/*@z16.c:Size Adjustment:SetNeighbours(), CatAdjustSize()@********************/
/* */
/* THE LOUT DOCUMENT FORMATTING SYSTEM (VERSION 3.26) */
/* COPYRIGHT (C) 1991, 2002 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: z16.c */
/* MODULE: Size Adjustment */
/* EXTERNS: FindShift(), SetNeighbours(), AdjustSize() */
/* */
/*****************************************************************************/
#include "externs.h"
/*****************************************************************************/
/* */
/* FULL_LENGTH FindShift(x, y, dim) */
/* */
/* x = @HShift y or @VShift y depending on dim. FindShift returns the */
/* length of the shift measured from the mark of y to the mark of x. */
/* This is negative if the mark of y is to the right of the mark of x. */
/* */
/*****************************************************************************/
FULL_LENGTH FindShift(OBJECT x, OBJECT y, int dim)
{ FULL_LENGTH len, res;
debug4(DSF, DD, "FindShift(%s, %s %s, %s)", Image(type(x)),
Image(type(y)), EchoObject(y), dimen(dim));
/* first determine the magnitude of the shift */
switch( units(shift_gap(x)) )
{
case FIXED_UNIT: len = width(shift_gap(x));
break;
case NEXT_UNIT: len = (size(y, dim) * width(shift_gap(x))) / FR;
break;
default: assert(FALSE, "FindShift: units");
break;
}
/* then calculate the shift depending on the shift type */
switch( shift_type(x) )
{
case GAP_ABS: res = len - back(y, dim);
break;
case GAP_INC: res = len;
break;
case GAP_DEC: res = - len;
break;
default: assert(FALSE, "FindShift: type");
break;
}
debug1(DSF, DD, "FindShift returning %s", EchoLength(res));
return res;
} /* end FindShift */
/*****************************************************************************/
/* */
/* SetNeighbours(link, ratm, pg, pdef, sg, sdef, side) */
/* */
/* This is a utility routine used by CatConstrained(), AdjustSize(), */
/* BreakTable() and FlushGalley() for calculating size updates in objects. */
/* Assuming that link is the link of a component of a VCAT etc., and that */
/* ratm is TRUE if there is a marked component to the right of link, set */
/* */
/* pg to the gap separating link from the first definite object */
/* to the left, or nilobj if none. If pg != nilobj, set pdef to */
/* the preceding definite object; else pdef is undefined. */
/* */
/* sg to the gap separating link from the first definite object */
/* to the right, or nilobj if none. if sg != nilobj, set sdef to */
/* the succeeding definite object; else sdef is undefined. */
/* */
/* side to the side of the mark link is on; either BACK, ON or FWD. */
/* */
/*****************************************************************************/
void SetNeighbours(OBJECT link, BOOLEAN ratm, OBJECT *pg, OBJECT *pdef,
OBJECT *sg, OBJECT *sdef, int *side)
{ OBJECT plink, slink;
/* find preceding definite; if it exists, set *pg */
*pg = nilobj;
for( plink = PrevDown(link); type(plink) == LINK; plink = PrevDown(plink) )
{ Child(*pdef, plink);
if( type(*pdef) == SPLIT ? SplitIsDefinite(*pdef) : is_definite(type(*pdef)) )
{ Child(*pg, PrevDown(link));
while( is_index(type(*pg)) )
{ link = PrevDown(link);
Child(*pg, PrevDown(link));
}
assert( type(*pg) == GAP_OBJ, "SetNeighbours: type(*pg)!" );
break;
}
}
/* find succeeding definite; if it exists, set *sg */
*sg = nilobj;
for( slink = NextDown(link); type(slink) == LINK; slink = NextDown(slink) )
{ Child(*sdef, slink);
if( type(*sdef) == SPLIT ? SplitIsDefinite(*sdef) : is_definite(type(*sdef)) )
{ Child(*sg, PrevDown(slink));
while( is_index(type(*sg)) )
{ slink = PrevDown(slink);
Child(*sg, PrevDown(slink));
}
assert( type(*sg) == GAP_OBJ, "SetNeighbours: type(*sg)!" );
break;
}
}
*side = ratm ? BACK : *pg == nilobj || mark(gap(*pg)) ? ON : FWD;
debug4(DSA, DD,
"SetNeighbours: ratm == %s, pg %s nilobj, sg %s nilobj, side == %s",
bool(ratm), *pg == nilobj ? "==" : "!=", *sg == nilobj ? "==" : "!=",
*side == BACK ? "BACK" : *side == ON ? "ON" : "FWD");
} /* end SetNeighbours */
/*****************************************************************************/
/* */
/* static CatAdjustSize(x, b, f, ratm, y, dim) */
/* */
/* Adjust the size of x to be *b, *f. Object x is known to lie in add-set */
/* y; ratm is TRUE iff there is a mark to the right of x. Return the */
/* new size of y in *b, *f. */
/* */
/*****************************************************************************/
static void CatAdjustSize(OBJECT x, FULL_LENGTH *b, FULL_LENGTH *f, BOOLEAN ratm,
OBJECT y, int dim)
{ OBJECT link;
OBJECT pg, prec_def, sg, sd;
FULL_LENGTH beffect, feffect, seffect; int side;
int bb, ff;
debug6(DSA, DD, "CatAdjustSize(%s x, %s, %s, %s, %s y, %s)", Image(type(x)),
EchoLength(*b), EchoLength(*f), bool(ratm), Image(type(y)), dimen(dim));
debug2(DSA,DD, "x(%s,%s) =", EchoLength(back(x,dim)), EchoLength(fwd(x,dim)));
ifdebug(DSA, DD, DebugObject(x));
debug2(DSA,DD, "y(%s,%s) =", EchoLength(back(y,dim)), EchoLength(fwd(y,dim)));
ifdebug(DSA, DD, DebugObject(y));
/* DO_ADJUST ACAT is a special case because adjustment affects its size */
if( dim==COLM && type(y)==ACAT && display_style(save_style(y)) == DO_ADJUST )
{ back(x, dim) = *b; fwd(x, dim) = *f;
*b = back(y, dim); *f = fwd(y, dim);
debug2(DSA, DD, "CatAdjustSize ACAT %s,%s", EchoLength(*b), EchoLength(*f));
return;
}
link = UpDim(x, dim);
SetNeighbours(link, ratm, &pg, &prec_def, &sg, &sd, &side);
{ ifdebug(DSA, DD,
if( pg != nilobj && mode(gap(pg)) == NO_MODE )
{ debug1(DSA, DD, "NO_MODE gap pg, is_indefinite(x) == %s, y =",
bool(is_indefinite(type(x))) );
ifdebug(DSA, DD, DebugObject(y));
}
if( sg != nilobj && mode(gap(sg)) == NO_MODE )
{ debug1(DSA, DD, "NO_MODE gap sg, is_indefinite(x) == %s, y =",
bool(is_indefinite(type(x))) );
ifdebug(DSA, DD, DebugObject(y));
}
); }
if( is_indefinite(type(x)) )
{
beffect = pg == nilobj ? *b :
MinGap(fwd(prec_def, dim), *b, *f, &gap(pg));
feffect = sg == nilobj ? *f :
MinGap(*f, back(sd, dim), fwd(sd, dim), &gap(sg));
seffect = pg == nilobj ? sg == nilobj ? 0 : back(sd, dim) :
sg == nilobj ? fwd(prec_def, dim) :
MinGap(fwd(prec_def, dim), back(sd,dim), fwd(sd,dim), &gap(sg));
}
else /* !is_indefinite(type(x)) */
{
beffect = pg == nilobj ? *b - back(x, dim) :
MinGap(fwd(prec_def, dim), *b, *f, &gap(pg)) -
MinGap(fwd(prec_def, dim), back(x, dim), fwd(x, dim), &gap(pg));
feffect = sg == nilobj ? *f - fwd(x, dim) :
MinGap(*f, back(sd, dim), fwd(sd, dim), &gap(sg)) -
MinGap(fwd(x, dim), back(sd, dim), fwd(sd, dim), &gap(sg));
seffect = 0;
}
debug3(DSA, D, " pg = %s, sg = %s, side = %s",
pg == nilobj ? AsciiToFull("<nil>") : EchoGap(&gap(pg)),
sg == nilobj ? AsciiToFull("<nil>") : EchoGap(&gap(sg)), Image(side));
debug3(DSA, D, " beffect = %s, feffect = %s, seffect = %s",
EchoLength(beffect), EchoLength(feffect), EchoLength(seffect));
back(x, dim) = *b; fwd(x, dim) = *f;
switch( side )
{
case BACK: bb = back(y, dim) + beffect + feffect - seffect;
ff = fwd(y, dim);
break;
case ON: bb = back(y, dim) + beffect - seffect;
ff = fwd(y, dim) + feffect;
break;
case FWD: bb = back(y, dim);
ff = fwd(y, dim) + beffect + feffect - seffect;
break;
}
*b = bb; *f = ff;
debug2(DSA, DD, "CatAdjustSize returning %s,%s", EchoLength(*b), EchoLength(*f));
} /* end CatAdjustSize */
/*@::AdjustSize()@************************************************************/
/* */
/* AdjustSize(x, b, f, dim) */
/* */
/* Adjust the size of object x, in dimension dim, to be b, f. If x is a */
/* CLOSURE, the adjustment is from a CLOSURE to a definite object of size */
/* b, f. */
/* */
/*****************************************************************************/
void AdjustSize(OBJECT x, FULL_LENGTH b, FULL_LENGTH f, int dim)
{ OBJECT y, link, tlink, lp, rp, z, index;
BOOLEAN ratm; FULL_LENGTH tb, tf, cby, cfy, rby, rfy;
SetLengthDim(dim);
debug6(DSA, D, "[ AdjustSize( %s(%s,%s), %s, %s, %s ), x =",
type(x) == CLOSURE ? SymName(actual(x)) : Image(type(x)),
EchoLength(back(x, dim)), EchoLength(fwd(x, dim)),
EchoLength(b), EchoLength(f), dimen(dim));
ifdebug(DSA, DD, DebugObject(x) );
while( b != back(x, dim) || f != fwd(x, dim) || is_indefinite(type(x)) )
{ assert( Up(x) != x, "AdjustSize: Up(x) == x!" );
if( b < 0 || f < 0 )
Error(16, 5, "cannot recover from earlier errors", FATAL, &fpos(x));
/* these cases are unique because they have multiple parents */
if( type(x) == COL_THR || type(x) == ROW_THR )
{ assert( (type(x)==COL_THR) == (dim==COLM), "AdjustSize: COL_THR!" );
back(x, dim) = b; fwd(x, dim) = f;
for( link = Up(x); link != x; link = NextUp(link) )
{ Parent(y, link);
assert( type(y) == SPLIT, "AdjustSize: type(y) != SPLIT!") ;
AdjustSize(y, b, f, dim);
}
debug0(DSA, D, "] AdjustSize (thread case) returning.");
return;
}
link = UpDim(x, dim); ratm = FALSE;
for( tlink=NextDown(link); type(tlink) == LINK; tlink=NextDown(tlink) )
{ Child(y, tlink);
if( type(y) == GAP_OBJ && mark(gap(y)) ) ratm = TRUE;
}
y = tlink;
debug5(DSA, D, " b = %s, f = %s, y = %s(%s,%s), x =",
EchoLength(b), EchoLength(f), Image(type(y)),
EchoLength(back(y, dim)), EchoLength(fwd(y, dim)));
ifdebug(DSA, DD, DebugObject(x) );
switch( type(y) )
{
case HEAD:
if( gall_dir(y) == COLM )
{ back(x, dim) = b, fwd(x, dim) = f;
debug0(DSA, D, "] AdjustSize returning at horiz HEAD");
return;
}
else if( dim == ROWM )
{ back(x, dim) = b, fwd(x, dim) = f;
debug0(DSA, D, "] AdjustSize ROWM returning at HEAD");
return;
}
else
{
/* let lp and rp be the gaps delimiting the */
/* components joined to x */
for( lp = PrevDown(link); lp != y; lp = PrevDown(lp) )
{ Child(z, lp);
if( type(z) == GAP_OBJ && !join(gap(z)) ) break;
}
for( rp = NextDown(link); rp != y; rp = NextDown(rp) )
{ Child(z, rp);
if( type(z) == GAP_OBJ && !join(gap(z)) ) break;
}
back(x, dim) = b; fwd(x, dim) = f;
if( lp == y && rp == y && !seen_nojoin(y) )
{
/* if whole object is joined, do this */
b = find_max(b, back(y, dim));
f = find_max(f, fwd(y, dim));
debug3(DSA, D, " under head %s, whole object joined, b = %s, f = %s)",
SymName(actual(y)), EchoLength(b), EchoLength(f));
}
else
{
/* if // or || is present, do this */
debug1(DSA, D, " [ under head %s with //, working out tb and tf:",
SymName(actual(y)));
tb = tf = 0;
for( link = NextDown(lp); link != rp; link = NextDown(link) )
{ Child(z, link);
debugcond1(DSA, D, type(z) == GAP_OBJ,
" gap %s", EchoCatOp(VCAT, mark(gap(z)), join(gap(z))));
if( type(z) == GAP_OBJ || is_index(type(z)) ) continue;
debug6(DSA, D, " component %s %s(%s, %s) so tb = %s, tf = %s",
Image(type(z)), type(z) == CLOSURE ? SymName(actual(z)) : STR_EMPTY,
EchoLength(back(z, dim)), EchoLength(fwd(z, dim)),
EchoLength(tb), EchoLength(tf));
ifdebugcond(DSA, DD, dim == COLM && fwd(z, dim) > 20*CM, DebugObject(z));
tb = find_max(tb, back(z, dim));
tf = find_max(tf, fwd(z, dim));
}
b = 0; f = find_max(tb + tf, fwd(y, dim));
debug5(DSA, D, " ] under head %s with //, tb = %s, tf = %s, b = %s, f = %s",
SymName(actual(y)), EchoLength(tb), EchoLength(tf),
EchoLength(b), EchoLength(f));
}
if( back(y, dim) == b && fwd(y, dim) == f )
{
debug0(DSA, D, "] AdjustSize (COLM) returning at HEAD (no wider)");
return;
}
debug3(DSA, DD, "AdjustSize widening HEAD %s to b = %s, f = %s",
SymName(actual(y)), EchoLength(b), EchoLength(f));
ifdebugcond(DSA, DD, dim == COLM && f > 20*CM, DebugObject(y));
back(y, dim) = b; fwd(y, dim) = f;
if( Up(y) == y )
{
debug0(DSA, D, "] AdjustSize ret. at HEAD (no parent)" );
return;
}
Parent(index, Up(y));
if( type(index) != RECEIVING )
{
debug1(DSA,D, "] AdjustSize ret. at HEAD (%s)", Image(type(index)));
return;
}
assert(actual(index)!=nilobj, "AdjustSize: actual(index)==nilobj!" );
assert( type(actual(index)) == CLOSURE, "AdjustSize: index non-C!" );
if( actual(actual(index)) != GalleySym &&
actual(actual(index)) != ForceGalleySym )
{
debug0(DSA, D, "] AdjustSize ret. at HEAD (not @Galley, so root)" );
return;
}
y = actual(index);
debug3(DSA, DD, "AdjustSize jumping to y = %s of size %s,%s",
Image(type(y)), EchoLength(back(y, dim)), EchoLength(fwd(y, dim)));
}
break;
case SPLIT:
case HCONTRACT:
case VCONTRACT:
case HEXPAND:
case VEXPAND:
case BEGIN_HEADER:
case END_HEADER:
case SET_HEADER:
case CLEAR_HEADER:
case ONE_COL:
case ONE_ROW:
case PLAIN_GRAPHIC:
case GRAPHIC:
case LINK_SOURCE:
case LINK_DEST:
case LINK_URL:
case KERN_SHRINK:
case BACKGROUND:
back(x, dim) = b; fwd(x, dim) = f;
break;
case HSCALE:
case VSCALE:
back(x, dim) = b; fwd(x, dim) = f;
if( (dim==COLM) == (type(y)==HSCALE) )
{ debug0(DSA, D, "] AdjustSize returning at HSCALE or VSCALE");
return;
}
break;
case HCOVER:
case VCOVER:
/* dubious, but not likely to arise in practice */
back(x, dim) = b; fwd(x, dim) = f;
if( (dim==COLM) == (type(y)==HCOVER) )
{ debug0(DSA, D, "] AdjustSize returning at HCOVER or VCOVER");
return;
}
break;
case SCALE:
back(x, dim) = b; fwd(x, dim) = f;
if( dim == COLM )
{ b *= bc(constraint(y)) / SF;
f *= bc(constraint(y)) / SF;
}
else
{ b *= fc(constraint(y)) / SF;
f *= fc(constraint(y)) / SF;
}
break;
case ROTATE:
back(x, dim) = b; fwd(x, dim) = f;
RotateSize(&cby, &cfy, &rby, &rfy, x, sparec(constraint(y)));
if( cby != back(y, COLM) || cfy != fwd(y, COLM) )
AdjustSize(y, cby, cfy, COLM);
if( rby != back(y, ROWM) || rfy != fwd(y, ROWM) )
AdjustSize(y, rby, rfy, ROWM);
debug1(DSA, D, "] AdjustSize returning at %s.", Image(type(y)));
return;
case WIDE:
case HIGH:
if( (type(y) == WIDE) == (dim == COLM) )
{ if( !FitsConstraint(b, f, constraint(y)) )
{ Error(16, 2, "size constraint %s,%s,%s broken by %s,%s",
WARN, &fpos(y),
EchoLength(bc(constraint(y))), EchoLength(bfc(constraint(y))),
EchoLength(fc(constraint(y))), EchoLength(b), EchoLength(f));
SetConstraint(constraint(y), MAX_FULL_LENGTH, b+f, MAX_FULL_LENGTH);
}
back(x, dim) = b; fwd(x, dim) = f;
EnlargeToConstraint(&b, &f, &constraint(y));
}
else
{ back(x, dim) = b;
fwd(x, dim) = f;
}
break;
case HLIMITED:
case VLIMITED:
if( (type(y) == HLIMITED) == (dim == COLM) )
{
/* ***
Parent(z, UpDim(y, dim));
if( type(z) == ROW_THR || type(z) == COL_THR )
{
SetConstraint(constraint(y), back(z,dim), size(z,dim), fwd(z,dim));
}
else
{
SetConstraint(constraint(y), back(y,dim), size(y,dim), fwd(y,dim));
}
if( !FitsConstraint(b, f, constraint(y)) )
{ Error(16, 3, "%s of size %s,%s broken by %s,%s",
WARN, &fpos(y), Image(type(y)),
EchoLength(back(y, dim)), EchoLength(fwd(y, dim)),
EchoLength(b), EchoLength(f));
}
*** */
back(x, dim) = b; fwd(x, dim) = f;
}
else
{ back(x, dim) = b;
fwd(x, dim) = f;
}
break;
case HSHIFT:
case VSHIFT:
back(x, dim) = b; fwd(x, dim) = f;
if( (type(y) == HSHIFT) == (dim == COLM) )
{ tf = FindShift(y, x, dim);
b = find_min(MAX_FULL_LENGTH, find_max(0, b + tf));
f = find_min(MAX_FULL_LENGTH, find_max(0, f - tf));
}
break;
case COL_THR:
case ROW_THR:
assert( (type(y)==COL_THR) == (dim==COLM), "AdjustSize: COL_THR!" );
back(x, dim) = b; fwd(x, dim) = f;
b = find_max(b, back(y, dim));
f = find_max(f, fwd(y, dim));
break;
case VCAT:
case HCAT:
case ACAT:
if( (type(y) == VCAT) == (dim == ROWM) )
CatAdjustSize(x, &b, &f, ratm, y, dim);
else
{
/* let lp and rp be the gaps bracketing the components joined to x */
for( lp = PrevDown(link); lp != y; lp = PrevDown(lp) )
{ Child(z, lp);
if( type(z) == GAP_OBJ && !join(gap(z)) ) break;
}
for( rp = NextDown(link); rp != y; rp = NextDown(rp) )
{ Child(z, rp);
if( type(z) == GAP_OBJ && !join(gap(z)) ) break;
}
back(x, dim) = b; fwd(x, dim) = f;
if( lp == y && rp == y )
{
/* if whole object is joined, do this */
b = find_max(b, back(y, dim));
f = find_max(f, fwd(y, dim));
}
else
{ /* if // or || is present, do this */
tb = tf = 0;
for( link = NextDown(lp); link != rp; link = NextDown(link) )
{ Child(z, link);
if( type(z) == GAP_OBJ || is_index(type(z)) ) continue;
tb = find_max(tb, back(z, dim));
tf = find_max(tf, fwd(z, dim));
}
b = 0; f = find_max(tb + tf, fwd(y, dim));
}
}
break;
case START_HVSPAN:
Error(16, 4, "size adjustment of %s not implemented",
WARN, &fpos(y), Image(type(y)));
break;
case START_VSPAN:
case VSPAN:
if( dim == COLM )
{
back(x, dim) = b; fwd(x, dim) = f;
}
else Error(16, 4, "size adjustment of %s not implemented",
WARN, &fpos(y), Image(type(y)));
break;
case START_HSPAN:
case HSPAN:
if( dim == ROWM )
{
back(x, dim) = b; fwd(x, dim) = f;
}
else Error(16, 4, "size adjustment of %s not implemented",
WARN, &fpos(y), Image(type(y)));
break;
case HSPANNER:
case VSPANNER:
assert( (dim == COLM) == (type(y) == HSPANNER), "AdjustSize: span");
back(x, dim) = b; fwd(x, dim) = f;
debug5(DSC, D, " adjusting %s from (%s,%s) to (%s,%s)",
Image(type(y)), EchoLength(back(y, dim)), EchoLength(fwd(y, dim)),
EchoLength(b), EchoLength(f));
back(y, dim) = b; fwd(y, dim) = f;
debug1(DSA, D, "] AdjustSize returning at %s", Image(type(y)));
return;
break;
case WORD:
case QWORD:
case CLOSURE:
case NULL_CLOS:
case PAGE_LABEL:
case CROSS:
case FORCE_CROSS:
default:
assert1(FALSE, "AdjustSize:", Image(type(y)));
break;
} /* end switch */
x = y;
} /* end while */
debug0(DSA, D, "] AdjustSize returning.");
} /* end AdjustSize */