/*@z44.c:Vertical Hyphenation:VerticalHyphenate()@****************************/ /* */ /* 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: z44.c */ /* MODULE: Vertical Hyphenation */ /* EXTERNS: VerticalHyphenate(), ConvertGalleyList() */ /* */ /*****************************************************************************/ #include "externs.h" /*****************************************************************************/ /* */ /* FirstDefiniteCompressed(x, link, y) */ /* NextDefiniteWithGapCompressed(x, link, y, g) */ /* */ /* Like FirstDefinite() and NextDefiniteWithGap(), except that these */ /* versions assume that x is of type VCAT, and they compress any VCAT */ /* objects found within x as they go. */ /* */ /*****************************************************************************/ #define FirstDefiniteCompressed(x, link, y) \ { BOOLEAN jn; \ FirstDefinite(x, link, y, jn); \ while( link != x && type(y) == VCAT ) \ { TransferLinks(Down(y), y, link); \ DisposeChild(link); \ FirstDefinite(x, link, y, jn); \ } \ assert( link==x || is_definite(type(y)), "FirstDefiniteCompressed!"); \ } #define NextDefiniteWithGapCompressed(x, link, y, g) \ { OBJECT start_link = PrevDown(link), ylink, yg, z; \ BOOLEAN jn; \ NextDefiniteWithGap(x, link, y, g, jn); \ while( link != x && type(y) == VCAT ) \ { FirstDefinite(y, ylink, z, jn); \ if( ylink != y && PrevDown(ylink) != y ) \ { Child(yg, PrevDown(ylink)); \ assert( type(yg)==GAP_OBJ && mode(gap(yg)) != NO_MODE, "NDWGC!"); \ MoveLink(PrevDown(ylink), Up(g), PARENT); \ MoveLink(Up(g), ylink, PARENT); \ } \ TransferLinks(Down(y), y, link); \ DisposeChild(link); \ link = NextDown(start_link); \ NextDefiniteWithGap(x, link, y, g, jn); \ } \ assert( link==x || is_definite(type(y)), "FirstDefiniteCompressed!"); \ assert( link==x || mode(gap(g)) != NO_MODE, \ "FirstDefiniteWithGapCompressed: mode(gap(g))!" ); \ } /*@@**************************************************************************/ /* */ /* OBJECT FindTarget(index) */ /* */ /* Work out what the given index is pointing at, or nilobj if nothing. */ /* */ /*****************************************************************************/ static OBJECT FindTarget(OBJECT index) { OBJECT res; debug1(DVH, DD, "FindTarget(%s)", Image(type(index))); switch( type(index) ) { case DEAD: res = nilobj; break; case UNATTACHED: case GALL_PREC: case GALL_FOLL: case GALL_FOLL_OR_PREC: res = pinpoint(index); break; case RECEPTIVE: case RECEIVING: case RECURSIVE: case SCALE_IND: case COVER_IND: case EXPAND_IND: res = actual(index); break; case PRECEDES: case FOLLOWS: case CROSS_TARG: case CROSS_PREC: case CROSS_FOLL: case CROSS_FOLL_OR_PREC: case PAGE_LABEL_IND: res = nilobj; /* somewhat doubtful */ break; case GALL_TARG: res = nilobj; /* somewhat doubtful */ break; default: assert1(FALSE, "FindTarget: unknown index", Image(type(index))); break; } debug1(DVH, DD, "FindTarget returning %s", EchoObject(res)); return res; } /* end FindTarget */ /*@@**************************************************************************/ /* */ /* OBJECT WhichComponent(target) */ /* */ /* Return the component of the enclosing galley that contains target, */ /* or nilobj if some problem. */ /* */ /*****************************************************************************/ static OBJECT WhichComponent(OBJECT target) { OBJECT prnt; debug1(DVH, DD, "WhichComponent(%s)", EchoObject(target)); while( Up(target) != target ) { Parent(prnt, Up(target)); if( type(prnt) == HEAD ) { debug1(DVH, DD, "WhichComponent returning %s", EchoObject(target)); return target; } target = prnt; } debug0(DVH, DD, "WhichComponent returning nilobj"); return nilobj; } /* end WhichComponent */ /*****************************************************************************/ /* */ /* OBJECT EncloseInHcat(nxt, y, replace) */ /* */ /* Enclose object nxt in an HCAT, similar to HCAT y, at position replace. */ /* The link to nxt will now link to the new HCAT. */ /* */ /*****************************************************************************/ static OBJECT EncloseInHcat(OBJECT nxt, OBJECT y, OBJECT replace) { OBJECT new_y, new_row_thread, s1, new_s1, s2, new_s2, link, sh, new_sh, tmp; assert( Up(nxt) != nxt, "EncloseInHCat: Up(nxt) == nxt!" ); New(new_y, HCAT); adjust_cat(new_y) = FALSE; MoveLink(Up(nxt), new_y, CHILD); assert( Up(nxt) == nxt, "EncloseInHCat: Up(nxt) != nxt!" ); FposCopy(fpos(new_y), fpos(y)); back(new_y, COLM) = back(y, COLM); fwd(new_y, COLM) = fwd(y, COLM); back(new_y, ROWM) = back(nxt, ROWM); fwd(new_y, ROWM) = fwd(nxt, ROWM); New(new_row_thread, ROW_THR); back(new_row_thread, ROWM) = back(new_y, ROWM); fwd(new_row_thread, ROWM) = fwd(new_y, ROWM); for( link = Down(y); link != y; link = NextDown(link) ) { Child(s1, link); if( type(s1) == GAP_OBJ ) { New(new_s1, GAP_OBJ); FposCopy(fpos(new_s1), fpos(s1)); GapCopy(gap(new_s1), gap(s1)); hspace(new_s1) = hspace(s1); vspace(new_s1) = vspace(s1); Link(new_y, new_s1); continue; } if( type(s1) == WIDE || type(s1) == ONE_COL ) Child(s2, Down(s1)); else s2 = s1; assert( type(s2) == SPLIT, "EncloseInHcat: type(s2) != SPLIT!" ); Child(sh, DownDim(s2, COLM)); New(new_s2, SPLIT); FposCopy(fpos(new_s2), fpos(s2)); if( s2 != s1 ) { New(new_s1, type(s1)); back(new_s1, COLM) = back(s1, COLM); fwd(new_s1, COLM) = fwd(s1, COLM); back(new_s1, ROWM) = back(new_row_thread, COLM); fwd(new_s1, ROWM) = fwd(new_row_thread, COLM); Link(new_y, new_s1); Link(new_s1, new_s2); } else Link(new_y, new_s2); if( sh == replace ) { /* replace sh by nxt in the copy */ new_sh = nxt; back(new_sh, COLM) = back(s2, COLM); fwd(new_sh, COLM) = fwd(s2, COLM); } else { /* replace sh by an empty object of the same width in the copy */ New(new_sh, WIDE); FposCopy(fpos(new_sh), fpos(sh)); SetConstraint(constraint(new_sh), back(sh,COLM),size(sh,COLM),fwd(sh,COLM)); back(new_sh, COLM) = back(sh, COLM); fwd(new_sh, COLM) = fwd(sh, COLM); back(new_sh, ROWM) = fwd(new_sh, ROWM) = 0; tmp = MakeWord(WORD, STR_EMPTY, &fpos(sh)); back(tmp, COLM) = fwd(tmp, COLM) = 0; back(tmp, ROWM) = fwd(tmp, ROWM) = 0; underline(tmp) = UNDER_OFF; Link(new_sh, tmp); } Link(new_s2, new_sh); back(new_s2, COLM) = back(new_sh, COLM); fwd(new_s2, COLM) = fwd(new_sh, COLM); Link(new_s2, new_row_thread); back(new_s2, ROWM) = back(new_row_thread, ROWM); fwd(new_s2, ROWM) = fwd(new_row_thread, ROWM); Link(new_row_thread, new_sh); } return new_y; } /* end EncloseInHcat */ /*@::VerticalHyphenate()@*****************************************************/ /* */ /* BOOLEAN VerticalHyphenate(OBJECT y) */ /* */ /* Attempt to vertically hyphenate galley component y, of type HCAT. */ /* */ /*****************************************************************************/ BOOLEAN VerticalHyphenate(OBJECT y) { OBJECT large_comp, index, z, link, g; OBJECT row_thread, s1, s2, sh, sv, shp, prev, nxt, large_comp_split; FULL_LENGTH rump_fwd; debug1(DVH, D, "[ VerticalHyphenate(y: %s), y =", EchoLength(size(y, ROWM))); ifdebug(DVH, D, DebugObject(y)); debug0(DVH, DD, "galley before vertical hyphenation:"); ifdebug(DVH, DD, Parent(z, Up(y)); DebugGalley(z, y, 2)); /* find large_comp, the largest VCAT component, or else return FALSE */ row_thread = large_comp = nilobj; rump_fwd = 0; assert( type(y) == HCAT, "VerticalHyphenate: type(y) != HCAT!" ); for( link = Down(y); link != y; link = NextDown(link) ) { Child(s1, link); if( type(s1) == GAP_OBJ ) { if( !join(gap(s1)) ) { debug0(DVH, D, "] VerticalHyphenate returning FALSE (not joined)"); return FALSE; } continue; } /* check that s2 is a SPLIT object whose children look right */ if( type(s1) == WIDE || type(s1) == ONE_COL ) Child(s2, Down(s1)); else s2 = s1; if( type(s2) != SPLIT ) { debug0(DVH, D, "] VerticalHyphenate returning FALSE (child not SPLIT)"); return FALSE; } Child(sh, DownDim(s2, COLM)); Child(sv, DownDim(s2, ROWM)); if( type(sv) != ROW_THR ) { debug0(DVH, D, "] VerticalHyphenate returning FALSE (no ROW_THR)"); return FALSE; } if( row_thread == nilobj ) row_thread = sv; if( sv != row_thread ) { debug0(DVH, D, "] VerticalHyphenate returning FALSE (different ROW_THR)"); return FALSE; } Parent(shp, UpDim(sh, ROWM)); if( shp != row_thread ) { debug0(DVH, D, "] VerticalHyphenate returning FALSE (sh parent)"); return FALSE; } /* Now sh is one of the HCAT components */ if( type(sh) != VCAT ) { rump_fwd = find_max(rump_fwd, fwd(sh, ROWM)); } else if( large_comp != nilobj ) { debug0(DVH, D, "] VerticalHyphenate returning FALSE (two VCATs)"); return FALSE; } else { large_comp = sh; large_comp_split = s2; } } /* if no large_comp, return */ if( large_comp == nilobj ) { debug0(DVH, D, "] VerticalHyphenate returning FALSE (no VCAT)"); return FALSE; } /* check that large_comp has at least two components */ FirstDefiniteCompressed(large_comp, link, prev); if( link == large_comp ) { debug0(DVH,D, "] VerticalHyphenate returning FALSE (VCAT: no components)"); return FALSE; } NextDefiniteWithGapCompressed(large_comp, link, nxt, g); if( link == large_comp ) { debug0(DVH,D, "] VerticalHyphenate returning FALSE (VCAT: one component)"); return FALSE; } /* make sure that first gap does not change when rearranging */ rump_fwd = find_max(rump_fwd, fwd(prev, ROWM)); if( MinGap(rump_fwd, back(nxt, ROWM), fwd(nxt, ROWM), &gap(g)) != MinGap(fwd(prev, ROWM), back(nxt, ROWM), fwd(nxt, ROWM), &gap(g)) ) { debug0(DVH, D, "] VerticalHyphenate returning FALSE (first gap changes)"); return FALSE; } /* check that large_comp has no joins */ for( link = Down(large_comp); link != large_comp; link = NextDown(link) ) { Child(z, link); if( type(z) == GAP_OBJ && mode(gap(z)) != NO_MODE && join(gap(z)) ) { debug0(DVH, D, "] VerticalHyphenate returning FALSE (VCAT: joined)"); return FALSE; } } /* enclose all definite components after the first in HCATs */ for( link = NextDown(Up(prev)); link != large_comp; link = NextDown(link) ) { Child(nxt, link); if( type(nxt) == GAP_OBJ ) continue; if( is_definite(type(nxt)) ) nxt = EncloseInHcat(nxt, y, large_comp); } /* move all components after the first to the top level */ TransferLinks(Up(g), large_comp, NextDown(Up(y))); /* change the size of y to its new, smaller value */ fwd(y, ROWM) = fwd(row_thread, ROWM) = fwd(large_comp, ROWM) = fwd(large_comp_split, ROWM) = fwd(prev, ROWM); /* set link to the link of the first thing before y which is not an index */ for( link = PrevDown(Up(y)); type(link) == LINK; link = PrevDown(link) ) { Child(index, link); if( !is_index(type(index)) ) break; } /* for each index, find where it's pointing and possibly move it */ while( NextDown(link) != Up(y) ) { Child(index, NextDown(link)); assert( is_index(type(index)), "MoveIndexes: is_index!" ); z = FindTarget(index); if( z != nilobj ) { z = WhichComponent(z); if( z != nilobj && z != y ) { MoveLink(NextDown(link), Up(z), PARENT); } else link = NextDown(link); } else link = NextDown(link); } debug1(DVH, D, "] VerticalHyphenate returning TRUE (y: %s)", EchoLength(size(y, ROWM))); debug0(DVH, DD, "galley after vertical hyphenation:"); ifdebug(DVH, DD, Parent(z, Up(y)); DebugGalley(z, y, 2)); return TRUE; } /* end VerticalHyphenate */ /*****************************************************************************/ /* */ /* static OBJECT BuildMergeTree(int n, OBJECT x, OBJECT *lenv, *lact) */ /* */ /* Build a balanced tree of n-1 @Merge symbols, whose parameters are the */ /* first n children of x. Return in lenv the environment of the root */ /* @Merge symbol, and in *lact the symbol table entry for the parent of */ /* this @Merge symbol. */ /* */ /*****************************************************************************/ static OBJECT BuildMergeTree(int n, OBJECT x, OBJECT *lenv, OBJECT *lact) { OBJECT res, merge, link, y, l, r, env, act, left_par, right_par; debug2(DHY, DD, "BuildMergeTree(%d, %s, -. -)", n, EchoObject(x)); if( n == 1 ) { New(res, ENV_OBJ); Child(y, Down(x)); MoveLink(Down(x), res, PARENT); assert(type(y)==CLOSURE && has_merge(actual(y)), "BuildMergeTree: has_m!"); *lact = actual(y); *lenv = DetachEnv(y); AttachEnv(*lenv, res); } else { /* build the two subtrees */ l = BuildMergeTree(n/2, x, lenv, lact); r = BuildMergeTree( n - n/2, x, &env, &act); /* set merge to new @Merge closure */ for( link = Down(act); link != act; link = NextDown(link) ) { Child(y, link); if( is_merge(y) ) break; } assert( y != act, "BuildMergeTree: y!" ); New(merge, CLOSURE); actual(merge) = y; /* build left parameter of the new @Merge */ New(left_par, PAR); actual(left_par) = ChildSym(y, LPAR); Link(merge, left_par); Link(left_par, l); /* build right parameter of the new @Merge */ New(right_par, PAR); actual(right_par) = ChildSym(y, RPAR); Link(merge, right_par); Link(right_par, r); New(res, ENV_OBJ); Link(res, merge); Link(res, env); } debug2(DHY, DD, "BuildMergeTree returning %s (*lact = %s)", EchoObject(res), SymName(*lact)); return res; } /* end BuildMergeTree */ /*****************************************************************************/ /* */ /* OBJECT ConvertGalleyList(x) */ /* */ /* Convert a set of galleys x into a single galley containing a balanced */ /* tree of @Merge symbols. */ /* */ /*****************************************************************************/ OBJECT ConvertGalleyList(OBJECT x) { OBJECT res, y, link, junk1, junk2, obj; int n; debug1(DHY, DD, "ConvertGalleyList(%s)", EchoObject(x)); Child(res, Down(x)); Child(y, Down(res)); MoveLink(Down(x), y, CHILD); DeleteLink(Down(res)); MoveLink(Up(x), res, CHILD); for( link = Down(x), n = 0; link != x; link = NextDown(link), n++ ); y = BuildMergeTree(n, x, &junk1, &junk2); assert( Down(x) == x && Up(x) == x, "ConvertGalleyList: x!" ); Dispose(x); Child(obj, Down(y)); MoveLink(Down(y), res, PARENT); MoveLink(LastDown(y), obj, PARENT); assert( Down(y) == y && Up(y) == y, "ConvertGalleyList: y!" ); Dispose(y); debug0(DHY, DD, "ConvertGalleyList returning, res ="); ifdebug(DHY, DD, DebugObject(res)); return res; } /* end ConvertGalleyList */ /*****************************************************************************/ /* */ /* OBJECT BuildEnclose(hd) */ /* */ /* Build the @Enclose object for galley hd. */ /* */ /*****************************************************************************/ OBJECT BuildEnclose(OBJECT hd) { OBJECT sym, parsym, x, y, link, par, val, env, res; debug1(DOM, D, "BuildEnclose(%s)", SymName(actual(hd))); /* find @Enclose symbol and check that it has just one parameter */ for( link = Down(actual(hd)); link != actual(hd); link = NextDown(link) ) { Child(sym, link); if( is_enclose(sym) ) break; } assert( link != actual(hd), "BuildEnclose: no enclose!" ); parsym = nilobj; for( link = Down(sym); link != sym; link = NextDown(link) ) { Child(y, link); switch( type(y) ) { case LPAR: case NPAR: Error(44, 1, "%s may not have a left or named parameter", FATAL, &fpos(y), KW_ENCLOSE); break; case RPAR: if( has_body(sym) ) Error(44, 2, "%s may not have a body parameter", FATAL, &fpos(y), KW_ENCLOSE); parsym = y; break; default: break; } } if( parsym == nilobj ) Error(44, 3, "%s must have a right parameter", FATAL, &fpos(sym),KW_ENCLOSE); /* set x to new @Enclose closure with dummy actual right parameter */ New(x, CLOSURE); FposCopy(fpos(x), fpos(hd)); actual(x) = sym; New(par, PAR); FposCopy(fpos(par), fpos(hd)); actual(par) = parsym; Link(x, par); val = MakeWord(WORD, AsciiToFull("??"), &fpos(hd)); Link(par, val); /* set env to the appropriate environment for this symbol */ /* strictly speaking y should not be included if sym is a parameter */ Child(y, Down(hd)); assert(type(y) == CLOSURE, "BuildEnclose: hd child!"); y = CopyObject(y, &fpos(hd)); env = SetEnv(y, nilobj); /* build res, an ENV_OBJ with x at left and env at right */ New(res, ENV_OBJ); Link(res, x); Link(res, env); debug1(DOM, D, "BuildEnclose returning %s", EchoObject(res)); return res; } /* end BuildEnclose */