SwaptionPortfolio Example CPPNET
High level view of the code structure (resulting in the final function call to SwaptionPortfolio() )
 C++.NET Example - SwaptionPortfolio // ################################################################################## // The first function here SwaptionPortfolio(), contains a series of // function calls leading upto the main function call, the second function // within this file ( SwaptionPortfolioPart() ). // which contains the answer that we are looking for. // The first function here is simply an example of how to construct the parameters // in order acquire either a string Key (that is to be passed to other functions) // or a computed result. // If you are viewing this source code from the chm or web help file you can use the // outlining features to collapse certain sections of the code for better readability. // ################################################################################## #using <mscorlib.dll>// If you add a reference via the Visual Studio project, // then the following line is not needed.#using <QuantToolsNET.v2.dll> using namespace System;// Some global parameter in order to append to user defined keys.// We use it here to ensure that we have unique Keys (in the case several of our examples// use the same key-name)// In normal use, a user defined string will be used and so this variable will be pointless.static int nCTOSPortfolioGlobal = 0; // Used by function parameters that take an optional range value. // In Excel we simply omit the value, within the API functions, // we pass an empty range objectstatic CTQL::CTRangeData* oEmptyRange = new CTQL::CTRangeData(); public: String* CPPNET_EX_SwaptionPortfolio() { nCTOSPortfolioGlobal += 1; String* szErrorMsg = ""; try { // UK date calendar used within the UK stock exchange. String* MyCALUKExchange; MyCALUKExchange = CALUKExchangePart(); // EURO calendar used for holiday adjustments. String* MyEuroCal; MyEuroCal = CALEUROPart(); // Creates a centralized valuation date object. String* MyValuationDate; MyValuationDate = ValueDateObjPart(); // UK date calendar. String* MyCALUKSettlement; MyCALUKSettlement = CALUKSettlementPart(); // TARGET calendar used for holiday adjustments. String* MyTargetCal2; MyTargetCal2 = CALTARGET__2Part(); // Creates a Deposit template which is almost identical to a Libor // Index, but without the YieldCurve information. String* MyGBPDepoTPL; MyGBPDepoTPL = CreateDepoTemplate__3Part( MyCALUKExchange, MyCALUKSettlement); // Creates a Swap template which is almost identical to the definition // of the parameters of a swap contract, but without the swap duration, // buysell, and YieldCurve information. String* MyGBPSwapTPL; MyGBPSwapTPL = CreateSwapTemplate__4Part( MyCALUKSettlement, MyGBPDepoTPL); // Creates a Deposit template which is almost identical to a Libor // Index, but without the YieldCurve information. String* MyDepoTPL; MyDepoTPL = CreateDepoTemplatePart( MyCALUKExchange, MyEuroCal); // Creates a Swap template which is almost identical to the definition // of the parameters of a swap contract, but without the swap duration, // buysell, and YieldCurve information. String* MySwapTPL; MySwapTPL = CreateSwapTemplatePart( MyEuroCal, MyDepoTPL); // Creates a yield curve using market rates and cross currency // swaps (against the dollar). String* MyYC_XCCY_DCF; MyYC_XCCY_DCF = MKTYC_XCCY_DPart( MyValuationDate, MyDepoTPL, MySwapTPL); // Creates a SABR curve to model the dynamics of the volatility // curve (smile). String* MySABRVolCurve; MySABRVolCurve = SABRVolCurvePart( MyValuationDate, MyDepoTPL, MySwapTPL); // Creates a new Index code. String* My1MIndex; My1MIndex = CreateIndex__5Part( MyCALUKExchange, MyEuroCal, MyYC_XCCY_DCF); // Creates a new Index code. String* My2MIndex; My2MIndex = CreateIndex__6Part( MyCALUKExchange, MyEuroCal, MyYC_XCCY_DCF); // Creates a new Index code. String* My3MIndex; My3MIndex = CreateIndex__7Part( MyCALUKExchange, MyEuroCal, MyYC_XCCY_DCF); // Creates a new Index code. String* My6MIndex; My6MIndex = CreateIndex__8Part( MyCALUKExchange, MyEuroCal, MyYC_XCCY_DCF); // Creates a new Index code. String* My12MIndex; My12MIndex = CreateIndex__9Part( MyCALUKExchange, MyEuroCal, MyYC_XCCY_DCF); // Creates a new Index based on SWAP details. String* MyCMS5Y; MyCMS5Y = CreateSwapIndex__2Part( MyTargetCal2, My3MIndex); // Creates a new Index based on SWAP details. String* MyCMS10Y; MyCMS10Y = CreateSwapIndex__3Part( MyTargetCal2, My3MIndex); // Creates a yield curve using market rates (No cross-currency // Swaps). String* MyGBPYC; MyGBPYC = MKTYC_D__4Part( MyValuationDate, MyGBPDepoTPL, MyGBPSwapTPL); // GBPLibor, Pound Sterling LIBOR fixed by BBA. String* MyGBPIndex; MyGBPIndex = IDXGBPLiborPart( MyGBPYC); // Creates a container to hold a group of Index objects. String* MyGroupedIndex; MyGroupedIndex = GroupedIndexPart( My1MIndex, My2MIndex, My3MIndex, My6MIndex, My12MIndex, MyGBPIndex, MyCMS5Y, MyCMS10Y); // Creates a Swaption portfolio object. String* MySwaptionPortfolio; MySwaptionPortfolio = SwaptionPortfolioPart( MyGroupedIndex, MyYC_XCCY_DCF, MySABRVolCurve); // This is the result we are looking for. return MySwaptionPortfolio;  } catch(Exception e) { szErrorMsg = e.Message; throw e; }} // ///////////////////////////////////////////////////////////////////private: String* SwaptionPortfolioPart( String* MyGroupedIndex, String* MyYC_XCCY_DCF, String* MySABRVolCurve){ // Create example range for parameter SwaptionPortfolio_SwaptionRange CTQL::CTRangeData* SwaptionPortfolio_SwaptionRange = new CTQL::CTRangeData(); System::Text::StringBuilder* SwaptionPortfolio_SwaptionRange_builder = new System::Text::StringBuilder(100); // We could set the value for each cell individually, but for display // purposes, this is quicker and more informative. SwaptionPortfolio_SwaptionRange_builder->Append(S"{"); SwaptionPortfolio_SwaptionRange_builder->Append(S"SwaptionName | Position | PayRec | ExerciseDate | StartDate | EndDate | Notional | Coupon | FixBDC | FixDayCount | FixFreq | IndexCode | Margin ;"); SwaptionPortfolio_SwaptionRange_builder->Append(S"OS-123456 | short | reciever | #19/Jul/2011# | #21/Jul/2011# | #21/Jul/2016# | 50000000 | 5.17 | Modifiedfollowing | ACT365F | S | EURLIBOR3M | 0.0002 ;"); SwaptionPortfolio_SwaptionRange_builder->Append(S"OS : 19-Jul-2012 / 5.31% | short | reciever | #19/Jul/2012# | #21/Jul/2012# | #21/Jul/2017# | 50000000 | 5.31 | Modifiedfollowing | ACT365F | S | EURLIBOR1M | 0.0002 ;"); SwaptionPortfolio_SwaptionRange_builder->Append(S"OS : 19-Jul-2013 / 5.47% | short | reciever | #19/Jul/2013# | #21/Jul/2013# | #21/Jul/2018# | 50000000 | 5.47 | Modifiedfollowing | ACT365F | S | EURLIBOR1M | 0.0002 ;"); SwaptionPortfolio_SwaptionRange_builder->Append(S"OS : 19-Jul-2014 / 5.59% | short | reciever | #19/Jul/2014# | #21/Jul/2014# | #21/Jul/2019# | 50000000 | 5.59 | Modifiedfollowing | ACT365F | S | EURLIBOR6M | 0.0002 ;"); SwaptionPortfolio_SwaptionRange_builder->Append(S"OS : 19-Jul-2015 / 5.74% | short | reciever | #19/Jul/2015# | #21/Jul/2015# | #21/Jul/2020# | 50000000 | 5.74 | Modifiedfollowing | ACT365F | S | EURLIBOR6M | 0.0002 ;"); SwaptionPortfolio_SwaptionRange_builder->Append(S"OS : 19-Jul-2016 / 5.92% | long | payer | #19/Jul/2016# | #21/Jul/2016# | #21/Jul/2021# | 10000000 | 5.92 | Modifiedfollowing | ACT365F | S | EURLIBOR12M | 0.0002 ;"); SwaptionPortfolio_SwaptionRange_builder->Append(S"OS : 19-Jul-2017 / 6.06% | long | payer | #19/Jul/2017# | #21/Jul/2017# | #21/Jul/2022# | 10000000 | 6.06 | Modifiedfollowing | ACT365F | S | EURLIBOR12M | 0.0002 ;"); SwaptionPortfolio_SwaptionRange_builder->Append(S"OS : 19-Jul-2018 / 6.23% | long | payer | #19/Jul/2018# | #21/Jul/2018# | #21/Jul/2023# | 10000000 | 6.23 | Modifiedfollowing | ACT365F | S | EURLIBOR3M | 0.0002 ;"); SwaptionPortfolio_SwaptionRange_builder->Append(S"OS : 19-Jul-2019 / 6.38% | long | payer | #19/Jul/2019# | #21/Jul/2019# | #21/Jul/2024# | 10000000 | 6.38 | Modifiedfollowing | ACT365F | S | EURLIBOR3M | 0.0002 ;"); SwaptionPortfolio_SwaptionRange_builder->Append(S"OS : 19-Jul-2020 / 6.51% | long | payer | #19/Jul/2020# | #21/Jul/2020# | #21/Jul/2025# | 10000000 | 6.51 | Modifiedfollowing | ACT365F | S | EURLIBOR6M | 0.0002 ;"); SwaptionPortfolio_SwaptionRange_builder->Append(S"OS : 19-Jul-2021 / 6.69% | long | payer | #19/Jul/2021# | #21/Jul/2021# | #21/Jul/2026# | 10000000 | 6.69 | Modifiedfollowing | ACT365F | S | EURLIBOR6M | 0.0002"); SwaptionPortfolio_SwaptionRange_builder->Append(S"}"); SwaptionPortfolio_SwaptionRange->RangeFromStr ( SwaptionPortfolio_SwaptionRange_builder->ToString() ); // Key Handle to be used for the new Portfolio object. String* MySwaptionPortfolio = String::Format(S"{0}_{1}", S"MySwaptionPortfolio", System::Convert::ToString(nCTOSPortfolioGlobal)); // When creating this object for the first time, set this parameter // to a positive value. int Reload = 1; // Excel function call would be this - "CT.BOOK.SwaptionPortfolio()" // Creates a Swaption portfolio object. String* rSwaptionPortfolio; rSwaptionPortfolio = CTQL::CTOSPortfolioSA->SwaptionPortfolio( MySwaptionPortfolio, Reload, MyGroupedIndex, MyYC_XCCY_DCF, MySABRVolCurve, SwaptionPortfolio_SwaptionRange); return rSwaptionPortfolio;} |
