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- PROGRAM OUTLET
- IMPLICIT NONE
- INTEGER NMMAX,NMAX
- PARAMETER (NMMAX=50000,NMAX=100)
- DOUBLE PRECISION X(NMAX)
- INTEGER I, J, N, M, NM, IT
- INTEGER IPERM(NMAX)
- INTEGER L1(NMAX), L2(NMAX)
- INTEGER PATTERNS ( NMMAX, NMAX )
- INTEGER CONF(NMAX,6), FREQ(NMMAX), IPAT
- DOUBLE PRECISION DFREQ(NMMAX)
- INTEGER PERM ( NMAX, 6), P1(NMAX), P2(NMAX), P(NMAX)
- INTEGER PDISTANCE
- INTEGER NITER
- CHARACTER (LEN=10) STR
- CHARACTER (LEN=20) ARGV
- INTEGER NARG
- CALL GETARG(1, ARGV)
- READ (ARGV,*) N
- CALL GETARG(2, ARGV)
- READ (ARGV,*) M
- CALL GETARG(3, ARGV)
- READ (ARGV,*) NITER
-
- NM = N * M
- DFREQ = 0.D0
- FREQ = 0
- CALL GRAPHS (N,M,PATTERNS,IPAT,FREQ,NITER)
- PRINT*, N, M, IPAT
- DO 10, I = 1, IPAT
- DFREQ ( I ) = DBLE( FREQ(I) ) / DBLE(NITER) * 100.D0
- WRITE(STR,'(I5)') NM
- 10 WRITE(6, "(I5,F8.2," // ADJUSTL(STR) // "I5)" )
- & I, DFREQ( I ), (PATTERNS(I,J), J=1,NM)
-
- END
- SUBROUTINE GRAPHS ( N, M, PATTERNS, IPAT, FREQ, ITMAX )
- IMPLICIT NONE
- INTEGER NMMAX,NMAX
- PARAMETER (NMMAX=50000,NMAX=100)
- INTEGER N, M, NM, IPAT, ITMAX
- INTEGER PATTERNS ( NMMAX, NMAX )
- INTEGER FREQ (NMAX)
- INTEGER I, J, K, IT
- INTEGER PERM ( NMAX, 6), P1(NMAX), P2(NMAX), P(NMAX)
- LOGICAL ISOMORPHICQ
- LOGICAL Q
- NM = N * M
- CALL PERMUTATIONS ( N, 100, PERM )
- C DO 1, I = 1, NM
- C1 PRINT * , ( PERM ( I , J ), J = 1 , N )
- CALL GENER ( N, M, P1 )
- C PRINT *, (P1(I), I=1,NM)
- DO 2, J = 1, NM
- 2 PATTERNS(1,J) = P1(J)
- FREQ = 0
- IPAT = 1
- FREQ(1) = 1
- C MAIN LOOP
- IT = 1
- 10 CONTINUE
- Q = .FALSE.
- CALL GENER ( N, M, P2 )
- C Check isomorphy against all existing patterns
- K = 0
- 20 CONTINUE
- K = K + 1
- DO 12, J = 1, NM
- 12 P1(J) = PATTERNS(K,J)
- IF (ISOMORPHICQ(N,M,P1,P2,PERM)) THEN
- Q = .TRUE.
- FREQ ( K ) = FREQ ( K ) + 1
- IT = IT + 1
- C PRINT*, (P2(J), J=1,NM)
- IF (IT.LT.ITMAX) GOTO 10
- ELSE
- IF (K.LT.IPAT) GOTO 20
- ENDIF
- C If it doesn't match any existing pattern add it
- IF (.NOT. Q) THEN
- IPAT = IPAT + 1
- FREQ(IPAT) = 1
- DO 14, J=1, NM
- 14 PATTERNS(IPAT,J) = P2(J)
- C WRITE(*,'(1H+,A,I5,A)') 'PROGRESS: ', IPAT, '%'
- C PRINT*, (P2(J), J=1,NM)
- ENDIF
- IT = IT + 1
- C IF (ISOMORPHICQ(N,M,P1,P2,PERM)) THEN
- C FREQ(K) = FREQ(K)+1
- C IT = IT + 1
- C IF (IT.LT.ITMAX) GOTO 10
- C GOTO 60
- C ENDIF
- C50 CONTINUE
- IF (IT.LT.ITMAX) GOTO 10
- C55 CONTINUE
- C IF ( Q ) THEN
- C IPAT = IPAT + 1
- C FREQ(IPAT) = 1
- C DO 14, J=1, NM
- C14 PATTERNS(IPAT,J) = P2(J)
- C PRINT*, (P2(J), J=1,NM)
- C ELSE
- C IT = IT + 1
- C IF (IT.LT.ITMAX) GOTO 10
- C60 CONTINUE
- RETURN
- END
- FUNCTION ISOMORPHICQ (N, M, P1, P2, PERM)
- IMPLICIT NONE
- LOGICAL ISOMORPHICQ, Q
- INTEGER N, M
- INTEGER P1( N*M ), P2( N*M ), P3( N*M ), P4( N*M ), P11( N*M )
- INTEGER PERM ( 100, N * M )
- INTEGER I, J, K, NM, FACT, DIFF1, DIFF11
- Q = .FALSE.
- NM = N * M
- FACT = 1
- DO 1, I = 1, N
- 1 FACT = I * FACT
- P11 (1) = P1 (1)
- DO 10, I = 2, NM
- 10 P11(I) = P1(NM+2-I)
- DO 2, I = 1, FACT
- DO 3, J = 1, NM
- 3 P3 ( J ) = PERM ( I , P2 ( J ) )
- C PRINT *, "P3 -> " , (P3(K), K=1,NM)
- DO 2, J = 0, NM - 1
- CALL PADLIST ( P3, P4, NM, J )
- DIFF1 = 0
- DIFF11 = 0
- DO 4, K = 1, NM
- DIFF1 = DIFF1 + ABS ( P4 ( K ) - P1 ( K ) )
- 4 DIFF11 = DIFF11 + ABS ( P4 ( K ) - P11 ( K ) )
- C PRINT *, (P4(K), K=1,NM), DIFF
-
- IF ((DIFF1.EQ.0).OR.(DIFF11.EQ.0)) THEN
- Q = .TRUE.
- GOTO 100
- ENDIF
- 2 CONTINUE
- 100 CONTINUE
- ISOMORPHICQ = Q
- RETURN
- END
- SUBROUTINE GENER ( N, M, P )
- IMPLICIT NONE
- INTEGER NMAX
- PARAMETER (NMAX=100)
- INTEGER N, M, NM
- INTEGER P ( * )
- DOUBLE PRECISION X ( NMAX )
- INTEGER IPERM (NMAX) , IER
- INTEGER I
- NM = N * M
- DO 1, I=1, NM
- 1 X(I) = RAND()
- CALL DPSORT(X, NM, IPERM, 1, IER)
- DO 2, I = 1, NM
- 2 P ( I ) = ( IPERM ( I ) - 1 ) / M + 1
- RETURN
- END
- SUBROUTINE PERMUTATIONS ( M, MMAX, PERM )
- IMPLICIT NONE
- INTEGER M, MMAX, MFAC
- INTEGER PERM ( MMAX, M )
- INTEGER I, J, A ( M )
- LOGICAL NEXTP
- EXTERNAL NEXTP
- MFAC = 1
- DO 1, I = 1, M
- A ( I ) = I
- PERM ( 1, I ) = A ( I )
- MFAC = MFAC * I
- 1 CONTINUE
- DO 2, I = 2, MFAC
- IF(NEXTP(M, A)) THEN
- DO 3, J = 1, M
- 3 PERM ( I, J ) = A ( J )
- ENDIF
- 2 CONTINUE
- RETURN
- END
- C SUBROUTINE PATTERNS ( CONF, NMAX, N, M, IT, DIST )
- C IMPLICIT NONE
- C INTEGER NMAX, N, M, IT
- C INTEGER CONF ( NMAX, N ), DIST ( NMAX )
- C INTEGER A(M)
- C DOUBLE PRECISION X ( N )
- C INTEGER PERMUT ( NMAX, N )
- C INTEGER I, J
- C DO 1, I=1, M
- C A(I) = I
- C 1 CONTINUE
- C DO 2, I = 1, M
- C END
- SUBROUTINE PADLIST ( L1, L2, N, INC )
- IMPLICIT NONE
- INTEGER N, INC, I
- INTEGER L1 ( N ), L2 ( N )
- IF (INC.LE.-1) GOTO 50
- IF (ABS(INC).GE.N) THEN
- PRINT*, "Incorrect value of INC, try smaller value"
- GOTO 100
- ENDIF
- DO 10, I=1, N
- IF(I+INC.LE.N) THEN
- L2(I+INC) = L1(I)
- ELSE
- L2(I+INC-N) = L1(I)
- ENDIF
- 10 CONTINUE
- GOTO 100
- 50 CONTINUE
- DO 11, I=1, N
- IF(I+INC.GE.1) THEN
- L2(I+INC) = L1(I)
- ELSE
- L2(I+INC+N) = L1(I)
- ENDIF
- 11 CONTINUE
- 100 CONTINUE
- RETURN
- END
- FUNCTION NEXTP(N,A)
- INTEGER N,A,I,J,K,T
- LOGICAL NEXTP
- DIMENSION A(N)
- I=N-1
- 10 IF(A(I).LT.A(I+1)) GO TO 20
- I=I-1
- IF(I.EQ.0) GO TO 20
- GO TO 10
- 20 J=I+1
- K=N
- 30 T=A(J)
- A(J)=A(K)
- A(K)=T
- J=J+1
- K=K-1
- IF(J.LT.K) GO TO 30
- J=I
- IF(J.NE.0) GO TO 40
- NEXTP=.FALSE.
- RETURN
- 40 J=J+1
- IF(A(J).LT.A(I)) GO TO 40
- T=A(I)
- A(I)=A(J)
- A(J)=T
- NEXTP=.TRUE.
- END
- FUNCTION PDISTANCE (N, M, P1, P2, PERM)
- IMPLICIT NONE
- INTEGER N, M
- INTEGER P1( N*M ), P2( N*M ), P3( N*M ), P4( N*M ), P11( N*M )
- INTEGER PERM ( 100, N * M )
- INTEGER I, J, K, NM, FACT, DIFF1, DIFF11
- INTEGER Q
- Q = 1000
- NM = N * M
- FACT = 1
- DO 1, I = 1, N
- 1 FACT = I * FACT
- P11 (1) = P1 (1)
- DO 10, I = 2, NM
- 10 P11(I) = P1(NM+2-I)
- DO 2, I = 1, FACT
- DO 3, J = 1, NM
- 3 P3 ( J ) = PERM ( I , P2 ( J ) )
- C PRINT *, "P3 -> " , (P3(K), K=1,NM)
- DO 2, J = 0, NM - 1
- CALL PADLIST ( P3, P4, NM, J )
- DIFF1 = 0
- DIFF11 = 0
- DO 4, K = 1, NM
- DIFF1 = DIFF1 + ABS ( P4 ( K ) - P1 ( K ) )
- 4 DIFF11 = DIFF11 + ABS ( P4 ( K ) - P11 ( K ) )
- C PRINT *, (P4(K), K=1,NM), DIFF
-
- DIFFMIN = MIN ( DIFF1, DIFF11 )
- 2 CONTINUE
- PDISTANCE = DIFFMIN
- RETURN
- END
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