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decus/20-0068/free.imc
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TWOSEG;
#THIS IS FILE FREE, FREE STORAGE MODULE WITH RELOCATABLE ARRAYS.
FREE(A) RETURNS CONTENTS OF LOCATION A.
FREES(A,V) DEPOSITS VALUE V IN LOCATION A.
FLEN(A) RETURNS THE CURRENT LENGTH OF THE ARRAY POINTED TO BY A.
FNAME(A) RETURNS THE NAME OF THE ARRAY POINTED TO BY A.
FADD(A,N,V) DEPOSITS V IN LOCATION A+N, THEN INCREMENTS N BY 1.
FALLOT(A,N) SETS TO N THE LENGTH OF THE ARRAY POINTED TO BY A.
IF THE VALUE OF A IS >18 BITS, A NEW ARRAY IS ALLOCATED WITH
NAME A. IT RETURNS AN UPDATED POINTER TO THE FIRST WORD OF THE ARRAY.
FALLOT(A,0) DELETES THE ARRAY AND RETURNS ITS AREA TO FREE STORAGE.
FRELOT(A,AA,N,S) ALLOCATES A RELOCATABLE ARRAY OF LENGTH N NAMED AA.
THE POINTER TO THE ARRAY IS RETURNED IN A, AND S IS THE NAME OF A
SUBROUTINE WHICH WILL BE CALLED WHENEVER THE ARRAY IS RELOCATED.
BEFORE S IS CALLED, THE POINTER A WILL BE UPDATED.
FINCSET(A,N) SETS TO N THE INCREMENT TO THE SIZE OF THE ARRAY WHICH
FADD REQUESTS WHENEVER IT RUNS OUT OF SPACE. THIS SUPERSEDES THE
NOMINAL INCREMENT, WHICH IS SET BY FINCSET(0,N).
FADDEX(A,N) IS CALLED BY FADD TO EXTEND THE ARRAY POINTED TO BY A.
THE LENGTH OF A IS SET TO N+INCREMENT.
FTRACE(V) SETS TRACE SELECTION BITS TO V. V NE 0 => PRINT PARAMETERS
OF EACH CALL ON FALLOT; V AND 2 => PRINT STORAGE MAP AFTER ANY CALL
ON FALLOT WHICH ALTERS THE ORDER OF THE ARRAYS; V AND 4 => PRINT
STORAGE MAP AFTER EVERY CALL ON FALLOT.
FMAP() PRINTS A MAP OF FREE STORAGE.
FSTATS() PRINTS THE LOCATION AND SIZE OF THE FREE STORAGE AREA.
FINIT() INITIALIZES THIS MODULE. IT IS CALLED AUTOMATICALLY BY FALLOT.
FCLOSE() REPACKS THE RELOCATABLE ARRAYS AND SHRINKS THE SIZE OF CORE
ACCORDINGLY. INITIALIZATION IS RESCINDED. SUBSEQUENT FALLOTS WILL
OPEN A NEW FREE STORAGE AREA.
EACH ACTIVE FREE STORAGE ARRAY POSSESSES A 4-WORD HEADER WHICH HAS
THE FORMAT:
WORD 1 POINTER BACK,,POINTER FORWARD
WORD 2 NAME OF ARRAY
WORD 3 INCREMENT FOR FADD,,CURRENT LENGTH
WORD 4 LOCATION OF POINTER,,LOCATION OF SUBROUTINE
(IF WORD 4 IS NON-ZERO, ARRAY IS RELOCATABLE)
THESE HEADERS ARE ENTERRED INTO A DOUBLY-LINKED LIST WHICH EXTENDS FROM
THE DUMMY HEADER AT FORG TO THE DUMMY HEADER AT FEND. #
FORG IS COMMON,1 LONG;
8R IS RESERVED,SCRATCH;
#SUBR FREE(A) IS [FORG+A];
SUBR FREES(A,V) IS [FORG+A]_V;
SUBR FLEN(A) IS [FORG+A-2]<R>;#
SUBR FNAME(A) IS [FORG+A-3];
#SUBR FADD(A,N,V) IS (FLEN(A) LE N => FADDEX(A,N);
FREES(A+N,V); N_N+1);#
SUBR FADDEX(A,N) IS (K_[FORG+A-2]<L>;
K=0 => K_INCNOM;
K LE 0 => K_1;
A_FALLOT(A,N+K));
SUBR FINCSET(A,N) IS (A=0 => INCNOM_N;
A => N GE 0 => [FORG+A-2]<L>_N);
SUBR FTRACE(V) IS TRACE_V;
SUBR FALLOT(A,N) IS (
TRACE OR FLAG'Z'=>(FALN_FALN+1; FTI_FTI-CALLI(27B,0));
INIT=0 => FINIT();
A RS 18 => (FHEAD IS 4 LONG; X_LOC(FHEAD);
[X]_X OR X LS 18; [X+1]_A;
V_W_X; LX_0; GO TO FA3);
TR_4; X_FORG+A-4;
V_[X]<L>; W_[X]<R>; LX_[X+2]<R>;
N LE 0 => ([V]<R>_W; [W]<L>_V; GO TO FAX);
N+4 LE W-X => (FA1: [X+2]<R>_N;
Y_X+4+LX; K_(N-1)-LX;
K GE 0 => ([Y+I]_0 FOR I FROM K);
GO TO FAX);
TR_6;
Y_V+4+[V+2]<R>;
N+4 LE W-Y => (FA2: 8R_Y+X LS 18;
BLT<R>_Y+LX+3;
EXECUTE BLT;
[V]<R>_Y; [W]<L>_Y;
X_Y; GO TO FA1);
FA3: TR_6;
(Y_FGAP(N+4)) => (FA4: V_[X]<L>; W_[X]<R>;
[V]<R>_W; [W]<L>_V;
V_Y; W_[Y]<R>;
[X]_W OR V LS 18;
Y_V+4+[V+2]<R>;
GO TO FA2);
MM_N+4; [X]<R>=FEND => MM_N-LX;
FTOP(MM) => (Y_[FEND]<L>; Y=X => GO TO FA1; GO TO FA4);
X3SV_[X+3]; [X+3]_-1; XFIX_X;
FPACK(); X_XFIX; [X+3]_X3SV;
(Y_FGAP(N+4)) => (Y=X => GO TO FA1; GO TO FA4);
MM_N+4; [X]<R>=FEND => MM_N-LX;
FTOP(MM) => (Y_[FEND]<L>; Y=X => GO TO FA1; GO TO FA4);
#ONLY HOPE AT THIS POINT IS THAT ARRAY CAN BE MOVED
PIECEMEAL TO LAST POSITION AND ORIGINAL SPACE RECOVERED#
FALOTR(X,N); FMAP();
ERROR(0,'FREE STORAGE EXHAUSTED. ');
FAX: N>0 => FFIXER(X);
TRACE => FALOTR(X,N);
TRACE AND TR => FMAP();
TRACE OR FLAG'Z'=>FTI_FTI+CALLI(27B,0);
N>0 => X+4-FORG ELSE 0);
SUBR FRELOT(A,AA,N,S) IS (X_FALLOT(AA,N)+FORG-4;
[X+3]_LOC(A) LS 18;
S => [X+3]<R>_LOC(S);
FFIXER(X));
SUBR FFIXER(X) IS ((Y_[X+3])=0 => RETURN 0;
Y=-1 => (XFIX_X; RETURN 0);
[Y<L>]_X+4-FORG;
(Y_Y<R>) => (JSA_Y OR 2667B LS 24; EXECUTE JSA));
SUBR FGAP(N) IS (
K_FORGN; K0_0; K1_64000;
WHILE K NE FEND DO (K2_[K]<R>;
K NE [K2]<L> => (FMAP();
ERROR(0,'FREE STORAGE UNLINKED. '));
K2 NE FEND => (K3_K2-(K+4+[K+2]<R>);
N LE K3 => K3<K1 => (K0_K; K1_K3));
K_K2);
K0);
SUBR FPACK() IS (
I_FORGN;
FP0: (J_[I]<R>)=FEND => GO TO FPX;
J1_I+4+[I+2]<R>;
J1=J => (I_J; GO TO FP0);
[J+3] => ([I]<R>_J1; K_[J]<R>; [K]<L>_J1;
8R_J1+J LS 18;
BLT<R>_J1+3+[J+2]<R>;
EXECUTE BLT;
FFIXER(J1);
I_J1; GO TO FP0);
K_[J]<R>; K0_K1_0;
WHILE K NE FEND DO ([K+3] => (K2_J1+3+[K+2]<R>;
K2<J => K2>K1 => (K0_K; K1_K2));
K_[K]<R>);
K0=0 => (I_J; GO TO FP0);
8R_J1+K0 LS 18;
BLT<R>_K1; EXECUTE BLT;
[I]<R>_J1; [J]<L>_J1;
K1_[J1]<L>; K2_[J1]<R>;
[J1]_J OR I LS 18;
[K1]<R>_K2; [K2]<L>_K1;
FFIXER(J1);
I_J1; GO TO FP0;
FPX: 0);
SUBR FALOTR(X,N) IS (NM IS 2 LONG; NM_[X+1]; NN_N;
PRINT STG 0,'FALLOT ',NM,' ',IGR 0,NN,/);
SUBR FMAP() IS (PRINT STG 0,' ARRAY ORG LENGTH GAP',/;
K_FORGN;
FM0: K GE FORGN => K NE FEND => (NM_[K+1]; PRINT STG 6,NM,STG 0;
[K+3] => PRINT ' ' ELSE PRINT '.';
K1_[K]<R>; L_[K+2]<R>;
PRINT ' ',OCT 5,K-FORGN,IGR 5,L,K1-(K+4+L),/;
K_K1; GO TO FM0);
FSTATS());
SUBR FSTATS() IS (PRINT STG 0,'FREE STORAGE ',IGR 0,FEND+4-FORG,STG 0,
' WORDS: ',OCT 0,FORGN,STG 0,' - ',OCT 0,FEND+3,/;
FALN=>(PRINT IGR 6,FALN,STG 0,' REALLOTS IN ',IGR 0,
FTI,STG 0,' MSEC.',/; FALN_FTI_0));
!.JBFF!,!.JBREL!,!.JBSA! ARE COMMON;
SUBR FTOP(N) IS (K_[FEND]<L>; V_0;
K_FEND-(K+4+[K+2]<R>);
N LE K => GO TO FTX;
K_1777B OR FEND+3+N-K;
CORE(K) => (!.JBREL!_K; !.JBFF!_K+1;
!.JBSA!<L>_K+1;
K_K-3;
[K]_[FEND]; [K+1]_[K+2]_[K+3]_0;
Y_[K]<L>; [Y]<R>_K; FEND_K;
GO TO FTX);
V_1; FTX: V_V-1);
SUBR FINIT() IS (FORGN_!.JBFF!;
K_1777B OR FORGN+7;
CORE(K) => (!.JBREL!_K; !.JBFF!_K+1;
!.JBSA!<L>_K+1;
FEND_K-3;
[FORGN]_FEND; [FEND]_FORGN LS 18;
[FORGN+1]_'FORGN'; [FORGN+2]_[FORGN+3]_0;
[FEND+1]_[FEND+2]_[FEND+3]_0;
INCNOM_8; BLT_2514B LS 24;
FORG_0;
INIT_1; GO TO FINX);
ERROR(0,'CANNOT GET CORE TO INITIALIZE FREE STORAGE. ');
FINX: 0);
SUBR FCLOSE() IS (FPACK();
X_[FEND]<L>;
Y_X+4+[X+2]<R>;
[Y+I]_[FEND+I] FOR I FROM 3;
[X]<R>_Y; FEND_Y; Y_Y+3;
!.JBREL!_Y; !.JBFF!_Y+1;
!.JBSA!<L>_Y+1;
CORE(1777B OR Y);
INIT_0) %%%
#THE ENTRY POINTS (SUBROUTINE NAMES) FOR THIS MODULE ARE: FREE, FREES, FLEN,
FNAME, FADD, FADDEX, FINCSET, FTRACE, FALLOT, FRELOT, FFIXER, FGAP, FPACK,
FALOTR, FMAP, FSTATS, FTOP, FINIT, FCLOSE. FORG IS DECLARED GLOBAL.
IF THIS MODULE IS USED SEPARATELY FROM THE IMP COMPILER, TWO SUBROUTINE
REFERENCES MUST BE RESOLVED: CORE(N), WHICH SETS THE SIZE OF THE LOW SEGMENT
TO N, AND ERROR(N,S), WHICH REPORTS AN ERROR DESCRIBED BY THE STRING S AND
HALTS IF N=0.#
SUBR CORE(N) IS (VAL_1; 8R_N;
DATA(047400000011B); VAL_0;
VAL);
SUBR ERROR(N,S) IS (OUTSTR('** ERROR - '); OUTSTR(S);
OUTSTR((015B LS 29)+(012B LS 22));
SS IS 7 LONG; SS[I]_S[I] FOR I FROM 5;
PRINT STG 0,'** ERROR - ',SS,/;
N=0 => FINI(0)) %%%