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/* ----------------------------------------------------------------------------
* This file was automatically generated by SWIG (http://www.swig.org).
* Version 1.3.29
*
* Do not make changes to this file unless you know what you are doing--modify
* the SWIG interface file instead.
* ----------------------------------------------------------------------------- */
namespace QuantLib {
using System;
using System.Runtime.InteropServices;
public class CalibrationHelperVector : IDisposable, System.Collections.IEnumerable {
private HandleRef swigCPtr;
protected bool swigCMemOwn;
internal CalibrationHelperVector(IntPtr cPtr, bool cMemoryOwn) {
swigCMemOwn = cMemoryOwn;
swigCPtr = new HandleRef(this, cPtr);
}
internal static HandleRef getCPtr(CalibrationHelperVector obj) {
return (obj == null) ? new HandleRef(null, IntPtr.Zero) : obj.swigCPtr;
}
~CalibrationHelperVector() {
Dispose();
}
public virtual void Dispose() {
if(swigCPtr.Handle != IntPtr.Zero && swigCMemOwn) {
swigCMemOwn = false;
NQuantLibcPINVOKE.delete_CalibrationHelperVector(swigCPtr);
}
swigCPtr = new HandleRef(null, IntPtr.Zero);
GC.SuppressFinalize(this);
}
public CalibrationHelperVector(System.Collections.ICollection c) : this() {
if (c == null)
throw new ArgumentNullException("c");
foreach (CalibrationHelper element in c) {
this.Add(element);
}
}
public bool IsFixedSize {
get {
return false;
}
}
public bool IsReadOnly {
get {
return false;
}
}
public CalibrationHelper this[int index] {
get {
return getitem(index);
}
set {
setitem(index, value);
}
}
public int Capacity {
get {
return (int)capacity();
}
set {
if (value < size())
throw new ArgumentOutOfRangeException("Capacity");
reserve((uint)value);
}
}
public int Count {
get {
return (int)size();
}
}
public bool IsSynchronized {
get {
return false;
}
}
public void CopyTo(System.Array array) {
CopyTo(0, array, 0, this.Count);
}
public void CopyTo(System.Array array, int arrayIndex) {
CopyTo(0, array, arrayIndex, this.Count);
}
public void CopyTo(int index, System.Array array, int arrayIndex, int count) {
if (array == null)
throw new ArgumentNullException("array");
if (index < 0)
throw new ArgumentOutOfRangeException("index", "Value is less than zero");
if (arrayIndex < 0)
throw new ArgumentOutOfRangeException("arrayIndex", "Value is less than zero");
if (count < 0)
throw new ArgumentOutOfRangeException("count", "Value is less than zero");
if (array.Rank > 1)
throw new ArgumentException("Multi dimensional array.");
if (index+count > this.Count || arrayIndex+count > array.Length)
throw new ArgumentException("Number of elements to copy is too large.");
for (int i=0; i<count; i++)
array.SetValue(getitemcopy(index+i), arrayIndex+i);
}
// Type-safe version of IEnumerable.GetEnumerator
System.Collections.IEnumerator System.Collections.IEnumerable.GetEnumerator() {
return new CalibrationHelperVectorEnumerator(this);
}
public CalibrationHelperVectorEnumerator GetEnumerator() {
return new CalibrationHelperVectorEnumerator(this);
}
// Type-safe enumerator
/// Note that the IEnumerator documentation requires an InvalidOperationException to be thrown
/// whenever the collection is modified. This has been done for changes in the size of the
/// collection but not when one of the elements of the collection is modified as it is a bit
/// tricky to detect unmanaged code that modifies the collection under our feet.
public sealed class CalibrationHelperVectorEnumerator : System.Collections.IEnumerator {
private CalibrationHelperVector collectionRef;
private int currentIndex;
private object currentObject;
private int currentSize;
public CalibrationHelperVectorEnumerator(CalibrationHelperVector collection) {
collectionRef = collection;
currentIndex = -1;
currentObject = null;
currentSize = collectionRef.Count;
}
// Type-safe iterator Current
public CalibrationHelper Current {
get {
if (currentIndex == -1)
throw new InvalidOperationException("Enumeration not started.");
if (currentIndex > currentSize - 1)
throw new InvalidOperationException("Enumeration finished.");
if (currentObject == null)
throw new InvalidOperationException("Collection modified.");
return (CalibrationHelper)currentObject;
}
}
// Type-unsafe IEnumerator.Current
object System.Collections.IEnumerator.Current {
get {
return Current;
}
}
public bool MoveNext() {
int size = collectionRef.Count;
bool moveOkay = (currentIndex+1 < size) && (size == currentSize);
if (moveOkay) {
currentIndex++;
currentObject = collectionRef[currentIndex];
} else {
currentObject = null;
}
return moveOkay;
}
public void Reset() {
currentIndex = -1;
currentObject = null;
if (collectionRef.Count != currentSize) {
throw new InvalidOperationException("Collection modified.");
}
}
}
public void Clear() {
NQuantLibcPINVOKE.CalibrationHelperVector_Clear(swigCPtr);
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
}
public void Add(CalibrationHelper value) {
NQuantLibcPINVOKE.CalibrationHelperVector_Add(swigCPtr, CalibrationHelper.getCPtr(value));
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
}
private uint size() {
uint ret = NQuantLibcPINVOKE.CalibrationHelperVector_size(swigCPtr);
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
return ret;
}
private uint capacity() {
uint ret = NQuantLibcPINVOKE.CalibrationHelperVector_capacity(swigCPtr);
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
return ret;
}
private void reserve(uint n) {
NQuantLibcPINVOKE.CalibrationHelperVector_reserve(swigCPtr, n);
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
}
public CalibrationHelperVector() : this(NQuantLibcPINVOKE.new_CalibrationHelperVector__SWIG_0(), true) {
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
}
public CalibrationHelperVector(int capacity) : this(NQuantLibcPINVOKE.new_CalibrationHelperVector__SWIG_1(capacity), true) {
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
}
private CalibrationHelper getitemcopy(int index) {
CalibrationHelper ret = new CalibrationHelper(NQuantLibcPINVOKE.CalibrationHelperVector_getitemcopy(swigCPtr, index), true);
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
return ret;
}
private CalibrationHelper getitem(int index) {
CalibrationHelper ret = new CalibrationHelper(NQuantLibcPINVOKE.CalibrationHelperVector_getitem(swigCPtr, index), false);
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
return ret;
}
private void setitem(int index, CalibrationHelper value) {
NQuantLibcPINVOKE.CalibrationHelperVector_setitem(swigCPtr, index, CalibrationHelper.getCPtr(value));
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
}
public void AddRange(CalibrationHelperVector values) {
NQuantLibcPINVOKE.CalibrationHelperVector_AddRange(swigCPtr, CalibrationHelperVector.getCPtr(values));
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
}
public CalibrationHelperVector GetRange(int index, int count) {
IntPtr cPtr = NQuantLibcPINVOKE.CalibrationHelperVector_GetRange(swigCPtr, index, count);
CalibrationHelperVector ret = (cPtr == IntPtr.Zero) ? null : new CalibrationHelperVector(cPtr, true);
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
return ret;
}
public void Insert(int index, CalibrationHelper value) {
NQuantLibcPINVOKE.CalibrationHelperVector_Insert(swigCPtr, index, CalibrationHelper.getCPtr(value));
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
}
public void InsertRange(int index, CalibrationHelperVector values) {
NQuantLibcPINVOKE.CalibrationHelperVector_InsertRange(swigCPtr, index, CalibrationHelperVector.getCPtr(values));
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
}
public void RemoveAt(int index) {
NQuantLibcPINVOKE.CalibrationHelperVector_RemoveAt(swigCPtr, index);
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
}
public void RemoveRange(int index, int count) {
NQuantLibcPINVOKE.CalibrationHelperVector_RemoveRange(swigCPtr, index, count);
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
}
public static CalibrationHelperVector Repeat(CalibrationHelper value, int count) {
IntPtr cPtr = NQuantLibcPINVOKE.CalibrationHelperVector_Repeat(CalibrationHelper.getCPtr(value), count);
CalibrationHelperVector ret = (cPtr == IntPtr.Zero) ? null : new CalibrationHelperVector(cPtr, true);
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
return ret;
}
public void Reverse() {
NQuantLibcPINVOKE.CalibrationHelperVector_Reverse__SWIG_0(swigCPtr);
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
}
public void Reverse(int index, int count) {
NQuantLibcPINVOKE.CalibrationHelperVector_Reverse__SWIG_1(swigCPtr, index, count);
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
}
public void SetRange(int index, CalibrationHelperVector values) {
NQuantLibcPINVOKE.CalibrationHelperVector_SetRange(swigCPtr, index, CalibrationHelperVector.getCPtr(values));
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
}
public bool Contains(CalibrationHelper value) {
bool ret = NQuantLibcPINVOKE.CalibrationHelperVector_Contains(swigCPtr, CalibrationHelper.getCPtr(value));
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
return ret;
}
public int IndexOf(CalibrationHelper value) {
int ret = NQuantLibcPINVOKE.CalibrationHelperVector_IndexOf(swigCPtr, CalibrationHelper.getCPtr(value));
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
return ret;
}
public int LastIndexOf(CalibrationHelper value) {
int ret = NQuantLibcPINVOKE.CalibrationHelperVector_LastIndexOf(swigCPtr, CalibrationHelper.getCPtr(value));
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
return ret;
}
public void Remove(CalibrationHelper value) {
NQuantLibcPINVOKE.CalibrationHelperVector_Remove(swigCPtr, CalibrationHelper.getCPtr(value));
if (NQuantLibcPINVOKE.SWIGPendingException.Pending) throw NQuantLibcPINVOKE.SWIGPendingException.Retrieve();
}
}
}
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