Java Code Examples for jdk.internal.dynalink.linker.LinkerServices#asType()
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Example 1
Source File: SingleDynamicMethod.java From nashorn with GNU General Public License v2.0 | 4 votes |
private static MethodHandle createConvertingInvocation(final MethodHandle sizedMethod, final LinkerServices linkerServices, final MethodType callSiteType) { return linkerServices.asType(sizedMethod, callSiteType); }
Example 2
Source File: AbstractJavaLinker.java From jdk8u_nashorn with GNU General Public License v2.0 | 4 votes |
private GuardedInvocationComponent getPropertySetter(final CallSiteDescriptor callSiteDescriptor, final LinkerServices linkerServices, final List<String> operations) throws Exception { switch(callSiteDescriptor.getNameTokenCount()) { case 2: { // Must have three arguments: target object, property name, and property value. assertParameterCount(callSiteDescriptor, 3); // We want setters that conform to "Object(O, V)". Note, we aren't doing "R(O, V)" as it might not be // valid for us to convert return values proactively. Also, since we don't know what setters will be // invoked, we'll conservatively presume Object return type. The one exception is void return. final MethodType origType = callSiteDescriptor.getMethodType(); final MethodType type = origType.returnType() == void.class ? origType : origType.changeReturnType(Object.class); // What's below is basically: // foldArguments(guardWithTest(isNotNull, invoke, null|nextComponent.invocation), // get_setter_handle(type, linkerServices)) // only with a bunch of method signature adjustments. Basically, retrieve method setter // MethodHandle; if it is non-null, invoke it, otherwise either return null, or delegate to next // component's invocation. // Call site type is "ret_type(object_type,property_name_type,property_value_type)", which we'll // abbreviate to R(O, N, V) going forward, although we don't really use R here (see above about using // Object return type). final MethodType setterType = type.dropParameterTypes(1, 2); // Bind property setter handle to the expected setter type and linker services. Type is // MethodHandle(Object, String, Object) final MethodHandle boundGetter = MethodHandles.insertArguments(getPropertySetterHandle, 0, callSiteDescriptor.changeMethodType(setterType), linkerServices); // Cast getter to MethodHandle(O, N, V) final MethodHandle typedGetter = linkerServices.asType(boundGetter, type.changeReturnType( MethodHandle.class)); // Handle to invoke the setter R(MethodHandle, O, V) final MethodHandle invokeHandle = MethodHandles.exactInvoker(setterType); // Handle to invoke the setter, dropping unnecessary fold arguments R(MethodHandle, O, N, V) final MethodHandle invokeHandleFolded = MethodHandles.dropArguments(invokeHandle, 2, type.parameterType( 1)); final GuardedInvocationComponent nextComponent = getGuardedInvocationComponent(callSiteDescriptor, linkerServices, operations); final MethodHandle fallbackFolded; if(nextComponent == null) { // Object(MethodHandle)->Object(MethodHandle, O, N, V); returns constant null fallbackFolded = MethodHandles.dropArguments(CONSTANT_NULL_DROP_METHOD_HANDLE, 1, type.parameterList()).asType(type.insertParameterTypes(0, MethodHandle.class)); } else { // Object(O, N, V)->Object(MethodHandle, O, N, V); adapts the next component's invocation to drop the // extra argument resulting from fold fallbackFolded = MethodHandles.dropArguments(nextComponent.getGuardedInvocation().getInvocation(), 0, MethodHandle.class); } // fold(R(MethodHandle, O, N, V), MethodHandle(O, N, V)) final MethodHandle compositeSetter = MethodHandles.foldArguments(MethodHandles.guardWithTest( IS_METHOD_HANDLE_NOT_NULL, invokeHandleFolded, fallbackFolded), typedGetter); if(nextComponent == null) { return getClassGuardedInvocationComponent(compositeSetter, type); } return nextComponent.compose(compositeSetter, getClassGuard(type), clazz, ValidationType.EXACT_CLASS); } case 3: { // Must have two arguments: target object and property value assertParameterCount(callSiteDescriptor, 2); final GuardedInvocation gi = createGuardedDynamicMethodInvocation(callSiteDescriptor, linkerServices, callSiteDescriptor.getNameToken(CallSiteDescriptor.NAME_OPERAND), propertySetters); // If we have a property setter with this name, this composite operation will always stop here if(gi != null) { return new GuardedInvocationComponent(gi, clazz, ValidationType.EXACT_CLASS); } // If we don't have a property setter with this name, always fall back to the next operation in the // composite (if any) return getGuardedInvocationComponent(callSiteDescriptor, linkerServices, operations); } default: { // More than two name components; don't know what to do with it. return null; } } }
Example 3
Source File: AbstractJavaLinker.java From openjdk-8 with GNU General Public License v2.0 | 4 votes |
private GuardedInvocationComponent getPropertySetter(CallSiteDescriptor callSiteDescriptor, LinkerServices linkerServices, List<String> operations) throws Exception { final MethodType type = callSiteDescriptor.getMethodType(); switch(callSiteDescriptor.getNameTokenCount()) { case 2: { // Must have three arguments: target object, property name, and property value. assertParameterCount(callSiteDescriptor, 3); // What's below is basically: // foldArguments(guardWithTest(isNotNull, invoke, null|nextComponent.invocation), // get_setter_handle(type, linkerServices)) // only with a bunch of method signature adjustments. Basically, retrieve method setter // MethodHandle; if it is non-null, invoke it, otherwise either return null, or delegate to next // component's invocation. // Call site type is "ret_type(object_type,property_name_type,property_value_type)", which we'll // abbreviate to R(O, N, V) going forward. // We want setters that conform to "R(O, V)" final MethodType setterType = type.dropParameterTypes(1, 2); // Bind property setter handle to the expected setter type and linker services. Type is // MethodHandle(Object, String, Object) final MethodHandle boundGetter = MethodHandles.insertArguments(getPropertySetterHandle, 0, CallSiteDescriptorFactory.dropParameterTypes(callSiteDescriptor, 1, 2), linkerServices); // Cast getter to MethodHandle(O, N, V) final MethodHandle typedGetter = linkerServices.asType(boundGetter, type.changeReturnType( MethodHandle.class)); // Handle to invoke the setter R(MethodHandle, O, V) final MethodHandle invokeHandle = MethodHandles.exactInvoker(setterType); // Handle to invoke the setter, dropping unnecessary fold arguments R(MethodHandle, O, N, V) final MethodHandle invokeHandleFolded = MethodHandles.dropArguments(invokeHandle, 2, type.parameterType( 1)); final GuardedInvocationComponent nextComponent = getGuardedInvocationComponent(callSiteDescriptor, linkerServices, operations); final MethodHandle fallbackFolded; if(nextComponent == null) { // Object(MethodHandle)->R(MethodHandle, O, N, V); returns constant null fallbackFolded = MethodHandles.dropArguments(CONSTANT_NULL_DROP_METHOD_HANDLE, 1, type.parameterList()).asType(type.insertParameterTypes(0, MethodHandle.class)); } else { // R(O, N, V)->R(MethodHandle, O, N, V); adapts the next component's invocation to drop the // extra argument resulting from fold fallbackFolded = MethodHandles.dropArguments(nextComponent.getGuardedInvocation().getInvocation(), 0, MethodHandle.class); } // fold(R(MethodHandle, O, N, V), MethodHandle(O, N, V)) final MethodHandle compositeSetter = MethodHandles.foldArguments(MethodHandles.guardWithTest( IS_METHOD_HANDLE_NOT_NULL, invokeHandleFolded, fallbackFolded), typedGetter); if(nextComponent == null) { return getClassGuardedInvocationComponent(compositeSetter, type); } return nextComponent.compose(compositeSetter, getClassGuard(type), clazz, ValidationType.EXACT_CLASS); } case 3: { // Must have two arguments: target object and property value assertParameterCount(callSiteDescriptor, 2); final GuardedInvocation gi = createGuardedDynamicMethodInvocation(callSiteDescriptor, linkerServices, callSiteDescriptor.getNameToken(CallSiteDescriptor.NAME_OPERAND), propertySetters); // If we have a property setter with this name, this composite operation will always stop here if(gi != null) { return new GuardedInvocationComponent(gi, clazz, ValidationType.EXACT_CLASS); } // If we don't have a property setter with this name, always fall back to the next operation in the // composite (if any) return getGuardedInvocationComponent(callSiteDescriptor, linkerServices, operations); } default: { // More than two name components; don't know what to do with it. return null; } } }
Example 4
Source File: AbstractJavaLinker.java From openjdk-8-source with GNU General Public License v2.0 | 4 votes |
private GuardedInvocationComponent getPropertySetter(CallSiteDescriptor callSiteDescriptor, LinkerServices linkerServices, List<String> operations) throws Exception { final MethodType type = callSiteDescriptor.getMethodType(); switch(callSiteDescriptor.getNameTokenCount()) { case 2: { // Must have three arguments: target object, property name, and property value. assertParameterCount(callSiteDescriptor, 3); // What's below is basically: // foldArguments(guardWithTest(isNotNull, invoke, null|nextComponent.invocation), // get_setter_handle(type, linkerServices)) // only with a bunch of method signature adjustments. Basically, retrieve method setter // MethodHandle; if it is non-null, invoke it, otherwise either return null, or delegate to next // component's invocation. // Call site type is "ret_type(object_type,property_name_type,property_value_type)", which we'll // abbreviate to R(O, N, V) going forward. // We want setters that conform to "R(O, V)" final MethodType setterType = type.dropParameterTypes(1, 2); // Bind property setter handle to the expected setter type and linker services. Type is // MethodHandle(Object, String, Object) final MethodHandle boundGetter = MethodHandles.insertArguments(getPropertySetterHandle, 0, CallSiteDescriptorFactory.dropParameterTypes(callSiteDescriptor, 1, 2), linkerServices); // Cast getter to MethodHandle(O, N, V) final MethodHandle typedGetter = linkerServices.asType(boundGetter, type.changeReturnType( MethodHandle.class)); // Handle to invoke the setter R(MethodHandle, O, V) final MethodHandle invokeHandle = MethodHandles.exactInvoker(setterType); // Handle to invoke the setter, dropping unnecessary fold arguments R(MethodHandle, O, N, V) final MethodHandle invokeHandleFolded = MethodHandles.dropArguments(invokeHandle, 2, type.parameterType( 1)); final GuardedInvocationComponent nextComponent = getGuardedInvocationComponent(callSiteDescriptor, linkerServices, operations); final MethodHandle fallbackFolded; if(nextComponent == null) { // Object(MethodHandle)->R(MethodHandle, O, N, V); returns constant null fallbackFolded = MethodHandles.dropArguments(CONSTANT_NULL_DROP_METHOD_HANDLE, 1, type.parameterList()).asType(type.insertParameterTypes(0, MethodHandle.class)); } else { // R(O, N, V)->R(MethodHandle, O, N, V); adapts the next component's invocation to drop the // extra argument resulting from fold fallbackFolded = MethodHandles.dropArguments(nextComponent.getGuardedInvocation().getInvocation(), 0, MethodHandle.class); } // fold(R(MethodHandle, O, N, V), MethodHandle(O, N, V)) final MethodHandle compositeSetter = MethodHandles.foldArguments(MethodHandles.guardWithTest( IS_METHOD_HANDLE_NOT_NULL, invokeHandleFolded, fallbackFolded), typedGetter); if(nextComponent == null) { return getClassGuardedInvocationComponent(compositeSetter, type); } return nextComponent.compose(compositeSetter, getClassGuard(type), clazz, ValidationType.EXACT_CLASS); } case 3: { // Must have two arguments: target object and property value assertParameterCount(callSiteDescriptor, 2); final GuardedInvocation gi = createGuardedDynamicMethodInvocation(callSiteDescriptor, linkerServices, callSiteDescriptor.getNameToken(CallSiteDescriptor.NAME_OPERAND), propertySetters); // If we have a property setter with this name, this composite operation will always stop here if(gi != null) { return new GuardedInvocationComponent(gi, clazz, ValidationType.EXACT_CLASS); } // If we don't have a property setter with this name, always fall back to the next operation in the // composite (if any) return getGuardedInvocationComponent(callSiteDescriptor, linkerServices, operations); } default: { // More than two name components; don't know what to do with it. return null; } } }
Example 5
Source File: AbstractJavaLinker.java From openjdk-8 with GNU General Public License v2.0 | 4 votes |
private GuardedInvocationComponent getPropertyGetter(CallSiteDescriptor callSiteDescriptor, LinkerServices linkerServices, List<String> ops) throws Exception { final MethodType type = callSiteDescriptor.getMethodType(); switch(callSiteDescriptor.getNameTokenCount()) { case 2: { // Must have exactly two arguments: receiver and name assertParameterCount(callSiteDescriptor, 2); // What's below is basically: // foldArguments(guardWithTest(isNotNull, invoke(get_handle), null|nextComponent.invocation), get_getter_handle) // only with a bunch of method signature adjustments. Basically, retrieve method getter // AnnotatedDynamicMethod; if it is non-null, invoke its "handle" field, otherwise either return null, // or delegate to next component's invocation. final MethodHandle typedGetter = linkerServices.asType(getPropertyGetterHandle, type.changeReturnType( AnnotatedDynamicMethod.class)); final MethodHandle callSiteBoundMethodGetter = MethodHandles.insertArguments( GET_ANNOTATED_METHOD, 1, callSiteDescriptor.getLookup()); final MethodHandle callSiteBoundInvoker = MethodHandles.filterArguments(GETTER_INVOKER, 0, callSiteBoundMethodGetter); // Object(AnnotatedDynamicMethod, Object)->R(AnnotatedDynamicMethod, T0) final MethodHandle invokeHandleTyped = linkerServices.asType(callSiteBoundInvoker, MethodType.methodType(type.returnType(), AnnotatedDynamicMethod.class, type.parameterType(0))); // Since it's in the target of a fold, drop the unnecessary second argument // R(AnnotatedDynamicMethod, T0)->R(AnnotatedDynamicMethod, T0, T1) final MethodHandle invokeHandleFolded = MethodHandles.dropArguments(invokeHandleTyped, 2, type.parameterType(1)); final GuardedInvocationComponent nextComponent = getGuardedInvocationComponent(callSiteDescriptor, linkerServices, ops); final MethodHandle fallbackFolded; if(nextComponent == null) { // Object(AnnotatedDynamicMethod)->R(AnnotatedDynamicMethod, T0, T1); returns constant null fallbackFolded = MethodHandles.dropArguments(CONSTANT_NULL_DROP_ANNOTATED_METHOD, 1, type.parameterList()).asType(type.insertParameterTypes(0, AnnotatedDynamicMethod.class)); } else { // R(T0, T1)->R(AnnotatedDynamicMethod, T0, T1); adapts the next component's invocation to drop the // extra argument resulting from fold fallbackFolded = MethodHandles.dropArguments(nextComponent.getGuardedInvocation().getInvocation(), 0, AnnotatedDynamicMethod.class); } // fold(R(AnnotatedDynamicMethod, T0, T1), AnnotatedDynamicMethod(T0, T1)) final MethodHandle compositeGetter = MethodHandles.foldArguments(MethodHandles.guardWithTest( IS_ANNOTATED_METHOD_NOT_NULL, invokeHandleFolded, fallbackFolded), typedGetter); if(nextComponent == null) { return getClassGuardedInvocationComponent(compositeGetter, type); } return nextComponent.compose(compositeGetter, getClassGuard(type), clazz, ValidationType.EXACT_CLASS); } case 3: { // Must have exactly one argument: receiver assertParameterCount(callSiteDescriptor, 1); // Fixed name final AnnotatedDynamicMethod annGetter = propertyGetters.get(callSiteDescriptor.getNameToken( CallSiteDescriptor.NAME_OPERAND)); if(annGetter == null) { // We have no such property, always delegate to the next component operation return getGuardedInvocationComponent(callSiteDescriptor, linkerServices, ops); } final MethodHandle getter = annGetter.getInvocation(callSiteDescriptor, linkerServices); // NOTE: since property getters (not field getters!) are no-arg, we don't have to worry about them being // overloaded in a subclass. Therefore, we can discover the most abstract superclass that has the // method, and use that as the guard with Guards.isInstance() for a more stably linked call site. If // we're linking against a field getter, don't make the assumption. // NOTE: No delegation to the next component operation if we have a property with this name, even if its // value is null. final ValidationType validationType = annGetter.validationType; // TODO: we aren't using the type that declares the most generic getter here! return new GuardedInvocationComponent(linkerServices.asType(getter, type), getGuard(validationType, type), clazz, validationType); } default: { // Can't do anything with more than 3 name components return null; } } }
Example 6
Source File: AbstractJavaLinker.java From hottub with GNU General Public License v2.0 | 4 votes |
private GuardedInvocationComponent getPropertyGetter(final CallSiteDescriptor callSiteDescriptor, final LinkerServices linkerServices, final List<String> ops) throws Exception { switch(callSiteDescriptor.getNameTokenCount()) { case 2: { // Since we can't know what kind of a getter we'll get back on different invocations, we'll just // conservatively presume Object. Note we can't just coerce to a narrower call site type as the linking // runtime might not allow coercing at that call site. final MethodType type = callSiteDescriptor.getMethodType().changeReturnType(Object.class); // Must have exactly two arguments: receiver and name assertParameterCount(callSiteDescriptor, 2); // What's below is basically: // foldArguments(guardWithTest(isNotNull, invoke(get_handle), null|nextComponent.invocation), get_getter_handle) // only with a bunch of method signature adjustments. Basically, retrieve method getter // AnnotatedDynamicMethod; if it is non-null, invoke its "handle" field, otherwise either return null, // or delegate to next component's invocation. final MethodHandle typedGetter = linkerServices.asType(getPropertyGetterHandle, type.changeReturnType( AnnotatedDynamicMethod.class)); final MethodHandle callSiteBoundMethodGetter = MethodHandles.insertArguments( GET_ANNOTATED_METHOD, 1, callSiteDescriptor.getLookup(), linkerServices); final MethodHandle callSiteBoundInvoker = MethodHandles.filterArguments(GETTER_INVOKER, 0, callSiteBoundMethodGetter); // Object(AnnotatedDynamicMethod, Object)->Object(AnnotatedDynamicMethod, T0) final MethodHandle invokeHandleTyped = linkerServices.asType(callSiteBoundInvoker, MethodType.methodType(type.returnType(), AnnotatedDynamicMethod.class, type.parameterType(0))); // Since it's in the target of a fold, drop the unnecessary second argument // Object(AnnotatedDynamicMethod, T0)->Object(AnnotatedDynamicMethod, T0, T1) final MethodHandle invokeHandleFolded = MethodHandles.dropArguments(invokeHandleTyped, 2, type.parameterType(1)); final GuardedInvocationComponent nextComponent = getGuardedInvocationComponent(callSiteDescriptor, linkerServices, ops); final MethodHandle fallbackFolded; if(nextComponent == null) { // Object(AnnotatedDynamicMethod)->Object(AnnotatedDynamicMethod, T0, T1); returns constant null fallbackFolded = MethodHandles.dropArguments(CONSTANT_NULL_DROP_ANNOTATED_METHOD, 1, type.parameterList()).asType(type.insertParameterTypes(0, AnnotatedDynamicMethod.class)); } else { // Object(T0, T1)->Object(AnnotatedDynamicMethod, T0, T1); adapts the next component's invocation to // drop the extra argument resulting from fold and to change its return type to Object. final MethodHandle nextInvocation = nextComponent.getGuardedInvocation().getInvocation(); final MethodType nextType = nextInvocation.type(); fallbackFolded = MethodHandles.dropArguments(nextInvocation.asType( nextType.changeReturnType(Object.class)), 0, AnnotatedDynamicMethod.class); } // fold(Object(AnnotatedDynamicMethod, T0, T1), AnnotatedDynamicMethod(T0, T1)) final MethodHandle compositeGetter = MethodHandles.foldArguments(MethodHandles.guardWithTest( IS_ANNOTATED_METHOD_NOT_NULL, invokeHandleFolded, fallbackFolded), typedGetter); if(nextComponent == null) { return getClassGuardedInvocationComponent(compositeGetter, type); } return nextComponent.compose(compositeGetter, getClassGuard(type), clazz, ValidationType.EXACT_CLASS); } case 3: { // Must have exactly one argument: receiver assertParameterCount(callSiteDescriptor, 1); // Fixed name final AnnotatedDynamicMethod annGetter = propertyGetters.get(callSiteDescriptor.getNameToken( CallSiteDescriptor.NAME_OPERAND)); if(annGetter == null) { // We have no such property, always delegate to the next component operation return getGuardedInvocationComponent(callSiteDescriptor, linkerServices, ops); } final MethodHandle getter = annGetter.getInvocation(callSiteDescriptor, linkerServices); // NOTE: since property getters (not field getters!) are no-arg, we don't have to worry about them being // overloaded in a subclass. Therefore, we can discover the most abstract superclass that has the // method, and use that as the guard with Guards.isInstance() for a more stably linked call site. If // we're linking against a field getter, don't make the assumption. // NOTE: No delegation to the next component operation if we have a property with this name, even if its // value is null. final ValidationType validationType = annGetter.validationType; // TODO: we aren't using the type that declares the most generic getter here! return new GuardedInvocationComponent(getter, getGuard(validationType, callSiteDescriptor.getMethodType()), clazz, validationType); } default: { // Can't do anything with more than 3 name components return null; } } }
Example 7
Source File: AbstractJavaLinker.java From jdk8u_nashorn with GNU General Public License v2.0 | 4 votes |
private GuardedInvocationComponent getPropertyGetter(final CallSiteDescriptor callSiteDescriptor, final LinkerServices linkerServices, final List<String> ops) throws Exception { switch(callSiteDescriptor.getNameTokenCount()) { case 2: { // Since we can't know what kind of a getter we'll get back on different invocations, we'll just // conservatively presume Object. Note we can't just coerce to a narrower call site type as the linking // runtime might not allow coercing at that call site. final MethodType type = callSiteDescriptor.getMethodType().changeReturnType(Object.class); // Must have exactly two arguments: receiver and name assertParameterCount(callSiteDescriptor, 2); // What's below is basically: // foldArguments(guardWithTest(isNotNull, invoke(get_handle), null|nextComponent.invocation), get_getter_handle) // only with a bunch of method signature adjustments. Basically, retrieve method getter // AnnotatedDynamicMethod; if it is non-null, invoke its "handle" field, otherwise either return null, // or delegate to next component's invocation. final MethodHandle typedGetter = linkerServices.asType(getPropertyGetterHandle, type.changeReturnType( AnnotatedDynamicMethod.class)); final MethodHandle callSiteBoundMethodGetter = MethodHandles.insertArguments( GET_ANNOTATED_METHOD, 1, callSiteDescriptor.getLookup(), linkerServices); final MethodHandle callSiteBoundInvoker = MethodHandles.filterArguments(GETTER_INVOKER, 0, callSiteBoundMethodGetter); // Object(AnnotatedDynamicMethod, Object)->Object(AnnotatedDynamicMethod, T0) final MethodHandle invokeHandleTyped = linkerServices.asType(callSiteBoundInvoker, MethodType.methodType(type.returnType(), AnnotatedDynamicMethod.class, type.parameterType(0))); // Since it's in the target of a fold, drop the unnecessary second argument // Object(AnnotatedDynamicMethod, T0)->Object(AnnotatedDynamicMethod, T0, T1) final MethodHandle invokeHandleFolded = MethodHandles.dropArguments(invokeHandleTyped, 2, type.parameterType(1)); final GuardedInvocationComponent nextComponent = getGuardedInvocationComponent(callSiteDescriptor, linkerServices, ops); final MethodHandle fallbackFolded; if(nextComponent == null) { // Object(AnnotatedDynamicMethod)->Object(AnnotatedDynamicMethod, T0, T1); returns constant null fallbackFolded = MethodHandles.dropArguments(CONSTANT_NULL_DROP_ANNOTATED_METHOD, 1, type.parameterList()).asType(type.insertParameterTypes(0, AnnotatedDynamicMethod.class)); } else { // Object(T0, T1)->Object(AnnotatedDynamicMethod, T0, T1); adapts the next component's invocation to // drop the extra argument resulting from fold and to change its return type to Object. final MethodHandle nextInvocation = nextComponent.getGuardedInvocation().getInvocation(); final MethodType nextType = nextInvocation.type(); fallbackFolded = MethodHandles.dropArguments(nextInvocation.asType( nextType.changeReturnType(Object.class)), 0, AnnotatedDynamicMethod.class); } // fold(Object(AnnotatedDynamicMethod, T0, T1), AnnotatedDynamicMethod(T0, T1)) final MethodHandle compositeGetter = MethodHandles.foldArguments(MethodHandles.guardWithTest( IS_ANNOTATED_METHOD_NOT_NULL, invokeHandleFolded, fallbackFolded), typedGetter); if(nextComponent == null) { return getClassGuardedInvocationComponent(compositeGetter, type); } return nextComponent.compose(compositeGetter, getClassGuard(type), clazz, ValidationType.EXACT_CLASS); } case 3: { // Must have exactly one argument: receiver assertParameterCount(callSiteDescriptor, 1); // Fixed name final AnnotatedDynamicMethod annGetter = propertyGetters.get(callSiteDescriptor.getNameToken( CallSiteDescriptor.NAME_OPERAND)); if(annGetter == null) { // We have no such property, always delegate to the next component operation return getGuardedInvocationComponent(callSiteDescriptor, linkerServices, ops); } final MethodHandle getter = annGetter.getInvocation(callSiteDescriptor, linkerServices); // NOTE: since property getters (not field getters!) are no-arg, we don't have to worry about them being // overloaded in a subclass. Therefore, we can discover the most abstract superclass that has the // method, and use that as the guard with Guards.isInstance() for a more stably linked call site. If // we're linking against a field getter, don't make the assumption. // NOTE: No delegation to the next component operation if we have a property with this name, even if its // value is null. final ValidationType validationType = annGetter.validationType; // TODO: we aren't using the type that declares the most generic getter here! return new GuardedInvocationComponent(getter, getGuard(validationType, callSiteDescriptor.getMethodType()), clazz, validationType); } default: { // Can't do anything with more than 3 name components return null; } } }
Example 8
Source File: AbstractJavaLinker.java From openjdk-jdk8u with GNU General Public License v2.0 | 4 votes |
private GuardedInvocationComponent getPropertyGetter(final CallSiteDescriptor callSiteDescriptor, final LinkerServices linkerServices, final List<String> ops) throws Exception { switch(callSiteDescriptor.getNameTokenCount()) { case 2: { // Since we can't know what kind of a getter we'll get back on different invocations, we'll just // conservatively presume Object. Note we can't just coerce to a narrower call site type as the linking // runtime might not allow coercing at that call site. final MethodType type = callSiteDescriptor.getMethodType().changeReturnType(Object.class); // Must have exactly two arguments: receiver and name assertParameterCount(callSiteDescriptor, 2); // What's below is basically: // foldArguments(guardWithTest(isNotNull, invoke(get_handle), null|nextComponent.invocation), get_getter_handle) // only with a bunch of method signature adjustments. Basically, retrieve method getter // AnnotatedDynamicMethod; if it is non-null, invoke its "handle" field, otherwise either return null, // or delegate to next component's invocation. final MethodHandle typedGetter = linkerServices.asType(getPropertyGetterHandle, type.changeReturnType( AnnotatedDynamicMethod.class)); final MethodHandle callSiteBoundMethodGetter = MethodHandles.insertArguments( GET_ANNOTATED_METHOD, 1, callSiteDescriptor.getLookup(), linkerServices); final MethodHandle callSiteBoundInvoker = MethodHandles.filterArguments(GETTER_INVOKER, 0, callSiteBoundMethodGetter); // Object(AnnotatedDynamicMethod, Object)->Object(AnnotatedDynamicMethod, T0) final MethodHandle invokeHandleTyped = linkerServices.asType(callSiteBoundInvoker, MethodType.methodType(type.returnType(), AnnotatedDynamicMethod.class, type.parameterType(0))); // Since it's in the target of a fold, drop the unnecessary second argument // Object(AnnotatedDynamicMethod, T0)->Object(AnnotatedDynamicMethod, T0, T1) final MethodHandle invokeHandleFolded = MethodHandles.dropArguments(invokeHandleTyped, 2, type.parameterType(1)); final GuardedInvocationComponent nextComponent = getGuardedInvocationComponent(callSiteDescriptor, linkerServices, ops); final MethodHandle fallbackFolded; if(nextComponent == null) { // Object(AnnotatedDynamicMethod)->Object(AnnotatedDynamicMethod, T0, T1); returns constant null fallbackFolded = MethodHandles.dropArguments(CONSTANT_NULL_DROP_ANNOTATED_METHOD, 1, type.parameterList()).asType(type.insertParameterTypes(0, AnnotatedDynamicMethod.class)); } else { // Object(T0, T1)->Object(AnnotatedDynamicMethod, T0, T1); adapts the next component's invocation to // drop the extra argument resulting from fold and to change its return type to Object. final MethodHandle nextInvocation = nextComponent.getGuardedInvocation().getInvocation(); final MethodType nextType = nextInvocation.type(); fallbackFolded = MethodHandles.dropArguments(nextInvocation.asType( nextType.changeReturnType(Object.class)), 0, AnnotatedDynamicMethod.class); } // fold(Object(AnnotatedDynamicMethod, T0, T1), AnnotatedDynamicMethod(T0, T1)) final MethodHandle compositeGetter = MethodHandles.foldArguments(MethodHandles.guardWithTest( IS_ANNOTATED_METHOD_NOT_NULL, invokeHandleFolded, fallbackFolded), typedGetter); if(nextComponent == null) { return getClassGuardedInvocationComponent(compositeGetter, type); } return nextComponent.compose(compositeGetter, getClassGuard(type), clazz, ValidationType.EXACT_CLASS); } case 3: { // Must have exactly one argument: receiver assertParameterCount(callSiteDescriptor, 1); // Fixed name final AnnotatedDynamicMethod annGetter = propertyGetters.get(callSiteDescriptor.getNameToken( CallSiteDescriptor.NAME_OPERAND)); if(annGetter == null) { // We have no such property, always delegate to the next component operation return getGuardedInvocationComponent(callSiteDescriptor, linkerServices, ops); } final MethodHandle getter = annGetter.getInvocation(callSiteDescriptor, linkerServices); // NOTE: since property getters (not field getters!) are no-arg, we don't have to worry about them being // overloaded in a subclass. Therefore, we can discover the most abstract superclass that has the // method, and use that as the guard with Guards.isInstance() for a more stably linked call site. If // we're linking against a field getter, don't make the assumption. // NOTE: No delegation to the next component operation if we have a property with this name, even if its // value is null. final ValidationType validationType = annGetter.validationType; // TODO: we aren't using the type that declares the most generic getter here! return new GuardedInvocationComponent(getter, getGuard(validationType, callSiteDescriptor.getMethodType()), clazz, validationType); } default: { // Can't do anything with more than 3 name components return null; } } }
Example 9
Source File: AbstractJavaLinker.java From openjdk-jdk8u with GNU General Public License v2.0 | 4 votes |
private GuardedInvocationComponent getPropertySetter(final CallSiteDescriptor callSiteDescriptor, final LinkerServices linkerServices, final List<String> operations) throws Exception { switch(callSiteDescriptor.getNameTokenCount()) { case 2: { // Must have three arguments: target object, property name, and property value. assertParameterCount(callSiteDescriptor, 3); // We want setters that conform to "Object(O, V)". Note, we aren't doing "R(O, V)" as it might not be // valid for us to convert return values proactively. Also, since we don't know what setters will be // invoked, we'll conservatively presume Object return type. The one exception is void return. final MethodType origType = callSiteDescriptor.getMethodType(); final MethodType type = origType.returnType() == void.class ? origType : origType.changeReturnType(Object.class); // What's below is basically: // foldArguments(guardWithTest(isNotNull, invoke, null|nextComponent.invocation), // get_setter_handle(type, linkerServices)) // only with a bunch of method signature adjustments. Basically, retrieve method setter // MethodHandle; if it is non-null, invoke it, otherwise either return null, or delegate to next // component's invocation. // Call site type is "ret_type(object_type,property_name_type,property_value_type)", which we'll // abbreviate to R(O, N, V) going forward, although we don't really use R here (see above about using // Object return type). final MethodType setterType = type.dropParameterTypes(1, 2); // Bind property setter handle to the expected setter type and linker services. Type is // MethodHandle(Object, String, Object) final MethodHandle boundGetter = MethodHandles.insertArguments(getPropertySetterHandle, 0, callSiteDescriptor.changeMethodType(setterType), linkerServices); // Cast getter to MethodHandle(O, N, V) final MethodHandle typedGetter = linkerServices.asType(boundGetter, type.changeReturnType( MethodHandle.class)); // Handle to invoke the setter R(MethodHandle, O, V) final MethodHandle invokeHandle = MethodHandles.exactInvoker(setterType); // Handle to invoke the setter, dropping unnecessary fold arguments R(MethodHandle, O, N, V) final MethodHandle invokeHandleFolded = MethodHandles.dropArguments(invokeHandle, 2, type.parameterType( 1)); final GuardedInvocationComponent nextComponent = getGuardedInvocationComponent(callSiteDescriptor, linkerServices, operations); final MethodHandle fallbackFolded; if(nextComponent == null) { // Object(MethodHandle)->Object(MethodHandle, O, N, V); returns constant null fallbackFolded = MethodHandles.dropArguments(CONSTANT_NULL_DROP_METHOD_HANDLE, 1, type.parameterList()).asType(type.insertParameterTypes(0, MethodHandle.class)); } else { // Object(O, N, V)->Object(MethodHandle, O, N, V); adapts the next component's invocation to drop the // extra argument resulting from fold fallbackFolded = MethodHandles.dropArguments(nextComponent.getGuardedInvocation().getInvocation(), 0, MethodHandle.class); } // fold(R(MethodHandle, O, N, V), MethodHandle(O, N, V)) final MethodHandle compositeSetter = MethodHandles.foldArguments(MethodHandles.guardWithTest( IS_METHOD_HANDLE_NOT_NULL, invokeHandleFolded, fallbackFolded), typedGetter); if(nextComponent == null) { return getClassGuardedInvocationComponent(compositeSetter, type); } return nextComponent.compose(compositeSetter, getClassGuard(type), clazz, ValidationType.EXACT_CLASS); } case 3: { // Must have two arguments: target object and property value assertParameterCount(callSiteDescriptor, 2); final GuardedInvocation gi = createGuardedDynamicMethodInvocation(callSiteDescriptor, linkerServices, callSiteDescriptor.getNameToken(CallSiteDescriptor.NAME_OPERAND), propertySetters); // If we have a property setter with this name, this composite operation will always stop here if(gi != null) { return new GuardedInvocationComponent(gi, clazz, ValidationType.EXACT_CLASS); } // If we don't have a property setter with this name, always fall back to the next operation in the // composite (if any) return getGuardedInvocationComponent(callSiteDescriptor, linkerServices, operations); } default: { // More than two name components; don't know what to do with it. return null; } } }
Example 10
Source File: AbstractJavaLinker.java From jdk8u60 with GNU General Public License v2.0 | 4 votes |
private GuardedInvocationComponent getPropertyGetter(final CallSiteDescriptor callSiteDescriptor, final LinkerServices linkerServices, final List<String> ops) throws Exception { switch(callSiteDescriptor.getNameTokenCount()) { case 2: { // Since we can't know what kind of a getter we'll get back on different invocations, we'll just // conservatively presume Object. Note we can't just coerce to a narrower call site type as the linking // runtime might not allow coercing at that call site. final MethodType type = callSiteDescriptor.getMethodType().changeReturnType(Object.class); // Must have exactly two arguments: receiver and name assertParameterCount(callSiteDescriptor, 2); // What's below is basically: // foldArguments(guardWithTest(isNotNull, invoke(get_handle), null|nextComponent.invocation), get_getter_handle) // only with a bunch of method signature adjustments. Basically, retrieve method getter // AnnotatedDynamicMethod; if it is non-null, invoke its "handle" field, otherwise either return null, // or delegate to next component's invocation. final MethodHandle typedGetter = linkerServices.asType(getPropertyGetterHandle, type.changeReturnType( AnnotatedDynamicMethod.class)); final MethodHandle callSiteBoundMethodGetter = MethodHandles.insertArguments( GET_ANNOTATED_METHOD, 1, callSiteDescriptor.getLookup(), linkerServices); final MethodHandle callSiteBoundInvoker = MethodHandles.filterArguments(GETTER_INVOKER, 0, callSiteBoundMethodGetter); // Object(AnnotatedDynamicMethod, Object)->Object(AnnotatedDynamicMethod, T0) final MethodHandle invokeHandleTyped = linkerServices.asType(callSiteBoundInvoker, MethodType.methodType(type.returnType(), AnnotatedDynamicMethod.class, type.parameterType(0))); // Since it's in the target of a fold, drop the unnecessary second argument // Object(AnnotatedDynamicMethod, T0)->Object(AnnotatedDynamicMethod, T0, T1) final MethodHandle invokeHandleFolded = MethodHandles.dropArguments(invokeHandleTyped, 2, type.parameterType(1)); final GuardedInvocationComponent nextComponent = getGuardedInvocationComponent(callSiteDescriptor, linkerServices, ops); final MethodHandle fallbackFolded; if(nextComponent == null) { // Object(AnnotatedDynamicMethod)->Object(AnnotatedDynamicMethod, T0, T1); returns constant null fallbackFolded = MethodHandles.dropArguments(CONSTANT_NULL_DROP_ANNOTATED_METHOD, 1, type.parameterList()).asType(type.insertParameterTypes(0, AnnotatedDynamicMethod.class)); } else { // Object(T0, T1)->Object(AnnotatedDynamicMethod, T0, T1); adapts the next component's invocation to // drop the extra argument resulting from fold and to change its return type to Object. final MethodHandle nextInvocation = nextComponent.getGuardedInvocation().getInvocation(); final MethodType nextType = nextInvocation.type(); fallbackFolded = MethodHandles.dropArguments(nextInvocation.asType( nextType.changeReturnType(Object.class)), 0, AnnotatedDynamicMethod.class); } // fold(Object(AnnotatedDynamicMethod, T0, T1), AnnotatedDynamicMethod(T0, T1)) final MethodHandle compositeGetter = MethodHandles.foldArguments(MethodHandles.guardWithTest( IS_ANNOTATED_METHOD_NOT_NULL, invokeHandleFolded, fallbackFolded), typedGetter); if(nextComponent == null) { return getClassGuardedInvocationComponent(compositeGetter, type); } return nextComponent.compose(compositeGetter, getClassGuard(type), clazz, ValidationType.EXACT_CLASS); } case 3: { // Must have exactly one argument: receiver assertParameterCount(callSiteDescriptor, 1); // Fixed name final AnnotatedDynamicMethod annGetter = propertyGetters.get(callSiteDescriptor.getNameToken( CallSiteDescriptor.NAME_OPERAND)); if(annGetter == null) { // We have no such property, always delegate to the next component operation return getGuardedInvocationComponent(callSiteDescriptor, linkerServices, ops); } final MethodHandle getter = annGetter.getInvocation(callSiteDescriptor, linkerServices); // NOTE: since property getters (not field getters!) are no-arg, we don't have to worry about them being // overloaded in a subclass. Therefore, we can discover the most abstract superclass that has the // method, and use that as the guard with Guards.isInstance() for a more stably linked call site. If // we're linking against a field getter, don't make the assumption. // NOTE: No delegation to the next component operation if we have a property with this name, even if its // value is null. final ValidationType validationType = annGetter.validationType; // TODO: we aren't using the type that declares the most generic getter here! return new GuardedInvocationComponent(getter, getGuard(validationType, callSiteDescriptor.getMethodType()), clazz, validationType); } default: { // Can't do anything with more than 3 name components return null; } } }
Example 11
Source File: AbstractJavaLinker.java From jdk8u60 with GNU General Public License v2.0 | 4 votes |
private GuardedInvocationComponent getPropertySetter(final CallSiteDescriptor callSiteDescriptor, final LinkerServices linkerServices, final List<String> operations) throws Exception { switch(callSiteDescriptor.getNameTokenCount()) { case 2: { // Must have three arguments: target object, property name, and property value. assertParameterCount(callSiteDescriptor, 3); // We want setters that conform to "Object(O, V)". Note, we aren't doing "R(O, V)" as it might not be // valid for us to convert return values proactively. Also, since we don't know what setters will be // invoked, we'll conservatively presume Object return type. The one exception is void return. final MethodType origType = callSiteDescriptor.getMethodType(); final MethodType type = origType.returnType() == void.class ? origType : origType.changeReturnType(Object.class); // What's below is basically: // foldArguments(guardWithTest(isNotNull, invoke, null|nextComponent.invocation), // get_setter_handle(type, linkerServices)) // only with a bunch of method signature adjustments. Basically, retrieve method setter // MethodHandle; if it is non-null, invoke it, otherwise either return null, or delegate to next // component's invocation. // Call site type is "ret_type(object_type,property_name_type,property_value_type)", which we'll // abbreviate to R(O, N, V) going forward, although we don't really use R here (see above about using // Object return type). final MethodType setterType = type.dropParameterTypes(1, 2); // Bind property setter handle to the expected setter type and linker services. Type is // MethodHandle(Object, String, Object) final MethodHandle boundGetter = MethodHandles.insertArguments(getPropertySetterHandle, 0, callSiteDescriptor.changeMethodType(setterType), linkerServices); // Cast getter to MethodHandle(O, N, V) final MethodHandle typedGetter = linkerServices.asType(boundGetter, type.changeReturnType( MethodHandle.class)); // Handle to invoke the setter R(MethodHandle, O, V) final MethodHandle invokeHandle = MethodHandles.exactInvoker(setterType); // Handle to invoke the setter, dropping unnecessary fold arguments R(MethodHandle, O, N, V) final MethodHandle invokeHandleFolded = MethodHandles.dropArguments(invokeHandle, 2, type.parameterType( 1)); final GuardedInvocationComponent nextComponent = getGuardedInvocationComponent(callSiteDescriptor, linkerServices, operations); final MethodHandle fallbackFolded; if(nextComponent == null) { // Object(MethodHandle)->Object(MethodHandle, O, N, V); returns constant null fallbackFolded = MethodHandles.dropArguments(CONSTANT_NULL_DROP_METHOD_HANDLE, 1, type.parameterList()).asType(type.insertParameterTypes(0, MethodHandle.class)); } else { // Object(O, N, V)->Object(MethodHandle, O, N, V); adapts the next component's invocation to drop the // extra argument resulting from fold fallbackFolded = MethodHandles.dropArguments(nextComponent.getGuardedInvocation().getInvocation(), 0, MethodHandle.class); } // fold(R(MethodHandle, O, N, V), MethodHandle(O, N, V)) final MethodHandle compositeSetter = MethodHandles.foldArguments(MethodHandles.guardWithTest( IS_METHOD_HANDLE_NOT_NULL, invokeHandleFolded, fallbackFolded), typedGetter); if(nextComponent == null) { return getClassGuardedInvocationComponent(compositeSetter, type); } return nextComponent.compose(compositeSetter, getClassGuard(type), clazz, ValidationType.EXACT_CLASS); } case 3: { // Must have two arguments: target object and property value assertParameterCount(callSiteDescriptor, 2); final GuardedInvocation gi = createGuardedDynamicMethodInvocation(callSiteDescriptor, linkerServices, callSiteDescriptor.getNameToken(CallSiteDescriptor.NAME_OPERAND), propertySetters); // If we have a property setter with this name, this composite operation will always stop here if(gi != null) { return new GuardedInvocationComponent(gi, clazz, ValidationType.EXACT_CLASS); } // If we don't have a property setter with this name, always fall back to the next operation in the // composite (if any) return getGuardedInvocationComponent(callSiteDescriptor, linkerServices, operations); } default: { // More than two name components; don't know what to do with it. return null; } } }
Example 12
Source File: AbstractJavaLinker.java From nashorn with GNU General Public License v2.0 | 4 votes |
private GuardedInvocationComponent getPropertySetter(CallSiteDescriptor callSiteDescriptor, LinkerServices linkerServices, List<String> operations) throws Exception { final MethodType type = callSiteDescriptor.getMethodType(); switch(callSiteDescriptor.getNameTokenCount()) { case 2: { // Must have three arguments: target object, property name, and property value. assertParameterCount(callSiteDescriptor, 3); // What's below is basically: // foldArguments(guardWithTest(isNotNull, invoke, null|nextComponent.invocation), // get_setter_handle(type, linkerServices)) // only with a bunch of method signature adjustments. Basically, retrieve method setter // MethodHandle; if it is non-null, invoke it, otherwise either return null, or delegate to next // component's invocation. // Call site type is "ret_type(object_type,property_name_type,property_value_type)", which we'll // abbreviate to R(O, N, V) going forward. // We want setters that conform to "R(O, V)" final MethodType setterType = type.dropParameterTypes(1, 2); // Bind property setter handle to the expected setter type and linker services. Type is // MethodHandle(Object, String, Object) final MethodHandle boundGetter = MethodHandles.insertArguments(getPropertySetterHandle, 0, CallSiteDescriptorFactory.dropParameterTypes(callSiteDescriptor, 1, 2), linkerServices); // Cast getter to MethodHandle(O, N, V) final MethodHandle typedGetter = linkerServices.asType(boundGetter, type.changeReturnType( MethodHandle.class)); // Handle to invoke the setter R(MethodHandle, O, V) final MethodHandle invokeHandle = MethodHandles.exactInvoker(setterType); // Handle to invoke the setter, dropping unnecessary fold arguments R(MethodHandle, O, N, V) final MethodHandle invokeHandleFolded = MethodHandles.dropArguments(invokeHandle, 2, type.parameterType( 1)); final GuardedInvocationComponent nextComponent = getGuardedInvocationComponent(callSiteDescriptor, linkerServices, operations); final MethodHandle fallbackFolded; if(nextComponent == null) { // Object(MethodHandle)->R(MethodHandle, O, N, V); returns constant null fallbackFolded = MethodHandles.dropArguments(CONSTANT_NULL_DROP_METHOD_HANDLE, 1, type.parameterList()).asType(type.insertParameterTypes(0, MethodHandle.class)); } else { // R(O, N, V)->R(MethodHandle, O, N, V); adapts the next component's invocation to drop the // extra argument resulting from fold fallbackFolded = MethodHandles.dropArguments(nextComponent.getGuardedInvocation().getInvocation(), 0, MethodHandle.class); } // fold(R(MethodHandle, O, N, V), MethodHandle(O, N, V)) final MethodHandle compositeSetter = MethodHandles.foldArguments(MethodHandles.guardWithTest( IS_METHOD_HANDLE_NOT_NULL, invokeHandleFolded, fallbackFolded), typedGetter); if(nextComponent == null) { return getClassGuardedInvocationComponent(compositeSetter, type); } return nextComponent.compose(compositeSetter, getClassGuard(type), clazz, ValidationType.EXACT_CLASS); } case 3: { // Must have two arguments: target object and property value assertParameterCount(callSiteDescriptor, 2); final GuardedInvocation gi = createGuardedDynamicMethodInvocation(callSiteDescriptor, linkerServices, callSiteDescriptor.getNameToken(CallSiteDescriptor.NAME_OPERAND), propertySetters); // If we have a property setter with this name, this composite operation will always stop here if(gi != null) { return new GuardedInvocationComponent(gi, clazz, ValidationType.EXACT_CLASS); } // If we don't have a property setter with this name, always fall back to the next operation in the // composite (if any) return getGuardedInvocationComponent(callSiteDescriptor, linkerServices, operations); } default: { // More than two name components; don't know what to do with it. return null; } } }
Example 13
Source File: Guards.java From openjdk-jdk8u with GNU General Public License v2.0 | 2 votes |
/** * Takes a guard-test method handle, and adapts it to the requested type, returning a boolean. Applies the passed * {@link LinkerServices} object's {@link LinkerServices#asType(MethodHandle, MethodType)}. * @param linkerServices the linker services to use for type conversions * @param test the test method handle * @param type the type to adapt the method handle to * @return the adapted method handle */ public static MethodHandle asType(final LinkerServices linkerServices, final MethodHandle test, final MethodType type) { return linkerServices.asType(test, getTestType(test, type)); }
Example 14
Source File: Guards.java From jdk8u_nashorn with GNU General Public License v2.0 | 2 votes |
/** * Takes a guard-test method handle, and adapts it to the requested type, returning a boolean. Applies the passed * {@link LinkerServices} object's {@link LinkerServices#asType(MethodHandle, MethodType)}. * @param linkerServices the linker services to use for type conversions * @param test the test method handle * @param type the type to adapt the method handle to * @return the adapted method handle */ public static MethodHandle asType(final LinkerServices linkerServices, final MethodHandle test, final MethodType type) { return linkerServices.asType(test, getTestType(test, type)); }
Example 15
Source File: Guards.java From openjdk-jdk8u-backup with GNU General Public License v2.0 | 2 votes |
/** * Takes a guard-test method handle, and adapts it to the requested type, returning a boolean. Applies the passed * {@link LinkerServices} object's {@link LinkerServices#asType(MethodHandle, MethodType)}. * @param linkerServices the linker services to use for type conversions * @param test the test method handle * @param type the type to adapt the method handle to * @return the adapted method handle */ public static MethodHandle asType(final LinkerServices linkerServices, final MethodHandle test, final MethodType type) { return linkerServices.asType(test, getTestType(test, type)); }
Example 16
Source File: Guards.java From nashorn with GNU General Public License v2.0 | 2 votes |
/** * Takes a guard-test method handle, and adapts it to the requested type, returning a boolean. Applies the passed * {@link LinkerServices} object's {@link LinkerServices#asType(MethodHandle, MethodType)}. * @param linkerServices the linker services to use for type conversions * @param test the test method handle * @param type the type to adapt the method handle to * @return the adapted method handle */ public static MethodHandle asType(LinkerServices linkerServices, MethodHandle test, MethodType type) { return linkerServices.asType(test, getTestType(test, type)); }
Example 17
Source File: Guards.java From jdk8u60 with GNU General Public License v2.0 | 2 votes |
/** * Takes a guard-test method handle, and adapts it to the requested type, returning a boolean. Applies the passed * {@link LinkerServices} object's {@link LinkerServices#asType(MethodHandle, MethodType)}. * @param linkerServices the linker services to use for type conversions * @param test the test method handle * @param type the type to adapt the method handle to * @return the adapted method handle */ public static MethodHandle asType(final LinkerServices linkerServices, final MethodHandle test, final MethodType type) { return linkerServices.asType(test, getTestType(test, type)); }
Example 18
Source File: Guards.java From hottub with GNU General Public License v2.0 | 2 votes |
/** * Takes a guard-test method handle, and adapts it to the requested type, returning a boolean. Applies the passed * {@link LinkerServices} object's {@link LinkerServices#asType(MethodHandle, MethodType)}. * @param linkerServices the linker services to use for type conversions * @param test the test method handle * @param type the type to adapt the method handle to * @return the adapted method handle */ public static MethodHandle asType(final LinkerServices linkerServices, final MethodHandle test, final MethodType type) { return linkerServices.asType(test, getTestType(test, type)); }
Example 19
Source File: Guards.java From TencentKona-8 with GNU General Public License v2.0 | 2 votes |
/** * Takes a guard-test method handle, and adapts it to the requested type, returning a boolean. Applies the passed * {@link LinkerServices} object's {@link LinkerServices#asType(MethodHandle, MethodType)}. * @param linkerServices the linker services to use for type conversions * @param test the test method handle * @param type the type to adapt the method handle to * @return the adapted method handle */ public static MethodHandle asType(final LinkerServices linkerServices, final MethodHandle test, final MethodType type) { return linkerServices.asType(test, getTestType(test, type)); }
Example 20
Source File: Guards.java From openjdk-8-source with GNU General Public License v2.0 | 2 votes |
/** * Takes a guard-test method handle, and adapts it to the requested type, returning a boolean. Applies the passed * {@link LinkerServices} object's {@link LinkerServices#asType(MethodHandle, MethodType)}. * @param linkerServices the linker services to use for type conversions * @param test the test method handle * @param type the type to adapt the method handle to * @return the adapted method handle */ public static MethodHandle asType(LinkerServices linkerServices, MethodHandle test, MethodType type) { return linkerServices.asType(test, getTestType(test, type)); }