/*@z46.c:Optimal Galleys:FindOptimize()@**************************************/
/* */
/* THE LOUT DOCUMENT FORMATTING SYSTEM (VERSION 3.20) */
/* COPYRIGHT (C) 1991, 2000 Jeffrey H. Kingston */
/* */
/* Jeffrey H. Kingston (jeff@cs.usyd.edu.au) */
/* Basser Department of Computer Science */
/* The University of Sydney 2006 */
/* AUSTRALIA */
/* */
/* This program is free software; you can redistribute it and/or modify */
/* it under the terms of the GNU General Public License as published by */
/* the Free Software Foundation; either Version 2, or (at your option) */
/* any later version. */
/* */
/* This program is distributed in the hope that it will be useful, */
/* but WITHOUT ANY WARRANTY; without even the implied warranty of */
/* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */
/* GNU General Public License for more details. */
/* */
/* You should have received a copy of the GNU General Public License */
/* along with this program; if not, write to the Free Software */
/* Foundation, Inc., 59 Temple Place, Suite 330, Boston MA 02111-1307 USA */
/* */
/* FILE: z46.c */
/* MODULE: Optimal Galleys */
/* EXTERNS: FindOptimize(), SetOptimize(), GazumpOptimize(), */
/* CalculateOptimize(), DebugOptimize() */
/* */
/*****************************************************************************/
#include "externs.h"
/*****************************************************************************/
/* */
/* BOOLEAN FindOptimize(x, env) */
/* */
/* Object x is a CLOSURE which represents an at present unsized galley. */
/* Return TRUE if x has an @Optimize parameter which is Yes. */
/* */
/*****************************************************************************/
BOOLEAN FindOptimize(OBJECT x, OBJECT env)
{ OBJECT y, link, res;
OBJECT bt[2], ft[2], ntarget, nenclose, crs;
debug1(DOG, D, "FindOptimize( %s )", EchoObject(x));
assert( type(x) == CLOSURE, "FindOptimize: type(x) != CLOSURE!" );
assert( has_target(actual(x)), "FindOptimize: x has no target!" );
/* search the parameter list of x for @Optimize */
res = nilobj;
for( link = Down(x); link != x; link = NextDown(link) )
{ Child(y, link);
if( type(y) == PAR && is_optimize(actual(y)) )
{ assert( Down(y) != y, "FindOptimize: Down(PAR)!" );
Child(res, Down(y));
res = CopyObject(res, &fpos(x));
break;
}
}
/* search the children list of actual(x) for a default value of @Target */
if( res == nilobj )
for( link = Down(actual(x)); link != actual(x); link = NextDown(link) )
{ Child(y, link);
if( is_optimize(y) )
{ res = CopyObject(sym_body(y), &fpos(x));
break;
}
}
/* should have found it by now */
assert( res != nilobj, "FindOptimize: res == nilobj!" );
/* manifest and tidy the parameter, return TRUE if Yes */
bt[COLM] = ft[COLM] = bt[ROWM] = ft[ROWM] = ntarget = nenclose = crs = nilobj;
res = Manifest(res, env, &save_style(x), bt, ft, &ntarget, &crs, TRUE, FALSE,
&nenclose, FALSE);
res = ReplaceWithTidy(res, TRUE);
if( !is_word(type(res)) )
{ Error(46, 1, "unable to evaluate %s parameter, assuming value is No",
WARN, &fpos(x), KW_OPTIMIZE);
debug2(DOG, D, "FindOptimize returning FALSE; found %s %s",
Image(type(res)), EchoObject(res));
return FALSE;
}
else if( StringEqual(string(res), AsciiToFull("Yes")) )
{ debug0(DOG, D, "FindOptimize returning TRUE");
return TRUE;
}
else if( StringEqual(string(res), AsciiToFull("No")) )
{ debug0(DOG, D, "FindOptimize returning FALSE");
return FALSE;
}
else
{ Error(46, 2, "value of %s operator is neither Yes nor No, assuming No",
WARN, &fpos(x), KW_OPTIMIZE);
debug1(DOG, D, "FindOptimize returning FALSE (found WORD %s)", string(res));
return FALSE;
}
} /* end FindOptimize */
/*****************************************************************************/
/* */
/* SetOptimize(hd, style) */
/* */
/* Initialize the optimization data of galley hd. Search the cross ref */
/* database for information about its fate on the previous run. */
/* */
/*****************************************************************************/
void SetOptimize(OBJECT hd, STYLE *style)
{ FULL_CHAR buff[MAX_BUFF], seq[MAX_BUFF];
OBJECT res, y, link, z; FILE_NUM dfnum; long dfpos, cont; int dlnum;
debug2(DOG, D, "SetOptimize(%s, %s)", SymName(actual(hd)), EchoStyle(style));
/* set opt_counts(hd) to result of previous run, if any */
StringCopy(buff, SymName(actual(hd)));
StringCat(buff, AsciiToFull("."));
StringCat(buff, StringInt(line_num(fpos(hd))));
if( DbRetrieve(OldCrossDb, FALSE, OptGallSym, buff, seq, &dfnum,
&dfpos, &dlnum, &cont) )
{
SwitchScope(nilobj);
res = ReadFromFile(dfnum, dfpos, dlnum);
UnSwitchScope(nilobj);
assert( res != nilobj, "SetOptimize: res == nilobj!" );
assert( type(res) == CLOSURE, "SetOptimize: type(res) != CLOSURE!" );
assert( actual(res) == OptGallSym, "SetOptimize: actual(res) != Opt!" );
assert( Down(res) != res, "SetOptimize: Down(res) == res!" );
Child(y, Down(res));
assert( type(y) == PAR, "SetOptimize: type(y) != PAR!" );
Child(y, Down(y));
assert( type(y) == ACAT, "SetOptimize: type(y) != ACAT!" );
y = ReplaceWithTidy(y, FALSE);
opt_hyph(hd) = FALSE;
assert( type(y) == ACAT, "SetOptimize: type(y) != ACAT (2)!" );
for( link = y; NextDown(link) != y; link = NextDown(link) )
{ Child(z, NextDown(link));
if( type(z) == GAP_OBJ )
{ DisposeChild(NextDown(link));
link = PrevDown(link);
}
else if( is_word(type(z)) )
{ if( StringEqual(string(z), AsciiToFull("h")) )
{ opt_hyph(hd) = TRUE;
DisposeChild(NextDown(link));
link = PrevDown(link);
}
else
{ int num = 0;
sscanf( (char *) string(z), "%d", &num);
assert( num > 0, "SetOptimize: num <= 0!" );
comp_count(z) = num;
}
}
else
{ assert( FALSE, "SetOptimize: type(z)!" );
}
}
DeleteLink(Up(y));
DisposeObject(res);
opt_counts(hd) = y;
}
else opt_counts(hd) = nilobj;
/* set up first opt_comps_permitted value */
if( opt_counts(hd) != nilobj && Down(opt_counts(hd)) != opt_counts(hd) )
{ Child(z, Down(opt_counts(hd)));
opt_comps_permitted(hd) = comp_count(z) - 1;
DisposeChild(Up(z));
}
else opt_comps_permitted(hd) = MAX_FILES; /* a large number */
debug1(DOG, D, " initial permitted = %2d", opt_comps_permitted(hd));
/* set opt_components(hd) and opt_constraints(hd) for storing this run */
New(opt_components(hd), ACAT);
opt_gazumped(hd) = FALSE;
New(opt_constraints(hd), ACAT);
StyleCopy(save_style(opt_components(hd)), *style);
if( gall_dir(hd) == ROWM )
hyph_style(save_style(opt_components(hd))) = HYPH_OFF;
debug0(DOG, D, "SetOptimize returning:");
ifdebug(DOG, D, DebugOptimize(hd));
} /* end SetOptimize */
/*****************************************************************************/
/* */
/* GazumpOptimize(hd, dest) */
/* */
/* Optimizing galley hd, currently attached to @Galley dest, is to be */
/* gazumped by some other galley. Record the current size constraint and */
/* add &1rt {} to the list of components. */
/* */
/*****************************************************************************/
void GazumpOptimize(OBJECT hd, OBJECT dest)
{ OBJECT g, tmp, junk, prnt;
debug2(DOG, D, "GazumpOptimize(%s, %s)", SymName(actual(hd)),
EchoObject(dest));
assert( type(hd) == HEAD, "GazumpOptimize: type(hd) != HEAD!" );
assert( opt_components(hd) != nilobj, "GazumpOptimize: opt_c!" );
/* record the size of this just-completed target area for hd */
New(tmp, WIDE);
if( (gall_dir(hd) == COLM && external_hor(dest)) ||
(gall_dir(hd) == COLM && external_hor(dest)) )
{ SetConstraint(constraint(tmp), MAX_FULL_LENGTH, MAX_FULL_LENGTH, MAX_FULL_LENGTH);
}
else
{ Parent(prnt, Up(dest));
Constrained(prnt, &constraint(tmp), gall_dir(hd), &junk);
}
Link(opt_constraints(hd), tmp);
debug2(DOG, D, "GazumpOptimize(%s) adding constraint %s",
SymName(actual(hd)), EchoConstraint(&constraint(tmp)));
/* optimizing galley is being gazumped; record this as &1rt {} &1c */
if( LastDown(opt_components(hd)) != opt_components(hd) )
{ Child(g, LastDown(opt_components(hd)));
assert( type(g) == GAP_OBJ, "FlushGalley: type(g) != GAP_OBJ!" );
/* ***
SetGap(gap(g), FALSE, FALSE, TRUE, FRAME_UNIT, EDGE_MODE, 2 * FR);
if( Down(g) == g )
{ junk = MakeWord(WORD, AsciiToFull("2b"), &fpos(g));
Link(g, junk);
}
*** */
/* first we overwrite whatever is there now by &1rt */
SetGap(gap(g), FALSE, FALSE, TRUE, AVAIL_UNIT, TAB_MODE, 1 * FR);
if( Down(g) != g ) DisposeChild(Down(g));
tmp = MakeWord(WORD, AsciiToFull("1rt"), &fpos(g));
Link(g, tmp);
/* next we add an empty word */
tmp = MakeWord(WORD, STR_EMPTY, &fpos(g));
back(tmp, COLM) = fwd(tmp, COLM) = 0;
back(tmp, ROWM) = fwd(tmp, ROWM) = 0;
word_font(tmp) = word_colour(tmp) = 0;
word_outline(tmp) = FALSE;
word_language(tmp) = word_hyph(tmp) = 0;
Link(opt_components(hd), tmp);
/* finally we add &1c */
New(g, GAP_OBJ);
hspace(g) = 1; vspace(g) = 0;
FposCopy(fpos(g), fpos(tmp));
SetGap(gap(g), FALSE, FALSE, TRUE, FIXED_UNIT, EDGE_MODE, 1 * CM);
tmp = MakeWord(WORD, AsciiToFull("1c"), &fpos(g));
Link(g, tmp);
Link(opt_components(hd), g);
opt_gazumped(hd) = TRUE;
debug2(DOG, D, "GazumpOptimize(%s) new gap is %s",
SymName(actual(hd)), EchoGap(&gap(g)));
}
/* refresh the number of comps permitted into the next target */
if( opt_counts(hd) != nilobj && Down(opt_counts(hd)) != opt_counts(hd) )
{ Child(tmp, Down(opt_counts(hd)));
opt_comps_permitted(hd) += comp_count(tmp) - 1;
DisposeChild(Up(tmp));
}
else opt_comps_permitted(hd) = MAX_FILES;
debug1(DOG, D, "GazumpOptimize returning, permitted = %2d",
opt_comps_permitted(hd));
} /* end GazumpOptimize */
/*****************************************************************************/
/* */
/* CalculateOptimize(hd) */
/* */
/* Calculate the optimal break for galley hd and write the result into */
/* the cross reference database. */
/* */
/*****************************************************************************/
void CalculateOptimize(OBJECT hd)
{ OBJECT z, y, ylink, og, og_par, para, link, wd, g, last;
int count, compcount; FULL_CHAR buff[MAX_BUFF];
FILE_NUM fnum; int write_pos, write_lnum; BOOLEAN hyph_used;
debug1(DOG, D, "CalculateOptimize(%s)", SymName(actual(hd)));
/* delete the concluding GAP_OBJ stuck in by Promote() */
assert( LastDown(opt_components(hd)) != opt_components(hd), "CO!" );
Child(last, LastDown(opt_components(hd)));
assert( type(last) == GAP_OBJ, "CalculateOptimize: type(last)!" );
DisposeChild(Up(last));
ifdebug(DOG, D, DebugOptimize(hd));
/* break the paragraph; don't let user see any error messages */
assert( opt_constraints(hd) != nilobj, "KillGalley: no opt_constraints!" );
assert( Down(opt_constraints(hd)) != opt_constraints(hd), "KillGalleyo!" );
/* *** no longer needed since z14 doesn't refer to these fields
back(opt_components(hd), COLM) = 0;
fwd(opt_components(hd), COLM) = MAX_FULL_LENGTH;
*** */
Child(y, LastDown(opt_constraints(hd)));
EnterErrorBlock(FALSE);
opt_components(hd) = FillObject(opt_components(hd), &constraint(y),
opt_constraints(hd), FALSE, FALSE, TRUE, &hyph_used);
LeaveErrorBlock(FALSE);
debug1(DOG, D, "after breaking (%shyph_used):", hyph_used ? "" : "not ");
ifdebug(DOG, D, DebugOptimize(hd));
/* quit if one line only */
if( type(opt_components(hd)) != VCAT ||
Down(opt_components(hd)) == LastDown(opt_components(hd)) )
{
debug0(DOG, D, "CalculateOptimize returning (one target only)");
return;
}
/* construct a new @OptGall symbol */
New(og, CLOSURE);
actual(og) = OptGallSym;
FposCopy(fpos(og), fpos(hd));
New(og_par, PAR);
actual(og_par) = ChildSym(OptGallSym, RPAR);
Link(og, og_par);
New(para, ACAT);
Link(og_par, para);
/* begin with "h" if hyphenation was used */
if( hyph_used )
{ wd = MakeWord(WORD, AsciiToFull("h"), &fpos(hd));
Link(para, wd);
}
/* attach words showing the number of components per target */
compcount = 0;
for( link = Down(opt_components(hd)); link != opt_components(hd);
link = NextDown(link) )
{ Child(y, link);
if( type(y) != ACAT ) continue;
/* let wd be a word containing the number of components in this target */
count = 0;
for( ylink = Down(y); ylink != y; ylink = NextDown(ylink) )
{ Child(z, ylink);
if( type(z) != GAP_OBJ ) count++;
}
wd = MakeWord(WORD, StringInt(count), &fpos(y));
/* link wd to para, prepended by a gap if not first */
if( Down(para) != para )
{ New(g, GAP_OBJ);
SetGap(gap(g), FALSE, FALSE, TRUE, FIXED_UNIT, EDGE_MODE, 1*EM);
if( ++compcount % 20 == 0 )
{ hspace(g) = 0;
vspace(g) = 1;
}
else
{ hspace(g) = 1;
vspace(g) = 0;
}
Link(para, g);
}
Link(para, wd);
}
debug2(DOG, D, "CalculateOptimize(%s) made object %s",
SymName(actual(hd)), EchoObject(og));
/* dispose the optimizing data structures */
DisposeObject(opt_components(hd));
opt_components(hd) = nilobj;
DisposeObject(opt_constraints(hd));
opt_constraints(hd) = nilobj;
/* write result onto cross-reference database */
if( AllowCrossDb )
{
/* construct a suitable tag for this galley's entry */
StringCopy(buff, SymName(actual(hd)));
StringCat(buff, AsciiToFull("."));
StringCat(buff, StringInt(line_num(fpos(hd))));
fnum = DatabaseFileNum(&fpos(hd));
AppendToFile(og, fnum, &write_pos, &write_lnum);
DbInsert(NewCrossDb, FALSE, OptGallSym, buff, &fpos(hd),
STR_ZERO, fnum, write_pos, write_lnum, FALSE);
}
debug0(DOG, D, "CalculateOptimize returning.");
}
#if DEBUG_ON
/*****************************************************************************/
/* */
/* DebugOptimizedAcat(x) */
/* */
/* Debug output of one line of optimized ACAT. */
/* */
/*****************************************************************************/
static void DebugOptimizedAcat(OBJECT x)
{ OBJECT link, y;
assert( type(x) == ACAT, "DebugOptimizedAcat!" );
for( link = Down(x); link != x; link = NextDown(link) )
{ Child(y, link);
if( type(y) == GAP_OBJ )
{ debug1(DOG, D, " GAP_OBJ %s", EchoGap(&gap(y)));
}
else if( is_word(type(y)) )
{ debug2(DOG, D, " word (%s, %s)", EchoLength(back(y, COLM)),
EchoLength(fwd(y, COLM)));
}
else
{ debug1(DOG, D, " %s", Image(type(y)));
}
}
} /* end DebugOptimizedAcat */
/*****************************************************************************/
/* */
/* DebugOptimize(hd) */
/* */
/* Debug output of optimized galley hd. */
/* */
/*****************************************************************************/
void DebugOptimize(OBJECT hd)
{ OBJECT link, y;
assert( opt_components(hd) != nilobj, "DebugOptimize!");
debug3(DOG, D, "Optimized Galley %s %sinto %s", SymName(actual(hd)),
gall_dir(hd) == COLM ? "horizontally " : "", SymName(whereto(hd)));
/* print components */
/* *** believe this now ***
if( type(opt_components(hd)) == ACAT )
DebugOptimizedAcat(opt_components(hd));
else if( type(opt_components(hd)) == VCAT )
{
for( link = Down(opt_components(hd)); link != opt_components(hd);
link = NextDown(link) )
{
Child(y, link);
if( type(y) == ACAT ) DebugOptimizedAcat(y);
debug0(DOG, D, "----------------");
}
}
else debug1(DOG, D, "? %s ?", Image(type(opt_components(hd))));
*** */
debug0(DOG, D, "components:");
ifdebug(DOG, D, DebugObject(opt_components(hd)));
debug0(DOG, D, "");
/* print constraints */
debug0(DOG, D, "constraints:");
for( link = Down(opt_constraints(hd)); link != opt_constraints(hd);
link = NextDown(link) )
{
Child(y, link);
debug1(DOG, D, "%s", EchoConstraint(&constraint(y)));
}
debug0(DOG, D, "");
/* print counts */
debug0(DOG, D, "counts");
if( opt_counts(hd) != nilobj )
{
if( opt_hyph(hd) )
fprintf(stderr, "hyph");
for( link = Down(opt_counts(hd)); link != opt_counts(hd);
link = NextDown(link) )
{ Child(y, link);
fprintf(stderr, " %d", comp_count(y));
}
fprintf(stderr, "\n");
}
debug0(DOG, D, "");
} /* end DebugOptimize */
#endif