* libguile/read.c (flush_ws, scm_read_commented_expression)
(scm_read_sharp): Add support for commenting out expressions with #;.
(scm_read_syntax, scm_read_sharp): Add support for #', #`, #, and #,@.
* module/ice-9/boot-9.scm: Remove #' read-hash extension, which actually
didn't do anything at all. It's been there since 1997, but no Guile
code I've ever seen uses it, and it conflicts with #'x => (syntax x)
from modern Scheme.
* module/system/base/compile.scm (compile-and-load): Whoops, fix a number
of bugs here.
* doc/ref/api-procedures.texi (Compiled Procedures): Fix for API changes.
* doc/ref/compiler.texi (Compiling to the Virtual Machine): Replace GHIL
docs with Tree-IL docs. Update the bits about the Scheme compiler to
talk about Tree-IL and the expander instead of GHIL. Remove
<glil-argument>. Add placeholder sections for assembly and bytecode.
* doc/ref/vm.texi: Update examples with what currently happens. Reword
some things. Fix a couple errors.
* libguile/vm-i-system.c (externals): Remove this instruction, it's not
used.
* module/ice-9/documentation.scm (object-documentation): If the object is
a macro, try to return documentation on the macro transformer.
* module/language/assembly/disassemble.scm (disassemble-load-program):
Fix problem in which we skipped the first element of the object vector,
because of changes to procedure layouts a few months ago.
* module/language/scheme/spec.scm (read-file): Remove read-file
definition.
* module/language/tree-il.scm: Reorder exports. Remove <lexical>, it was
a compat shim to something that was never released. Fix `location'.
* module/language/tree-il/primitives.scm (/): Fix expander for more than
two args to /.
* module/system/base/compile.scm (read-file-in): Remove unused
definition.
* module/system/base/language.scm (system): Remove language-read-file.
* module/language/ecmascript/spec.scm (ecmascript): Remove read-file
definition.
* module/ice-9/boot-9.scm (guile-user): Move the `compile' autoload to
the guile-user module. Remove reference to compile-time-environment.
* module/language/scheme/compile-ghil.scm:
* module/language/tree-il/compile-glil.scm:
* module/language/tree-il/optimize.scm:
* module/system/base/compile.scm:
* test-suite/tests/compiler.test: Remove definition of and references to
compile-time-environment. While I do think that recompilation based on
a lexical environment can be useful, I think it needs to be implemented
differently. So for now we've lost nothing if we take it away, as it
doesn't work with syncase anyway.
* module/system/base/pmatch.scm: Wrap consequents in (let () ) instead of
(begin ) so that they can have local definitions.
* module/language/tree-il/compile-glil.scm: Inline some calls to
primitives.
* module/ice-9/psyntax-pp.scm: Regenerate.
* module/ice-9/psyntax.scm (syntax-type): Look up the type of the car of
a form relative to its module, if it is a syntax object. Fixes hygiene
wrt modules and private macros.
* module/ice-9/syncase.scm (sc-macro): Add a comment.
* module/system/base/pmatch.scm: The big test case: just export pmatch,
not ppat too.
* module/language/ghil.scm (unparse-ghil): Fix unparsing of quasiquoted
expressions.
* module/language/ghil/spec.scm (join): Define a joiner for GHIL.
* module/language/scheme/compile-ghil.scm (cenv-ghil-env): Expand the
definition of a CENV so it can have an actual ghil-env, if available.
(compile-ghil): Return the actual ghil env in the cenv.
* module/system/base/compile.scm (compile-file): Rewrite. `output-file'
is now a keyword argument, along with the new kwargs `env' and `from'.
We now allow exceptions to propagate up, and instead of printing the
output file to the console, we return a string corresponding to its
location.
(compile-and-load): Use read-and-compile.
(compile-fold): Thread around the cenv as well. Return all three
values.
(find-language-joint, read-and-compile): New exciting helpers. The idea
is that compiling a file should be semantically equivalent to compiling
each expression in it, one by one. Compilation can have side effects,
e.g. affecting the current language or the current reader. So what we
do is find a point in the compilation path at which different
expressions of a given language can be joined into one. Expressions
from the source language are compiled to the joint language, then
joined and compiled to the target.
(compile): Just return the first value from compile-fold.
* module/system/base/language.scm (language-joiner): New optional field.
* scripts/compile: Rework for changes to compile-file.
* module/system/base/compile.scm: Expect compile passes to produce three
values, not two. The third is the "continuation environment", the
environment that can be used to compile a subsequent expression from
the same source language. For example, expansion-time side effects can
set the current module, which would be reflected appropriately in the
continuation environment.
* module/language/assembly/compile-bytecode.scm:
* module/language/bytecode/spec.scm:
* module/language/ecmascript/compile-ghil.scm:
* module/language/ghil/compile-glil.scm:
* module/language/glil/spec.scm:
* module/language/objcode/spec.scm:
* module/language/scheme/compile-ghil.scm:
* module/system/base/compile.scm: Update compile passes to return a
continuation environment.
* module/language/scheme/expand.scm: New module, implements a separate
expansion phase, not interleaved with compilation.
* module/language/scheme/amatch.scm: Helper for expand.scm, it's pmatch
with support for annotated source.
* module/ice-9/Makefile.am (SOURCES): Add annotate.scm to build list --
early on because it will be used in the compiler.
* module/ice-9/annotate.scm: Fix the printer, default to unstripped
(whatever that is), and add a deannotator.
* module/system/base/compile.scm (call-with-compile-error-catch): Fix for
new representation of source locations.
* module/Makefile.am (SCHEME_LANG_SOURCES): Add amatch and expand.
* module/language/ghil/compile-glil.scm (optimize*): Add a note.
* module/system/base/syntax.scm (transform-record): Access the common
slots once at the beginning. Cuts down on the number of toplevel refs
needed by the generated code.
* module/system/base/syntax.scm (transform-record): Introduce a ->
binding inside the body, that produces records of the same type.
* module/language/ghil/compile-glil.scm (optimize*): Remove our ->ghil
definition, as transform-record introduces a -> binding for us. Nice.
* module/language/ghil/compile-glil.scm (optimize*): Rewritten optimizer
-- not yet in use, but it's closer to the code that I'd like to write.
* module/system/base/syntax.scm (transform-record): New crazy macro,
makes GHIL a little less painful to work with.
* am/guilec (.scm.go): Create the target's directory, in case
$(builddir) != $(srcdir).
* configure.in: Don't output any makefile under `module/system' or
`module/language'.
* module/Makefile.am (SUBDIRS): Remove `language' and `system'. Add `.'
to the front.
(modpath, SOURCES, SCHEME_LANG_SOURCES, ECMASCRIPT_LANG_SOURCES,
GHIL_LANG_SOURCES, GLIL_LANG_SOURCES, ASSEMBLY_LANG_SOURCES,
BYTECODE_LANG_SOURCES, OBJCODE_LANG_SOURCES, VALUE_LANG_SOURCES): New
variables, taken from former `Makefile.am' files in sub-directories.
* module/system/base/compile.scm (call-with-output-file/atomic): Temp
files get created 0600. After we're done writing, chmod them to
something in line with the user's umask.
* module/language/Makefile.am: OK, we can compile compile-ghil.scm now,
thankfully.
* module/language/ecmascript/compile-ghil.scm (ormatch): New macro, a
wrapper around pmatch to avoid some of the more egregious
non-tail recursiveness.
(comp): Use ormatch.
* module/language/ghil.scm (unparse-ghil): The body of bind and mv-bind
is a single expression, not a list of expressions.
* module/language/ghil/compile-glil.scm (codegen): Be more clever when
allocating "local" variables -- if a variable goes out of scope, its
index can be re-used later.
* module/language/glil.scm (parse-glil, unparse-ghil): The "rest" of a
mv-bind is a flag, not a list. The "ra" of an mv-call is a label, not a
GLIL expression.
* module/language/objcode/spec.scm (collapse-locals, decompile-value):
When decompiling a value, process the bindings list differently.
Comments in the code.
* module/language/scheme/compile-ghil.scm (define-scheme-translator): Fix
the generated error procedure.
(let): Re-indent.
(letrec): Re-indent.
* module/system/base/syntax.scm (record-case): If the body of a clause is
null, fill it with the unspecified value.
* module/system/base/compile.scm (compiled-file-name): Prepend "(dirname
file)" so that "guile-tools compile foo/bar.scm" produces
"foo/bar.go", not "bar.go".
* module/system/base/compile.scm (call-with-output-file/atomic): Close
the port we are writing to before renaming it, so that we flush output.
Might fix some 0-length write errors that Jao was seeing.
* module/system/base/syntax.scm (define-record): So, in the generated
constructors, allow optional arguments, but not keyword arguments.
Conses much less in the constructors.
(define-record/keywords): And the old define-record is here.
* module/language/ghil.scm (parse-ghil):
* module/language/ghil/compile-glil.scm (codegen):
* module/language/scheme/compile-ghil.scm (translate-1, quote)
(quasiquote): Don't use keywords in this compiler hotpath.
* module/system/base/language.scm (<language>):
* module/system/repl/common.scm (<repl>):
* module/system/vm/debug.scm (<debugger>): Use define-record/keywords.
* module/language/ghil.scm: Whoops, export some unquote-splicing
accessors that we didn't have exported before.
* module/system/base/syntax.scm: Speed up record-case, by syntactically
determining the predicates and accessors. Nasty, in a way; but also
much faster.
* module/system/base/pmatch.scm (ppat): Match atoms with eq?, not equal?.
This speeds up compilation considerably, as we never match against
numbers or strings or what-have-you. Note, you can match against
literals with equal? via quoting the literal in the pattern.
* libguile/stacks.c (scm_make_stack): Instead of aborting when we misread
the number of stack frames, just print a warning. I'd like to figure
out what these cases are, exactly.
* module/language/scheme/compile-ghil.scm (lambda): Reindent the lambda
transformer.
* module/system/base/compile.scm (call-with-compile-error-catch): Write
the expression instead of displaying it.
(call-with-output-file/atomic): Don't actually redirect output to this
port, as it's not necessary -- the language-printer should respect the
port that we pass.
* module/language/assembly/Makefile.am:
* module/language/assembly/disassemble.scm: Add a disassembler, based on
the old one but fitting in with the decompiler tower.
* module/language/objcode/spec.scm (decompile-value): When decompiling
programs, shove all the metadata that we know about into the "env".
* module/system/base/compile.scm (decompile-fold, decompile): Return the
env from `decompile' as a second value. Not sure if `compile' should do
this too.
* module/language/assembly/Makefile.am:
* module/language/assembly/spec.scm:
* module/language/assembly/decompile-bytecode.scm: Add a bytecode
decompiler. Neat!
* module/language/bytecode/spec.scm (decompile-objcode):
* module/language/objcode/spec.scm (decompile-value): Add some
"decompilers" here too.
* module/system/base/compile.scm (current-language): Since we can refer
to languages by name, do so here -- removes the previous
anti-circularity hack.
(compile-file, compile): Refer to target languages by name.
(decompile): New public function. Neat!
* module/system/base/language.scm (lookup-decompilation-order): Fix so we
look for decompilers with the high-level language definition.
* module/system/base/language.scm (lookup-decompilation-order): New
function, like its compiling cousin, but backwards.
(compute-translation-order): Rework so that languages can be specified
either by name or by identity. Return a list of language - procedure
pairs, without the "to" language in the list, instead of a list of
languages.
(invalidate-compilation-cache!): Invalidate the decompilation cache
too.
(<language>): Add a decompiler field.
* module/system/base/compile.scm (compile-passes): Much simpler now that
lookup-compilation-order gives us the procedures directly.
* module/language/*/spec.scm: Specify compilers by name, so that we can
avoid unnecessary module loads, and so that when we specify
decompilers, we can avoid cycles.
* module/system/base/language.scm (<language>): Rework so that instead of
hardcoding passes in the language, we define compilers that translate
from one language to another. Add `parser' to the language fields, a
bit of a hack but useful for languages with s-expression external
representations but with record internal representations.
(define-language, *compilation-cache*, invalidate-compilation-cache!)
(compute-compilation-order, lookup-compilation-order): Add an algorithm
that does a depth-first search for a translation path from a source
language to a target language, caching the result in a lookup table.
* module/language/scheme/spec.scm:
* module/language/ghil/spec.scm: Update to the new language format.
* module/language/glil/spec.scm: Add a language specification for GLIL,
with a compiler to objcode. Also there are parsers and printers, for
repl usage, but for some reason this doesn't work yet.
* module/language/objcode/spec.scm: Define a language specification for
object code. There is some sleight of hand here, in the "compiler" to
values; but there is method behind the madness, because this way we
higher levels can pass environments (a module + externals pair) to
objcode->program.
* module/language/value/spec.scm: Define a language specification for
values. There is something intellectually dishonest about this, but it
does serve its purpose as a foundation for the language hierarchy.
* configure.in:
* module/language/Makefile.am
* module/language/ghil/Makefile.am
* module/language/glil/Makefile.am
* module/language/objcode/Makefile.am
* module/language/value/Makefile.am:
Autotomfoolery for the ghil, glil, objcode, and value languages.
* module/language/scheme/translate.scm (translate): Import the bits that
understand `compile-time-environment' here, and pass on the relevant
portions of the environment to the next compiler pass.
* module/system/base/compile.scm (current-language): New procedure, refs
the current language fluid, or lazily sets it to scheme.
(call-once, call-with-output-file/atomic): Refactor these bits to use
with-throw-handler. No functional change.
(compile-file, compile-and-load, compile-passes, compile-fold)
(compile): Refactor the public interface of the compiler to be generic
and simple. Uses `lookup-compilation-order' to find a path from the
source language to the target language.
* module/system/base/syntax.scm (define-type): Adapt to changes in
define-record.
(define-record): Instead of expecting all slots in the first form,
expect them in the body, and let the first form hold the options.
* module/system/il/compile.scm (compile): Adapt to the compilation pass
API (three in and two out).
* module/system/il/ghil.scm (<ghil-var>, <ghil-env>)
(<ghil-toplevel-env>): Adapt to define-record changes.
* module/system/il/glil.scm (<glil-vars>): Adapt to define-record
changes.
(<glil>, print-glil): Add a GLIL record printer that uses unparse.
(parse-glil, unparse-glil): Update unparse (formerly known as pprint),
and write a parse function.
* module/system/repl/common.scm (<repl>): Adapt to define-record changes.
(repl-parse): New function, parses the read form using the current
language. Something of a hack.
(repl-compile): Adapt to changes in `compile'.
(repl-eval): Fix up the does-the-language-have-a-compiler check for
changes in <language>.
* module/system/repl/repl.scm (start-repl): Parse the form before eval.
* module/system/repl/command.scm (describe): Parse.
(compile): Be more generic.
(compile-file): Adapt to changes in compile-file.
(disassemble, time, profile, trace): Parse.
* module/system/vm/debug.scm:
* module/system/vm/assemble.scm: Adapt to define-record changes.
* module/language/scheme/translate.scm (receive): Fix an important bug
that gave `receive' letrec semantics instead of let semantics. Whoops!
* module/system/repl/common.scm (repl-print): Slightly refine the meaning
of "language-printer": a language printer prints an expression of a
language, not the result of evaluation. `write' prints values.
* module/language/ghil/spec.scm (ghil): Define a language printer, and a
translator for turning s-expressions (not scheme, mind you) into GHIL.
* module/language/scheme/translate.scm (quote, quasiquote): Add some
#:keyword action, so that we can (quote #:keywords).
* module/system/base/language.scm (<language>):
* module/system/base/compile.scm (read-file-in): Don't require that a
language have a read-file; instead error when read-file is called.
(compile-passes, compile-in): Refactor to call a helper method to turn
the language + set of options into a set of compiler passes.
* module/system/base/syntax.scm (define-type): Allow the type to be a
list, with the car being the name and the cdr being keyword options.
Interpret #:printer as a printer, and pass it down to...
(define-record): Here.
* module/system/il/ghil.scm (print-ghil, <ghil>): New printer for GHIL,
yay!
(parse-ghil, unparse-ghil): New lovely functions. Will document them in
the manual.
* module/system/base/compile.scm (call-with-nonlocal-exit-protect): New
helper, like unwind-protect but only for nonlocal exits.
(call-with-output-file/atomic): Use call-with-nonlocal-exit-protect so
that we don't mess up backtraces by catching all and then rethrowing.
Should fix this more comprehensively somewhere, though.
* ice-9/boot-9.scm (compile-time-environment): Remove definition from
boot-9 -- instead, autoload it and `compile' from (system base
compile).
* libguile/objcodes.h:
* libguile/objcodes.c (scm_objcode_to_program): Add an optional argument,
`external', the external list to set on the returned program.
* libguile/vm-i-system.c (externals): New instruction, returns the
external list. Only used by (compile-time-environment).
* libguile/vm.c (scm_load_compiled_with_vm): Adapt to
scm_objcode_to_program change.
* module/language/scheme/translate.scm (translate): Actually pay
attention to the environment passed as an argument.
(custom-transformer-table): Expand out (compile-time-environment) to
something that can be passed to `compile'.
* module/system/base/compile.scm (*current-language*): Instead of
hard-coding `scheme' in various places, use a current language fluid,
initialized to `scheme'.
(compile-file, load-source-file): Adapt to *current-language*.
(load-source-file): Ada
(scheme-eval): Removed, no one used this.
(compiled-file-name): Don't hard-code "scm" and "go"; instead use the
%load-extensions and %load-compiled-extensions.
(cenv-module, cenv-ghil-env, cenv-externals): Some accessors for
compile-time environments.
(compile-time-environment): Here we define (compile-time-environment)
to something that will return #f; the compiler however produces
different code as noted above.
(compile): New function, compiles an expression into a thunk, then runs
the thunk to get the value. Useful for procedures. The optional second
argument can be either a module or a compile-time-environment; in the
latter case, we can recompile even with lexical bindings.
(compile-in): If the env specifies a module, set that module for the
duration of the compilation.
* module/system/base/syntax.scm (%compute-initargs): Fix a bug where the
default value for a field would always replace a user-supplied value.
Whoops.
* module/system/il/ghil.scm (ghil-env-dereify): New function, takes the
result of ghil-env-reify and turns it back into a GHIL environment.
* scripts/compile (compile): Remove some of the tricky error handling, as
the library procedures handle this for us.
* test-suite/tests/compiler.test: Add a test for the dynamic compilation
bits.
* module/system/base/syntax.scm (define-type): Rework to not require the
`|', which confuses Emacs.
* module/system/il/ghil.scm (<ghil>):
* module/system/il/glil.scm (<glil>): Adapt to define-type changes.
* ice-9/boot-9.scm: Allow a compiled load of posix, networking, and
deprecated files.
* module/language/scheme/translate.scm (lookup-transformer): Lookup the
sc-macro by value, not by name. Works around the fact that compiled
macros don't have names, which is probably a bug.
* module/system/base/compile.scm (syntax-error)
(call-with-compile-error-catch): Throw and catch a key that's not used
by anyone else. Write error messages to the error port.
* module/system/repl/repl.scm (default-catch-handler): Call display-error
with the correct number of arguments.
* module/system/vm/frame.scm (frame-program-name): Guard against unbound
variables.
* ice-9/optargs.scm (let-keywords-template): Don't unquote in a helper
procedure. A bit irritating. I suppose we should fix the modules +
syncase situation at some point, and then switch to syncase.
* module/system/base/syntax.scm (keywords): Don't enable :keywords, it
breaks code that may assume that ':foo is a symbol, like boot-9.
* module/*.scm: Don't use :keywords, use #:keywords. The user can decide
if she wants #:keywords in their .guile, and :keywords might make us
compile modules differently.
Thanks to Dale Smith.
* guilec.mk: Rework to expect the includer to define $(modpath), then
make $(moddir) from that.
* module/language/Makefile.am:
* 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: Define modpath instead.
* src/guilec.in: Don't import (system vm bootstrap), it is no more.
* module/system/base/compile.scm (call-with-output-file/atomic): New
proc, outputs to a tempfile then does an atomic rename. Prevents SIGBUS
if a compiled file is truncated and rewritten, as the file's objcode is
mmap'd in.
(compile-file): Use the new helper.
This reorganization kills the ugly module-export-all hacks in
bootstrap.scm and core.scm. In fact, it gets rid of core.scm entirely,
breaking out its functionality into separate files.
* module/system/vm/trace.scm:
* module/system/vm/profile.scm:
* module/system/vm/disasm.scm:
* module/system/vm/debug.scm:
* module/system/vm/conv.scm:
* module/system/vm/assemble.scm:
* module/system/repl/repl.scm:
* module/system/repl/common.scm:
* module/system/base/compile.scm:
* module/system/repl/command.scm: Update for changes, and fix a bug in
procedure-documentation.
* module/system/vm/bootstrap.scm: Just call scm_bootstrap_vm, which
handles setting load-compiled for us.
* module/system/vm/core.scm: Removed, functionality folded into other
modules.
* module/system/vm/frame.scm: Export the C frame procedures here; also
move scheme functions from core.scm here.
* module/system/vm/instruction.scm: New file, exports procedures from
instructions.c.
* module/system/vm/objcode.scm: New file, exports procedures from
objcodes.c.
* module/system/vm/program.scm: New file, exports procedures from
programs.c, and some scheme functions originally from core.scm.
* module/system/vm/vm.scm: New file, from vm.c and core.scm.
* src/Makefile.am (libguile_vm_la_SOURCES): Add bootstrap.h.
* src/bootstrap.h: New file, prototypes scm_bootstrap_vm (), which the
scm_init_* functions call.
* src/frames.h:
* src/frames.c (scm_init_frames):
* src/frames.c (scm_bootstrap_frames):
* src/vm.h:
* src/instructions.h:
* src/instructions.c (scm_init_instructions):
* src/instructions.c (scm_bootstrap_instructions):
* src/objcodes.h:
* src/objcodes.c (scm_bootstrap_objcodes):
* src/objcodes.c (scm_init_objcodes):
* src/programs.h:
* src/programs.c (scm_bootstrap_programs):
* src/programs.c (scm_init_programs):
* src/vm.c (scm_bootstrap_vm):
* src/vm.c (scm_init_vm): Call scm_bootstrap_vm() before doing anything
in an init function. Bootstrap_vm will call bootstrap_instructions(),
etc to initialize types, then set load-compiled to point to
load-compiled/vm.
* src/vm.c (scm_load_compiled_with_vm): Code to load .go files, if
they're present.
* 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.
* 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/language/scheme/translate.scm (lookup-transformer): When
expanding syncase macros, use the eval closure from the ghil-env.
Probably doesn't make any difference whatsoever.
* module/system/base/Makefile.am (SOURCES): Compile pmatch.scm, now that
it works :-))
* module/system/base/compile.scm (compile-in): Compile inside a
save-module-excursion, so that side effects of evaluation don't leak
out.
* module/system/base/pmatch.scm: Change from :use-syntax/:export-syntax
to simply :use-modules/:export. Also probably has no effect.
* module/system/il/ghil.scm (fix-ghil-mod!): Suppress warnings resulting
from compilation of define-module.
* src/vm_loader.c (link): So, referencing variables defined but not
exported from the current module didn't work. Fixed that, but it's
hacky. There are still some uncaught cases.
* module/system/base/compile.scm: Also import load-objcode from (system
vm core).
* module/language/scheme/translate.scm (lookup-transformer): Use
sc-expand3 in compilation mode when compiling macros. Yay, syncase
macros compile!
* module/system/base/syntax.scm (define-record): Again, don't unquote in
actual objects, because this is uncompilable. Ah well. At least now all
of base/ is compiling.
* module/system/vm/assemble.scm (dump-object!): More debug info.
* module/language/scheme/translate.scm (primitive-syntax-table):
Translate the `else' clause of a cond as (begin ...). We used to use
trans-body, which processes internal defines, which are not legal
syntax here.
* module/system/base/syntax.scm (define-record): Unfortunately, we can't
unquote in the actual procedure for `%compute-initargs', because that
doesn't work with compilation. So reference %compute-initargs by name,
and export it.
* module/system/il/ghil.scm (apopq!): Gaaaaar. The order of the arguments
to assq-remove! was reversed, which was the badness, causing corruption
to the env after calling call-with-ghil-bindings. Grrrrrr.
(fix-ghil-mod!, ghil-lookup, ghil-define): As amply commented in the
code, deal with compile-time side effects to the current module by
lazily noticing and patching up the compile-time environment. A hacky
solution until such a time as we special-case something for
`define-module'.
* module/language/scheme/translate.scm (trans):
* module/system/il/compile.scm (codegen): When making records where a
value can be a keyword, make sure to use the keyword initialization
form, so that the record initializer doesn't interpret the keyword as a
slot name.
* module/system/base/Makefile.am (vm_DATA): For now, don't compile
pmatch.
* module/language/scheme/translate.scm (eval-at-compile-time)
(&compile-time-module, expand-macro): Remove this attempt at dealing
with macros. Instead, we're going to rely on macros being first-class,
and just catch eval-case at the bottom.
(lookup-transformer): Lookup all syntax transformers in the module's
eval closure. We catch the primitive-macros, compiling them to ghil,
and expand the rest.
(lookup-transformer): Fold in trans-pair here. Add a hacky case for the
unspecified value; the problem shows up when compiling e.g.
(define-macro (plus! x) `(set! ,x (1+ x))), as a fallout from
eval-case.
(make-pmatch-transformers, primitive-syntax-table): Define the
primitive syntax transformers as a data-driven table instead of a
function. There's a bit of syntax, too. Eval-case was rewritten to use
pmatch.
* module/system/base/compile.scm (scheme): Define as a thunk instead
of a value, so as to allow (language scheme translate) to be imported
in the repl. Still, a hack.
