\f
;;;; storage class and storage base definition
-;;; Enter the basic structure at meta-compile time, and then fill in the
-;;; missing slots at load time.
+;;; Define a storage base having the specified NAME. KIND may be :FINITE,
+;;; :UNBOUNDED or :NON-PACKED. The following keywords are legal:
+;;; :SIZE specifies the number of locations in a :FINITE SB or
+;;; the initial size of an :UNBOUNDED SB.
+;;;
+;;; We enter the basic structure at meta-compile time, and then fill
+;;; in the missing slots at load time.
(defmacro define-storage-base (name kind &key size)
- #!+sb-doc
- "Define-Storage-Base Name Kind {Key Value}*
- Define a storage base having the specified Name. Kind may be :Finite,
- :Unbounded or :Non-Packed. The following keywords are legal:
- :Size <Size>
- Specify the number of locations in a :Finite SB or the initial size of a
- :Unbounded SB."
-
- ;; FIXME: Replace with DECLARE.
- (check-type name symbol)
- (check-type kind (member :finite :unbounded :non-packed))
+ (declare (type symbol name))
+ (declare (type (member :finite :unbounded :non-packed) kind))
;; SIZE is either mandatory or forbidden.
(ecase kind
(error "A size specification is meaningless in a ~S SB." kind)))
((:finite :unbounded)
(unless size (error "Size is not specified in a ~S SB." kind))
- (check-type size unsigned-byte)))
+ (aver (typep size 'unsigned-byte))))
(let ((res (if (eq kind :non-packed)
(make-sb :name name :kind kind)
(/show0 "finished with DEFINE-STORAGE-BASE expansion")
',name)))
+;;; Define a storage class Name that uses the named Storage-Base. Number is a
+;;; small, non-negative integer that is used as an alias. The following
+;;; keywords are defined:
+;;;
+;;; :Element-Size Size
+;;; The size of objects in this SC in whatever units the SB uses. This
+;;; defaults to 1.
+;;;
+;;; :Alignment Size
+;;; The alignment restrictions for this SC. TNs will only be allocated at
+;;; offsets that are an even multiple of this number. Defaults to 1.
+;;;
+;;; :Locations (Location*)
+;;; If the SB is :Finite, then this is a list of the offsets within the SB
+;;; that are in this SC.
+;;;
+;;; :Reserve-Locations (Location*)
+;;; A subset of the Locations that the register allocator should try to
+;;; reserve for operand loading (instead of to hold variable values.)
+;;;
+;;; :Save-P {T | NIL}
+;;; If T, then values stored in this SC must be saved in one of the
+;;; non-save-p :Alternate-SCs across calls.
+;;;
+;;; :Alternate-SCs (SC*)
+;;; Indicates other SCs that can be used to hold values from this SC across
+;;; calls or when storage in this SC is exhausted. The SCs should be
+;;; specified in order of decreasing \"goodness\". There must be at least
+;;; one SC in an unbounded SB, unless this SC is only used for restricted or
+;;; wired TNs.
+;;;
+;;; :Constant-SCs (SC*)
+;;; A list of the names of all the constant SCs that can be loaded into this
+;;; SC by a move function.
(defmacro define-storage-class (name number sb-name &key (element-size '1)
(alignment '1) locations reserve-locations
save-p alternate-scs constant-scs)
- #!+sb-doc
- "Define-Storage-Class Name Number Storage-Base {Key Value}*
- Define a storage class Name that uses the named Storage-Base. Number is a
- small, non-negative integer that is used as an alias. The following
- keywords are defined:
-
- :Element-Size Size
- The size of objects in this SC in whatever units the SB uses. This
- defaults to 1.
-
- :Alignment Size
- The alignment restrictions for this SC. TNs will only be allocated at
- offsets that are an even multiple of this number. Defaults to 1.
-
- :Locations (Location*)
- If the SB is :Finite, then this is a list of the offsets within the SB
- that are in this SC.
-
- :Reserve-Locations (Location*)
- A subset of the Locations that the register allocator should try to
- reserve for operand loading (instead of to hold variable values.)
-
- :Save-P {T | NIL}
- If T, then values stored in this SC must be saved in one of the
- non-save-p :Alternate-SCs across calls.
-
- :Alternate-SCs (SC*)
- Indicates other SCs that can be used to hold values from this SC across
- calls or when storage in this SC is exhausted. The SCs should be
- specified in order of decreasing \"goodness\". There must be at least
- one SC in an unbounded SB, unless this SC is only used for restricted or
- wired TNs.
-
- :Constant-SCs (SC*)
- A list of the names of all the constant SCs that can be loaded into this
- SC by a move function."
-
- (check-type name symbol)
- (check-type number sc-number)
- (check-type sb-name symbol)
- (check-type locations list)
- (check-type reserve-locations list)
- (check-type save-p boolean)
- (check-type alternate-scs list)
- (check-type constant-scs list)
+ (declare (type symbol name))
+ (declare (type sc-number number))
+ (declare (type symbol sb-name))
+ (declare (type list locations reserve-locations alternate-scs constant-scs))
+ (declare (type boolean save-p))
(unless (= (logcount alignment) 1)
(error "alignment not a power of two: ~D" alignment))
(if (eq (sb-kind sb) :finite)
(let ((size (sb-size sb))
(element-size (eval element-size)))
- (check-type element-size unsigned-byte)
+ (declare (type unsigned-byte element-size))
(dolist (el locations)
- (check-type el unsigned-byte)
+ (declare (type unsigned-byte el))
(unless (<= 1 (+ el element-size) size)
(error "SC element ~D out of bounds for ~S" el sb))))
(when locations
(let ((,to-sc-var (meta-sc-or-lose to)))
,@body))))))
+;;; Define the function NAME and note it as the function used for
+;;; moving operands from the From-SCs to the To-SCs. Cost is the cost
+;;; of this move operation. The function is called with three
+;;; arguments: the VOP (for context), and the source and destination
+;;; TNs. An ASSEMBLE form is wrapped around the body. All uses of
+;;; DEFINE-MOVE-FUNCTION should be compiled before any uses of
+;;; DEFINE-VOP.
(defmacro define-move-function ((name cost) lambda-list scs &body body)
- #!+sb-doc
- "Define-Move-Function (Name Cost) lambda-list ({(From-SC*) (To-SC*)}*) form*
- Define the function Name and note it as the function used for moving operands
- from the From-SCs to the To-SCs. Cost is the cost of this move operation.
- The function is called with three arguments: the VOP (for context), and the
- source and destination TNs. An ASSEMBLE form is wrapped around the body.
- All uses of DEFINE-MOVE-FUNCTION should be compiled before any uses of
- DEFINE-VOP."
+ (declare (type index cost))
(when (or (oddp (length scs)) (null scs))
(error "malformed SCs spec: ~S" scs))
- (check-type cost index)
`(progn
(eval-when (:compile-toplevel :load-toplevel :execute)
(do-sc-pairs (from-sc to-sc ',scs)
(or (gethash name *backend-meta-primitive-type-names*)
(error "~S is not a defined primitive type." name))))
-;;; If the PRIMITIVE-TYPE structure already exists, we destructively
-;;; modify it so that existing references in templates won't be
-;;; invalidated.
-(defmacro def-primitive-type (name scs &key (type name))
- #!+sb-doc
- "Def-Primitive-Type Name (SC*) {Key Value}*
- Define a primitive type Name. Each SC specifies a Storage Class that values
- of this type may be allocated in. The following keyword options are
- defined:
-
- :Type
- The type descriptor for the Lisp type that is equivalent to this type
- (defaults to Name.)"
- (check-type name symbol)
- (check-type scs list)
+;;; Define a primitive type NAME. Each SCS entry specifies a storage
+;;; class that values of this type may be allocated in. TYPE is the
+;;; type descriptor for the Lisp type that is equivalent to this type.
+(defmacro !def-primitive-type (name scs &key (type name))
+ (declare (type symbol name) (type list scs))
(let ((scns (mapcar #'meta-sc-number-or-lose scs))
(get-type `(specifier-type ',type)))
`(progn
+ (/show0 "doing !DEF-PRIMITIVE-TYPE, NAME=..")
+ (/primitive-print ,(symbol-name name))
(eval-when (#-sb-xc :compile-toplevel :load-toplevel :execute)
(setf (gethash ',name *backend-meta-primitive-type-names*)
(make-primitive-type :name ',name
,(once-only ((n-old `(gethash ',name *backend-primitive-type-names*))
(n-type get-type))
`(progn
+ ;; If the PRIMITIVE-TYPE structure already exists, we
+ ;; destructively modify it so that existing references in
+ ;; templates won't be invalidated. FIXME: This should no
+ ;; longer be an issue in SBCL, since we don't try to do
+ ;; serious surgery on ourselves. Probably this should
+ ;; just become an assertion that N-OLD is NIL, so that we
+ ;; don't have to try to maintain the correctness of the
+ ;; never-ordinarily-used clause.
+ (/show0 "in !DEF-PRIMITIVE-TYPE, about to COND")
(cond (,n-old
+ (/show0 "in ,N-OLD clause of COND")
(setf (primitive-type-scs ,n-old) ',scns)
(setf (primitive-type-type ,n-old) ,n-type))
(t
+ (/show0 "in T clause of COND")
(setf (gethash ',name *backend-primitive-type-names*)
(make-primitive-type :name ',name
:scs ',scns
:type ,n-type))))
+ (/show0 "done with !DEF-PRIMITIVE-TYPE")
',name)))))
-;;; Just record the translation.
-(defmacro def-primitive-type-alias (name result)
- #!+sb-doc
- "DEF-PRIMITIVE-TYPE-ALIAS Name Result
- Define name to be an alias for Result in VOP operand type restrictions."
+;;; Define NAME to be an alias for RESULT in VOP operand type restrictions.
+(defmacro !def-primitive-type-alias (name result)
+ ;; Just record the translation.
`(eval-when (:compile-toplevel :load-toplevel :execute)
(setf (gethash ',name *backend-primitive-type-aliases*) ',result)
',name))
(declare (type operand-parse temp))
(let ((sc (operand-parse-sc temp))
(offset (operand-parse-offset temp)))
- (assert sc)
+ (aver sc)
(setf (aref results index)
(if offset
(+ (ash offset (1+ sc-bits))
;;; operands, and a single OPERAND-PARSE describing any more operand.
;;; If we are inheriting a VOP, we default attributes to the inherited
;;; operand of the same name.
-(defun parse-operands (parse specs kind)
+(defun !parse-vop-operands (parse specs kind)
(declare (list specs)
(type (member :argument :result) kind))
(let ((num -1)
(let ((value (second key)))
(case (first key)
(:scs
- (check-type value list)
+ (aver (typep value 'list))
(setf (operand-parse-scs res) (remove-duplicates value)))
(:load-tn
- (check-type value symbol)
+ (aver (typep value 'symbol))
(setf (operand-parse-load-tn res) value))
(:load-if
(setf (operand-parse-load res) value))
(:more
- (check-type value boolean)
+ (aver (typep value 'boolean))
(setf (operand-parse-kind res)
(if (eq kind :argument) :more-argument :more-result))
(setf (operand-parse-load res) nil)
(setq more res))
(:target
- (check-type value symbol)
+ (aver (typep value 'symbol))
(setf (operand-parse-target res) value))
(:from
(unless (eq kind :result)
(vop-spec-arg opt 'symbol 1 nil)))
(:offset
(let ((offset (eval (second opt))))
- (check-type offset unsigned-byte)
+ (aver (typep offset 'unsigned-byte))
(setf (operand-parse-offset res) offset)))
(:from
(setf (operand-parse-born res) (parse-time-spec (second opt))))
(:to
(setf (operand-parse-dies res) (parse-time-spec (second opt))))
- ;; Backward compatibility...
+ ;; backward compatibility...
(:scs
(let ((scs (vop-spec-arg opt 'list 1 nil)))
(unless (= (length scs) 1)
(case (first spec)
(:args
(multiple-value-bind (fixed more)
- (parse-operands parse (rest spec) :argument)
+ (!parse-vop-operands parse (rest spec) :argument)
(setf (vop-parse-args parse) fixed)
(setf (vop-parse-more-args parse) more)))
(:results
(multiple-value-bind (fixed more)
- (parse-operands parse (rest spec) :result)
+ (!parse-vop-operands parse (rest spec) :result)
(setf (vop-parse-results parse) fixed)
(setf (vop-parse-more-results parse) more))
(setf (vop-parse-conditional-p parse) nil))
(setf (vop-parse-note parse) (vop-spec-arg spec '(or string null))))
(:arg-types
(setf (vop-parse-arg-types parse)
- (parse-operand-types (rest spec) t)))
+ (!parse-vop-operand-types (rest spec) t)))
(:result-types
(setf (vop-parse-result-types parse)
- (parse-operand-types (rest spec) nil)))
+ (!parse-vop-operand-types (rest spec) nil)))
(:translate
(setf (vop-parse-translate parse) (rest spec)))
(:guard
(make-array sc-number-limit :initial-element 0))
(defparameter *no-loads*
- (make-array sc-number-limit :initial-element 't))
+ (make-array sc-number-limit :initial-element t))
;;; Pick off the case of operands with no restrictions.
(defun compute-loading-costs-if-any (op load-p)
\f
;;;; operand checking and stuff
-;;; Given a list of arg/result restrictions, check for valid syntax and
-;;; convert to canonical form.
-(defun parse-operand-types (specs args-p)
+;;; Given a list of arg/result restrictions, check for valid syntax
+;;; and convert to canonical form.
+(defun !parse-vop-operand-types (specs args-p)
(declare (list specs))
(labels ((parse-operand-type (spec)
(cond ((eq spec '*) spec)
;;; satisfy the first test, and omit the second.
(defun check-operand-type-scs (parse op type load-p)
(declare (type vop-parse parse) (type operand-parse op))
- (let ((ptypes (if (eq type '*) (list 't) (rest type)))
+ (let ((ptypes (if (eq type '*) (list t) (rest type)))
(scs (operand-parse-scs op)))
(when scs
(multiple-value-bind (costs load-scs) (compute-loading-costs op load-p)
;;; Compute stuff that can only be computed after we are done parsing
;;; everying. We set the VOP-Parse-Operands, and do various error checks.
-(defun grovel-operands (parse)
+(defun !grovel-vop-operands (parse)
(declare (type vop-parse parse))
(setf (vop-parse-operands parse)
(make-list (+ (length ops) (if more-ops 1 0)) :initial-element '*)
types))
-;;; Return a list of forms to use as keyword args to Make-VOP-Info for
+;;; Return a list of forms to use as &KEY args to MAKE-VOP-INFO for
;;; setting up the template argument and result types. Here we make an
-;;; initial dummy Template-Type, since it is awkward to compute the
+;;; initial dummy TEMPLATE-TYPE, since it is awkward to compute the
;;; type until the template has been made.
(defun make-vop-info-types (parse)
(let* ((more-args (vop-parse-more-args parse))
(more-result (when more-results (car (last all-results))))
(conditional (vop-parse-conditional-p parse)))
- `(
- :type (specifier-type '(function () nil))
+ `(:type (specifier-type '(function () nil))
:arg-types (list ,@(mapcar #'make-operand-type args))
:more-args-type ,(when more-args (make-operand-type more-arg))
:result-types ,(if conditional
(defparameter *slot-inherit-alist*
'((:generator-function . vop-info-generator-function))))
-;;; Something to help with inheriting VOP-Info slots. We return a
-;;; keyword/value pair that can be passed to the constructor. SLOT is
-;;; the keyword name of the slot, Parse is a form that evaluates to
-;;; the VOP-Parse structure for the VOP inherited. If PARSE is NIL,
-;;; then we do nothing. If the TEST form evaluates to true, then we
-;;; return a form that selects the named slot from the VOP-Info
-;;; structure corresponding to PARSE. Otherwise, we return the FORM so
-;;; that the slot is recomputed.
+;;; This is something to help with inheriting VOP-Info slots. We
+;;; return a keyword/value pair that can be passed to the constructor.
+;;; SLOT is the keyword name of the slot, Parse is a form that
+;;; evaluates to the VOP-Parse structure for the VOP inherited. If
+;;; PARSE is NIL, then we do nothing. If the TEST form evaluates to
+;;; true, then we return a form that selects the named slot from the
+;;; VOP-Info structure corresponding to PARSE. Otherwise, we return
+;;; the FORM so that the slot is recomputed.
(defmacro inherit-vop-info (slot parse test form)
`(if (and ,parse ,test)
(list ,slot `(,',(or (cdr (assoc slot *slot-inherit-alist*))
(make-generator-function parse)))
:variant (list ,@variant))))
\f
-;;; Parse the syntax into a VOP-Parse structure, and then expand into
-;;; code that creates the appropriate VOP-Info structure at load time.
-;;; We implement inheritance by copying the VOP-Parse structure for
-;;; the inherited structure.
+;;; Define the symbol NAME to be a Virtual OPeration in the compiler.
+;;; If specified, INHERITS is the name of a VOP that we default
+;;; unspecified information from. Each SPEC is a list beginning with a
+;;; keyword indicating the interpretation of the other forms in the
+;;; SPEC:
+;;;
+;;; :Args {(Name {Key Value}*)}*
+;;; :Results {(Name {Key Value}*)}*
+;;; The Args and Results are specifications of the operand TNs passed
+;;; to the VOP. If there is an inherited VOP, any unspecified options
+;;; are defaulted from the inherited argument (or result) of the same
+;;; name. The following operand options are defined:
+;;;
+;;; :SCs (SC*)
+;;; :SCs specifies good SCs for this operand. Other SCs will be
+;;; penalized according to move costs. A load TN will be allocated if
+;;; necessary, guaranteeing that the operand is always one of the
+;;; specified SCs.
+;;;
+;;; :Load-TN Load-Name
+;;; Load-Name is bound to the load TN allocated for this operand,
+;;; or to NIL if no load TN was allocated.
+;;;
+;;; :Load-If EXPRESSION
+;;; Controls whether automatic operand loading is done.
+;;; EXPRESSION is evaluated with the fixed operand TNs bound.
+;;; If EXPRESSION is true,then loading is done and the variable
+;;; is bound to the load TN in the generator body. Otherwise,
+;;; loading is not done, and the variable is bound to the actual
+;;; operand.
+;;;
+;;; :More T-or-NIL
+;;; If specified, Name is bound to the TN-Ref for the first
+;;; argument or result following the fixed arguments or results.
+;;; A :MORE operand must appear last, and cannot be targeted or
+;;; restricted.
+;;;
+;;; :Target Operand
+;;; This operand is targeted to the named operand, indicating a
+;;; desire to pack in the same location. Not legal for results.
+;;;
+;;; :From Time-Spec
+;;; :To Time-Spec
+;;; Specify the beginning or end of the operand's lifetime.
+;;; :FROM can only be used with results, and :TO only with
+;;; arguments. The default for the N'th argument/result is
+;;; (:ARGUMENT N)/(:RESULT N). These options are necessary
+;;; primarily when operands are read or written out of order.
+;;;
+;;; :Conditional
+;;; This is used in place of :RESULTS with conditional branch VOPs.
+;;; There are no result values: the result is a transfer of control.
+;;; The target label is passed as the first :INFO arg. The second
+;;; :INFO arg is true if the sense of the test should be negated.
+;;; A side-effect is to set the PREDICATE attribute for functions
+;;; in the :TRANSLATE option.
+;;;
+;;; :Temporary ({Key Value}*) Name*
+;;; Allocate a temporary TN for each Name, binding that variable to
+;;; the TN within the body of the generators. In addition to :TARGET
+;;; (which is is the same as for operands), the following options are
+;;; defined:
+;;;
+;;; :SC SC-Name
+;;; :Offset SB-Offset
+;;; Force the temporary to be allocated in the specified SC with the
+;;; specified offset. Offset is evaluated at macroexpand time. If
+;;; Offset is emitted, the register allocator chooses a free
+;;; location in SC. If both SC and Offset are omitted, then the
+;;; temporary is packed according to its primitive type.
+;;;
+;;; :From Time-Spec
+;;; :To Time-Spec
+;;; Similar to the argument/result option, this specifies the start and
+;;; end of the temporaries' lives. The defaults are :Load and :Save,
+;;; i.e. the duration of the VOP. The other intervening phases are
+;;; :Argument,:Eval and :Result. Non-zero sub-phases can be specified
+;;; by a list, e.g. by default the second argument's life ends at
+;;; (:Argument 1).
+;;;
+;;; :Generator Cost Form*
+;;; Specifies the translation into assembly code. Cost is the
+;;; estimated cost of the code emitted by this generator. The body
+;;; is arbitrary Lisp code that emits the assembly language
+;;; translation of the VOP. An ASSEMBLE form is wrapped around
+;;; the body, so code may be emitted by using the local INST macro.
+;;; During the evaluation of the body, the names of the operands
+;;; and temporaries are bound to the actual TNs.
+;;;
+;;; :Effects Effect*
+;;; :Affected Effect*
+;;; Specifies the side effects that this VOP has and the side
+;;; effects that effect its execution. If unspecified, these
+;;; default to the worst case.
+;;;
+;;; :Info Name*
+;;; Define some magic arguments that are passed directly to the code
+;;; generator. The corresponding trailing arguments to VOP or
+;;; %PRIMITIVE are stored in the VOP structure. Within the body
+;;; of the generators, the named variables are bound to these
+;;; values. Except in the case of :Conditional VOPs, :Info arguments
+;;; cannot be specified for VOPS that are the direct translation
+;;; for a function (specified by :Translate).
+;;;
+;;; :Ignore Name*
+;;; Causes the named variables to be declared IGNORE in the
+;;; generator body.
+;;;
+;;; :Variant Thing*
+;;; :Variant-Vars Name*
+;;; These options provide a way to parameterize families of VOPs
+;;; that differ only trivially. :Variant makes the specified
+;;; evaluated Things be the "variant" associated with this VOP.
+;;; :VARIANT-VARS causes the named variables to be bound to the
+;;; corresponding Things within the body of the generator.
+;;;
+;;; :Variant-Cost Cost
+;;; Specifies the cost of this VOP, overriding the cost of any
+;;; inherited generator.
+;;;
+;;; :Note {String | NIL}
+;;; A short noun-like phrase describing what this VOP "does", i.e.
+;;; the implementation strategy. If supplied, efficency notes will
+;;; be generated when type uncertainty prevents :TRANSLATE from
+;;; working. NIL inhibits any efficency note.
+;;;
+;;; :Arg-Types {* | PType | (:OR PType*) | (:CONSTANT Type)}*
+;;; :Result-Types {* | PType | (:OR PType*)}*
+;;; Specify the template type restrictions used for automatic translation.
+;;; If there is a :More operand, the last type is the more type. :CONSTANT
+;;; specifies that the argument must be a compile-time constant of the
+;;; specified Lisp type. The constant values of :CONSTANT arguments are
+;;; passed as additional :INFO arguments rather than as :ARGS.
+;;;
+;;; :Translate Name*
+;;; This option causes the VOP template to be entered as an IR2
+;;; translation for the named functions.
+;;;
+;;; :Policy {:Small | :Fast | :Safe | :Fast-Safe}
+;;; Specifies the policy under which this VOP is the best translation.
+;;;
+;;; :Guard Form
+;;; Specifies a Form that is evaluated in the global environment. If
+;;; form returns NIL, then emission of this VOP is prohibited even when
+;;; all other restrictions are met.
+;;;
+;;; :VOP-Var Name
+;;; :Node-Var Name
+;;; In the generator, bind the specified variable to the VOP or
+;;; the Node that generated this VOP.
+;;;
+;;; :Save-P {NIL | T | :Compute-Only | :Force-To-Stack}
+;;; Indicates how a VOP wants live registers saved.
+;;;
+;;; :Move-Args {NIL | :Full-Call | :Local-Call | :Known-Return}
+;;; Indicates if and how the more args should be moved into a
+;;; different frame.
(def!macro define-vop ((name &optional inherits) &rest specs)
- #!+sb-doc
- "Define-VOP (Name [Inherits]) Spec*
- Define the symbol Name to be a Virtual OPeration in the compiler. If
- specified, Inherits is the name of a VOP that we default unspecified
- information from. Each Spec is a list beginning with a keyword indicating
- the interpretation of the other forms in the Spec:
-
- :Args {(Name {Key Value}*)}*
- :Results {(Name {Key Value}*)}*
- The Args and Results are specifications of the operand TNs passed to the
- VOP. If there is an inherited VOP, any unspecified options are defaulted
- from the inherited argument (or result) of the same name. The following
- operand options are defined:
-
- :SCs (SC*)
- :SCs specifies good SCs for this operand. Other SCs will be
- penalized according to move costs. A load TN will be allocated if
- necessary, guaranteeing that the operand is always one of the
- specified SCs.
-
- :Load-TN Load-Name
- Load-Name is bound to the load TN allocated for this operand, or to
- NIL if no load TN was allocated.
-
- :Load-If Expression
- Controls whether automatic operand loading is done. Expression is
- evaluated with the fixed operand TNs bound. If Expression is true,
- then loading is done and the variable is bound to the load TN in
- the generator body. Otherwise, loading is not done, and the variable
- is bound to the actual operand.
-
- :More T-or-NIL
- If specified, Name is bound to the TN-Ref for the first argument or
- result following the fixed arguments or results. A more operand must
- appear last, and cannot be targeted or restricted.
-
- :Target Operand
- This operand is targeted to the named operand, indicating a desire to
- pack in the same location. Not legal for results.
-
- :From Time-Spec
- :To Time-Spec
- Specify the beginning or end of the operand's lifetime. :From can
- only be used with results, and :To only with arguments. The default
- for the N'th argument/result is (:ARGUMENT N)/(:RESULT N). These
- options are necessary primarily when operands are read or written out
- of order.
-
- :Conditional
- This is used in place of :RESULTS with conditional branch VOPs. There
- are no result values: the result is a transfer of control. The target
- label is passed as the first :INFO arg. The second :INFO arg is true if
- the sense of the test should be negated. A side-effect is to set the
- PREDICATE attribute for functions in the :TRANSLATE option.
-
- :Temporary ({Key Value}*) Name*
- Allocate a temporary TN for each Name, binding that variable to the TN
- within the body of the generators. In addition to :Target (which is
- is the same as for operands), the following options are
- defined:
-
- :SC SC-Name
- :Offset SB-Offset
- Force the temporary to be allocated in the specified SC with the
- specified offset. Offset is evaluated at macroexpand time. If
- Offset is emitted, the register allocator chooses a free location in
- SC. If both SC and Offset are omitted, then the temporary is packed
- according to its primitive type.
-
- :From Time-Spec
- :To Time-Spec
- Similar to the argument/result option, this specifies the start and
- end of the temporaries' lives. The defaults are :Load and :Save,
- i.e. the duration of the VOP. The other intervening phases are
- :Argument,:Eval and :Result. Non-zero sub-phases can be specified
- by a list, e.g. by default the second argument's life ends at
- (:Argument 1).
-
- :Generator Cost Form*
- Specifies the translation into assembly code. Cost is the estimated cost
- of the code emitted by this generator. The body is arbitrary Lisp code
- that emits the assembly language translation of the VOP. An Assemble
- form is wrapped around the body, so code may be emitted by using the
- local Inst macro. During the evaluation of the body, the names of the
- operands and temporaries are bound to the actual TNs.
-
- :Effects Effect*
- :Affected Effect*
- Specifies the side effects that this VOP has and the side effects that
- effect its execution. If unspecified, these default to the worst case.
-
- :Info Name*
- Define some magic arguments that are passed directly to the code
- generator. The corresponding trailing arguments to VOP or %Primitive are
- stored in the VOP structure. Within the body of the generators, the
- named variables are bound to these values. Except in the case of
- :Conditional VOPs, :Info arguments cannot be specified for VOPS that are
- the direct translation for a function (specified by :Translate).
-
- :Ignore Name*
- Causes the named variables to be declared IGNORE in the generator body.
-
- :Variant Thing*
- :Variant-Vars Name*
- These options provide a way to parameterize families of VOPs that differ
- only trivially. :Variant makes the specified evaluated Things be the
- \"variant\" associated with this VOP. :Variant-Vars causes the named
- variables to be bound to the corresponding Things within the body of the
- generator.
-
- :Variant-Cost Cost
- Specifies the cost of this VOP, overriding the cost of any inherited
- generator.
-
- :Note {String | NIL}
- A short noun-like phrase describing what this VOP \"does\", i.e. the
- implementation strategy. If supplied, efficency notes will be generated
- when type uncertainty prevents :TRANSLATE from working. NIL inhibits any
- efficency note.
-
- :Arg-Types {* | PType | (:OR PType*) | (:CONSTANT Type)}*
- :Result-Types {* | PType | (:OR PType*)}*
- Specify the template type restrictions used for automatic translation.
- If there is a :More operand, the last type is the more type. :CONSTANT
- specifies that the argument must be a compile-time constant of the
- specified Lisp type. The constant values of :CONSTANT arguments are
- passed as additional :INFO arguments rather than as :ARGS.
-
- :Translate Name*
- This option causes the VOP template to be entered as an IR2 translation
- for the named functions.
-
- :Policy {:Small | :Fast | :Safe | :Fast-Safe}
- Specifies the policy under which this VOP is the best translation.
-
- :Guard Form
- Specifies a Form that is evaluated in the global environment. If
- form returns NIL, then emission of this VOP is prohibited even when
- all other restrictions are met.
-
- :VOP-Var Name
- :Node-Var Name
- In the generator, bind the specified variable to the VOP or the Node that
- generated this VOP.
-
- :Save-P {NIL | T | :Compute-Only | :Force-To-Stack}
- Indicates how a VOP wants live registers saved.
-
- :Move-Args {NIL | :Full-Call | :Local-Call | :Known-Return}
- Indicates if and how the more args should be moved into a different
- frame."
- (check-type name symbol)
-
+ (declare (type symbol name))
+ ;; Parse the syntax into a VOP-PARSE structure, and then expand into
+ ;; code that creates the appropriate VOP-INFO structure at load time.
+ ;; We implement inheritance by copying the VOP-PARSE structure for
+ ;; the inherited structure.
(let* ((inherited-parse (when inherits
(vop-parse-or-lose inherits)))
(parse (if inherits
(setf (vop-parse-inherits parse) inherits)
(parse-define-vop parse specs)
- (grovel-operands parse)
+ (!grovel-vop-operands parse)
`(progn
(eval-when (:compile-toplevel :load-toplevel :execute)
(values (forms) (binds) n-head))))
+;;; Emit-Template Node Block Template Args Results [Info]
+;;;
+;;; Call the emit function for Template, linking the result in at the
+;;; end of Block.
(defmacro emit-template (node block template args results &optional info)
- #!+sb-doc
- "Emit-Template Node Block Template Args Results [Info]
- Call the emit function for Template, linking the result in at the end of
- Block."
(let ((n-first (gensym))
(n-last (gensym)))
(once-only ((n-node node)
,@(when info `(,info)))
(insert-vop-sequence ,n-first ,n-last ,n-block nil)))))
+;;; VOP Name Node Block Arg* Info* Result*
+;;;
+;;; Emit the VOP (or other template) Name at the end of the IR2-Block
+;;; Block, using Node for the source context. The interpretation of
+;;; the remaining arguments depends on the number of operands of
+;;; various kinds that are declared in the template definition. VOP
+;;; cannot be used for templates that have more-args or more-results,
+;;; since the number of arguments and results is indeterminate for
+;;; these templates. Use VOP* instead.
+;;;
+;;; Args and Results are the TNs that are to be referenced by the
+;;; template as arguments and results. If the template has
+;;; codegen-info arguments, then the appropriate number of Info forms
+;;; following the Arguments are used for codegen info.
(defmacro vop (name node block &rest operands)
- #!+sb-doc
- "VOP Name Node Block Arg* Info* Result*
- Emit the VOP (or other template) Name at the end of the IR2-Block Block,
- using Node for the source context. The interpretation of the remaining
- arguments depends on the number of operands of various kinds that are
- declared in the template definition. VOP cannot be used for templates that
- have more-args or more-results, since the number of arguments and results is
- indeterminate for these templates. Use VOP* instead.
-
- Args and Results are the TNs that are to be referenced by the template
- as arguments and results. If the template has codegen-info arguments, then
- the appropriate number of Info forms following the Arguments are used for
- codegen info."
(let* ((parse (vop-parse-or-lose name))
(arg-count (length (vop-parse-args parse)))
(result-count (length (vop-parse-results parse)))
`((list ,@(ivars)))))
(values)))))))
+;;; VOP* Name Node Block (Arg* More-Args) (Result* More-Results) Info*
+;;;
+;;; This is like VOP, but allows for emission of templates with
+;;; arbitrary numbers of arguments, and for emission of templates
+;;; using already-created TN-Ref lists.
+;;;
+;;; The Arguments and Results are TNs to be referenced as the first
+;;; arguments and results to the template. More-Args and More-Results
+;;; are heads of TN-Ref lists that are added onto the end of the
+;;; TN-Refs for the explicitly supplied operand TNs. The TN-Refs for
+;;; the more operands must have the TN and Write-P slots correctly
+;;; initialized.
+;;;
+;;; As with VOP, the Info forms are evaluated and passed as codegen
+;;; info arguments.
(defmacro vop* (name node block args results &rest info)
- #!+sb-doc
- "VOP* Name Node Block (Arg* More-Args) (Result* More-Results) Info*
- Like VOP, but allows for emission of templates with arbitrary numbers of
- arguments, and for emission of templates using already-created TN-Ref lists.
-
- The Arguments and Results are TNs to be referenced as the first arguments
- and results to the template. More-Args and More-Results are heads of TN-Ref
- lists that are added onto the end of the TN-Refs for the explicitly supplied
- operand TNs. The TN-Refs for the more operands must have the TN and Write-P
- slots correctly initialized.
-
- As with VOP, the Info forms are evaluated and passed as codegen info
- arguments."
- (check-type args cons)
- (check-type results cons)
+ (declare (type cons args results))
(let* ((parse (vop-parse-or-lose name))
(arg-count (length (vop-parse-args parse)))
(result-count (length (vop-parse-results parse)))
\f
;;;; miscellaneous macros
+;;; SC-Case TN {({(SC-Name*) | SC-Name | T} Form*)}*
+;;;
+;;; Case off of TN's SC. The first clause containing TN's SC is
+;;; evaluated, returning the values of the last form. A clause
+;;; beginning with T specifies a default. If it appears, it must be
+;;; last. If no default is specified, and no clause matches, then an
+;;; error is signalled.
(def!macro sc-case (tn &rest forms)
- #!+sb-doc
- "SC-Case TN {({(SC-Name*) | SC-Name | T} Form*)}*
- Case off of TN's SC. The first clause containing TN's SC is evaluated,
- returning the values of the last form. A clause beginning with T specifies a
- default. If it appears, it must be last. If no default is specified, and no
- clause matches, then an error is signalled."
(let ((n-sc (gensym))
(n-tn (gensym)))
(collect ((clauses))
(,n-sc (sc-number (tn-sc ,n-tn))))
(cond ,@(clauses))))))
+;;; Return true if TNs SC is any of the named SCs, false otherwise.
(defmacro sc-is (tn &rest scs)
- #!+sb-doc
- "SC-Is TN SC*
- Returns true if TNs SC is any of the named SCs, false otherwise."
(once-only ((n-sc `(sc-number (tn-sc ,tn))))
`(or ,@(mapcar #'(lambda (x)
`(eql ,n-sc ,(meta-sc-number-or-lose x)))
scs))))
+;;; Iterate over the IR2 blocks in component, in emission order.
(defmacro do-ir2-blocks ((block-var component &optional result)
&body forms)
- #!+sb-doc
- "Do-IR2-Blocks (Block-Var Component [Result]) Form*
- Iterate over the IR2 blocks in component, in emission order."
`(do ((,block-var (block-info (component-head ,component))
(ir2-block-next ,block-var)))
((null ,block-var) ,result)
,@forms))
+;;; Iterate over all the TNs live at some point, with the live set
+;;; represented by a local conflicts bit-vector and the IR2-Block
+;;; containing the location.
(defmacro do-live-tns ((tn-var live block &optional result) &body body)
- #!+sb-doc
- "DO-LIVE-TNS (TN-Var Live Block [Result]) Form*
- Iterate over all the TNs live at some point, with the live set represented by
- a local conflicts bit-vector and the IR2-Block containing the location."
(let ((n-conf (gensym))
(n-bod (gensym))
(i (gensym))
(when (and ,tn-var (not (eq ,tn-var :more)))
(,n-bod ,tn-var)))))))))))
+;;; Iterate over all the IR2 blocks in the environment Env, in emit order.
(defmacro do-environment-ir2-blocks ((block-var env &optional result)
&body body)
- #!+sb-doc
- "DO-ENVIRONMENT-IR2-BLOCKS (Block-Var Env [Result]) Form*
- Iterate over all the IR2 blocks in the environment Env, in emit order."
(once-only ((n-env env))
(once-only ((n-first `(node-block
(lambda-bind