This reverts the change to SCM_MAKE_CHAR made in the previous commit
63818453ad, which used an arithmetic trick
to avoid evaluating its argument more than once.
Here, we restore the previous implementation of SCM_MAKE_CHAR, which
evaluates its argument twice. Instead, we introduce a new inlinable
function 'scm_c_make_char' and replace uses of SCM_MAKE_CHAR with calls
to 'scm_c_make_char' where appropriate.
* libguile/chars.h (scm_c_make_char): New inline function.
* libguile/inline.c: Include chars.h.
* libguile/srfi-13.c (REF_IN_CHARSET, scm_string_any, scm_string_every)
(scm_string_trim, scm_string_trim_right, scm_string_trim_both)
(scm_string_index, scm_string_index_right, scm_string_skip)
(scm_string_skip_right, scm_string_count, string_titlecase_x)
(string_reverse_x, scm_string_fold, scm_string_fold_right)
(scm_string_for_each, scm_string_filter, scm_string_delete):
Use 'scm_c_make_char' instead of 'SCM_MAKE_CHAR' in cases where the
argument calls a function.
* libguile/chars.c (scm_char_upcase, scm_char_downcase, scm_char_titlecase),
libguile/ports.c (scm_port_decode_char),
libguile/print.c (scm_simple_format),
libguile/read.c (scm_read_character),
libguile/strings.c (scm_string_ref, scm_c_string_ref),
libguile/vm-engine.c ("string-ref"): Ditto.
Fixes <https://bugs.gnu.org/32786>.
'scm_atomic_compare_and_swap_scm' is a thin wrapper around
'atomic_compare_exchange_weak' (where available), and therefore it may
spuriously fail on some platforms, leaving the atomic object unchanged
even when the observed value is equal to the expected value. Since
'scm_atomic_compare_and_swap_scm' returns both a boolean result and the
observed value, the caller is able to detect spurious failures when
using that API.
'atomic-box-compare-and-swap!' presents a simpler API, returning only
the observed value. The documentation advises callers to assume that
the exchange succeeded if the observed value is 'eq?' to the expected
value. It's therefore not possible to report spurious failures with
this API.
'atomic-box-compare-and-swap!' uses 'scm_atomic_compare_and_swap_scm',
and prior to this commit would simply ignore the boolean result and
return the observed value. In case of spurious failures, the caller
would legitimately conclude that the exchange had succeeded.
With this commit, 'atomic-box-compare-and-swap!' now retries in case of
spurious failures.
* libguile/atomic.c (scm_atomic_box_compare_and_swap_x): If
'scm_atomic_compare_and_swap_scm' returns false and the observed value
is equal to 'expected', then try again.
* libguile/vm-engine.c (atomic-box-compare-and-swap!): Ditto.
Fixes <https://bugs.gnu.org/28211>.
* libguile/vm-engine.c (call, call_label, handle_interrupts): Add
'new_fp' variable; set the dynamic link and return address of the frame
at NEW_FP before setting 'vp->fp'. This fixes a bug whereby, in a
multi-threaded context, the stack-marking code could run after vp->fp
has been set but before its dynamic link has been set, leading the
stack-walking code in 'scm_i_vm_mark_stack' to exit early on.
* libguile/array-handle.c (initialize_vector_handle): Add mutable_p
argument. Unless the vector handle is mutable, null out its
writable_elements member.
(scm_array_get_handle): Adapt to determine mutability of the various
arrays.
(scm_array_handle_elements, scm_array_handle_writable_elements):
Reverse the sense: instead of implementing read-only in terms of
read-write, go the other way around, adding an assertion in the
read-write case that the array handle is mutable.
* libguile/array-map.c (racp): Assert that the destination is mutable.
* libguile/bitvectors.c (SCM_F_BITVECTOR_IMMUTABLE, IS_BITVECTOR):
(IS_MUTABLE_BITVECTOR): Add a flag to indicate immutability.
(scm_i_bitvector_bits): Fix indentation.
(scm_i_is_mutable_bitvector): New helper.
(scm_array_handle_bit_elements)
((scm_array_handle_bit_writable_elements): Build writable_elements in
terms of elements.
(scm_bitvector_elements, scm_bitvector_writable_elements): Likewise.
(scm_c_bitvector_set_x): Require a mutable bitvector for the
fast-path.
(scm_bitvector_to_list, scm_bit_count): Use read-only elements()
function.
* libguile/bitvectors.h (scm_i_is_mutable_bitvector): New decl.
* libguile/bytevectors.c (INTEGER_ACCESSOR_PROLOGUE):
(INTEGER_GETTER_PROLOGUE, INTEGER_SETTER_PROLOGUE):
(INTEGER_REF, INTEGER_NATIVE_REF, INTEGER_SET, INTEGER_NATIVE_SET):
(GENERIC_INTEGER_ACCESSOR_PROLOGUE):
(GENERIC_INTEGER_GETTER_PROLOGUE, GENERIC_INTEGER_SETTER_PROLOGUE):
(LARGE_INTEGER_NATIVE_REF, LARGE_INTEGER_NATIVE_SET):
(IEEE754_GETTER_PROLOGUE, IEEE754_SETTER_PROLOGUE):
(IEEE754_REF, IEEE754_NATIVE_REF, IEEE754_SET, IEEE754_NATIVE_SET):
Setters require a mutable bytevector.
(SCM_BYTEVECTOR_SET_FLAG): New helper.
(SCM_BYTEVECTOR_SET_CONTIGUOUS_P, SCM_BYTEVECTOR_SET_ELEMENT_TYPE):
Remove helpers.
(SCM_VALIDATE_MUTABLE_BYTEVECTOR): New helper.
(make_bytevector, make_bytevector_from_buffer): Use
SCM_SET_BYTEVECTOR_FLAGS.
(scm_c_bytevector_set_x, scm_bytevector_fill_x)
(scm_bytevector_copy_x): Require a mutable bytevector.
* libguile/bytevectors.h (SCM_F_BYTEVECTOR_CONTIGUOUS)
(SCM_F_BYTEVECTOR_IMMUTABLE, SCM_MUTABLE_BYTEVECTOR_P): New
definitions.
* libguile/bytevectors.h (SCM_BYTEVECTOR_CONTIGUOUS_P): Just access one
bit.
* libguile/srfi-4.c (DEFINE_SRFI_4_C_FUNCS): Implement
writable_elements() in terms of elements().
* libguile/strings.c (scm_i_string_is_mutable): New helper.
* libguile/uniform.c (scm_array_handle_uniform_elements):
(scm_array_handle_uniform_writable_elements): Implement
writable_elements in terms of elements.
* libguile/vectors.c (SCM_VALIDATE_MUTABLE_VECTOR): New helper.
(scm_vector_elements, scm_vector_writable_elements): Implement
writable_elements in terms of elements.
(scm_c_vector_set_x): Require a mutable vector.
* libguile/vectors.h (SCM_F_VECTOR_IMMUTABLE, SCM_I_IS_MUTABLE_VECTOR):
New definitions.
* libguile/vm-engine.c (VM_VALIDATE_MUTABLE_BYTEVECTOR):
(VM_VALIDATE_MUTABLE_VECTOR, vector-set!, vector-set!/immediate)
(BV_BOUNDED_SET, BV_SET): Require mutable bytevector/vector.
* libguile/vm.c (vm_error_not_a_mutable_bytevector):
(vm_error_not_a_mutable_vector): New definitions.
* module/system/vm/assembler.scm (link-data): Mark residualized vectors,
bytevectors, and bitvectors as being read-only.
* doc/ref/vm.texi (Inlined Scheme Instructions): Add string-set!.
* libguile/vm-engine.c (string-set!): New opcode.
* module/ice-9/rdelim.scm (read-string): Reimplement in terms of a
geometrically growing list of strings, to reduce total heap usage when
reading big files.
* module/language/cps/compile-bytecode.scm (compile-function): Add
string-set! support.
* module/language/cps/types.scm (string-set!): Update for &u64 index.
* module/language/tree-il/compile-cps.scm (convert): Unbox index to
string-set!.
* module/system/vm/assembler.scm (system): Export string-set!.
* libguile/vm-engine.c (bind-kwargs):
* libguile/vm.c (vm_error_kwargs_missing_value):
* libguile/eval.c (error_missing_value)
(prepare_boot_closure_env_for_apply): Adapt to mirror VM behavior.
* libguile/keywords.c (scm_c_bind_keyword_arguments): Likewise.
* module/ice-9/eval.scm (primitive-eval): Update to error on (foo #:kw)
with a "Keyword argument has no value" instead of the horrible "odd
argument list length". Also adapts to the expected args format for
the keyword-argument-error exception printer in all cases. Matches
1.8 optargs behavior also.
* test-suite/standalone/test-scm-c-bind-keyword-arguments.c (test_missing_value):
(missing_value_error_handler): Update test.
* test-suite/tests/optargs.test: Add tests.
Implements wishlist item <https://debbugs.gnu.org/18592>.
Requested by Frank Terbeck <ft@bewatermyfriend.org>.
Based on a proposed patch by Nala Ginrut <nalaginrut@gmail.com>.
Patch ported to 2.2 by Andy Wingo <wingo@pobox.com>.
* libguile/foreign.c (cif_to_procedure): Add 'with_errno' argument.
If true, truncate result to only one return value.
(scm_i_foreign_call): Separate the arguments. Always return errno.
(pointer_to_procedure): New static function.
(scm_pointer_to_procedure_with_errno): New C API function, implemented
in terms of 'pointer_to_procedure'.
(scm_pointer_to_procedure): Reimplement in terms of
'pointer_to_procedure', no longer bound to "pointer->procedure". See
below.
(scm_i_pointer_to_procedure): New C function bound to
"pointer->procedure" which now accepts the optional #:return-errno?
keyword argument, implemented in terms of 'pointer_to_procedure'.
(k_return_errno): New keyword #:return-errno?.
* libguile/foreign.h (scm_pointer_to_procedure_with_errno): Add prototype.
* doc/ref/api-foreign.texi (Dynamic FFI): Adjust documentation.
* libguile/vm-engine.c (foreign-call): Return two values.
There are two goals: one, to use less memory per dynamic state in order
to allow millions of dynamic states to be allocated in light-weight
threading scenarios. The second goal is to prevent dynamic states from
being actively mutated in two threads at once. This second goal does
mean that dynamic states object that escape into scheme are now copies
that won't receive further updates; an incompatible change, but one
which we hope doesn't affect anyone.
* libguile/cache-internal.h: New file.
* libguile/fluids.c (is_dynamic_state, get_dynamic_state)
(save_dynamic_state, restore_dynamic_state, add_entry)
(copy_value_table): New functions.
(scm_i_fluid_print, scm_i_dynamic_state_print): Move up.
(new_fluid): No need for a number.
(scm_fluid_p: scm_is_fluid): Inline IS_FLUID uses.
(fluid_set_x, fluid_ref): Adapt to dynamic state changes.
(scm_fluid_set_x, scm_fluid_unset_x): Call fluid_set_x.
(scm_swap_fluid): Rewrite in terms of fluid_ref and fluid_set.
(swap_fluid): Use internal fluid_set_x.
(scm_i_make_initial_dynamic_state): Adapt to dynamic state
representation change.
(scm_dynamic_state_p, scm_is_dynamic_state): Use new accessors.
(scm_current_dynamic_state): Use make_dynamic_state.
(scm_dynwind_current_dynamic_state): Use new accessor.
* libguile/fluids.h: Remove internal definitions. Add new struct
definition.
* libguile/threads.h (scm_i_thread): Use scm_t_dynamic_state for dynamic
state.
* libguile/threads.c (guilify_self_1, guilify_self_2):
(scm_i_init_thread_for_guile, scm_init_guile):
(scm_call_with_new_thread):
(scm_init_threads, scm_init_threads_default_dynamic_state): Adapt to
scm_i_thread change.
(scm_i_with_guile, with_guile): Remove "and parent" suffix.
(scm_i_reset_fluid): Remove unneeded function.
* doc/ref/api-scheduling.texi (Fluids and Dynamic States): Remove
scm_make_dynamic_state docs. Update current-dynamic-state docs.
* libguile/vm-engine.c (vm_engine): Update fluid-ref and fluid-set!
inlined fast paths for dynamic state changes.
* libguile/vm.c (vm_error_unbound_fluid): Remove now-unused function.
* NEWS: Update.
* module/ice-9/deprecated.scm (make-dynamic-state): New definition.
* libguile/deprecated.h:
* libguile/deprecated.c (scm_make_dynamic_state): Move here.
* libguile/__scm.h (scm_t_dynamic_state): New typedef.
* libguile/dynstack.h:
* libguile/dynstack.c (scm_dynstack_push_fluid):
(scm_dynstack_unwind_fluid): Take raw dynstate in these internal
functions.
* libguile/throw.c (catch): Adapt to dynstack changes.
* libguile/vm-engine.c (fluid-set!): Fix name of opcode to correspond
with name of Tree-IL primitive. Fixes compilation of fluid-set! to
actually use the fluid-set! opcode.
* doc/ref/vm.texi (Dynamic Environment Instructions): Update.
* module/language/cps/compile-bytecode.scm (compile-function): Add
fluid-set! case.
* module/system/vm/assembler.scm: Update export name for
emit-fluid-set!.
* libguile/foreign.c (CODE, get_foreign_stub_code): Add explicit
handle-interrupts and return-values calls, as foreign-call will fall
through.
* libguile/gsubr.c (A, B, C, AB, AC, BC, ABC, SUBR_STUB_CODE)
(scm_i_primitive_call_ip): Same.
* libguile/vm-engine.c (VM_HANDLE_INTERRUPTS): Inline into
handle-interrupts.
(RETURN_ONE_VALUE, RETURN_VALUE_LIST): Inline into callers, and fall
through instead of returning.
(BR_BINARY, BR_UNARY, BR_ARITHMETIC, BR_U64_ARITHMETIC): Remove
conditional VM_HANDLE_INTERRUPTS, as the compiler already inserted the
handle-interrupts calls if needed.
(vm_engine): Remove VM_HANDLE_INTERRUPTS invocations except in the
handle-interrupts instruction.
* libguile/__scm.h (SCM_TICK): Always define as scm_async_tick().
* libguile/error.c (scm_syserror, scm_syserror_msg):
* libguile/fports.c (fport_read, fport_write):
* libguile/_scm.h (SCM_SYSCALL): Replace SCM_ASYNC_TICK with
scm_async_tick ().
(SCM_ASYNC_TICK, SCM_ASYNC_TICK_WITH_CODE)
(SCM_ASYNC_TICK_WITH_GUARD_CODE): Remove internal definitions. We
inline into vm-engine.c, the only place where it matters.
* libguile/async.h:
* libguile/async.c (scm_async_tick, scm_i_setup_sleep):
(scm_i_reset_sleep, scm_system_async_mark_for_thread):
* libguile/threads.h (struct scm_thread_wake_data):
* libguile/threads.h (scm_i_thread):
* libguile/threads.c (block_self, guilify_self_1, scm_std_select):
Rewrite to use sequentially-consistent atomic references.
* libguile/atomics-internal.h (scm_atomic_set_pointer):
(scm_atomic_ref_pointer): New definitions.
* libguile/finalizers.c (queue_finalizer_async): We can allocate, so
just use scm_system_async_mark_for_thread instead of the set-cdr!
shenanigans.
* libguile/scmsigs.c (take_signal):
* libguile/gc.c (queue_after_gc_hook): Adapt to new asyncs mechanism.
Can't allocate but we're just manipulating the current thread when no
other threads are running so we should be good.
* libguile/vm-engine.c (VM_HANDLE_INTERRUPTS): Inline the async_tick
business.
* doc/ref/vm.texi (Inlined Atomic Instructions): New section.
* libguile/vm-engine.c (VM_VALIDATE_ATOMIC_BOX, make-atomic-box)
(atomic-box-ref, atomic-box-set!, atomic-box-swap!)
(atomic-box-compare-and-swap!): New instructions.
* libguile/vm.c: Include atomic and atomics-internal.h.
(vm_error_not_a_atomic_box): New function.
* module/ice-9/atomic.scm: Register primitives with the compiler.
* module/language/cps/compile-bytecode.scm (compile-function): Add
support for atomic ops.
* module/language/cps/effects-analysis.scm: Add comment about why no
effects analysis needed.
* module/language/cps/reify-primitives.scm (primitive-module): Add case
for (ice-9 atomic).
* module/language/tree-il/primitives.scm (*effect-free-primitives*):
(*effect+exception-free-primitives*): Add atomic-box?.
* module/system/vm/assembler.scm: Add new instructions.
* test-suite/tests/atomic.test: Test with compilation and
interpretation.
* doc/ref/vm.texi (Top-Level Environment Instructions): Update
documentation.
* libguile/_scm.h (SCM_OBJCODE_MINOR_VERSION): Bump, sadly.
* module/system/vm/assembler.scm (*bytecode-minor-version*): Bump.
* libguile/vm-engine.c (define!): Change to store variable in dst slot.
* module/language/tree-il/compile-cps.scm (convert):
* module/language/cps/compile-bytecode.scm (compile-function): Adapt to
define! change.
* module/language/cps/effects-analysis.scm (current-module): Fix define!
effects. Incidentally here was the bug: in Guile 2.2 you can't have
effects on different object kinds in one instruction, without
reverting to &unknown-memory-kinds.
* test-suite/tests/compiler.test ("regression tests"): Add a test.
* libguile/vm-engine.c (SP_REF_SLOT, SP_SET_SLOT): New defines.
(push, pop, mov, long-mov): Move full slots. Fixes 32-bit with
unboxed 64-bit stack values; before when shuffling these values
around, we were only shuffling the lower 32 bits on 32-bit platforms.
* libguile/vm-engine.c (VM_VALIDATE): Refactor some type-related
assertions to use a common macro.
(vector-length, vector-set!/immediate): Fix the proc mentioned in the
error message.
* libguile/vm-engine.c (BR_U64_SCM_COMPARISON): New helper.
(br-if-u64-<=-scm, br-if-u64-<-scm, br-if-u64-=-scm)
(br-if-u64->-scm, br-if-u64->=-scm): New instructions, to compare an
untagged u64 with a tagged SCM. Avoids many u64->scm operations.
* module/language/cps/compile-bytecode.scm (compile-function):
* module/language/cps/effects-analysis.scm:
* module/language/cps/type-fold.scm:
* module/system/vm/assembler.scm:
* module/system/vm/disassembler.scm (code-annotation, compute-labels):
* module/language/cps/primitives.scm (*branching-primcall-arities*): Add
support for new opcodes.
* module/language/cps/specialize-numbers.scm
(specialize-u64-scm-comparison): New helper.
* module/language/cps/specialize-numbers.scm (specialize-operations):
Specialize u64 comparisons.
* module/language/cps/types.scm (true-comparison-restrictions): New helper.
(define-comparison-inferrer): Use the new helper. Add support for
u64-<-scm et al.
* libguile/vm-engine.c (logsub): New op.
* module/language/cps/effects-analysis.scm (logsub):
* module/language/cps/types.scm (logsub):
* module/system/vm/assembler.scm (system): Add support for the new op.
* module/language/tree-il/compile-cps.scm (canonicalize):
Rewrite (logand x (lognot y)) to (logsub x y).
* libguile/vm-engine.c (bv-s8-ref, bv-s16-ref, bv-s32-ref, bv-s64-ref):
Unbox index and return unboxed S32 value.
(bv-s8-set!, bv-s16-set!, bv-s32-set!, bv-s64-set!): Unbox index and
take unboxed S32 value.
(bv-u8-ref, bv-u16-ref, bv-u32-ref, bv-u64-ref)
(bv-s8-set!, bv-s16-set!, bv-s32-set!, bv-s64-set!): Likewise, but
with unsigned values.
(bv-f32-ref, bv-f32-set!, bv-f64-ref, bv-f64-set!): Use memcpy to
access the value so we don't have to think about alignment. GCC will
inline this to a single instruction on architectures that support
unaligned access.
* libguile/vm.c (vm_error_out_of_range_uint64)
(vm_error_out_of_range_int64): New helpers.
* module/language/cps/slot-allocation.scm (compute-var-representations):
All bytevector ref operations produce untagged values.
* module/language/cps/types.scm (define-bytevector-accessors): Update
for bytevector untagged indices and values.
* module/language/cps/utils.scm (compute-constant-values): Fix s64
case.
* module/language/tree-il/compile-cps.scm (convert): Box results of all
bytevector accesses, and unbox incoming indices and values.
* libguile/instructions.c (FOR_EACH_INSTRUCTION_WORD_TYPE): Add word
types for immediate f64 and u64 values.
(TYPE_WIDTH): Bump up by a bit, now that we have 32 word types.
(NOP, parse_instruction): Use 64-bit meta type.
* libguile/vm-engine.c (load-f64, load-u64): New instructions.
* module/language/bytecode.scm (compute-instruction-arity): Add parser
for new instruction word types.
* module/language/cps/compile-bytecode.scm (compile-function): Add
special-cased assemblers for new instructions, and also for scm->u64
and u64->scm which I missed before.
* module/language/cps/effects-analysis.scm (load-f64, load-u64): New
instructions.
* module/language/cps/slot-allocation.scm (compute-needs-slot): load-f64
and load-u64 don't need slots.
(compute-var-representations): Update for new instructions.
* module/language/cps/specialize-primcalls.scm (specialize-primcalls):
Specialize scm->f64 and scm->u64 to make-f64 and make-u64.
* module/language/cps/types.scm (load-f64, load-u64): Wire up to type
inference, though currently type inference only runs before
specialization.
* module/language/cps/utils.scm (compute-defining-expressions): For some
reason I don't understand, it's possible to see two definitions that
are equal but not equal? here. Allow for now.
(compute-constant-values): Punch through type conversions to get
constant u64/f64 values.
* module/system/vm/assembler.scm (assembler): Support for new word
types. Export the new assemblers.
* libguile/vm-engine.c (add/immediate, sub/immediate)
(uadd/immediate, usub/immediate, umul/immediate): New instructions.
* module/language/cps/compile-bytecode.scm (compile-function):
* module/language/cps/slot-allocation.scm (compute-needs-slot):
* module/language/cps/types.scm:
* module/system/vm/assembler.scm (system):
* module/language/cps/effects-analysis.scm: Support
for new instructions.
* module/language/cps/optimize.scm (optimize-first-order-cps): Move
primcall specialization to the last step -- the only benefit of doing
it earlier was easier reasoning about side effects, and we're already
doing that in a more general way with (language cps types).
* module/language/cps/specialize-primcalls.scm (specialize-primcalls):
Specialize add and sub to add/immediate and sub/immediate, and
specialize u64 addition as well. U64 specialization doesn't work now
though because computing constant values doesn't work for U64s; oh
well.
* libguile/vm-engine.c: Remove add1 and sub1 instructions. Will replace
with add/immediate and sub/immediate.
* module/language/tree-il/peval.scm (peval): If we reify a new
<primcall>, expand it. Removes 1- and similar primcalls.
* module/language/tree-il/primitives.scm: Don't specialize (+ x 1) to 1+.
(expand-primcall): New export, does a single primcall expansion.
(expand-primitives): Use the new helper.
* module/language/cps/effects-analysis.scm:
* module/language/cps/primitives.scm:
* module/language/cps/types.scm:
* module/system/vm/assembler.scm: Remove support for add1 and sub1 CPS
primitives.
* test-suite/tests/peval.test ("partial evaluation"): Adapt tests that
expect 1+/1- to expect +/-.
* module/language/tree-il/compile-cps.scm (convert): bv-f32-ref,
bv-f32-set!, bv-f64-ref, and bv-f64-set! take the index as an untagged
u64 value.
* module/language/cps/types.scm (define-bytevector-uaccessors): New
helper, used while migrating bytevectors to take unboxed indexes.
Adapt f32/f64 accessors to use this definition helper.
* libguile/vm-engine.c (BV_FLOAT_REF, BV_FLOAT_SET): The index is
unboxed.
* libguile/vm-engine.c (vm_engine)
* libguile/vm.c (vm_apply_non_program_code): Arrange so that the code to
apply a non-program has its own IP, so that frame-instruction-pointer
for a non-program application doesn't point into the previously active
frame.
* libguile/vm-engine.c (fadd, fsub, fmul, fdiv): New instructions.
* module/language/cps/effects-analysis.scm:
* module/language/cps/types.scm: Wire up support for new instructions.
* module/system/vm/assembler.scm: Export emit-fadd and friends.
* module/language/tree-il/compile-cps.scm (convert): Box results of
bv-f32-ref and bv-f64-ref. Unbox the argument to bv-f32-set! and
bv-f64-set!.
* libguile/vm-engine.c (bv-f32-ref, bv-f64-ref): Results are raw.
(bv-f32-set!, bv-f64-set!): Take unboxed arguments.
* module/system/vm/assembler.scm (emit-scm->f64, emit-f64->scm):
Export.
* module/language/cps/compile-bytecode.scm (compile-function):
* module/language/cps/effects-analysis.scm: Add support for scm->f64 and
f64->scm.
* module/language/cps/slot-allocation.scm (compute-var-representations):
Add cases for primops returning raw values.
* module/language/cps/types.scm (bv-f32-ref, bv-f32-set!)
(bv-f64-ref, bv-f64-set!): Deal in &f64 values instead of reals.
