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1.1 bertrand 1: DOUBLE COMPLEX FUNCTION ZDOTC(N,ZX,INCX,ZY,INCY)
2: * .. Scalar Arguments ..
3: INTEGER INCX,INCY,N
4: * ..
5: * .. Array Arguments ..
6: DOUBLE COMPLEX ZX(*),ZY(*)
7: * ..
8: *
9: * Purpose
10: * =======
11: *
12: * ZDOTC forms the dot product of a vector.
13: *
14: * Further Details
15: * ===============
16: *
17: * jack dongarra, 3/11/78.
18: * modified 12/3/93, array(1) declarations changed to array(*)
19: *
20: * =====================================================================
21: *
22: * .. Local Scalars ..
23: DOUBLE COMPLEX ZTEMP
24: INTEGER I,IX,IY
25: * ..
26: * .. Intrinsic Functions ..
27: INTRINSIC DCONJG
28: * ..
29: ZTEMP = (0.0d0,0.0d0)
30: ZDOTC = (0.0d0,0.0d0)
31: IF (N.LE.0) RETURN
32: IF (INCX.EQ.1 .AND. INCY.EQ.1) GO TO 20
33: *
34: * code for unequal increments or equal increments
35: * not equal to 1
36: *
37: IX = 1
38: IY = 1
39: IF (INCX.LT.0) IX = (-N+1)*INCX + 1
40: IF (INCY.LT.0) IY = (-N+1)*INCY + 1
41: DO 10 I = 1,N
42: ZTEMP = ZTEMP + DCONJG(ZX(IX))*ZY(IY)
43: IX = IX + INCX
44: IY = IY + INCY
45: 10 CONTINUE
46: ZDOTC = ZTEMP
47: RETURN
48: *
49: * code for both increments equal to 1
50: *
51: 20 DO 30 I = 1,N
52: ZTEMP = ZTEMP + DCONJG(ZX(I))*ZY(I)
53: 30 CONTINUE
54: ZDOTC = ZTEMP
55: RETURN
56: END