about summary refs log blame commit diff stats
path: root/src/TRSTable.c
blob: 9b9b3eb4dc7d853b1d8fc5ccffee9262965c14f9 (plain) (tree)
1
2
789
790
791
792
793
794
795
796
797
798
799
800
801
802
803
804
805
806
807
808
809
810
811
812
813
814
815
816
817
818
819
820
821
822
823
824
825
826
827
828
829
830
831
832
833
834
835
836
837
838
839
840
841
842
843
844
845
846
847
848
849
850
851
852
853
854
855
856
857
858
859
860
861
862
863
864
865
866
867
868
869
870
871
872
873
874
875
876
877
878
879
880
881
882
883
884
885
886
887
888
889
890
891
892
893
894
895
896
897
898
899
900
901
902
903
904
905
906
907
908
909
910
911
912
913
914
915
916
917
918
919
920
921
922
923
924
925
926
927
928
929
930
931
932
933
934
935
936
937
938
939
940
941
942
943
944
945
946
947
948
949
950
951
952
953
954
955
956
957
958
959
960
961
962
963
964
965
966
967
968
969
970
971
972
973
974
975
976
977
978
979
980
981
982
983
984
985
986
987
988
989
990
991
992
993
994
995
996
997
998
999
1000
1001
1002
1003
1004
1005
1006
1007
1008
1009
1010
1011
1012
1013
1014
1015
1016
1017
1018
1019
1020
1021
1022
1023
1024
1025
1026
1027
1028
1029
1030
1031
1032
1033
1034
1035
1036
1037
1038
1039
1040
1041
1042
1043
1044
1045
1046
1047
1048
1049
1050
1051
1052
1053
1054
1055
1056
1057
1058
1059
1060
1061
1062
1063
1064
1065
1066
1067
1068
1069
1070
1071
1072
1073
1074
1075
1076
1077
1078
1079
1080
1081
1082
1083
1084
1085
1086
1087
1088
1089
1090
1091
1092
1093
1094
1095
1096
1097
1098
1099
1100
1101
1102
1103
1104
1105
1106
1107
1108
1109
1110
1111
1112
1113
1114
1115
1116
1117
1118
1119
1120
1121
1122
1123
1124
1125
1126
1127
1128
1129
1130
1131
1132
1133
1134
1135
1136
1137
1138
1139
1140
1141
1142
1143
1144
1145
1146
1147
1148
1149
1150
1151
1152
1153
1154
1155
1156
1157
1158
1159
1160
1161
1162
1163
1164
1165
1166
1167
1168
1169
1170
1171
1172
1173
1174
1175
1176
1177
1178
1179
1180
1181
1182
1183
1184
1185
1186
1187
1188
1189
1190
1191
1192
1193
1194
1195
1196
1197
1198
1199
1200
1201
1202
1203
1204
1205
1206
1207
1208
1209
1210
1211
1212
1213
1214
1215
1216
1217
1218
1219
1220
1221
1222
1223
1224
1225
1226
1227
1228
1229
1230
1231
1232
1233
1234
1235
1236
1237
1238
1239
1240
1241
1242
1243
1244
1245
1663
1664
1665
1666
1667
1668
1669
1670
1671
1672
1673
1674
1675
1676
1677
1678
1679
1680
1681
1682
1683
1684
1685
1686
1687
1688
1689
1690
1691
1692
1693
1694
1695
1696
1697
1698
1699
1700
1701
1702
1703
1704
1705
1706
1707
1708
1709
1710
1711
1712
1713
1714
1715
1716
1717
1718
1719
1720
1721
1722
1723
1724
1725
1726
1727
1728
1729
1730
1731
1732
1733
1734
1735
1736
1737
1738
1739
1740
1741
1742
1743
1744
1745
1746
1747
1748
1749
1750
1751
1752
1753
1754
1755
1756
1757
1758
1759
1760
1761
1762
1763
1764
1765
1766
1767
1768
1769
1770
1771
1772
1773
1774
1775
1776
1777
1778
1779
1780
1781
1782
1783
1784
1785
1786
1787
1788
1789
1790
1791
1792
1793
1794
1795
1796
1797
1798
1799
1800
1801
1802
1803
1804
1805
1806
1807
1808
1809
1810
1811
1812
1813
1814
1815
1816
1817
1818
1819
1820
1821
1822
1823
1824
1825
1826
1827
1828
1829
1830
1831
1832
1833
1834
1835
1836
1837
1838
1839
1840
1841
1842
1843
1844
1845
1846
1847
1848
1849
1850
1851
1852
1853
1854
1855
1856
1857
1858
1859
1860
1861
1862
1863
1864
1865
1866
1867
1868
1869
1870
1871
1872
1873
1874
1875
1876
1877
1878
1879
1880
1881
1882
1883
1884
1885
1886
1887
1888
1889
1890
1891
1892
1893
1894
1895
1896
1897
1898
1899
1900
1901
1902
1903
1904
1905
1906
1907
1908
1909
1910
1911
1912
1913
1914
1915
1916
1917
1918
1919
1920
1921
1922
1923
1924
1925
1926
1927
1928
1929
1930
1931
1932
1933
1934
1935
1936
1937
1938
1939
1940
1941
1942
1943
1944
1945
1946
1947
1948
1949
1950
1951
1952
1953
1954
1955
1956
1957
1958
1959
1960
1961
1962
1963
1964
1965
1966
1967
1968
1969
1970
1971
1972
1973
1974
1975
1976
1977
1978
1979
1980
1981
1982
1983
1984
1985
1986
1987
1988
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
2020
2021
2022
2023
2024
2025
2026
2027
2028
2029
2030
2031
2032
2033
2034
2035
2036
2037
2038
2039
2040
2041
2042
2043
2044
2045
2046
2047
2048
2049
2050
2051
  
                                                           








































































































































































































                                                                                     

























































































































































































































































































































                                                                                        


                                                                             
































































                                                                                         
                                
                                                                       
                            
                                                            
                     
                        
                                
                                                                       
                            
                                                           
                     


























                                                                                           
                                
                                                                       
                            
                                                            
                     
                        
                                
                                                                       
                            
                                                            
                     















                                                                                           
                                      







                                                                                         















































                                                                       
                                
                                                                       
                            
                                                            
                     
                        
                                
                                                                       
                            
                                                           
                     






































                                                                                           
                                
                                                                       
                            
                                                            
                     
                        
                                
                                                                       
                            
                                                            
                     















                                                                                         
                                      


                                          








































































































































































































































































































































































































































































                                                                                          


                                                           



                                                                       
                                    















































































































































































































                                                                                               
                                                         
                                                  
     








                                                                         


                                                                    











































































































                                                                                     


                                                                    










                                                                
                    
                   
     
















































                                                                                                      
                                        
                      
         





                                                     
                                                                             
                  
     




































































































































































































































































































































































































                                                                                                                       
/*
 * $LynxId: TRSTable.c,v 1.34 2016/09/14 01:02:44 tom Exp $
 *		Simple table object
 *		===================
 * Authors
 *	KW	Klaus Weide <kweide@enteract.com>
 * History:
 *   2 Jul 1999	KW	Created.
 */

#include <HTUtils.h>
#include <HTStyle.h>		/* for HT_LEFT, HT_CENTER, HT_RIGHT */
#include <LYCurses.h>
#include <TRSTable.h>
#include <LYGlobalDefs.h>

#include <LYLeaks.h>

#ifdef SAVE_TIME_NOT_SPACE
#define CELLS_GROWBY 16
#define ROWS_GROWBY 16
#else
#define CELLS_GROWBY 2
#define ROWS_GROWBY 2
#endif

#ifdef USE_CURSES_PADS
#  define MAX_STBL_POS (LYwideLines ? MAX_COLS - 1 : LYcolLimit)
#else
#  define MAX_STBL_POS (LYcolLimit)
#endif

/* must be different from HT_ALIGN_NONE and HT_LEFT, HT_CENTER etc.: */
#define RESERVEDCELL (-2)	/* cell's alignment field is overloaded, this
				   value means cell was reserved by ROWSPAN */
#define EOCOLG (-2)		/* sumcols' Line field isn't used for line info, this
				   special value means end of COLGROUP */
#ifndef NO_AGGRESSIVE_NEWROW
#  define NO_AGGRESSIVE_NEWROW	0
#endif

typedef enum {
    CS_invalid = -1,		/* cell "before the first",
				   or empty lines after [ce]bc,
				   or TRST aborted */
    CS__new = 0,
    CS__0new,			/* new, at BOL */
    CS__0eb,			/* starts at BOL, empty, break */
    CS__eb,			/* empty, break */
    CS__0cb,			/* starts at BOL, content, break */
    CS__cb,			/* content, break */
    CS__0ef,			/* starts at BOL, empty, finished */
    CS__ef,			/* empty, finished */
    CS__0cf,			/* starts at BOL, content, finished */
    CS__cf,			/* content, finished */
    CS__ebc,			/* empty, break, more content (maybe @BOL) */
    CS__cbc			/* content, break, more content (maybe @BOL) */
} cellstate_t;

typedef struct _STable_states {
    cellstate_t prev_state;	/* Contents type of the previous cell */
    cellstate_t state;		/* Contents type of the worked-on cell */
    int lineno;			/* Start line of the current cell */
    int icell_core;		/* -1 or the 1st cell with <BR></TD> on row */
    int x_td;			/* x start pos of the current cell or -1 */
    int pending_len;		/* For multiline cells, the length of
				   the part on the first line (if
				   state is CS__0?[ec]b) (??), or 0 */
} STable_states;

typedef struct _STable_cellinfo {
    int cLine;			/* lineno in doc (zero-based): -1 for
				   contentless cells (and cells we do
				   not want to measure and count?),
				   line-of-the-start otherwise.  */
    int pos;			/* column where cell starts */
    int len;			/* number of character positions */
    int colspan;		/* number of columns to span */
    int alignment;		/* one of HT_LEFT, HT_CENTER, HT_RIGHT,
				   or RESERVEDCELL */
} STable_cellinfo;

enum ended_state {
    ROW_not_ended,
    ROW_ended_by_endtr,
    ROW_ended_by_splitline
};

#define HAS_END_OF_CELL			1
#define HAS_BEG_OF_CELL			2
#define IS_CONTINUATION_OF_CELL		4
#define OFFSET_IS_VALID			8
#define OFFSET_IS_VALID_LAST_CELL	0x10
#define BELIEVE_OFFSET			0x20

typedef struct _STable_rowinfo {
    /* Each row may be displayed on many display lines, but we fix up
       positions of cells on this display line only: */
    int Line;			/* lineno in doc (zero-based) */
    int ncells;			/* number of table cells */

    /* What is the meaning of this?!  It is set if:
       [search for      def of fixed_line       below]

       a1) a non-last cell is not at BOL,
       a2) a non-last cell has something on the first line,
       b) a >=3-lines-cell not at BOL, the first row non-empty, the 2nd empty;
       c) a multiline cell not at BOL, the first row non-empty, the rest empty;
       d) a multiline cell not at BOL, the first row non-empty;
       e) a singleline non-empty cell not at BOL;

       Summary: have seen a cell which is one of:
       (Notation: B: at BOL; L: last; E: the first row is non-empty)

       bcde:    !B && !E
       a1:      !L && !B
       a2:      !L && !E

       Or: has at least two of !B, !L, !E, or: has at most one of B,L,E.

       REMARK: If this variable is not set, but icell_core is, Line is
       reset to the line of icell_core.
     */
    BOOL fixed_line;		/* if we have a 'core' line of cells */
    enum ended_state ended;	/* if we saw </tr> etc */
    int content;		/* Whether contains end-of-cell etc */
    int offset;			/* >=0 after line break in a multiline cell */
    int allocated;		/* number of table cells allocated */
    STable_cellinfo *cells;
    int alignment;		/* global align attribute for this row */
} STable_rowinfo;

struct _STable_info {
#ifdef EXP_NESTED_TABLES
    struct _STable_info *enclosing;	/* The table which contain us */
    struct _TextAnchor *enclosing_last_anchor_before_stbl;
#endif
    int startline;		/* lineno where table starts (zero-based) */
    int nrows;			/* number of rows */
    int ncols;			/* number of rows */
    int maxlen;			/* sum of max. cell lengths of any row */
    int maxpos;			/* max. of max. cell pos's of any row */
    int allocated_rows;		/* number of rows allocated */
    int allocated_sumcols;	/* number of sumcols allocated */
    int ncolinfo;		/* number of COL info collected */
    STable_cellinfo *sumcols;	/* for summary (max len/pos) col info */
    STable_rowinfo *rows;
    STable_rowinfo rowspans2eog;
    short alignment;		/* global align attribute for this table */
    short rowgroup_align;	/* align default for current group of rows */
    short pending_colgroup_align;
    int pending_colgroup_next;
    STable_states s;
};

/*
 *  Functions and structures in this source file keep track of positions.
 *  They don't know about the character data in those lines, or about
 *  the HText and HTLine structures.  GridText.c doesn't know about our
 *  structures.  It should stay that way.
 *
 *  The basic idea: we let the code in HTML.c/GridText.c produce and format
 *  output "as usual", i.e. as without Simple Table support.  We keep track
 *  of the positions in the generated output where cells and rows start (or
 *  end).  If all goes well, that preliminary output (stored in HText/HTLine
 *  structures) can be fixed up when the TABLE end tag is processed, by just
 *  inserting spaces in the right places (and possibly changing alignment).
 *  If all goes not well, we already have a safe fallback.
 *
 *  Note that positions passed to and from these functions should be
 *  in terms of screen positions, not just byte counts in a HTLine.data
 *  (cf. line->data vs. HText_TrueLineSize).
 *
 *  Memory is allocated dynamically, so we can have tables of arbitrary
 *  length.  On allocation error we just return and error indication
 *  instead of outofmem(), so caller can give up table tracking and maybe
 *  recover memory.
 *
 *  Implemented:
 *  - ALIGN={left,right,center,justify} applied to individual table cells
 *    ("justify" is treated as "left")
 *  - Inheritance of horizontal alignment according to HTML 4.0
 *  - COLSPAN >1 (may work incorrectly for some tables?)
 *  - ROWSPAN >1 (reserving cells in following rows)
 *  - Line breaks at start of first cell or at end of last cell are treated
 *    as if they were not part of the cell and row.  This allows us to
 *    cooperate with one way in which tables have been made friendly to
 *    browsers without any table support.
 *  Missing, but can be added:
 *  - Support for COLGROUP/COL
 *  - Tables wider than display.  The limitation is not here but in GridText.c
 *    etc.  If horizontal scrolling were implemented there, the mechanisms
 *    here coudl deal with wide tables (just change MAX_STBL_POS code).
 *  Missing, unlikely to add:
 *  - Support for non-LTR directionality.  A general problem, support is
 *    lacking throughout the lynx code.
 *  - Support for most other table-related attributes.  Most of them are
 *    for decorative purposes.
 *  Impossible or very unlikely (because it doesn't fit the model):
 *  - Any cell contents of more than one line, line breaks within cells.
 *    Anything that requires handling cell contents as paragraphs (block
 *    elements), like reflowing.  Vertical alignment.
 */
static int Stbl_finishRowInTable(STable_info *me);

static const char *cellstate_s(cellstate_t state)
{
    const char *result = "?";
    /* *INDENT-OFF* */
    switch (state) {
    case CS_invalid:	result = "CS_invalid";	break;
    case CS__new:	result = "CS__new";	break;
    case CS__0new:	result = "CS__0new";	break;
    case CS__0eb:	result = "CS__0eb";	break;
    case CS__eb:	result = "CS__eb";	break;
    case CS__0cb:	result = "CS__0cb";	break;
    case CS__cb:	result = "CS__cb";	break;
    case CS__0ef:	result = "CS__0ef";	break;
    case CS__ef:	result = "CS__ef";	break;
    case CS__0cf:	result = "CS__0cf";	break;
    case CS__cf:	result = "CS__cf";	break;
    case CS__ebc:	result = "CS__ebc";	break;
    case CS__cbc:	result = "CS__cbc";	break;
    }
    /* *INDENT-ON* */

    return result;
}

struct _STable_info *Stbl_startTABLE(int alignment)
{
    STable_info *me = typecalloc(STable_info);

    CTRACE2(TRACE_TRST,
	    (tfp, "TRST:Stbl_startTABLE(align=%d)\n", (int) alignment));
    if (me) {
	me->alignment = (short) alignment;
	me->rowgroup_align = HT_ALIGN_NONE;
	me->pending_colgroup_align = HT_ALIGN_NONE;
	me->s.x_td = -1;
	me->s.icell_core = -1;
#ifdef EXP_NESTED_TABLES
	if (nested_tables)
	    me->enclosing = 0;
#endif
    }
    return me;
}

static void free_rowinfo(STable_rowinfo *me)
{
    if (me && me->allocated) {
	FREE(me->cells);
    }
}

void Stbl_free(STable_info *me)
{
    CTRACE2(TRACE_TRST,
	    (tfp, "TRST:Stbl_free()\n"));
    if (me && me->allocated_rows && me->rows) {
	int i;

	for (i = 0; i < me->allocated_rows; i++)
	    free_rowinfo(me->rows + i);
	FREE(me->rows);
    }
    free_rowinfo(&me->rowspans2eog);
    if (me)
	FREE(me->sumcols);
    FREE(me);
}

/*
 * Returns -1 on error, otherwise index of just-added table cell.
 */
static int Stbl_addCellToRow(STable_rowinfo *me, STable_cellinfo *colinfo, int ncolinfo,
			     STable_states *s,
			     int colspan,
			     int alignment,
			     int isheader,
			     int lineno,
			     int *ppos)
{
    STable_cellinfo *cells;
    int i;
    int last_colspan = me->ncells ?
    me->cells[me->ncells - 1].colspan : 1;
    cellstate_t newstate;
    int ret;

    CTRACE2(TRACE_TRST,
	    (tfp, "TRST:Stbl_addCellToRow, line=%d, pos=%d, colspan=%d\n",
	     lineno, *ppos, colspan));
    CTRACE2(TRACE_TRST,
	    (tfp,
	     " ncells=%d, stateLine=%d, pending_len=%d, pstate=%s, state=%s\n",
	     me->ncells, s->lineno, s->pending_len,
	     cellstate_s(s->prev_state), cellstate_s(s->state)));
    if (me->ncells == 0)
	s->prev_state = CS_invalid;
    else if (s->prev_state == CS_invalid ||
	     (s->state != CS__0new &&
	      s->state != CS__ef && s->state != CS__0ef))
	s->prev_state = s->state;

    if (me->ncells == 0 || *ppos == 0)
	newstate = CS__0new;
    else
	newstate = CS__new;

    if (me->ncells > 0 && s->pending_len > 0) {
	if (s->prev_state != CS__cbc)
	    me->cells[me->ncells - 1].len = s->pending_len;
	s->pending_len = 0;
    }
    s->x_td = *ppos;

    if (lineno != s->lineno) {
	if (!me->fixed_line) {
	    if (me->ncells == 0 || *ppos == 0) {
		switch (s->prev_state) {
		case CS_invalid:
		case CS__0new:
		case CS__0eb:
		case CS__0cb:
		case CS__0ef:
		case CS__0cf:
		    if (me->ncells > 0)
			for (i = me->ncells + last_colspan - 2;
			     i >= me->ncells - 1; i--) {
			    me->cells[i].pos = *ppos;
			    me->cells[i].cLine = lineno;
			}
		    me->Line = lineno;
		    break;
		case CS__new:
		case CS__eb:
		case CS__ef:
		case CS__cf:
		default:
		    break;
		case CS__cb:
		    *ppos = me->cells[me->ncells - 1].pos +
			me->cells[me->ncells - 1].len;
		}
	    } else {		/* last cell multiline, ncells != 0, pos != 0 */
		switch (s->prev_state) {
		case CS__0new:
		case CS__0eb:
		case CS__0ef:
		    /* Do not fail, but do not set fixed_line either */
		    break;
		case CS__cb:
		    goto trace_and_fail;
		case CS__cf:
		    goto trace_and_fail;
		case CS__0cb:
		case CS__0cf:
		    if (*ppos > me->cells[0].pos)
			me->Line = lineno;
		    me->fixed_line = YES;	/* type=a def of fixed_line i */
		    break;
		case CS__new:
		case CS__eb:
		case CS__ef:
		default:
		    me->fixed_line = YES;	/* type=e def of fixed_line ii */
		    break;
		case CS__cbc:
		    goto trace_and_fail;
		}
	    }
	}
	if (me->fixed_line && lineno != me->Line) {
	    switch (s->prev_state) {
	    case CS__cb:
	    case CS__cf:
		if (*ppos > 0)
		    goto trace_and_fail;
		else
		    *ppos = me->cells[me->ncells - 1].pos /* == 0 */  +
			me->cells[me->ncells - 1].len;
		break;
	    case CS__0cf:
	    case CS__0cb:
		if (*ppos == 0 || *ppos <= me->cells[0].pos)
		    *ppos = me->cells[me->ncells - 1].pos /* == 0 */  +
			me->cells[me->ncells - 1].len;
		break;
	    case CS__0new:
	    case CS__0ef:
	    case CS__0eb:
		break;
	    case CS__new:
	    case CS__eb:
	    case CS__ef:
	    default:
		*ppos = me->cells[me->ncells - 1].pos;
		break;
	    case CS__cbc:
		break;
	    case CS_invalid:
		break;
	    }
	}
	s->lineno = lineno;
    } else {			/* lineno == s->lineno: */
	switch (s->prev_state) {
	case CS_invalid:
	case CS__0new:
	case CS__0eb:		/* cannot happen */
	case CS__0cb:		/* cannot happen */
	case CS__0ef:
	case CS__0cf:		/* ##302?? set icell_core? or only in finish? */
	    break;
	case CS__eb:		/* cannot happen */
	case CS__cb:		/* cannot happen */
	case CS__ef:
	    break;
	case CS__ebc:		/* should have done smth in finish */
	case CS__cbc:		/* should have done smth in finish */
	    break;
	case CS__new:
	case CS__cf:
	    if (me->fixed_line && me->Line != lineno) {
		goto trace_and_fail;
	    } else {
		me->fixed_line = YES;
		me->Line = lineno;
	    }
	}
    }

    s->state = newstate;

    if (me->ncells > 0 && me->cells[me->ncells - 1].colspan > 1) {
	me->ncells += me->cells[me->ncells - 1].colspan - 1;
    }
    while (me->ncells < me->allocated &&
	   me->cells[me->ncells].alignment == RESERVEDCELL) {
	me->ncells++;
    }
    {
	int growby = 0;

	while (me->ncells + colspan + 1 > me->allocated + growby)
	    growby += CELLS_GROWBY;
	if (growby) {
	    if (me->allocated == 0 && !me->cells) {
		cells = typecallocn(STable_cellinfo, (unsigned) growby);
	    } else {
		cells = typeRealloc(STable_cellinfo, me->cells,
				      (unsigned) (me->allocated + growby));

		for (i = 0; cells && i < growby; i++) {
		    cells[me->allocated + i].alignment = HT_ALIGN_NONE;
		}
	    }
	    if (cells) {
		me->allocated += growby;
		me->cells = cells;
	    } else {
		goto trace_and_fail;
	    }
	}
    }

    me->cells[me->ncells].cLine = lineno;
    me->cells[me->ncells].pos = *ppos;
    me->cells[me->ncells].len = -1;
    me->cells[me->ncells].colspan = colspan;

    if (alignment != HT_ALIGN_NONE)
	me->cells[me->ncells].alignment = alignment;
    else {
	if (ncolinfo >= me->ncells + 1)
	    me->cells[me->ncells].alignment = colinfo[me->ncells].alignment;
	else
	    me->cells[me->ncells].alignment = me->alignment;
	if (me->cells[me->ncells].alignment == HT_ALIGN_NONE)
	    me->cells[me->ncells].alignment = me->alignment;
	if (me->cells[me->ncells].alignment == HT_ALIGN_NONE)
	    me->cells[me->ncells].alignment = isheader ? HT_CENTER : HT_LEFT;
    }
    for (i = me->ncells + 1; i < me->ncells + colspan; i++) {
	me->cells[i].cLine = lineno;
	me->cells[i].pos = *ppos;
	me->cells[i].len = -1;
	me->cells[i].colspan = 0;
	me->cells[i].alignment = HT_LEFT;
    }
    me->cells[me->ncells + colspan].pos = -1;	/* not yet used */
    me->ncells++;

    ret = me->ncells - 1;
  trace_and_return:
    CTRACE2(TRACE_TRST,
	    (tfp, " => prev_state=%s, state=%s, ret=%d\n",
	     cellstate_s(s->prev_state), cellstate_s(s->state), ret));
    return (ret);

  trace_and_fail:
    ret = -1;
    goto trace_and_return;
}

/* returns -1 on error, 0 otherwise */
/* assumes cells have already been allocated (but may need more) */
static int Stbl_reserveCellsInRow(STable_rowinfo *me, int icell,
				  int colspan)
{
    STable_cellinfo *cells;
    int i;
    int growby = 1 + icell + colspan - me->allocated;

    CTRACE2(TRACE_TRST,
	    (tfp,
	     "TRST:Stbl_reserveCellsInRow(icell=%d, colspan=%d) growby=%d\n",
	     icell, colspan, growby));
    if (growby > 0) {
	cells = typeRealloc(STable_cellinfo, me->cells,
			      (unsigned) (me->allocated + growby));

	if (cells) {
	    for (i = 0; i < growby; i++) {
		cells[me->allocated + i].alignment = HT_ALIGN_NONE;
	    }
	    me->allocated += growby;
	    me->cells = cells;
	} else {
	    return -1;
	}
    }
    for (i = icell; i < icell + colspan; i++) {
	me->cells[i].cLine = -1;
	me->cells[i].pos = -1;
	me->cells[i].len = -1;
	me->cells[i].colspan = 0;
	me->cells[i].alignment = RESERVEDCELL;
    }
    me->cells[icell].colspan = colspan;
    return 0;
}

/* Returns -1 on failure. */
static int Stbl_finishCellInRow(STable_rowinfo *me, STable_states *s, int end_td,
				int lineno,
				int pos)
{
    STable_cellinfo *lastcell;
    cellstate_t newstate = CS_invalid;
    int multiline = NO, empty;
    int ret;

    CTRACE2(TRACE_TRST,
	    (tfp,
	     "TRST:Stbl_finishCellInRow line=%d pos=%d end_td=%d ncells=%d pnd_len=%d\n",
	     lineno, pos, (int) end_td, me->ncells, s->pending_len));

    if (me->ncells <= 0)
	return -1;
    lastcell = me->cells + (me->ncells - 1);
    multiline = (lineno != lastcell->cLine || lineno != s->lineno);
    empty = multiline ? (pos == 0) : (pos <= s->x_td);

    CTRACE2(TRACE_TRST,
	    (tfp,
	     " [lines: lastCell=%d state=%d multi=%d] empty=%d (prev)state=(%s) %s\n",
	     lastcell->cLine, s->lineno, multiline, empty,
	     cellstate_s(s->prev_state), cellstate_s(s->state)));

    if (multiline) {
	if ((end_td & TRST_ENDCELL_MASK) == TRST_ENDCELL_LINEBREAK) {
	    switch (s->state) {
	    case CS_invalid:
		newstate = empty ? CS_invalid : CS__cbc;
		break;
	    case CS__0new:
		newstate = empty ? CS__0eb : CS__0cb;
		break;
	    case CS__0eb:
		newstate = empty ? CS__0eb : CS__ebc;
		s->state = newstate;
		if (me->fixed_line) {
		    if (empty) {
			ret = (lastcell->len <= 0 ? 0 : lastcell->len);
		    } else {
			ret = (lastcell->len <= 0 ? 0 : -1);
		    }
		} else {
		    if (empty) {
			ret = (lastcell->len <= 0 ? 0 : lastcell->len);
		    } else {
			ret = (lastcell->len <= 0 ? 0 : 0);
		    }
		}
		goto trace_and_return;
	    case CS__0cb:
		if (!me->fixed_line) {
		    if (!empty) {
			if (s->icell_core == -1)
			    me->Line = -1;
		    }
		}
		if (s->pending_len && empty) {	/* First line non-empty */
		    if ((me->fixed_line && me->Line == lastcell->cLine) ||
			s->icell_core == me->ncells - 1)
			lastcell->len = s->pending_len;
		    s->pending_len = 0;
		}		/* @@@ for empty do smth. about ->Line / ->icell_core !! */
		newstate = empty ? CS__0cb : CS__cbc;	/* ##474_needs_len!=-1? */
		break;
	    case CS__0ef:
	    case CS__0cf:
		break;
	    case CS__new:
		newstate = empty ? CS__eb : CS__cb;
		break;
	    case CS__eb:	/* ##484_set_pending_ret_0_if_empty? */
		newstate = empty ? CS__eb : CS__ebc;
		s->state = newstate;
		if (me->fixed_line) {
		    if (empty) {
			ret = (lastcell->len <= 0 ? 0 : lastcell->len);
		    } else {
			ret = (lastcell->len <= 0 ? 0 : -1);
		    }
		} else {
		    if (empty) {
			ret = (lastcell->len <= 0 ? 0 : lastcell->len);
		    } else {
			ret = (lastcell->len <= 0 ? 0 : -1);
		    }
		}
		goto trace_and_return;
	    case CS__cb:
		if (s->pending_len && empty) {	/* ##496: */
		    lastcell->len = s->pending_len;
		    s->pending_len = 0;
		}		/* @@@ for empty do smth. about ->Line / ->icell_core !! */
		ret = -1;
		if (empty) {
		    if (!me->fixed_line) {
			me->fixed_line = YES;	/* type=b def of fixed_line i */
			me->Line = lastcell->cLine;	/* should've happened in break */
		    } else {
			if (me->Line != lastcell->cLine)
			    goto trace_and_return;
		    }
		    newstate = CS__cb;
		} else {
		    if (!me->fixed_line) {
			me->fixed_line = YES;	/* type=b def of fixed_line ii */
			me->Line = lastcell->cLine;	/* should've happened in break */
		    }
		    s->state = CS__cbc;
		    goto trace_and_return;
		}
		break;
	    case CS__ef:
		ret = 0;
		goto trace_and_return;
	    case CS__cf:
		ret = lastcell->len;	/* ##523_change_state? */
		goto trace_and_return;
	    case CS__cbc:
		if (!me->fixed_line) {
		    if (empty) {
			if (s->icell_core == -1)	/* ##528??: */
			    me->Line = lineno;
			/* lastcell->Line = lineno; */
		    } else {	/* !empty */
			if (s->icell_core == -1)
			    me->Line = -1;
		    }
		}
		s->pending_len = 0;
		newstate = empty ? CS_invalid : CS__cbc;
		break;
	    default:
		break;
	    }
	} else {		/* multiline cell, processing </TD>: */
	    s->x_td = -1;
	    switch (s->state) {
	    case CS_invalid:
		/* ##540_return_-1_for_invalid_if_len!: */
		if (!empty && lastcell->len > 0) {
		    newstate = CS__0cf;
		    s->state = newstate;
		    ret = -1;
		    goto trace_and_return;
		}
		/* ##541_set_len_0_Line_-1_sometimes: */
		lastcell->len = 0;
		lastcell->cLine = -1;
		/* fall thru ##546 really fall thru??: */
		newstate = empty ? CS_invalid : CS__cbc;
		break;
	    case CS__0new:
		newstate = empty ? CS__0ef : CS__0cf;
		break;
	    case CS__0eb:
		newstate = empty ? CS__0ef : CS__0cf;	/* ebc?? */
		s->state = newstate;
		if (me->fixed_line) {
		    if (empty) {
			ret = (lastcell->len <= 0 ? 0 : lastcell->len);
		    } else {
			ret = (lastcell->len <= 0 ? 0 : -1);
		    }
		} else {
		    if (empty) {
			ret = (lastcell->len <= 0 ? 0 : lastcell->len);
		    } else {
			ret = (lastcell->len <= 0 ? 0 : 0);
		    }
		}
		goto trace_and_return;
	    case CS__0cb:
		if (s->pending_len) {
		    if (empty)
			lastcell->len = s->pending_len;
		    else
			lastcell->len = 0;
		    s->pending_len = 0;
		}
		if (!me->fixed_line) {
		    if (empty) {
			if (s->icell_core == -1)
			    /* first cell before <BR></TD> => the core cell */
			    s->icell_core = me->ncells - 1;
			/* lastcell->cLine = lineno; */
		    } else {	/* !empty */
			if (s->icell_core == -1)
			    me->Line = -1;
		    }
		}
		if (s->pending_len && empty) {
		    lastcell->len = s->pending_len;
		    s->pending_len = 0;
		}		/* @@@ for empty do smth. about ->Line / ->icell_core !! */
		newstate = empty ? CS__0cf : CS__cbc;
		break;
	    case CS__0ef:
		newstate = CS__0ef;
		/* FALLTHRU */
	    case CS__0cf:
		break;
	    case CS__new:
		newstate = empty ? CS__ef : CS__cf;
		break;
	    case CS__eb:
		newstate = empty ? CS__ef : CS__ef;	/* ##579??? !!!!! */
		s->state = newstate;
		if (me->fixed_line) {
		    if (empty) {
			ret = (lastcell->len <= 0 ? 0 : lastcell->len);
		    } else {
			ret = (lastcell->len <= 0 ? 0 : -1);
		    }
		} else {
		    if (empty) {
			ret = (lastcell->len <= 0 ? 0 : lastcell->len);
		    } else {
			ret = (lastcell->len <= 0 ? 0 : -1);
		    }
		}
		goto trace_and_return;
	    case CS__cb:
		if (s->pending_len && empty) {
		    lastcell->len = s->pending_len;
		    s->pending_len = 0;
		}
		ret = -1;
		if (empty) {
		    if (!me->fixed_line) {
			me->fixed_line = YES;	/* type=c def of fixed_line */
			me->Line = lastcell->cLine;	/* should've happened in break */
		    } else {
			if (me->Line != lastcell->cLine)
			    goto trace_and_return;
		    }
		    newstate = CS__cf;
		} else {
		    goto trace_and_return;
		}
		break;
	    case CS__ef:	/* ignored error */
	    case CS__cf:	/* ignored error */
		break;
	    case CS__ebc:	/* ##540_handle_ebc: */
		lastcell->len = 0;
		if (!me->fixed_line) {
		    if (!empty) {
			if (s->icell_core == -1)
			    lastcell->cLine = -1;
		    }
		}
		s->pending_len = 0;
		newstate = empty ? CS_invalid : CS__cbc;
		break;
	    case CS__cbc:	/* ##586 */
		lastcell->len = 0;	/* ##613 */
		ret = -1;
		if (me->fixed_line && me->Line == lastcell->cLine)
		    goto trace_and_return;
		if (!me->fixed_line) {
		    if (empty) {
			if (s->icell_core == -1)
			    me->Line = lineno;
		    }
		}
		s->pending_len = 0;	/* ##629 v */
		newstate = empty ? CS_invalid : CS__cbc;
		break;
	    }
	}
    } else {			/* (!multiline) */
	if ((end_td & TRST_ENDCELL_MASK) == TRST_ENDCELL_LINEBREAK) {
	    switch (s->state) {
	    case CS_invalid:
	    case CS__0new:
		s->pending_len = empty ? 0 : pos - lastcell->pos;
		newstate = empty ? CS__0eb : CS__0cb;
		s->state = newstate;
		ret = 0;	/* or 0 for xlen to s->pending_len?? */
		goto trace_and_return;
	    case CS__0eb:	/* cannot happen */
		newstate = CS__eb;
		break;
	    case CS__0cb:	/* cannot happen */
		newstate = CS__cb;
		break;
	    case CS__0ef:
	    case CS__0cf:
		break;
	    case CS__new:
		ret = -1;
		if (!empty && s->prev_state == CS__cbc)		/* ##609: */
		    goto trace_and_return;
		if (!empty) {
		    if (!me->fixed_line) {
			me->fixed_line = YES;	/* type=d def of fixed_line */
			me->Line = lineno;
		    } else {
			if (me->Line != lineno)
			    goto trace_and_return;
		    }
		}
		newstate = empty ? CS__eb : CS__cb;
		s->state = newstate;
		if (!me->fixed_line) {
		    s->pending_len = empty ? 0 : pos - lastcell->pos;
		    ret = 0;
		    goto trace_and_return;
		} else {
		    s->pending_len = 0;
		    lastcell->len = empty ? 0 : pos - lastcell->pos;
		    ret = lastcell->len;
		    goto trace_and_return;
		}
	    case CS__eb:	/* cannot happen */
		newstate = empty ? CS__eb : CS__ebc;
		break;
	    case CS__cb:	/* cannot happen */
		newstate = empty ? CS__cb : CS__cbc;
		break;
	    case CS__ef:
		ret = 0;
		goto trace_and_return;
	    case CS__cf:
		ret = lastcell->len;
		goto trace_and_return;
	    case CS__cbc:	/* ??? */
		break;
	    default:
		break;
	    }
	} else {		/* !multiline, processing </TD>: */
	    s->x_td = -1;
	    switch (s->state) {
	    case CS_invalid:	/* ##691_no_lastcell_len_for_invalid: */
		if (!(me->fixed_line && me->Line == lastcell->cLine))
		    lastcell->len = 0;
		/* FALLTHRU */
	    case CS__0new:
		newstate = empty ? CS__0ef : CS__0cf;
		break;		/* ##630 */
	    case CS__0eb:
		newstate = empty ? CS__0ef : CS__0ef;
		break;		/* ??? */
	    case CS__0cb:
		newstate = empty ? CS__0cf : CS__cbc;
		break;		/* ??? */
	    case CS__0ef:
		newstate = CS__0ef;
		break;		/* ??? */
	    case CS__0cf:
		break;		/* ??? */
	    case CS__new:
		ret = -1;
		if (!empty && s->prev_state == CS__cbc)
		    goto trace_and_return;
		if (!empty) {	/* ##642_set_fixed!: */
		    if (!me->fixed_line) {
			me->fixed_line = YES;	/* type=e def of fixed_line */
			me->Line = lineno;
		    } else {
			if (me->Line != lineno)
			    goto trace_and_return;
		    }
		}
		if (lastcell->len < 0)
		    lastcell->len = empty ? 0 : pos - lastcell->pos;
		newstate = empty ? CS__ef : CS__cf;
		s->state = newstate;
		ret = ((me->fixed_line && lineno != me->Line)
		       ? -1 : lastcell->len);
		goto trace_and_return;
	    case CS__eb:
		newstate = empty ? CS__ef : CS__cf;
		break;		/* ??? */
	    case CS__cb:
		newstate = empty ? CS__cf : CS__cf;
		break;		/* ??? */
	    case CS__ef:	/* ignored error */
	    case CS__cf:	/* ignored error */
	    default:
		break;
	    }
	    lastcell->len = pos - lastcell->pos;
	}			/* if (!end_td) ... else */
    }				/* if (multiline) ... else */

    s->state = newstate;
    ret = lastcell->len;
#ifdef EXP_NESTED_TABLES
    if (nested_tables) {
	if (ret == -1 && pos == 0)
	    ret = 0;		/* XXXX Hack to allow trailing <P> in multiline cells. */
    }
#endif

/*    lastcell->len = pos - lastcell->pos; */
  trace_and_return:
    CTRACE2(TRACE_TRST,
	    (tfp, " => prev_state=%s, state=%s, return=%d\n",
	     cellstate_s(s->prev_state), cellstate_s(s->state), ret));
    return ret;
}

/*
 * Reserve cells, each of given colspan, in (rowspan-1) rows after the current
 * row of rowspan>1.  If rowspan==0, use special 'row' rowspans2eog to keep
 * track of rowspans that are to remain in effect until the end of the row
 * group (until next THEAD/TFOOT/TBODY) or table.
 */
static int Stbl_reserveCellsInTable(STable_info *me, int icell,
				    int colspan,
				    int rowspan)
{
    STable_rowinfo *rows, *row;
    int growby;
    int i;

    if (colspan > TRST_MAXCOLSPAN) {
	CTRACE2(TRACE_TRST,
		(tfp,
		 "TRST:*** COLSPAN=%d is too large, ignored!\n",
		 colspan));
	return -1;
    }
    if (rowspan > TRST_MAXROWSPAN) {
	CTRACE2(TRACE_TRST,
		(tfp,
		 "TRST:*** ROWSPAN=%d is too large, ignored!\n",
		 rowspan));
	return -1;
    }
    if (me->nrows <= 0)
	return -1;		/* must already have at least one row */

    CTRACE2(TRACE_TRST,
	    (tfp,
	     "TRST:Stbl_reserveCellsInTable(icell=%d, colspan=%d, rowspan=%d)\n",
	     icell, colspan, rowspan));
    if (rowspan == 0) {
	if (!me->rowspans2eog.cells) {
	    me->rowspans2eog.cells = typecallocn(STable_cellinfo,
						   (unsigned) HTMAX(1, icell + colspan));

	    if (!me->rowspans2eog.cells)
		return 0;	/* fail silently */
	    else
		me->rowspans2eog.allocated = icell + colspan;
	}
	Stbl_reserveCellsInRow(&me->rowspans2eog, icell, colspan);
    }

    growby = me->nrows + rowspan - 1 - me->allocated_rows;
    if (growby > 0) {
	rows = typeRealloc(STable_rowinfo, me->rows,
			     (unsigned) (me->allocated_rows + growby));

	if (!rows)
	    return 0;		/* ignore silently, no free memory, may be recoverable */
	for (i = 0; i < growby; i++) {
	    row = rows + me->allocated_rows + i;
	    row->allocated = 0;
	    row->offset = 0;
	    row->content = 0;
	    if (!me->rowspans2eog.allocated) {
		row->cells = NULL;
	    } else {
		row->cells = typecallocn(STable_cellinfo,
					   (unsigned) me->rowspans2eog.allocated);

		if (row->cells) {
		    row->allocated = me->rowspans2eog.allocated;
		    memcpy(row->cells, me->rowspans2eog.cells,
			   ((unsigned) row->allocated * sizeof(STable_cellinfo)));
		}
	    }
	    row->ncells = 0;
	    row->fixed_line = NO;
	    row->alignment = HT_ALIGN_NONE;
	}
	me->allocated_rows += growby;
	me->rows = rows;
    }
    for (i = me->nrows;
	 i < (rowspan == 0 ? me->allocated_rows : me->nrows + rowspan - 1);
	 i++) {
	if (!me->rows[i].allocated) {
	    me->rows[i].cells = typecallocn(STable_cellinfo,
					      (unsigned) HTMAX(1,
							       icell
							       + colspan));

	    if (!me->rows[i].cells)
		return 0;	/* fail silently */
	    else
		me->rows[i].allocated = icell + colspan;
	}
	Stbl_reserveCellsInRow(me->rows + i, icell, colspan);
    }
    return 0;
}

/* Remove reserved cells in trailing rows that were added for rowspan,
 * to be used when a THEAD/TFOOT/TBODY ends. */
static void Stbl_cancelRowSpans(STable_info *me)
{
    int i;

    CTRACE2(TRACE_TRST, (tfp, "TRST:Stbl_cancelRowSpans()"));
    for (i = me->nrows; i < me->allocated_rows; i++) {
	if (!me->rows[i].ncells) {	/* should always be the case */
	    FREE(me->rows[i].cells);
	    me->rows[i].allocated = 0;
	}
    }
    free_rowinfo(&me->rowspans2eog);
    me->rowspans2eog.allocated = 0;
}

/*
 * Returns -1 on error, otherwise index of just-added table row.
 */
int Stbl_addRowToTable(STable_info *me, int alignment,
		       int lineno)
{
    STable_rowinfo *rows, *row;
    STable_states *s = &me->s;

    CTRACE2(TRACE_TRST,
	    (tfp, "TRST:Stbl_addRowToTable(alignment=%d, lineno=%d)\n",
	     alignment, lineno));
    if (me->nrows > 0 && me->rows[me->nrows - 1].ncells > 0) {
	if (s->pending_len > 0)
	    me->rows[me->nrows - 1].cells[
					     me->rows[me->nrows - 1].ncells - 1
		].len =
		s->pending_len;
	s->pending_len = 0;
    }
    Stbl_finishRowInTable(me);
    if (me->nrows > 0 && me->rows[me->nrows - 1].Line == lineno)
	me->rows[me->nrows - 1].Line = -1;
    s->pending_len = 0;
    s->x_td = -1;

    {
	int i;
	int growby = 0;

	while (me->nrows + 2 > me->allocated_rows + growby)
	    growby += ROWS_GROWBY;
	if (growby) {
	    if (me->allocated_rows == 0 && !me->rows) {
		rows = typecallocn(STable_rowinfo, (unsigned) growby);
	    } else {
		rows = typeRealloc(STable_rowinfo, me->rows,
				     (unsigned) (me->allocated_rows + growby));

		for (i = 0; rows && i < growby; i++) {
		    row = rows + me->allocated_rows + i;
		    if (!me->rowspans2eog.allocated) {
			row->allocated = 0;
			row->cells = NULL;
		    } else {
			row->cells = typecallocn(STable_cellinfo,
						   (unsigned) me->rowspans2eog.allocated);

			if (row->cells) {
			    row->allocated = me->rowspans2eog.allocated;
			    memcpy(row->cells, me->rowspans2eog.cells,
				   (unsigned) row->allocated * sizeof(STable_cellinfo));
			} else {
			    FREE(rows);
			    break;
			}
		    }
		    row->ncells = 0;
		    row->fixed_line = NO;
		    row->alignment = HT_ALIGN_NONE;
		    row->offset = 0;
		    row->content = 0;
		}
	    }
	    if (rows) {
		me->allocated_rows += growby;
		me->rows = rows;
	    } else {
		return -1;
	    }
	}
    }

    me->rows[me->nrows].Line = lineno;
    if (me->nrows == 0)
	me->startline = lineno;
    if (alignment != HT_ALIGN_NONE)
	me->rows[me->nrows].alignment = alignment;
    else
	me->rows[me->nrows].alignment =
	    (me->rowgroup_align == HT_ALIGN_NONE) ?
	    me->alignment : me->rowgroup_align;
    me->nrows++;
    if (me->pending_colgroup_next > me->ncolinfo) {
	me->ncolinfo = me->pending_colgroup_next;
	me->pending_colgroup_next = 0;
    }
    me->rows[me->nrows].Line = -1;	/* not yet used */
    me->rows[me->nrows].ended = ROW_not_ended;	/* No </tr> yet */
    return (me->nrows - 1);
}

/*
 * Returns -1 on error, otherwise current number of rows.
 */
static int Stbl_finishRowInTable(STable_info *me)
{
    STable_rowinfo *lastrow;
    STable_states *s = &me->s;

    CTRACE2(TRACE_TRST, (tfp, "TRST:Stbl_finishRowInTable()\n"));
    if (!me->rows || !me->nrows)
	return -1;		/* no row started! */
    lastrow = me->rows + (me->nrows - 1);
    lastrow->ended = ROW_ended_by_endtr;
    if (lastrow->ncells > 0) {
	if (s->pending_len > 0)
	    lastrow->cells[lastrow->ncells - 1].len = s->pending_len;
	s->pending_len = 0;
    }
    s->prev_state = s->state = CS_invalid;
    s->lineno = -1;

    if (s->icell_core >= 0 && !lastrow->fixed_line &&
	lastrow->cells[s->icell_core].cLine >= 0)
	lastrow->Line = lastrow->cells[s->icell_core].cLine;
    s->icell_core = -1;
    return (me->nrows);
}

static void update_sumcols0(STable_cellinfo *sumcols,
			    STable_rowinfo *lastrow,
			    int pos,
			    int len,
			    int icell,
			    int ispan,
			    int allocated_sumcols)
{
    int i;

    if (len > 0) {
	int sumpos = pos;
	int prevsumpos = sumcols[icell + ispan].pos;
	int advance;

	if (ispan > 0) {
	    if (lastrow->cells[icell].pos + len > sumpos)
		sumpos = lastrow->cells[icell].pos + len;
	    if (sumcols[icell + ispan - 1].pos +
		sumcols[icell + ispan - 1].len >
		sumpos)
		sumpos = sumcols[icell + ispan - 1].pos +
		    sumcols[icell + ispan - 1].len;
	}
	advance = sumpos - prevsumpos;
	if (advance > 0) {
	    for (i = icell + ispan; i < allocated_sumcols; i++) {
		if (ispan > 0 && sumcols[i].colspan < -1) {
		    if (i + sumcols[i].colspan < icell + ispan) {
			advance = sumpos - sumcols[i].pos;
			if (i > 0)
			    advance = HTMAX(advance,
					    sumcols[i - 1].pos +
					    sumcols[i - 1].len
					    - (sumcols[i].pos));
			if (advance <= 0)
			    break;
		    }
		}
		if (sumcols[i].pos >= 0)
		    sumcols[i].pos += advance;
		else {
		    sumcols[i].pos = sumpos;
		    break;
		}
	    }
	}
    }
}

static int get_remaining_colspan(STable_rowinfo *me,
				 STable_cellinfo *colinfo,
				 int ncolinfo,
				 int colspan,
				 int ncols_sofar)
{
    int i;
    int last_colspan = (me->ncells
			? me->cells[me->ncells - 1].colspan
			: 1);

    if (ncolinfo == 0 || me->ncells + last_colspan > ncolinfo) {
	colspan = HTMIN(TRST_MAXCOLSPAN,
			ncols_sofar - (me->ncells + last_colspan - 1));
	colspan = HTMAX(colspan, 0);
    } else {
	for (i = me->ncells + last_colspan - 1; i < ncolinfo - 1; i++)
	    if (colinfo[i].cLine == EOCOLG)
		break;
	colspan = i - (me->ncells + last_colspan - 2);
    }
    CTRACE2(TRACE_TRST,
	    (tfp, "TRST:get_remaining_colspan; colspan = %d\n",
	     colspan));
    return colspan;
}

#ifdef EXP_NESTED_TABLES
/* Returns -1 on failure, 1 if faking was performed, 0 if not needed. */
static int Stbl_fakeFinishCellInTable(STable_info *me,
				      STable_rowinfo *lastrow,
				      int lineno,
				      int finishing)	/* Processing finish or start */
{
    STable_states *s = &me->s;
    int fake = 0;

    switch (s->state) {		/* We care only about trailing <BR> */
    case CS_invalid:
    case CS__0new:
    case CS__0ef:
    case CS__0cf:
    case CS__new:
    case CS__cbc:
    case CS__ef:
    case CS__cf:
    default:
	/* <BR></TD> may produce these (XXXX instead of CS__cbf?).  But if
	   finishing==0, the caller already checked that we are on a
	   different line.  */
	if (finishing == 0)
	    fake = 1;
	break;			/* Either can't happen, or may be ignored */
    case CS__eb:
    case CS__0eb:
    case CS__0cb:
    case CS__cb:
	fake = 1;
	break;
    }
    if (fake) {
	/* The previous action we did was putting a linebreak.  Now we
	   want to put another one.  Fake necessary
	   </TD></TR><TR><TD></TD><TD> (and possibly </TD>) instead. */
	int ncells = lastrow->ncells;
	int i;
	int al = lastrow->alignment;
	int cs = lastrow->cells[lastrow->ncells - 1].colspan;
	int rs = 1;		/* XXXX How to find rowspan? */
	int ih = 0;		/* XXXX How to find is_header? */
	int end_td = (TRST_ENDCELL_ENDTD | TRST_FAKING_CELLS);
	int need_reserved = 0;
	int prev_reserved_last = -1;
	STable_rowinfo *prev_row;
	int prev_row_n2 = (int) (lastrow - me->rows);

	CTRACE2(TRACE_TRST,
		(tfp,
		 "TRST:Stbl_fakeFinishCellInTable(lineno=%d, finishing=%d) START FAKING\n",
		 lineno, finishing));

	/* Although here we use pos=0, this may commit the previous
	   cell which had <BR> as a last element.  This may overflow
	   the screen width, so the additional checks performed in
	   Stbl_finishCellInTable (comparing to Stbl_finishCellInRow)
	   are needed. */
	if (finishing) {
	    /* Fake </TD> at BOL */
	    if (Stbl_finishCellInTable(me, end_td, lineno, 0, 0) < 0) {
		return -1;
	    }
	}

	/* Fake </TR> at BOL */
	/* Stbl_finishCellInTable(lineno, 0, 0); */
	/* Needed? */

	/* Fake <TR> at BOL */
	if (Stbl_addRowToTable(me, al, lineno) < 0) {
	    return -1;
	}
	lastrow = me->rows + (me->nrows - 1);
	lastrow->content = IS_CONTINUATION_OF_CELL;
	for (i = 0; i < lastrow->allocated; i++) {
	    if (lastrow->cells[i].alignment == RESERVEDCELL) {
		need_reserved = 1;
		break;
	    }
	}

	prev_row = me->rows + prev_row_n2;
	for (i = ncells; i < prev_row->allocated; i++) {
	    if (prev_row->cells[i].alignment == RESERVEDCELL)
		prev_reserved_last = i;
	}
	if (need_reserved || prev_reserved_last >= 0) {
	    /* Oups, we are going to stomp over a line which somebody
	       cares about already, or the previous line had reserved
	       cells which were not skipped over.

	       Remember that STable_rowinfo is about logical (TR)
	       table lines, not displayed lines.  We need to duplicate
	       the reservation structure when we fake new logical lines.  */
	    int prev_row_n = (int) (prev_row - me->rows);
	    STable_rowinfo *rows = typeRealloc(STable_rowinfo, me->rows,
					       (unsigned) (me->allocated_rows
							   + 1));
	    int need_cells = prev_reserved_last + 1;
	    int n;

	    if (!rows)
		return -1;	/* ignore silently, no free memory, may be recoverable */

	    CTRACE2(TRACE_TRST,
		    (tfp, "TRST:Stbl_fakeFinishCellInTable REALLOC ROWSPAN\n"));
	    me->rows = rows;
	    lastrow = me->rows + (me->nrows - 1);
	    prev_row = me->rows + prev_row_n;
	    me->allocated_rows++;

	    /* Insert a duplicate row after lastrow */
	    for (n = me->allocated_rows - me->nrows - 1; n >= 0; --n)
		lastrow[n + 1] = lastrow[n];

	    /* Ignore cells, they belong to the next row now */
	    lastrow->allocated = 0;
	    lastrow->cells = 0;
	    if (need_cells) {
		lastrow->cells = typecallocn(STable_cellinfo, (unsigned) need_cells);

		/* ignore silently, no free memory, may be recoverable */
		if (!lastrow->cells) {
		    return -1;
		}
		lastrow->allocated = need_cells;
		memcpy(lastrow->cells, prev_row->cells,
		       (unsigned) lastrow->allocated * sizeof(STable_cellinfo));

		i = -1;
		while (++i < ncells) {
		    /* Stbl_addCellToTable grants RESERVEDCELL, but we do not
		       want this action for fake cells.
		       XXX Maybe always fake RESERVEDCELL instead of explicitly
		       creating/destroying cells?  */
		    if (lastrow->cells[i].alignment == RESERVEDCELL)
			lastrow->cells[i].alignment = HT_LEFT;
		}
	    }
	}

	/* Fake <TD></TD>...<TD> (and maybe a </TD>) at BOL. */
	CTRACE2(TRACE_TRST,
		(tfp, "TRST:Stbl_fakeFinishCellInTable FAKE %d elts%s\n",
		 ncells, (finishing ? ", last unfinished" : "")));
	i = 0;
	while (++i <= ncells) {
	    /* XXXX A lot of args may be wrong... */
	    if (Stbl_addCellToTable(me, (i == ncells ? cs : 1), rs, al,
				    ih, lineno, 0, 0) < 0) {
		return -1;
	    }
	    lastrow->content &= ~HAS_BEG_OF_CELL;	/* BEG_OF_CELL was fake */
	    /* We cannot run out of width here, so it is safe to not
	       call Stbl_finishCellInTable(), but Stbl_finishCellInRow. */
	    if (!finishing || (i != ncells)) {
		if (Stbl_finishCellInRow(lastrow, s, end_td, lineno, 0) < 0) {
		    return -1;
		}
	    }
	}
	CTRACE2(TRACE_TRST,
		(tfp,
		 "TRST:Stbl_fakeFinishCellInTable(lineno=%d) FINISH FAKING\n",
		 lineno));
	return 1;
    }
    return 0;
}
#endif

/*
 * Returns -1 on error, otherwise 0.
 */
int Stbl_addCellToTable(STable_info *me, int colspan,
			int rowspan,
			int alignment,
			int isheader,
			int lineno,
			int offset_not_used_yet GCC_UNUSED,
			int pos)
{
    STable_states *s = &me->s;
    STable_rowinfo *lastrow;
    STable_cellinfo *sumcols, *sumcol;
    int i, icell, ncells, sumpos;

    CTRACE2(TRACE_TRST,
	    (tfp,
	     "TRST:Stbl_addCellToTable(lineno=%d, pos=%d, isheader=%d, cs=%d, rs=%d, al=%d)\n",
	     lineno, pos, (int) isheader, colspan, rowspan, alignment));
    if (!me->rows || !me->nrows)
	return -1;		/* no row started! */
    /* ##850_fail_if_fail?? */
    if (me->rows[me->nrows - 1].ended != ROW_not_ended) {
	Stbl_addRowToTable(me, alignment, lineno);
    }
    Stbl_finishCellInTable(me, TRST_ENDCELL_ENDTD, lineno, 0, pos);
    lastrow = me->rows + (me->nrows - 1);

#ifdef EXP_NESTED_TABLES
    if (nested_tables) {
	/* If the last cell was finished by <BR></TD>, we need to fake an
	   appropriate amount of cells */
	if (!NO_AGGRESSIVE_NEWROW && pos == 0 && lastrow->ncells > 0
	    && lastrow->cells[lastrow->ncells - 1].cLine != lineno) {
	    int rc;

	    rc = Stbl_fakeFinishCellInTable(me, lastrow, lineno, 0);

	    if (rc < 0)
		return -1;
	    if (rc)
		lastrow = me->rows + (me->nrows - 1);
	}
    }
#endif
    if (colspan == 0) {
	colspan = get_remaining_colspan(lastrow, me->sumcols, me->ncolinfo,
					colspan, me->ncols);
    }
    ncells = lastrow->ncells;	/* remember what it was before adding cell. */
    icell = Stbl_addCellToRow(lastrow, me->sumcols, me->ncolinfo, s,
			      colspan, alignment, isheader,
			      lineno, &pos);
    if (icell < 0)
	return icell;
    if (me->nrows == 1 && me->startline < lastrow->Line)
	me->startline = lastrow->Line;

    if (rowspan != 1) {
	Stbl_reserveCellsInTable(me, icell, colspan, rowspan);
	/* me->rows may now have been realloc'd, make lastrow valid pointer */
	lastrow = me->rows + (me->nrows - 1);
    }
    lastrow->content |= HAS_BEG_OF_CELL;

    {
	int growby = 0;

	while (icell + colspan + 1 > me->allocated_sumcols + growby)
	    growby += CELLS_GROWBY;
	if (growby) {
	    if (me->allocated_sumcols == 0 && !me->sumcols) {
		sumcols = typecallocn(STable_cellinfo, (unsigned) growby);
	    } else {
		sumcols = typeRealloc(STable_cellinfo, me->sumcols,
				        (unsigned) (me->allocated_sumcols + growby));

		for (i = 0; sumcols && i < growby; i++) {
		    sumcol = sumcols + me->allocated_sumcols + i;
		    sumcol->pos = sumcols[me->allocated_sumcols - 1].pos;
		    sumcol->len = 0;
		    sumcol->colspan = 0;
		    sumcol->cLine = 0;
		    sumcol->alignment = HT_ALIGN_NONE;
		}
	    }
	    if (sumcols) {
		me->allocated_sumcols += growby;
		me->sumcols = sumcols;
	    } else {
		return -1;
	    }
	}
    }
    if (icell + 1 > me->ncols) {
	me->ncols = icell + 1;
    }
    if (colspan > 1 && colspan + me->sumcols[icell + colspan].colspan > 0)
	me->sumcols[icell + colspan].colspan = -colspan;
    sumpos = pos;
    if (ncells > 0)
	sumpos += me->sumcols[ncells - 1].pos - lastrow->cells[ncells - 1].pos;
    update_sumcols0(me->sumcols, lastrow, sumpos,
		    sumpos - ((ncells > 0)
			      ? me->sumcols[icell].pos
			      : me->sumcols[icell].pos),
		    icell, 0, me->allocated_sumcols);

    me->maxpos = me->sumcols[me->allocated_sumcols - 1].pos;
    if (me->maxpos > /* @@@ max. line length we can accept */ MAX_STBL_POS)
	return -1;
    return 0;
}

/*
 * Returns -1 on error, otherwise 0.
 */
int Stbl_finishCellInTable(STable_info *me, int end_td,
			   int lineno,
			   int offset,
			   int pos)
{
    STable_states *s = &me->s;
    STable_rowinfo *lastrow;
    int len, xlen, icell;
    int i;

    CTRACE2(TRACE_TRST,
	    (tfp,
	     "TRST:Stbl_finishCellInTable(lineno=%d, pos=%d, off=%d, end_td=%d)\n",
	     lineno, pos, offset, (int) end_td));
    if (me->nrows == 0)
	return -1;
    lastrow = me->rows + (me->nrows - 1);
    icell = lastrow->ncells - 1;
    if (icell < 0)
	return icell;
    if (s->x_td == -1) {	/* Stray </TD> or just-in-case, as on </TR> */
	if ((end_td & TRST_ENDCELL_MASK) == TRST_ENDCELL_LINEBREAK)
	    lastrow->ended = ROW_ended_by_splitline;
	return 0;
    }
#ifdef EXP_NESTED_TABLES
    if (nested_tables) {
	if (!NO_AGGRESSIVE_NEWROW && !(end_td & TRST_FAKING_CELLS)) {
	    int rc;

	    rc = Stbl_fakeFinishCellInTable(me, lastrow, lineno, 1);

	    if (rc) {
		if (rc < 0)
		    return -1;
		lastrow = me->rows + (me->nrows - 1);
		icell = lastrow->ncells - 1;
	    }
	}
    }
#endif
    len = Stbl_finishCellInRow(lastrow, s, end_td, lineno, pos);
    if (len == -1) {
	return len;
    }
    xlen = (len > 0) ? len : s->pending_len;	/* ##890 use xlen if fixed_line?: */
    if (lastrow->Line == lineno)
	len = xlen;
    if (lastrow->cells[icell].colspan > 1) {
	/*
	 * @@@ This is all a too-complicated mess; do we need
	 * sumcols len at all, or is pos enough??
	 * Answer: sumcols len is at least used for center/right
	 * alignment, and should probably continue to be used there;
	 * all other uses are probably not necessary.
	 */
	int spanlen = 0, spanlend = 0;

	for (i = icell; i < icell + lastrow->cells[icell].colspan; i++) {
	    if (me->sumcols[i].len > 0) {
		spanlen += me->sumcols[i].len;
		if (i > icell)
		    spanlen++;
	    }
	    spanlend = HTMAX(spanlend,
			     me->sumcols[i + 1].pos - me->sumcols[icell].pos);
	}
	if (spanlend)
	    spanlend--;
	if (spanlend > spanlen)
	    spanlen = spanlend;
	/* @@@ could overcount? */
	if (len > spanlen)
	    me->maxlen += (len - spanlen);
    } else if (len > me->sumcols[icell].len) {
	if (me->sumcols[icell + 1].colspan >= -1)
	    me->maxlen += (len - me->sumcols[icell].len);
	me->sumcols[icell].len = len;
    }

    if (len > 0) {
	update_sumcols0(me->sumcols, lastrow, pos, len,
			icell, lastrow->cells[icell].colspan,
			me->allocated_sumcols);
	me->maxpos = me->sumcols[me->allocated_sumcols - 1].pos;
    }

    if ((end_td & TRST_ENDCELL_MASK) == TRST_ENDCELL_LINEBREAK) {
	lastrow->ended = ROW_ended_by_splitline;
	lastrow->content |= BELIEVE_OFFSET;
	lastrow->offset = offset;
    }
#ifdef EXP_NESTED_TABLES	/* maxlen may already include contribution of a cell in this column */
    if (nested_tables) {
	if (me->maxlen > MAX_STBL_POS) {
	    return -1;
	}
    } else
#endif
    {
	if (me->maxlen + (xlen - len) > MAX_STBL_POS)
	    return -1;
    }
    if (me->maxpos > /* @@@ max. line length we can accept */ MAX_STBL_POS) {
	return -1;
    }

    if (lineno != lastrow->Line) {
	/* @@@ Do something here?  Or is it taken care of in
	   Stbl_finishCellInRow ? */
    }

    return 0;
}

/*
 * Returns -1 on error, otherwise 0.
 */
int Stbl_addColInfo(STable_info *me,
		    int colspan,
		    int alignment,
		    int isgroup)
{
    STable_cellinfo *sumcols, *sumcol;
    int i, icolinfo;

    CTRACE2(TRACE_TRST,
	    (tfp, "TRST:Stbl_addColInfo(cs=%d, al=%d, isgroup=%d)\n",
	     colspan, alignment, (int) isgroup));
    if (isgroup) {
	if (me->pending_colgroup_next > me->ncolinfo)
	    me->ncolinfo = me->pending_colgroup_next;
	me->pending_colgroup_next = me->ncolinfo + colspan;
	if (me->ncolinfo > 0)
	    me->sumcols[me->ncolinfo - 1].cLine = EOCOLG;
	me->pending_colgroup_align = (short) alignment;
    } else {
	for (i = me->pending_colgroup_next - 1;
	     i >= me->ncolinfo + colspan; i--)
	    me->sumcols[i].alignment = HT_ALIGN_NONE;
	me->pending_colgroup_next = me->ncolinfo + colspan;
    }
    icolinfo = me->ncolinfo;
    if (!isgroup)
	me->ncolinfo += colspan;

    {
	int growby = 0;

	while (icolinfo + colspan + 1 > me->allocated_sumcols + growby)
	    growby += CELLS_GROWBY;
	if (growby) {
	    if (me->allocated_sumcols == 0) {
		sumcols = typecallocn(STable_cellinfo, (unsigned) growby);
	    } else {
		sumcols = typeRealloc(STable_cellinfo, me->sumcols,
				        (unsigned) (me->allocated_sumcols + growby));

		for (i = 0; sumcols && i < growby; i++) {
		    sumcol = sumcols + me->allocated_sumcols + i;
		    sumcol->pos = sumcols[me->allocated_sumcols - 1].pos;
		    sumcol->len = 0;
		    sumcol->colspan = 0;
		    sumcol->cLine = 0;
		}
	    }
	    if (sumcols) {
		me->allocated_sumcols += growby;
		me->sumcols = sumcols;
	    } else {
		return -1;
	    }
	}
    }

    if (alignment == HT_ALIGN_NONE)
	alignment = me->pending_colgroup_align;
    for (i = icolinfo; i < icolinfo + colspan; i++) {
	me->sumcols[i].alignment = alignment;
    }
    return 0;
}

/*
 * Returns -1 on error, otherwise 0.
 */
int Stbl_finishColGroup(STable_info *me)
{
    CTRACE2(TRACE_TRST, (tfp, "TRST:Stbl_finishColGroup()\n"));
    if (me->pending_colgroup_next >= me->ncolinfo) {
	me->ncolinfo = me->pending_colgroup_next;
	if (me->ncolinfo > 0)
	    me->sumcols[me->ncolinfo - 1].cLine = EOCOLG;
    }
    me->pending_colgroup_next = 0;
    me->pending_colgroup_align = HT_ALIGN_NONE;
    return 0;
}

int Stbl_addRowGroup(STable_info *me, int alignment)
{
    CTRACE2(TRACE_TRST, (tfp, "TRST:Stbl_addRowGroup()\n"));
    Stbl_cancelRowSpans(me);
    me->rowgroup_align = (short) alignment;
    return 0;			/* that's all! */
}

int Stbl_finishTABLE(STable_info *me)
{
    STable_states *s = &me->s;
    int i;
    int curpos = 0;

    CTRACE2(TRACE_TRST, (tfp, "TRST:Stbl_finishTABLE()\n"));
    if (!me || me->nrows <= 0 || me->ncols <= 0) {
	return -1;
    }
    if (me->nrows > 0 && me->rows[me->nrows - 1].ncells > 0) {
	if (s->pending_len > 0)
	    me->rows[me->nrows - 1].cells[
					     me->rows[me->nrows - 1].ncells - 1
		].len = s->pending_len;
	s->pending_len = 0;
    }
    Stbl_finishRowInTable(me);
    /* take into account offsets on multi-line cells.
       XXX We cannot do it honestly, since two cells on the same row may
       participate in multi-line table entries, and we preserve only
       one offset per row.  This implementation may ignore
       horizontal offsets for the last row of a multirow table entry.  */
    for (i = 0; i < me->nrows - 1; i++) {
	int j = i + 1, leading = i, non_empty = 0;
	STable_rowinfo *nextrow = me->rows + j;
	int minoffset, have_offsets;
	int foundcell = -1, max_width;

	if ((nextrow->content & (IS_CONTINUATION_OF_CELL | HAS_BEG_OF_CELL | BELIEVE_OFFSET))
	    != (IS_CONTINUATION_OF_CELL | BELIEVE_OFFSET))
	    continue;		/* Not a continuation line */
	minoffset = nextrow[-1].offset;		/* Line before first continuation */
	CTRACE2(TRACE_TRST, (tfp,
			     "TRST:Stbl_finishTABLE, l=%d, offset=%d, ended=%u.\n",
			     i, nextrow[-1].offset, nextrow[-1].ended));

	/* Find the common part of the requested offsets */
	while (j < me->nrows
	       && ((nextrow->content &
		    (IS_CONTINUATION_OF_CELL
		     | HAS_BEG_OF_CELL
		     | BELIEVE_OFFSET))
		   == (IS_CONTINUATION_OF_CELL | BELIEVE_OFFSET))) {
	    if (minoffset > nextrow->offset)
		minoffset = nextrow->offset;
	    CTRACE2(TRACE_TRST,
		    (tfp,
		     "TRST:Stbl_finishTABLE, l=%d, offset=%d, ended=%u.\n",
		     j, nextrow->offset, nextrow[-1].ended));
	    nextrow++;
	    j++;
	}
	i = j - 1;		/* Continue after this line */
	/* Cancel the common part of offsets */
	j = leading;		/* Restart */
	nextrow = me->rows + j;	/* Line before first continuation */
	have_offsets = 0;
	nextrow->content |= OFFSET_IS_VALID_LAST_CELL;
	while (j <= i) {	/* A continuation line */
	    nextrow->offset -= minoffset;
	    nextrow->content |= OFFSET_IS_VALID;
	    if (nextrow->offset)
		have_offsets = 1;
	    nextrow++;
	    j++;
	}
	if (!have_offsets)
	    continue;		/* No offsets to deal with */

	/* Find the cell number */
	foundcell = -1;
	j = leading + 1;	/* Restart */
	nextrow = me->rows + j;	/* First continuation line */
	while (foundcell == -1 && j <= i) {	/* A continuation line */
	    int curcell = -1;

	    while (foundcell == -1 && ++curcell < nextrow->ncells)
		if (nextrow->cells[curcell].len)
		    foundcell = curcell, non_empty = j;
	    nextrow++;
	    j++;
	}
	if (foundcell == -1)	/* Can it happen? */
	    continue;
	/* Find the max width */
	max_width = 0;
	j = leading;		/* Restart */
	nextrow = me->rows + j;	/* Include the pre-continuation line */
	while (j <= i) {	/* A continuation line */
	    if (nextrow->ncells > foundcell) {
		int curwid = nextrow->cells[foundcell].len + nextrow->offset;

		if (curwid > max_width)
		    max_width = curwid;
	    }
	    nextrow++;
	    j++;
	}
	/* Update the widths */
	j = non_empty;		/* Restart from the first nonempty */
	nextrow = me->rows + j;
	/* Register the increase of the width */
	update_sumcols0(me->sumcols, me->rows + non_empty,
			0 /* width only */ , max_width,
			foundcell, nextrow->cells[foundcell].colspan,
			me->allocated_sumcols);
	j = leading;		/* Restart from pre-continuation */
	nextrow = me->rows + j;
	while (j <= i) {	/* A continuation line */
	    if (nextrow->ncells > foundcell)
		nextrow->cells[foundcell].len = max_width;
	    nextrow++;
	    j++;
	}
    }				/* END of Offsets processing */

    for (i = 0; i < me->ncols; i++) {
	if (me->sumcols[i].pos < curpos) {
	    me->sumcols[i].pos = curpos;
	} else {
	    curpos = me->sumcols[i].pos;
	}
	if (me->sumcols[i].len > 0) {
	    curpos += me->sumcols[i].len;
	}
    }
    /* need to recheck curpos: though it is checked each time a cell
       is added, sometimes the result is ignored, as in split_line(). */
    return (curpos > MAX_STBL_POS ? -1 : me->ncols);
}

short Stbl_getAlignment(STable_info *me)
{
    return (short) (me ? me->alignment : HT_ALIGN_NONE);
}

static int get_fixup_positions(STable_rowinfo *me, int *oldpos,
			       int *newpos,
			       STable_cellinfo *sumcols)
{
    int i = 0, ip = 0;
    int next_i, newlen;
    int ninserts;

    if (!me)
	return -1;
    while (i < me->ncells) {
	int offset;

	next_i = i + HTMAX(1, me->cells[i].colspan);
	if (me->cells[i].cLine != me->Line) {
	    if (me->cells[i].cLine > me->Line)
		break;
	    i = next_i;
	    continue;
	}
	oldpos[ip] = me->cells[i].pos;
	if ((me->content & OFFSET_IS_VALID)
	    && (i == me->ncells - 1
		|| !((me->content & OFFSET_IS_VALID_LAST_CELL))))
	    offset = me->offset;
	else
	    offset = 0;
	newpos[ip] = sumcols[i].pos + offset;
	if ((me->cells[i].alignment == HT_CENTER ||
	     me->cells[i].alignment == HT_RIGHT) &&
	    me->cells[i].len > 0) {
	    newlen = sumcols[next_i].pos - newpos[ip] - 1;
	    newlen = HTMAX(newlen, sumcols[i].len);
	    if (me->cells[i].len < newlen) {
		if (me->cells[i].alignment == HT_RIGHT) {
		    newpos[ip] += newlen - me->cells[i].len;
		} else {
		    newpos[ip] += (newlen - me->cells[i].len) / 2;
		}
	    }
	}
	ip++;
	i = next_i;
    }
    ninserts = ip;
    return ninserts;
}

/*
 * Returns -1 if we have no row for this lineno, or for other error,
 *	    0 or greater (number of oldpos/newpos pairs) if we have
 *	      a table row.
 */
int Stbl_getFixupPositions(STable_info *me, int lineno,
			   int *oldpos,
			   int *newpos)
{
    STable_rowinfo *row;
    int j;
    int ninserts = -1;

    if (!me || !me->nrows)
	return -1;
    for (j = 0; j < me->nrows; j++) {
	row = me->rows + j;
	if (row->Line == lineno) {
	    ninserts = get_fixup_positions(row, oldpos, newpos,
					   me->sumcols);
	    break;
	}
    }
    return ninserts;
}

int Stbl_getStartLine(STable_info *me)
{
    if (!me)
	return -1;
    else
	return me->startline;
}

#ifdef EXP_NESTED_TABLES

int Stbl_getStartLineDeep(STable_info *me)
{
    if (!me)
	return -1;
    while (me->enclosing)
	me = me->enclosing;
    return me->startline;
}

void Stbl_update_enclosing(STable_info *me, int max_width,
			   int last_lineno)
{
    int l;

    if (!me || !me->enclosing || !max_width)
	return;
    CTRACE2(TRACE_TRST,
	    (tfp, "TRST:Stbl_update_enclosing, width=%d, lines=%d...%d.\n",
	     max_width, me->startline, last_lineno));
    for (l = me->startline; l <= last_lineno; l++) {
	/* Fake <BR> in appropriate positions */
	if (Stbl_finishCellInTable(me->enclosing,
				   TRST_ENDCELL_LINEBREAK,
				   l,
				   0,
				   max_width) < 0) {
	    /* It is not handy to let the caller delete me->enclosing,
	       and it does not buy us anything.  Do it directly. */
	    STable_info *stbl = me->enclosing;

	    CTRACE2(TRACE_TRST, (tfp,
				 "TRST:Stbl_update_enclosing: width too large, aborting enclosing\n"));
	    me->enclosing = 0;
	    while (stbl) {
		STable_info *enclosing = stbl->enclosing;

		Stbl_free(stbl);
		stbl = enclosing;
	    }
	    break;
	}
    }
    return;
}

void Stbl_set_enclosing(STable_info *me, STable_info *enclosing, struct _TextAnchor *enclosing_last_anchor_before_stbl)
{
    if (!me)
	return;
    me->enclosing = enclosing;
    me->enclosing_last_anchor_before_stbl = enclosing_last_anchor_before_stbl;
}

STable_info *Stbl_get_enclosing(STable_info *me)
{
    if (!me)
	return 0;
    return me->enclosing;
}

struct _TextAnchor *Stbl_get_last_anchor_before(STable_info *me)
{
    if (!me)
	return 0;
    return me->enclosing_last_anchor_before_stbl;
}
#endif