mockit.external.asm.MethodVisitor Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of jmockit Show documentation
Show all versions of jmockit Show documentation
JMockit is a Java toolkit for automated developer testing.
It contains mocking/faking APIs and a code coverage tool, supporting both JUnit and TestNG.
The mocking APIs allow all kinds of Java code, without testability restrictions, to be tested
in isolation from selected dependencies.
/***
* ASM: a very small and fast Java bytecode manipulation framework
* Copyright (c) 2000-2011 INRIA, France Telecom
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the copyright holders nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGE.
*/
package mockit.external.asm;
/**
* A visitor to visit a Java method. The methods of this class must be called in
* the following order: ( visitParameter )* [
* visitAnnotationDefault ] ( visitAnnotation |
* visitTypeAnnotation | visitAttribute )* [
* visitCode ( visitFrame | visitXInsn |
* visitLabel | visitInsnAnnotation |
* visitTryCatchBlock | visitTryCatchBlockAnnotation |
* visitLocalVariable | visitLocalVariableAnnotation |
* visitLineNumber )* visitMaxs ] visitEnd. In
* addition, the visitXInsn and visitLabel methods must
* be called in the sequential order of the bytecode instructions of the visited
* code, visitInsnAnnotation must be called after the annotated
* instruction, visitTryCatchBlock must be called before the
* labels passed as arguments have been visited,
* visitTryCatchBlockAnnotation must be called after the
* corresponding try catch block has been visited, and the
* visitLocalVariable, visitLocalVariableAnnotation and
* visitLineNumber methods must be called after the labels
* passed as arguments have been visited.
*
* @author Eric Bruneton
*/
public abstract class MethodVisitor {
/**
* The method visitor to which this visitor must delegate method calls. May
* be null.
*/
protected MethodVisitor mv;
/**
* Constructs a new {@link MethodVisitor}.
*/
protected MethodVisitor() {
}
/**
* Constructs a new {@link MethodVisitor}.
*
* @param mv
* the method visitor to which this visitor must delegate method
* calls. May be null.
*/
protected MethodVisitor(MethodVisitor mv) {
this.mv = mv;
}
// -------------------------------------------------------------------------
// Parameters, annotations and non standard attributes
// -------------------------------------------------------------------------
/**
* Visits a parameter of this method.
*
* @param name
* parameter name or null if none is provided.
* @param access
* the parameter's access flags, only ACC_FINAL,
* ACC_SYNTHETIC or/and ACC_MANDATED are
* allowed (see {@link Opcodes}).
*/
public void visitParameter(String name, int access) {
if (mv != null) {
mv.visitParameter(name, access);
}
}
/**
* Visits the default value of this annotation interface method.
*
* @return a visitor to the visit the actual default value of this
* annotation interface method, or null if this visitor is
* not interested in visiting this default value. The 'name'
* parameters passed to the methods of this annotation visitor are
* ignored. Moreover, exactly one visit method must be called on this
* annotation visitor, followed by visitEnd.
*/
public AnnotationVisitor visitAnnotationDefault() {
if (mv != null) {
return mv.visitAnnotationDefault();
}
return null;
}
/**
* Visits an annotation of this method.
*
* @param desc
* the class descriptor of the annotation class.
* @param visible
* true if the annotation is visible at runtime.
* @return a visitor to visit the annotation values, or null if
* this visitor is not interested in visiting this annotation.
*/
public AnnotationVisitor visitAnnotation(String desc, boolean visible) {
if (mv != null) {
return mv.visitAnnotation(desc, visible);
}
return null;
}
/**
* Visits an annotation on a type in the method signature.
*
* @param typeRef
* a reference to the annotated type. The sort of this type
* reference must be
* METHOD_TYPE_PARAMETER,
*
* METHOD_TYPE_PARAMETER_BOUND,
* METHOD_RETURN},
* METHOD_RECEIVER},
* METHOD_FORMAL_PARAMETER
* or
* THROWS.
* @param typePath
* the path to the annotated type argument, wildcard bound, array
* element type, or static inner type within 'typeRef'. May be
* null if the annotation targets 'typeRef' as a whole.
* @param desc
* the class descriptor of the annotation class.
* @param visible
* true if the annotation is visible at runtime.
* @return a visitor to visit the annotation values, or null if
* this visitor is not interested in visiting this annotation.
*/
public AnnotationVisitor visitTypeAnnotation(int typeRef, TypePath typePath, String desc, boolean visible) {
if (mv != null) {
return mv.visitTypeAnnotation(typeRef, typePath, desc, visible);
}
return null;
}
/**
* Visits an annotation of a parameter this method.
*
* @param parameter
* the parameter index.
* @param desc
* the class descriptor of the annotation class.
* @param visible
* true if the annotation is visible at runtime.
* @return a visitor to visit the annotation values, or null if
* this visitor is not interested in visiting this annotation.
*/
public AnnotationVisitor visitParameterAnnotation(int parameter, String desc, boolean visible) {
if (mv != null) {
return mv.visitParameterAnnotation(parameter, desc, visible);
}
return null;
}
/**
* Visits a non standard attribute of this method.
*
* @param attr
* an attribute.
*/
public void visitAttribute(Attribute attr) {
if (mv != null) {
mv.visitAttribute(attr);
}
}
/**
* Starts the visit of the method's code, if any (i.e. non abstract method).
*/
public void visitCode() {
if (mv != null) {
mv.visitCode();
}
}
/**
* Visits the current state of the local variables and operand stack
* elements. This method must(*) be called just before any
* instruction i that follows an unconditional branch instruction
* such as GOTO or THROW, that is the target of a jump instruction, or that
* starts an exception handler block. The visited types must describe the
* values of the local variables and of the operand stack elements just
* before i is executed.
*
* (*) this is mandatory only for classes whose version is greater than or
* equal to {@link Opcodes#V1_6 V1_6}.
*
* The frames of a method must be given either in expanded form, or in
* compressed form (all frames must use the same format, i.e. you must not
* mix expanded and compressed frames within a single method):
*
* - In expanded form, all frames must have the F_NEW type.
* - In compressed form, frames are basically "deltas" from the state of
* the previous frame:
*
* - {@link Opcodes#F_SAME} representing frame with exactly the same
* locals as the previous frame and with the empty stack.
* - {@link Opcodes#F_SAME1} representing frame with exactly the same
* locals as the previous frame and with single value on the stack (
*
nStack
is 1 and stack[0]
contains value for the
* type of the stack item).
* - {@link Opcodes#F_APPEND} representing frame with current locals are
* the same as the locals in the previous frame, except that additional
* locals are defined (
nLocal
is 1, 2 or 3 and
* local
elements contains values representing added types).
* - {@link Opcodes#F_CHOP} representing frame with current locals are the
* same as the locals in the previous frame, except that the last 1-3 locals
* are absent and with the empty stack (
nLocals
is 1, 2 or 3).
* - {@link Opcodes#F_FULL} representing complete frame data.
*
*
*
*
* In both cases the first frame, corresponding to the method's parameters
* and access flags, is implicit and must not be visited. Also, it is
* illegal to visit two or more frames for the same code location (i.e., at
* least one instruction must be visited between two calls to visitFrame).
*
* @param type
* the type of this stack map frame. Must be
* {@link Opcodes#F_NEW} for expanded frames, or
* {@link Opcodes#F_FULL}, {@link Opcodes#F_APPEND},
* {@link Opcodes#F_CHOP}, {@link Opcodes#F_SAME} or
* {@link Opcodes#F_APPEND}, {@link Opcodes#F_SAME1} for
* compressed frames.
* @param nLocal
* the number of local variables in the visited frame.
* @param local
* the local variable types in this frame. This array must not be
* modified. Primitive types are represented by
* {@link Opcodes#TOP}, {@link Opcodes#INTEGER},
* {@link Opcodes#FLOAT}, {@link Opcodes#LONG},
* {@link Opcodes#DOUBLE},{@link Opcodes#NULL} or
* {@link Opcodes#UNINITIALIZED_THIS} (long and double are
* represented by a single element). Reference types are
* represented by String objects (representing internal names),
* and uninitialized types by Label objects (this label
* designates the NEW instruction that created this uninitialized
* value).
* @param nStack
* the number of operand stack elements in the visited frame.
* @param stack
* the operand stack types in this frame. This array must not be
* modified. Its content has the same format as the "local"
* array.
* @throws IllegalStateException
* if a frame is visited just after another one, without any
* instruction between the two (unless this frame is a
* Opcodes#F_SAME frame, in which case it is silently ignored).
*/
public void visitFrame(int type, int nLocal, Object[] local, int nStack, Object[] stack) {
if (mv != null) {
mv.visitFrame(type, nLocal, local, nStack, stack);
}
}
// -------------------------------------------------------------------------
// Normal instructions
// -------------------------------------------------------------------------
/**
* Visits a zero operand instruction.
*
* @param opcode
* the opcode of the instruction to be visited. This opcode is
* either NOP, ACONST_NULL, ICONST_M1, ICONST_0, ICONST_1,
* ICONST_2, ICONST_3, ICONST_4, ICONST_5, LCONST_0, LCONST_1,
* FCONST_0, FCONST_1, FCONST_2, DCONST_0, DCONST_1, IALOAD,
* LALOAD, FALOAD, DALOAD, AALOAD, BALOAD, CALOAD, SALOAD,
* IASTORE, LASTORE, FASTORE, DASTORE, AASTORE, BASTORE, CASTORE,
* SASTORE, POP, POP2, DUP, DUP_X1, DUP_X2, DUP2, DUP2_X1,
* DUP2_X2, SWAP, IADD, LADD, FADD, DADD, ISUB, LSUB, FSUB, DSUB,
* IMUL, LMUL, FMUL, DMUL, IDIV, LDIV, FDIV, DDIV, IREM, LREM,
* FREM, DREM, INEG, LNEG, FNEG, DNEG, ISHL, LSHL, ISHR, LSHR,
* IUSHR, LUSHR, IAND, LAND, IOR, LOR, IXOR, LXOR, I2L, I2F, I2D,
* L2I, L2F, L2D, F2I, F2L, F2D, D2I, D2L, D2F, I2B, I2C, I2S,
* LCMP, FCMPL, FCMPG, DCMPL, DCMPG, IRETURN, LRETURN, FRETURN,
* DRETURN, ARETURN, RETURN, ARRAYLENGTH, ATHROW, MONITORENTER,
* or MONITOREXIT.
*/
public void visitInsn(int opcode) {
if (mv != null) {
mv.visitInsn(opcode);
}
}
/**
* Visits an instruction with a single int operand.
*
* @param opcode
* the opcode of the instruction to be visited. This opcode is
* either BIPUSH, SIPUSH or NEWARRAY.
* @param operand
* the operand of the instruction to be visited.
* When opcode is BIPUSH, operand value should be between
* Byte.MIN_VALUE and Byte.MAX_VALUE.
* When opcode is SIPUSH, operand value should be between
* Short.MIN_VALUE and Short.MAX_VALUE.
* When opcode is NEWARRAY, operand value should be one of
* {@link Opcodes#T_BOOLEAN}, {@link Opcodes#T_CHAR},
* {@link Opcodes#T_FLOAT}, {@link Opcodes#T_DOUBLE},
* {@link Opcodes#T_BYTE}, {@link Opcodes#T_SHORT},
* {@link Opcodes#T_INT} or {@link Opcodes#T_LONG}.
*/
public void visitIntInsn(int opcode, int operand) {
if (mv != null) {
mv.visitIntInsn(opcode, operand);
}
}
/**
* Visits a local variable instruction. A local variable instruction is an
* instruction that loads or stores the value of a local variable.
*
* @param opcode
* the opcode of the local variable instruction to be visited.
* This opcode is either ILOAD, LLOAD, FLOAD, DLOAD, ALOAD,
* ISTORE, LSTORE, FSTORE, DSTORE, ASTORE or RET.
* @param var
* the operand of the instruction to be visited. This operand is
* the index of a local variable.
*/
public void visitVarInsn(int opcode, int var) {
if (mv != null) {
mv.visitVarInsn(opcode, var);
}
}
/**
* Visits a type instruction. A type instruction is an instruction that
* takes the internal name of a class as parameter.
*
* @param opcode
* the opcode of the type instruction to be visited. This opcode
* is either NEW, ANEWARRAY, CHECKCAST or INSTANCEOF.
* @param type
* the operand of the instruction to be visited. This operand
* must be the internal name of an object or array class (see
* {@link Type#getInternalName() getInternalName}).
*/
public void visitTypeInsn(int opcode, String type) {
if (mv != null) {
mv.visitTypeInsn(opcode, type);
}
}
/**
* Visits a field instruction. A field instruction is an instruction that
* loads or stores the value of a field of an object.
*
* @param opcode
* the opcode of the type instruction to be visited. This opcode
* is either GETSTATIC, PUTSTATIC, GETFIELD or PUTFIELD.
* @param owner
* the internal name of the field's owner class (see
* {@link Type#getInternalName() getInternalName}).
* @param name
* the field's name.
* @param desc
* the field's descriptor (see {@link Type Type}).
*/
public void visitFieldInsn(int opcode, String owner, String name, String desc) {
if (mv != null) {
mv.visitFieldInsn(opcode, owner, name, desc);
}
}
/**
* Visits a method instruction. A method instruction is an instruction that
* invokes a method.
*
* @param opcode
* the opcode of the type instruction to be visited. This opcode
* is either INVOKEVIRTUAL, INVOKESPECIAL, INVOKESTATIC or
* INVOKEINTERFACE.
* @param owner
* the internal name of the method's owner class (see
* {@link Type#getInternalName() getInternalName}).
* @param name
* the method's name.
* @param desc
* the method's descriptor (see {@link Type Type}).
* @param itf
* if the method's owner class is an interface.
*/
public void visitMethodInsn(int opcode, String owner, String name, String desc, boolean itf) {
if (mv != null) {
mv.visitMethodInsn(opcode, owner, name, desc, itf);
}
}
/**
* Visits an invokedynamic instruction.
*
* @param name
* the method's name.
* @param desc
* the method's descriptor (see {@link Type Type}).
* @param bsm
* the bootstrap method.
* @param bsmArgs
* the bootstrap method constant arguments. Each argument must be
* an {@link Integer}, {@link Float}, {@link Long},
* {@link Double}, {@link String}, {@link Type} or {@link Handle}
* value. This method is allowed to modify the content of the
* array so a caller should expect that this array may change.
*/
public void visitInvokeDynamicInsn(String name, String desc, Handle bsm, Object... bsmArgs) {
if (mv != null) {
mv.visitInvokeDynamicInsn(name, desc, bsm, bsmArgs);
}
}
/**
* Visits a jump instruction. A jump instruction is an instruction that may
* jump to another instruction.
*
* @param opcode
* the opcode of the type instruction to be visited. This opcode
* is either IFEQ, IFNE, IFLT, IFGE, IFGT, IFLE, IF_ICMPEQ,
* IF_ICMPNE, IF_ICMPLT, IF_ICMPGE, IF_ICMPGT, IF_ICMPLE,
* IF_ACMPEQ, IF_ACMPNE, GOTO, JSR, IFNULL or IFNONNULL.
* @param label
* the operand of the instruction to be visited. This operand is
* a label that designates the instruction to which the jump
* instruction may jump.
*/
public void visitJumpInsn(int opcode, Label label) {
if (mv != null) {
mv.visitJumpInsn(opcode, label);
}
}
/**
* Visits a label. A label designates the instruction that will be visited
* just after it.
*
* @param label
* a {@link Label Label} object.
*/
public void visitLabel(Label label) {
if (mv != null) {
mv.visitLabel(label);
}
}
// -------------------------------------------------------------------------
// Special instructions
// -------------------------------------------------------------------------
/**
* Visits a LDC instruction. Note that new constant types may be added in
* future versions of the Java Virtual Machine. To easily detect new
* constant types, implementations of this method should check for
* unexpected constant types, like this:
*
*
* if (cst instanceof Integer) {
* // ...
* } else if (cst instanceof Float) {
* // ...
* } else if (cst instanceof Long) {
* // ...
* } else if (cst instanceof Double) {
* // ...
* } else if (cst instanceof String) {
* // ...
* } else if (cst instanceof Type) {
* int sort = ((Type) cst).getSort();
* if (sort == Type.OBJECT) {
* // ...
* } else if (sort == Type.ARRAY) {
* // ...
* } else if (sort == Type.METHOD) {
* // ...
* } else {
* // throw an exception
* }
* } else if (cst instanceof Handle) {
* // ...
* } else {
* // throw an exception
* }
*
*
* @param cst
* the constant to be loaded on the stack. This parameter must be
* a non null {@link Integer}, a {@link Float}, a {@link Long}, a
* {@link Double}, a {@link String}, a {@link Type} of OBJECT or
* ARRAY sort for .class constants, for classes whose
* version is 49.0, a {@link Type} of METHOD sort or a
* {@link Handle} for MethodType and MethodHandle constants, for
* classes whose version is 51.0.
*/
public void visitLdcInsn(Object cst) {
if (mv != null) {
mv.visitLdcInsn(cst);
}
}
/**
* Visits an IINC instruction.
*
* @param var
* index of the local variable to be incremented.
* @param increment
* amount to increment the local variable by.
*/
public void visitIincInsn(int var, int increment) {
if (mv != null) {
mv.visitIincInsn(var, increment);
}
}
/**
* Visits a TABLESWITCH instruction.
*
* @param min
* the minimum key value.
* @param max
* the maximum key value.
* @param dflt
* beginning of the default handler block.
* @param labels
* beginnings of the handler blocks. labels[i] is the
* beginning of the handler block for the min + i key.
*/
public void visitTableSwitchInsn(int min, int max, Label dflt, Label... labels) {
if (mv != null) {
mv.visitTableSwitchInsn(min, max, dflt, labels);
}
}
/**
* Visits a LOOKUPSWITCH instruction.
*
* @param dflt
* beginning of the default handler block.
* @param keys
* the values of the keys.
* @param labels
* beginnings of the handler blocks. labels[i] is the
* beginning of the handler block for the keys[i] key.
*/
public void visitLookupSwitchInsn(Label dflt, int[] keys, Label[] labels) {
if (mv != null) {
mv.visitLookupSwitchInsn(dflt, keys, labels);
}
}
/**
* Visits a MULTIANEWARRAY instruction.
*
* @param desc
* an array type descriptor (see {@link Type Type}).
* @param dims
* number of dimensions of the array to allocate.
*/
public void visitMultiANewArrayInsn(String desc, int dims) {
if (mv != null) {
mv.visitMultiANewArrayInsn(desc, dims);
}
}
/**
* Visits an annotation on an instruction. This method must be called just
* after the annotated instruction. It can be called several times
* for the same instruction.
*
* @param typeRef
* a reference to the annotated type. The sort of this type
* reference must be INSTANCEOF,
* NEW,
*
* CONSTRUCTOR_REFERENCE,
* METHOD_REFERENCE,
* CAST,
* CONSTRUCTOR_INVOCATION_TYPE_ARGUMENT,
*
* METHOD_INVOCATION_TYPE_ARGUMENT,
* CONSTRUCTOR_REFERENCE_TYPE_ARGUMENT,
* or
* METHOD_REFERENCE_TYPE_ARGUMENT.
*
* @param typePath
* the path to the annotated type argument, wildcard bound, array
* element type, or static inner type within 'typeRef'. May be
* null if the annotation targets 'typeRef' as a whole.
* @param desc
* the class descriptor of the annotation class.
* @param visible
* true if the annotation is visible at runtime.
* @return a visitor to visit the annotation values, or null if
* this visitor is not interested in visiting this annotation.
*/
public AnnotationVisitor visitInsnAnnotation(int typeRef, TypePath typePath, String desc, boolean visible) {
if (mv != null) {
return mv.visitInsnAnnotation(typeRef, typePath, desc, visible);
}
return null;
}
// -------------------------------------------------------------------------
// Exceptions table entries, debug information, max stack and max locals
// -------------------------------------------------------------------------
/**
* Visits a try catch block.
*
* @param start
* beginning of the exception handler's scope (inclusive).
* @param end
* end of the exception handler's scope (exclusive).
* @param handler
* beginning of the exception handler's code.
* @param type
* internal name of the type of exceptions handled by the
* handler, or null to catch any exceptions (for
* "finally" blocks).
* @throws IllegalArgumentException
* if one of the labels has already been visited by this visitor
* (by the {@link #visitLabel visitLabel} method).
*/
public void visitTryCatchBlock(Label start, Label end, Label handler, String type) {
if (mv != null) {
mv.visitTryCatchBlock(start, end, handler, type);
}
}
/**
* Visits an annotation on an exception handler type. This method must be
* called after the {@link #visitTryCatchBlock} for the annotated
* exception handler. It can be called several times for the same exception
* handler.
*
* @param typeRef
* a reference to the annotated type. The sort of this type
* reference must be
* EXCEPTION_PARAMETER.
* @param typePath
* the path to the annotated type argument, wildcard bound, array
* element type, or static inner type within 'typeRef'. May be
* null if the annotation targets 'typeRef' as a whole.
* @param desc
* the class descriptor of the annotation class.
* @param visible
* true if the annotation is visible at runtime.
* @return a visitor to visit the annotation values, or null if
* this visitor is not interested in visiting this annotation.
*/
public AnnotationVisitor visitTryCatchAnnotation(int typeRef, TypePath typePath, String desc, boolean visible) {
if (mv != null) {
return mv.visitTryCatchAnnotation(typeRef, typePath, desc, visible);
}
return null;
}
/**
* Visits a local variable declaration.
*
* @param name
* the name of a local variable.
* @param desc
* the type descriptor of this local variable.
* @param signature
* the type signature of this local variable. May be
* null if the local variable type does not use generic
* types.
* @param start
* the first instruction corresponding to the scope of this local
* variable (inclusive).
* @param end
* the last instruction corresponding to the scope of this local
* variable (exclusive).
* @param index
* the local variable's index.
* @throws IllegalArgumentException
* if one of the labels has not already been visited by this
* visitor (by the {@link #visitLabel visitLabel} method).
*/
public void visitLocalVariable(String name, String desc, String signature, Label start, Label end, int index) {
if (mv != null) {
mv.visitLocalVariable(name, desc, signature, start, end, index);
}
}
/**
* Visits an annotation on a local variable type.
*
* @param typeRef
* a reference to the annotated type. The sort of this type
* reference must be
* LOCAL_VARIABLE or
* RESOURCE_VARIABLE.
* @param typePath
* the path to the annotated type argument, wildcard bound, array
* element type, or static inner type within 'typeRef'. May be
* null if the annotation targets 'typeRef' as a whole.
* @param start
* the fist instructions corresponding to the continuous ranges
* that make the scope of this local variable (inclusive).
* @param end
* the last instructions corresponding to the continuous ranges
* that make the scope of this local variable (exclusive). This
* array must have the same size as the 'start' array.
* @param index
* the local variable's index in each range. This array must have
* the same size as the 'start' array.
* @param desc
* the class descriptor of the annotation class.
* @param visible
* true if the annotation is visible at runtime.
* @return a visitor to visit the annotation values, or null if
* this visitor is not interested in visiting this annotation.
*/
public AnnotationVisitor visitLocalVariableAnnotation(
int typeRef, TypePath typePath, Label[] start, Label[] end, int[] index, String desc, boolean visible
) {
if (mv != null) {
return mv.visitLocalVariableAnnotation(typeRef, typePath, start,
end, index, desc, visible);
}
return null;
}
/**
* Visits a line number declaration.
*
* @param line
* a line number. This number refers to the source file from
* which the class was compiled.
* @param start
* the first instruction corresponding to this line number.
* @throws IllegalArgumentException
* if start has not already been visited by this
* visitor (by the {@link #visitLabel visitLabel} method).
*/
public void visitLineNumber(int line, Label start) {
if (mv != null) {
mv.visitLineNumber(line, start);
}
}
/**
* Visits the maximum stack size and the maximum number of local variables
* of the method.
*
* @param maxStack
* maximum stack size of the method.
* @param maxLocals
* maximum number of local variables for the method.
*/
public void visitMaxs(int maxStack, int maxLocals) {
if (mv != null) {
mv.visitMaxs(maxStack, maxLocals);
}
}
/**
* Visits the end of the method. This method, which is the last one to be
* called, is used to inform the visitor that all the annotations and
* attributes of the method have been visited.
*/
public void visitEnd() {
if (mv != null) {
mv.visitEnd();
}
}
}