Class SpelNodeImpl
java.lang.Object
org.springframework.expression.spel.ast.SpelNodeImpl
- Direct Known Subclasses:
Assign
,BeanReference
,CompoundExpression
,ConstructorReference
,Elvis
,FunctionReference
,Identifier
,Indexer
,InlineList
,InlineMap
,Literal
,MethodReference
,Operator
,OperatorNot
,Projection
,PropertyOrFieldReference
,QualifiedIdentifier
,Selection
,Ternary
,TypeReference
,VariableReference
The common supertype of all AST nodes in a parsed Spring Expression Language
format expression.
- Since:
- 3.0
- Author:
- Andy Clement, Juergen Hoeller, Sam Brannen
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Field Summary
Modifier and TypeFieldDescriptionprotected SpelNodeImpl[]
protected String
Indicates the type descriptor for the result of this expression node.Fields inherited from interface org.springframework.asm.Opcodes
AALOAD, AASTORE, ACC_ABSTRACT, ACC_ANNOTATION, ACC_BRIDGE, ACC_DEPRECATED, ACC_ENUM, ACC_FINAL, ACC_INTERFACE, ACC_MANDATED, ACC_MODULE, ACC_NATIVE, ACC_OPEN, ACC_PRIVATE, ACC_PROTECTED, ACC_PUBLIC, ACC_RECORD, ACC_STATIC, ACC_STATIC_PHASE, ACC_STRICT, ACC_SUPER, ACC_SYNCHRONIZED, ACC_SYNTHETIC, ACC_TRANSIENT, ACC_TRANSITIVE, ACC_VARARGS, ACC_VOLATILE, ACONST_NULL, ALOAD, ANEWARRAY, ARETURN, ARRAYLENGTH, ASM10_EXPERIMENTAL, ASM4, ASM5, ASM6, ASM7, ASM8, ASM9, ASTORE, ATHROW, BALOAD, BASTORE, BIPUSH, CALOAD, CASTORE, CHECKCAST, D2F, D2I, D2L, DADD, DALOAD, DASTORE, DCMPG, DCMPL, DCONST_0, DCONST_1, DDIV, DLOAD, DMUL, DNEG, DOUBLE, DREM, DRETURN, DSTORE, DSUB, DUP, DUP_X1, DUP_X2, DUP2, DUP2_X1, DUP2_X2, F_APPEND, F_CHOP, F_FULL, F_NEW, F_SAME, F_SAME1, F2D, F2I, F2L, FADD, FALOAD, FASTORE, FCMPG, FCMPL, FCONST_0, FCONST_1, FCONST_2, FDIV, FLOAD, FLOAT, FMUL, FNEG, FREM, FRETURN, FSTORE, FSUB, GETFIELD, GETSTATIC, GOTO, H_GETFIELD, H_GETSTATIC, H_INVOKEINTERFACE, H_INVOKESPECIAL, H_INVOKESTATIC, H_INVOKEVIRTUAL, H_NEWINVOKESPECIAL, H_PUTFIELD, H_PUTSTATIC, I2B, I2C, I2D, I2F, I2L, I2S, IADD, IALOAD, IAND, IASTORE, ICONST_0, ICONST_1, ICONST_2, ICONST_3, ICONST_4, ICONST_5, ICONST_M1, IDIV, IF_ACMPEQ, IF_ACMPNE, IF_ICMPEQ, IF_ICMPGE, IF_ICMPGT, IF_ICMPLE, IF_ICMPLT, IF_ICMPNE, IFEQ, IFGE, IFGT, IFLE, IFLT, IFNE, IFNONNULL, IFNULL, IINC, ILOAD, IMUL, INEG, INSTANCEOF, INTEGER, INVOKEDYNAMIC, INVOKEINTERFACE, INVOKESPECIAL, INVOKESTATIC, INVOKEVIRTUAL, IOR, IREM, IRETURN, ISHL, ISHR, ISTORE, ISUB, IUSHR, IXOR, JSR, L2D, L2F, L2I, LADD, LALOAD, LAND, LASTORE, LCMP, LCONST_0, LCONST_1, LDC, LDIV, LLOAD, LMUL, LNEG, LONG, LOOKUPSWITCH, LOR, LREM, LRETURN, LSHL, LSHR, LSTORE, LSUB, LUSHR, LXOR, MONITORENTER, MONITOREXIT, MULTIANEWARRAY, NEW, NEWARRAY, NOP, NULL, POP, POP2, PUTFIELD, PUTSTATIC, RET, RETURN, SALOAD, SASTORE, SIPUSH, SOURCE_DEPRECATED, SOURCE_MASK, SWAP, T_BOOLEAN, T_BYTE, T_CHAR, T_DOUBLE, T_FLOAT, T_INT, T_LONG, T_SHORT, TABLESWITCH, TOP, UNINITIALIZED_THIS, V_PREVIEW, V1_1, V1_2, V1_3, V1_4, V1_5, V1_6, V1_7, V1_8, V10, V11, V12, V13, V14, V15, V16, V17, V18, V19, V20, V21, V22, V9
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Constructor Summary
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Method Summary
Modifier and TypeMethodDescriptionvoid
generateCode
(MethodVisitor mv, CodeFlow cf) Generate the bytecode for this node into the supplied visitor.protected static void
generateCodeForArgument
(MethodVisitor mv, CodeFlow cf, SpelNodeImpl argument, String paramDesc) Ask an argument to generate its bytecode and then follow it up with any boxing/unboxing/checkcasting to ensure it matches the expected parameter descriptor.protected static void
generateCodeForArguments
(MethodVisitor mv, CodeFlow cf, Member member, SpelNodeImpl[] arguments) Generate code that handles building the argument values for the specified method.getChild
(int index) Helper method that returns a SpelNode rather than an Antlr Tree node.int
Return the number of children under this node.int
Return the end position of this AST node in the expression string.Class<?>
getObjectClass
(Object obj) Determine the class of the object passed in, unless it is already a class object.int
Return the start position of this AST node in the expression string.final TypedValue
getTypedValue
(ExpressionState expressionState) Evaluate the expression node in the context of the supplied expression state and return the typed value.final Object
getValue
(ExpressionState expressionState) Evaluate the expression node in the context of the supplied expression state and return the value.protected final <T> T
getValue
(ExpressionState state, Class<T> desiredReturnType) abstract TypedValue
getValueInternal
(ExpressionState expressionState) protected ValueRef
getValueRef
(ExpressionState state) boolean
Check whether a node can be compiled to bytecode.boolean
isWritable
(ExpressionState expressionState) Determine if this expression node will support a setValue() call.protected boolean
nextChildIs
(Class<?>... classes) Returntrue
if the next child is one of the specified classes.void
setValue
(ExpressionState expressionState, Object newValue) Evaluate the expression to a node and then set the new value on that node.setValueInternal
(ExpressionState expressionState, Supplier<TypedValue> valueSupplier) Evaluate the expression to a node and then set the new value created by the specifiedSupplier
on that node.Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
Methods inherited from interface org.springframework.expression.spel.SpelNode
toStringAST
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Field Details
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children
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exitTypeDescriptor
Indicates the type descriptor for the result of this expression node. This is set as soon as it is known. For a literal node it is known immediately. For a property access or method invocation it is known after one evaluation of that node.The descriptor is like the bytecode form but is slightly easier to work with. It does not include the trailing semicolon (for non array reference types). Some examples: Ljava/lang/String, I, [I
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Constructor Details
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SpelNodeImpl
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Method Details
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nextChildIs
Returntrue
if the next child is one of the specified classes. -
getValue
Description copied from interface:SpelNode
Evaluate the expression node in the context of the supplied expression state and return the value.- Specified by:
getValue
in interfaceSpelNode
- Parameters:
expressionState
- the current expression state (includes the context)- Returns:
- the value of this node evaluated against the specified state
- Throws:
EvaluationException
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getTypedValue
Description copied from interface:SpelNode
Evaluate the expression node in the context of the supplied expression state and return the typed value.- Specified by:
getTypedValue
in interfaceSpelNode
- Parameters:
expressionState
- the current expression state (includes the context)- Returns:
- the type value of this node evaluated against the specified state
- Throws:
EvaluationException
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isWritable
Description copied from interface:SpelNode
Determine if this expression node will support a setValue() call.- Specified by:
isWritable
in interfaceSpelNode
- Parameters:
expressionState
- the current expression state (includes the context)- Returns:
- true if the expression node will allow setValue()
- Throws:
EvaluationException
- if something went wrong trying to determine if the node supports writing
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setValue
public void setValue(ExpressionState expressionState, @Nullable Object newValue) throws EvaluationException Description copied from interface:SpelNode
Evaluate the expression to a node and then set the new value on that node. For example, if the expression evaluates to a property reference, then the property will be set to the new value.- Specified by:
setValue
in interfaceSpelNode
- Parameters:
expressionState
- the current expression state (includes the context)newValue
- the new value- Throws:
EvaluationException
- if any problem occurs evaluating the expression or setting the new value
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setValueInternal
public TypedValue setValueInternal(ExpressionState expressionState, Supplier<TypedValue> valueSupplier) throws EvaluationException Evaluate the expression to a node and then set the new value created by the specifiedSupplier
on that node.For example, if the expression evaluates to a property reference, then the property will be set to the new value.
Favor this method over
setValue(ExpressionState, Object)
when the value should be lazily computed.By default, this method throws a
SpelEvaluationException
, effectively disabling this feature. Subclasses may override this method to provide an actual implementation.- Parameters:
expressionState
- the current expression state (includes the context)valueSupplier
- a supplier of the new value- Throws:
EvaluationException
- if any problem occurs evaluating the expression or setting the new value- Since:
- 5.2.24
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getChild
Description copied from interface:SpelNode
Helper method that returns a SpelNode rather than an Antlr Tree node. -
getChildCount
public int getChildCount()Description copied from interface:SpelNode
Return the number of children under this node.- Specified by:
getChildCount
in interfaceSpelNode
- Returns:
- the child count
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getObjectClass
Description copied from interface:SpelNode
Determine the class of the object passed in, unless it is already a class object.- Specified by:
getObjectClass
in interfaceSpelNode
- Parameters:
obj
- the object that the caller wants the class of- Returns:
- the class of the object if it is not already a class object,
or
null
if the object isnull
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getStartPosition
public int getStartPosition()Description copied from interface:SpelNode
Return the start position of this AST node in the expression string.- Specified by:
getStartPosition
in interfaceSpelNode
- Returns:
- the start position
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getEndPosition
public int getEndPosition()Description copied from interface:SpelNode
Return the end position of this AST node in the expression string.- Specified by:
getEndPosition
in interfaceSpelNode
- Returns:
- the end position
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isCompilable
public boolean isCompilable()Check whether a node can be compiled to bytecode. The reasoning in each node may be different but will typically involve checking whether the exit type descriptor of the node is known and any relevant child nodes are compilable.- Returns:
true
if this node can be compiled to bytecode
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generateCode
Generate the bytecode for this node into the supplied visitor. Context info about the current expression being compiled is available in the codeflow object, e.g. including information about the type of the object currently on the stack.- Parameters:
mv
- the ASM MethodVisitor into which code should be generatedcf
- a context object with info about what is on the stack
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getExitDescriptor
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getValue
@Nullable protected final <T> T getValue(ExpressionState state, Class<T> desiredReturnType) throws EvaluationException - Throws:
EvaluationException
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getValueRef
- Throws:
EvaluationException
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getValueInternal
public abstract TypedValue getValueInternal(ExpressionState expressionState) throws EvaluationException - Throws:
EvaluationException
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generateCodeForArguments
protected static void generateCodeForArguments(MethodVisitor mv, CodeFlow cf, Member member, SpelNodeImpl[] arguments) Generate code that handles building the argument values for the specified method. This method will take account of whether the invoked method is a varargs method and if it is then the argument values will be appropriately packaged into an array.- Parameters:
mv
- the method visitor where code should be generatedcf
- the current codeflowmember
- the method or constructor for which arguments are being setuparguments
- the expression nodes for the expression supplied argument values
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generateCodeForArgument
protected static void generateCodeForArgument(MethodVisitor mv, CodeFlow cf, SpelNodeImpl argument, String paramDesc) Ask an argument to generate its bytecode and then follow it up with any boxing/unboxing/checkcasting to ensure it matches the expected parameter descriptor.
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