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|
/* $OpenBSD: lib_mvcur.c,v 1.12 1998/10/31 06:30:30 millert Exp $ */
/****************************************************************************
* Copyright (c) 1998 Free Software Foundation, Inc. *
* *
* Permission is hereby granted, free of charge, to any person obtaining a *
* copy of this software and associated documentation files (the *
* "Software"), to deal in the Software without restriction, including *
* without limitation the rights to use, copy, modify, merge, publish, *
* distribute, distribute with modifications, sublicense, and/or sell *
* copies of the Software, and to permit persons to whom the Software is *
* furnished to do so, subject to the following conditions: *
* *
* The above copyright notice and this permission notice shall be included *
* in all copies or substantial portions of the Software. *
* *
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS *
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF *
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. *
* IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, *
* DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR *
* OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR *
* THE USE OR OTHER DEALINGS IN THE SOFTWARE. *
* *
* Except as contained in this notice, the name(s) of the above copyright *
* holders shall not be used in advertising or otherwise to promote the *
* sale, use or other dealings in this Software without prior written *
* authorization. *
****************************************************************************/
/****************************************************************************
* Author: Zeyd M. Ben-Halim <zmbenhal@netcom.com> 1992,1995 *
* and: Eric S. Raymond <esr@snark.thyrsus.com> *
****************************************************************************/
/*
** lib_mvcur.c
**
** The routines for moving the physical cursor and scrolling:
**
** void _nc_mvcur_init(void)
**
** void _nc_mvcur_resume(void)
**
** int mvcur(int old_y, int old_x, int new_y, int new_x)
**
** void _nc_mvcur_wrap(void)
**
** Comparisons with older movement optimizers:
** SVr3 curses mvcur() can't use cursor_to_ll or auto_left_margin.
** 4.4BSD curses can't use cuu/cud/cuf/cub/hpa/vpa/tab/cbt for local
** motions. It doesn't use tactics based on auto_left_margin. Weirdly
** enough, it doesn't use its own hardware-scrolling routine to scroll up
** destination lines for out-of-bounds addresses!
** old ncurses optimizer: less accurate cost computations (in fact,
** it was broken and had to be commented out!).
**
** Compile with -DMAIN to build an interactive tester/timer for the movement
** optimizer. You can use it to investigate the optimizer's behavior.
** You can also use it for tuning the formulas used to determine whether
** or not full optimization is attempted.
**
** This code has a nasty tendency to find bugs in terminfo entries, because it
** exercises the non-cup movement capabilities heavily. If you think you've
** found a bug, try deleting subsets of the following capabilities (arranged
** in decreasing order of suspiciousness): it, tab, cbt, hpa, vpa, cuu, cud,
** cuf, cub, cuu1, cud1, cuf1, cub1. It may be that one or more are wrong.
**
** Note: you should expect this code to look like a resource hog in a profile.
** That's because it does a lot of I/O, through the tputs() calls. The I/O
** cost swamps the computation overhead (and as machines get faster, this
** will become even more true). Comments in the test exerciser at the end
** go into detail about tuning and how you can gauge the optimizer's
** effectiveness.
**/
/****************************************************************************
*
* Constants and macros for optimizer tuning.
*
****************************************************************************/
/*
* The average overhead of a full optimization computation in character
* transmission times. If it's too high, the algorithm will be a bit
* over-biased toward using cup rather than local motions; if it's too
* low, the algorithm may spend more time than is strictly optimal
* looking for non-cup motions. Profile the optimizer using the `t'
* command of the exerciser (see below), and round to the nearest integer.
*
* Yes, I (esr) thought about computing expected overhead dynamically, say
* by derivation from a running average of optimizer times. But the
* whole point of this optimization is to *decrease* the frequency of
* system calls. :-)
*/
#define COMPUTE_OVERHEAD 1 /* I use a 90MHz Pentium @ 9.6Kbps */
/*
* LONG_DIST is the distance we consider to be just as costly to move over as a
* cup sequence is to emit. In other words, it's the length of a cup sequence
* adjusted for average computation overhead. The magic number is the length
* of "\033[yy;xxH", the typical cup sequence these days.
*/
#define LONG_DIST (8 - COMPUTE_OVERHEAD)
/*
* Tell whether a motion is optimizable by local motions. Needs to be cheap to
* compute. In general, all the fast moves go to either the right or left edge
* of the screen. So any motion to a location that is (a) further away than
* LONG_DIST and (b) further inward from the right or left edge than LONG_DIST,
* we'll consider nonlocal.
*/
#define NOT_LOCAL(fy, fx, ty, tx) ((tx > LONG_DIST) && (tx < screen_lines - 1 - LONG_DIST) && (abs(ty-fy) + abs(tx-fx) > LONG_DIST))
/****************************************************************************
*
* External interfaces
*
****************************************************************************/
/*
* For this code to work OK, the following components must live in the
* screen structure:
*
* int _char_padding; // cost of character put
* int _cr_cost; // cost of (carriage_return)
* int _cup_cost; // cost of (cursor_address)
* int _home_cost; // cost of (cursor_home)
* int _ll_cost; // cost of (cursor_to_ll)
*#if USE_HARD_TABS
* int _ht_cost; // cost of (tab)
* int _cbt_cost; // cost of (back_tab)
*#endif USE_HARD_TABS
* int _cub1_cost; // cost of (cursor_left)
* int _cuf1_cost; // cost of (cursor_right)
* int _cud1_cost; // cost of (cursor_down)
* int _cuu1_cost; // cost of (cursor_up)
* int _cub_cost; // cost of (parm_cursor_left)
* int _cuf_cost; // cost of (parm_cursor_right)
* int _cud_cost; // cost of (parm_cursor_down)
* int _cuu_cost; // cost of (parm_cursor_up)
* int _hpa_cost; // cost of (column_address)
* int _vpa_cost; // cost of (row_address)
* int _ech_cost; // cost of (erase_chars)
* int _rep_cost; // cost of (repeat_char)
*
* The USE_HARD_TABS switch controls whether it is reliable to use tab/backtabs
* for local motions. On many systems, it's not, due to uncertainties about
* tab delays and whether or not tabs will be expanded in raw mode. If you
* have parm_right_cursor, tab motions don't win you a lot anyhow.
*/
#include <curses.priv.h>
#include <term.h>
#include <ctype.h>
MODULE_ID("$From: lib_mvcur.c,v 1.54 1998/10/03 23:41:21 tom Exp $")
#define STRLEN(s) (s != 0) ? strlen(s) : 0
#define CURRENT_ATTR SP->_current_attr /* current phys attribute */
#define CURRENT_ROW SP->_cursrow /* phys cursor row */
#define CURRENT_COLUMN SP->_curscol /* phys cursor column */
#define REAL_ATTR SP->_current_attr /* phys current attribute */
#define WANT_CHAR(y, x) SP->_newscr->_line[y].text[x] /* desired state */
#define BAUDRATE cur_term->_baudrate /* bits per second */
#if defined(MAIN) || defined(NCURSES_TEST)
#include <sys/time.h>
static bool profiling = FALSE;
static float diff;
#endif /* MAIN */
#define OPT_SIZE 512
static int normalized_cost(const char *const cap, int affcnt);
/****************************************************************************
*
* Initialization/wrapup (including cost pre-computation)
*
****************************************************************************/
#ifdef TRACE
static int
trace_cost_of(const char *capname, const char *cap, int affcnt)
{
int result = _nc_msec_cost(cap,affcnt);
TR(TRACE_CHARPUT|TRACE_MOVE, ("CostOf %s %d", capname, result));
return result;
}
#define CostOf(cap,affcnt) trace_cost_of(#cap,cap,affcnt);
static int
trace_normalized_cost(const char *capname, const char *cap, int affcnt)
{
int result = normalized_cost(cap,affcnt);
TR(TRACE_CHARPUT|TRACE_MOVE, ("NormalizedCost %s %d", capname, result));
return result;
}
#define NormalizedCost(cap,affcnt) trace_normalized_cost(#cap,cap,affcnt);
#else
#define CostOf(cap,affcnt) _nc_msec_cost(cap,affcnt);
#define NormalizedCost(cap,affcnt) normalized_cost(cap,affcnt);
#endif
int _nc_msec_cost(const char *const cap, int affcnt)
/* compute the cost of a given operation */
{
if (cap == 0)
return(INFINITY);
else
{
const char *cp;
float cum_cost = 0;
for (cp = cap; *cp; cp++)
{
/* extract padding, either mandatory or required */
if (cp[0] == '$' && cp[1] == '<' && strchr(cp, '>'))
{
float number = 0;
for (cp += 2; *cp != '>'; cp++)
{
if (isdigit(*cp))
number = number * 10 + (*cp - '0');
else if (*cp == '.')
number += (*++cp - 10) / 10.0;
else if (*cp == '*')
number *= affcnt;
}
cum_cost += number * 10;
}
else
cum_cost += SP->_char_padding;
}
return((int)cum_cost);
}
}
static int normalized_cost(const char *const cap, int affcnt)
/* compute the effective character-count for an operation (round up) */
{
int cost = _nc_msec_cost(cap, affcnt);
if (cost != INFINITY)
cost = (cost + SP->_char_padding - 1) / SP->_char_padding;
return cost;
}
static void reset_scroll_region(void)
/* Set the scroll-region to a known state (the default) */
{
if (change_scroll_region)
{
TPUTS_TRACE("change_scroll_region");
putp(tparm(change_scroll_region, 0, screen_lines - 1));
}
}
void _nc_mvcur_resume(void)
/* what to do at initialization time and after each shellout */
{
/* initialize screen for cursor access */
if (enter_ca_mode)
{
TPUTS_TRACE("enter_ca_mode");
putp(enter_ca_mode);
}
/*
* Doing this here rather than in _nc_mvcur_wrap() ensures that
* ncurses programs will see a reset scroll region even if a
* program that messed with it died ungracefully.
*
* This also undoes the effects of terminal init strings that assume
* they know the screen size. This is useful when you're running
* a vt100 emulation through xterm.
*/
reset_scroll_region();
SP->_cursrow = SP->_curscol = -1;
/* restore cursor shape */
if (SP->_cursor != -1)
{
int cursor = SP->_cursor;
SP->_cursor = -1;
curs_set (cursor);
}
}
void _nc_mvcur_init(void)
/* initialize the cost structure */
{
/*
* 9 = 7 bits + 1 parity + 1 stop.
*/
SP->_char_padding = (9 * 1000 * 10) / (BAUDRATE > 0 ? BAUDRATE : 9600);
if (SP->_char_padding <= 0)
SP->_char_padding = 1; /* must be nonzero */
TR(TRACE_CHARPUT|TRACE_MOVE, ("char_padding %d msecs", SP->_char_padding));
/* non-parameterized local-motion strings */
SP->_cr_cost = CostOf(carriage_return, 0);
SP->_home_cost = CostOf(cursor_home, 0);
SP->_ll_cost = CostOf(cursor_to_ll, 0);
#if USE_HARD_TABS
SP->_ht_cost = CostOf(tab, 0);
SP->_cbt_cost = CostOf(back_tab, 0);
#endif /* USE_HARD_TABS */
SP->_cub1_cost = CostOf(cursor_left, 0);
SP->_cuf1_cost = CostOf(cursor_right, 0);
SP->_cud1_cost = CostOf(cursor_down, 0);
SP->_cuu1_cost = CostOf(cursor_up, 0);
SP->_smir_cost = CostOf(enter_insert_mode, 0);
SP->_rmir_cost = CostOf(exit_insert_mode, 0);
SP->_ip_cost = 0;
if (insert_padding) {
SP->_ip_cost = CostOf(insert_padding, 0);
}
/*
* Assumption: if the terminal has memory_relative addressing, the
* initialization strings or smcup will set single-page mode so we
* can treat it like absolute screen addressing. This seems to be true
* for all cursor_mem_address terminal types in the terminfo database.
*/
SP->_address_cursor = cursor_address ? cursor_address : cursor_mem_address;
/*
* Parametrized local-motion strings. This static cost computation
* depends on the following assumptions:
*
* (1) They never have * padding. In the entire master terminfo database
* as of March 1995, only the obsolete Zenith Z-100 pc violates this.
* (Proportional padding is found mainly in insert, delete and scroll
* capabilities).
*
* (2) The average case of cup has two two-digit parameters. Strictly,
* the average case for a 24 * 80 screen has ((10*10*(1 + 1)) +
* (14*10*(1 + 2)) + (10*70*(2 + 1)) + (14*70*4)) / (24*80) = 3.458
* digits of parameters. On a 25x80 screen the average is 3.6197.
* On larger screens the value gets much closer to 4.
*
* (3) The average case of cub/cuf/hpa/ech/rep has 2 digits of parameters
* (strictly, (((10 * 1) + (70 * 2)) / 80) = 1.8750).
*
* (4) The average case of cud/cuu/vpa has 2 digits of parameters
* (strictly, (((10 * 1) + (14 * 2)) / 24) = 1.5833).
*
* All these averages depend on the assumption that all parameter values
* are equally probable.
*/
SP->_cup_cost = CostOf(tparm(SP->_address_cursor, 23, 23), 1);
SP->_cub_cost = CostOf(tparm(parm_left_cursor, 23), 1);
SP->_cuf_cost = CostOf(tparm(parm_right_cursor, 23), 1);
SP->_cud_cost = CostOf(tparm(parm_down_cursor, 23), 1);
SP->_cuu_cost = CostOf(tparm(parm_up_cursor, 23), 1);
SP->_hpa_cost = CostOf(tparm(column_address, 23), 1);
SP->_vpa_cost = CostOf(tparm(row_address, 23), 1);
/* non-parameterized screen-update strings */
SP->_ed_cost = NormalizedCost(clr_eos, 1);
SP->_el_cost = NormalizedCost(clr_eol, 1);
SP->_el1_cost = NormalizedCost(clr_bol, 1);
SP->_dch1_cost = NormalizedCost(delete_character, 1);
SP->_ich1_cost = NormalizedCost(insert_character, 1);
/* parameterized screen-update strings */
SP->_dch_cost = NormalizedCost(tparm(parm_dch, 23), 1);
SP->_ich_cost = NormalizedCost(tparm(parm_ich, 23), 1);
SP->_ech_cost = NormalizedCost(tparm(erase_chars, 23), 1);
SP->_rep_cost = NormalizedCost(tparm(repeat_char, ' ', 23), 1);
SP->_cup_ch_cost = NormalizedCost(tparm(SP->_address_cursor, 23, 23), 1);
SP->_hpa_ch_cost = NormalizedCost(tparm(column_address, 23), 1);
/* pre-compute some capability lengths */
SP->_carriage_return_length = STRLEN(carriage_return);
SP->_cursor_home_length = STRLEN(cursor_home);
SP->_cursor_to_ll_length = STRLEN(cursor_to_ll);
/*
* A different, possibly better way to arrange this would be to set
* SP->_endwin = TRUE at window initialization time and let this be
* called by doupdate's return-from-shellout code.
*/
_nc_mvcur_resume();
}
void _nc_mvcur_wrap(void)
/* wrap up cursor-addressing mode */
{
/* leave cursor at screen bottom */
mvcur(-1, -1, screen_lines - 1, 0);
/* set cursor to normal mode */
if (SP->_cursor != -1)
curs_set(1);
if (exit_ca_mode)
{
TPUTS_TRACE("exit_ca_mode");
putp(exit_ca_mode);
}
/*
* Reset terminal's tab counter. There's a long-time bug that
* if you exit a "curses" program such as vi or more, tab
* forward, and then backspace, the cursor doesn't go to the
* right place. The problem is that the kernel counts the
* escape sequences that reset things as column positions.
* Utter a \r to reset this invisibly.
*/
_nc_outch('\r');
}
/****************************************************************************
*
* Optimized cursor movement
*
****************************************************************************/
/*
* Perform repeated-append, returning cost
*/
static inline int
repeated_append (int total, int num, int repeat, char *dst, const char *src)
{
register size_t src_len = strlen(src);
register size_t dst_len = STRLEN(dst);
if ((dst_len + repeat * src_len) < OPT_SIZE-1) {
total += (num * repeat);
if (dst) {
dst += dst_len;
while (repeat-- > 0) {
(void) strcpy(dst, src);
dst += src_len;
}
}
} else {
total = INFINITY;
}
return total;
}
#ifndef NO_OPTIMIZE
#define NEXTTAB(fr) (fr + init_tabs - (fr % init_tabs))
/*
* Assume back_tab (CBT) does not wrap backwards at the left margin, return
* a negative value at that point to simplify the loop.
*/
#define LASTTAB(fr) ((fr > 0) ? ((fr - 1) / init_tabs) * init_tabs : -1)
/* Note: we'd like to inline this for speed, but GNU C barfs on the attempt. */
static int
relative_move(char *result, int from_y,int from_x,int to_y,int to_x, bool ovw)
/* move via local motions (cuu/cuu1/cud/cud1/cub1/cub/cuf1/cuf/vpa/hpa) */
{
int n, vcost = 0, hcost = 0;
if (result)
result[0] = '\0';
if (to_y != from_y)
{
vcost = INFINITY;
if (row_address)
{
if (result)
(void) strcpy(result, tparm(row_address, to_y));
vcost = SP->_vpa_cost;
}
if (to_y > from_y)
{
n = (to_y - from_y);
if (parm_down_cursor && SP->_cud_cost < vcost)
{
if (result)
(void) strcpy(result, tparm(parm_down_cursor, n));
vcost = SP->_cud_cost;
}
if (cursor_down && (n * SP->_cud1_cost < vcost))
{
if (result)
result[0] = '\0';
vcost = repeated_append(0, SP->_cud1_cost, n, result, cursor_down);
}
}
else /* (to_y < from_y) */
{
n = (from_y - to_y);
if (parm_up_cursor && SP->_cup_cost < vcost)
{
if (result)
(void) strcpy(result, tparm(parm_up_cursor, n));
vcost = SP->_cup_cost;
}
if (cursor_up && (n * SP->_cuu1_cost < vcost))
{
if (result)
result[0] = '\0';
vcost = repeated_append(0, SP->_cuu1_cost, n, result, cursor_up);
}
}
if (vcost == INFINITY)
return(INFINITY);
}
if (result)
result += strlen(result);
if (to_x != from_x)
{
char str[OPT_SIZE];
hcost = INFINITY;
if (column_address)
{
if (result)
(void) strcpy(result, tparm(column_address, to_x));
hcost = SP->_hpa_cost;
}
if (to_x > from_x)
{
n = to_x - from_x;
if (parm_right_cursor && SP->_cuf_cost < hcost)
{
if (result)
(void) strcpy(result, tparm(parm_right_cursor, n));
hcost = SP->_cuf_cost;
}
if (cursor_right)
{
int lhcost = 0;
str[0] = '\0';
#if USE_HARD_TABS
/* use hard tabs, if we have them, to do as much as possible */
if (init_tabs > 0 && tab)
{
int nxt, fr;
for (fr = from_x; (nxt = NEXTTAB(fr)) <= to_x; fr = nxt)
{
lhcost = repeated_append(lhcost, SP->_ht_cost, 1, str, tab);
if (lhcost == INFINITY)
break;
}
n = to_x - fr;
from_x = fr;
}
#endif /* USE_HARD_TABS */
#if defined(REAL_ATTR) && defined(WANT_CHAR)
/*
* If we have no attribute changes, overwrite is cheaper.
* Note: must suppress this by passing in ovw = FALSE whenever
* WANT_CHAR would return invalid data. In particular, this
* is true between the time a hardware scroll has been done
* and the time the structure WANT_CHAR would access has been
* updated.
*/
if (ovw)
{
int i;
for (i = 0; i < n; i++)
if ((WANT_CHAR(to_y, from_x + i) & A_ATTRIBUTES) != CURRENT_ATTR)
{
ovw = FALSE;
break;
}
}
if (ovw)
{
char *sp;
int i;
sp = str + strlen(str);
for (i = 0; i < n; i++)
*sp++ = WANT_CHAR(to_y, from_x + i);
*sp = '\0';
lhcost += n * SP->_char_padding;
}
else
#endif /* defined(REAL_ATTR) && defined(WANT_CHAR) */
{
lhcost = repeated_append(lhcost, SP->_cuf1_cost, n, str, cursor_right);
}
if (lhcost < hcost)
{
if (result)
(void) strcpy(result, str);
hcost = lhcost;
}
}
}
else /* (to_x < from_x) */
{
n = from_x - to_x;
if (parm_left_cursor && SP->_cub_cost < hcost)
{
if (result)
(void) strcpy(result, tparm(parm_left_cursor, n));
hcost = SP->_cub_cost;
}
if (cursor_left)
{
int lhcost = 0;
str[0] = '\0';
#if USE_HARD_TABS
if (init_tabs > 0 && back_tab)
{
int nxt, fr;
for (fr = from_x; (nxt = LASTTAB(fr)) >= to_x; fr = nxt)
{
lhcost = repeated_append(lhcost, SP->_cbt_cost, 1, str, back_tab);
if (lhcost == INFINITY)
break;
}
n = fr - to_x;
}
#endif /* USE_HARD_TABS */
lhcost = repeated_append(lhcost, SP->_cub1_cost, n, str, cursor_left);
if (lhcost < hcost)
{
if (result)
(void) strcpy(result, str);
hcost = lhcost;
}
}
}
if (hcost == INFINITY)
return(INFINITY);
}
return(vcost + hcost);
}
#endif /* !NO_OPTIMIZE */
/*
* With the machinery set up above, it's conceivable that
* onscreen_mvcur could be modified into a recursive function that does
* an alpha-beta search of motion space, as though it were a chess
* move tree, with the weight function being boolean and the search
* depth equated to length of string. However, this would jack up the
* computation cost a lot, especially on terminals without a cup
* capability constraining the search tree depth. So we settle for
* the simpler method below.
*/
static inline int
onscreen_mvcur(int yold,int xold,int ynew,int xnew, bool ovw)
/* onscreen move from (yold, xold) to (ynew, xnew) */
{
char use[OPT_SIZE], *sp;
int tactic = 0, newcost, usecost = INFINITY;
#if defined(MAIN) || defined(NCURSES_TEST)
struct timeval before, after;
gettimeofday(&before, NULL);
#endif /* MAIN */
/* tactic #0: use direct cursor addressing */
sp = tparm(SP->_address_cursor, ynew, xnew);
if (sp)
{
tactic = 0;
(void) strcpy(use, sp);
usecost = SP->_cup_cost;
#if defined(TRACE) || defined(NCURSES_TEST)
if (!(_nc_optimize_enable & OPTIMIZE_MVCUR))
goto nonlocal;
#endif /* TRACE */
/*
* We may be able to tell in advance that the full optimization
* will probably not be worth its overhead. Also, don't try to
* use local movement if the current attribute is anything but
* A_NORMAL...there are just too many ways this can screw up
* (like, say, local-movement \n getting mapped to some obscure
* character because A_ALTCHARSET is on).
*/
if (yold == -1 || xold == -1 || NOT_LOCAL(yold, xold, ynew, xnew))
{
#if defined(MAIN) || defined(NCURSES_TEST)
if (!profiling)
{
(void) fputs("nonlocal\n", stderr);
goto nonlocal; /* always run the optimizer if profiling */
}
#else
goto nonlocal;
#endif /* MAIN */
}
}
#ifndef NO_OPTIMIZE
/* tactic #1: use local movement */
if (yold != -1 && xold != -1
&& ((newcost=relative_move(NULL, yold, xold, ynew, xnew, ovw))!=INFINITY)
&& newcost < usecost)
{
tactic = 1;
usecost = newcost;
}
/* tactic #2: use carriage-return + local movement */
if (yold != -1 && carriage_return
&& ((newcost=relative_move(NULL, yold,0,ynew,xnew, ovw)) != INFINITY)
&& SP->_cr_cost + newcost < usecost)
{
tactic = 2;
usecost = SP->_cr_cost + newcost;
}
/* tactic #3: use home-cursor + local movement */
if (cursor_home
&& ((newcost=relative_move(NULL, 0, 0, ynew, xnew, ovw)) != INFINITY)
&& SP->_home_cost + newcost < usecost)
{
tactic = 3;
usecost = SP->_home_cost + newcost;
}
/* tactic #4: use home-down + local movement */
if (cursor_to_ll
&& ((newcost=relative_move(NULL, screen_lines-1, 0, ynew, xnew, ovw)) != INFINITY)
&& SP->_ll_cost + newcost < usecost)
{
tactic = 4;
usecost = SP->_ll_cost + newcost;
}
/*
* tactic #5: use left margin for wrap to right-hand side,
* unless strange wrap behavior indicated by xenl might hose us.
*/
if (auto_left_margin && !eat_newline_glitch
&& yold > 0 && cursor_left
&& ((newcost=relative_move(NULL, yold-1, screen_columns-1, ynew, xnew, ovw)) != INFINITY)
&& SP->_cr_cost + SP->_cub1_cost + newcost + newcost < usecost)
{
tactic = 5;
usecost = SP->_cr_cost + SP->_cub1_cost + newcost;
}
/*
* These cases are ordered by estimated relative frequency.
*/
if (tactic)
{
if (tactic == 1)
(void) relative_move(use, yold, xold, ynew, xnew, ovw);
else if (tactic == 2)
{
(void) strcpy(use, carriage_return);
(void) relative_move(use + SP->_carriage_return_length,
yold,0,ynew,xnew, ovw);
}
else if (tactic == 3)
{
(void) strcpy(use, cursor_home);
(void) relative_move(use + SP->_cursor_home_length,
0, 0, ynew, xnew, ovw);
}
else if (tactic == 4)
{
(void) strcpy(use, cursor_to_ll);
(void) relative_move(use + SP->_cursor_to_ll_length,
screen_lines-1, 0, ynew, xnew, ovw);
}
else /* if (tactic == 5) */
{
use[0] = '\0';
if (xold > 0)
(void) strcat(use, carriage_return);
(void) strcat(use, cursor_left);
(void) relative_move(use + strlen(use),
yold-1, screen_columns-1, ynew, xnew, ovw);
}
}
#endif /* !NO_OPTIMIZE */
#if defined(MAIN) || defined(NCURSES_TEST)
gettimeofday(&after, NULL);
diff = after.tv_usec - before.tv_usec
+ (after.tv_sec - before.tv_sec) * 1000000;
if (!profiling)
(void) fprintf(stderr, "onscreen: %d msec, %f 28.8Kbps char-equivalents\n",
(int)diff, diff/288);
#endif /* MAIN */
nonlocal:
if (usecost != INFINITY)
{
TPUTS_TRACE("mvcur");
tputs(use, 1, _nc_outch);
return(OK);
}
else
return(ERR);
}
int mvcur(int yold, int xold, int ynew, int xnew)
/* optimized cursor move from (yold, xold) to (ynew, xnew) */
{
TR(TRACE_MOVE, ("mvcur(%d,%d,%d,%d) called", yold, xold, ynew, xnew));
if (yold == ynew && xold == xnew)
return(OK);
/*
* Most work here is rounding for terminal boundaries getting the
* column position implied by wraparound or the lack thereof and
* rolling up the screen to get ynew on the screen.
*/
if (xnew >= screen_columns)
{
ynew += xnew / screen_columns;
xnew %= screen_columns;
}
if (xold >= screen_columns)
{
int l;
l = (xold + 1) / screen_columns;
yold += l;
if (yold >= screen_lines)
l -= (yold - screen_lines - 1);
while (l > 0) {
if (newline)
{
TPUTS_TRACE("newline");
tputs(newline, 0, _nc_outch);
}
else
putchar('\n');
l--;
if (xold > 0)
{
if (carriage_return)
{
TPUTS_TRACE("carriage_return");
tputs(carriage_return, 0, _nc_outch);
}
else
putchar('\r');
xold = 0;
}
}
}
if (yold > screen_lines - 1)
yold = screen_lines - 1;
if (ynew > screen_lines - 1)
ynew = screen_lines - 1;
/* destination location is on screen now */
return(onscreen_mvcur(yold, xold, ynew, xnew, TRUE));
}
#if defined(TRACE) || defined(NCURSES_TEST)
int _nc_optimize_enable = OPTIMIZE_ALL;
#endif
#if defined(MAIN) || defined(NCURSES_TEST)
/****************************************************************************
*
* Movement optimizer test code
*
****************************************************************************/
#include <tic.h>
#include <dump_entry.h>
const char *_nc_progname = "mvcur";
static unsigned long xmits;
int tputs(const char *string, int affcnt GCC_UNUSED, int (*outc)(int) GCC_UNUSED)
/* stub tputs() that dumps sequences in a visible form */
{
if (profiling)
xmits += strlen(string);
else
(void) fputs(_nc_visbuf(string), stdout);
return(OK);
}
int putp(const char *string)
{
return(tputs(string, 1, _nc_outch));
}
int _nc_outch(int ch)
{
putc(ch, stdout);
return OK;
}
static char tname[MAX_ALIAS];
static void load_term(void)
{
(void) setupterm(tname, STDOUT_FILENO, NULL);
}
static int roll(int n)
{
int i, j;
i = (RAND_MAX / n) * n;
while ((j = rand()) >= i)
continue;
return (j % n);
}
int main(int argc GCC_UNUSED, char *argv[] GCC_UNUSED)
{
(void) strcpy(tname, termname());
load_term();
_nc_setupscreen(lines, columns, stdout);
baudrate();
_nc_mvcur_init();
NC_BUFFERED(FALSE);
(void) puts("The mvcur tester. Type ? for help");
fputs("smcup:", stdout);
putchar('\n');
for (;;)
{
int fy, fx, ty, tx, n, i;
char buf[BUFSIZ], capname[BUFSIZ];
(void) fputs("> ", stdout);
(void) fgets(buf, sizeof(buf), stdin);
if (buf[0] == '?')
{
(void) puts("? -- display this help message");
(void) puts("fy fx ty tx -- (4 numbers) display (fy,fx)->(ty,tx) move");
(void) puts("s[croll] n t b m -- display scrolling sequence");
(void) printf("r[eload] -- reload terminal info for %s\n", termname());
(void) puts("l[oad] <term> -- load terminal info for type <term>");
(void) puts("d[elete] <cap> -- delete named capability");
(void) puts("i[nspect] -- display terminal capabilities");
(void) puts("c[ost] -- dump cursor-optimization cost table");
(void) puts("o[optimize] -- toggle movement optimization");
(void) puts("t[orture] <num> -- torture-test with <num> random moves");
(void) puts("q[uit] -- quit the program");
}
else if (sscanf(buf, "%d %d %d %d", &fy, &fx, &ty, &tx) == 4)
{
struct timeval before, after;
putchar('"');
gettimeofday(&before, NULL);
mvcur(fy, fx, ty, tx);
gettimeofday(&after, NULL);
printf("\" (%ld msec)\n",
(long)(after.tv_usec - before.tv_usec + (after.tv_sec - before.tv_sec) * 1000000));
}
else if (sscanf(buf, "s %d %d %d %d", &fy, &fx, &ty, &tx) == 4)
{
struct timeval before, after;
putchar('"');
gettimeofday(&before, NULL);
_nc_scrolln(fy, fx, ty, tx);
gettimeofday(&after, NULL);
printf("\" (%ld msec)\n",
(long)(after.tv_usec - before.tv_usec + (after.tv_sec - before.tv_sec) * 1000000));
}
else if (buf[0] == 'r')
{
(void) strcpy(tname, termname());
load_term();
}
else if (sscanf(buf, "l %s", tname) == 1)
{
load_term();
}
else if (sscanf(buf, "d %s", capname) == 1)
{
struct name_table_entry const *np = _nc_find_entry(capname,
_nc_info_hash_table);
if (np == NULL)
(void) printf("No such capability as \"%s\"\n", capname);
else
{
switch(np->nte_type)
{
case BOOLEAN:
cur_term->type.Booleans[np->nte_index] = FALSE;
(void) printf("Boolean capability `%s' (%d) turned off.\n",
np->nte_name, np->nte_index);
break;
case NUMBER:
cur_term->type.Numbers[np->nte_index] = -1;
(void) printf("Number capability `%s' (%d) set to -1.\n",
np->nte_name, np->nte_index);
break;
case STRING:
cur_term->type.Strings[np->nte_index] = (char *)NULL;
(void) printf("String capability `%s' (%d) deleted.\n",
np->nte_name, np->nte_index);
break;
}
}
}
else if (buf[0] == 'i')
{
dump_init((char *)NULL, F_TERMINFO, S_TERMINFO, 70, 0, FALSE);
dump_entry(&cur_term->type, FALSE, TRUE, 0);
putchar('\n');
}
else if (buf[0] == 'o')
{
if (_nc_optimize_enable & OPTIMIZE_MVCUR)
{
_nc_optimize_enable &=~ OPTIMIZE_MVCUR;
(void) puts("Optimization is now off.");
}
else
{
_nc_optimize_enable |= OPTIMIZE_MVCUR;
(void) puts("Optimization is now on.");
}
}
/*
* You can use the `t' test to profile and tune the movement
* optimizer. Use iteration values in three digits or more.
* At above 5000 iterations the profile timing averages are stable
* to within a millisecond or three.
*
* The `overhead' field of the report will help you pick a
* COMPUTE_OVERHEAD figure appropriate for your processor and
* expected line speed. The `total estimated time' is
* computation time plus a character-transmission time
* estimate computed from the number of transmits and the baud
* rate.
*
* Use this together with the `o' command to get a read on the
* optimizer's effectiveness. Compare the total estimated times
* for `t' runs of the same length in both optimized and un-optimized
* modes. As long as the optimized times are less, the optimizer
* is winning.
*/
else if (sscanf(buf, "t %d", &n) == 1)
{
float cumtime = 0, perchar;
int speeds[] = {2400, 9600, 14400, 19200, 28800, 38400, 0};
srand((unsigned)(getpid() + time((time_t *)0)));
profiling = TRUE;
xmits = 0;
for (i = 0; i < n; i++)
{
/*
* This does a move test between two random locations,
* Random moves probably short-change the optimizer,
* which will work better on the short moves probably
* typical of doupdate()'s usage pattern. Still,
* until we have better data...
*/
#ifdef FIND_COREDUMP
int from_y = roll(lines);
int to_y = roll(lines);
int from_x = roll(columns);
int to_x = roll(columns);
printf("(%d,%d) -> (%d,%d)\n", from_y, from_x, to_y, to_x);
mvcur(from_y, from_x, to_y, to_x);
#else
mvcur(roll(lines), roll(columns), roll(lines), roll(columns));
#endif /* FIND_COREDUMP */
if (diff)
cumtime += diff;
}
profiling = FALSE;
/*
* Average milliseconds per character optimization time.
* This is the key figure to watch when tuning the optimizer.
*/
perchar = cumtime / n;
(void) printf("%d moves (%ld chars) in %d msec, %f msec each:\n",
n, xmits, (int)cumtime, perchar);
for (i = 0; speeds[i]; i++)
{
/*
* Total estimated time for the moves, computation and
* transmission both. Transmission time is an estimate
* assuming 9 bits/char, 8 bits + 1 stop bit.
*/
float totalest = cumtime + xmits * 9 * 1e6 / speeds[i];
/*
* Per-character optimization overhead in character transmits
* at the current speed. Round this to the nearest integer
* to figure COMPUTE_OVERHEAD for the speed.
*/
float overhead = speeds[i] * perchar / 1e6;
(void) printf("%6d bps: %3.2f char-xmits overhead; total estimated time %15.2f\n",
speeds[i], overhead, totalest);
}
}
else if (buf[0] == 'c')
{
(void) printf("char padding: %d\n", SP->_char_padding);
(void) printf("cr cost: %d\n", SP->_cr_cost);
(void) printf("cup cost: %d\n", SP->_cup_cost);
(void) printf("home cost: %d\n", SP->_home_cost);
(void) printf("ll cost: %d\n", SP->_ll_cost);
#if USE_HARD_TABS
(void) printf("ht cost: %d\n", SP->_ht_cost);
(void) printf("cbt cost: %d\n", SP->_cbt_cost);
#endif /* USE_HARD_TABS */
(void) printf("cub1 cost: %d\n", SP->_cub1_cost);
(void) printf("cuf1 cost: %d\n", SP->_cuf1_cost);
(void) printf("cud1 cost: %d\n", SP->_cud1_cost);
(void) printf("cuu1 cost: %d\n", SP->_cuu1_cost);
(void) printf("cub cost: %d\n", SP->_cub_cost);
(void) printf("cuf cost: %d\n", SP->_cuf_cost);
(void) printf("cud cost: %d\n", SP->_cud_cost);
(void) printf("cuu cost: %d\n", SP->_cuu_cost);
(void) printf("hpa cost: %d\n", SP->_hpa_cost);
(void) printf("vpa cost: %d\n", SP->_vpa_cost);
}
else if (buf[0] == 'x' || buf[0] == 'q')
break;
else
(void) puts("Invalid command.");
}
(void) fputs("rmcup:", stdout);
_nc_mvcur_wrap();
putchar('\n');
return(0);
}
#endif /* MAIN */
/* lib_mvcur.c ends here */
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