(deftype local-tn-vector () `(simple-vector ,local-tn-limit))
(deftype local-tn-bit-vector () `(simple-bit-vector ,local-tn-limit))
-;;; Type of an SC number.
+;;; type of an SC number
(deftype sc-number () `(integer 0 (,sc-number-limit)))
-;;; Types for vectors indexed by SC numbers.
+;;; types for vectors indexed by SC numbers
(deftype sc-vector () `(simple-vector ,sc-number-limit))
(deftype sc-bit-vector () `(simple-bit-vector ,sc-number-limit))
-;;; The different policies we can use to determine the coding strategy.
-(deftype policies ()
+;;; the different policies we can use to determine the coding strategy
+(deftype ltn-policy ()
'(member :safe :small :fast :fast-safe))
\f
;;;; PRIMITIVE-TYPEs
;;; a known function.
(def!struct (template (:constructor nil)
#-sb-xc-host (:pure t))
- ;; The symbol name of this VOP. This is used when printing the VOP
+ ;; the symbol name of this VOP. This is used when printing the VOP
;; and is also used to provide a handle for definition and
;; translation.
(name nil :type symbol)
- ;; A Function-Type describing the arg/result type restrictions. We
- ;; compute this from the Primitive-Type restrictions to make life
- ;; easier for IR1 phases that need to anticipate LTN's template
- ;; selection.
+ ;; the arg/result type restrictions. We compute this from the
+ ;; PRIMITIVE-TYPE restrictions to make life easier for IR1 phases
+ ;; that need to anticipate LTN's template selection.
(type (required-argument) :type function-type)
- ;; Lists of restrictions on the argument and result types. A
+ ;; lists of restrictions on the argument and result types. A
;; restriction may take several forms:
;; -- The restriction * is no restriction at all.
;; -- A restriction (:OR <primitive-type>*) means that the operand
;; the type tested by the predicate, used when we want to represent
;; the type constraint as a Lisp function type.
;;
- ;; If Result-Types is :Conditional, then this is an IF-xxx style
+ ;; If RESULT-TYPES is :CONDITIONAL, then this is an IF-FOO style
;; conditional that yeilds its result as a control transfer. The
;; emit function takes two info arguments: the target label and a
;; boolean flag indicating whether to negate the sense of the test.
(arg-types nil :type list)
(result-types nil :type (or list (member :conditional)))
- ;; The primitive type restriction applied to each extra argument or
+ ;; the primitive type restriction applied to each extra argument or
;; result following the fixed operands. If NIL, no extra
;; args/results are allowed. Otherwise, either * or a (:OR ...) list
;; as described for the {ARG,RESULT}-TYPES.
;; conditionally compile for different target hardware
;; configuarations (e.g. FP hardware.)
(guard nil :type (or function null))
- ;; The policy under which this template is the best translation.
+ ;; the policy under which this template is the best translation.
;; Note that LTN might use this template under other policies if it
- ;; can't figure our anything better to do.
- (policy (required-argument) :type policies)
- ;; The base cost for this template, given optimistic assumptions
+ ;; can't figure out anything better to do.
+ (ltn-policy (required-argument) :type ltn-policy)
+ ;; the base cost for this template, given optimistic assumptions
;; such as no operand loading, etc.
(cost (required-argument) :type index)
- ;; If true, then a short noun-like phrase describing what this VOP
- ;; "does", i.e. the implementation strategy. This is for use in
- ;; efficiency notes.
+ ;; If true, then this is a short noun-like phrase describing what
+ ;; this VOP "does", i.e. the implementation strategy. This is for
+ ;; use in efficiency notes.
(note nil :type (or string null))
;; The number of trailing arguments to VOP or %PRIMITIVE that we
;; bundle into a list and pass into the emit function. This provides
;; a way to pass uninterpreted stuff directly to the code generator.
(info-arg-count 0 :type index)
- ;; A function that emits the VOPs for this template. Arguments:
+ ;; a function that emits the VOPs for this template. Arguments:
;; 1] Node for source context.
;; 2] IR2-Block that we place the VOP in.
;; 3] This structure.
result-types
(more-args-type :test more-args-type :prin1 more-args-type)
(more-results-type :test more-results-type :prin1 more-results-type)
- policy
+ ltn-policy
cost
(note :test note)
(info-arg-count :test (not (zerop info-arg-count))))
(def!struct (vop-info
(:include template)
(:make-load-form-fun ignore-it))
- ;; Side-effects of this VOP and side-effects that affect the value
- ;; of this VOP.
+ ;; side-effects of this VOP and side-effects that affect the value
+ ;; of this VOP
(effects (required-argument) :type attributes)
(affected (required-argument) :type attributes)
;; If true, causes special casing of TNs live after this VOP that
;; -- If :Compute-Only, just compute the save set, don't do any saving.
;; This is used to get the live variables for debug info.
(save-p nil :type (member t nil :force-to-stack :compute-only))
- ;; Info for automatic emission of move-arg VOPs by representation
+ ;; info for automatic emission of move-arg VOPs by representation
;; selection. If NIL, then do nothing special. If non-null, then
;; there must be a more arg. Each more arg is moved to its passing
;; location using the appropriate representation-specific
;; :KNOWN-RETURN
;; If needed, the old NFP is computed using COMPUTE-OLD-NFP.
(move-args nil :type (member nil :full-call :local-call :known-return))
- ;; A list of sc-vectors representing the loading costs of each fixed
- ;; argument and result.
+ ;; a list of sc-vectors representing the loading costs of each fixed
+ ;; argument and result
(arg-costs nil :type list)
(result-costs nil :type list)
- ;; If true, sc-vectors representing the loading costs for any more
- ;; args and results.
+ ;; if true, SC-VECTORs representing the loading costs for any more
+ ;; args and results
(more-arg-costs nil :type (or sc-vector null))
(more-result-costs nil :type (or sc-vector null))
- ;; Lists of sc-vectors mapping each SC to the SCs that we can load
+ ;; lists of SC-VECTORs mapping each SC to the SCs that we can load
;; into. If a SC is directly acceptable to the VOP, then the entry
;; is T. Otherwise, it is a list of the SC numbers of all the SCs
;; that we can load into. This list will be empty if there is no
;; operand SC restriction.
(arg-load-scs nil :type list)
(result-load-scs nil :type list)
- ;; If true, a function that is called with the VOP to do operand
+ ;; if true, a function that is called with the VOP to do operand
;; targeting. This is done by modifiying the TN-Ref-Target slots in
;; the TN-Refs so that they point to other TN-Refs in the same VOP.
(target-function nil :type (or null function))
- ;; A function that emits assembly code for a use of this VOP when it
+ ;; a function that emits assembly code for a use of this VOP when it
;; is called with the VOP structure. Null if this VOP has no
;; specified generator (i.e. it exists only to be inherited by other
;; VOPs.)
(generator-function nil :type (or function null))
- ;; A list of things that are used to parameterize an inherited
+ ;; a list of things that are used to parameterize an inherited
;; generator. This allows the same generator function to be used for
;; a group of VOPs with similar implementations.
(variant nil :type list)
- ;; The number of arguments and results. Each regular arg/result
+ ;; the number of arguments and results. Each regular arg/result
;; counts as one, and all the more args/results together count as 1.
(num-args 0 :type index)
(num-results 0 :type index)
- ;; Vector of the temporaries the vop needs. See emit-generic-vop in
- ;; vmdef for information on how the temps are encoded.
- ;;
- ;; (The SB-XC-HOST conditionalization on the type is there because
- ;; it's difficult to dump specialized arrays portably, so on the
- ;; cross-compilation host we punt by using unspecialized arrays
- ;; instead.)
+ ;; a vector of the temporaries the vop needs. See EMIT-GENERIC-VOP
+ ;; in vmdef for information on how the temps are encoded.
(temps nil :type (or null (specializable-vector (unsigned-byte 16))))
- ;; The order all the refs for this vop should be put in. Each
+ ;; the order all the refs for this vop should be put in. Each
;; operand is assigned a number in the following ordering: args,
;; more-args, results, more-results, temps This vector represents
;; the order the operands should be put into in the next-ref link.
- ;;
- ;; (The SB-XC-HOST conditionalization on the type is there because
- ;; it's difficult to dump specialized arrays portably, so on the
- ;; cross-compilation host we punt by using unspecialized arrays
- ;; instead.)
(ref-ordering nil :type (or null (specializable-vector (unsigned-byte 8))))
- ;; Array of the various targets that should be done. Each element
+ ;; a vector of the various targets that should be done. Each element
;; encodes the source ref (shifted 8) and the dest ref index.
(targets nil :type (or null (specializable-vector (unsigned-byte 16)))))
\f