* module/language/cps/compile-bytecode.scm (compile-function): Expect
eq-constant? instead of eq-null?, etc.
* module/language/cps/effects-analysis.scm: Likewise.
* module/language/cps/reify-primitives.scm (reify-primitives): For
eq-constant?, reify a $const unless the constant is an immediate whose
encoding fits in 16 bits.
* module/language/cps/type-fold.scm (materialize-constant): Helper to
make a constant from a type, min, and max.
(fold-eq-constant?): New helper.
(eq-constant?): New folder.
(undefined?): Define specifically.
(define-nullish-predicate-folder): Renamd from
define-special-immediate-predicate-folder. Use only for null?, false,
and nil?.
(*branch-reducers*): New mechanism. Reduce eq? to eq-constant? if
possible.
(local-type-fold): Refactor to use materialize-constant, and to allow
reducing branches.
* module/language/cps/types.scm (constant-type): Return three values
instead of a type entry.
(constant-type-entry): New function that returns a type entry. Adapt
callers.
(infer-constant-comparison): New helper.
(eq-constant?): New inferrer.
(undefined?): New inferrer.
* module/language/tree-il/compile-bytecode.scm (eq-constant?): Fix
truncate-bits signed arg.
(define-immediate-type-predicate): Adapt to visit-immediate-tags
change.
* module/language/tree-il/compile-cps.scm (convert): Convert eq? to
constant to eq-constant?. Advantaged is that it gets fixnums and
chars in addition to special immediates.
* module/language/tree-il/cps-primitives.scm (define-immediate-type-predicate):
Adapt to allow #f as pred.
* module/system/base/types/internal.scm (immediate-tags): Use #f as pred
for false, nil, etc.
(immediate-bits->scm): Adapt.
* module/system/vm/assembler.scm (emit-eq-null?, emit-eq-nil?)
(emit-eq-false?, emit-eq-true?, emit-unspecified?, emit-eof-object?):
Remove specialized emitters.
* module/system/vm/assembler.scm (define-immediate-tag=?-macro-assembler):
Allow for pred to be #f.
* module/system/vm/disassembler.scm (define-immediate-tag-annotation):
Adapt to pred being #f.
* doc/ref/vm.texi (Instruction Set, Constant Instructions): Document new
instruction.
* libguile/instructions.c (FOR_EACH_INSTRUCTION_WORD_TYPE): New first
word kind with zi16 operand.
* libguile/jit.c (compile_make_immediate, compile_make_immediate_slow):
New compilers.
(COMPILE_X8_S8_ZI16): New operand kind.
* libguile/vm-engine.c (make-immediate): New instruction.
* module/language/bytecode.scm:
* module/system/vm/assembler.scm (encode-X8_S8_ZI16<-/shuffle):
(signed-bits, load-constant): Support the new instruction kind.
* module/system/vm/disassembler.scm (disassemblers)
(sign-extended-immediate, code-annotation): Support for zi16
operands.
This is an opportunity to make a new interface that can be more
efficient in 3.0 (because no generic array support), easier to read (no
need for 'not'), and more consistent with other bitvector interfaces.
* NEWS: Add entry.
* doc/ref/api-data.texi (Bit Vectors): Update.
* libguile/array-handle.h (bitvector_ref, scm_array_get_handle): Adapt
to bitvector changes.
* libguile/bitvectors.h:
* libguile/bitvectors.c (scm_c_bitvector_bit_is_set)
(scm_c_bitvector_bit_is_clear): New functions.
* libguile/deprecated.h:
* libguile/deprecated.c (scm_bitvector_ref): Deprecate.
* module/ice-9/sandbox.scm (bitvector-bindings): Replace
bitvector-ref with bitvector-bit-set? / bitvector-bit-clear?.
* module/system/vm/disassembler.scm (instruction-has-fallthrough): Use
bitvector-bit-clear?.
* test-suite/tests/bitvectors.test: Update.
* libguile/frames.h: Add machine return address to diagram.
(SCM_FRAME_MACHINE_RETURN_ADDRESS):
(SCM_FRAME_SET_MACHINE_RETURN_ADDRESS): New macros.
(SCM_FRAME_PREVIOUS_SP):
(SCM_FRAME_DYNAMIC_LINK):
(SCM_FRAME_SET_DYNAMIC_LINK): Adapt for new frame size.
* libguile/vm-engine.c (halt): Set frame size to 3.
(call, call-label): Set mRA to 0.
* libguile/vm.c (push_interrupt_frame, reinstate_continuation_x):
(scm_call_n): Set frame size to 3. In push_interrupt_frame, init the
mRA of the frame.
(vm_builtin_call_with_values_code, vm_handle_interrupt_code): Allocate
larger frames.
* module/language/cps/slot-allocation.scm (allocate-slots): Frame size
is 3.
* module/system/vm/disassembler.scm (define-clobber-parser): Bump frame
size.
* libguile/frames.c (scm_frame_return_address): Use
SCM_FRAME_VIRTUAL_RETURN_ADDRESS.
(scm_c_frame_previous): Likewise.
* libguile/frames.h: Update diagram for new names.
(union scm_vm_stack_element): Rename "as_ip" to "as_vcode", and
add "as_mcode" for machine code pointers.
(SCM_FRAME_VIRTUAL_RETURN_ADDRESS)
(SCM_FRAME_SET_VIRTUAL_RETURN_ADDRESS): Rename to these, from
SCM_FRAME_RETURN_ADDRESS and SCM_FRAME_SET_RETURN_ADDRESS.
* libguile/vm-engine.c (halt, call, call-label, return-values)
(return-from-interrupt): Adapt to renamings. Make "halt" have frame
size as a parameter.
* libguile/vm.c (scm_i_vm_mark_stack): Adapt to renaming.
(push_interrupt_frame): Take mRA as additional argument. In future we
will set it as frame mRA.
(capture_continuation): Adapt to renaming.
(scm_call_n): Adapt to renaming and make frame size adjustable.
(push_interrupt_frame, reinstate_continuation_x): Make frame size
adjustable.
* module/language/cps/slot-allocation.scm (allocate-slots): Make frame
size adjustable.
* libguile/intrinsics.h (scm_t_thread_mra_intrinsic): New type; use for
push_interrupt_frame.
(scm_t_thread_u8_scm_sp_vra_intrinsic): Rename from the same but was
"ra" instead of "vra", and change type to uint32_t*.
* module/system/vm/disassembler.scm (define-clobber-parser):
Parameterize clobber set for calls by frame size.
* module/system/vm/disassembler.scm (define-stack-effect-parser)
(define-clobber-parser):
* module/system/vm/frame.scm (compute-frame-sizes, compute-killv):
Fix bug introduced in dd8bf6a98c whereby
a call would clobber all locals, leaving the backtrace much less
useful than it should be.
* libguile/vm-engine.c (s64-imm=?, u64-imm<?, imm-u64<?, s64-imm<?)
(imm-s64<?): New instructions.
* libguile/instructions.c (FOR_EACH_INSTRUCTION_WORD_TYPE): Add new
X8_S12_Z12 word type used by the new S64/immediate instructions. A
Z12 is a 12-bit signed integer immediate.
* module/system/vm/assembler.scm: Export new instructions, and add
X8_S12_Z12 support. Also, add missing shufflers for X8_S12_C12.
* module/language/bytecode.scm (compute-instruction-arity):
* module/system/vm/disassembler.scm (unpack-s12, disassembler): Add
support for X8_S12_Z12.
* module/language/cps/types.scm (define-predicate-inferrer/param): New
helper.
(u64-=, u64-<, s64-<): Remove type checkers; this procedure does not
cause &type-check.
(u64-imm=?, s64-imm=?, u64-imm<?, imm-u64<?, s64-imm<?, imm-s64<?):
New type inferrers.
* module/language/cps/type-fold.scm (define-unary-branch-folder*): New
helper.
(u64-imm=?, s64-imm=?, u64-imm<?, imm-u64<?, s64-imm<?, imm-s64<?):
New branch folders.
* module/language/cps/reify-primitives.scm (reify-primitives): Reify
constants for new immediate branching primcalls if values out of
range.
* module/language/cps/effects-analysis.scm: Add support for new
primcalls.
* module/language/cps/compile-bytecode.scm (compile-function): Add
support for new primcalls and instructions. Compile u64-imm-= to
s64-imm=?.
* libguile/throw.h (scm_ithrow, scm_throw): Mark as SCM_NORETURN.
* libguile/throw.c (scm_throw, scm_ithrow): Adapt to not return.
* libguile/vm-engine.c (throw, throw/value, throw/value+data): New
instructions.
* libguile/vm.c (vm_throw, vm_throw_with_value)
(vm_throw_with_value_and_data): New helpers.
* module/language/cps/compile-bytecode.scm (compile-function): Add cases
for new instructions.
* module/language/cps/prune-bailouts.scm (prune-bailouts): More simple,
now that there are no $kreceives in play.
* module/language/cps/reify-primitives.scm (reify-clause): Update
reification of no-clause functions to use new throw op.
* module/language/tree-il/compile-cps.scm (convert): Convert invocations
of the variable-arity 'throw primitive from Tree-IL to the new
fixed-arity CPS instructions.
* module/system/vm/assembler.scm (emit-throw/value*)
(emit-throw/value+data*, emit-throw): Export new instructions.
* module/system/vm/disassembler.scm (code-annotation): Add annotation.
* module/system/vm/disassembler.scm (immediate-tag-annotations)
(heap-tag-annotations): Generate using tag visitors.
* module/system/vm/assembler.scm
(define-immediate-tag=?-macro-assembler)
(define-heap-tag=?-macro-assembler): New helpers. Use these to
generate immediate-tag=? and heap-tag=? macro assemblers.
* module/system/base/types/internal.scm (visit-immediate-tags)
(visit-heap-tags): New helpers.
* module/system/base/types/internal.scm (define-tags, define-tag): New
helpers.
(immediate-tags, heap-tags): Use define-tags to define all of the tag
values. For consistency some names are changed:
(%tc2-fixnum): Renamed from %tc2-inum.
(%tc8-flag): Removed.
(%tc16-null): Renamed from %tc16-eol.
(%tc7-weak-vector): Renamed from %tc7-wvect.
(%tc7-hash-table): Renamed from %tc7-hashtable.
(%tc7-flonum): Renamed from %tc7-real.
(visit-heap-tags, visit-immediate-tags): New exports.
* module/system/base/types.scm (cell->object): Adapt to renamings.
(match-bit-pattern): Add a case to match immediate SCM bits
literally.
(scm->object): Adapt to use the special immediate values directly.
* module/system/vm/disassembler.scm (immediate-tag-annotations):
(heap-tag-annotations): Adapt to new names.
* module/system/vm/assembler.scm: Export assemblers for the new
instructions.
* module/system/vm/disassembler.scm (immediate-tag-annotations)
(heap-tag-annotations, code-annotation): Add support for disassembling
the new instructions, with good annotations.
(compute-labels, instruction-has-fallthrough?, define-jump-parser):
Add support for new branching instructions.
* libguile/Makefile.am (libguile_@GUILE_EFFECTIVE_VERSION@_la_SOURCES):
(DOT_X_FILES, DOT_DOC_FILES, noinst_HEADERS): Add syntax.c and
syntax.h.
* libguile/evalext.c (scm_self_evaluating_p):
* libguile/goops.c (class_syntax, scm_class_of, scm_goops_early_init):
* libguile/init.c (scm_init_guile):
* libguile/print.c (iprin1):
* libguile/tags.h (scm_tc7_syntax):
* module/oop/goops.scm (<syntax>):
* module/system/base/types.scm (%tc7-syntax, cell->object):
* module/system/vm/disassembler.scm (code-annotation): Wire up the new
data type.
* libguile/syntax.c:
* libguile/syntax.h: New files.
* module/ice-9/boot-9.scm: Move new definitions to (system syntax
internal).
* module/system/syntax.scm (print-syntax): New helper.
* module/system/vm/assembler.scm (statically-allocatable?)
(intern-constant, link-data): Arrange to be able to write syntax
objects into images.
* module/language/cps/types.scm (&syntax): New type. Remove
&hash-table; it was never detected, an internal binding, and we need
the bit to avoid going into bignum territory.
* 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 (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.
* module/language/cps/compile-bytecode.scm (compile-function):
* module/language/cps/primitives.scm (*branching-primcall-arities*):
* module/language/cps/type-fold.scm (equal?):
* module/language/cps/types.scm (equal?):
* module/language/tree-il/compile-cps.scm (convert): `equal?' is no
longer a branching primcall, because it isn't inline. The
implementation could lead to bad backtraces also, as it didn't save
the IP, and actually could lead to segfaults as it didn't reload the
SP after the return. There is an eqv? fast-path, though.
* module/system/vm/assembler.scm (br-if-equal): Remove interface.
* module/system/vm/disassembler.scm (code-annotation):
(compute-labels): No need to handle br-if-equal.
* module/language/cps/compile-bytecode.scm (compile-function): Remove
special cases for nullary and unary returns; instead always use
return-values and rely on hinting to try to place values in the right
slot already.
* module/system/vm/assembler.scm (emit-init-constants): Use
return-values.
* module/system/vm/disassembler.scm (code-annotation): Add annotation
for return-values.
* doc/ref/vm.texi: Update for new stack layout.
* module/system/vm/disassembler.scm (code-annotation): Print the frame
sizes after alloc-frame, reset-frame, etc to make reading the
disassembly easier.
* module/system/vm/disassembler.scm (define-stack-effect-parser)
(stack-effect-parsers, instruction-stack-size-after): New stack size
facility.
(define-clobber-parser, clobber-parsers, instruction-slot-clobbers):
Take incoming and outgoing stack sizes as arguments to interpret
SP-relative clobbers.
* module/system/vm/frame.scm (compute-frame-sizes): New helper that
computes frame sizes for each position in a function.
(compute-killv): Adapt to compute the clobbered set given the computed
frame sizes.
* libguile/vm-engine.c: Renumber opcodes, and take the opportunity to
fold recent additions into more logical places. Be more precise when
describing the encoding of operands, to shuffle local references only
and not constants, immediates, or other such values.
(SP_REF, SP_SET): New helpers.
(BR_BINARY, BR_ARITHMETIC): Take full 24-bit operands. Our shuffle
strategy is to emit push when needed to bring far locals near, then
pop afterwards, shuffling away far destination values as needed; but
that doesn't work for conditionals, unless we introduce a trampoline.
Let's just do the simple thing for now. Native compilation will use
condition codes.
(push, pop, drop): Back from the dead! We'll only use these for
temporary shuffling though, when an opcode can't address the full
24-bit range.
(long-fmov): New instruction, like long-mov but relative to the frame
pointer.
(load-typed-array, make-array): Don't use a compressed encoding so
that we can avoid the shuffling case. It would be a pain, given that
they have so many operands already.
* module/language/bytecode.scm (compute-instruction-arity): Update for
new instrution word encodings.
* module/system/vm/assembler.scm: Update to expose some opcodes
directly, without the need for shuffling wrappers. Adapt to
instruction word encodings change.
* module/system/vm/disassembler.scm (disassembler): Adapt to instruction
coding change.
* libguile/vm-engine.c (make-array): Change to only have
restricted-width operands in the first word. This instruction is
currently unused, however.
* module/system/vm/assembler.scm (assembler):
* module/system/vm/disassembler.scm (disassembler): Disallow
restricted-width operands in tail words.
* module/system/vm/disassembler.scm (instruction-length):
(instruction-has-fallthrough?, instruction-relative-jump-targets):
(instruction-slot-clobbers): New interfaces; to be used when
determining the bindings available at a given point of a procedure.
* module/system/vm/disassembler.scm (code-annotation): Add call-label
and tail-call-label cases.
(disassemble-addr): With call-label we can see sets of mutually
recursive functions, so keep a global "visited?" set.
