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VerifyType
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VerifyType(): void
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isNullConversion(Class<Object>, Class<Object>, boolean): boolean
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isNullReferenceConversion(Class<Object>, Class<Object>): boolean
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isNullType(Class<Object>): boolean
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isNullConversion(MethodType, MethodType, boolean): boolean
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canPassUnchecked(Class<Object>, Class<Object>): int
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isSpreadArgType(Class<Object>): boolean
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spreadArgElementType(Class<Object>, int): Class<Object>
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/*
* Copyright (c) 2008, 2013, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package sun.invoke.util;
import java.lang.invoke.MethodType;
import sun.invoke.empty.Empty;
This class centralizes information about the JVM verifier
and its requirements about type correctness.
Author: jrose
/**
* This class centralizes information about the JVM verifier
* and its requirements about type correctness.
* @author jrose
*/
public class VerifyType {
private VerifyType() { } // cannot instantiate
True if a value can be stacked as the source type and unstacked as the
destination type, without violating the JVM's type consistency.
If both types are references, we apply the verifier's subclass check
(or subtyping, if keepInterfaces).
If the src type is a type guaranteed to be null (Void) it can be converted
to any other reference type.
If both types are primitives, we apply the verifier's primitive conversions.
These do not include Java conversions such as long to double, since those
require computation and (in general) stack depth changes.
But very simple 32-bit viewing changes, such as byte to int,
are null conversions, because they do not require any computation.
These conversions are from any type to a wider type up to 32 bits,
as long as the conversion is not signed to unsigned (byte to char).
The primitive type 'void' does not interconvert with any other type,
even though it is legal to drop any type from the stack and "return void".
The stack effects, though are different between void and any other type,
so it is safer to report a non-trivial conversion.
Params: - src – the type of a stacked value
- dst – the type by which we'd like to treat it
- keepInterfaces – if false, we treat any interface as if it were Object
Returns: whether the retyping can be done without motion or reformatting
/**
* True if a value can be stacked as the source type and unstacked as the
* destination type, without violating the JVM's type consistency.
* <p>
* If both types are references, we apply the verifier's subclass check
* (or subtyping, if keepInterfaces).
* If the src type is a type guaranteed to be null (Void) it can be converted
* to any other reference type.
* <p>
* If both types are primitives, we apply the verifier's primitive conversions.
* These do not include Java conversions such as long to double, since those
* require computation and (in general) stack depth changes.
* But very simple 32-bit viewing changes, such as byte to int,
* are null conversions, because they do not require any computation.
* These conversions are from any type to a wider type up to 32 bits,
* as long as the conversion is not signed to unsigned (byte to char).
* <p>
* The primitive type 'void' does not interconvert with any other type,
* even though it is legal to drop any type from the stack and "return void".
* The stack effects, though are different between void and any other type,
* so it is safer to report a non-trivial conversion.
*
* @param src the type of a stacked value
* @param dst the type by which we'd like to treat it
* @param keepInterfaces if false, we treat any interface as if it were Object
* @return whether the retyping can be done without motion or reformatting
*/
public static boolean isNullConversion(Class<?> src, Class<?> dst, boolean keepInterfaces) {
if (src == dst) return true;
// Verifier allows any interface to be treated as Object:
if (!keepInterfaces) {
if (dst.isInterface()) dst = Object.class;
if (src.isInterface()) src = Object.class;
if (src == dst) return true; // check again
}
if (isNullType(src)) return !dst.isPrimitive();
if (!src.isPrimitive()) return dst.isAssignableFrom(src);
if (!dst.isPrimitive()) return false;
// Verifier allows an int to carry byte, short, char, or even boolean:
Wrapper sw = Wrapper.forPrimitiveType(src);
if (dst == int.class) return sw.isSubwordOrInt();
Wrapper dw = Wrapper.forPrimitiveType(dst);
if (!sw.isSubwordOrInt()) return false;
if (!dw.isSubwordOrInt()) return false;
if (!dw.isSigned() && sw.isSigned()) return false;
return dw.bitWidth() > sw.bitWidth();
}
Specialization of isNullConversion to reference types.
Params: - src – the type of a stacked value
- dst – the reference type by which we'd like to treat it
Returns: whether the retyping can be done without a cast
/**
* Specialization of isNullConversion to reference types.
* @param src the type of a stacked value
* @param dst the reference type by which we'd like to treat it
* @return whether the retyping can be done without a cast
*/
public static boolean isNullReferenceConversion(Class<?> src, Class<?> dst) {
assert(!dst.isPrimitive());
if (dst.isInterface()) return true; // verifier allows this
if (isNullType(src)) return true;
return dst.isAssignableFrom(src);
}
Is the given type java.lang.Null or an equivalent null-only type?
/**
* Is the given type java.lang.Null or an equivalent null-only type?
*/
public static boolean isNullType(Class<?> type) {
// Any reference statically typed as Void is guaranteed to be null.
// Therefore, it can be safely treated as a value of any
// other type that admits null, i.e., a reference type.
if (type == Void.class) return true;
// Locally known null-only class:
if (type == Empty.class) return true;
return false;
}
True if a method handle can receive a call under a slightly different
method type, without moving or reformatting any stack elements.
Params: - call – the type of call being made
- recv – the type of the method handle receiving the call
Returns: whether the retyping can be done without motion or reformatting
/**
* True if a method handle can receive a call under a slightly different
* method type, without moving or reformatting any stack elements.
*
* @param call the type of call being made
* @param recv the type of the method handle receiving the call
* @return whether the retyping can be done without motion or reformatting
*/
public static boolean isNullConversion(MethodType call, MethodType recv, boolean keepInterfaces) {
if (call == recv) return true;
int len = call.parameterCount();
if (len != recv.parameterCount()) return false;
for (int i = 0; i < len; i++)
if (!isNullConversion(call.parameterType(i), recv.parameterType(i), keepInterfaces))
return false;
return isNullConversion(recv.returnType(), call.returnType(), keepInterfaces);
}
Determine if the JVM verifier allows a value of type call to be
passed to a formal parameter (or return variable) of type recv.
Returns 1 if the verifier allows the types to match without conversion.
Returns -1 if the types can be made to match by a JVM-supported adapter.
Cases supported are:
- checkcast
- conversion between any two integral types (but not floats)
- unboxing from a wrapper to its corresponding primitive type
- conversion in either direction between float and double
(Autoboxing is not supported here; it must be done via Java code.)
Returns 0 otherwise.
/**
* Determine if the JVM verifier allows a value of type call to be
* passed to a formal parameter (or return variable) of type recv.
* Returns 1 if the verifier allows the types to match without conversion.
* Returns -1 if the types can be made to match by a JVM-supported adapter.
* Cases supported are:
* <ul><li>checkcast
* </li><li>conversion between any two integral types (but not floats)
* </li><li>unboxing from a wrapper to its corresponding primitive type
* </li><li>conversion in either direction between float and double
* </li></ul>
* (Autoboxing is not supported here; it must be done via Java code.)
* Returns 0 otherwise.
*/
public static int canPassUnchecked(Class<?> src, Class<?> dst) {
if (src == dst)
return 1;
if (dst.isPrimitive()) {
if (dst == void.class)
// Return anything to a caller expecting void.
// This is a property of the implementation, which links
// return values via a register rather than via a stack push.
// This makes it possible to ignore cleanly.
return 1;
if (src == void.class)
return 0; // void-to-something?
if (!src.isPrimitive())
// Cannot pass a reference to any primitive type (exc. void).
return 0;
Wrapper sw = Wrapper.forPrimitiveType(src);
Wrapper dw = Wrapper.forPrimitiveType(dst);
if (sw.isSubwordOrInt() && dw.isSubwordOrInt()) {
if (sw.bitWidth() >= dw.bitWidth())
return -1; // truncation may be required
if (!dw.isSigned() && sw.isSigned())
return -1; // sign elimination may be required
return 1;
}
if (src == float.class || dst == float.class) {
if (src == double.class || dst == double.class)
return -1; // floating conversion may be required
else
return 0; // other primitive conversions NYI
} else {
// all fixed-point conversions are supported
return 0;
}
} else if (src.isPrimitive()) {
// Cannot pass a primitive to any reference type.
// (Maybe allow null.class?)
return 0;
}
// Handle reference types in the rest of the block:
// The verifier treats interfaces exactly like Object.
if (isNullReferenceConversion(src, dst))
// pass any reference to object or an arb. interface
return 1;
// else it's a definite "maybe" (cast is required)
return -1;
}
public static boolean isSpreadArgType(Class<?> spreadArg) {
return spreadArg.isArray();
}
public static Class<?> spreadArgElementType(Class<?> spreadArg, int i) {
return spreadArg.getComponentType();
}
}