;;; introspection library ;;; This is here as a discussion point, not yet a supported interface. If ;;; you would like to use the functions here, or you would like other ;;; functions to be here, join the debate on navel@metacircles.com. ;;; List info at http://lists.metacircles.com/cgi-bin/mailman/listinfo/navel ;;; For the avoidance of doubt, the exported interface is the proposed ;;; supported interface. Anything else is internal, though you're ;;; welcome to argue a case for exporting it. ;;; If you steal the code from this file to cut and paste into your ;;; own project, there will be much wailing and gnashing of teeth. ;;; Your teeth. If need be, we'll kick them for you. This is a ;;; contrib, we're allowed to look in internals. You're an ;;; application programmer, and are not. ;;; TODO ;;; 1) structs don't have within-file location info. problem for the ;;; structure itself, accessors and the predicate ;;; 3) error handling. Signal random errors, or handle and resignal 'our' ;;; error, or return NIL? ;;; 4) FIXMEs (defpackage :sb-introspect (:use "CL") (:export "FUNCTION-ARGLIST" "FUNCTION-LAMBDA-LIST" "DEFTYPE-LAMBDA-LIST" "VALID-FUNCTION-NAME-P" "FIND-DEFINITION-SOURCE" "FIND-DEFINITION-SOURCES-BY-NAME" "DEFINITION-SOURCE" "DEFINITION-SOURCE-PATHNAME" "DEFINITION-SOURCE-FORM-PATH" "DEFINITION-SOURCE-CHARACTER-OFFSET" "DEFINITION-SOURCE-FILE-WRITE-DATE" "DEFINITION-SOURCE-PLIST" "DEFINITION-NOT-FOUND" "DEFINITION-NAME" "FIND-FUNCTION-CALLEES" "FIND-FUNCTION-CALLERS" "WHO-BINDS" "WHO-CALLS" "WHO-REFERENCES" "WHO-SETS" "WHO-MACROEXPANDS")) (in-package :sb-introspect) ;;;; Internal interface for SBCL debug info ;;; Here are some tutorial-style type definitions to help understand ;;; the internal SBCL debugging data structures we're using. The ;;; commentary is based on CMUCL's debug internals manual. ;;; (deftype debug-info () "Structure containing all the debug information related to a function. Function objects reference debug-infos which in turn reference debug-sources and so on." 'sb-c::compiled-debug-info) (deftype debug-source () "Debug sources describe where to find source code. For example, the debug source for a function compiled from a file will include the pathname of the file and the position of the definition." 'sb-c::debug-source) (deftype debug-function () "Debug function represent static compile-time information about a function." 'sb-c::compiled-debug-fun) (declaim (ftype (function (function) debug-info) function-debug-info)) (defun function-debug-info (function) (let* ((function-object (sb-kernel::%closure-fun function)) (function-header (sb-kernel:fun-code-header function-object))) (sb-kernel:%code-debug-info function-header))) (declaim (ftype (function (function) debug-source) function-debug-source)) (defun function-debug-source (function) (debug-info-source (function-debug-info function))) (declaim (ftype (function (debug-info) debug-source) debug-info-source)) (defun debug-info-source (debug-info) (sb-c::debug-info-source debug-info)) (declaim (ftype (function (debug-info) debug-function) debug-info-debug-function)) (defun debug-info-debug-function (debug-info) (elt (sb-c::compiled-debug-info-fun-map debug-info) 0)) (defun valid-function-name-p (name) "True if NAME denotes a function name that can be passed to MACRO-FUNCTION or FDEFINITION " (and (sb-int:valid-function-name-p name) t)) ;;;; Finding definitions (defstruct definition-source ;; Pathname of the source file that the definition was compiled from. ;; This is null if the definition was not compiled from a file. (pathname nil :type (or null pathname)) ;; Source-path of the definition within the file. ;; This may be incomplete depending on the debug level at which the ;; source was compiled. (form-path '() :type list) ;; Character offset of the top-level-form containing the definition. ;; This corresponds to the first element of form-path. (character-offset nil :type (or null integer)) ;; File-write-date of the source file when compiled. ;; Null if not compiled from a file. (file-write-date nil :type (or null integer)) ;; plist from WITH-COMPILATION-UNIT (plist nil) ;; Any extra metadata that the caller might be interested in. For ;; example the specializers of the method whose definition-source this ;; is. (description nil :type list)) (defun find-definition-sources-by-name (name type) "Returns a list of DEFINITION-SOURCEs for the objects of type TYPE defined with name NAME. NAME may be a symbol or a extended function name. Type can currently be one of the following: (Public) :CLASS :COMPILER-MACRO :CONDITION :CONSTANT :FUNCTION :GENERIC-FUNCTION :MACRO :METHOD :METHOD-COMBINATION :PACKAGE :SETF-EXPANDER :STRUCTURE :SYMBOL-MACRO :TYPE :VARIABLE (Internal) :OPTIMIZER :SOURCE-TRANSFORM :TRANSFORM :VOP If an unsupported TYPE is requested, the function will return NIL. " (flet ((listify (x) (if (listp x) x (list x))) (get-class (name) (and (symbolp name) (find-class name nil))) (real-fdefinition (name) ;; for getting the real function object, even if the ;; function is being profiled (let ((profile-info (gethash name sb-profile::*profiled-fun-name->info*))) (if profile-info (sb-profile::profile-info-encapsulated-fun profile-info) (fdefinition name))))) (listify (case type ((:variable) (when (and (symbolp name) (eq (sb-int:info :variable :kind name) :special)) (translate-source-location (sb-int:info :source-location type name)))) ((:constant) (when (and (symbolp name) (eq (sb-int:info :variable :kind name) :constant)) (translate-source-location (sb-int:info :source-location type name)))) ((:symbol-macro) (when (and (symbolp name) (eq (sb-int:info :variable :kind name) :macro)) (translate-source-location (sb-int:info :source-location type name)))) ((:macro) (when (and (symbolp name) (macro-function name)) (find-definition-source (macro-function name)))) ((:compiler-macro) (when (compiler-macro-function name) (find-definition-source (compiler-macro-function name)))) ((:function :generic-function) (when (and (fboundp name) (or (not (symbolp name)) (not (macro-function name)))) (let ((fun (real-fdefinition name))) (when (eq (not (typep fun 'generic-function)) (not (eq type :generic-function))) (find-definition-source fun))))) ((:type) ;; Source locations for types are saved separately when the expander ;; is a closure without a good source-location. (let ((loc (sb-int:info :type :source-location name))) (if loc (translate-source-location loc) (let ((expander-fun (sb-int:info :type :expander name))) (when expander-fun (find-definition-source expander-fun)))))) ((:method) (when (fboundp name) (let ((fun (real-fdefinition name))) (when (typep fun 'generic-function) (loop for method in (sb-mop::generic-function-methods fun) for source = (find-definition-source method) when source collect source))))) ((:setf-expander) (when (and (consp name) (eq (car name) 'setf)) (setf name (cadr name))) (let ((expander (or (sb-int:info :setf :inverse name) (sb-int:info :setf :expander name)))) (when expander (sb-introspect:find-definition-source (if (symbolp expander) (symbol-function expander) expander))))) ((:structure) (let ((class (get-class name))) (if class (when (typep class 'sb-pcl::structure-class) (find-definition-source class)) (when (sb-int:info :typed-structure :info name) (translate-source-location (sb-int:info :source-location :typed-structure name)))))) ((:condition :class) (let ((class (get-class name))) (when (and class (not (typep class 'sb-pcl::structure-class))) (when (eq (not (typep class 'sb-pcl::condition-class)) (not (eq type :condition))) (find-definition-source class))))) ((:method-combination) (let ((combination-fun (find-method #'sb-mop:find-method-combination nil (list (find-class 'generic-function) (list 'eql name) t) nil))) (when combination-fun (find-definition-source combination-fun)))) ((:package) (when (symbolp name) (let ((package (find-package name))) (when package (find-definition-source package))))) ;; TRANSFORM and OPTIMIZER handling from swank-sbcl ((:transform) (when (symbolp name) (let ((fun-info (sb-int:info :function :info name))) (when fun-info (loop for xform in (sb-c::fun-info-transforms fun-info) for source = (find-definition-source (sb-c::transform-function xform)) for typespec = (sb-kernel:type-specifier (sb-c::transform-type xform)) for note = (sb-c::transform-note xform) do (setf (definition-source-description source) (if (consp typespec) (list (second typespec) note) (list note))) collect source))))) ((:optimizer) (when (symbolp name) (let ((fun-info (sb-int:info :function :info name))) (when fun-info (let ((otypes '((sb-c::fun-info-derive-type . sb-c:derive-type) (sb-c::fun-info-ltn-annotate . sb-c:ltn-annotate) (sb-c::fun-info-ltn-annotate . sb-c:ltn-annotate) (sb-c::fun-info-optimizer . sb-c:optimizer)))) (loop for (reader . name) in otypes for fn = (funcall reader fun-info) when fn collect (let ((source (find-definition-source fn))) (setf (definition-source-description source) (list name)) source))))))) ((:vop) (when (symbolp name) (let ((fun-info (sb-int:info :function :info name))) (when fun-info (loop for vop in (sb-c::fun-info-templates fun-info) for source = (find-definition-source (sb-c::vop-info-generator-function vop)) do (setf (definition-source-description source) (list (sb-c::template-name vop) (sb-c::template-note vop))) collect source))))) ((:source-transform) (when (symbolp name) (let ((transform-fun (sb-int:info :function :source-transform name))) (when transform-fun (sb-introspect:find-definition-source transform-fun))))) (t nil))))) (defun find-definition-source (object) (typecase object ((or sb-pcl::condition-class sb-pcl::structure-class) (let ((classoid (sb-impl::find-classoid (class-name object)))) (when classoid (let ((layout (sb-impl::classoid-layout classoid))) (when layout (translate-source-location (sb-kernel::layout-source-location layout))))))) (method-combination (car (find-definition-sources-by-name (sb-pcl::method-combination-type-name object) :method-combination))) (package (translate-source-location (sb-impl::package-source-location object))) (class (translate-source-location (sb-pcl::definition-source object))) ;; Use the PCL definition location information instead of the function ;; debug-info for methods and generic functions. Sometimes the ;; debug-info would point into PCL internals instead of the proper ;; location. (generic-function (let ((source (translate-source-location (sb-pcl::definition-source object)))) (when source (setf (definition-source-description source) (list (sb-mop:generic-function-lambda-list object)))) source)) (method (let ((source (translate-source-location (sb-pcl::definition-source object)))) (when source (setf (definition-source-description source) (append (method-qualifiers object) (if (sb-mop:method-generic-function object) (sb-pcl::unparse-specializers (sb-mop:method-generic-function object) (sb-mop:method-specializers object)) (sb-mop:method-specializers object))))) source)) #+sb-eval (sb-eval:interpreted-function (let ((source (translate-source-location (sb-eval:interpreted-function-source-location object)))) source)) (function (cond ((struct-accessor-p object) (find-definition-source (struct-accessor-structure-class object))) ((struct-predicate-p object) (find-definition-source (struct-predicate-structure-class object))) (t (find-function-definition-source object)))) ((or condition standard-object structure-object) (find-definition-source (class-of object))) (t (error "Don't know how to retrieve source location for a ~S~%" (type-of object))))) (defun find-function-definition-source (function) (let* ((debug-info (function-debug-info function)) (debug-source (debug-info-source debug-info)) (debug-fun (debug-info-debug-function debug-info)) (tlf (if debug-fun (sb-c::compiled-debug-fun-tlf-number debug-fun)))) (make-definition-source :pathname ;; KLUDGE: at the moment, we don't record the correct toplevel ;; form number for forms processed by EVAL (including EVAL-WHEN ;; :COMPILE-TOPLEVEL). Until that's fixed, don't return a ;; DEFINITION-SOURCE with a pathname. (When that's fixed, take ;; out the (not (debug-source-form ...)) test. (if (and (sb-c::debug-source-namestring debug-source) (not (sb-c::debug-source-form debug-source))) (parse-namestring (sb-c::debug-source-namestring debug-source))) :character-offset (if tlf (elt (sb-c::debug-source-start-positions debug-source) tlf)) ;; Unfortunately there is no proper source path available in the ;; debug-source. FIXME: We could use sb-di:code-locations to get ;; a full source path. -luke (12/Mar/2005) :form-path (if tlf (list tlf)) :file-write-date (sb-c::debug-source-created debug-source) :plist (sb-c::debug-source-plist debug-source)))) (defun translate-source-location (location) (if location (make-definition-source :pathname (let ((n (sb-c:definition-source-location-namestring location))) (when n (parse-namestring n))) :form-path (let ((number (sb-c:definition-source-location-toplevel-form-number location))) (when number (list number))) :plist (sb-c:definition-source-location-plist location)) (make-definition-source))) ;;; This is kludgey. We expect these functions (the underlying functions, ;;; not the closures) to be in static space and so not move ever. ;;; FIXME It's also possibly wrong: not all structures use these vanilla ;;; accessors, e.g. when the :type option is used (defvar *struct-slotplace-reader* (sb-vm::%simple-fun-self #'definition-source-pathname)) (defvar *struct-slotplace-writer* (sb-vm::%simple-fun-self #'(setf definition-source-pathname))) (defvar *struct-predicate* (sb-vm::%simple-fun-self #'definition-source-p)) (defun struct-accessor-p (function) (let ((self (sb-vm::%simple-fun-self function))) ;; FIXME there are other kinds of struct accessor. Fill out this list (member self (list *struct-slotplace-reader* *struct-slotplace-writer*)))) (defun struct-predicate-p (function) (let ((self (sb-vm::%simple-fun-self function))) ;; FIXME there may be other structure predicate functions (member self (list *struct-predicate*)))) (defun function-arglist (function) "Deprecated alias for FUNCTION-LAMBDA-LIST." (function-lambda-list function)) (define-compiler-macro function-arglist (function) (sb-int:deprecation-warning 'function-arglist 'function-lambda-list) `(function-lambda-list ,function)) (defun function-lambda-list (function) "Describe the lambda list for the extended function designator FUNCTION. Works for special-operators, macros, simple functions, interpreted functions, and generic functions. Signals an error if FUNCTION is not a valid extended function designator." (cond ((valid-function-name-p function) (function-lambda-list (or (and (symbolp function) (macro-function function)) (fdefinition function)))) ((typep function 'generic-function) (sb-pcl::generic-function-pretty-arglist function)) #+sb-eval ((typep function 'sb-eval:interpreted-function) (sb-eval:interpreted-function-lambda-list function)) (t (sb-kernel:%simple-fun-arglist (sb-kernel:%fun-fun function))))) (defun deftype-lambda-list (typespec-operator) "Returns the lambda list of TYPESPEC-OPERATOR as first return value, and a flag whether the arglist could be found as second value." (sb-int:info :type :lambda-list typespec-operator)) (defun struct-accessor-structure-class (function) (let ((self (sb-vm::%simple-fun-self function))) (cond ((member self (list *struct-slotplace-reader* *struct-slotplace-writer*)) (find-class (sb-kernel::classoid-name (sb-kernel::layout-classoid (sb-kernel:%closure-index-ref function 1))))) ))) (defun struct-predicate-structure-class (function) (let ((self (sb-vm::%simple-fun-self function))) (cond ((member self (list *struct-predicate*)) (find-class (sb-kernel::classoid-name (sb-kernel::layout-classoid (sb-kernel:%closure-index-ref function 0))))) ))) ;;;; find callers/callees, liberated from Helmut Eller's code in SLIME ;;; This interface is trmendously experimental. ;;; For the moment I'm taking the view that FDEFN is an internal ;;; object (one out of one CMUCL developer surveyed didn't know what ;;; they were for), so these routines deal in FUNCTIONs ;;; Find callers and callees by looking at the constant pool of ;;; compiled code objects. We assume every fdefn object in the ;;; constant pool corresponds to a call to that function. A better ;;; strategy would be to use the disassembler to find actual ;;; call-sites. (defun find-function-callees (function) "Return functions called by FUNCTION." (let ((callees '())) (map-code-constants (sb-kernel:fun-code-header function) (lambda (obj) (when (sb-kernel:fdefn-p obj) (push (sb-kernel:fdefn-fun obj) callees)))) callees)) (defun find-function-callers (function &optional (spaces '(:read-only :static :dynamic))) "Return functions which call FUNCTION, by searching SPACES for code objects" (let ((referrers '())) (map-caller-code-components function spaces (lambda (code) (let ((entry (sb-kernel:%code-entry-points code))) (cond ((not entry) (push (princ-to-string code) referrers)) (t (loop for e = entry then (sb-kernel::%simple-fun-next e) while e do (pushnew e referrers))))))) referrers)) (declaim (inline map-code-constants)) (defun map-code-constants (code fn) "Call FN for each constant in CODE's constant pool." (check-type code sb-kernel:code-component) (loop for i from sb-vm:code-constants-offset below (sb-kernel:get-header-data code) do (funcall fn (sb-kernel:code-header-ref code i)))) (declaim (inline map-allocated-code-components)) (defun map-allocated-code-components (spaces fn) "Call FN for each allocated code component in one of SPACES. FN receives the object and its size as arguments. SPACES should be a list of the symbols :dynamic, :static, or :read-only." (dolist (space spaces) (sb-vm::map-allocated-objects (lambda (obj header size) (when (= sb-vm:code-header-widetag header) (funcall fn obj size))) space t))) (declaim (inline map-caller-code-components)) (defun map-caller-code-components (function spaces fn) "Call FN for each code component with a fdefn for FUNCTION in its constant pool." (let ((function (coerce function 'function))) (map-allocated-code-components spaces (lambda (obj size) (declare (ignore size)) (map-code-constants obj (lambda (constant) (when (and (sb-kernel:fdefn-p constant) (eq (sb-kernel:fdefn-fun constant) function)) (funcall fn obj)))))))) ;;; XREF facility (defun get-simple-fun (functoid) (etypecase functoid (sb-kernel::fdefn (get-simple-fun (sb-vm::fdefn-fun functoid))) ((or null sb-impl::funcallable-instance) nil) (function (sb-kernel::%closure-fun functoid)))) (defun collect-xref (kind-index wanted-name) (let ((ret nil)) (dolist (env sb-c::*info-environment* ret) ;; Loop through the infodb ... (sb-c::do-info (env :class class :type type :name info-name :value value) ;; ... looking for function or macro definitions (when (and (eql class :function) (or (eql type :macro-function) (eql type :definition))) ;; Get a simple-fun for the definition, and an xref array ;; from the table if available. (let* ((simple-fun (get-simple-fun value)) (xrefs (when simple-fun (sb-vm::%simple-fun-xrefs simple-fun))) (array (when xrefs (aref xrefs kind-index)))) ;; Loop through the name/path xref entries in the table (loop for i from 0 below (length array) by 2 for xref-name = (aref array i) for xref-path = (aref array (1+ i)) do (when (eql xref-name wanted-name) (let ((source-location (find-function-definition-source simple-fun))) ;; Use the more accurate source path from ;; the xref entry. (setf (definition-source-form-path source-location) xref-path) (push (cons info-name source-location) ret)))))))))) (defun who-calls (function-name) "Use the xref facility to search for source locations where the global function named FUNCTION-NAME is called. Returns a list of function name, definition-source pairs." (collect-xref #.(position :calls sb-c::*xref-kinds*) function-name)) (defun who-binds (symbol) "Use the xref facility to search for source locations where the special variable SYMBOL is rebound. Returns a list of function name, definition-source pairs." (collect-xref #.(position :binds sb-c::*xref-kinds*) symbol)) (defun who-references (symbol) "Use the xref facility to search for source locations where the special variable or constant SYMBOL is read. Returns a list of function name, definition-source pairs." (collect-xref #.(position :references sb-c::*xref-kinds*) symbol)) (defun who-sets (symbol) "Use the xref facility to search for source locations where the special variable SYMBOL is written to. Returns a list of function name, definition-source pairs." (collect-xref #.(position :sets sb-c::*xref-kinds*) symbol)) (defun who-macroexpands (macro-name) "Use the xref facility to search for source locations where the macro MACRO-NAME is expanded. Returns a list of function name, definition-source pairs." (collect-xref #.(position :macroexpands sb-c::*xref-kinds*) macro-name)) (provide 'sb-introspect)