WindowTitle "QANC8 Integration"
'{----------------------------------------------------------
' Programm zur schnellen näherungsweisen Berechnung von Integralen
' mittels der https://de.wikipedia.org/wiki/Newton-Cotes-Formeln .
' Im Artikel wird die Formelordnung zwischen 2 und 6 erläutert.
' Das nachstehende Programm verwendet eine Formel 8. Ordnung mit
' vom Anwender vorgebbarer absoluter und relativer Genauigkeit.
' Von Fortran-90 nach XProfan11 2016-10 by P.Specht, Vienna/Austria/EU
' Keine wie auch immer geartete Gewähr! Möglicherweise Rechte Dritter!
' ------------------------------------------------------------------
' Program to integrate a user-defined function f(x) from x1 to x2 by
' the QANC8 subroutine with control of abs. and relative precisions
' ------------------------------------------------------------------
' SAMPLE RUN:
' (Integrate function cos(x) - 2 sin(x) from x=0 to x=1,
' with a precision <= 1e-10):
'
' Integral Value = -7.792440345582408E-002
' Estimated error = 1.041851518709824E-017
' Error code = 0.000000000000000E+000
' Number of function evaluations = 33
' ------------------------------------------------------------------
' Reference: From Numath Library By Tuan Dang Trong in Fortran 77
' F90 Release 1.0 By J-P Moreau, Paris
' F90 translated to XProfan 11.2a by P.Specht, Vienna /Austria.
' As based on piecewise polynomial approximation, quanc8 is not
' designed to handle certain kinds of integrals (e.g. functions f(x)
' where derivatives < 10th order are unbound or do not exist).
'}---------------------------------------------------------------
' PROGRAM TQANC8 'Test Quanc8
Windowstyle 24:Cls rgb(200,200,220):Font 2
Declare AERROR!,CODE![0],Error![0],RERROR!,X1!,X2!,Valu![0],NBRF&[0]
X1!=0
X2!=1
AERROR!=Val("1e-9")
RERROR!=Val("1e-10")
QANC8(X1!,X2!,AERROR!,RERROR!,Valu![],Error![],NBRF&[],CODE![])
print "\n Integral Value =", format$("%e",Valu![0])
Print "\n Estimated error =", format$("%e",Error![0])
Print "\n Error Code =", format$("%g",CODE![0])
Print "\n Number of function evaluations =", format$("%u",NBRF&[0])
Beep
WaitInput
End
'--------------------------------------------------------------
' Zu integrierende Funktion:
'--------------------------------------------------------------
Proc FCT : Parameters X!
' Für ein allgemeintes Intervall [x1,x2] sind
' als Stützstellen x = x1 +(x2-x1)*x zu nehmen!
Declare fct!
FCT!=Cos(X!)-2*Sin(X!)
Return FCT!
EndProc
proc DMAX1 :parameters z1!,z2! :return if(z1!>z2!,z1!,z2!)
endproc
'{--------------------------------------------------------------
' QUICK APPROXIMATION using NEWTON COTES of Order 8:
' Proc QANC8 :Parameters A!,B!,AERR!,RERR!,RES!,ERR!,NBF&,FLG!)
'
' INTEGRATE A REAL FUNCTION FCT(X) FROM X=A TO X=B, WITH
' GIVEN ABSOLUTE AND RELATIVE PRECISIONS, AERR, RERR.
' INPUTS:
' FCT EXTERNAL USER-DEFINED FUNCTION FOR ANY X VALUE
' IN INTERVAL (A,B)
' A,B LIMITS OF INTERVAL
' AERR,RERR RESPECTIVELY ABSOLUTE ERROR AND RELATIVE ERROR
' REQUIRED BY USER
' OUTPUTS:
' RES VALUE OF INTEGRAL
' ERR ESTIMATED ERROR
' NBF NUMBER OF NECESSARY FCT(X) EVALUATIONS
' FLG INDICATOR
' = 0.0 CORRECT RESULT
' = NNN.RRR NO CONVERGENCE DU TO A SINGULARITY.
' THE SINGULAR POINT ABCISSA IS GIVEN BY FORMULA:
' XS = B-.RRR*(B-A)
' Ref.: FORSYTHE,G.E. (1977) COMPUTER METHODS FOR MATHEMATICAL
' COMPUTATIONS. PRENTICE-HALL, INC.
' ------------------------------------------------------------
'} IMPLICIT REAL *8 (A-H,O-Z)
Proc QANC8 :Parameters A!,B!,AERR!,RERR!,RES![],ERR![],NBF&[],FLG![]
Declare LMIN&,LMAX&,LOUT&,NMAX&,NFIN&,W0!,W1!,W2!,W3!,W4!
Declare Cor!,Sum!,L&,NIM&,X0!,QP!,PAS!,PAS1!,I&,J&,F0!
Declare QL!,QN!,QD!,ERR1!,Tol1!,TEMP!
Declare QR![31],F![16],X![16],FS![8,30],XS![8,30]
LMIN& = 1
LMAX& = 30
LOUT& = 6
NMAX& = 5000
NFIN& = NMAX&-8*(LMAX&-LOUT&+2^(LOUT&+1))
W0! = 3956/14175
W1! = 23552/14175
W2! = -3712/14175
W3! = 41984/14175
W4! = -18160/14175
FLG![0] = 0
RES![0] = 0
COR! = 0
ERR![0] = 0
SUM! = 0
NBF&[0] = 0
Case A!=B!: Return
L& = 0
NIM& = 1
X0! = A!
X![16] = B!
QP! = 0
F0! = FCT(X0!)
PAS1! = (B!-A!)/16
X![8] = (X0!+X![16])/2
X![4] = (X0!+X![8])/2
X![12] = (X![8]+X![16])/2
X![2] = (X0!+X![4])/2
X![6] = (X![4]+X![8])/2
X![10] = (X![8]+X![12])/2
X![14] = (X![12]+X![16])/2
Whileloop 2,16,2:j&=&Loop
F![J&] = FCT(X![J&])
EndWhile
NBF&[0] = 9
L30:
X![1] = (X0!+X![2])/2
F![1] = FCT(X![1])
WhileLoop 3,15,2:J&=&Loop
X![J&] = (X![J&-1]+X![J&+1])/2
F![J&] = FCT(X![J&])
EndWhile
L35:
NBF&[0] = NBF&[0]+8
PAS! = (X![16]-X0!)/16
QL! = (W0!*(F0!+F![8])+W1!*(F![1]+F![7])+\
W2!*(F![2]+F![6])+W3!*(F![3]+F![5])+W4!*F![4])*PAS!
QR![L&+1] = (W0!*(F![8]+F![16])+W1!*(F![9]+F![15])+\
W2!*(F![10]+F![14])+W3!*(F![11]+F![13])+W4!*F![12])*PAS!
QN! = QL! + QR![L&+1]
QD! = QN! - QP!
SUM! = SUM! + QD!
ERR1! = Abs(QD!)/1023
TOL1! = DMAX1(AERR!, RERR!*Abs(SUM!)) * (PAS!/PAS1!)
Case L&<LMIN&:Goto "L50"
Case L&>=LMAX&:Goto "L62"
Case NBF&[0]>NFIN&:Goto "L60"
Case ERR1!<=TOL1!:Goto "L70"
L50:
NIM& = 2*NIM&
L& = L&+1
WhileLoop 8:i&=&Loop
FS![I&,L&] = F![I&+8]
XS![I&,L&] = X![I&+8]
EndWhile
L52:
QP! = QL!
WhileLoop 8:i&=&Loop
F![18-2*I&] = F![9-I&]
X![18-2*I&] = X![9-I&]
EndWhile
L55:
Goto "L30"
L60:
NFIN& = 2*NFIN&
LMAX& = LOUT&
FLG![0] = FLG![0] + (B!-X0!)/(B!-A!)
Goto "L70"
L62:
FLG![0] = FLG![0] + 1
L70:
RES![0] = RES![0] + QN!
ERR![0] = ERR![0] + ERR1!
COR! = COR! + QD!/1023
L72:
' (A!-H!,O!-Z!)
Case NIM&=(int(NIM&/2)*2):Goto "L75"'Gerade
NIM& = NIM&/2
L& = L&-1
Goto "L72"
L75:
NIM& = NIM&+1
Case L&<=0:Goto "L80"
QP! = QR![L&]
X0! = X![16]
F0! = F![16]
WhileLoop 8:i&=&Loop
F![2*I&] = FS![I&,L&]
X![2*I&] = XS![I&,L&]
Endwhile
Goto "L30"
L80:
RES![0] = RES![0] + COR!
Case ERR![0]=0: RETURN
L82:
TEMP! = Abs(RES![0]) + ERR![0]
Case TEMP!<>Abs(RES![0]): RETURN
ERR![0] = 2*ERR![0]
Goto "L82"
EndProc
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