Inheritance: XmlSchemaParticle
 internal static bool HasParticleRef(XmlSchemaParticle particle, XmlSchema parentSchema)
 {
     XmlSchemaGroupBase base2 = particle as XmlSchemaGroupBase;
     if (base2 == null)
     {
         return (particle is XmlSchemaGroupRef);
     }
     bool flag = false;
     int num = 0;
     while ((num < base2.Items.Count) && !flag)
     {
         XmlSchemaParticle particle2 = (XmlSchemaParticle) base2.Items[num++];
         if (particle2 is XmlSchemaGroupRef)
         {
             flag = true;
         }
         else
         {
             XmlSchemaElement element = particle2 as XmlSchemaElement;
             if ((element != null) && ((!element.RefName.IsEmpty || !element.SchemaTypeName.IsEmpty) || (GetResolvedElementForm(parentSchema, element) == XmlSchemaForm.Qualified)))
             {
                 flag = true;
                 continue;
             }
             flag = HasParticleRef(particle2, parentSchema);
         }
     }
     return flag;
 }
Ejemplo n.º 2
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        internal override bool ParticleEquals(XmlSchemaParticle other)
        {
            XmlSchemaGroupBase xmlSchemaGroupBase = other as XmlSchemaGroupBase;

            if (xmlSchemaGroupBase == null)
            {
                return(false);
            }
            if (base.GetType() != xmlSchemaGroupBase.GetType())
            {
                return(false);
            }
            if (base.ValidatedMaxOccurs != xmlSchemaGroupBase.ValidatedMaxOccurs || base.ValidatedMinOccurs != xmlSchemaGroupBase.ValidatedMinOccurs)
            {
                return(false);
            }
            if (this.CompiledItems.Count != xmlSchemaGroupBase.CompiledItems.Count)
            {
                return(false);
            }
            for (int i = 0; i < this.CompiledItems.Count; i++)
            {
                XmlSchemaParticle xmlSchemaParticle = this.CompiledItems[i] as XmlSchemaParticle;
                XmlSchemaParticle other2            = xmlSchemaGroupBase.CompiledItems[i] as XmlSchemaParticle;
                if (!xmlSchemaParticle.ParticleEquals(other2))
                {
                    return(false);
                }
            }
            return(true);
        }
Ejemplo n.º 3
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        internal override bool ParticleEquals(XmlSchemaParticle other)
        {
            XmlSchemaGroupBase gb = other as XmlSchemaGroupBase;

            if (gb == null)
            {
                return(false);
            }
            if (this.GetType() != gb.GetType())
            {
                return(false);
            }

            if (this.ValidatedMaxOccurs != gb.ValidatedMaxOccurs ||
                this.ValidatedMinOccurs != gb.ValidatedMinOccurs)
            {
                return(false);
            }
            if (this.CompiledItems.Count != gb.CompiledItems.Count)
            {
                return(false);
            }
            for (int i = 0; i < CompiledItems.Count; i++)
            {
                XmlSchemaParticle p1 = this.CompiledItems [i] as XmlSchemaParticle;
                XmlSchemaParticle p2 = gb.CompiledItems [i] as XmlSchemaParticle;
                if (!p1.ParticleEquals(p2))
                {
                    return(false);
                }
            }
            return(true);
        }
        internal static XmlSchemaParticle CloneParticle(XmlSchemaParticle particle)
        {
            XmlSchemaGroupBase groupBase = particle as XmlSchemaGroupBase;

            if (groupBase != null && !(groupBase is XmlSchemaAll))    //Choice or sequence
            {
                XmlSchemaGroupBase newGroupBase = groupBase;

                XmlSchemaObjectCollection newGroupbaseParticles = CloneGroupBaseParticles(groupBase.Items);
                newGroupBase = (XmlSchemaGroupBase)groupBase.Clone();
                newGroupBase.SetItems(newGroupbaseParticles);
                return(newGroupBase);
            }
            else if (particle is XmlSchemaGroupRef)   // group ref
            {
                XmlSchemaGroupRef newGroupRef = (XmlSchemaGroupRef)particle.Clone();
                newGroupRef.RefName = newGroupRef.RefName.Clone();
                return(newGroupRef);
            }
            else
            {
                XmlSchemaElement oldElem = particle as XmlSchemaElement;
                if (oldElem != null && (!oldElem.RefName.IsEmpty || !oldElem.SchemaTypeName.IsEmpty))   //Its element ref or type name is present
                {
                    XmlSchemaElement newElem = (XmlSchemaElement)oldElem.Clone();
                    return(newElem);
                }
            }
            return(particle);
        }
Ejemplo n.º 5
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		internal void CopyOptimizedItems (XmlSchemaGroupBase gb)
		{
			for (int i = 0; i < Items.Count; i++) {
				XmlSchemaParticle p = Items [i] as XmlSchemaParticle;
				p = p.GetOptimizedParticle (false);
				if (p == XmlSchemaParticle.Empty)
					continue;
				gb.Items.Add (p);
				gb.CompiledItems.Add (p);
			}
		}
Ejemplo n.º 6
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 internal void CopyOptimizedItems(XmlSchemaGroupBase gb)
 {
     for (int i = 0; i < this.Items.Count; i++)
     {
         XmlSchemaParticle xmlSchemaParticle = this.Items[i] as XmlSchemaParticle;
         xmlSchemaParticle = xmlSchemaParticle.GetOptimizedParticle(false);
         if (xmlSchemaParticle != XmlSchemaParticle.Empty)
         {
             gb.Items.Add(xmlSchemaParticle);
             gb.CompiledItems.Add(xmlSchemaParticle);
         }
     }
 }
Ejemplo n.º 7
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 internal void CopyOptimizedItems(XmlSchemaGroupBase gb)
 {
     for (int i = 0; i < Items.Count; i++)
     {
         XmlSchemaParticle p = Items [i] as XmlSchemaParticle;
         p = p.GetOptimizedParticle(false);
         if (p == XmlSchemaParticle.Empty)
         {
             continue;
         }
         gb.Items.Add(p);
         gb.CompiledItems.Add(p);
     }
 }
Ejemplo n.º 8
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        internal static bool HasParticleRef(XmlSchemaParticle particle, XmlSchema parentSchema)
        {
            XmlSchemaGroupBase groupBase = particle as XmlSchemaGroupBase;

            if (groupBase != null)
            {
                bool foundRef = false;
                int  i        = 0;
                while (i < groupBase.Items.Count && !foundRef)
                {
                    XmlSchemaParticle p = (XmlSchemaParticle)groupBase.Items[i++];
                    if (p is XmlSchemaGroupRef)
                    {
                        foundRef = true;
                    }
                    else
                    {
                        XmlSchemaElement elem = p as XmlSchemaElement;
                        // This is the same condition as in the CloneParticle method
                        //   that's on purpose. This method is used to determine if we need to clone the whole particle.
                        //   If we do, then the CloneParticle is called and it will try to clone only
                        //   those elements which need cloning - and those are the ones matching this condition.
                        if (elem != null && (!elem.RefName.IsEmpty || !elem.SchemaTypeName.IsEmpty ||
                                             GetResolvedElementForm(parentSchema, elem) == XmlSchemaForm.Qualified))
                        {
                            foundRef = true;
                        }
                        else
                        {
                            foundRef = HasParticleRef(p, parentSchema);
                        }
                    }
                }
                return(foundRef);
            }
            else if (particle is XmlSchemaGroupRef)
            {
                return(true);
            }
            return(false);
        }
        internal static bool HasParticleRef(XmlSchemaParticle particle)
        {
            XmlSchemaGroupBase groupBase = particle as XmlSchemaGroupBase;

            if (groupBase != null && !(groupBase is XmlSchemaAll))
            {
                bool foundRef = false;
                int  i        = 0;
                while (i < groupBase.Items.Count && !foundRef)
                {
                    XmlSchemaParticle p = (XmlSchemaParticle)groupBase.Items[i++];
                    if (p is XmlSchemaGroupRef)
                    {
                        foundRef = true;
                    }
                    else
                    {
                        XmlSchemaElement elem = p as XmlSchemaElement;
                        if (elem != null && (!elem.RefName.IsEmpty || !elem.SchemaTypeName.IsEmpty))
                        {
                            foundRef = true;
                        }
                        else
                        {
                            foundRef = HasParticleRef(p);
                        }
                    }
                }
                return(foundRef);
            }
            else if (particle is XmlSchemaGroupRef)
            {
                return(true);
            }
            return(false);
        }
Ejemplo n.º 10
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        internal static XmlSchemaParticle CloneParticle(XmlSchemaParticle particle, XmlSchema parentSchema)
        {
            XmlSchemaGroupBase groupBase = particle as XmlSchemaGroupBase;

            if (groupBase != null)   //Choice or sequence
            {
                XmlSchemaGroupBase newGroupBase = groupBase;

                XmlSchemaObjectCollection newGroupbaseParticles = CloneGroupBaseParticles(groupBase.Items, parentSchema);
                newGroupBase = (XmlSchemaGroupBase)groupBase.Clone();
                newGroupBase.SetItems(newGroupbaseParticles);
                return(newGroupBase);
            }
            else if (particle is XmlSchemaGroupRef)   // group ref
            {
                XmlSchemaGroupRef newGroupRef = (XmlSchemaGroupRef)particle.Clone();
                newGroupRef.RefName = newGroupRef.RefName.Clone();
                return(newGroupRef);
            }
            else
            {
                XmlSchemaElement oldElem = particle as XmlSchemaElement;
                // If the particle is an element and one of the following is true:
                //   - it references another element by name
                //   - it references its type by name
                //   - it's form (effective) is qualified (meaning it will inherint namespace from chameleon includes if that happens)
                // then the element itself needs to be cloned.
                if (oldElem != null && (!oldElem.RefName.IsEmpty || !oldElem.SchemaTypeName.IsEmpty ||
                                        GetResolvedElementForm(parentSchema, oldElem) == XmlSchemaForm.Qualified))
                {
                    XmlSchemaElement newElem = (XmlSchemaElement)oldElem.Clone(parentSchema);
                    return(newElem);
                }
            }
            return(particle);
        }
 internal static XmlSchemaParticle CloneParticle(XmlSchemaParticle particle, XmlSchema parentSchema)
 {
     XmlSchemaGroupBase base2 = particle as XmlSchemaGroupBase;
     if (base2 != null)
     {
         XmlSchemaGroupBase base3 = base2;
         XmlSchemaObjectCollection newItems = CloneGroupBaseParticles(base2.Items, parentSchema);
         base3 = (XmlSchemaGroupBase) base2.Clone();
         base3.SetItems(newItems);
         return base3;
     }
     if (particle is XmlSchemaGroupRef)
     {
         XmlSchemaGroupRef ref2 = (XmlSchemaGroupRef) particle.Clone();
         ref2.RefName = ref2.RefName.Clone();
         return ref2;
     }
     XmlSchemaElement element = particle as XmlSchemaElement;
     if ((element == null) || ((element.RefName.IsEmpty && element.SchemaTypeName.IsEmpty) && (GetResolvedElementForm(parentSchema, element) != XmlSchemaForm.Qualified)))
     {
         return particle;
     }
     return (XmlSchemaElement) element.Clone(parentSchema);
 }
Ejemplo n.º 12
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 public RecursiveChildren(XmlSchemaGroupBase group)
 {
     this.group = group;
 }
Ejemplo n.º 13
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        internal bool ValidateSeqRecurseMapSumCommon(XmlSchemaGroupBase baseGroup,
                                                     ValidationEventHandler h, XmlSchema schema, bool isLax, bool isMapAndSum, bool raiseError)
        {
            int     index       = 0;
            int     baseIndex   = 0;
            decimal baseOccured = 0;

            if (baseGroup.CompiledItems.Count == 0 && this.CompiledItems.Count > 0)
            {
                if (raiseError)
                {
                    error(h, "Invalid particle derivation by restriction was found. base particle does not contain particles.");
                }
                return(false);
            }

            for (int i = 0; i < CompiledItems.Count; i++)
            {
                // get non-empty derived particle
                XmlSchemaParticle pd = null;
                while (this.CompiledItems.Count > index)
                {
                    pd = ((XmlSchemaParticle)this.CompiledItems [index]); //.GetOptimizedParticle (false);
                    if (pd != XmlSchemaParticle.Empty)                    // && pd.ValidatedMaxOccurs > 0)
                    {
                        break;
                    }
                    else
                    {
                        index++;
                    }
                }
                if (index >= CompiledItems.Count)
                {
                    if (raiseError)
                    {
                        error(h, "Invalid particle derivation by restriction was found. Cannot be mapped to base particle.");
                    }
                    return(false);
                }

                // get non-empty base particle
                XmlSchemaParticle pb = null;
                while (baseGroup.CompiledItems.Count > baseIndex)
                {
                    pb = ((XmlSchemaParticle)baseGroup.CompiledItems [baseIndex]);                     //.GetOptimizedParticle (false);
                    if (pb == XmlSchemaParticle.Empty && pb.ValidatedMaxOccurs > 0)
                    {
                        continue;
                    }
                    if (!pd.ValidateDerivationByRestriction(pb, h, schema, false))
                    {
                        if (!isLax && !isMapAndSum && pb.MinOccurs > baseOccured && !pb.ValidateIsEmptiable())
                        {
                            if (raiseError)
                            {
                                error(h, "Invalid particle derivation by restriction was found. Invalid sub-particle derivation was found.");
                            }
                            return(false);
                        }
                        else
                        {
                            baseOccured = 0;
                            baseIndex++;
                        }
                    }
                    else
                    {
                        baseOccured += pb.ValidatedMinOccurs;
                        if (baseOccured >= baseGroup.ValidatedMaxOccurs)
                        {
                            baseOccured = 0;
                            baseIndex++;
                        }
                        index++;
                        break;
                    }
                }
            }
            if (this.CompiledItems.Count > 0 && index != this.CompiledItems.Count)
            {
                if (raiseError)
                {
                    error(h, "Invalid particle derivation by restriction was found. Extraneous derived particle was found.");
                }
                return(false);
            }
            if (!isLax && !isMapAndSum)
            {
                if (baseOccured > 0)
                {
                    baseIndex++;
                }
                for (int i = baseIndex; i < baseGroup.CompiledItems.Count; i++)
                {
                    XmlSchemaParticle p = baseGroup.CompiledItems [i] as XmlSchemaParticle;
                    if (!p.ValidateIsEmptiable())
                    {
                        if (raiseError)
                        {
                            error(h, "Invalid particle derivation by restriction was found. There is a base particle which does not have mapped derived particle and is not emptiable.");
                        }
                        return(false);
                    }
                }
            }
            return(true);
        }
 private bool IsGroupBaseFromGroupBase(XmlSchemaGroupBase derivedGroupBase, XmlSchemaGroupBase baseGroupBase,  bool skipEmptableOnly) {
     if (!IsValidOccurrenceRangeRestriction(derivedGroupBase, baseGroupBase)) {
         restrictionErrorMsg = Res.GetString(Res.Sch_GroupBaseRestRangeInvalid);
         return false;
     }
     if (derivedGroupBase.Items.Count > baseGroupBase.Items.Count) {
         restrictionErrorMsg = Res.GetString(Res.Sch_GroupBaseRestNoMap);
         return false;
     }
     int count = 0;
     for (int i = 0; i < baseGroupBase.Items.Count; ++i) {
         XmlSchemaParticle baseParticle = (XmlSchemaParticle)baseGroupBase.Items[i];
         if ((count < derivedGroupBase.Items.Count)
                 && IsValidRestriction((XmlSchemaParticle)derivedGroupBase.Items[count], baseParticle)) {
             count ++;
         }
         else if (skipEmptableOnly && !IsParticleEmptiable(baseParticle)) {
             if (restrictionErrorMsg == null) { //If restriction failed on previous check, do not overwrite error 
                 restrictionErrorMsg = Res.GetString(Res.Sch_GroupBaseRestNotEmptiable);
             }
             return false;
         }
     }
     if (count < derivedGroupBase.Items.Count) {
         return false;
     }
     return true;
 }
        private bool IsElementFromGroupBaseHack(XmlSchemaElement derivedElement, XmlSchemaGroupBase baseGroupBase,  bool skipEmptableOnly) {
            bool isMatched = false;

            foreach(XmlSchemaParticle baseParticle in baseGroupBase.Items) {
                if (!isMatched && IsRangeSimple(baseParticle.MinOccurs, baseParticle.MaxOccurs)) {
                    string minOccursElement = baseParticle.MinOccursString;
                    string maxOccursElement = baseParticle.MaxOccursString;
                    baseParticle.MinOccurs *= baseGroupBase.MinOccurs;
                    if ( baseParticle.MaxOccurs != decimal.MaxValue) {
                        if (baseGroupBase.MaxOccurs == decimal.MaxValue)
                             baseParticle.MaxOccurs = decimal.MaxValue;
                        else 
                             baseParticle.MaxOccurs *= baseGroupBase.MaxOccurs;
                    }
                    isMatched  = IsValidRestriction(derivedElement, baseParticle);
                    baseParticle.MinOccursString = minOccursElement;
                    baseParticle.MaxOccursString = maxOccursElement;
                }
                if (!isMatched && skipEmptableOnly && !IsParticleEmptiable(baseParticle)) {
                    return false;
                }
            }
            return isMatched;
        }
 private bool IsGroupBaseFromAny(XmlSchemaGroupBase derivedGroupBase, XmlSchemaAny baseAny) {
     decimal minOccurs, maxOccurs;
     CalculateEffectiveTotalRange(derivedGroupBase, out minOccurs, out maxOccurs);
     if (!IsValidOccurrenceRangeRestriction(minOccurs, maxOccurs, baseAny.MinOccurs, baseAny.MaxOccurs)) {
         restrictionErrorMsg = Res.GetString(Res.Sch_GroupBaseFromAny2, derivedGroupBase.LineNumber.ToString(NumberFormatInfo.InvariantInfo), derivedGroupBase.LinePosition.ToString(NumberFormatInfo.InvariantInfo), baseAny.LineNumber.ToString(NumberFormatInfo.InvariantInfo), baseAny.LinePosition.ToString(NumberFormatInfo.InvariantInfo));
         return false;
     }
     // eliminate occurrance range check
     string minOccursAny = baseAny.MinOccursString;
     baseAny.MinOccurs = decimal.Zero;
     for (int i = 0; i < derivedGroupBase.Items.Count; ++i) {
         if (!IsValidRestriction((XmlSchemaParticle)derivedGroupBase.Items[i], baseAny)) {
             restrictionErrorMsg = Res.GetString(Res.Sch_GroupBaseFromAny1);
             baseAny.MinOccursString = minOccursAny;
             return false;
         }
     }
     baseAny.MinOccursString = minOccursAny;
     return true;
 }
 private void ExportElementAccessor(XmlSchemaGroupBase group, ElementAccessor accessor, bool repeats, bool valueTypeOptional, string ns)
 {
     if (accessor.Any && (accessor.Name.Length == 0))
     {
         XmlSchemaAny item = new XmlSchemaAny {
             MinOccurs = 0M,
             MaxOccurs = repeats ? 79228162514264337593543950335M : 1M
         };
         if (((accessor.Namespace != null) && (accessor.Namespace.Length > 0)) && (accessor.Namespace != ns))
         {
             item.Namespace = accessor.Namespace;
         }
         group.Items.Add(item);
     }
     else
     {
         XmlSchemaElement element = (XmlSchemaElement) this.elements[accessor];
         int num = (((repeats || accessor.HasDefault) || (!accessor.IsNullable && !accessor.Mapping.TypeDesc.IsValueType)) || valueTypeOptional) ? 0 : 1;
         decimal num2 = (repeats || accessor.IsUnbounded) ? 79228162514264337593543950335M : 1M;
         if (element == null)
         {
             element = new XmlSchemaElement {
                 IsNillable = accessor.IsNullable,
                 Name = accessor.Name
             };
             if (accessor.HasDefault)
             {
                 element.DefaultValue = ExportDefaultValue(accessor.Mapping, accessor.Default);
             }
             if (accessor.IsTopLevelInSchema)
             {
                 this.elements.Add(accessor, element);
                 element.Form = accessor.Form;
                 this.AddSchemaItem(element, accessor.Namespace, ns);
             }
             else
             {
                 element.MinOccurs = num;
                 element.MaxOccurs = num2;
                 XmlSchema schema = this.schemas[ns];
                 if (schema == null)
                 {
                     element.Form = (accessor.Form == XmlSchemaForm.Qualified) ? XmlSchemaForm.None : accessor.Form;
                 }
                 else
                 {
                     element.Form = (accessor.Form == schema.ElementFormDefault) ? XmlSchemaForm.None : accessor.Form;
                 }
             }
             this.ExportElementMapping(element, accessor.Mapping, accessor.Namespace, accessor.Any);
         }
         if (accessor.IsTopLevelInSchema)
         {
             XmlSchemaElement element2 = new XmlSchemaElement {
                 RefName = new XmlQualifiedName(accessor.Name, accessor.Namespace),
                 MinOccurs = num,
                 MaxOccurs = num2
             };
             group.Items.Add(element2);
             this.AddSchemaImport(accessor.Namespace, ns);
         }
         else
         {
             group.Items.Add(element);
         }
     }
 }
Ejemplo n.º 18
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 private void GenerateGroupBase(XmlSchemaGroupBase gBase, InstanceGroup grp)
 {
     foreach(XmlSchemaParticle particle1 in gBase.Items) {
                 GenerateParticle(particle1, false, grp);
     }
 }
 private bool IsGroupBaseFromGroupBase(XmlSchemaGroupBase derivedGroupBase, XmlSchemaGroupBase baseGroupBase, bool skipEmptableOnly)
 {
     if (!this.IsValidOccurrenceRangeRestriction(derivedGroupBase, baseGroupBase))
     {
         this.restrictionErrorMsg = Res.GetString("Sch_GroupBaseRestRangeInvalid");
         return false;
     }
     if (derivedGroupBase.Items.Count > baseGroupBase.Items.Count)
     {
         this.restrictionErrorMsg = Res.GetString("Sch_GroupBaseRestNoMap");
         return false;
     }
     int num = 0;
     for (int i = 0; i < baseGroupBase.Items.Count; i++)
     {
         XmlSchemaParticle baseParticle = (XmlSchemaParticle) baseGroupBase.Items[i];
         if ((num < derivedGroupBase.Items.Count) && this.IsValidRestriction((XmlSchemaParticle) derivedGroupBase.Items[num], baseParticle))
         {
             num++;
         }
         else if (skipEmptableOnly && !this.IsParticleEmptiable(baseParticle))
         {
             if (this.restrictionErrorMsg == null)
             {
                 this.restrictionErrorMsg = Res.GetString("Sch_GroupBaseRestNotEmptiable");
             }
             return false;
         }
     }
     if (num < derivedGroupBase.Items.Count)
     {
         return false;
     }
     return true;
 }
 private bool IsGroupBaseFromAny(XmlSchemaGroupBase derivedGroupBase, XmlSchemaAny baseAny)
 {
     decimal num;
     decimal num2;
     this.CalculateEffectiveTotalRange(derivedGroupBase, out num, out num2);
     if (!this.IsValidOccurrenceRangeRestriction(num, num2, baseAny.MinOccurs, baseAny.MaxOccurs))
     {
         this.restrictionErrorMsg = Res.GetString("Sch_GroupBaseFromAny2", new object[] { derivedGroupBase.LineNumber.ToString(NumberFormatInfo.InvariantInfo), derivedGroupBase.LinePosition.ToString(NumberFormatInfo.InvariantInfo), baseAny.LineNumber.ToString(NumberFormatInfo.InvariantInfo), baseAny.LinePosition.ToString(NumberFormatInfo.InvariantInfo) });
         return false;
     }
     string minOccursString = baseAny.MinOccursString;
     baseAny.MinOccurs = 0M;
     for (int i = 0; i < derivedGroupBase.Items.Count; i++)
     {
         if (!this.IsValidRestriction((XmlSchemaParticle) derivedGroupBase.Items[i], baseAny))
         {
             this.restrictionErrorMsg = Res.GetString("Sch_GroupBaseFromAny1");
             baseAny.MinOccursString = minOccursString;
             return false;
         }
     }
     baseAny.MinOccursString = minOccursString;
     return true;
 }
 private bool IsElementFromGroupBase(XmlSchemaElement derivedElement, XmlSchemaGroupBase baseGroupBase)
 {
     if (baseGroupBase is XmlSchemaSequence)
     {
         XmlSchemaSequence derivedGroupBase = new XmlSchemaSequence {
             MinOccurs = 1M,
             MaxOccurs = 1M
         };
         derivedGroupBase.Items.Add(derivedElement);
         if (this.IsGroupBaseFromGroupBase(derivedGroupBase, baseGroupBase, true))
         {
             return true;
         }
         this.restrictionErrorMsg = Res.GetString("Sch_ElementFromGroupBase1", new object[] { derivedElement.QualifiedName.ToString(), derivedElement.LineNumber.ToString(NumberFormatInfo.InvariantInfo), derivedElement.LinePosition.ToString(NumberFormatInfo.InvariantInfo), baseGroupBase.LineNumber.ToString(NumberFormatInfo.InvariantInfo), baseGroupBase.LinePosition.ToString(NumberFormatInfo.InvariantInfo) });
     }
     else if (baseGroupBase is XmlSchemaChoice)
     {
         XmlSchemaChoice choice = new XmlSchemaChoice {
             MinOccurs = 1M,
             MaxOccurs = 1M
         };
         choice.Items.Add(derivedElement);
         if (this.IsGroupBaseFromGroupBase(choice, baseGroupBase, false))
         {
             return true;
         }
         this.restrictionErrorMsg = Res.GetString("Sch_ElementFromGroupBase2", new object[] { derivedElement.QualifiedName.ToString(), derivedElement.LineNumber.ToString(NumberFormatInfo.InvariantInfo), derivedElement.LinePosition.ToString(NumberFormatInfo.InvariantInfo), baseGroupBase.LineNumber.ToString(NumberFormatInfo.InvariantInfo), baseGroupBase.LinePosition.ToString(NumberFormatInfo.InvariantInfo) });
     }
     else if (baseGroupBase is XmlSchemaAll)
     {
         XmlSchemaAll all = new XmlSchemaAll {
             MinOccurs = 1M,
             MaxOccurs = 1M
         };
         all.Items.Add(derivedElement);
         if (this.IsGroupBaseFromGroupBase(all, baseGroupBase, true))
         {
             return true;
         }
         this.restrictionErrorMsg = Res.GetString("Sch_ElementFromGroupBase3", new object[] { derivedElement.QualifiedName.ToString(), derivedElement.LineNumber.ToString(NumberFormatInfo.InvariantInfo), derivedElement.LinePosition.ToString(NumberFormatInfo.InvariantInfo), baseGroupBase.LineNumber.ToString(NumberFormatInfo.InvariantInfo), baseGroupBase.LinePosition.ToString(NumberFormatInfo.InvariantInfo) });
     }
     return false;
 }
Ejemplo n.º 22
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        private MemberMapping ImportChoiceGroup(XmlSchemaGroupBase group, string identifier, CodeIdentifiers members, CodeIdentifiers membersScope, INameScope elementsScope, string ns, bool groupRepeats, ref bool needExplicitOrder, bool allowDuplicates)
        {
            NameTable choiceElements = new NameTable();
            if (GatherGroupChoices(group, choiceElements, identifier, ns, ref needExplicitOrder, allowDuplicates))
                groupRepeats = true;
            MemberMapping member = new MemberMapping();
            member.Elements = (ElementAccessor[])choiceElements.ToArray(typeof(ElementAccessor));
            Array.Sort(member.Elements, new ElementComparer());

            AddScopeElements(elementsScope, member.Elements, ref needExplicitOrder, allowDuplicates);
            bool duplicateTypes = false;
            bool nullableMismatch = false;
            Hashtable uniqueTypeDescs = new Hashtable(member.Elements.Length);

            for (int i = 0; i < member.Elements.Length; i++)
            {
                ElementAccessor element = member.Elements[i];
                string tdFullName = element.Mapping.TypeDesc.FullName;
                object val = uniqueTypeDescs[tdFullName];
                if (val != null)
                {
                    duplicateTypes = true;
                    ElementAccessor existingElement = (ElementAccessor)val;
                    if (!nullableMismatch && existingElement.IsNullable != element.IsNullable)
                        nullableMismatch = true;
                }
                else
                {
                    uniqueTypeDescs.Add(tdFullName, element);
                }

                ArrayMapping arrayMapping = element.Mapping as ArrayMapping;
                if (arrayMapping != null)
                {
                    if (IsNeedXmlSerializationAttributes(arrayMapping))
                    {
                        // we cannot use ArrayMapping in choice if additional custom 
                        // serialization attributes are needed to serialize it
                        element.Mapping = arrayMapping.TopLevelMapping;
                        element.Mapping.ReferencedByTopLevelElement = false;
                        element.Mapping.ReferencedByElement = true;
                    }
                }
            }
            if (nullableMismatch)
                member.TypeDesc = Scope.GetTypeDesc(typeof(object));
            else
            {
                TypeDesc[] typeDescs = new TypeDesc[uniqueTypeDescs.Count];
                IEnumerator enumerator = uniqueTypeDescs.Values.GetEnumerator();
                for (int i = 0; i < typeDescs.Length; i++)
                {
                    if (!enumerator.MoveNext())
                        break;
                    typeDescs[i] = ((ElementAccessor)enumerator.Current).Mapping.TypeDesc;
                }
                member.TypeDesc = TypeDesc.FindCommonBaseTypeDesc(typeDescs);
                if (member.TypeDesc == null) member.TypeDesc = Scope.GetTypeDesc(typeof(object));
            }

            if (groupRepeats)
                member.TypeDesc = member.TypeDesc.CreateArrayTypeDesc();

            if (membersScope != null)
            {
                member.Name = membersScope.AddUnique(groupRepeats ? "Items" : "Item", member);
                if (members != null)
                {
                    members.Add(member.Name, member);
                }
            }

            if (duplicateTypes)
            {
                member.ChoiceIdentifier = new ChoiceIdentifierAccessor();
                member.ChoiceIdentifier.MemberName = member.Name + "ElementName";
                // we need to create the EnumMapping to store all of the element names
                member.ChoiceIdentifier.Mapping = ImportEnumeratedChoice(member.Elements, ns, member.Name + "ChoiceType");
                member.ChoiceIdentifier.MemberIds = new string[member.Elements.Length];
                ConstantMapping[] constants = ((EnumMapping)member.ChoiceIdentifier.Mapping).Constants;
                for (int i = 0; i < member.Elements.Length; i++)
                {
                    member.ChoiceIdentifier.MemberIds[i] = constants[i].Name;
                }
                MemberMapping choiceIdentifier = new MemberMapping();
                choiceIdentifier.Ignore = true;
                choiceIdentifier.Name = member.ChoiceIdentifier.MemberName;
                if (groupRepeats)
                {
                    choiceIdentifier.TypeDesc = member.ChoiceIdentifier.Mapping.TypeDesc.CreateArrayTypeDesc();
                }
                else
                {
                    choiceIdentifier.TypeDesc = member.ChoiceIdentifier.Mapping.TypeDesc;
                }

                // create element accessor for the choiceIdentifier

                ElementAccessor choiceAccessor = new ElementAccessor();
                choiceAccessor.Name = choiceIdentifier.Name;
                choiceAccessor.Namespace = ns;
                choiceAccessor.Mapping = member.ChoiceIdentifier.Mapping;
                choiceIdentifier.Elements = new ElementAccessor[] { choiceAccessor };

                if (membersScope != null)
                {
                    choiceAccessor.Name = choiceIdentifier.Name = member.ChoiceIdentifier.MemberName = membersScope.AddUnique(member.ChoiceIdentifier.MemberName, choiceIdentifier);
                    if (members != null)
                    {
                        members.Add(choiceAccessor.Name, choiceIdentifier);
                    }
                }
            }
            return member;
        }
Ejemplo n.º 23
0
        private void ImportGroup(XmlSchemaGroupBase group, string identifier, CodeIdentifiers members, CodeIdentifiers membersScope, INameScope elementsScope, string ns, bool mixed, ref bool needExplicitOrder, bool allowDuplicates, bool groupRepeats, bool allowUnboundedElements)
        {
            if (group is XmlSchemaChoice)
                ImportChoiceGroup((XmlSchemaChoice)group, identifier, members, membersScope, elementsScope, ns, groupRepeats, ref needExplicitOrder, allowDuplicates);
            else
                ImportGroupMembers(group, identifier, members, membersScope, elementsScope, ns, groupRepeats, ref mixed, ref needExplicitOrder, allowDuplicates, allowUnboundedElements);

            if (mixed)
            {
                ImportTextMember(members, membersScope, null);
            }
        }
Ejemplo n.º 24
0
        internal bool ValidateSeqRecurseMapSumCommon(XmlSchemaGroupBase baseGroup, ValidationEventHandler h, XmlSchema schema, bool isLax, bool isMapAndSum, bool raiseError)
        {
            int     num  = 0;
            int     num2 = 0;
            decimal num3 = 0m;

            if (baseGroup.CompiledItems.Count == 0 && this.CompiledItems.Count > 0)
            {
                if (raiseError)
                {
                    base.error(h, "Invalid particle derivation by restriction was found. base particle does not contain particles.");
                }
                return(false);
            }
            for (int i = 0; i < this.CompiledItems.Count; i++)
            {
                XmlSchemaParticle xmlSchemaParticle = null;
                while (this.CompiledItems.Count > num)
                {
                    xmlSchemaParticle = (XmlSchemaParticle)this.CompiledItems[num];
                    if (xmlSchemaParticle != XmlSchemaParticle.Empty)
                    {
                        break;
                    }
                    num++;
                }
                if (num >= this.CompiledItems.Count)
                {
                    if (raiseError)
                    {
                        base.error(h, "Invalid particle derivation by restriction was found. Cannot be mapped to base particle.");
                    }
                    return(false);
                }
                while (baseGroup.CompiledItems.Count > num2)
                {
                    XmlSchemaParticle xmlSchemaParticle2 = (XmlSchemaParticle)baseGroup.CompiledItems[num2];
                    if (xmlSchemaParticle2 != XmlSchemaParticle.Empty || !(xmlSchemaParticle2.ValidatedMaxOccurs > 0m))
                    {
                        if (xmlSchemaParticle.ValidateDerivationByRestriction(xmlSchemaParticle2, h, schema, false))
                        {
                            num3 += xmlSchemaParticle2.ValidatedMinOccurs;
                            if (num3 >= baseGroup.ValidatedMaxOccurs)
                            {
                                num3 = 0m;
                                num2++;
                            }
                            num++;
                            break;
                        }
                        if (!isLax && !isMapAndSum && xmlSchemaParticle2.MinOccurs > num3 && !xmlSchemaParticle2.ValidateIsEmptiable())
                        {
                            if (raiseError)
                            {
                                base.error(h, "Invalid particle derivation by restriction was found. Invalid sub-particle derivation was found.");
                            }
                            return(false);
                        }
                        num3 = 0m;
                        num2++;
                    }
                }
            }
            if (this.CompiledItems.Count > 0 && num != this.CompiledItems.Count)
            {
                if (raiseError)
                {
                    base.error(h, "Invalid particle derivation by restriction was found. Extraneous derived particle was found.");
                }
                return(false);
            }
            if (!isLax && !isMapAndSum)
            {
                if (num3 > 0m)
                {
                    num2++;
                }
                for (int j = num2; j < baseGroup.CompiledItems.Count; j++)
                {
                    XmlSchemaParticle xmlSchemaParticle3 = baseGroup.CompiledItems[j] as XmlSchemaParticle;
                    if (!xmlSchemaParticle3.ValidateIsEmptiable())
                    {
                        if (raiseError)
                        {
                            base.error(h, "Invalid particle derivation by restriction was found. There is a base particle which does not have mapped derived particle and is not emptiable.");
                        }
                        return(false);
                    }
                }
            }
            return(true);
        }
Ejemplo n.º 25
0
 private bool IsGroupBaseFromGroupBase(XmlSchemaGroupBase derivedGroupBase, XmlSchemaGroupBase baseGroupBase,  bool skipEmptableOnly) {
     if (!IsValidOccurrenceRangeRestriction(derivedGroupBase, baseGroupBase) || derivedGroupBase.Items.Count > baseGroupBase.Items.Count) {
         return false;
     }
     int count = 0;
     for (int i = 0; i < baseGroupBase.Items.Count; ++i) {
         XmlSchemaParticle baseParticle = (XmlSchemaParticle)baseGroupBase.Items[i];
         if ((count < derivedGroupBase.Items.Count) && IsValidRestriction((XmlSchemaParticle)derivedGroupBase.Items[count], baseParticle)) {
             count ++;
         }
         else if (skipEmptableOnly && !IsParticleEmptiable(baseParticle)) {
             return false;
         }
     }
     if (count < derivedGroupBase.Items.Count) {
         return false;
     }
     return true;
 }
Ejemplo n.º 26
0
			public XmlSchemaObjectContainer (XmlSchemaGroupBase group)
			{
				_xmlSchemaObject = group;
			}
Ejemplo n.º 27
0
 public ParticleData(XmlSchemaGroupBase groupBase, GroupingInfo gInfo, int index)
 {
     currentGroupBase = groupBase;
     currentGroupingInfo = gInfo;
     currentIndex = index;
 }
Ejemplo n.º 28
0
        /*
         * Pass1. Collect info on classes, collections (List<> types), and any local enumerations. 
         */
        private void ParseGroupBasePass1(XmlSchemaGroupBase groupBase, String dotnetClassName, ArrayList childClasses, ArrayList parentClassStack, string parentNamespace, string currentNamespace)
        {
            for (int i = 0; i < groupBase.Items.Count; i++)
            {
                if (groupBase.Items[i] is XmlSchemaElement)
                {
                    XmlSchemaElement elementRef = (XmlSchemaElement)groupBase.Items[i];
                    XmlSchemaElement element = (XmlSchemaElement)schema.Elements[elementRef.QualifiedName];
                    if (element == null) element = elementRef;
                    string ns = element.QualifiedName.Namespace != "" ? element.QualifiedName.Namespace : parentNamespace;

                    if (element.ElementType is XmlSchemaComplexType && element.SchemaTypeName.Namespace != Globals.XSD_NAMESPACE)
                    {
                        XmlSchemaComplexType elementComplex = (XmlSchemaComplexType)element.ElementType;

                        string childComplexTypeName = "";  // a nested complexType, who's name may not be unique in the schema

                        // The complex type is locally defined so a child class needs to be created.  
                        if ((element == elementRef) && (schema.SchemaTypes[elementComplex.QualifiedName] == null))
                        {
                            childComplexTypeName = CalculateNestedChildTypeName(element.Name, globalComplexTypeClasses, parentClassStack);
                            childClasses.Add(new ChildComplexType(elementComplex, element.Name, childComplexTypeName, ns, element.QualifiedName));
                            globalComplexTypeClasses.Add(childComplexTypeName, childComplexTypeName);

                            // local complexType elements can repeat within a namespace
                            string parentList = "";
                            foreach (string s in parentClassStack)
                            {
                                parentList += s;
                            }
                            globalQualifiedComplexTypeClasses.Add(element.QualifiedName + parentList, childComplexTypeName);
                        }

                        // For "unbounded" types -- check to see if this fits the IEnumerator pattern.  Collect support for IEnumerator here.
                        if (elementRef.MaxOccurs > 1 || groupBase.MaxOccurs > 1)
                        {
                            // If this is the only element in a contained ComplexType, and this element
                            //   is unbounded, then we can support IEnumerator on the contained class
                            //   so we can easilly enumerate through the contained child collection.
                            string enumerableClass = dotnetClassName;
                            if (childComplexTypeName != "")
                                enumerableClass = childComplexTypeName;
                            if (groupBase.Items.Count == 1 && !enumerableClasses.ContainsKey(enumerableClass))
                            {
                                // enumerable class

                                ArrayList values = new ArrayList();
                                values.Add(element.Name);  //name

                                // type
                                if (childComplexTypeName != "")
                                {
                                    values.Add(childComplexTypeName);  // nested local complextype
                                }
                                else if ((schema.Elements[elementRef.QualifiedName] != null) && (elementComplex.Name != null && elementComplex.Name != ""))
                                {
                                    string q = AddQualifiedNamespaceReference(element.Name, element.QualifiedName.Namespace, currentNamespace, GlobalXsdType.Element);
                                    values.Add(q);  //global element who's name and type are set
                                }
                                else if (elementComplex.Name != null && elementComplex.Name != "")
                                {
                                    string q = AddQualifiedNamespaceReference(elementComplex.Name, elementComplex.QualifiedName.Namespace, currentNamespace, GlobalXsdType.ComplexType);
                                    values.Add(q);     // global named schema type
                                }
                                else
                                {
                                    string q = AddQualifiedNamespaceReference(element.Name, element.QualifiedName.Namespace, currentNamespace, GlobalXsdType.Element);
                                    values.Add(q);  // global element complextype
                                }

                                enumerableClasses.Add(dotnetClassName, values);
                            }
                        }

                        // collect support for abstract classes
                        if (elementComplex.IsAbstract)
                        {
                            ArrayList abstractClasses = null;
                            if (classesReferencingAbstractTypes[dotnetClassName] == null)
                            {
                                abstractClasses = new ArrayList();
                                abstractClasses.Add(elementComplex.QualifiedName);
                                classesReferencingAbstractTypes.Add(dotnetClassName, abstractClasses);
                            }
                            else
                            {
                                abstractClasses = (ArrayList)classesReferencingAbstractTypes[dotnetClassName];
                                abstractClasses.Add(elementComplex.QualifiedName);
                            }
                        }
                    }
                    else
                    {
                        // not a ComplexType

                        string xsdTypeName = element.SchemaTypeName.Name;
                        string clrTypeName = code.FrameworkTypeMapping(xsdTypeName);

                        // build SimpleType enumeration if needed
                        if (element.ElementType is XmlSchemaSimpleType)
                        {
                            XmlSchemaSimpleType simpleType = (XmlSchemaSimpleType)element.ElementType;

                            if (Globals.globalSeparateImportedNamespaces)
                            {
                                // if this is an external imported simpleType element, then it get's added into its appropriate .net source file
                                if (simpleType.QualifiedName.Namespace == "" || (element.QualifiedName.Namespace == currentNamespace && simpleType.QualifiedName.Namespace == currentNamespace))
                                    ParseEnumeration1(simpleType, element.Name);
                            }
                            else
                                ParseEnumeration1(simpleType, element.Name);
                        }

                        // For "unbounded" types, add them to collectionClasses container.  We will build
                        //  special ArrayList subclasses for each of these later.
                        if (elementRef.MaxOccurs > 1 || groupBase.MaxOccurs > 1)
                        {
                            if (element.ElementType is XmlSchemaSimpleType)
                            {
                                XmlSchemaSimpleType simpleType = (XmlSchemaSimpleType)element.ElementType;

                                // if this is the only element in a contained ComplexType, and this element
                                //   is unbounded, then we can implement IEnumerator on the contained class
                                //   so we can easilly enumerate through the child collection.
                                if (groupBase.Items.Count == 1 && !enumerableClasses.ContainsKey(dotnetClassName))
                                {
                                    ArrayList values = new ArrayList();
                                    values.Add(element.Name);  //name
                                    if (IsEnumeration(simpleType))
                                    {
                                        if (simpleType.Name != null)
                                        {
                                            // colinco: 2005-07-05: Enums referenced from external .net namespace aren't prefixed with the .net namespace in ArrayLists or enumerable classes. 
                                            string n = AddQualifiedNamespaceReference(simpleType.QualifiedName.Name, simpleType.QualifiedName.Namespace, currentNamespace, GlobalXsdType.Enum);

                                            values.Add(n);
                                        }
                                        else // simpleType locally defined inline within an element
                                            values.Add(element.Name);  //type
                                    }
                                    else
                                        values.Add(simpleType.Datatype.ValueType.FullName);  //type
                                    enumerableClasses.Add(dotnetClassName, values);
                                }
                            }
                            else
                            {
                                // if this is the only element in a contained ComplexType, and this element
                                //   is unbounded, then we can implement IEnumerator on the contained class
                                //   so we can easilly enumerate through the child collection.
                                if (groupBase.Items.Count == 1 && !enumerableClasses.ContainsKey(dotnetClassName))
                                {
                                    ArrayList values = new ArrayList();
                                    values.Add(element.Name);  //name
                                    values.Add(clrTypeName);  //type
                                    enumerableClasses.Add(dotnetClassName, values);
                                }
                            }
                        }
                    }
                }
                else if (groupBase.Items[i] is XmlSchemaAny)
                {
                    //XmlSchemaAny any = (XmlSchemaAny) groupBase.Items[i];
                    // do nothing for xsd:any.  Add a special array instead of a collection.
                }
                else if (groupBase.Items[i] is XmlSchemaGroupRef)
                {
                    XmlSchemaGroup group = (XmlSchemaGroup)schema.Groups[((XmlSchemaGroupRef)groupBase.Items[i]).RefName];
                    ParseGroupBasePass1(group.Particle, dotnetClassName, childClasses, parentClassStack, parentNamespace, currentNamespace);
                }
                else if (groupBase.Items[i] is XmlSchemaGroupBase)
                {
                    // Particle inside a particle : ie. <xsd:sequence> <xsd:choice/> </xsd:sequence>
                    ParseGroupBasePass1((XmlSchemaGroupBase)groupBase.Items[i], dotnetClassName, childClasses, parentClassStack, parentNamespace, currentNamespace);
                }
            }
        }
 private void ExportElementAccessors(XmlSchemaGroupBase group, ElementAccessor[] accessors, bool repeats, bool valueTypeOptional, string ns)
 {
     if (accessors.Length != 0)
     {
         if (accessors.Length == 1)
         {
             this.ExportElementAccessor(group, accessors[0], repeats, valueTypeOptional, ns);
         }
         else
         {
             XmlSchemaChoice choice = new XmlSchemaChoice {
                 MaxOccurs = repeats ? 79228162514264337593543950335M : 1M,
                 MinOccurs = repeats ? 0 : 1
             };
             for (int i = 0; i < accessors.Length; i++)
             {
                 this.ExportElementAccessor(choice, accessors[i], false, valueTypeOptional, ns);
             }
             if (choice.Items.Count > 0)
             {
                 group.Items.Add(choice);
             }
         }
     }
 }
 private bool IsElementFromGroupBase(XmlSchemaElement derivedElement, XmlSchemaGroupBase baseGroupBase, bool skipEmptableOnly)
 {
     bool flag = false;
     for (int i = 0; i < baseGroupBase.Items.Count; i++)
     {
         XmlSchemaParticle baseParticle = (XmlSchemaParticle) baseGroupBase.Items[i];
         if (!flag)
         {
             string minOccursString = baseParticle.MinOccursString;
             string maxOccursString = baseParticle.MaxOccursString;
             baseParticle.MinOccurs *= baseGroupBase.MinOccurs;
             if (baseParticle.MaxOccurs != 79228162514264337593543950335M)
             {
                 if (baseGroupBase.MaxOccurs == 79228162514264337593543950335M)
                 {
                     baseParticle.MaxOccurs = 79228162514264337593543950335M;
                 }
                 else
                 {
                     baseParticle.MaxOccurs *= baseGroupBase.MaxOccurs;
                 }
             }
             flag = this.IsValidRestriction(derivedElement, baseParticle);
             baseParticle.MinOccursString = minOccursString;
             baseParticle.MaxOccursString = maxOccursString;
         }
         else if (skipEmptableOnly && !this.IsParticleEmptiable(baseParticle))
         {
             return false;
         }
     }
     return flag;
 }
 private bool IsElementFromGroupBase(XmlSchemaElement derivedElement, XmlSchemaGroupBase baseGroupBase,  bool skipEmptableOnly) {
     if (!IsRangeSimple(baseGroupBase.MinOccurs, baseGroupBase.MaxOccurs) || !IsRangeSimple(derivedElement.MinOccurs, derivedElement.MaxOccurs)) {
         return IsElementFromGroupBase(derivedElement, baseGroupBase); //SPEC COMPLIANT
     }
     else {
         //Base partilce's and Derived Element's range is simple
         //If all particles in baseParticle also have simple ranges, then can use our algorithm
         //So that we dont break common cases that we used to accept earlier 
         //Example Choice -> Element
         if (IsElementFromGroupBaseHack(derivedElement, baseGroupBase, skipEmptableOnly)) {
             return true;
         }
         else { //Fall back to regular checking
             return IsElementFromGroupBase(derivedElement, baseGroupBase);
         }
     }
 }
 private bool IsGroupBaseFromGroupBase(XmlSchemaGroupBase derivedGroupBase, XmlSchemaGroupBase baseGroupBase, bool skipEmptableOnly)
 {
     if (!this.IsValidOccurrenceRangeRestriction(derivedGroupBase, baseGroupBase) || (derivedGroupBase.Items.Count > baseGroupBase.Items.Count))
     {
         return false;
     }
     int num = 0;
     for (int i = 0; i < baseGroupBase.Items.Count; i++)
     {
         XmlSchemaParticle baseParticle = (XmlSchemaParticle) baseGroupBase.Items[i];
         if ((num < derivedGroupBase.Items.Count) && this.IsValidRestriction((XmlSchemaParticle) derivedGroupBase.Items[num], baseParticle))
         {
             num++;
         }
         else if (skipEmptableOnly && !this.IsParticleEmptiable(baseParticle))
         {
             return false;
         }
     }
     if (num < derivedGroupBase.Items.Count)
     {
         return false;
     }
     return true;
 }
 private bool IsElementFromGroupBase(XmlSchemaElement derivedElement, XmlSchemaGroupBase baseGroupBase) {
     if (baseGroupBase is XmlSchemaSequence) {
         XmlSchemaSequence virtualSeq = new XmlSchemaSequence();
         virtualSeq.MinOccurs = 1;
         virtualSeq.MaxOccurs = 1;
         virtualSeq.Items.Add(derivedElement);
         if (IsGroupBaseFromGroupBase((XmlSchemaGroupBase)virtualSeq, baseGroupBase, true)) {
             return true;
         }
         restrictionErrorMsg = Res.GetString(Res.Sch_ElementFromGroupBase1, derivedElement.QualifiedName.ToString(), derivedElement.LineNumber.ToString(NumberFormatInfo.InvariantInfo), derivedElement.LinePosition.ToString(NumberFormatInfo.InvariantInfo), baseGroupBase.LineNumber.ToString(NumberFormatInfo.InvariantInfo), baseGroupBase.LinePosition.ToString(NumberFormatInfo.InvariantInfo));
     }
     else if (baseGroupBase is XmlSchemaChoice) {
         XmlSchemaChoice virtualChoice = new XmlSchemaChoice();
         virtualChoice.MinOccurs = 1;
         virtualChoice.MaxOccurs = 1;
         virtualChoice.Items.Add(derivedElement);
         if (IsGroupBaseFromGroupBase((XmlSchemaGroupBase)virtualChoice, baseGroupBase, false)) {
             return true;
         }
         restrictionErrorMsg = Res.GetString(Res.Sch_ElementFromGroupBase2, derivedElement.QualifiedName.ToString(), derivedElement.LineNumber.ToString(NumberFormatInfo.InvariantInfo), derivedElement.LinePosition.ToString(NumberFormatInfo.InvariantInfo), baseGroupBase.LineNumber.ToString(NumberFormatInfo.InvariantInfo), baseGroupBase.LinePosition.ToString(NumberFormatInfo.InvariantInfo));
     }
     else if (baseGroupBase is XmlSchemaAll) {
         XmlSchemaAll virtualAll = new XmlSchemaAll();
         virtualAll.MinOccurs = 1;
         virtualAll.MaxOccurs = 1;
         virtualAll.Items.Add(derivedElement);
         if (IsGroupBaseFromGroupBase((XmlSchemaGroupBase)virtualAll, baseGroupBase, true)) {
             return true;
         }
         restrictionErrorMsg = Res.GetString(Res.Sch_ElementFromGroupBase3, derivedElement.QualifiedName.ToString(), derivedElement.LineNumber.ToString(NumberFormatInfo.InvariantInfo), derivedElement.LinePosition.ToString(NumberFormatInfo.InvariantInfo), baseGroupBase.LineNumber.ToString(NumberFormatInfo.InvariantInfo), baseGroupBase.LinePosition.ToString(NumberFormatInfo.InvariantInfo));
     }
     return false;
 }
Ejemplo n.º 34
0
        /*
         * Pass0. Collect references to globally defined complextypes and simpletypes. 
         */
        private void ParseGroupBasePass0(XmlSchemaGroupBase groupBase, String dotnetClassName, ArrayList childClasses, string parentNamespace, string currentNamespace, ElementsSubset es)
        {
            for (int i = 0; i < groupBase.Items.Count; i++)
            {
                if (groupBase.Items[i] is XmlSchemaElement)
                {
                    XmlSchemaElement elementRef = (XmlSchemaElement)groupBase.Items[i];
                    XmlSchemaElement element = (XmlSchemaElement)schema.Elements[elementRef.QualifiedName];
                    if (element == null) element = elementRef;
                    string ns = element.QualifiedName.Namespace != "" ? element.QualifiedName.Namespace : parentNamespace;

                    if (element.ElementType is XmlSchemaComplexType && element.SchemaTypeName.Namespace != Globals.XSD_NAMESPACE)
                    {
                        XmlSchemaComplexType elementComplex = (XmlSchemaComplexType)element.ElementType;

                        // The complex type is locally defined so a child class needs to be created.  
                        if ((element == elementRef) && (schema.SchemaTypes[elementComplex.QualifiedName] == null))
                        {
                            // recure these later
                            childClasses.Add(new ChildComplexType(elementComplex, element.Name, "", ns, element.QualifiedName));
                        }

                        if ((schema.Elements[elementRef.QualifiedName] != null) && (elementComplex.Name != null && elementComplex.Name != ""))
                        {
                            // global element who's name and type are set.  Both element and complextype are named.
                            if (!es.Elements.ContainsKey(elementRef.QualifiedName.Name))
                            {
                                // add element and recure it's complextype
                                es.Elements.Add(elementRef.QualifiedName.Name, elementRef.QualifiedName.Name);
                                if (!es.ComplexTypes.ContainsKey(elementComplex.QualifiedName.Name) && !string.IsNullOrEmpty(elementComplex.QualifiedName.Name))
                                {
                                    es.ComplexTypes.Add(elementComplex.QualifiedName.Name, elementComplex.QualifiedName.Name);
                                    ParseComplexTypePass0(elementComplex, elementComplex.QualifiedName.Name, elementComplex.QualifiedName, elementComplex.QualifiedName.Namespace, es);
                                }
                            }

                        }
                        else if (elementComplex.Name != null && elementComplex.Name != "")
                        {
                            // globally defined named schema type
                            if (!es.ComplexTypes.ContainsKey(elementComplex.QualifiedName.Name))
                            {
                                es.ComplexTypes.Add(elementComplex.QualifiedName.Name, elementComplex.QualifiedName.Name);
                                ParseComplexTypePass0(elementComplex, elementComplex.QualifiedName.Name, elementComplex.QualifiedName, elementComplex.QualifiedName.Namespace, es);
                            }
                        }
                        else
                        {
                            // global element complexType -- element is named, but complex type is not
                            if (!es.Elements.ContainsKey(elementRef.QualifiedName.Name))
                            {
                                // add element and recure it's complextype
                                es.Elements.Add(elementRef.QualifiedName.Name, elementRef.QualifiedName.Name);
                                ParseComplexTypePass0(elementComplex, elementRef.QualifiedName.Name, elementRef.QualifiedName, elementRef.QualifiedName.Namespace, es);
                            }
                        }
                    }
                    else
                    {
                        // not a ComplexType

                        string xsdTypeName = element.SchemaTypeName.Name;
                        string clrTypeName = code.FrameworkTypeMapping(xsdTypeName);

                        // build SimpleType enumeration if needed
                        if (element.ElementType is XmlSchemaSimpleType)
                        {
                            XmlSchemaSimpleType simpleType = (XmlSchemaSimpleType)element.ElementType;
                            ParseEnumeration0(simpleType, element.Name, es);
                        }
                    }
                }
                else if (groupBase.Items[i] is XmlSchemaGroupRef)
                {
                    XmlSchemaGroup group = (XmlSchemaGroup)schema.Groups[((XmlSchemaGroupRef)groupBase.Items[i]).RefName];
                    ParseGroupBasePass0(group.Particle, dotnetClassName, childClasses, parentNamespace, currentNamespace, es);
                }
                else if (groupBase.Items[i] is XmlSchemaGroupBase)
                {
                    // Particle inside a particle : ie. <xsd:sequence> <xsd:choice/> </xsd:sequence>
                    ParseGroupBasePass0((XmlSchemaGroupBase)groupBase.Items[i], dotnetClassName, childClasses, parentNamespace, currentNamespace, es);
                }
            }
        }
Ejemplo n.º 35
0
 internal bool ValidateRecurse(XmlSchemaGroupBase baseGroup,
                               ValidationEventHandler h, XmlSchema schema, bool raiseError)
 {
     return(ValidateSeqRecurseMapSumCommon(baseGroup, h, schema, false, false, raiseError));
 }
		private void ImportColumnGroupBase (XmlSchemaElement parent, XmlSchemaGroupBase gb)
		{
			foreach (XmlSchemaParticle p in gb.Items) {
				XmlSchemaElement el = p as XmlSchemaElement;
				if (el != null)
					ImportColumnElement (parent, el);
				else if (p is XmlSchemaGroupBase)
					ImportColumnGroupBase (parent, (XmlSchemaGroupBase) p);
				// otherwise p is xs:any
			}
		}
Ejemplo n.º 37
0
        /*
         * Add class fields for xsd:all, xsd:choice and xsd:sequence xml elements.
         * These will either be native CLR typed fields or other schema classes.
         */
        private void ParseGroupBasePass2(XmlSchemaGroupBase groupBase, String className, ArrayList ctorList,
            ArrayList childClasses, ArrayList parentClassStack, Hashtable dotnetFieldList, string parentNamespace, Hashtable classReferencesAdded)
        {
            if (classReferencesAdded == null) classReferencesAdded = new Hashtable();  // avoid duplicate complexType field references within a .net class

            for (int i = 0; i < groupBase.Items.Count; i++)
            {
                decimal maxOccurs = groupBase.MaxOccurs;

                if (groupBase.Items[i] is XmlSchemaElement)
                {
                    XmlSchemaElement elementRef = (XmlSchemaElement)groupBase.Items[i];
                    XmlSchemaElement element = (XmlSchemaElement)schema.Elements[elementRef.QualifiedName];
                    if (element == null) element = elementRef;
                    maxOccurs = elementRef.MaxOccurs > maxOccurs ? elementRef.MaxOccurs : maxOccurs;

                    // for unqualified elements or attributes, element/attribute.QualifiedName.Namespace will be empty -- so use parentNamespace
                    string ns = element.QualifiedName.Namespace != "" ? element.QualifiedName.Namespace : parentNamespace;

                    if (element.ElementType is XmlSchemaComplexType && element.SchemaTypeName.Namespace != Globals.XSD_NAMESPACE)
                    {
                        // this will generate to a class in code

                        string dotnetTypeName = "";
                        XmlSchemaComplexType elementComplex = (XmlSchemaComplexType)element.ElementType;

                        // avoid duplicate references for the same type (allowed in xsd -- not in .net)
                        string fname = element.Name;
                        if (classReferencesAdded.ContainsKey(fname))
                        {
                            continue;
                            //fname = element.Name + "2";
                            //while (classReferencesAdded.ContainsKey(fname))
                            //    fname = fname + "2";
                        }
                        else
                            classReferencesAdded.Add(element.Name, element.Name);

                        // The complex type is locally defined so a child class needs to be created.  
                        if ((element == elementRef) && (schema.SchemaTypes[elementComplex.QualifiedName] == null))
                        {
                            // The complex type is locally defined.  Locally scoped complexTypes may not be unique 
                            string parentList = "";
                            foreach (string s in parentClassStack)
                            {
                                parentList += s;
                            }
                            dotnetTypeName = (string)globalQualifiedComplexTypeClasses[element.QualifiedName + parentList];
                            childClasses.Add(new ChildComplexType(elementComplex, element.Name, dotnetTypeName, ns, element.QualifiedName));

                            dotnetTypeName = LanguageBase.ReplaceInvalidChars(dotnetTypeName);
                            code.ClassComplexTypeFieldCode(outStream, element.Name, fname, dotnetTypeName, dotnetTypeName, className,
                                maxOccurs, 1, elementFormDefault, ns, element.IsNillable, false);
                        }
                        else  // not a locally defined complexType 
                        {
                            // The complexType is either globally defined at the <xsd:schema> level,
                            // or it's tied to a globally defined element.  In the case of the 
                            // globally defined complexType at the <xsd:schema> level, elementComplex.Name 
                            // will not be null because the complexType will have name.  In that case 
                            // we use the complexType name for the class name.

                            string qualifiedTypeName = "";

                            if ((elementComplex.QualifiedName.Name == null || elementComplex.QualifiedName.Name == "") &&
                                (elementRef.QualifiedName.Name != null && elementRef.QualifiedName.Name != ""))
                            {
                                // global element
                                ns = elementRef.QualifiedName.Namespace;  // element's referenced namespace is used
                                //qualifiedTypeName = (string) globalQualifiedComplexTypeClasses[elementRef.QualifiedName];
                                qualifiedTypeName = GlobalElementToClrMap(elementRef.QualifiedName);
                                dotnetTypeName = AddQualifiedNamespaceReference(element.Name, ns, parentNamespace, GlobalXsdType.Element);
                            }
                            else if ((schema.Elements[elementRef.QualifiedName] != null) && (elementComplex.QualifiedName.Name != null && elementComplex.QualifiedName.Name != ""))
                            {
                                // An element who's "ref" attribute points to a global typed element (name and type are set and has no schema children)
                                //  use the ref in this case -- and not the type
                                ns = elementRef.QualifiedName.Namespace;  // element's referenced namespace is used
                                //qualifiedTypeName = (string) globalQualifiedComplexTypeClasses[elementRef.QualifiedName];
                                qualifiedTypeName = GlobalElementToClrMap(elementRef.QualifiedName);
                                dotnetTypeName = AddQualifiedNamespaceReference(element.Name, ns, parentNamespace, GlobalXsdType.Element);
                            }
                            else if (elementRef.QualifiedName.Name != null && elementRef.QualifiedName.Name != "")
                            {
                                // named complexType
                                ns = parentNamespace;  //elements of a "type" take their parent namespace.  The children go into the "types" namespace.
                                qualifiedTypeName = (string)globalQualifiedComplexTypeClasses[elementComplex.QualifiedName];
                                dotnetTypeName = elementComplex.Name;

                                if (elementComplex.QualifiedName.Namespace != ns && elementComplex.QualifiedName.Namespace != null)
                                    dotnetTypeName = AddQualifiedNamespaceReference(dotnetTypeName, elementComplex.QualifiedName.Namespace, parentNamespace, GlobalXsdType.ComplexType);
                                else
                                    dotnetTypeName = AddQualifiedNamespaceReference(dotnetTypeName, ns, parentNamespace, GlobalXsdType.ComplexType);
                            }
                            else
                            {
                                // shouldn't happen
                                throw new ArgumentException("An element points to a global type or global element that isn't properly qualified");
                            }

                            string collectionContainedType = "";
                            if (maxOccurs > 1)
                            {
                                // collections are always local to the namespace
                                collectionContainedType = dotnetTypeName; // fully namespace referenced with namesapce
                                dotnetTypeName = qualifiedTypeName;  // reference removed for collection class
                            }

                            dotnetTypeName = LanguageBase.ReplaceInvalidChars(dotnetTypeName);
                            code.ClassComplexTypeFieldCode(outStream, element.Name, fname, dotnetTypeName, collectionContainedType, className,
                                maxOccurs, 1, elementFormDefault, ns, element.IsNillable, elementComplex.IsAbstract);
                        }

                        // If the subelement is required, then force it's creation through constructor and 
                        //  a special MakeSchemaCompliant method.

                        ClassConstructor ctor = new ClassConstructor();
                        if (elementRef.MinOccurs > 0 && element.MinOccurs > 0)
                            ctor.required = true;   // required child complex types
                        else
                            ctor.required = false;  // non required child complex tyes

                        if (maxOccurs > 1)
                        {
                            ctor.defaultValue = element.Name;
                            ctor.fieldName = dotnetTypeName;

                            if (elementComplex.IsAbstract)
                                ctor.datatype = CtorDatatypeContext.PropertyCollectionAbstractComplexType;
                            else
                                ctor.datatype = CtorDatatypeContext.PropertyCollectionComplexType;
                        }
                        else
                        {
                            ctor.defaultValue = element.Name;
                            ctor.fieldName = dotnetTypeName;
                            ctor.datatype = CtorDatatypeContext.Property;
                        }
                        ctorList.Add(ctor);
                    }
                    else  // not a ComplexType -- so this will be a leaf-node class field in code
                    {
                        string dotnetElementName = CalculateUniqueTypeOrFieldName(element.Name, "", dotnetFieldList);
                        dotnetFieldList.Add(dotnetElementName, element.QualifiedName);

                        if (element.ElementType is XmlSchemaSimpleType)
                        {
                            ParseElementSimpleType(element, elementRef, maxOccurs, dotnetElementName, ctorList, parentNamespace);
                        }
                        else
                        {
                            string xsdTypeName = element.SchemaTypeName.Name;
                            string clrTypeName = code.FrameworkTypeMapping(xsdTypeName);

                            clrTypeName = LanguageBase.ReplaceInvalidChars(clrTypeName);
                            code.ClassElementFieldCode(outStream, clrTypeName, xsdTypeName,
                                element.Name, dotnetElementName, maxOccurs, 1, elementFormDefault, false, ns,
                                element.IsNillable);

                            BuildConstructorList(element.DefaultValue, element.FixedValue, (elementRef.MinOccurs > 0 && element.MinOccurs > 0),
                                maxOccurs, dotnetElementName, clrTypeName, element.Name, ctorList, false);
                        }
                    }
                }
                else if (groupBase.Items[i] is XmlSchemaAny)
                {
                    XmlSchemaAny any = (XmlSchemaAny)groupBase.Items[i];

                    string dotnetElementName = CalculateUniqueTypeOrFieldName("Any", "", dotnetFieldList);
                    dotnetFieldList.Add(dotnetElementName, "Any");

                    string ns = CalculateAnyNamespace(any.Namespace, parentNamespace);
                    code.ClassElementFieldCode(outStream, "System.Xml.XmlElement", "", "Any", dotnetElementName, any.MaxOccurs, 1, elementFormDefault,
                        false, ns, false);
                }
                else if (groupBase.Items[i] is XmlSchemaGroupRef)
                {
                    XmlSchemaGroup group = (XmlSchemaGroup)schema.Groups[((XmlSchemaGroupRef)groupBase.Items[i]).RefName];
                    ParseGroupBasePass2(group.Particle, className, ctorList, childClasses, parentClassStack, dotnetFieldList, parentNamespace, classReferencesAdded);
                }
                else if (groupBase.Items[i] is XmlSchemaGroupBase)
                {
                    // Particle inside a particle : ie. <xsd:sequence> <xsd:choice/> </xsd:sequence>
                    ParseGroupBasePass2((XmlSchemaGroupBase)groupBase.Items[i], className, ctorList, childClasses, parentClassStack, dotnetFieldList, parentNamespace, classReferencesAdded);
                }
            }
        }
Ejemplo n.º 38
0
        /// <summary>
        /// Parses xs:sequence and xs:choice elements in the schema
        /// </summary>
        /// <param name="group"></param>
        /// <returns>A list of direct children elements references</returns>
        private RecursiveChildren ParseGroupBase(XmlSchemaGroupBase group)
        {
            RecursiveChildren result;
              if (groupCache.TryGetValue(group, out result))
              {
            log.WriteLine("Used cache: {0}", GetParticleDesc(group));
            return result;
              }

              log.WriteLine("Parsing group {0}", GetParticleDesc(group));
              result = new RecursiveChildren(group);
              groupCache.Add(group, result);
              foreach (XmlSchemaParticle particle in group.Items)
              {
            using (log.Indent())
            {
              if (particle is XmlSchemaGroupBase)
              {
            XmlSchemaGroupBase subGroup = (XmlSchemaGroupBase)particle;
            result.dependencies.Add(subGroup, ParseGroupBase(subGroup));
              }
              else if (particle is XmlSchemaElement)
              {
            result.children.Add(ParseElement((XmlSchemaElement)particle));
              }
              else if (particle is XmlSchemaAny)
              {
              }
              else
              {
            throw new NotImplementedException(particle.GetType().Name);
              }
            }
              }
              return result;
        }
Ejemplo n.º 39
0
 internal void SetParticle(XmlSchemaGroupBase value) {
      particle = value; 
 }
Ejemplo n.º 40
0
 internal void SetParticle(XmlSchemaGroupBase value)
 {
     particle = value;
 }
 private bool IsGroupBaseFromAny(XmlSchemaGroupBase derivedGroupBase, XmlSchemaAny baseAny)
 {
     decimal num;
     decimal num2;
     this.CalculateEffectiveTotalRange(derivedGroupBase, out num, out num2);
     if (!this.IsValidOccurrenceRangeRestriction(num, num2, baseAny.MinOccurs, baseAny.MaxOccurs))
     {
         return false;
     }
     string minOccursString = baseAny.MinOccursString;
     baseAny.MinOccurs = 0M;
     for (int i = 0; i < derivedGroupBase.Items.Count; i++)
     {
         if (!this.IsValidRestriction((XmlSchemaParticle) derivedGroupBase.Items[i], baseAny))
         {
             baseAny.MinOccursString = minOccursString;
             return false;
         }
     }
     baseAny.MinOccursString = minOccursString;
     return true;
 }
Ejemplo n.º 42
0
        void ExportElementAccessors(XmlSchemaGroupBase group, ElementAccessor[] accessors, bool repeats, bool valueTypeOptional, string ns) {
            if (accessors.Length == 0) return;
            if (accessors.Length == 1) {
                ExportElementAccessor(group, accessors[0], repeats, valueTypeOptional, ns);
            }
            else {
                XmlSchemaChoice choice = new XmlSchemaChoice();
                choice.MaxOccurs = repeats ? decimal.MaxValue : 1;
                choice.MinOccurs = repeats ? 0 : 1;
                for (int i = 0; i < accessors.Length; i++)
                    ExportElementAccessor(choice, accessors[i], false, valueTypeOptional, ns);

                if (choice.Items.Count > 0) group.Items.Add(choice);
            }
        }
        private void roopItem(XmlSchemaGroupBase xgb, bool tf, string choiceStr)
        {
            bool choice = tf;
            bool isVector = false;
            string includePathStr;
            string cStr = choiceStr; 

            if (xgb is XmlSchemaChoice)
            {
                choice = true;
                if (xgb.Id == null)
                {
                    choiceStr = "choiceStr_" + m_ClassGen.ChoiceStr.Count;
                    
                }
                else 
                {
                    choiceStr = "choiceStr_" + xgb.Id;
                }

                m_ClassGen.ChoiceStr.Add(choiceStr);
                m_ClassGen.ChoiceStrMember.Add(choiceStr, new List<string>());
                
            }

            foreach (XmlSchemaObject item in xgb.Items)
            {
                isVector = false;
                

                if (item is XmlSchemaElement)
                {
                    XmlSchemaElement itemCast = item as XmlSchemaElement;
                    
                    if (itemCast.RefName.IsEmpty)
                    {
                        #region directDef
                        if (choice) { m_ClassGen.ChoiceStrMember[choiceStr].Add(itemCast.Name); }

                        if (itemCast.SchemaTypeName.IsEmpty)
                        {
                            includePathStr = includePath["boolean"];

                            m_MemberVariable.Add(new Variable("boolean",
                                                              itemCast.Name,
                                                              includePathStr,
                                                              isVector,
                                                              choice));
                        }
                        else
                        {
                            decimal aa = itemCast.MaxOccurs;
                            if (itemCast.MaxOccurs > 1) { isVector = true; }

                            includePathStr = includePath[itemCast.SchemaTypeName.Name];

                            m_MemberVariable.Add(new Variable(itemCast.SchemaTypeName.Name,
                                                              itemCast.Name,
                                                              includePathStr,
                                                              isVector,
                                                              choice));
                        }
                        #endregion
                    }

                    else
                    {
                        #region refDef
                        
                        string type = elementRef[itemCast.RefName.Name];
                        if (choice) { m_ClassGen.ChoiceStrMember[choiceStr].Add(itemCast.RefName.Name); }

                        includePathStr = includePath[type];

                        m_MemberVariable.Add(new Variable(type,
                                                          itemCast.RefName.Name,
                                                          includePathStr,
                                                          isVector,
                                                          choice));

                        foreach (KeyValuePair<string, string> substiItem in elementSubstitutionRef)
	                    {
		                    if(substiItem.Key == itemCast.RefName.Name)
                            {

                                choice = false;
                                bool substi = true; // 주석을 위한 것
                                string substiStr = elementRef[substiItem.Value];
                                includePathStr = includePath[substiStr];
                                
                                Variable substiVariable = new Variable(substiStr,
                                                                        substiItem.Value,
                                                                        includePathStr,
                                                                        isVector,
                                                                        choice,
                                                                        substi);

                                //substiVariable.SubstitudeStr = itemCast.RefName.Name;  주석에 들어갈건데 먼저 생성자에서 코드가 생성되서리 적용이 안댐 그냥 우선은 패스

                                m_MemberVariable.Add(substiVariable);
                            }
                        }
                        #endregion
                    }

                }
                else if (item is XmlSchemaGroupRef)
                {
                    #region groupRefDef

                    XmlSchemaGroupRef xsgr = item as XmlSchemaGroupRef;

                    XmlSchemaGroup xsg = elementGroupRef[xsgr.RefName.Name];

                    roopItem(xsg.Particle, choice, choiceStr);

                    #endregion

                }
                else if (item is XmlSchemaGroupBase)
                {
                    XmlSchemaGroupBase xgbSub = item as XmlSchemaGroupBase;
                    roopItem(xgbSub, choice, choiceStr);
                }
            }
        }
Ejemplo n.º 44
0
        void ExportElementAccessor(XmlSchemaGroupBase group, ElementAccessor accessor, bool repeats, bool valueTypeOptional, string ns) {
            if (accessor.Any && accessor.Name.Length == 0) {
                XmlSchemaAny any = new XmlSchemaAny();
                any.MinOccurs = 0;
                any.MaxOccurs = repeats ? decimal.MaxValue : 1;
                if (accessor.Namespace != null && accessor.Namespace.Length > 0 && accessor.Namespace != ns)
                    any.Namespace = accessor.Namespace;
                group.Items.Add(any);
            }
            else {
                XmlSchemaElement element = (XmlSchemaElement)elements[accessor];
                int minOccurs = repeats || accessor.HasDefault || (!accessor.IsNullable && !accessor.Mapping.TypeDesc.IsValueType) || valueTypeOptional ? 0 : 1;
                decimal maxOccurs = repeats || accessor.IsUnbounded ? decimal.MaxValue : 1;

                if (element == null) {
                    element = new XmlSchemaElement();
                    element.IsNillable = accessor.IsNullable;
                    element.Name = accessor.Name;
                    if (accessor.HasDefault)
                        element.DefaultValue = ExportDefaultValue(accessor.Mapping, accessor.Default);

                    if (accessor.IsTopLevelInSchema) {
                        elements.Add(accessor, element);
                        element.Form = accessor.Form;
                        AddSchemaItem(element, accessor.Namespace, ns);
                    }
                    else {
                        element.MinOccurs = minOccurs;
                        element.MaxOccurs = maxOccurs;
                        // determine the form attribute value
                        XmlSchema schema = schemas[ns];
                        if (schema == null)
                            element.Form = accessor.Form == elementFormDefault ? XmlSchemaForm.None : accessor.Form;
                        else {
                            element.Form = accessor.Form == schema.ElementFormDefault ? XmlSchemaForm.None : accessor.Form;
                        }
                    }
                    ExportElementMapping(element, (TypeMapping)accessor.Mapping, accessor.Namespace, accessor.Any);
                }
                if (accessor.IsTopLevelInSchema) {
                    XmlSchemaElement refElement = new XmlSchemaElement();
                    refElement.RefName = new XmlQualifiedName(accessor.Name, accessor.Namespace);
                    refElement.MinOccurs = minOccurs;
                    refElement.MaxOccurs = maxOccurs;
                    group.Items.Add(refElement);
                    AddSchemaImport(accessor.Namespace, ns);
                }
                else {
                    group.Items.Add(element);
                }
            }
        }