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701 lines
15 KiB
C
701 lines
15 KiB
C
/*---------------------------------------------------------------------------
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*
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* lib_mvcur.c
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*
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* The routine mvcur() etc.
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*
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* last edit-date: [Wed Jun 16 14:13:22 1993]
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*
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* -hm conversion from termcap -> terminfo
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* -hm optimization debugging
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* -hm zeyd's ncurses 0.7 update
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* -hm eat_newline_glitch bugfix
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* -hm hpux lint'ing ..
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*
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*---------------------------------------------------------------------------*/
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/* This work is copyrighted. See COPYRIGHT.OLD & COPYRIGHT.NEW for *
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* details. If they are missing then this copy is in violation of *
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* the copyright conditions. */
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#include <string.h>
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#include <stdlib.h>
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#include "terminfo.h"
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#include "curses.priv.h"
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#ifndef OPT_MVCUR
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/*
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**
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** mvcur(oldrow, oldcol, newrow, newcol)
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** A hack for terminals that are smart enough
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** to know how to move cursor.
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** There is still a bug in the alternative long-
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** winded code.
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**
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*/
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int mvcur(int oldrow, int oldcol, int newrow, int newcol)
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{
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T(("mvcur(%d,%d,%d,%d) called", oldrow, oldcol, newrow, newcol));
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if(!cursor_address)
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return ERR;
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newrow %= lines;
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newcol %= columns;
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if (cursor_address)
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putp(tparm(cursor_address, newrow, newcol));
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return OK;
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}
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#else
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#define BUFSIZE 128 /* size of strategy buffer */
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struct Sequence
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{
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int vec[BUFSIZE]; /* vector of operations */
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int *end; /* end of vector */
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int cost; /* cost of vector */
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};
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static void row(struct Sequence *outseq, int orow, int nrow);
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static void column(struct Sequence *outseq, int ocol, int ncol);
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static void simp_col(struct Sequence *outseq, int oc, int nc);
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static void zero_seq(struct Sequence *seq);
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static void add_seq(struct Sequence *seq1, struct Sequence *seq2);
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static void out_seq(struct Sequence *seq);
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static void update_ops(void);
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static void init_costs(int costs[]);
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static int countc(char ch);
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static void add_op(struct Sequence *seq, int op, ...);
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static char *sequence(int op);
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static int c_count; /* used for counting tputs output */
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#define INFINITY 1000 /* biggest, impossible sequence cost */
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#define NUM_OPS 16 /* num. term. control sequences */
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#define NUM_NPARM 9 /* num. ops wo/ parameters */
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/* operator indexes into op_info */
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#define CARRIAGE_RETURN 0 /* watch out for nl mapping */
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#define CURS_DOWN 1
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#define CURS_HOME 2
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#define CURS_LEFT 3
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#define CURS_RIGHT 4
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#define CURS_TO_LL 5
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#define CURS_UP 6
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#define TAB 7
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#define BACK_TAB 8
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#define ROW_ADDR 9
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#define COL_ADDR 10
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#define P_DOWN_CURS 11
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#define P_LEFT_CURS 12
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#define P_RIGHT_CURS 13
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#define P_UP_CURS 14
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#define CURS_ADDR 15
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static bool loc_init = FALSE; /* set if op_info is init'ed */
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static bool rel_ok; /* set if we really know where we are */
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/*
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* op_info[NUM_OPS]
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*
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* op_info[] contains for operations with no parameters
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* the cost of the operation. These ops should be first in the array.
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* For operations with parameters, op_info[] contains
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* the negative of the number of parameters.
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*/
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static int op_info[NUM_OPS] = {
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0, /* carriage_return */
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0, /* cursor_down */
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0, /* cursor_home */
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0, /* cursor_left */
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0, /* cursor_right */
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0, /* cursor_to_ll */
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0, /* cursor_up */
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0, /* tab */
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0, /* back_tab */
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-1, /* row_address */
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-1, /* column_address */
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-1, /* parm_down_cursor */
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-1, /* parm_left_cursor */
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-1, /* parm_right_cursor */
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-1, /* parm_up_cursor */
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-2 /* cursor_address */
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};
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/*
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** Make_seq_best(best, try)
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**
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** Make_seq_best() copies try to best if try->cost < best->cost
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**
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** fixed the old version, now it really runs .. (-hm/08.04.93)
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**
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*/
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inline void Make_seq_best(struct Sequence *best, struct Sequence *try)
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{
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if (best->cost > try->cost) {
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register int *sptr;
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sptr = try->vec; /* src ptr */
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best->end = best->vec; /* dst ptr */
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while(sptr != try->end) /* copy src -> dst */
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*(best->end++) = *(sptr++);
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best->cost = try->cost; /* copy cost */
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}
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}
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/*
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**
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** mvcur(oldrow, oldcol, newrow, newcol)
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**
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** mvcur() optimally moves the cursor from the position
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** specified by (oldrow, oldcol) to (newrow, newcol). If
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** (oldrow, oldcol) == (-1, -1), mvcur() does not use relative
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** cursor motions. If the coordinates are otherwise
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** out of bounds, it mods them into range.
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**
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** Revisions needed:
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** eat_newline_glitch, auto_right_margin
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*/
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int mvcur(int oldrow, int oldcol, int newrow, int newcol)
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{
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struct Sequence seqA, seqB, /* allocate work structures */
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col0seq, /* sequence to get from col0 to nc */
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*best, /* best sequence so far */
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*try; /* next try */
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bool nlstat = SP->_nl; /* nl-output-mapping in effect ?*/
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T(("=============================\nmvcur(%d,%d,%d,%d) called",
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oldrow, oldcol, newrow, newcol));
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if ((oldrow == newrow) && (oldcol == newcol))
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return OK;
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if (oldcol == columns-1 && eat_newline_glitch && auto_right_margin) {
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putp(tparm(cursor_address, newrow, newcol));
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return OK;
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}
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#if 0
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if (nlstat)
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nonl();
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#endif
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update_ops(); /* make sure op_info[] is current */
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if (oldrow < 0 || oldcol < 0 || (eat_newline_glitch && oldcol == 0 )) {
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rel_ok = FALSE; /* relative ops ok? */
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} else {
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rel_ok = TRUE;
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oldrow %= lines; /* mod values into range */
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oldcol %= columns;
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}
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newrow %= lines;
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newcol %= columns;
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best = &seqA;
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try = &seqB;
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/* try out direct cursor addressing */
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zero_seq(best);
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add_op(best, CURS_ADDR, newrow, newcol);
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/* try out independent row/column addressing */
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if(rel_ok) {
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zero_seq(try);
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row(try, oldrow, newrow);
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column(try, oldcol, newcol);
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Make_seq_best(best, try);
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}
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zero_seq(&col0seq); /* store seq. to get from c0 to nc */
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column(&col0seq, 0, newcol);
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if(col0seq.cost < INFINITY) { /* can get from col0 to newcol */
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/* try out homing and then row/column */
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if (! rel_ok || newcol < oldcol || newrow < oldrow) {
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zero_seq(try);
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add_op(try, CURS_HOME, 1);
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row(try, 0, newrow);
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add_seq(try, &col0seq);
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Make_seq_best(best, try);
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}
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/* try out homing to last line and then row/column */
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if (! rel_ok || newcol < oldcol || newrow > oldrow) {
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zero_seq(try);
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add_op(try, CURS_TO_LL, 1);
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row(try, lines - 1, newrow);
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add_seq(try, &col0seq);
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Make_seq_best(best, try);
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}
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}
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out_seq(best);
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#if 0
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if(nlstat)
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nl();
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#endif
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T(("==================================="));
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return OK;
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}
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/*
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** row(outseq, oldrow, newrow)
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**
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** row() adds the best sequence for moving
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** the cursor from oldrow to newrow to seq.
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** row() considers row_address, parm_up/down_cursor
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** and cursor_up/down.
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*/
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static void
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row(struct Sequence *outseq, /* where to put the output */
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int orow, int nrow) /* old, new cursor locations */
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{
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struct Sequence seqA, seqB,
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*best, /* best sequence so far */
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*try; /* next try */
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int parm_cursor, one_step;
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best = &seqA;
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try = &seqB;
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if (nrow == orow)
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return;
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if (nrow < orow) {
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parm_cursor = P_UP_CURS;
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one_step = CURS_UP;
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} else {
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parm_cursor = P_DOWN_CURS;
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one_step = CURS_DOWN;
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}
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/* try out direct row addressing */
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zero_seq(best);
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add_op(best, ROW_ADDR, nrow);
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/* try out paramaterized up or down motion */
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if (rel_ok) {
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zero_seq(try);
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add_op(try, parm_cursor, abs(orow - nrow));
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Make_seq_best(best, try);
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}
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/* try getting there one step at a time... */
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if (rel_ok) {
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zero_seq(try);
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add_op(try, one_step, abs(orow-nrow));
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Make_seq_best(best, try);
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}
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add_seq(outseq, best);
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}
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/*
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** column(outseq, oldcol, newcol)
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**
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** column() adds the best sequence for moving
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** the cursor from oldcol to newcol to outseq.
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** column() considers column_address, parm_left/right_cursor,
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** simp_col(), and carriage_return followed by simp_col().
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*/
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static void column(struct Sequence *outseq, /* where to put the output */
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int ocol, int ncol) /* old, new cursor column */
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{
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struct Sequence seqA, seqB,
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*best, *try;
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int parm_cursor; /* set to either parm_up/down_cursor */
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best = &seqA;
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try = &seqB;
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if (ncol == ocol)
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return;
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if (ncol < ocol)
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parm_cursor = P_LEFT_CURS;
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else
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parm_cursor = P_RIGHT_CURS;
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/* try out direct column addressing */
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zero_seq(best);
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add_op(best, COL_ADDR, ncol);
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/* try carriage_return then simp_col() */
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if(! rel_ok || (ncol < ocol)) {
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zero_seq(try);
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add_op(try, CARRIAGE_RETURN, 1);
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simp_col(try, 0, ncol);
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Make_seq_best(best, try);
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}
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if(rel_ok) {
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/* try out paramaterized left or right motion */
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zero_seq(try);
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add_op(try, parm_cursor, abs(ocol - ncol));
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Make_seq_best(best, try);
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/* try getting there with simp_col() */
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zero_seq(try);
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simp_col(try, ocol, ncol);
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Make_seq_best(best, try);
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}
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add_seq(outseq, best);
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}
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/*
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** simp_col(outseq, oldcol, newcol)
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**
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** simp_col() adds the best simple sequence for getting
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** from oldcol to newcol to outseq.
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** simp_col() considers (back_)tab and cursor_left/right.
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**
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** Revisions needed:
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** Simp_col asssumes that the cost of a (back_)tab
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** is less then the cost of one-stepping to get to the same column.
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** Should sometimes use overprinting instead of cursor_right.
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*/
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static void
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simp_col( struct Sequence *outseq, /* place to put sequence */
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int oc, int nc) /* old column, new column */
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{
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struct Sequence seqA, seqB, tabseq,
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*best, *try;
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int mytab, tabs, onepast,
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one_step, opp_step;
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onepast = -1;
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if (oc == nc)
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return;
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if(! rel_ok) {
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outseq->cost = INFINITY;
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return;
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}
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best = &seqA;
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try = &seqB;
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if(oc < nc) {
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mytab = TAB;
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if (init_tabs > 0 && op_info[TAB] < INFINITY) {
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tabs = (nc / init_tabs) - (oc / init_tabs);
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onepast = ((nc / init_tabs) + 1) * init_tabs;
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if (tabs)
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oc = onepast - init_tabs; /* consider it done */
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} else {
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tabs = 0;
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}
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one_step = CURS_RIGHT;
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opp_step = CURS_LEFT;
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} else {
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mytab = BACK_TAB;
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if (init_tabs > 0 && op_info[BACK_TAB] < INFINITY) {
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tabs = (oc / init_tabs) - (nc / init_tabs);
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onepast = ((nc - 1) / init_tabs) * init_tabs;
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if (tabs)
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oc = onepast + init_tabs; /* consider it done */
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} else {
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tabs = 0;
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}
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one_step = CURS_LEFT;
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opp_step = CURS_RIGHT;
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}
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/* tab as close as possible to nc */
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zero_seq(&tabseq);
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add_op(&tabseq, mytab, tabs);
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/* try extra tab and backing up */
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zero_seq(best);
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if (onepast >= 0 && onepast < columns) {
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add_op(best, mytab, 1);
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add_op(best, opp_step, abs(onepast - nc));
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} else {
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best->cost = INFINITY; /* make sure of next swap */
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}
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/* try stepping to nc */
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zero_seq(try);
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add_op(try, one_step, abs(nc - oc));
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Make_seq_best(best, try);
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if (tabseq.cost < INFINITY)
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add_seq(outseq, &tabseq);
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add_seq(outseq, best);
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}
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/*
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** zero_seq(seq) empties seq.
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** add_seq(seq1, seq2) adds seq1 to seq2.
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** out_seq(seq) outputs a sequence.
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*/
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static void
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zero_seq(seq)
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struct Sequence *seq;
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{
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seq->end = seq->vec;
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seq->cost = 0;
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}
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static void
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add_seq(struct Sequence *seq1, struct Sequence *seq2)
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{
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int *vptr;
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T(("add_seq(%x, %x)", seq1, seq2));
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if(seq1->cost >= INFINITY || seq2->cost >= INFINITY)
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seq1->cost = INFINITY;
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else {
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vptr = seq2->vec;
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while (vptr != seq2->end)
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*(seq1->end++) = *(vptr++);
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seq1->cost += seq2->cost;
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}
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}
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static void
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out_seq(struct Sequence *seq)
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{
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int *opptr, prm[9], ps, p, op;
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int count;
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char *sequence();
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T(("out_seq(%x)", seq));
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if (seq->cost >= INFINITY)
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return;
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for (opptr = seq->vec; opptr < seq->end; opptr++) {
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op = *opptr; /* grab operator */
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ps = -op_info[op];
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if(ps > 0) { /* parameterized */
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for (p = 0; p < ps; p++) /* fill in needed parms */
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prm[p] = *(++opptr);
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putp(tparm(sequence(op),
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prm[0], prm[1], prm[2], prm[3], prm[4],
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prm[5], prm[6], prm[7], prm[8]));
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} else {
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count = *(++opptr);
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/*rev should save tputs output instead of mult calls */
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while (count--) /* do count times */
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putp(sequence(op));
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}
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}
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}
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/*
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** update_ops()
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**
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** update_ops() makes sure that
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** the op_info[] array is updated and initializes
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** the cost array for SP if needed.
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*/
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static void
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update_ops()
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{
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T(("update_ops()"));
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if (SP) { /* SP structure exists */
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int op;
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if (! SP->_costinit) { /* this term not yet assigned costs */
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loc_init = FALSE; /* if !SP in the future, new term */
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init_costs(SP->_costs); /* fill term costs */
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SP->_costinit = TRUE;
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}
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for (op = 0; op < NUM_NPARM; op++)
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op_info[op] = SP->_costs[op]; /* set up op_info */
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/* check for newline that might be mapped... */
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if (SP->_nlmapping && index(sequence(CURS_DOWN), '\n'))
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op_info[CURS_DOWN] = INFINITY;
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} else {
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if (! loc_init) { /* using local costs */
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|
loc_init = TRUE;
|
|
init_costs(op_info); /* set up op_info */
|
|
}
|
|
|
|
/* check for newline that might be mapped... */
|
|
|
|
if (index(sequence(CURS_DOWN), '\n'))
|
|
op_info[CURS_DOWN] = INFINITY;
|
|
}
|
|
}
|
|
|
|
|
|
/*
|
|
** init_costs(costs)
|
|
**
|
|
** init_costs() fills the array costs[NUM_NPARM]
|
|
** with costs calculated by doing tputs() calls.
|
|
*/
|
|
|
|
static void
|
|
init_costs(int costs[])
|
|
{
|
|
int i;
|
|
|
|
for (i = 0; i < NUM_NPARM; i++) {
|
|
if (sequence(i) != (char *) 0) {
|
|
c_count = 0;
|
|
tputs(sequence(i), 1, countc);
|
|
costs[i] = c_count;
|
|
} else
|
|
costs[i] = INFINITY;
|
|
}
|
|
}
|
|
|
|
|
|
/*
|
|
** countc() increments global var c_count.
|
|
*/
|
|
|
|
static int countc(char ch)
|
|
{
|
|
return(c_count++);
|
|
}
|
|
|
|
/*
|
|
** add_op(seq, op, p0, p1, ... , p8)
|
|
**
|
|
** add_op() adds the operator op and the appropriate
|
|
** number of paramaters to seq. It also increases the
|
|
** cost appropriately.
|
|
** if op has no parameters, p0 is taken to be a count.
|
|
*/
|
|
|
|
static void add_op(struct Sequence *seq, int op, ...)
|
|
{
|
|
va_list argp;
|
|
int num_ps, p;
|
|
|
|
T(("adding op %d to sequence", op));
|
|
|
|
va_start(argp, op);
|
|
|
|
num_ps = - op_info[op]; /* get parms or -cost */
|
|
|
|
*(seq->end++) = op;
|
|
|
|
if (num_ps == (- INFINITY) || sequence(op) == (char *) 0) {
|
|
seq->cost = INFINITY;
|
|
} else if (num_ps <= 0) { /* no parms, -cost */
|
|
int i = va_arg(argp, int);
|
|
seq->cost -= i * num_ps; /* ADD count * cost */
|
|
*(seq->end++) = i;
|
|
} else {
|
|
int prm[9];
|
|
|
|
for (p = 0; p < num_ps; p++)
|
|
*(seq->end++) = prm[p] = va_arg(argp, int);
|
|
|
|
c_count = 0;
|
|
|
|
tputs(tparm(sequence(op), prm[0], prm[1], prm[2], prm[3], prm[4],
|
|
prm[5], prm[6], prm[7], prm[8]), 1, countc);
|
|
|
|
seq->cost += c_count;
|
|
}
|
|
va_end(argp);
|
|
}
|
|
|
|
|
|
/*
|
|
** char *sequence(op)
|
|
**
|
|
** sequence() returns a pointer to the op's
|
|
** terminal control sequence.
|
|
*/
|
|
|
|
static char *sequence(int op)
|
|
{
|
|
T(("sequence(%d)", op));
|
|
|
|
switch(op) {
|
|
case CARRIAGE_RETURN:
|
|
return (carriage_return);
|
|
case CURS_DOWN:
|
|
return (cursor_down);
|
|
case CURS_HOME:
|
|
return (cursor_home);
|
|
case CURS_LEFT:
|
|
return (cursor_left);
|
|
case CURS_RIGHT:
|
|
return (cursor_right);
|
|
case CURS_TO_LL:
|
|
return (cursor_to_ll);
|
|
case CURS_UP:
|
|
return (cursor_up);
|
|
case TAB:
|
|
return (tab);
|
|
case BACK_TAB:
|
|
return (back_tab);
|
|
case ROW_ADDR:
|
|
return (row_address);
|
|
case COL_ADDR:
|
|
return (column_address);
|
|
case P_DOWN_CURS:
|
|
return (parm_down_cursor);
|
|
case P_LEFT_CURS:
|
|
return (parm_left_cursor);
|
|
case P_RIGHT_CURS:
|
|
return (parm_right_cursor);
|
|
case P_UP_CURS:
|
|
return (parm_up_cursor);
|
|
case CURS_ADDR:
|
|
return (cursor_address);
|
|
default:
|
|
return ((char *) 0);
|
|
}
|
|
}
|
|
|
|
#endif
|
|
|