/*@z20.c:Galley Flushing:DebugInnersNames()@**********************************/ /* */ /* THE LOUT DOCUMENT FORMATTING SYSTEM (VERSION 3.17) */ /* COPYRIGHT (C) 1991, 1999 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: z20.c */ /* MODULE: Galley Flushing */ /* EXTERNS: FlushGalley() */ /* */ /*****************************************************************************/ #include "externs.h" #if DEBUG_ON FULL_CHAR *DebugInnersNames(OBJECT inners) { static FULL_CHAR buff[MAX_BUFF]; OBJECT link, y, z; StringCopy(buff, STR_EMPTY); if( inners != nilobj ) { for( link = Down(inners); link != inners; link = NextDown(link) ) { Child(y, link); if( link != Down(inners) ) StringCat(buff, STR_SPACE); switch( type(y) ) { case RECEIVING: case UNATTACHED: assert( Down(y) != y, "DebugInnersNames: UNATTACHED!"); Child(z, Down(y)); StringCat(buff, SymName(actual(z))); break; case PRECEDES: case GALL_PREC: case DEAD: StringCat(buff, Image(type(y))); break; default: assert1(FALSE, "DebugInnersNames:", Image(type(y))); break; } } } return buff; } /* end DebugInnersNames */ #endif /*@::ParentFlush(), FlushGalley()@********************************************/ /* */ /* ParentFlush(prnt_flush, dest_index, kill) */ /* */ /* Flush the galley which is the parent of dest_index, if likely to flush. */ /* If kill is TRUE, delete dest_index. */ /* */ /*****************************************************************************/ static void ParentFlush(BOOLEAN prnt_flush, OBJECT dest_index, BOOLEAN kill) { OBJECT prnt; debug3(DGF, D, "ParentFlush(%s, %s, %s)", bool(prnt_flush), EchoIndex(dest_index), bool(kill)); if( prnt_flush ) { Parent(prnt, Up(dest_index)); if( kill ) DeleteNode(dest_index); debug0(DGF, D, " calling FlushGalley from ParentFlush"); FlushGalley(prnt); } else if( kill ) DeleteNode(dest_index) debug0(DGF, D, "ParentFlush returning."); } /* end ParentFlush */ /*****************************************************************************/ /* */ /* FlushGalley(hd) */ /* */ /* Flush galley hd as far as possible. It could be the root galley. */ /* */ /*****************************************************************************/ void FlushGalley(OBJECT hd) { OBJECT dest; /* the target galley hd empties into */ OBJECT dest_index; /* the index of dest */ OBJECT inners; /* list of galleys and PRECEDES to flush */ OBJECT link, y; /* for scanning through the components of hd */ int dim; /* direction of galley */ CONSTRAINT dest_par_constr; /* the parallel size constraint on dest */ CONSTRAINT dest_perp_constr; /* the perpendicular size constraint on dest */ int pb, pf, f; /* candidate replacement sizes for dest */ OBJECT dest_encl; /* the VCAT or ACAT enclosing dest, if any */ int dest_side; /* if dest_encl != nilobj, side dest is on */ BOOLEAN need_adjust; /* TRUE as soon as dest_encl needs adjusting */ FULL_LENGTH dest_back, dest_fwd; /* the current size of dest_encl or dest */ FULL_LENGTH frame_size; /* the total constraint of dest_encl */ OBJECT prec_gap; /* the gap preceding dest if any else nilobj */ OBJECT prec_def; /* the component preceding dest, if any */ OBJECT succ_gap; /* the gap following dest if any else nilobj */ OBJECT succ_def; /* the component following dest, if any */ OBJECT stop_link; /* most recently seen gap link of hd */ FULL_LENGTH stop_back; /* back(dest_encl) incl all before stop_link */ FULL_LENGTH stop_fwd; /* fwd(dest_encl) incl. all before stop_link */ FULL_LENGTH stop_perp_back; /* back(dest_encl) in other direction */ FULL_LENGTH stop_perp_fwd; /* fwd(dest_encl) in other direction */ BOOLEAN prnt_flush; /* TRUE when the parent of hd needs a flush */ BOOLEAN target_is_internal; /* TRUE if flushing into an internal target */ OBJECT zlink, z, tmp, prnt; int attach_status; BOOLEAN remove_target; OBJECT why; FULL_LENGTH perp_back, perp_fwd; /* current perp size of dest_encl */ debug1(DGF, D, "[ FlushGalley %s (hd)", SymName(actual(hd))); prnt_flush = FALSE; dim = gall_dir(hd); RESUME: assert( type(hd) == HEAD, "FlushGalley: type(hd) != HEAD!" ); debug1(DGF, D, " resuming FlushGalley %s, hd =", SymName(actual(hd))); ifdebugcond(DGF, D, actual(hd) == nilobj, DebugGalley(hd, nilobj, 4)); assert( Up(hd) != hd, "FlushGalley: resume found no parent to hd!" ); /*@@************************************************************************/ /* */ /* The first step is to examine the parent of galley hd to determine the */ /* status of the galley. If this is not suitable for flushing, we do */ /* what we can to change the status. If still no good, return; so if */ /* this code does not return, then the galley is ready to flush into a */ /* destination in the normal way, and the following variables are set: */ /* */ /* dest_index the parent of the galley and index of its destination */ /* dest the destination of the galley, a @Galley object */ /* */ /***************************************************************************/ Parent(dest_index, Up(hd)); switch( type(dest_index) ) { case DEAD: /* the galley has been killed off while this process was sleeping */ debug1(DGF, D, "] FlushGalley %s returning (DEAD)", SymName(actual(hd))); return; case UNATTACHED: /* the galley is currently not attached to a destination */ attach_status = AttachGalley(hd, &inners, &y); debug1(DGF, D, " ex-AttachGalley inners: %s", DebugInnersNames(inners)); Parent(dest_index, Up(hd)); switch( attach_status ) { case ATTACH_KILLED: assert(inners==nilobj, "FlushGalley/ATTACH_KILLED: inners!=nilobj!"); debug1(DGF, D, "] FlushGalley %s returning (ATTACH_KILLED)", SymName(actual(hd))); debug1(DGF, D, " prnt_flush = %s", bool(prnt_flush)); return; case ATTACH_INPUT: ParentFlush(prnt_flush, dest_index, FALSE); assert(inners==nilobj, "FlushGalley/ATTACH_INPUT: inners!=nilobj!"); debug1(DGF, D, "] FlushGalley %s returning (ATTACH_INPUT)", SymName(actual(hd))); return; case ATTACH_NOTARGET: ParentFlush(prnt_flush, dest_index, FALSE); assert(inners==nilobj, "FlushGalley/ATTACH_NOTARG: inners!=nilobj!"); debug1(DGF, D, "] FlushGalley %s returning (ATTACH_NOTARGET)", SymName(actual(hd))); return; case ATTACH_SUSPEND: /* AttachGalley only returns inners here if they really need to */ /* be flushed; in particular the galley must be unsized before */ if( inners != nilobj ) { debug0(DGF, D, " calling FlushInners() from FlushGalley (a)"); FlushInners(inners, nilobj); goto RESUME; } stop_link = nilobj; goto SUSPEND; /* nb y will be set by AttachGalley in this case */ case ATTACH_NULL: /* hd will have been linked to the unexpanded target in this case */ remove_target = (actual(actual(dest_index)) == whereto(hd)); if( force_gall(hd) ) { /* if hd is a forcing galley, close all predecessors */ debug3(DGA, D, " forcing ATTACH_NULL case for %s into %s (%s)", SymName(actual(hd)), SymName(whereto(hd)), remove_target ? "remove_target" : "not remove_target"); Parent(prnt, Up(dest_index)); if( !non_blocking(dest_index) && remove_target ) { /* *** prnt_flush = TRUE; *** */ prnt_flush = non_blocking(dest_index) = TRUE; } FreeGalley(prnt, Up(dest_index), &inners, Up(dest_index), whereto(hd)); } else { debug3(DGA, D, " non-force ATTACH_NULL case for %s into %s (%s)", SymName(actual(hd)), SymName(whereto(hd)), remove_target ? "remove_target" : "not remove_target"); if( blocked(dest_index) && remove_target ) prnt_flush = TRUE; } DetachGalley(hd); KillGalley(hd, TRUE); if( inners != nilobj ) { debug0(DGF, D, " calling FlushInners() from FlushGalley (b)"); FlushInners(inners, nilobj); } else ParentFlush(prnt_flush, dest_index, remove_target); debug0(DGF, D, "] FlushGalley returning ATTACH_NULL"); return; case ATTACH_ACCEPT: /* if hd is a forcing galley, or actual(dest_index) is */ /* @ForceGalley, then close all predecessors */ if( force_gall(hd) || actual(actual(dest_index)) == ForceGalleySym ) { Parent(prnt, Up(dest_index)); debug1(DGA, D, " forcing ATTACH_ACCEPT case for %s", SymName(actual(hd))); /* debug0(DGA, DD, " force: prnt ="); */ /* ifdebug(DGA, DD, DebugObject(prnt)); */ /* debug1(DGA, D," calling FreeGalley from FlushGalley(%s)", */ /* SymName(actual(hd))); */ if( !non_blocking(dest_index) ) prnt_flush = TRUE; /* bug fix */ FreeGalley(prnt, Up(dest_index), &inners, Up(dest_index), whereto(hd)); /* debug0(DGA, DD, " force: after FreeGalley, prnt ="); */ /* ifdebug(DGA, DD, DebugObject(prnt)); */ } else prnt_flush = prnt_flush || blocked(dest_index); debug1(DGF, D, " force: prnt_flush = %s", bool(prnt_flush)); if( inners != nilobj ) { debug0(DGF, D, " calling FlushInners() from FlushGalley (c)"); FlushInners(inners, nilobj); } goto RESUME; default: assert(FALSE, "FlushGalley: attach_status"); break; } break; case RECEIVING: if( actual(actual(dest_index)) == InputSym ) { ParentFlush(prnt_flush, dest_index, FALSE); debug1(DGF, D, "] FlushGalley %s retn, input", SymName(actual(hd))); return; } break; default: assert1(FALSE, "FlushGalley: dest_index", Image(type(dest_index))); break; } dest = actual(dest_index); if( underline(dest) == UNDER_UNDEF ) underline(dest) = UNDER_OFF; target_is_internal = (dim==ROWM && !external_ver(dest)) || (dim==COLM && !external_hor(dest)); debug1(DGF, DD, " dest_index: %s", EchoObject(dest_index)); /*@@************************************************************************/ /* */ /* The second step is to examine the components of the galley one by one */ /* to determine if they can be promoted. Each component has the format */ /* */ /* { } */ /* */ /* and is always followed by a gap object (except the last component). */ /* An index indicates that the following object has some interesting */ /* feature, and it points to that feature inside the object. There are */ /* two possible actions for each component, in addition to accepting it: */ /* */ /* REJECT: The component does not fit, so detach the galley */ /* SUSPEND: The component is incomplete; go to sleep and wait */ /* */ /***************************************************************************/ stop_link = dest_encl = inners = nilobj; need_adjust = FALSE; /***************************************************************************/ /* */ /* Loop invariant */ /* */ /* The children of hd up to but not including Child(link) have been */ /* examined and pronounced to be promotable, if unbreakable gaps are */ /* ignored. When unbreakable gaps are taken into account, the most */ /* recent gap where a break is possible is at Child(stop_link), or */ /* nowhere if stop_link == nilobj. */ /* */ /* Case 1: target_is_internal == FALSE */ /* */ /* If this flag is FALSE, it means that the target of this galley is */ /* external. Consequently, there is no need to calculate sizes because */ /* there is no constraint on them. Also, a REJECT action is impossible */ /* so unbreakable gaps are no impediment. Variable dest_encl is nilobj. */ /* */ /* Case 2: target_is_internal == TRUE */ /* */ /* If this flag is TRUE, it means that the target of this galley is */ /* internal. Consequently, sizes need to be calculated, and unbreakable */ /* gaps need to be taken into account. Variable dest_encl may be not */ /* nilobj, in which case the following variables are defined: */ /* */ /* dest_encl the object enclosing dest (which must exist) */ /* prec_gap gap object preceding dest (which must exist) */ /* prec_def first definite object preceding dest (must exist) */ /* dest_back back(dest_encl) including effect of accepted compts */ /* dest_fwd fwd(dest_encl) including effect of accepted compts */ /* dest_side BACK or FWD, i.e. which side of the mark dest is on */ /* dest_par_constr the parallel size constraint on dest */ /* dest_perp_constr the perpendicular size constraint on dest */ /* frame_size size of frame enclosing dest_encl */ /* perp_back back(dest_encl) in other direction, incl accepteds */ /* perp_fwd fwd(dest_encl) in other direction, incl accepteds */ /* */ /* if dest_encl is nilobj, these variables are not defined. */ /* */ /* If stop_link is non-nilobj, then in the internal case dest_encl must */ /* be non-nilobj, and the following variables are defined: */ /* */ /* stop_back back(dest_encl) including all before stop_link */ /* stop_fwd fwd(dest_encl) including all before stop_link */ /* stop_perp_back back(dest_encl) in other direction */ /* stop_perp_fwd fwd(dest_encl) in other direction */ /* */ /* need_adjust is true if at least one definite component has been */ /* accepted for promotion and the destination is internal; hence, */ /* dest_encl is defined and its size needs to be adjusted. */ /* */ /* inners is the set of all PRECEDES and UNATTACHED indexes found. */ /* */ /***************************************************************************/ for( link = Down(hd); link != hd; link = NextDown(link) ) { Child(y, link); if( type(y) == SPLIT ) Child(y, DownDim(y, dim)); debug2(DGF, DD, " examining %s %s", Image(type(y)), EchoObject(y)); switch( type(y) ) { case GAP_OBJ: underline(y) = underline(dest); prec_gap = y; if( target_is_internal ) { assert( dest_encl != nilobj, "FlushGalley/GAP_OBJ: dest_encl!" ); if( !nobreak(gap(prec_gap)) ) { stop_link = link; stop_back = dest_back; stop_fwd = dest_fwd; stop_perp_back = perp_back; stop_perp_fwd = perp_fwd; } } else stop_link = link; if( !join(gap(y)) ) seen_nojoin(hd) = TRUE; break; case SCALE_IND: case COVER_IND: case EXPAND_IND: case GALL_PREC: case GALL_FOLL: case GALL_FOLL_OR_PREC: case GALL_TARG: case CROSS_PREC: case CROSS_FOLL: case CROSS_FOLL_OR_PREC: case CROSS_TARG: case PAGE_LABEL_IND: underline(y) = underline(dest); break; case PRECEDES: case UNATTACHED: if( inners == nilobj ) New(inners, ACAT); Link(inners, y); break; case RECEIVING: case RECEPTIVE: goto SUSPEND; case FOLLOWS: Child(tmp, Down(y)); if( Up(tmp) == LastUp(tmp) ) { link = PrevDown(link); DisposeChild(NextDown(link)); break; } Parent(tmp, Up(tmp)); assert(type(tmp) == PRECEDES, "Flush: PRECEDES!"); switch( CheckComponentOrder(tmp, dest_index) ) { case CLEAR: DeleteNode(tmp); link = PrevDown(link); DisposeChild(NextDown(link)); break; case PROMOTE: break; case BLOCK: goto SUSPEND; case CLOSE: if( opt_components(hd) != nilobj ) { DisposeObject(opt_components(hd)); opt_components(hd) = nilobj; debug2(DOG, D, "FlushGalley(%s) de-optimizing %s", "(CLOSE problem)", SymName(actual(hd))); } debug1(DGF, D, " reject (a) %s", EchoObject(y)); goto REJECT; } break; case NULL_CLOS: case PAGE_LABEL: case WORD: case QWORD: case ONE_COL: case ONE_ROW: case WIDE: case HIGH: case HSHIFT: case VSHIFT: case HSCALE: case VSCALE: case HCOVER: case VCOVER: case HCONTRACT: case VCONTRACT: case HLIMITED: case VLIMITED: case HEXPAND: case VEXPAND: case START_HVSPAN: case START_HSPAN: case START_VSPAN: case HSPAN: case VSPAN: case ROTATE: case BACKGROUND: case SCALE: case KERN_SHRINK: case INCGRAPHIC: case SINCGRAPHIC: case PLAIN_GRAPHIC: case GRAPHIC: case ACAT: case HCAT: case VCAT: case ROW_THR: case CLOSURE: case CROSS: case FORCE_CROSS: underline(y) = underline(dest); if( dim == ROWM ) { /* make sure y is not joined to a target below (vertical case only) */ for( zlink = NextDown(link); zlink != hd; zlink = NextDown(zlink) ) { Child(z, zlink); switch( type(z) ) { case RECEPTIVE: case RECEIVING: y = z; goto SUSPEND; case GAP_OBJ: if( !join(gap(z)) ) zlink = PrevDown(hd); break; default: break; } } /* try vertical hyphenation before anything else */ if( type(y) == HCAT ) VerticalHyphenate(y); } /* check size constraint */ if( target_is_internal ) { /* initialise dest_encl etc if not done yet */ if( dest_encl == nilobj ) { assert( UpDim(dest,1-dim) == UpDim(dest,dim), "FlushG: UpDims!" ); /* *** weird old code, trying for UpDim(dest, ROWM)? Parent(dest_encl, NextDown(Up(dest))); *** */ Parent(dest_encl, Up(dest)); debug4(DGF, D, " flush dest = %s %s, dest_encl = %s %s", Image(type(dest)), EchoObject(dest), Image(type(dest_encl)), EchoObject(dest_encl)); assert( (dim==ROWM && type(dest_encl)==VCAT) || (dim==COLM && type(dest_encl)==ACAT), "FlushGalley: dest != VCAT or ACAT!" ); SetNeighbours(Up(dest), FALSE, &prec_gap, &prec_def, &succ_gap, &succ_def, &dest_side); assert(prec_gap != nilobj || is_indefinite(type(y)), "FlushGalley: prec_gap == nilobj && !is_indefinite(type(y))!" ); assert(succ_gap == nilobj, "FlushGalley: succ_gap != nilobj!" ); assert(dest_side == FWD || is_indefinite(type(y)), "FlushGalley: dest_side != FWD || !is_indefinite(type(y))!"); dest_back = back(dest_encl, dim); dest_fwd = fwd(dest_encl, dim); perp_back = back(dest_encl, 1-dim); perp_fwd = fwd(dest_encl, 1-dim); Constrained(dest_encl, &dest_par_constr, dim, &why); Constrained(dest_encl, &dest_perp_constr, 1-dim, &why); debug1(DGF, D, " setting dest_perp_constr = %s", EchoConstraint(&dest_perp_constr)); frame_size = constrained(dest_par_constr) ? bfc(dest_par_constr) :0; } if( !is_indefinite(type(y)) ) { ifdebugcond(DGF, D, mode(gap(prec_gap)) == NO_MODE, DebugGalley(hd, y, 4)); /* calculate parallel effect of adding y to dest */ f = dest_fwd + fwd(y, dim) - fwd(prec_def, dim) + ActualGap(fwd(prec_def, dim), back(y, dim), fwd(y, dim), &gap(prec_gap), frame_size, dest_back + dest_fwd - fwd(prec_def, dim)); debug5(DGF, D, " f = %s + %s - %s + %s (prec_gap %s)", EchoLength(dest_fwd), EchoLength(fwd(y, dim)), EchoLength(fwd(prec_def, dim)), EchoLength( ActualGap(fwd(prec_def, dim), back(y, dim), fwd(y, dim), &gap(prec_gap), frame_size, dest_back + dest_fwd - fwd(prec_def, dim)) ), EchoGap(&gap(prec_gap))); debug3(DGF, D, " b,f: %s,%s; dest_encl: %s", EchoLength(dest_back), EchoLength(f), EchoConstraint(&dest_par_constr)); /* check new size against parallel constraint */ if( (units(gap(prec_gap))==FRAME_UNIT && width(gap(prec_gap)) > FR) || !FitsConstraint(dest_back, f, dest_par_constr) || (opt_components(hd) != nilobj && opt_comps_permitted(hd)<=0) ) { if( opt_components(hd) != nilobj ) { OBJECT z; /* record the size of this just-completed target area for hd */ New(z, WIDE); CopyConstraint(constraint(z), dest_par_constr); Link(opt_constraints(hd), z); ifdebug(DOG, D, debug2(DOG, D, "FlushGalley(%s) adding constraint %s", SymName(actual(hd)), EchoConstraint(&constraint(z))); if( units(gap(prec_gap))==FRAME_UNIT && width(gap(prec_gap)) > FR ) { debug1(DOG, D, " prec_gap = %s", EchoGap(&gap(prec_gap))); } if( !FitsConstraint(dest_back, f, dest_par_constr) ) { debug3(DOG, D, " !FitsConstraint(%s, %s, %s)", EchoLength(dest_back), EchoLength(f), EchoConstraint(&dest_par_constr)); } if( opt_comps_permitted(hd) <= 0 ) { debug1(DOG, D, " opt_comps_permitted = %2d", opt_comps_permitted(hd)); } debug4(DOG, D, "prec_gap = %s; y = %s (%s,%s):", EchoGap(&gap(prec_gap)), Image(type(y)), EchoLength(back(y, dim)), EchoLength(fwd(y, dim))); DebugObject(y); ) /* refresh the number of components permitted into the next target */ 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, " REJECT permitted = %2d", opt_comps_permitted(hd)); } debug1(DGF, D, " reject (b) %s", EchoObject(y)); goto REJECT; } /* calculate perpendicular effect of adding y to dest */ if( seen_nojoin(hd) ) { pb = 0; pf = find_max(perp_fwd, size(y, 1-dim)); } else { pb = find_max(perp_back, back(y, 1-dim)); pf = find_max(perp_fwd, fwd(y, 1-dim)); } /* check new size against perpendicular constraint */ if( !FitsConstraint(pb, pf, dest_perp_constr) ) { if( opt_components(hd) != nilobj ) { DisposeObject(opt_components(hd)); opt_components(hd) = nilobj; debug1(DOG, D, "FlushGalley(%s) de-optimizing (perp problem)", SymName(actual(hd))); } if( dim == ROWM ) { Error(20, 3, "component too wide for available space", WARN, &fpos(y)); debug6(DGF, D, " %s,%s [%s,%s] too wide for %s, y = %s", EchoLength(pb), EchoLength(pf), EchoLength(back(y, 1-dim)), EchoLength(fwd(y, 1-dim)), EchoConstraint(&dest_perp_constr), EchoObject(y)); } debug1(DGF, D, " reject (c) %s", EchoObject(y)); goto REJECT; } /* accept definite component */ dest_fwd = f; prec_def = y; perp_back = pb; perp_fwd = pf; need_adjust = TRUE; if( opt_components(hd) != nilobj ) { opt_comps_permitted(hd)--; debug1(DOG, D, " ACCEPT permitted = %2d", opt_comps_permitted(hd)); } } /* accept indefinite component */ } /* end if( target_is_internal ) */ /* accept this component into dest, subject to following nobreaks */ debug3(DGF, D, " t-accept %s %s %s", Image(type(y)), EchoObject(y), EchoFilePos(&fpos(y))); prnt_flush = prnt_flush || blocked(dest_index); debug1(DGF, DDD, " prnt_flush = %s", bool(prnt_flush)); debug1(DGF, DDD, " inners = %s", DebugInnersNames(inners)); if( inners != nilobj ) { BOOLEAN promotable; OBJECT tgp; /* We would prefer to promote right now, then give these inners */ /* a chance. However this is not possible unless the following */ /* gap (if any) is breakable */ if( type(NextDown(link)) == LINK ) { Child(tgp, NextDown(link)); assert( type(tgp) == GAP_OBJ, "FlushGalley: tgp!" ); promotable = !nobreak(gap(tgp)); } else promotable = TRUE; if( promotable ) { Promote(hd, NextDown(link), dest_index, TRUE); if( need_adjust ) { debug0(DSA, D, " calling AdjustSize from FlushGalley (ACCEPT)"); AdjustSize(dest_encl, dest_back, dest_fwd, dim); AdjustSize(dest_encl, perp_back, perp_fwd, 1-dim); } debug0(DGF, D, " calling FlushInners() from FlushGalley (d)"); FlushInners(inners, hd); goto RESUME; } } break; default: assert1(FALSE, "FlushGalley:", Image(type(y))); break; } /* end switch */ } /* end for */ /* EMPTY: */ /* galley is now completely accepted; clean up and exit */ debug0(DGF, D, " galley empty now"); if( inners != nilobj ) DisposeObject(inners); if( Down(hd) != hd ) { Promote(hd, hd, dest_index, TRUE); if( need_adjust ) { debug0(DSA, D, " calling AdjustSize from FlushGalley (EMPTY)"); AdjustSize(dest_encl, dest_back, dest_fwd, dim); AdjustSize(dest_encl, perp_back, perp_fwd, 1-dim); } } if( opt_components(hd) != nilobj ) { OBJECT z; New(z, WIDE); if( dest_encl != nilobj ) CopyConstraint(constraint(z), dest_par_constr); else SetConstraint(constraint(z), MAX_FULL_LENGTH, MAX_FULL_LENGTH, MAX_FULL_LENGTH); Link(opt_constraints(hd), z); debug2(DOG, D, "FlushGalley(%s) empty adding constraint %s", SymName(actual(hd)), EchoConstraint(&constraint(z))); } DetachGalley(hd); debug0(DGF, D, " calling KillGalley from FlushGalley"); KillGalley(hd, TRUE); ParentFlush(prnt_flush, dest_index, TRUE); debug1(DGF,D,"] FlushGalley %s returning (emptied).", SymName(actual(hd))); return; REJECT: /* reject this component and move to a new dest */ assert(actual(dest) != PrintSym, "FlushGalley: reject print!"); if( inners != nilobj ) DisposeObject(inners); if( stop_link != nilobj ) { Promote(hd, stop_link, dest_index, TRUE); if( need_adjust ) { debug0(DSA, D, " calling AdjustSize from FlushGalley (REJECT)"); AdjustSize(dest_encl, stop_back, stop_fwd, dim); AdjustSize(dest_encl, stop_perp_back, stop_perp_fwd, 1-dim); } } DetachGalley(hd); assert( type(dest_index) == RECEIVING, "FlushGalley/REJECT: dest_index!" ); prnt_flush = prnt_flush || blocked(dest_index); DeleteNode(dest_index); goto RESUME; SUSPEND: /* suspend this component */ debug1(DGF, D, " suspend %s", EchoIndex(y)); if( inners != nilobj ) DisposeObject(inners); if( stop_link != nilobj ) { Promote(hd, stop_link, dest_index, TRUE); if( need_adjust ) { debug0(DSA, D, " calling AdjustSize from FlushGalley (SUSPEND)"); AdjustSize(dest_encl, stop_back, stop_fwd, dim); AdjustSize(dest_encl, stop_perp_back, stop_perp_fwd, 1-dim); } } /* check whether external galleys can remove the blockage */ if( type(y) == RECEPTIVE && ready_galls(hd) != nilobj && AllowCrossDb ) { OBJECT eg, val, index2, hd2, tag, seq, newsym; BOOLEAN found, gall; FULL_CHAR newtag[MAX_BUFF], newseq[MAX_BUFF]; /* get first ready galley in from cross reference database */ Child(eg, Down(ready_galls(hd))); SwitchScope(nilobj); val = ReadFromFile(eg_fnum(eg), eg_fpos(eg), eg_lnum(eg)); UnSwitchScope(nilobj); if( val == nilobj ) Error(20, 1, "error in database file %s", FATAL, &fpos(y), FileName(eg_fnum(eg))); assert( type(val) == CLOSURE, "AttachG: db CLOSURE!" ); New(index2, UNATTACHED); pinpoint(index2) = nilobj; New(hd2, HEAD); FposCopy(fpos(hd2), fpos(val)); actual(hd2) = actual(val); limiter(hd2) = nilobj; opt_components(hd2) = opt_constraints(hd2) = nilobj; gall_dir(hd2) = horiz_galley(actual(val)); sized(hd2) = FALSE; ready_galls(hd2) = nilobj; must_expand(hd2) = TRUE; Link(index2, hd2); Link(hd2, val); SetTarget(hd2); foll_or_prec(hd2) = GALL_FOLL; enclose_obj(hd2) = (has_enclose(actual(hd2)) ? BuildEnclose(hd2) : nilobj); Link(Up(y), index2); /* set up the next ready galley for reading next time */ Child(tag, Down(eg)); Child(seq, LastDown(eg)); do /* skip duplicate seq values */ { found = DbRetrieveNext(OldCrossDb, &gall, &newsym, newtag, newseq, &eg_fnum(eg), &eg_fpos(eg), &eg_lnum(eg), &eg_cont(eg)); debug2(DGF, DD, " ext gall found: %15s gall: %15s", bool(gall), bool(found)); debug2(DGF, DD, " ext gall new sym: %15s old sym: %15s", SymName(newsym), SymName(eg_symbol(eg))); debug2(DGF, DD, " ext gall new tag: %15s old tag: %15s", newtag, string(tag)); debug2(DGF, DD, " ext gall new seq: %15s old seq: %15s", newseq, string(seq)); if( found ) found = gall && newsym == eg_symbol(eg) && StringEqual(newtag, string(tag)); /* merge galleys whose seq strings are equal */ if( found && StringEqual(newseq, string(seq)) ) { SwitchScope(nilobj); val = ReadFromFile(eg_fnum(eg), eg_fpos(eg), eg_lnum(eg)); UnSwitchScope(nilobj); if( val == nilobj ) Error(20, 2, "error in database file %s", FATAL, &fpos(y), FileName(eg_fnum(eg))); assert( type(val) == CLOSURE, "AttachG: db CLOSURE!" ); if( !has_merge(actual(val)) ) DisposeObject(val); else /* add val to hd2 */ { if( type(hd2) != ACAT ) { OBJECT tmp = hd2; New(hd2, ACAT); MoveLink(Up(tmp), hd2, CHILD); Link(hd2, tmp); } Link(hd2, val); } } } while( found && StringEqual(newseq, string(seq)) ); if( found ) { DisposeChild(Up(tag)); DisposeChild(Up(seq)); tag = MakeWord(WORD, newtag, no_fpos); seq = MakeWord(WORD, newseq, no_fpos); Link(eg, tag); Link(eg, seq); debug1(DGF, DD, " another ext gall: into %s", SymName(newsym)); } else { DisposeChild(Up(eg)); debug1(DGF, DD, " last ext gall into ", SymName(eg_symbol(eg))); if( Down(ready_galls(hd)) == ready_galls(hd) ) { Dispose(ready_galls(hd)); ready_galls(hd) = nilobj; debug0(DGF, DD, " all ext galls exhausted"); } } /* flush the ready galley found above, and resume */ debug2(DGF, DD, " ext gall FlushGalley (%s into %s)", SymName(actual(hd2)), SymName(whereto(hd2))); debug0(DGF, DD, " calling FlushGalley from FlushGalley/SUSPEND"); if( type(hd2) == ACAT ) hd2 = ConvertGalleyList(hd2); FlushGalley(hd2); goto RESUME; } else if( type(y) == RECEPTIVE && trigger_externs(y) && AllowCrossDb ) { OBJECT sym, cr, ins, tag, seq, eg, cnt; BOOLEAN found; FULL_CHAR newseq[MAX_BUFF]; FILE_NUM tfnum; long tfpos, tcont; int tlnum; debug1(DGF, DD, " ext gall target %s", SymName(actual(actual(y)))); for( sym = FirstExternTarget(actual(actual(y)), &cnt); sym != nilobj; sym = NextExternTarget(actual(actual(y)), &cnt) ) { debug1(DGF, DD, " ext gall gall_targ %s", SymName(sym)); cr = GallTargEval(sym, &fpos(actual(y))); New(ins, GALL_TARG); actual(ins) = cr; Link(Up(y), ins); Child(tag, LastDown(cr)); assert( is_word(type(tag)), "FlushGalley: cr is_word(type(tag))!" ); found = DbRetrieve(OldCrossDb, TRUE, sym, string(tag), newseq, &tfnum, &tfpos, &tlnum, &tcont); if( found ) { if( ready_galls(hd) == nilobj ) New(ready_galls(hd), ACAT); New(eg, EXT_GALL); debug1(DGF, DD, " ext gall retrieved: into %s", SymName(sym)); eg_fnum(eg) = tfnum; eg_fpos(eg) = tfpos; eg_lnum(eg) = tlnum; eg_symbol(eg) = sym; eg_cont(eg) = tcont; tag = MakeWord(WORD, string(tag), no_fpos); Link(eg, tag); seq = MakeWord(WORD, newseq, no_fpos); Link(eg, seq); Link(ready_galls(hd), eg); } } trigger_externs(y) = FALSE; if( ready_galls(hd) != nilobj ) goto RESUME; } /* end if external galleys */ /* if non-blocking, delete the index and resume */ if( type(y) == RECEPTIVE && non_blocking(y) ) { DeleteNode(y); goto RESUME; } else if( type(y) == RECEIVING && non_blocking(y) ) { if( Down(y) == y ) { DeleteNode(y); } else { Child(z, Down(y)); if( opt_components(z) != nilobj ) GazumpOptimize(z, actual(y)); DetachGalley(z); } goto RESUME; } /* if all the above fail to remove the blockage, suspend */ blocked(y) = TRUE; ParentFlush(prnt_flush, dest_index, FALSE); debug1(DGF,D, "] FlushGalley %s returning (suspend)", SymName(actual(hd))); return; } /* end FlushGalley */