/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef TRANSFRMX_EXPR_H #define TRANSFRMX_EXPR_H #include "mozilla/Attributes.h" #include "nsAutoPtr.h" #include "txExprResult.h" #include "txCore.h" #include "nsString.h" #include "txOwningArray.h" #include "nsIAtom.h" #ifdef DEBUG #define TX_TO_STRING #endif /* XPath class definitions. Much of this code was ported from XSL:P. */ class nsIAtom; class txIParseContext; class txIMatchContext; class txIEvalContext; class txNodeSet; class txXPathNode; /** * A Base Class for all XSL Expressions **/ class Expr { public: Expr() { MOZ_COUNT_CTOR(Expr); } virtual ~Expr() { MOZ_COUNT_DTOR(Expr); } /** * Evaluates this Expr based on the given context node and processor state * @param context the context node for evaluation of this Expr * @param ps the ContextState containing the stack information needed * for evaluation * @return the result of the evaluation **/ virtual nsresult evaluate(txIEvalContext* aContext, txAExprResult** aResult) = 0; /** * Returns the type of this expression. */ enum ExprType { LOCATIONSTEP_EXPR, PATH_EXPR, UNION_EXPR, LITERAL_EXPR, OTHER_EXPR }; virtual ExprType getType() { return OTHER_EXPR; } /** * Returns the type or types of results this Expr return. */ typedef uint16_t ResultType; enum { NODESET_RESULT = 0x01, BOOLEAN_RESULT = 0x02, NUMBER_RESULT = 0x04, STRING_RESULT = 0x08, RTF_RESULT = 0x10, ANY_RESULT = 0xFFFF }; virtual ResultType getReturnType() = 0; bool canReturnType(ResultType aType) { return (getReturnType() & aType) != 0; } typedef uint16_t ContextSensitivity; enum { NO_CONTEXT = 0x00, NODE_CONTEXT = 0x01, POSITION_CONTEXT = 0x02, SIZE_CONTEXT = 0x04, NODESET_CONTEXT = POSITION_CONTEXT | SIZE_CONTEXT, VARIABLES_CONTEXT = 0x08, PRIVATE_CONTEXT = 0x10, ANY_CONTEXT = 0xFFFF }; /** * Returns true if this expression is sensitive to *any* of * the requested contexts in aContexts. */ virtual bool isSensitiveTo(ContextSensitivity aContexts) = 0; /** * Returns sub-expression at given position */ virtual Expr* getSubExprAt(uint32_t aPos) = 0; /** * Replace sub-expression at given position. Does not delete the old * expression, that is the responsibility of the caller. */ virtual void setSubExprAt(uint32_t aPos, Expr* aExpr) = 0; virtual nsresult evaluateToBool(txIEvalContext* aContext, bool& aResult); virtual nsresult evaluateToString(txIEvalContext* aContext, nsString& aResult); #ifdef TX_TO_STRING /** * Returns the String representation of this Expr. * @param dest the String to use when creating the String * representation. The String representation will be appended to * any data in the destination String, to allow cascading calls to * other #toString() methods for Expressions. * @return the String representation of this Expr. **/ virtual void toString(nsAString& str) = 0; #endif }; //-- Expr #ifdef TX_TO_STRING #define TX_DECL_TOSTRING \ void toString(nsAString& aDest); #define TX_DECL_GETNAMEATOM \ nsresult getNameAtom(nsIAtom** aAtom); #else #define TX_DECL_TOSTRING #define TX_DECL_GETNAMEATOM #endif #define TX_DECL_EXPR_BASE \ nsresult evaluate(txIEvalContext* aContext, txAExprResult** aResult); \ ResultType getReturnType(); \ bool isSensitiveTo(ContextSensitivity aContexts); #define TX_DECL_EXPR \ TX_DECL_EXPR_BASE \ TX_DECL_TOSTRING \ Expr* getSubExprAt(uint32_t aPos); \ void setSubExprAt(uint32_t aPos, Expr* aExpr); #define TX_DECL_OPTIMIZABLE_EXPR \ TX_DECL_EXPR \ ExprType getType(); #define TX_DECL_FUNCTION \ TX_DECL_GETNAMEATOM \ TX_DECL_EXPR_BASE #define TX_IMPL_EXPR_STUBS_BASE(_class, _ReturnType) \ Expr::ResultType \ _class::getReturnType() \ { \ return _ReturnType; \ } #define TX_IMPL_EXPR_STUBS_0(_class, _ReturnType) \ TX_IMPL_EXPR_STUBS_BASE(_class, _ReturnType) \ Expr* \ _class::getSubExprAt(uint32_t aPos) \ { \ return nullptr; \ } \ void \ _class::setSubExprAt(uint32_t aPos, Expr* aExpr) \ { \ NS_NOTREACHED("setting bad subexpression index"); \ } #define TX_IMPL_EXPR_STUBS_1(_class, _ReturnType, _Expr1) \ TX_IMPL_EXPR_STUBS_BASE(_class, _ReturnType) \ Expr* \ _class::getSubExprAt(uint32_t aPos) \ { \ if (aPos == 0) { \ return _Expr1; \ } \ return nullptr; \ } \ void \ _class::setSubExprAt(uint32_t aPos, Expr* aExpr) \ { \ NS_ASSERTION(aPos < 1, "setting bad subexpression index");\ _Expr1.forget(); \ _Expr1 = aExpr; \ } #define TX_IMPL_EXPR_STUBS_2(_class, _ReturnType, _Expr1, _Expr2) \ TX_IMPL_EXPR_STUBS_BASE(_class, _ReturnType) \ Expr* \ _class::getSubExprAt(uint32_t aPos) \ { \ switch(aPos) { \ case 0: \ return _Expr1; \ case 1: \ return _Expr2; \ default: \ break; \ } \ return nullptr; \ } \ void \ _class::setSubExprAt(uint32_t aPos, Expr* aExpr) \ { \ NS_ASSERTION(aPos < 2, "setting bad subexpression index");\ if (aPos == 0) { \ _Expr1.forget(); \ _Expr1 = aExpr; \ } \ else { \ _Expr2.forget(); \ _Expr2 = aExpr; \ } \ } #define TX_IMPL_EXPR_STUBS_LIST(_class, _ReturnType, _ExprList) \ TX_IMPL_EXPR_STUBS_BASE(_class, _ReturnType) \ Expr* \ _class::getSubExprAt(uint32_t aPos) \ { \ return _ExprList.SafeElementAt(aPos); \ } \ void \ _class::setSubExprAt(uint32_t aPos, Expr* aExpr) \ { \ NS_ASSERTION(aPos < _ExprList.Length(), \ "setting bad subexpression index"); \ _ExprList[aPos] = aExpr; \ } /** * This class represents a FunctionCall as defined by the XPath 1.0 * Recommendation. **/ class FunctionCall : public Expr { public: /** * Adds the given parameter to this FunctionCall's parameter list. * The ownership of the given Expr is passed over to the FunctionCall, * even on failure. * @param aExpr the Expr to add to this FunctionCall's parameter list * @return nsresult indicating out of memory */ nsresult addParam(Expr* aExpr) { return mParams.AppendElement(aExpr) ? NS_OK : NS_ERROR_OUT_OF_MEMORY; } /** * Check if the number of parameters falls within a range. * * @param aParamCountMin minimum number of required parameters. * @param aParamCountMax maximum number of parameters. If aParamCountMax * is negative the maximum number is not checked. * @return boolean representing whether the number of parameters falls * within the expected range or not. * * XXX txIEvalContext should be txIParseContest, bug 143291 */ virtual bool requireParams(int32_t aParamCountMin, int32_t aParamCountMax, txIEvalContext* aContext); TX_DECL_TOSTRING Expr* getSubExprAt(uint32_t aPos) MOZ_OVERRIDE; void setSubExprAt(uint32_t aPos, Expr* aExpr) MOZ_OVERRIDE; protected: txOwningArray mParams; /* * Evaluates the given Expression and converts its result to a number. */ static nsresult evaluateToNumber(Expr* aExpr, txIEvalContext* aContext, double* aResult); /* * Evaluates the given Expression and converts its result to a NodeSet. * If the result is not a NodeSet an error is returned. */ static nsresult evaluateToNodeSet(Expr* aExpr, txIEvalContext* aContext, txNodeSet** aResult); /** * Returns true if any argument is sensitive to the given context. */ bool argsSensitiveTo(ContextSensitivity aContexts); #ifdef TX_TO_STRING /* * Returns the name of the function as an atom. */ virtual nsresult getNameAtom(nsIAtom** aAtom) = 0; #endif }; class txCoreFunctionCall : public FunctionCall { public: // This must be ordered in the same order as descriptTable in // txCoreFunctionCall.cpp. If you change one, change the other. enum eType { COUNT = 0, // count() ID, // id() LAST, // last() LOCAL_NAME, // local-name() NAMESPACE_URI, // namespace-uri() NAME, // name() POSITION, // position() CONCAT, // concat() CONTAINS, // contains() NORMALIZE_SPACE, // normalize-space() STARTS_WITH, // starts-with() STRING, // string() STRING_LENGTH, // string-length() SUBSTRING, // substring() SUBSTRING_AFTER, // substring-after() SUBSTRING_BEFORE, // substring-before() TRANSLATE, // translate() NUMBER, // number() ROUND, // round() FLOOR, // floor() CEILING, // ceiling() SUM, // sum() BOOLEAN, // boolean() _FALSE, // false() LANG, // lang() _NOT, // not() _TRUE // true() }; /* * Creates a txCoreFunctionCall of the given type */ explicit txCoreFunctionCall(eType aType) : mType(aType) { } TX_DECL_FUNCTION static bool getTypeFromAtom(nsIAtom* aName, eType& aType); private: eType mType; }; /* * This class represents a NodeTest as defined by the XPath spec */ class txNodeTest { public: txNodeTest() { MOZ_COUNT_CTOR(txNodeTest); } virtual ~txNodeTest() { MOZ_COUNT_DTOR(txNodeTest); } /* * Virtual methods * pretty much a txPattern, but not supposed to be used * standalone. The NodeTest node() is different to the * Pattern "node()" (document node isn't matched) */ virtual bool matches(const txXPathNode& aNode, txIMatchContext* aContext) = 0; virtual double getDefaultPriority() = 0; /** * Returns the type of this nodetest. */ enum NodeTestType { NAME_TEST, NODETYPE_TEST, OTHER_TEST }; virtual NodeTestType getType() { return OTHER_TEST; } /** * Returns true if this expression is sensitive to *any* of * the requested flags. */ virtual bool isSensitiveTo(Expr::ContextSensitivity aContext) = 0; #ifdef TX_TO_STRING virtual void toString(nsAString& aDest) = 0; #endif }; #define TX_DECL_NODE_TEST \ TX_DECL_TOSTRING \ bool matches(const txXPathNode& aNode, txIMatchContext* aContext); \ double getDefaultPriority(); \ bool isSensitiveTo(Expr::ContextSensitivity aContext); /* * This class represents a NameTest as defined by the XPath spec */ class txNameTest : public txNodeTest { public: /* * Creates a new txNameTest with the given type and the given * principal node type */ txNameTest(nsIAtom* aPrefix, nsIAtom* aLocalName, int32_t aNSID, uint16_t aNodeType); NodeTestType getType() MOZ_OVERRIDE; TX_DECL_NODE_TEST nsCOMPtr mPrefix; nsCOMPtr mLocalName; int32_t mNamespace; private: uint16_t mNodeType; }; /* * This class represents a NodeType as defined by the XPath spec */ class txNodeTypeTest : public txNodeTest { public: enum NodeType { COMMENT_TYPE, TEXT_TYPE, PI_TYPE, NODE_TYPE }; /* * Creates a new txNodeTypeTest of the given type */ explicit txNodeTypeTest(NodeType aNodeType) : mNodeType(aNodeType) { } /* * Sets the name of the node to match. Only availible for pi nodes */ void setNodeName(const nsAString& aName) { mNodeName = do_GetAtom(aName); } NodeType getNodeTestType() { return mNodeType; } NodeTestType getType() MOZ_OVERRIDE; TX_DECL_NODE_TEST private: NodeType mNodeType; nsCOMPtr mNodeName; }; /** * Class representing a nodetest combined with a predicate. May only be used * if the predicate is not sensitive to the context-nodelist. */ class txPredicatedNodeTest : public txNodeTest { public: txPredicatedNodeTest(txNodeTest* aNodeTest, Expr* aPredicate); TX_DECL_NODE_TEST private: nsAutoPtr mNodeTest; nsAutoPtr mPredicate; }; /** * Represents an ordered list of Predicates, * for use with Step and Filter Expressions **/ class PredicateList { public: /** * Adds the given Expr to the list. * The ownership of the given Expr is passed over the PredicateList, * even on failure. * @param aExpr the Expr to add to the list * @return nsresult indicating out of memory */ nsresult add(Expr* aExpr) { NS_ASSERTION(aExpr, "missing expression"); return mPredicates.AppendElement(aExpr) ? NS_OK : NS_ERROR_OUT_OF_MEMORY; } nsresult evaluatePredicates(txNodeSet* aNodes, txIMatchContext* aContext); /** * Drops the first predicate without deleting it. */ void dropFirst() { mPredicates.RemoveElementAt(0); } /** * returns true if this predicate list is empty **/ bool isEmpty() { return mPredicates.IsEmpty(); } #ifdef TX_TO_STRING /** * Returns the String representation of this PredicateList. * @param dest the String to use when creating the String * representation. The String representation will be appended to * any data in the destination String, to allow cascading calls to * other #toString() methods for Expressions. * @return the String representation of this PredicateList. **/ void toString(nsAString& dest); #endif protected: bool isSensitiveTo(Expr::ContextSensitivity aContext); Expr* getSubExprAt(uint32_t aPos) { return mPredicates.SafeElementAt(aPos); } void setSubExprAt(uint32_t aPos, Expr* aExpr) { NS_ASSERTION(aPos < mPredicates.Length(), "setting bad subexpression index"); mPredicates[aPos] = aExpr; } //-- list of predicates txOwningArray mPredicates; }; //-- PredicateList class LocationStep : public Expr, public PredicateList { public: enum LocationStepType { ANCESTOR_AXIS = 0, ANCESTOR_OR_SELF_AXIS, ATTRIBUTE_AXIS, CHILD_AXIS, DESCENDANT_AXIS, DESCENDANT_OR_SELF_AXIS, FOLLOWING_AXIS, FOLLOWING_SIBLING_AXIS, NAMESPACE_AXIS, PARENT_AXIS, PRECEDING_AXIS, PRECEDING_SIBLING_AXIS, SELF_AXIS }; /** * Creates a new LocationStep using the given NodeExpr and Axis Identifier * @param nodeExpr the NodeExpr to use when matching Nodes * @param axisIdentifier the Axis Identifier in which to search for nodes **/ LocationStep(txNodeTest* aNodeTest, LocationStepType aAxisIdentifier) : mNodeTest(aNodeTest), mAxisIdentifier(aAxisIdentifier) { } TX_DECL_OPTIMIZABLE_EXPR txNodeTest* getNodeTest() { return mNodeTest; } void setNodeTest(txNodeTest* aNodeTest) { mNodeTest.forget(); mNodeTest = aNodeTest; } LocationStepType getAxisIdentifier() { return mAxisIdentifier; } void setAxisIdentifier(LocationStepType aAxisIdentifier) { mAxisIdentifier = aAxisIdentifier; } private: void fromDescendants(const txXPathNode& aNode, txIMatchContext* aCs, txNodeSet* aNodes); void fromDescendantsRev(const txXPathNode& aNode, txIMatchContext* aCs, txNodeSet* aNodes); nsAutoPtr mNodeTest; LocationStepType mAxisIdentifier; }; class FilterExpr : public Expr, public PredicateList { public: /** * Creates a new FilterExpr using the given Expr * @param expr the Expr to use for evaluation */ explicit FilterExpr(Expr* aExpr) : expr(aExpr) { } TX_DECL_EXPR private: nsAutoPtr expr; }; //-- FilterExpr class txLiteralExpr : public Expr { public: explicit txLiteralExpr(double aDbl) : mValue(new NumberResult(aDbl, nullptr)) { } explicit txLiteralExpr(const nsAString& aStr) : mValue(new StringResult(aStr, nullptr)) { } explicit txLiteralExpr(txAExprResult* aValue) : mValue(aValue) { } TX_DECL_EXPR private: nsRefPtr mValue; }; /** * Represents an UnaryExpr. Returns the negative value of its expr. **/ class UnaryExpr : public Expr { public: explicit UnaryExpr(Expr* aExpr) : expr(aExpr) { } TX_DECL_EXPR private: nsAutoPtr expr; }; //-- UnaryExpr /** * Represents a BooleanExpr, a binary expression that * performs a boolean operation between its lvalue and rvalue. **/ class BooleanExpr : public Expr { public: //-- BooleanExpr Types enum _BooleanExprType { AND = 1, OR }; BooleanExpr(Expr* aLeftExpr, Expr* aRightExpr, short aOp) : leftExpr(aLeftExpr), rightExpr(aRightExpr), op(aOp) { } TX_DECL_EXPR private: nsAutoPtr leftExpr, rightExpr; short op; }; //-- BooleanExpr /** * Represents a MultiplicativeExpr, a binary expression that * performs a multiplicative operation between its lvalue and rvalue: * * : multiply * mod : modulus * div : divide * **/ class txNumberExpr : public Expr { public: enum eOp { ADD, SUBTRACT, DIVIDE, MULTIPLY, MODULUS }; txNumberExpr(Expr* aLeftExpr, Expr* aRightExpr, eOp aOp) : mLeftExpr(aLeftExpr), mRightExpr(aRightExpr), mOp(aOp) { } TX_DECL_EXPR private: nsAutoPtr mLeftExpr, mRightExpr; eOp mOp; }; //-- MultiplicativeExpr /** * Represents a RelationalExpr, an expression that compares its lvalue * to its rvalue using: * = : equal to * < : less than * > : greater than * <= : less than or equal to * >= : greater than or equal to * **/ class RelationalExpr : public Expr { public: enum RelationalExprType { EQUAL, NOT_EQUAL, LESS_THAN, GREATER_THAN, LESS_OR_EQUAL, GREATER_OR_EQUAL }; RelationalExpr(Expr* aLeftExpr, Expr* aRightExpr, RelationalExprType aOp) : mLeftExpr(aLeftExpr), mRightExpr(aRightExpr), mOp(aOp) { } TX_DECL_EXPR private: bool compareResults(txIEvalContext* aContext, txAExprResult* aLeft, txAExprResult* aRight); nsAutoPtr mLeftExpr; nsAutoPtr mRightExpr; RelationalExprType mOp; }; /** * VariableRefExpr * Represents a variable reference ($refname) **/ class VariableRefExpr : public Expr { public: VariableRefExpr(nsIAtom* aPrefix, nsIAtom* aLocalName, int32_t aNSID); TX_DECL_EXPR private: nsCOMPtr mPrefix; nsCOMPtr mLocalName; int32_t mNamespace; }; /** * Represents a PathExpr **/ class PathExpr : public Expr { public: //-- Path Operators //-- RELATIVE_OP is the default //-- LF, changed from static const short to enum enum PathOperator { RELATIVE_OP, DESCENDANT_OP }; /** * Adds the Expr to this PathExpr * The ownership of the given Expr is passed over the PathExpr, * even on failure. * @param aExpr the Expr to add to this PathExpr * @return nsresult indicating out of memory */ nsresult addExpr(Expr* aExpr, PathOperator pathOp); /** * Removes and deletes the expression at the given index. */ void deleteExprAt(uint32_t aPos) { NS_ASSERTION(aPos < mItems.Length(), "killing bad expression index"); mItems.RemoveElementAt(aPos); } TX_DECL_OPTIMIZABLE_EXPR PathOperator getPathOpAt(uint32_t aPos) { NS_ASSERTION(aPos < mItems.Length(), "getting bad pathop index"); return mItems[aPos].pathOp; } void setPathOpAt(uint32_t aPos, PathOperator aPathOp) { NS_ASSERTION(aPos < mItems.Length(), "setting bad pathop index"); mItems[aPos].pathOp = aPathOp; } private: class PathExprItem { public: nsAutoPtr expr; PathOperator pathOp; }; nsTArray mItems; /* * Selects from the descendants of the context node * all nodes that match the Expr */ nsresult evalDescendants(Expr* aStep, const txXPathNode& aNode, txIMatchContext* aContext, txNodeSet* resNodes); }; /** * This class represents a RootExpr, which only matches the Document node **/ class RootExpr : public Expr { public: /** * Creates a new RootExpr */ RootExpr() #ifdef TX_TO_STRING : mSerialize(true) #endif { } TX_DECL_EXPR #ifdef TX_TO_STRING public: void setSerialize(bool aSerialize) { mSerialize = aSerialize; } private: // When a RootExpr is used in a PathExpr it shouldn't be serialized bool mSerialize; #endif }; //-- RootExpr /** * Represents a UnionExpr **/ class UnionExpr : public Expr { public: /** * Adds the PathExpr to this UnionExpr * The ownership of the given Expr is passed over the UnionExpr, * even on failure. * @param aExpr the Expr to add to this UnionExpr * @return nsresult indicating out of memory */ nsresult addExpr(Expr* aExpr) { return mExpressions.AppendElement(aExpr) ? NS_OK : NS_ERROR_OUT_OF_MEMORY; } /** * Removes and deletes the expression at the given index. */ void deleteExprAt(uint32_t aPos) { NS_ASSERTION(aPos < mExpressions.Length(), "killing bad expression index"); delete mExpressions[aPos]; mExpressions.RemoveElementAt(aPos); } TX_DECL_OPTIMIZABLE_EXPR private: txOwningArray mExpressions; }; //-- UnionExpr /** * Class specializing in executing expressions like "@foo" where we are * interested in different result-types, and expressions like "@foo = 'hi'" */ class txNamedAttributeStep : public Expr { public: txNamedAttributeStep(int32_t aNsID, nsIAtom* aPrefix, nsIAtom* aLocalName); TX_DECL_EXPR private: int32_t mNamespace; nsCOMPtr mPrefix; nsCOMPtr mLocalName; }; /** * */ class txUnionNodeTest : public txNodeTest { public: nsresult addNodeTest(txNodeTest* aNodeTest) { return mNodeTests.AppendElement(aNodeTest) ? NS_OK : NS_ERROR_OUT_OF_MEMORY; } TX_DECL_NODE_TEST private: txOwningArray mNodeTests; }; /** * Expression that failed to parse */ class txErrorExpr : public Expr { public: #ifdef TX_TO_STRING explicit txErrorExpr(const nsAString& aStr) : mStr(aStr) { } #endif TX_DECL_EXPR #ifdef TX_TO_STRING private: nsString mStr; #endif }; #endif