* ice-9/boot-9.scm (eval-case): Define two more conditions:
compile-toplevel and evaluate, as common lisp and chez scheme do.
(defmacro, define-option-interface, define-macro, define-syntax-macro)
(define-module, use-modules, use-syntax, define-public)
(defmacro-public, export, re-export): Add `compile-toplevel' to all
uses of eval-case.
* ice-9/syncase.scm (current-eval-closure): New procedure.
(env->eval-closure): Don't default to the root module: if we have no
environment, we default to the current module via the logic in
current-eval-closure. This is because psyntax's compilation mode
doesn't know about guile modules, and thus won't dump the code to
twiddle the current eval closure.
(putprop, getprop, guile-macro): Use `current-eval-closure'.
At the end, leave the expansion-eval-closure set to #f.
When you use GDS to evaluate Scheme code from Emacs, you can now use
`C-u' to indicate that you want to single step through that code. See
`Evaluating Scheme Code' in the manual for more details.
* scheme-using.texi (Evaluating Scheme Code): Document use of
`C-u' prefix with evaluation commands.
* gds-scheme.el (gds-eval-region, gds-eval-expression)
(gds-eval-defun, gds-eval-last-sexp): Support `C-u' prefix,
meaning that user wants to single step through the code.
* gds-client.scm (handle-nondebug-protocol): Add support for
setting a trap on code that is about to be evaluated.
* configure.in: Update stack direction test to be like that in
Autoconf _AC_LIBOBJ_ALLOCA and Gnulib; specifically in involving a
function calling itself.
* benchmark/lib.scm: Add a comment, update the loop disassembly. Loop is
now faster in the VM, thankfully.
* src/vm_engine.h (CACHE_PROGRAM): Only release and regrab the object
array handle if the program changed. That is to say, optimize the
self-tail-recursive case. But perhaps the thing to optimize here are
the procedure calls themselves. Worth looking at in the future.
* module/system/il/inline.scm: New module, implements generic inlining of
scheme functions. It even does the right thing regarding (define
arity:nopt caddr) and such. So now there are many more inlines: the
arithmetics, `apply', the caddr family, etc. This makes the benchmarks
*much* faster.
* module/language/scheme/translate.scm (trans): Remove the
%scheme-primitives code in favor of the generic (scheme il inline)
code. Adds inlining for +, -, =, etc.
* src/vm.c (vm_puts): Fix to work.
* module/system/base/compile.scm (system): Export load/compile also.
* module/system/il/compile.scm (optimize): Further debitrotting, but I
haven't tried this function yet. It seems that <ghil-inst> was what
<ghil-inline> is.
* module/system/il/ghil.scm (*core-primitives*, *macro-module*)
(ghil-primitive-macro?, ghil-macro-expander, ghil-primitive?): Remove
these unused things.
* module/system/il/macros.scm: Removed, replaced with inline.scm.
* module/system/vm/assemble.scm (stack->bytes): Before, the final
serialization code did an (apply u8vector (apply append (map
u8vector->list ...))). Aside from the misspelling of append-map, this
ends up pushing all elements of the u8vector on the stack -- assuredly
not what you want. But besides even that, I think that pushing more
than 32k arguments on the stack brings out some other bug that I think
was hidden before, because now we actually use the `apply' VM
instruction. Further testing is needed here, I think. Fixed the code to
be more efficient, which fixes the manifestation of this particular
bug: a failure to self-compile after inlining was enabled.
* module/system/vm/bootstrap.scm: New module, serves to bootstrap
boot-9's `load-compiled'. That way when we load (system vm core), we're
loading compiled code already.
* module/system/vm/core.scm: Use (system vm bootstrap).
* src/guilec.in: Use the bootstrap code, so that we really are compiling
with an entirely compiled compiler.
* module/system/repl/repl.scm (default-catch-handler): An attempt at
making the repl print a backtrace; more work needed here.
* module/system/vm/frame.scm (make-frame-chain): Fix some misspellings --
I think, anyway.
* guilec.mk: New file, to be included when building .go files.
* module/language/scheme/Makefile.am:
* module/system/base/Makefile.am:
* module/system/il/Makefile.am:
* module/system/repl/Makefile.am:
* module/system/vm/Makefile.am: Use guilec.mk.
* module/system/base/compile.scm (compiled-file-name): Work on the
basename of a file, so that we always create files in the directory
where we run. Perhaps should add a -o option to guilec in the future.
* Makefile.am: Actually recurse into module/ in a normal build.
* acconfig.h: Removed.
* acinclude.m4: Use the extended AC_DEFINE for HAVE_LABELS_AS_VALUES, so
as to remove the need for acconfig.h.
* autogen.sh: Use autoreconf.
* configure.in: Update info, don't warn about non-gnu make, bump version
to 0.7.
* doc/texinfo.tex: Automagically updated. (Should this be in VCS?)
* src/Makefile.am: Add $(DEFAULT_INCLUDES) to a couple of our custom
rules so we pick up the -I for config.h.
* src/*.[ch]: Include the config.h in the C files, not in the headers.
* module/language/scheme/translate.scm (*the-compile-toplevel-symbol*):
Reset to compile-toplevel, which requires a patch to guile.
* module/system/base/compile.scm (compile-file): Some foo so that we load
up the scheme language before call-with-output-file. Fixes compilation
of (language scheme) modules.
* module/system/base/language.scm (define-language): Don't unquote in
make-language; refer to it by name instead, and export it.
* module/system/repl/Makefile.am (vm_DATA): Don't compile describe.scm,
because we really can't deal with goops yet.
* module/system/repl/repl.scm (compile-toplevel): If we're compiling, put
in a stub definition of start-stack, which is closely tied to the
interpreter.
* src/vm_loader.c (load-program): Fix a very tricky corruption bug!
* module/system/repl/describe.scm (format-documentation): Remove bad
string syntax. This file doesn't compile though, due to define-macro
being a procedure->syntax macro.
* module/language/scheme/translate.scm (lookup-transformer): Allow for
undefined variables when doing the transformation -- it's possible that
they come from a module definition's forward declaration.
* module/system/repl/command.scm (import): Make into legal Scheme, caught
by the compiler :-)
* module/system/vm/assemble.scm (<vlink-now>): Remove the module field.
Immediate bindings will now always be relative to the current module.
Fixes some mess about process-define-module not being defined when
loading modules, probably because we destructively modified the
ghil-env.
(codegen, dump-object!): Don't dump a module name.
* src/vm_loader.c (link-now): Just use scm_lookup.
comments in ghil-lookup are pertinent.
* module/system/il/compile.scm (make-glil-var): Require that ghil vars
have environments. Remove the 'unresolved case -- we'll treat all
module-level variables as late bound.
* module/system/il/ghil.scm (ghil-lookup): Treat all module level vars as
late bound.
* module/system/vm/assemble.scm: Instead of vlink and vlate-bound, have
vlink-now and vlink-later.
(codegen): Add a bunch of crap to get the various cases right.
(object-assoc, dump-object!): Handle the new cases, remove the old
cases.
* src/vm_loader.c (link-now, link-later): Change from link and lazy-bind.
Include the module in which the link is to be done, so that callers
from other modules get the right behavior.
* src/vm_system.c (late-variable-ref, late-variable-set): Instead of a
sym, the unbound representation is a module name / symbol pair.
* testsuite/run-vm-tests.scm (run-vm-tests): Remove some debugging.
