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; Copyright (c) Rich Hickey. All rights reserved.
; The use and distribution terms for this software are covered by the
; Eclipse Public License 1.0 (http://opensource.org/licenses/eclipse-1.0.php)
; which can be found in the file epl-v10.html at the root of this distribution.
; By using this software in any fashion, you are agreeing to be bound by
; the terms of this license.
; You must not remove this notice, or any other, from this software.
(in-ns 'clojure.core)
(import '(java.lang.reflect Modifier Constructor)
'(clojure.asm ClassWriter ClassVisitor Opcodes Type)
'(clojure.asm.commons Method GeneratorAdapter)
'(clojure.lang IPersistentMap))
;(defn method-sig [^java.lang.reflect.Method meth]
; [(. meth (getName)) (seq (. meth (getParameterTypes)))])
(defn- non-private-methods [^Class c]
(loop [mm {}
considered #{}
c c]
(if c
(let [[mm considered]
(loop [mm mm
considered considered
meths (seq (concat
(seq (. c (getDeclaredMethods)))
(seq (. c (getMethods)))))]
(if meths
(let [^java.lang.reflect.Method meth (first meths)
mods (. meth (getModifiers))
mk (method-sig meth)]
(if (or (considered mk)
(not (or (Modifier/isPublic mods) (Modifier/isProtected mods)))
;(. Modifier (isPrivate mods))
(. Modifier (isStatic mods))
(. Modifier (isFinal mods))
(= "finalize" (.getName meth)))
(recur mm (conj considered mk) (next meths))
(recur (assoc mm mk meth) (conj considered mk) (next meths))))
[mm considered]))]
(recur mm considered (. c (getSuperclass))))
mm)))
(defn- ctor-sigs [^Class super]
(for [^Constructor ctor (. super (getDeclaredConstructors))
:when (not (. Modifier (isPrivate (. ctor (getModifiers)))))]
(apply vector (. ctor (getParameterTypes)))))
(defn- escape-class-name [^Class c]
(.. (.getSimpleName c)
(replace "[]" "<>")))
(defn- overload-name [mname pclasses]
(if (seq pclasses)
(apply str mname (interleave (repeat \-)
(map escape-class-name pclasses)))
(str mname "-void")))
(defn- ^java.lang.reflect.Field find-field [^Class c f]
(let [start-class c]
(loop [c c]
(if (= c Object)
(throw (new Exception (str "field, " f ", not defined in class, " start-class ", or its ancestors")))
(let [dflds (.getDeclaredFields c)
rfld (first (filter #(= f (.getName ^java.lang.reflect.Field %)) dflds))]
(or rfld (recur (.getSuperclass c))))))))
;(distinct (map first(keys (mapcat non-private-methods [Object IPersistentMap]))))
(def ^{:private true} prim->class
{'int Integer/TYPE
'ints (Class/forName "[I")
'long Long/TYPE
'longs (Class/forName "[J")
'float Float/TYPE
'floats (Class/forName "[F")
'double Double/TYPE
'doubles (Class/forName "[D")
'void Void/TYPE
'short Short/TYPE
'shorts (Class/forName "[S")
'boolean Boolean/TYPE
'booleans (Class/forName "[Z")
'byte Byte/TYPE
'bytes (Class/forName "[B")
'char Character/TYPE
'chars (Class/forName "[C")})
(defn- ^Class the-class [x]
(cond
(class? x) x
(contains? prim->class x) (prim->class x)
:else (let [strx (str x)]
(clojure.lang.RT/classForName
(if (some #{\. \[} strx)
strx
(str "java.lang." strx))))))
;; someday this can be made codepoint aware
(defn- valid-java-method-name
[^String s]
(= s (clojure.lang.Compiler/munge s)))
(defn- validate-generate-class-options
[{:keys [methods]}]
(let [[mname] (remove valid-java-method-name (map (comp str first) methods))]
(when mname (throw (IllegalArgumentException. (str "Not a valid method name: " mname))))))
(defn- generate-class [options-map]
(validate-generate-class-options options-map)
(let [default-options {:prefix "-" :load-impl-ns true :impl-ns (ns-name *ns*)}
{:keys [name extends implements constructors methods main factory state init exposes
exposes-methods prefix load-impl-ns impl-ns post-init]}
(merge default-options options-map)
name-meta (meta name)
name (str name)
super (if extends (the-class extends) Object)
interfaces (map the-class implements)
supers (cons super interfaces)
ctor-sig-map (or constructors (zipmap (ctor-sigs super) (ctor-sigs super)))
cv (new ClassWriter (. ClassWriter COMPUTE_MAXS))
cname (. name (replace "." "/"))
pkg-name name
impl-pkg-name (str impl-ns)
impl-cname (.. impl-pkg-name (replace "." "/") (replace \- \_))
ctype (. Type (getObjectType cname))
iname (fn [^Class c] (.. Type (getType c) (getInternalName)))
totype (fn [^Class c] (. Type (getType c)))
to-types (fn [cs] (if (pos? (count cs))
(into-array (map totype cs))
(make-array Type 0)))
obj-type ^Type (totype Object)
arg-types (fn [n] (if (pos? n)
(into-array (replicate n obj-type))
(make-array Type 0)))
super-type ^Type (totype super)
init-name (str init)
post-init-name (str post-init)
factory-name (str factory)
state-name (str state)
main-name "main"
var-name (fn [s] (clojure.lang.Compiler/munge (str s "__var")))
class-type (totype Class)
rt-type (totype clojure.lang.RT)
var-type ^Type (totype clojure.lang.Var)
ifn-type (totype clojure.lang.IFn)
iseq-type (totype clojure.lang.ISeq)
ex-type (totype java.lang.UnsupportedOperationException)
all-sigs (distinct (concat (map #(let[[m p] (key %)] {m [p]}) (mapcat non-private-methods supers))
(map (fn [[m p]] {(str m) [p]}) methods)))
sigs-by-name (apply merge-with concat {} all-sigs)
overloads (into1 {} (filter (fn [[m s]] (next s)) sigs-by-name))
var-fields (concat (when init [init-name])
(when post-init [post-init-name])
(when main [main-name])
;(when exposes-methods (map str (vals exposes-methods)))
(distinct (concat (keys sigs-by-name)
(mapcat (fn [[m s]] (map #(overload-name m (map the-class %)) s)) overloads)
(mapcat (comp (partial map str) vals val) exposes))))
emit-get-var (fn [^GeneratorAdapter gen v]
(let [false-label (. gen newLabel)
end-label (. gen newLabel)]
(. gen getStatic ctype (var-name v) var-type)
(. gen dup)
(. gen invokeVirtual var-type (. Method (getMethod "boolean isBound()")))
(. gen ifZCmp (. GeneratorAdapter EQ) false-label)
(. gen invokeVirtual var-type (. Method (getMethod "Object get()")))
(. gen goTo end-label)
(. gen mark false-label)
(. gen pop)
(. gen visitInsn (. Opcodes ACONST_NULL))
(. gen mark end-label)))
emit-unsupported (fn [^GeneratorAdapter gen ^Method m]
(. gen (throwException ex-type (str (. m (getName)) " ("
impl-pkg-name "/" prefix (.getName m)
" not defined?)"))))
emit-forwarding-method
(fn [name pclasses rclass as-static else-gen]
(let [mname (str name)
pmetas (map meta pclasses)
pclasses (map the-class pclasses)
rclass (the-class rclass)
ptypes (to-types pclasses)
rtype ^Type (totype rclass)
m (new Method mname rtype ptypes)
is-overload (seq (overloads mname))
gen (new GeneratorAdapter (+ (. Opcodes ACC_PUBLIC) (if as-static (. Opcodes ACC_STATIC) 0))
m nil nil cv)
found-label (. gen (newLabel))
else-label (. gen (newLabel))
end-label (. gen (newLabel))]
(add-annotations gen (meta name))
(dotimes [i (count pmetas)]
(add-annotations gen (nth pmetas i) i))
(. gen (visitCode))
(if (> (count pclasses) 18)
(else-gen gen m)
(do
(when is-overload
(emit-get-var gen (overload-name mname pclasses))
(. gen (dup))
(. gen (ifNonNull found-label))
(. gen (pop)))
(emit-get-var gen mname)
(. gen (dup))
(. gen (ifNull else-label))
(when is-overload
(. gen (mark found-label)))
;if found
(.checkCast gen ifn-type)
(when-not as-static
(. gen (loadThis)))
;box args
(dotimes [i (count ptypes)]
(. gen (loadArg i))
(. clojure.lang.Compiler$HostExpr (emitBoxReturn nil gen (nth pclasses i))))
;call fn
(. gen (invokeInterface ifn-type (new Method "invoke" obj-type
(to-types (replicate (+ (count ptypes)
(if as-static 0 1))
Object)))))
;(into-array (cons obj-type
; (replicate (count ptypes) obj-type))))))
;unbox return
(. gen (unbox rtype))
(when (= (. rtype (getSort)) (. Type VOID))
(. gen (pop)))
(. gen (goTo end-label))
;else call supplied alternative generator
(. gen (mark else-label))
(. gen (pop))
(else-gen gen m)
(. gen (mark end-label))))
(. gen (returnValue))
(. gen (endMethod))))
]
;start class definition
(. cv (visit (. Opcodes V1_5) (+ (. Opcodes ACC_PUBLIC) (. Opcodes ACC_SUPER))
cname nil (iname super)
(when-let [ifc (seq interfaces)]
(into-array (map iname ifc)))))
; class annotations
(add-annotations cv name-meta)
;static fields for vars
(doseq [v var-fields]
(. cv (visitField (+ (. Opcodes ACC_PRIVATE) (. Opcodes ACC_FINAL) (. Opcodes ACC_STATIC))
(var-name v)
(. var-type getDescriptor)
nil nil)))
;instance field for state
(when state
(. cv (visitField (+ (. Opcodes ACC_PUBLIC) (. Opcodes ACC_FINAL))
state-name
(. obj-type getDescriptor)
nil nil)))
;static init to set up var fields and load init
(let [gen (new GeneratorAdapter (+ (. Opcodes ACC_PUBLIC) (. Opcodes ACC_STATIC))
(. Method getMethod "void <clinit> ()")
nil nil cv)]
(. gen (visitCode))
(doseq [v var-fields]
(. gen push impl-pkg-name)
(. gen push (str prefix v))
(. gen (invokeStatic var-type (. Method (getMethod "clojure.lang.Var internPrivate(String,String)"))))
(. gen putStatic ctype (var-name v) var-type))
(when load-impl-ns
(. gen push "clojure.core")
(. gen push "load")
(. gen (invokeStatic rt-type (. Method (getMethod "clojure.lang.Var var(String,String)"))))
(. gen push (str "/" impl-cname))
(. gen (invokeInterface ifn-type (new Method "invoke" obj-type (to-types [Object]))))
; (. gen push (str (.replace impl-pkg-name \- \_) "__init"))
; (. gen (invokeStatic class-type (. Method (getMethod "Class forName(String)"))))
(. gen pop))
(. gen (returnValue))
(. gen (endMethod)))
;ctors
(doseq [[pclasses super-pclasses] ctor-sig-map]
(let [pclasses (map the-class pclasses)
super-pclasses (map the-class super-pclasses)
ptypes (to-types pclasses)
super-ptypes (to-types super-pclasses)
m (new Method "<init>" (. Type VOID_TYPE) ptypes)
super-m (new Method "<init>" (. Type VOID_TYPE) super-ptypes)
gen (new GeneratorAdapter (. Opcodes ACC_PUBLIC) m nil nil cv)
no-init-label (. gen newLabel)
end-label (. gen newLabel)
no-post-init-label (. gen newLabel)
end-post-init-label (. gen newLabel)
nth-method (. Method (getMethod "Object nth(Object,int)"))
local (. gen newLocal obj-type)]
(. gen (visitCode))
(if init
(do
(emit-get-var gen init-name)
(. gen dup)
(. gen ifNull no-init-label)
(.checkCast gen ifn-type)
;box init args
(dotimes [i (count pclasses)]
(. gen (loadArg i))
(. clojure.lang.Compiler$HostExpr (emitBoxReturn nil gen (nth pclasses i))))
;call init fn
(. gen (invokeInterface ifn-type (new Method "invoke" obj-type
(arg-types (count ptypes)))))
;expecting [[super-ctor-args] state] returned
(. gen dup)
(. gen push (int 0))
(. gen (invokeStatic rt-type nth-method))
(. gen storeLocal local)
(. gen (loadThis))
(. gen dupX1)
(dotimes [i (count super-pclasses)]
(. gen loadLocal local)
(. gen push (int i))
(. gen (invokeStatic rt-type nth-method))
(. clojure.lang.Compiler$HostExpr (emitUnboxArg nil gen (nth super-pclasses i))))
(. gen (invokeConstructor super-type super-m))
(if state
(do
(. gen push (int 1))
(. gen (invokeStatic rt-type nth-method))
(. gen (putField ctype state-name obj-type)))
(. gen pop))
(. gen goTo end-label)
;no init found
(. gen mark no-init-label)
(. gen (throwException ex-type (str impl-pkg-name "/" prefix init-name " not defined")))
(. gen mark end-label))
(if (= pclasses super-pclasses)
(do
(. gen (loadThis))
(. gen (loadArgs))
(. gen (invokeConstructor super-type super-m)))
(throw (new Exception ":init not specified, but ctor and super ctor args differ"))))
(when post-init
(emit-get-var gen post-init-name)
(. gen dup)
(. gen ifNull no-post-init-label)
(.checkCast gen ifn-type)
(. gen (loadThis))
;box init args
(dotimes [i (count pclasses)]
(. gen (loadArg i))
(. clojure.lang.Compiler$HostExpr (emitBoxReturn nil gen (nth pclasses i))))
;call init fn
(. gen (invokeInterface ifn-type (new Method "invoke" obj-type
(arg-types (inc (count ptypes))))))
(. gen pop)
(. gen goTo end-post-init-label)
;no init found
(. gen mark no-post-init-label)
(. gen (throwException ex-type (str impl-pkg-name "/" prefix post-init-name " not defined")))
(. gen mark end-post-init-label))
(. gen (returnValue))
(. gen (endMethod))
;factory
(when factory
(let [fm (new Method factory-name ctype ptypes)
gen (new GeneratorAdapter (+ (. Opcodes ACC_PUBLIC) (. Opcodes ACC_STATIC))
fm nil nil cv)]
(. gen (visitCode))
(. gen newInstance ctype)
(. gen dup)
(. gen (loadArgs))
(. gen (invokeConstructor ctype m))
(. gen (returnValue))
(. gen (endMethod))))))
;add methods matching supers', if no fn -> call super
(let [mm (non-private-methods super)]
(doseq [^java.lang.reflect.Method meth (vals mm)]
(emit-forwarding-method (.getName meth) (.getParameterTypes meth) (.getReturnType meth) false
(fn [^GeneratorAdapter gen ^Method m]
(. gen (loadThis))
;push args
(. gen (loadArgs))
;call super
(. gen (visitMethodInsn (. Opcodes INVOKESPECIAL)
(. super-type (getInternalName))
(. m (getName))
(. m (getDescriptor)))))))
;add methods matching interfaces', if no fn -> throw
(reduce1 (fn [mm ^java.lang.reflect.Method meth]
(if (contains? mm (method-sig meth))
mm
(do
(emit-forwarding-method (.getName meth) (.getParameterTypes meth) (.getReturnType meth) false
emit-unsupported)
(assoc mm (method-sig meth) meth))))
mm (mapcat #(.getMethods ^Class %) interfaces))
;extra methods
(doseq [[mname pclasses rclass :as msig] methods]
(emit-forwarding-method mname pclasses rclass (:static (meta msig))
emit-unsupported))
;expose specified overridden superclass methods
(doseq [[local-mname ^java.lang.reflect.Method m] (reduce1 (fn [ms [[name _ _] m]]
(if (contains? exposes-methods (symbol name))
(conj ms [((symbol name) exposes-methods) m])
ms)) [] (seq mm))]
(let [ptypes (to-types (.getParameterTypes m))
rtype (totype (.getReturnType m))
exposer-m (new Method (str local-mname) rtype ptypes)
target-m (new Method (.getName m) rtype ptypes)
gen (new GeneratorAdapter (. Opcodes ACC_PUBLIC) exposer-m nil nil cv)]
(. gen (loadThis))
(. gen (loadArgs))
(. gen (visitMethodInsn (. Opcodes INVOKESPECIAL)
(. super-type (getInternalName))
(. target-m (getName))
(. target-m (getDescriptor))))
(. gen (returnValue))
(. gen (endMethod)))))
;main
(when main
(let [m (. Method getMethod "void main (String[])")
gen (new GeneratorAdapter (+ (. Opcodes ACC_PUBLIC) (. Opcodes ACC_STATIC))
m nil nil cv)
no-main-label (. gen newLabel)
end-label (. gen newLabel)]
(. gen (visitCode))
(emit-get-var gen main-name)
(. gen dup)
(. gen ifNull no-main-label)
(.checkCast gen ifn-type)
(. gen loadArgs)
(. gen (invokeStatic rt-type (. Method (getMethod "clojure.lang.ISeq seq(Object)"))))
(. gen (invokeInterface ifn-type (new Method "applyTo" obj-type
(into-array [iseq-type]))))
(. gen pop)
(. gen goTo end-label)
;no main found
(. gen mark no-main-label)
(. gen (throwException ex-type (str impl-pkg-name "/" prefix main-name " not defined")))
(. gen mark end-label)
(. gen (returnValue))
(. gen (endMethod))))
;field exposers
(doseq [[f {getter :get setter :set}] exposes]
(let [fld (find-field super (str f))
ftype (totype (.getType fld))
static? (Modifier/isStatic (.getModifiers fld))
acc (+ Opcodes/ACC_PUBLIC (if static? Opcodes/ACC_STATIC 0))]
(when getter
(let [m (new Method (str getter) ftype (to-types []))
gen (new GeneratorAdapter acc m nil nil cv)]
(. gen (visitCode))
(if static?
(. gen getStatic ctype (str f) ftype)
(do
(. gen loadThis)
(. gen getField ctype (str f) ftype)))
(. gen (returnValue))
(. gen (endMethod))))
(when setter
(let [m (new Method (str setter) Type/VOID_TYPE (into-array [ftype]))
gen (new GeneratorAdapter acc m nil nil cv)]
(. gen (visitCode))
(if static?
(do
(. gen loadArgs)
(. gen putStatic ctype (str f) ftype))
(do
(. gen loadThis)
(. gen loadArgs)
(. gen putField ctype (str f) ftype)))
(. gen (returnValue))
(. gen (endMethod))))))
;finish class def
(. cv (visitEnd))
[cname (. cv (toByteArray))]))
(defmacro gen-class
"When compiling, generates compiled bytecode for a class with the
given package-qualified :name (which, as all names in these
parameters, can be a string or symbol), and writes the .class file
to the *compile-path* directory. When not compiling, does
nothing. The gen-class construct contains no implementation, as the
implementation will be dynamically sought by the generated class in
functions in an implementing Clojure namespace. Given a generated
class org.mydomain.MyClass with a method named mymethod, gen-class
will generate an implementation that looks for a function named by
(str prefix mymethod) (default prefix: \"-\") in a
Clojure namespace specified by :impl-ns
(defaults to the current namespace). All inherited methods,
generated methods, and init and main functions (see :methods, :init,
and :main below) will be found similarly prefixed. By default, the
static initializer for the generated class will attempt to load the
Clojure support code for the class as a resource from the classpath,
e.g. in the example case, ``org/mydomain/MyClass__init.class``. This
behavior can be controlled by :load-impl-ns
Note that methods with a maximum of 18 parameters are supported.
In all subsequent sections taking types, the primitive types can be
referred to by their Java names (int, float etc), and classes in the
java.lang package can be used without a package qualifier. All other
classes must be fully qualified.
Options should be a set of key/value pairs, all except for :name are optional:
:name aname
The package-qualified name of the class to be generated
:extends aclass
Specifies the superclass, the non-private methods of which will be
overridden by the class. If not provided, defaults to Object.
:implements [interface ...]
One or more interfaces, the methods of which will be implemented by the class.
:init name
If supplied, names a function that will be called with the arguments
to the constructor. Must return [ [superclass-constructor-args] state]
If not supplied, the constructor args are passed directly to
the superclass constructor and the state will be nil
:constructors {[param-types] [super-param-types], ...}
By default, constructors are created for the generated class which
match the signature(s) of the constructors for the superclass. This
parameter may be used to explicitly specify constructors, each entry
providing a mapping from a constructor signature to a superclass
constructor signature. When you supply this, you must supply an :init
specifier.
:post-init name
If supplied, names a function that will be called with the object as
the first argument, followed by the arguments to the constructor.
It will be called every time an object of this class is created,
immediately after all the inherited constructors have completed.
It's return value is ignored.
:methods [ [name [param-types] return-type], ...]
The generated class automatically defines all of the non-private
methods of its superclasses/interfaces. This parameter can be used
to specify the signatures of additional methods of the generated
class. Static methods can be specified with ^{:static true} in the
signature's metadata. Do not repeat superclass/interface signatures
here.
:main boolean
If supplied and true, a static public main function will be generated. It will
pass each string of the String[] argument as a separate argument to
a function called (str prefix main).
:factory name
If supplied, a (set of) public static factory function(s) will be
created with the given name, and the same signature(s) as the
constructor(s).
:state name
If supplied, a public final instance field with the given name will be
created. You must supply an :init function in order to provide a
value for the state. Note that, though final, the state can be a ref
or agent, supporting the creation of Java objects with transactional
or asynchronous mutation semantics.
:exposes {protected-field-name {:get name :set name}, ...}
Since the implementations of the methods of the generated class
occur in Clojure functions, they have no access to the inherited
protected fields of the superclass. This parameter can be used to
generate public getter/setter methods exposing the protected field(s)
for use in the implementation.
:exposes-methods {super-method-name exposed-name, ...}
It is sometimes necessary to call the superclass' implementation of an
overridden method. Those methods may be exposed and referred in
the new method implementation by a local name.
:prefix string
Default: \"-\" Methods called e.g. Foo will be looked up in vars called
prefixFoo in the implementing ns.
:impl-ns name
Default: the name of the current ns. Implementations of methods will be
looked up in this namespace.
:load-impl-ns boolean
Default: true. Causes the static initializer for the generated class
to reference the load code for the implementing namespace. Should be
true when implementing-ns is the default, false if you intend to
load the code via some other method."
{:added "1.0"}
[& options]
(when *compile-files*
(let [options-map (into1 {} (map vec (partition 2 options)))
[cname bytecode] (generate-class options-map)]
(clojure.lang.Compiler/writeClassFile cname bytecode))))
;;;;;;;;;;;;;;;;;;;; gen-interface ;;;;;;;;;;;;;;;;;;;;;;
;; based on original contribution by Chris Houser
(defn- ^Type asm-type
"Returns an asm Type object for c, which may be a primitive class
(such as Integer/TYPE), any other class (such as Double), or a
fully-qualified class name given as a string or symbol
(such as 'java.lang.String)"
[c]
(if (or (instance? Class c) (prim->class c))
(Type/getType (the-class c))
(let [strx (str c)]
(Type/getObjectType
(.replace (if (some #{\. \[} strx)
strx
(str "java.lang." strx))
"." "/")))))
(defn- generate-interface
[{:keys [name extends methods]}]
(let [iname (.replace (str name) "." "/")
cv (ClassWriter. ClassWriter/COMPUTE_MAXS)]
(. cv visit Opcodes/V1_5 (+ Opcodes/ACC_PUBLIC
Opcodes/ACC_ABSTRACT
Opcodes/ACC_INTERFACE)
iname nil "java/lang/Object"
(when (seq extends)
(into-array (map #(.getInternalName (asm-type %)) extends))))
(add-annotations cv (meta name))
(doseq [[mname pclasses rclass pmetas] methods]
(let [mv (. cv visitMethod (+ Opcodes/ACC_PUBLIC Opcodes/ACC_ABSTRACT)
(str mname)
(Type/getMethodDescriptor (asm-type rclass)
(if pclasses
(into-array Type (map asm-type pclasses))
(make-array Type 0)))
nil nil)]
(add-annotations mv (meta mname))
(dotimes [i (count pmetas)]
(add-annotations mv (nth pmetas i) i))
(. mv visitEnd)))
(. cv visitEnd)
[iname (. cv toByteArray)]))
(defmacro gen-interface
"When compiling, generates compiled bytecode for an interface with
the given package-qualified :name (which, as all names in these
parameters, can be a string or symbol), and writes the .class file
to the *compile-path* directory. When not compiling, does nothing.
In all subsequent sections taking types, the primitive types can be
referred to by their Java names (int, float etc), and classes in the
java.lang package can be used without a package qualifier. All other
classes must be fully qualified.
Options should be a set of key/value pairs, all except for :name are
optional:
:name aname
The package-qualified name of the class to be generated
:extends [interface ...]
One or more interfaces, which will be extended by this interface.
:methods [ [name [param-types] return-type], ...]
This parameter is used to specify the signatures of the methods of
the generated interface. Do not repeat superinterface signatures
here."
{:added "1.0"}
[& options]
(let [options-map (apply hash-map options)
[cname bytecode] (generate-interface options-map)]
(if *compile-files*
(clojure.lang.Compiler/writeClassFile cname bytecode)
(.defineClass ^DynamicClassLoader (deref clojure.lang.Compiler/LOADER)
(str (:name options-map)) bytecode options))))
(comment
(defn gen-and-load-class
"Generates and immediately loads the bytecode for the specified
class. Note that a class generated this way can be loaded only once
- the JVM supports only one class with a given name per
classloader. Subsequent to generation you can import it into any
desired namespaces just like any other class. See gen-class for a
description of the options."
{:added "1.0"}
[& options]
(let [options-map (apply hash-map options)
[cname bytecode] (generate-class options-map)]
(.. (clojure.lang.RT/getRootClassLoader) (defineClass cname bytecode options))))
)
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