hangups, especially when a major change
is made to the system. It also makes the connection between the
current source code and the current executable more tenuous than in
-any other software system I'm aware of -- it's easy to accidentally
+other software systems -- it's easy to accidentally
<quote>build</> a &CMUCL; system containing characteristics not
reflected in the current version of the source code.</para>
<para>Other major changes since the fork from &CMUCL; include
<itemizedlist>
<listitem><para>&SBCL; has dropped support for many &CMUCL; extensions,
- (e.g. remote procedure call, Unix system interface, and X11
- interface).</para></listitem>
+ (e.g. IP networking, remote procedure call, Unix system interface, and X11
+ interface). Some of these are now available as contributed or
+ third-party modules.</para></listitem>
<listitem><para>&SBCL; has deleted or deprecated
some nonstandard features and code complexity which helped
efficiency at the price of maintainability. For example, the