* module/language/cps/compile-bytecode.scm (compile-function): Add
support for tag-fixnum/unlikely.
* module/language/cps/cse.scm (compute-equivalent-subexpressions): Add
equivalent subexpressions for tag-fixnum.
* module/language/cps/effects-analysis.scm:
* module/language/cps/primitives.scm (*macro-instruction-arities*): Add
tag-fixnum/unlikely.
* module/language/cps/specialize-numbers.scm (specialize-u64-unop)
(specialize-u64-binop, specialize-u64-shift)
(specialize-u64-comparison): Make the arg unboxers and result boxers
into keyword arguments.
(specialize-s64-unop): New helper.
(specialize-fixnum-comparison, specialize-fixnum-scm-comparison)
(specialize-scm-fixnum-comparison): Rename from
specialize-s64-comparison et al. Perhaps this should be expanded
again to include the whole s64 range, once we start to expand scm->s64
et al.
(specialize-operations): Specialize arithmetic, etc on signed
operands and results. Use less powerful unboxing/boxing ops if
possible -- e.g. tag-fixnum instead of u64->scm. Prefer fixnum
comparisons over u64 comparisons.
(compute-specializable-fixnum-vars): New helper.
(compute-specializable-phis): Specialize fixnum phis as well.
(specialize-primcalls): Specialize untag-fixnum of a constant to
load-s64.
* module/language/cps/type-fold.scm (u64->scm, s64->scm):
(scm->s64, scm->u64): Reduce to fixnum ops where possible.
* module/language/cps/types.scm: Remove type checkers for ops that don't
throw type errors. Alias tag-fixnum/unlikely to tag-fixnum.
* libguile/vm-engine.c (srsh, srsh/immediate): New instructions.
* module/language/cps/compile-bytecode.scm (compile-function):
* module/language/cps/effects-analysis.scm:
* module/language/cps/reify-primitives.scm (reify-primitives):
* module/language/cps/slot-allocation.scm (compute-var-representations):
* module/language/cps/specialize-primcalls.scm (specialize-primcalls):
* module/language/cps/types.scm (srsh, srsh/immediate):
* module/system/vm/assembler.scm: Add support for new instructions.
* module/language/cps/types.scm (ulsh, ursh): Remove type checkers, as
these are effect-free. Limit range of ursh count.
* module/language/tree-il/compile-cps.scm (canonicalize): Convert <=,
>=, and > primcalls to <.
* module/language/cps/primitives.scm (*comparisons*):
* module/language/cps/effects-analysis.scm: Remove superfluous
primcalls.
* module/language/cps/specialize-numbers.scm
(specialize-u64-scm-comparison): Only emit < primcalls for ordered
comparisons.
(specialize-scm-u64-comparison): New helper.
* module/language/cps/specialize-numbers.scm (specialize-operations):
Remove support for >=, <=, and the like.
* module/language/cps/type-fold.scm: Remove folders for <= and so on.
* module/language/cps/types.scm (define-=-inferrer, define-<-inferrer):
New helpers; use them for all = and < variants. Remove checkers and
inferrers for <= and the like.
* module/language/cps/compile-bytecode.scm (compile-function): Remove
unnecessary cases.
* 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.
* libguile/vm-engine.c (lsh, rsh, lsh/immediate, rsh/immediate): New
instructions taking unboxed bit counts.
* module/language/cps/compile-bytecode.scm (compile-function):
* module/language/cps/effects-analysis.scm:
* module/language/cps/specialize-numbers.scm (specialize-f64-unop):
(specialize-u64-unop): Add ability to specialize add/immediate, etc,
and add lsh/immediate as well.
(specialize-u64-binop, specialize-u64-shift): Move rsh/lsh
specialization to its own procedure, given that the bit count is
already unboxed.
(specialize-operations): Adapt to support more /immediate
instructions.
* module/language/cps/type-fold.scm (mul): Reify an lsh/immediate
instead of an ash.
* module/language/cps/types.scm (compute-ash-range): Add type inferrers
for lsh, rsh, and their immediate variants.
* module/system/vm/assembler.scm: Export emit-lsh and so on.
* module/language/tree-il/compile-cps.scm (convert): Convert "ash" on
immediates to rsh/immediate or lsh/immediate.
* module/language/cps/compile-bytecode.scm (compile-function): Update
add/immediate, etc.
* module/language/cps/slot-allocation.scm (compute-needs-slot):
Simplify.
* module/language/cps/specialize-primcalls.scm (specialize-primcalls):
Rework for add/immediate, etc.
* module/language/cps/types.scm (define-unary-result!)
(define-binary-result!): Take types as params instead of variables, so
we can share this code with /imm variants.
(add/immediate, sub/immediate, uadd/immediate, usub/immediate)
(umul/immediate, ulsh/immediate, ursh/immediate): Update type
inferrers.
* module/language/cps/closure-conversion.scm (convert-one):
* module/language/cps/compile-bytecode.scm (compile-function):
* module/language/cps/effects-analysis.scm (define-primitive-effects*)
(expression-effects, primitive-effects): Only fall back to passing
constant table if the immediate parameter is false. Adapt closure
effects analysis.
* module/language/cps/slot-allocation.scm (compute-needs-slot): Remove
special cases for free-ref/free-set!.
* module/language/cps/compile-bytecode.scm (compile-function): Make
load-f64, load-s64, and load-u64 take an immediate parameter instead
of a CPS value.
* module/language/cps/effects-analysis.scm: Remove CPS argument from
immediate load instructions.
* module/language/cps/slot-allocation.scm (compute-needs-slot): Remove
special case for load-64 etc.
* module/language/cps/specialize-numbers.scm
(specialize-u64-scm-comparison): Adapt.
* module/language/cps/specialize-primcalls.scm (specialize-primcalls):
Adapt.
* module/language/cps/types.scm (define-type-inferrer*): Also take param
argument.
(define-type-inferrer, define-predicate-inferrer): Adapt.
(define-type-inferrer/param): New helper.
(load-f64, load-s64, load-u64): Adapt inferrers to pass on value from
param.
* module/language/cps/utils.scm (compute-constant-values): Adapt.
* module/language/cps.scm ($primcall): Add "param" member, which will be
a constant parameter to the primcall. The idea is that constants used
by primcalls as immediates don't need to participate in optimizations
in any way -- they should not participate in CSE, have the same
lifetime as the primcall so not part of DCE either, and don't need
slot allocation. Indirecting them through a named $const binding is
complication for no benefit. This change should eventually improve
compilation time and memory usage, once we fully take advantage of it,
as the number of labels and variables will go down.
* module/language/cps/closure-conversion.scm:
* module/language/cps/compile-bytecode.scm:
* module/language/cps/constructors.scm:
* module/language/cps/contification.scm:
* module/language/cps/cse.scm:
* module/language/cps/dce.scm:
* module/language/cps/effects-analysis.scm:
* module/language/cps/elide-values.scm:
* module/language/cps/handle-interrupts.scm:
* module/language/cps/licm.scm:
* module/language/cps/peel-loops.scm:
* module/language/cps/prune-bailouts.scm:
* module/language/cps/prune-top-level-scopes.scm:
* module/language/cps/reify-primitives.scm:
* module/language/cps/renumber.scm:
* module/language/cps/rotate-loops.scm:
* module/language/cps/self-references.scm:
* module/language/cps/simplify.scm:
* module/language/cps/slot-allocation.scm:
* module/language/cps/specialize-numbers.scm:
* module/language/cps/specialize-primcalls.scm:
* module/language/cps/split-rec.scm:
* module/language/cps/type-checks.scm:
* module/language/cps/type-fold.scm:
* module/language/cps/types.scm:
* module/language/cps/utils.scm:
* module/language/cps/verify.scm:
* module/language/tree-il/compile-cps.scm: Adapt all users.
* module/language/cps/compile-bytecode.scm (compile-function): Rename
the binary* helper back to binary, update uses, and remove logtest
branch as we no longer put logtest in test context.
* module/language/cps/primitives.scm (*comparisons*): Remove logtest.
* module/language/cps/type-fold.scm: Remove logtest folder.
(logbit?): Fold to logand.
* module/language/cps/types.scm (logtest): Update to be a type inferrer
and not a predicate inferrer.
* module/language/tree-il/peval.scm (peval): Transform logtest and
logbit? to (zero? (logand _ _)).
* module/language/cps/compile-bytecode.scm (compile-function):
* module/language/cps/effects-analysis.scm:
* module/language/cps/primitives.scm (*comparisons*):
* module/language/cps/type-fold.scm:
* module/language/cps/types.scm: Remove compiler support for u64-scm
comparisons, as this is now inlined.
* module/language/cps/compile-bytecode.scm (compile-function):
* module/language/cps/cse.scm (compute-equivalent-subexpressions):
* module/language/cps/effects-analysis.scm:
* module/language/cps/primitives.scm (*macro-instruction-arities*):
* module/language/cps/specialize-numbers.scm (compute-specializable-vars):
* module/language/cps/types.scm: Add new variants of u64->scm and
s64->scm that can't be replaced by CSE's auxiliary definitions, so we
can sink unlikely allocations to side branches. This is a hack until
we can get allocation sinking working
* module/language/cps/compile-bytecode.scm (compile-function): Add
support for heap-object? in test context.
* module/language/cps/primitives.scm (*immediate-predicates*):
(*heap-type-predicates*, *comparisons*): New sets of predicates for
which the VM has branching operations.
(heap-type-predicate?): New predicate.
(*branching-primcall-arities*): Make a hash table.
(branching-primitive?, prim-arity): Adapt
to *branching-primcall-arities* being a hash table.
* module/language/cps/type-fold.scm (heap-object?): Add folder.
* module/language/tree-il/compile-cps.scm (convert): Precede heap type
checks with a heap-object? guard.
* 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!.
* module/language/cps/compile-bytecode.scm (compile-function): Check for
fallthrough after $kclause too; possible to need to jump if clause
tails are contified.
* module/language/cps/contification.scm (compute-contification-candidates):
Enable inter-clause contification.
* module/language/cps/compile-bytecode.scm (compile-function):
* module/language/cps/slot-allocation.scm ($allocation)
(lookup-nlocals, compute-frame-size, allocate-slots): Adapt to
have one frame size per function, for all clauses.
* 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!.
* 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 (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/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.
