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| author | ktnyt |
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| date | Fri, 26 Jun 2015 05:20:29 -0400 |
| parents | 8300eb051bea |
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/* schema.h XSD binding schema interface -------------------------------------------------------------------------------- gSOAP XML Web services tools Copyright (C) 2000-2013, Robert van Engelen, Genivia Inc. All Rights Reserved. This software is released under one of the following licenses: GPL or Genivia's license for commercial use. -------------------------------------------------------------------------------- GPL license. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program 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 for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA Author contact information: engelen@genivia.com / engelen@acm.org -------------------------------------------------------------------------------- A commercial use license is available from Genivia, Inc., contact@genivia.com -------------------------------------------------------------------------------- */ //gsoap xs schema documentation: XSD binding schema //gsoap xs schema namespace: http://www.w3.org/2001/XMLSchema //gsoap xs schema elementForm: qualified //gsoap xs schema attributeForm: unqualified /* For the wsdl:arrayType attribute to support old style SOAP arrays: */ //gsoap wsdl schema namespace: http://schemas.xmlsoap.org/wsdl/ #import "imports.h" class xs__schema; // forward declaration class xs__simpleType; // forward declaration class xs__complexType; // forward declaration class xs__extension; // forward declaration class xs__restriction; // forward declaration class xs__seqchoice; // forward declaration class xs__group; // forward declaration class xs__list; // forward declaration class xs__union; // forward declaration class xs__annotation { public: char *documentation; }; enum xs__formChoice { unqualified, qualified }; class xs__element { public: // @xsd__ID id; @xsd__NCName name; @xsd__QName ref; @xsd__QName type; @xsd__string default_; @xsd__QName default__; // also get QName value if element type is QName @xsd__string fixed; @xsd__QName fixed_; // also get QName value if element type is QName @enum xs__formChoice *form; @xsd__boolean nillable = false; @xsd__boolean abstract = false; @xsd__QName substitutionGroup; @xsd__string minOccurs; // xsd:nonNegativeInteger @xsd__string maxOccurs; // xsd:nonNegativeInteger|unbounded @xsd__string xmime__expectedContentTypes; xs__annotation *annotation; xs__simpleType *simpleType; // choice xs__complexType *complexType; // choice xsd__string unique; // dummy, not used private: xs__schema *schemaRef; // schema to which this belongs xs__element *elementRef; // traverse() finds ref xs__simpleType *simpleTypeRef; // traverse() finds type or = simpleType above xs__complexType *complexTypeRef; // traverse() finds type or = complexType above std::vector<xs__element*> substitutions; // traverse() finds substitutionGroup elements for this abstract element public: xs__element(); int traverse(xs__schema&); void schemaPtr(xs__schema*); void elementPtr(xs__element*); void simpleTypePtr(xs__simpleType*); void complexTypePtr(xs__complexType*); xs__schema *schemaPtr() const; xs__element *elementPtr() const; xs__simpleType *simpleTypePtr() const; xs__complexType *complexTypePtr() const; const std::vector<xs__element*> *substitutionsPtr() const; }; enum xs__attribute_use { optional, prohibited, required, default_, fixed_ }; class xs__attribute { public: @xsd__NCName name; @xsd__QName ref; @xsd__QName type; @enum xs__attribute_use use = optional; @xsd__string default_; @xsd__QName default__; // also get QName value if attribute type is QName @xsd__string fixed; @xsd__QName fixed_; // also get QName value if attribute type is QName @enum xs__formChoice *form; @xsd__QName wsdl__arrayType; // extensibility attribute added to simplify WSDL parsing xs__annotation *annotation; xs__simpleType *simpleType; private: xs__schema *schemaRef; // schema to which this belongs xs__attribute *attributeRef; // traverse() finds ref xs__simpleType *simpleTypeRef; // traverse() finds type or = simpleType above public: xs__attribute(); int traverse(xs__schema&); void schemaPtr(xs__schema*); void attributePtr(xs__attribute*); void simpleTypePtr(xs__simpleType*); xs__schema *schemaPtr() const; xs__attribute *attributePtr() const; xs__simpleType *simpleTypePtr() const; }; class xs__all { public: std::vector<xs__element> element; public: int traverse(xs__schema&); }; enum xs__processContents { strict, skip, lax }; typedef char *xs__namespaceList; // "##any" or "##other" or list of URI, "##targetNamespace", "##local" class xs__any { public: @xs__namespaceList namespace_ = "##any"; @enum xs__processContents processContents = strict; @xsd__string minOccurs; // xsd:nonNegativeInteger @xsd__string maxOccurs; // xsd:nonNegativeInteger|unbounded std::vector<xs__element> element; public: int traverse(xs__schema&); }; class xs__contents { public: $int __union; union xs__union_content { xs__element *element; xs__group *group; xs__seqchoice *choice; xs__seqchoice *sequence; xs__any *any; } __content; public: int traverse(xs__schema&); }; class xs__seqchoice { public: @xsd__string minOccurs; // xsd:nonNegativeInteger @xsd__string maxOccurs; // xsd:nonNegativeInteger|unbounded xs__annotation *annotation; std::vector<xs__contents> __contents; private: xs__schema *schemaRef; // schema to which this belongs public: xs__seqchoice(); int traverse(xs__schema&); void schemaPtr(xs__schema*); xs__schema *schemaPtr() const; }; class xs__group { public: @xsd__NCName name; @xsd__QName ref; @xsd__string minOccurs; // xsd:nonNegativeInteger @xsd__string maxOccurs; // xsd:nonNegativeInteger|unbounded xs__annotation *annotation; xs__all *all; xs__seqchoice *choice; xs__seqchoice *sequence; private: xs__schema *schemaRef; // schema to which this belongs xs__group *groupRef; // traverse() finds ref public: xs__group(); int traverse(xs__schema&); void schemaPtr(xs__schema*); void groupPtr(xs__group*); xs__schema *schemaPtr() const; xs__group *groupPtr() const; }; class xs__anyAttribute { public: @xs__namespaceList namespace_ = "##any"; @enum xs__processContents processContents = strict; }; class xs__attributeGroup { public: @xsd__NCName name; @xsd__QName ref; xs__annotation *annotation; std::vector<xs__attribute> attribute; std::vector<xs__attributeGroup> attributeGroup; xs__anyAttribute *anyAttribute; private: xs__schema *schemaRef; xs__attributeGroup *attributeGroupRef; public: xs__attributeGroup(); int traverse(xs__schema&); void schemaPtr(xs__schema*); void attributeGroupPtr(xs__attributeGroup*); xs__schema *schemaPtr() const; xs__attributeGroup *attributeGroupPtr() const; }; class xs__enumeration { public: @xsd__string value; @xsd__QName value_; // also get QName value if base type is QName xs__annotation *annotation; public: int traverse(xs__schema&); }; class xs__pattern { public: @xsd__string value; public: int traverse(xs__schema&); }; class xs__simpleContent { public: xs__extension *extension; // choice xs__restriction *restriction; // choice public: int traverse(xs__schema&); }; class xs__simpleType { public: @xsd__NMTOKEN name; xs__annotation *annotation; xs__restriction *restriction; // choice xs__list *list; // choice xs__union *union_; // choice private: xs__schema *schemaRef; int level; public: xs__simpleType(); int traverse(xs__schema&); void schemaPtr(xs__schema*); xs__schema *schemaPtr() const; int baseLevel(); }; class xs__extension { public: @xsd__QName base; xs__group *group; xs__all *all; xs__seqchoice *choice; xs__seqchoice *sequence; std::vector<xs__attribute> attribute; std::vector<xs__attributeGroup> attributeGroup; xs__anyAttribute *anyAttribute; private: xs__simpleType *simpleTypeRef; // traverse() finds type xs__complexType *complexTypeRef; // traverse() finds type public: xs__extension(); int traverse(xs__schema&); void simpleTypePtr(xs__simpleType*); void complexTypePtr(xs__complexType*); xs__simpleType *simpleTypePtr() const; xs__complexType *complexTypePtr() const; }; class xs__length { public: @xsd__string value; @xsd__boolean fixed; xs__annotation *annotation; }; class xs__whiteSpace { public: @xsd__string value; }; class xs__restriction { public: @xsd__QName base; xs__simpleType *simpleType; // used in <simpleType><restriction> xs__attributeGroup *attributeGroup;// not used in <simpleType><restriction> xs__group *group; // not used in <simpleType><restriction> xs__all *all; // not used in <simpleType><restriction> xs__seqchoice *choice; // not used in <simpleType><restriction> xs__seqchoice *sequence; // not used in <simpleType><restriction> std::vector<xs__attribute> attribute; // not used in <simpleType><restriction> xs__anyAttribute *anyAttribute; // not used in <simpleType><restriction> std::vector<xs__enumeration> enumeration; std::vector<xs__pattern> pattern; xs__whiteSpace *whiteSpace; xs__length *length; xs__length *minLength; xs__length *maxLength; xs__length *precision; // 2000 schema xs__length *scale; // 2000 schema xs__length *totalDigits; // 2001 schema xs__length *fractionDigits; // 2001 schema xs__length *minInclusive; xs__length *maxInclusive; xs__length *minExclusive; xs__length *maxExclusive; xs__annotation *annotation; private: xs__simpleType *simpleTypeRef; // traverse() finds type xs__complexType *complexTypeRef; // traverse() finds type public: xs__restriction(); int traverse(xs__schema&); void simpleTypePtr(xs__simpleType*); void complexTypePtr(xs__complexType*); xs__simpleType *simpleTypePtr() const; xs__complexType *complexTypePtr() const; }; class xs__list { public: @xsd__QName itemType; xs__restriction *restriction; // choice std::vector<xs__simpleType> simpleType; // choice private: xs__simpleType *itemTypeRef; public: xs__list(); int traverse(xs__schema&); void itemTypePtr(xs__simpleType*); xs__simpleType *itemTypePtr() const; }; class xs__union { public: @xsd__NMTOKENS memberTypes; // check if NMTOKENS is ok??? std::vector<xs__simpleType> simpleType; public: int traverse(xs__schema&); }; class xs__complexContent { public: @xsd__boolean mixed = false; xs__extension *extension; xs__restriction *restriction; public: int traverse(xs__schema&); }; class xs__complexType { public: @xsd__NMTOKEN name; @xsd__boolean abstract = false; @xsd__boolean mixed = false; xs__annotation *annotation; xs__simpleContent *simpleContent; xs__complexContent *complexContent; xs__all *all; xs__seqchoice *choice; xs__seqchoice *sequence; xs__any *any; std::vector<xs__attribute> attribute; std::vector<xs__attributeGroup> attributeGroup; xs__anyAttribute *anyAttribute; private: xs__schema *schemaRef; int level; public: xs__complexType(); int traverse(xs__schema&); void schemaPtr(xs__schema*); xs__schema *schemaPtr() const; int baseLevel(); }; class xs__import { public: @xsd__anyURI namespace_; @xsd__anyURI schemaLocation; private: xs__schema *schemaRef; // set by WSDL parser or via schemaLocation public: xs__import(); int traverse(xs__schema&); void schemaPtr(xs__schema*); xs__schema *schemaPtr() const; }; class xs__include { public: @xsd__anyURI schemaLocation; private: xs__schema *schemaRef; public: xs__include(); int preprocess(xs__schema&); int traverse(xs__schema&); void schemaPtr(xs__schema*); xs__schema *schemaPtr() const; }; class xs__redefine { public: @xsd__anyURI schemaLocation; std::vector<xs__group> group; std::vector<xs__attributeGroup> attributeGroup; std::vector<xs__simpleType> simpleType; std::vector<xs__complexType> complexType; private: xs__schema *schemaRef; public: xs__redefine(); int preprocess(xs__schema&); int traverse(xs__schema&); void schemaPtr(xs__schema*); xs__schema *schemaPtr() const; }; class xs__schema { public: @xsd__anyURI targetNamespace = ""; @xsd__string version; @enum xs__formChoice attributeFormDefault = unqualified; @enum xs__formChoice elementFormDefault = unqualified; xs__annotation *annotation; std::vector<xs__include> include; std::vector<xs__redefine> redefine; std::vector<xs__import> import; std::vector<xs__attribute> attribute; std::vector<xs__element> element; std::vector<xs__group> group; std::vector<xs__attributeGroup> attributeGroup; std::vector<xs__simpleType> simpleType; std::vector<xs__complexType> complexType; struct soap *soap; private: bool updated; char* location; int redirs; SetOfString builtinTypeSet; SetOfString builtinElementSet; SetOfString builtinAttributeSet; public: xs__schema(); xs__schema(struct soap*); xs__schema(struct soap*, const char*, const char*); virtual ~xs__schema(); int get(struct soap*); // gSOAP getter is triggered after parsing int preprocess(); int insert(xs__schema&); int traverse(); int read(const char*, const char*); void sourceLocation(const char*); const char* sourceLocation(); int error(); void print_fault(); void builtinType(const char*); void builtinElement(const char*); void builtinAttribute(const char*); const SetOfString& builtinTypes() const; const SetOfString& builtinElements() const; const SetOfString& builtinAttributes() const; bool empty() const; friend ostream& operator<<(ostream&, const xs__schema&); friend istream& operator>>(istream&, xs__schema&); }; extern ostream &operator<<(ostream &o, const xs__schema &e); extern istream &operator>>(istream &i, xs__schema &e);