Difference between revisions of "Excel to Analytica Mappings/Financial Functions"

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= ACCRINT(issue,first_interest,settlement,rate,par,frequency'',basis,calc_method'') =
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[[Category: Excel to Analytica mappings]]
  
= ACCRINTM(issue,settlement,rate,par'',basis'') =
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<div style="column-count:3;-moz-column-count:3;-webkit-column-count:3">
 +
__TOC__
 +
</div>
  
= AMORDEGRC(cost,date_purchased,first_period,salvage,period,rate'',basis'') =
 
  
= AMORLINC(cost,date_purchased,first_period,salvage,period,rate'',basis'') =
+
== ACCRINT(issue, first_interest, settlement, rate, par, frequency'', basis, calc_method'') ==
  
= COUPDAYBS(settlement,maturity,frequency'',basis'') =
+
== ACCRINTM(issue, settlement, rate, par'', basis'') ==
  
= COUPDAYS(settlement,maturity,frequency'',basis'') =
+
== AMORDEGRC(cost, date_purchased, first_period, salvage, period, rate'', basis'') ==
  
= COUPDAYSNC(settlement,maturity,frequency'',basis'') =
+
== AMORLINC(cost, date_purchased, first_period, salvage, period, rate'', basis'') ==
  
= COUPNCD(settlement,maturity,frequency'',basis'') =
+
== COUPDAYBS(settlement, maturity, frequency'', basis'') ==
  
= COUPNUM(settlement,maturity,frequency'',basis'') =
+
== COUPDAYS(settlement, maturity, frequency'', basis'') ==
  
= COUPPCD(settlement,maturity,frequency'',basis'') =
+
== COUPDAYSNC(settlement, maturity, frequency'', basis'') ==
  
= CUMIPMT(rate,nper,pv,start_period,end_period,type) =
+
== COUPNCD(settlement, maturity, frequency'', basis'') ==
  
Analytica equivalent:
+
== COUPNUM(settlement, maturity, frequency'', basis'') ==
[[CumIPmt]](rate, nper, pv'',start_per,end_per,type'')
 
  
= CUMPRINC(rate,nper,pv,start_period,end_period,type) =
+
== COUPPCD(settlement, maturity, frequency'', basis'') ==
  
Analytica equivalent:
+
== CUMIPMT(rate, nper, pv, start_period, end_period, type) ==
[[CumPrinc]](rate,nper,pv'',start_per,end_per,type'')
 
  
= DB(cost,salvage,life,period'',month'') =
+
''Analytica equivalent:''
 +
:[[CumIPmt]](rate, nper, pv'', start_per, end_per, type'')
  
= DDB(cost,salvage,life,period'',factor'') =
+
== CUMPRINC(rate, nper, pv, start_period, end_period, type) ==
  
= DISC(settlement,maturity,pr,redemption'',basis'') =
+
''Analytica equivalent:''
 +
:[[CumPrinc]](rate, nper, pv'', start_per, end_per, type'')
  
= DOLLARDE(fractional_dollar,fraction) =
+
== DB(cost, salvage, life, period'', month'') ==
  
= DOLLARFR(decimal_dollar,fraction) =
+
== DDB(cost, salvage, life, period'', factor'') ==
  
= DURATION(settlement, maturity, coupon, yld, frequency'',basis'') =
+
== DISC(settlement, maturity, pr, redemption'', basis'') ==
  
= EFFECT(nominal_rate,npery) =
+
== DOLLARDE(fractional_dollar, fraction) ==
  
= FV(rate,nper,pmt'',pv,type'') =
+
== DOLLARFR(decimal_dollar, fraction) ==
  
Analytica equivalent:
+
== DURATION(settlement,  maturity, coupon, yld, frequency'', basis'') ==
  [[Fv]](rate,nper,pmt'',pv,type'')
 
  
= FVSCHEDULE(principal,schedule) =
+
== EFFECT(nominal_rate, npery) ==
  
This computes the future value of principal after compounding interest according to a time-varying array of interest rates.  So when this is used, «schedule» is an array.  In Analytica, since «schedule» is an array, it will have an index, say ''I''.  The equivalent is then:
+
== FV(rate, nper, pmt'', pv, type'') ==
  
principal * [[Product]](1+schedule,I)
+
''Analytica equivalent:''
 +
:[[Fv]](rate, nper, pmt'', pv, type'')
  
= INTRATE(settlement,maturity,coupon,yld,frequency'',basis'') =
+
== FVSCHEDULE(principal, schedule) ==
  
= IPMT(rate,per,nper,pv'',fv,type'') =
+
This computes the future value of principal after compounding interest according to a time-varying array of interest rates.  So when this is used, «schedule» is an array.  In Analytica, since «schedule» is an array, it will have an index,  say ''I''.  The equivalent is then:
  
Analytica equivalent:
+
:principal * [[Product]](1+schedule, I)
[[IPmt]](rate,per,nper,pv'',fv,type'')
 
  
= IRR(values'',guess'') =
+
== INTRATE(settlement, maturity, coupon, yld, frequency'', basis'') ==
  
Analytica equivalent:
+
== IPMT(rate, per, nper, pv'', fv, type'') ==
[[Irr]](values,I'',guess'')
 
where I is the index that the internal rate of return is computed over.  This index parameter is often the [[Time]] index.
 
  
= ISPMT(rate,per,nper,pv) =
+
''Analytica equivalent:''
 +
:[[IPmt]](rate, per, nper, pv'', fv, type'')
  
The Analytica equivalent is:
+
== IRR(values'', guess'') ==
-pv*(1-per/nper)*rate
 
  
= MDURATION(settlement,maturity,coupon,yld,frequency'',basis'') =
+
''Analytica equivalent:''
 +
:[[Irr]](values, I'', guess'')
 +
where «I» is the index that the internal rate of return is computed over.  This index parameter is often the [[Time]] index.
  
= MIRR(values,finance_rate,reinvest_rate =
+
== ISPMT(rate, per, nper, pv) ==
  
Analytica equivalent (''requires Analytica 4.2 or later''):
+
''Analytica equivalent:''
[[MIrr]](values,I,finance_rate,reinvest_rate)
+
:-pv*(1-per/nper)*rate
where the array of cash flows, ''values'', is indexed by ''I''.
 
  
= NOMINAL(effect_rate,npery) =
+
== MDURATION(settlement, maturity, coupon, yld, frequency'', basis'') ==
  
= NPER(rate,pmt,pv'',fv,type'') =
+
== MIRR(values, finance_rate, reinvest_rate ==
  
Analytica equivalent:
+
''Analytica equivalent'':
[[NPer]](rate,pmt,pv'',fv,type'')
+
:[[MIrr]](values, I, finance_rate, reinvest_rate)
 +
where the array of cash flows, «values», is indexed by «I».
  
= NPV(rate,value1,value2,...) =
+
== NOMINAL(effect_rate, npery) ==
  
Analytica equivalent:
+
== NPER(rate, pmt, pv'', fv, type'') ==
[[Npv]](rate,values,I)
 
where I is the index that the net present value is computed over.  The [[Time]] index is often used for this index.
 
  
= ODDFPRICE(settlement, maturity, issue, first_coupon, rate, yld, redemption, frequency'',basis'') =
+
''Analytica equivalent:''
 +
:[[NPer]](rate, pmt, pv'', fv, type'')  
  
= ODDFYEILD(settlement, maturity, issue, first_coupon, rate, pr, redemption, frequency'',basis'') =
+
== NPV(rate, value1, value2, ...) ==
  
= ODDLPRICE(settlement,maturity,last_interest,rate,yld,redemption,frequency'',basis'') =
+
''Analytica equivalent:''
 +
:[[Npv]](rate, values, I)
 +
where «I» is the index that the net present value is computed over.  The [[Time]] index is often used for this index.
  
= ODDLYIELD(settlement,maturity,last_interest,rate,pr,redemption,frequency'',basis'') =
+
== ODDFPRICE(settlement, maturity, issue, first_coupon,  rate, yld, redemption, frequency'', basis'') ==
  
= PMT(rate,nper,pv'',fv,type'') =
+
== ODDFYEILD(settlement,  maturity,  issue,  first_coupon,  rate, pr, redemption,  frequency'', basis'') ==
  
Analytica equivalent:
+
== ODDLPRICE(settlement, maturity, last_interest, rate, yld, redemption, frequency'', basis'') ==
[[Pmt]](rate,nper,pv'',fv,type'')
 
  
= PPMT(rate,per,nper,pv'',fv,type'') =
+
== ODDLYIELD(settlement, maturity, last_interest, rate, pr, redemption, frequency'', basis'') ==
  
Analytica equivalentt:
+
== PMT(rate, nper, pv'', fv, type'') ==
[[PPmt]](rate,per,nper,pv'',fv,type'')
 
  
= PRICE(settlement,maturity,discount,redemption'',basis'') =
+
''Analytica equivalent:''
 +
:[[Pmt]](rate, nper, pv'', fv, type'')
  
= PRICEDISC(settlement,maturity,discount,redemption'',basis'') =
+
== PPMT(rate, per, nper, pv'', fv, type'') ==
  
= PRICEMAT(settlement,maturity,issue,rate,yld'',basis'') =
+
''Analytica equivalentt:''
 +
:[[PPmt]](rate, per, nper, pv'', fv, type'')
  
= PV(rate,nper,pmt'',fv,type'') =
+
== PRICE(settlement, maturity, discount, redemption'', basis'') ==
  
Analytica equivalent:
+
== PRICEDISC(settlement, maturity, discount, redemption'', basis'') ==
[[Pv]](rate,nper,pmt'',fv,type'')
 
  
= RATE(nper,pmt,pv'',fv,type,guess'') =
+
== PRICEMAT(settlement, maturity, issue, rate, yld'', basis'') ==
  
Analytica equivalent:
+
== PV(rate, nper, pmt'', fv, type'') ==
[[Rate]](nper,pmt,pv'',fv,type,guess'')
 
  
= RECEIVED(settlement,maturity,investment,discount'',basis'') =
+
''Analytica equivalent:''
 +
:[[Pv]](rate, nper, pmt'', fv, type'')
  
= SLN(cost,salvage,life) =
+
== RATE(nper, pmt, pv'', fv, type, guess'') ==
  
= SYD(cost,salvage,life,pr) =
+
''Analytica equivalent:''
 +
:[[Rate]](nper, pmt, pv'', fv, type, guess'')
  
= TBILLEQ(settlement,maturity,discount) =
+
== RECEIVED(settlement, maturity, investment, discount'', basis'') ==
  
= TBILLPRICE(settlement,maturity,discount) =
+
== SLN(cost, salvage, life) ==
  
= TBILLYIELD(cost,salvage,life,start_period,end_period'',factor,no_switch'') =
+
''Analytica equivalent: ''
 +
:(cost-salvage)/life
  
= VDB(cost,salvage,life,start_period,end_period'',factor,no_switch'') =
+
== SYD(cost, salvage, life, pr) ==
  
= XIRR(values,dates'',guess'') =
+
== TBILLEQ(settlement, maturity, discount) ==
  
Analytica equivalent:
+
== TBILLPRICE(settlement, maturity, discount) ==
[[XIrr]](values,dates,I'',guess'')
 
where the index I dimensions both ''values'' and ''dates''.
 
  
= XNPV(rate,values,dates) =
+
== TBILLYIELD(cost, salvage, life, start_period, end_period'', factor, no_switch'') ==
  
Analytica equivalent:
+
== VDB(cost, salvage, life, start_period, end_period'', factor, no_switch'') ==
[[XNpv]](rate,values,dates,I)
 
where the index I dimensions both ''values'' and ''dates''.
 
  
= YIELD(settlement,maturity,rate,pr,redemption,frequency'',basis'') =
+
== XIRR(values, dates'', guess'') ==
  
= YIELDDISC(settlement,maturity,pr,redemption'',basis'') =
+
''Analytica equivalent:''
 +
:[[XIrr]](values, dates, I'', guess'')
 +
where the index «I» dimensions both «values» and «dates».
  
= YIELDMAT(settlement,maturity,issue,rate,pr'',basis'') =
+
== XNPV(rate, values, dates) ==
 +
 
 +
''Analytica equivalent:''
 +
:[[XNpv]](rate, values, dates, I)
 +
where the index «I» dimensions both «values» and «dates».
 +
 
 +
== YIELD(settlement, maturity, rate, pr, redemption, frequency'', basis'') ==
 +
 
 +
== YIELDDISC(settlement, maturity, pr, redemption'', basis'') ==
 +
 
 +
== YIELDMAT(settlement, maturity, issue, rate, pr'', basis'') ==
 +
 
 +
==See Also==
 +
* [[Excel to Analytica Mappings]]

Latest revision as of 23:41, 16 March 2016



ACCRINT(issue, first_interest, settlement, rate, par, frequency, basis, calc_method)

ACCRINTM(issue, settlement, rate, par, basis)

AMORDEGRC(cost, date_purchased, first_period, salvage, period, rate, basis)

AMORLINC(cost, date_purchased, first_period, salvage, period, rate, basis)

COUPDAYBS(settlement, maturity, frequency, basis)

COUPDAYS(settlement, maturity, frequency, basis)

COUPDAYSNC(settlement, maturity, frequency, basis)

COUPNCD(settlement, maturity, frequency, basis)

COUPNUM(settlement, maturity, frequency, basis)

COUPPCD(settlement, maturity, frequency, basis)

CUMIPMT(rate, nper, pv, start_period, end_period, type)

Analytica equivalent:

CumIPmt(rate, nper, pv, start_per, end_per, type)

CUMPRINC(rate, nper, pv, start_period, end_period, type)

Analytica equivalent:

CumPrinc(rate, nper, pv, start_per, end_per, type)

DB(cost, salvage, life, period, month)

DDB(cost, salvage, life, period, factor)

DISC(settlement, maturity, pr, redemption, basis)

DOLLARDE(fractional_dollar, fraction)

DOLLARFR(decimal_dollar, fraction)

DURATION(settlement, maturity, coupon, yld, frequency, basis)

EFFECT(nominal_rate, npery)

FV(rate, nper, pmt, pv, type)

Analytica equivalent:

Fv(rate, nper, pmt, pv, type)

FVSCHEDULE(principal, schedule)

This computes the future value of principal after compounding interest according to a time-varying array of interest rates. So when this is used, «schedule» is an array. In Analytica, since «schedule» is an array, it will have an index, say I. The equivalent is then:

principal * Product(1+schedule, I)

INTRATE(settlement, maturity, coupon, yld, frequency, basis)

IPMT(rate, per, nper, pv, fv, type)

Analytica equivalent:

IPmt(rate, per, nper, pv, fv, type)

IRR(values, guess)

Analytica equivalent:

Irr(values, I, guess)

where «I» is the index that the internal rate of return is computed over. This index parameter is often the Time index.

ISPMT(rate, per, nper, pv)

Analytica equivalent:

-pv*(1-per/nper)*rate

MDURATION(settlement, maturity, coupon, yld, frequency, basis)

MIRR(values, finance_rate, reinvest_rate

Analytica equivalent:

MIrr(values, I, finance_rate, reinvest_rate)

where the array of cash flows, «values», is indexed by «I».

NOMINAL(effect_rate, npery)

NPER(rate, pmt, pv, fv, type)

Analytica equivalent:

NPer(rate, pmt, pv, fv, type)

NPV(rate, value1, value2, ...)

Analytica equivalent:

Npv(rate, values, I)

where «I» is the index that the net present value is computed over. The Time index is often used for this index.

ODDFPRICE(settlement, maturity, issue, first_coupon, rate, yld, redemption, frequency, basis)

ODDFYEILD(settlement, maturity, issue, first_coupon, rate, pr, redemption, frequency, basis)

ODDLPRICE(settlement, maturity, last_interest, rate, yld, redemption, frequency, basis)

ODDLYIELD(settlement, maturity, last_interest, rate, pr, redemption, frequency, basis)

PMT(rate, nper, pv, fv, type)

Analytica equivalent:

Pmt(rate, nper, pv, fv, type)

PPMT(rate, per, nper, pv, fv, type)

Analytica equivalentt:

PPmt(rate, per, nper, pv, fv, type)

PRICE(settlement, maturity, discount, redemption, basis)

PRICEDISC(settlement, maturity, discount, redemption, basis)

PRICEMAT(settlement, maturity, issue, rate, yld, basis)

PV(rate, nper, pmt, fv, type)

Analytica equivalent:

Pv(rate, nper, pmt, fv, type)

RATE(nper, pmt, pv, fv, type, guess)

Analytica equivalent:

Rate(nper, pmt, pv, fv, type, guess)

RECEIVED(settlement, maturity, investment, discount, basis)

SLN(cost, salvage, life)

Analytica equivalent:

(cost-salvage)/life

SYD(cost, salvage, life, pr)

TBILLEQ(settlement, maturity, discount)

TBILLPRICE(settlement, maturity, discount)

TBILLYIELD(cost, salvage, life, start_period, end_period, factor, no_switch)

VDB(cost, salvage, life, start_period, end_period, factor, no_switch)

XIRR(values, dates, guess)

Analytica equivalent:

XIrr(values, dates, I, guess)

where the index «I» dimensions both «values» and «dates».

XNPV(rate, values, dates)

Analytica equivalent:

XNpv(rate, values, dates, I)

where the index «I» dimensions both «values» and «dates».

YIELD(settlement, maturity, rate, pr, redemption, frequency, basis)

YIELDDISC(settlement, maturity, pr, redemption, basis)

YIELDMAT(settlement, maturity, issue, rate, pr, basis)

See Also

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