Java Code Examples for com.google.javascript.rhino.Node#isCatch()
The following examples show how to use
com.google.javascript.rhino.Node#isCatch() .
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Example 1
Source File: Cardumen_00200_t.java From coming with MIT License | 6 votes |
/** * Determines whether this node is used as an L-value. Notice that sometimes * names are used as both L-values and R-values. * * We treat "var x;" as a pseudo-L-value, which kind of makes sense if you * treat it as "assignment to 'undefined' at the top of the scope". But if * we're honest with ourselves, it doesn't make sense, and we only do this * because it makes sense to treat this as syntactically similar to * "var x = 0;". * * @param n The node * @return True if n is an L-value. */ public static boolean isLValue(Node n) { Preconditions.checkArgument(n.isName() || n.isGetProp() || n.isGetElem()); Node parent = n.getParent(); if (parent == null) { return false; } return (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) || (NodeUtil.isForIn(parent) && parent.getFirstChild() == n) || parent.isVar() || (parent.isFunction() && parent.getFirstChild() == n) || parent.isDec() || parent.isInc() || parent.isParamList() || parent.isCatch(); }
Example 2
Source File: NodeUtil.java From astor with GNU General Public License v2.0 | 6 votes |
/** * Determines whether this node is used as an L-value. Notice that sometimes * names are used as both L-values and R-values. * * We treat "var x;" as a pseudo-L-value, which kind of makes sense if you * treat it as "assignment to 'undefined' at the top of the scope". But if * we're honest with ourselves, it doesn't make sense, and we only do this * because it makes sense to treat this as syntactically similar to * "var x = 0;". * * @param n The node * @return True if n is an L-value. */ public static boolean isLValue(Node n) { Preconditions.checkArgument(n.isName() || n.isGetProp() || n.isGetElem()); Node parent = n.getParent(); if (parent == null) { return false; } return (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) || (NodeUtil.isForIn(parent) && parent.getFirstChild() == n) || parent.isVar() || (parent.isFunction() && parent.getFirstChild() == n) || parent.isDec() || parent.isInc() || parent.isParamList() || parent.isCatch(); }
Example 3
Source File: Closure_10_NodeUtil_s.java From coming with MIT License | 6 votes |
/** * Determines whether this node is used as an L-value. Notice that sometimes * names are used as both L-values and R-values. * * We treat "var x;" as a pseudo-L-value, which kind of makes sense if you * treat it as "assignment to 'undefined' at the top of the scope". But if * we're honest with ourselves, it doesn't make sense, and we only do this * because it makes sense to treat this as syntactically similar to * "var x = 0;". * * @param n The node * @return True if n is an L-value. */ public static boolean isLValue(Node n) { Preconditions.checkArgument(n.isName() || n.isGetProp() || n.isGetElem()); Node parent = n.getParent(); if (parent == null) { return false; } return (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) || (NodeUtil.isForIn(parent) && parent.getFirstChild() == n) || parent.isVar() || (parent.isFunction() && parent.getFirstChild() == n) || parent.isDec() || parent.isInc() || parent.isParamList() || parent.isCatch(); }
Example 4
Source File: Closure_10_NodeUtil_t.java From coming with MIT License | 6 votes |
/** * Determines whether this node is used as an L-value. Notice that sometimes * names are used as both L-values and R-values. * * We treat "var x;" as a pseudo-L-value, which kind of makes sense if you * treat it as "assignment to 'undefined' at the top of the scope". But if * we're honest with ourselves, it doesn't make sense, and we only do this * because it makes sense to treat this as syntactically similar to * "var x = 0;". * * @param n The node * @return True if n is an L-value. */ public static boolean isLValue(Node n) { Preconditions.checkArgument(n.isName() || n.isGetProp() || n.isGetElem()); Node parent = n.getParent(); if (parent == null) { return false; } return (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) || (NodeUtil.isForIn(parent) && parent.getFirstChild() == n) || parent.isVar() || (parent.isFunction() && parent.getFirstChild() == n) || parent.isDec() || parent.isInc() || parent.isParamList() || parent.isCatch(); }
Example 5
Source File: jMutRepair_003_t.java From coming with MIT License | 6 votes |
/** * Determines whether this node is used as an L-value. Notice that sometimes * names are used as both L-values and R-values. * * We treat "var x;" as a pseudo-L-value, which kind of makes sense if you * treat it as "assignment to 'undefined' at the top of the scope". But if * we're honest with ourselves, it doesn't make sense, and we only do this * because it makes sense to treat this as syntactically similar to * "var x = 0;". * * @param n The node * @return True if n is an L-value. */ public static boolean isLValue(Node n) { Preconditions.checkArgument(n.isName() || n.isGetProp() || n.isGetElem()); Node parent = n.getParent(); if (parent == null) { return false; } return (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) || (NodeUtil.isForIn(parent) && parent.getFirstChild() == n) || parent.isVar() || (parent.isFunction() && parent.getFirstChild() == n) || parent.isDec() || parent.isInc() || parent.isParamList() || parent.isCatch(); }
Example 6
Source File: jMutRepair_003_s.java From coming with MIT License | 6 votes |
/** * Determines whether this node is used as an L-value. Notice that sometimes * names are used as both L-values and R-values. * * We treat "var x;" as a pseudo-L-value, which kind of makes sense if you * treat it as "assignment to 'undefined' at the top of the scope". But if * we're honest with ourselves, it doesn't make sense, and we only do this * because it makes sense to treat this as syntactically similar to * "var x = 0;". * * @param n The node * @return True if n is an L-value. */ public static boolean isLValue(Node n) { Preconditions.checkArgument(n.isName() || n.isGetProp() || n.isGetElem()); Node parent = n.getParent(); if (parent == null) { return false; } return (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) || (NodeUtil.isForIn(parent) && parent.getFirstChild() == n) || parent.isVar() || (parent.isFunction() && parent.getFirstChild() == n) || parent.isDec() || parent.isInc() || parent.isParamList() || parent.isCatch(); }
Example 7
Source File: jKali_003_s.java From coming with MIT License | 6 votes |
/** * Determines whether this node is used as an L-value. Notice that sometimes * names are used as both L-values and R-values. * * We treat "var x;" as a pseudo-L-value, which kind of makes sense if you * treat it as "assignment to 'undefined' at the top of the scope". But if * we're honest with ourselves, it doesn't make sense, and we only do this * because it makes sense to treat this as syntactically similar to * "var x = 0;". * * @param n The node * @return True if n is an L-value. */ public static boolean isLValue(Node n) { Preconditions.checkArgument(n.isName() || n.isGetProp() || n.isGetElem()); Node parent = n.getParent(); if (parent == null) { return false; } return (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) || (NodeUtil.isForIn(parent) && parent.getFirstChild() == n) || parent.isVar() || (parent.isFunction() && parent.getFirstChild() == n) || parent.isDec() || parent.isInc() || parent.isParamList() || parent.isCatch(); }
Example 8
Source File: jKali_003_t.java From coming with MIT License | 6 votes |
/** * Determines whether this node is used as an L-value. Notice that sometimes * names are used as both L-values and R-values. * * We treat "var x;" as a pseudo-L-value, which kind of makes sense if you * treat it as "assignment to 'undefined' at the top of the scope". But if * we're honest with ourselves, it doesn't make sense, and we only do this * because it makes sense to treat this as syntactically similar to * "var x = 0;". * * @param n The node * @return True if n is an L-value. */ public static boolean isLValue(Node n) { Preconditions.checkArgument(n.isName() || n.isGetProp() || n.isGetElem()); Node parent = n.getParent(); if (parent == null) { return false; } return (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) || (NodeUtil.isForIn(parent) && parent.getFirstChild() == n) || parent.isVar() || (parent.isFunction() && parent.getFirstChild() == n) || parent.isDec() || parent.isInc() || parent.isParamList() || parent.isCatch(); }
Example 9
Source File: Cardumen_0087_t.java From coming with MIT License | 6 votes |
/** * Determines whether this node is used as an L-value. Notice that sometimes * names are used as both L-values and R-values. * * We treat "var x;" as a pseudo-L-value, which kind of makes sense if you * treat it as "assignment to 'undefined' at the top of the scope". But if * we're honest with ourselves, it doesn't make sense, and we only do this * because it makes sense to treat this as syntactically similar to * "var x = 0;". * * @param n The node * @return True if n is an L-value. */ public static boolean isLValue(Node n) { Preconditions.checkArgument(n.isName() || n.isGetProp() || n.isGetElem()); Node parent = n.getParent(); if (parent == null) { return false; } return (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) || (NodeUtil.isForIn(parent) && parent.getFirstChild() == n) || parent.isVar() || (parent.isFunction() && parent.getFirstChild() == n) || parent.isDec() || parent.isInc() || parent.isParamList() || parent.isCatch(); }
Example 10
Source File: Cardumen_0087_s.java From coming with MIT License | 6 votes |
/** * Determines whether this node is used as an L-value. Notice that sometimes * names are used as both L-values and R-values. * * We treat "var x;" as a pseudo-L-value, which kind of makes sense if you * treat it as "assignment to 'undefined' at the top of the scope". But if * we're honest with ourselves, it doesn't make sense, and we only do this * because it makes sense to treat this as syntactically similar to * "var x = 0;". * * @param n The node * @return True if n is an L-value. */ public static boolean isLValue(Node n) { Preconditions.checkArgument(n.isName() || n.isGetProp() || n.isGetElem()); Node parent = n.getParent(); if (parent == null) { return false; } return (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) || (NodeUtil.isForIn(parent) && parent.getFirstChild() == n) || parent.isVar() || (parent.isFunction() && parent.getFirstChild() == n) || parent.isDec() || parent.isInc() || parent.isParamList() || parent.isCatch(); }
Example 11
Source File: Cardumen_0014_s.java From coming with MIT License | 6 votes |
/** * Determines whether this node is used as an L-value. Notice that sometimes * names are used as both L-values and R-values. * * We treat "var x;" as a pseudo-L-value, which kind of makes sense if you * treat it as "assignment to 'undefined' at the top of the scope". But if * we're honest with ourselves, it doesn't make sense, and we only do this * because it makes sense to treat this as syntactically similar to * "var x = 0;". * * @param n The node * @return True if n is an L-value. */ public static boolean isLValue(Node n) { Preconditions.checkArgument(n.isName() || n.isGetProp() || n.isGetElem()); Node parent = n.getParent(); if (parent == null) { return false; } return (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) || (NodeUtil.isForIn(parent) && parent.getFirstChild() == n) || parent.isVar() || (parent.isFunction() && parent.getFirstChild() == n) || parent.isDec() || parent.isInc() || parent.isParamList() || parent.isCatch(); }
Example 12
Source File: Cardumen_0014_t.java From coming with MIT License | 6 votes |
/** * Determines whether this node is used as an L-value. Notice that sometimes * names are used as both L-values and R-values. * * We treat "var x;" as a pseudo-L-value, which kind of makes sense if you * treat it as "assignment to 'undefined' at the top of the scope". But if * we're honest with ourselves, it doesn't make sense, and we only do this * because it makes sense to treat this as syntactically similar to * "var x = 0;". * * @param n The node * @return True if n is an L-value. */ public static boolean isLValue(Node n) { Preconditions.checkArgument(n.isName() || n.isGetProp() || n.isGetElem()); Node parent = n.getParent(); if (parent == null) { return false; } return (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) || (NodeUtil.isForIn(parent) && parent.getFirstChild() == n) || parent.isVar() || (parent.isFunction() && parent.getFirstChild() == n) || parent.isDec() || parent.isInc() || parent.isParamList() || parent.isCatch(); }
Example 13
Source File: Cardumen_00149_t.java From coming with MIT License | 6 votes |
/** * Determines whether this node is used as an L-value. Notice that sometimes * names are used as both L-values and R-values. * * We treat "var x;" as a pseudo-L-value, which kind of makes sense if you * treat it as "assignment to 'undefined' at the top of the scope". But if * we're honest with ourselves, it doesn't make sense, and we only do this * because it makes sense to treat this as syntactically similar to * "var x = 0;". * * @param n The node * @return True if n is an L-value. */ public static boolean isLValue(Node n) { Preconditions.checkArgument(n.isName() || n.isGetProp() || n.isGetElem()); Node parent = n.getParent(); if (parent == null) { return false; } return (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) || (NodeUtil.isForIn(parent) && parent.getFirstChild() == n) || parent.isVar() || (parent.isFunction() && parent.getFirstChild() == n) || parent.isDec() || parent.isInc() || parent.isParamList() || parent.isCatch(); }
Example 14
Source File: Cardumen_00149_s.java From coming with MIT License | 6 votes |
/** * Determines whether this node is used as an L-value. Notice that sometimes * names are used as both L-values and R-values. * * We treat "var x;" as a pseudo-L-value, which kind of makes sense if you * treat it as "assignment to 'undefined' at the top of the scope". But if * we're honest with ourselves, it doesn't make sense, and we only do this * because it makes sense to treat this as syntactically similar to * "var x = 0;". * * @param n The node * @return True if n is an L-value. */ public static boolean isLValue(Node n) { Preconditions.checkArgument(n.isName() || n.isGetProp() || n.isGetElem()); Node parent = n.getParent(); if (parent == null) { return false; } return (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) || (NodeUtil.isForIn(parent) && parent.getFirstChild() == n) || parent.isVar() || (parent.isFunction() && parent.getFirstChild() == n) || parent.isDec() || parent.isInc() || parent.isParamList() || parent.isCatch(); }
Example 15
Source File: Cardumen_00200_s.java From coming with MIT License | 6 votes |
/** * Determines whether this node is used as an L-value. Notice that sometimes * names are used as both L-values and R-values. * * We treat "var x;" as a pseudo-L-value, which kind of makes sense if you * treat it as "assignment to 'undefined' at the top of the scope". But if * we're honest with ourselves, it doesn't make sense, and we only do this * because it makes sense to treat this as syntactically similar to * "var x = 0;". * * @param n The node * @return True if n is an L-value. */ public static boolean isLValue(Node n) { Preconditions.checkArgument(n.isName() || n.isGetProp() || n.isGetElem()); Node parent = n.getParent(); if (parent == null) { return false; } return (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) || (NodeUtil.isForIn(parent) && parent.getFirstChild() == n) || parent.isVar() || (parent.isFunction() && parent.getFirstChild() == n) || parent.isDec() || parent.isInc() || parent.isParamList() || parent.isCatch(); }
Example 16
Source File: SyntacticScopeCreator.java From astor with GNU General Public License v2.0 | 5 votes |
@Override public void onRedeclaration( Scope s, String name, Node n, CompilerInput input) { Node parent = n.getParent(); // Don't allow multiple variables to be declared at the top-level scope if (scope.isGlobal()) { Scope.Var origVar = scope.getVar(name); Node origParent = origVar.getParentNode(); if (origParent.isCatch() && parent.isCatch()) { // Okay, both are 'catch(x)' variables. return; } boolean allowDupe = hasDuplicateDeclarationSuppression(n, origVar); if (!allowDupe) { compiler.report( JSError.make(NodeUtil.getSourceName(n), n, VAR_MULTIPLY_DECLARED_ERROR, name, (origVar.input != null ? origVar.input.getName() : "??"))); } } else if (name.equals(ARGUMENTS) && !NodeUtil.isVarDeclaration(n)) { // Disallow shadowing "arguments" as we can't handle with our current // scope modeling. compiler.report( JSError.make(NodeUtil.getSourceName(n), n, VAR_ARGUMENTS_SHADOWED_ERROR)); } }
Example 17
Source File: NodeIterators.java From astor with GNU General Public License v2.0 | 4 votes |
private void advanceLookAhead(boolean atStart) { if (!atStart) { if (lookAhead == null) { return; } // Don't advance past a reference to the variable that we're trying // to inline. Node curNode = iterator.current(); if (curNode.isName() && varName.equals(curNode.getString())) { lookAhead = null; return; } } if (!iterator.hasNext()) { lookAhead = null; return; } Node nextNode = iterator.next(); Node nextParent = iterator.currentParent(); int type = nextNode.getType(); if (valueHasSideEffects) { // Reject anything that might read state boolean readsState = false; if (// Any read of a different variable. (nextNode.isName() && !varName.equals(nextNode.getString())) || // Any read of a property. (nextNode.isGetProp() || nextNode.isGetElem())) { // If this is a simple assign, we'll be ok. if (nextParent == null || !NodeUtil.isVarOrSimpleAssignLhs(nextNode, nextParent)) { readsState = true; } } else if (nextNode.isCall() || nextNode.isNew()) { // This isn't really an important case. In most cases when we use // CALL or NEW, we're invoking it on a NAME or a GETPROP. And in the // few cases where we're not, it's because we have an anonymous // function that escapes the variable we're worried about. But we // include this for completeness. readsState = true; } if (readsState) { lookAhead = null; return; } } // Reject anything that might modify relevant state. We assume that // nobody relies on variables being undeclared, which will break // constructions like: // var a = b; // var b = 3; // alert(a); if (NodeUtil.nodeTypeMayHaveSideEffects(nextNode) && type != Token.NAME || type == Token.NAME && nextParent.isCatch()) { lookAhead = null; return; } lookAhead = nextNode; }