// -*- C++ -*- /* Copyright (C) 1989, 1990, 1991, 1992 Free Software Foundation, Inc. Written by James Clark (jjc@jclark.com) This file is part of groff. groff 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. groff 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 groff; see the file COPYING. If not, write to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "table.h" #define BAR_HEIGHT ".25m" #define DOUBLE_LINE_SEP "2p" #define HALF_DOUBLE_LINE_SEP "1p" #define LINE_SEP "2p" #define BODY_DEPTH ".25m" const int DEFAULT_COLUMN_SEPARATION = 3; #define DELIMITER_CHAR "\\[tbl]" #define PREFIX "3" #define SEPARATION_FACTOR_REG PREFIX "sep" #define BOTTOM_REG PREFIX "bot" #define RESET_MACRO_NAME PREFIX "init" #define LINESIZE_REG PREFIX "lps" #define TOP_REG PREFIX "top" #define CURRENT_ROW_REG PREFIX "crow" #define LAST_PASSED_ROW_REG PREFIX "passed" #define TRANSPARENT_STRING_NAME PREFIX "trans" #define QUOTE_STRING_NAME PREFIX "quote" #define SECTION_DIVERSION_NAME PREFIX "section" #define SECTION_DIVERSION_FLAG_REG PREFIX "sflag" #define SAVED_VERTICAL_POS_REG PREFIX "vert" #define NEED_BOTTOM_RULE_REG PREFIX "brule" #define KEEP_MACRO_NAME PREFIX "keep" #define RELEASE_MACRO_NAME PREFIX "release" #define SAVED_FONT_REG PREFIX "fnt" #define SAVED_SIZE_REG PREFIX "sz" #define SAVED_FILL_REG PREFIX "fll" #define SAVED_INDENT_REG PREFIX "ind" #define SAVED_CENTER_REG PREFIX "cent" #define TABLE_DIVERSION_NAME PREFIX "table" #define TABLE_DIVERSION_FLAG_REG PREFIX "tflag" #define TABLE_KEEP_MACRO_NAME PREFIX "tkeep" #define TABLE_RELEASE_MACRO_NAME PREFIX "trelease" #define NEEDED_REG PREFIX "needed" #define REPEATED_MARK_MACRO PREFIX "rmk" #define REPEATED_VPT_MACRO PREFIX "rvpt" #define SUPPRESS_BOTTOM_REG PREFIX "supbot" #define SAVED_DN_REG PREFIX "dn" // this must be one character #define COMPATIBLE_REG PREFIX "c" #define BLOCK_WIDTH_PREFIX PREFIX "tbw" #define BLOCK_DIVERSION_PREFIX PREFIX "tbd" #define BLOCK_HEIGHT_PREFIX PREFIX "tbh" #define SPAN_WIDTH_PREFIX PREFIX "w" #define SPAN_LEFT_NUMERIC_WIDTH_PREFIX PREFIX "lnw" #define SPAN_RIGHT_NUMERIC_WIDTH_PREFIX PREFIX "rnw" #define SPAN_ALPHABETIC_WIDTH_PREFIX PREFIX "aw" #define COLUMN_SEPARATION_PREFIX PREFIX "cs" #define ROW_START_PREFIX PREFIX "rs" #define COLUMN_START_PREFIX PREFIX "cl" #define COLUMN_END_PREFIX PREFIX "ce" #define COLUMN_DIVIDE_PREFIX PREFIX "cd" #define ROW_TOP_PREFIX PREFIX "rt" string block_width_reg(int r, int c); string block_diversion_name(int r, int c); string block_height_reg(int r, int c); string span_width_reg(int start_col, int end_col); string span_left_numeric_width_reg(int start_col, int end_col); string span_right_numeric_width_reg(int start_col, int end_col); string span_alphabetic_width_reg(int start_col, int end_col); string column_separation_reg(int col); string row_start_reg(int r); string column_start_reg(int c); string column_end_reg(int c); string column_divide_reg(int c); string row_top_reg(int r); void set_inline_modifier(const entry_modifier *); void restore_inline_modifier(const entry_modifier *m); void set_modifier(const entry_modifier *); int find_decimal_point(const char *s, char decimal_point_char, const char *delim); string an_empty_string; int location_force_filename = 0; void printfs(const char *, const string &arg1 = an_empty_string, const string &arg2 = an_empty_string, const string &arg3 = an_empty_string, const string &arg4 = an_empty_string, const string &arg5 = an_empty_string); void prints(const string &); inline void prints(char c) { putchar(c); } inline void prints(const char *s) { fputs(s, stdout); } void prints(const string &s) { if (!s.empty()) fwrite(s.contents(), 1, s.length(), stdout); } struct horizontal_span { horizontal_span *next; short start_col; short end_col; horizontal_span(int, int, horizontal_span *); }; struct single_line_entry; struct double_line_entry; struct simple_entry; class table_entry { friend class table; table_entry *next; int input_lineno; const char *input_filename; protected: int start_row; int end_row; short start_col; short end_col; const entry_modifier *mod; public: void set_location(); table_entry(const entry_modifier *); virtual ~table_entry(); virtual int divert(int ncols, const string *mw, int *sep); virtual void do_width(); virtual void do_depth(); virtual void print() = 0; virtual void position_vertically() = 0; virtual single_line_entry *to_single_line_entry(); virtual double_line_entry *to_double_line_entry(); virtual simple_entry *to_simple_entry(); virtual int line_type(); virtual void note_double_vrule_on_right(int); virtual void note_double_vrule_on_left(int); }; class simple_entry : public table_entry { public: simple_entry(const entry_modifier *); void print(); void position_vertically(); simple_entry *to_simple_entry(); virtual void add_tab(); virtual void simple_print(int); }; class empty_entry : public simple_entry { public: empty_entry(const entry_modifier *); int line_type(); }; class text_entry : public simple_entry { protected: char *contents; void print_contents(); public: text_entry(char *, const entry_modifier *); ~text_entry(); }; void text_entry::print_contents() { set_inline_modifier(mod); prints(contents); restore_inline_modifier(mod); } class repeated_char_entry : public text_entry { public: repeated_char_entry(char *s, const entry_modifier *m); void simple_print(int); }; class simple_text_entry : public text_entry { public: simple_text_entry(char *s, const entry_modifier *m); void do_width(); }; class left_text_entry : public simple_text_entry { public: left_text_entry(char *s, const entry_modifier *m); void simple_print(int); void add_tab(); }; class right_text_entry : public simple_text_entry { public: right_text_entry(char *s, const entry_modifier *m); void simple_print(int); void add_tab(); }; class center_text_entry : public simple_text_entry { public: center_text_entry(char *s, const entry_modifier *m); void simple_print(int); void add_tab(); }; class numeric_text_entry : public text_entry { int dot_pos; public: numeric_text_entry(char *s, const entry_modifier *m, int pos); void do_width(); void simple_print(int); }; class alphabetic_text_entry : public text_entry { public: alphabetic_text_entry(char *s, const entry_modifier *m); void do_width(); void simple_print(int); void add_tab(); }; class line_entry : public simple_entry { protected: char double_vrule_on_right; char double_vrule_on_left; public: line_entry(const entry_modifier *); void note_double_vrule_on_right(int); void note_double_vrule_on_left(int); void simple_print(int) = 0; }; class single_line_entry : public line_entry { public: single_line_entry(const entry_modifier *m); void simple_print(int); single_line_entry *to_single_line_entry(); int line_type(); }; class double_line_entry : public line_entry { public: double_line_entry(const entry_modifier *m); void simple_print(int); double_line_entry *to_double_line_entry(); int line_type(); }; class short_line_entry : public simple_entry { public: short_line_entry(const entry_modifier *m); void simple_print(int); int line_type(); }; class short_double_line_entry : public simple_entry { public: short_double_line_entry(const entry_modifier *m); void simple_print(int); int line_type(); }; class block_entry : public table_entry { char *contents; protected: void do_divert(int alphabetic, int ncols, const string *mw, int *sep); public: block_entry(char *s, const entry_modifier *m); ~block_entry(); int divert(int ncols, const string *mw, int *sep); void do_width(); void do_depth(); void position_vertically(); void print() = 0; }; class left_block_entry : public block_entry { public: left_block_entry(char *s, const entry_modifier *m); void print(); }; class right_block_entry : public block_entry { public: right_block_entry(char *s, const entry_modifier *m); void print(); }; class center_block_entry : public block_entry { public: center_block_entry(char *s, const entry_modifier *m); void print(); }; class alphabetic_block_entry : public block_entry { public: alphabetic_block_entry(char *s, const entry_modifier *m); void print(); int divert(int ncols, const string *mw, int *sep); }; table_entry::table_entry(const entry_modifier *m) : next(0), start_row(-1), end_row(-1), start_col(-1), end_col(-1), mod(m), input_lineno(-1), input_filename(0) { } table_entry::~table_entry() { } int table_entry::divert(int, const string *, int *) { return 0; } void table_entry::do_width() { } single_line_entry *table_entry::to_single_line_entry() { return 0; } double_line_entry *table_entry::to_double_line_entry() { return 0; } simple_entry *table_entry::to_simple_entry() { return 0; } void table_entry::do_depth() { } void table_entry::set_location() { set_troff_location(input_filename, input_lineno); } int table_entry::line_type() { return -1; } void table_entry::note_double_vrule_on_right(int) { } void table_entry::note_double_vrule_on_left(int) { } simple_entry::simple_entry(const entry_modifier *m) : table_entry(m) { } void simple_entry::add_tab() { // do nothing } void simple_entry::simple_print(int) { // do nothing } void simple_entry::position_vertically() { if (start_row != end_row) switch (mod->vertical_alignment) { case entry_modifier::TOP: printfs(".sp |\\n[%1]u\n", row_start_reg(start_row)); break; case entry_modifier::CENTER: // Peform the motion in two stages so that the center is rounded // vertically upwards even if net vertical motion is upwards. printfs(".sp |\\n[%1]u\n", row_start_reg(start_row)); printfs(".sp \\n[" BOTTOM_REG "]u-\\n[%1]u-1v/2u\n", row_start_reg(start_row)); break; case entry_modifier::BOTTOM: printfs(".sp |\\n[%1]u+\\n[" BOTTOM_REG "]u-\\n[%1]u-1v\n", row_start_reg(start_row)); break; default: assert(0); } } void simple_entry::print() { prints(".ta"); add_tab(); prints('\n'); set_location(); prints("\\&"); simple_print(0); prints('\n'); } simple_entry *simple_entry::to_simple_entry() { return this; } empty_entry::empty_entry(const entry_modifier *m) : simple_entry(m) { } int empty_entry::line_type() { return 0; } text_entry::text_entry(char *s, const entry_modifier *m) : contents(s), simple_entry(m) { } text_entry::~text_entry() { a_delete contents; } repeated_char_entry::repeated_char_entry(char *s, const entry_modifier *m) : text_entry(s, m) { } void repeated_char_entry::simple_print(int) { printfs("\\h'|\\n[%1]u'", column_start_reg(start_col)); set_inline_modifier(mod); printfs("\\l" DELIMITER_CHAR "\\n[%1]u\\&", span_width_reg(start_col, end_col)); prints(contents); prints(DELIMITER_CHAR); restore_inline_modifier(mod); } simple_text_entry::simple_text_entry(char *s, const entry_modifier *m) : text_entry(s, m) { } void simple_text_entry::do_width() { set_location(); printfs(".nr %1 \\n[%1]>?\\w" DELIMITER_CHAR, span_width_reg(start_col, end_col)); print_contents(); prints(DELIMITER_CHAR "\n"); } left_text_entry::left_text_entry(char *s, const entry_modifier *m) : simple_text_entry(s, m) { } void left_text_entry::simple_print(int) { printfs("\\h'|\\n[%1]u'", column_start_reg(start_col)); print_contents(); } // The only point of this is to make `\a' ``work'' as in Unix tbl. Grrr. void left_text_entry::add_tab() { printfs(" \\n[%1]u", column_end_reg(end_col)); } right_text_entry::right_text_entry(char *s, const entry_modifier *m) : simple_text_entry(s, m) { } void right_text_entry::simple_print(int) { printfs("\\h'|\\n[%1]u'", column_start_reg(start_col)); prints("\002\003"); print_contents(); prints("\002"); } void right_text_entry::add_tab() { printfs(" \\n[%1]u", column_end_reg(end_col)); } center_text_entry::center_text_entry(char *s, const entry_modifier *m) : simple_text_entry(s, m) { } void center_text_entry::simple_print(int) { printfs("\\h'|\\n[%1]u'", column_start_reg(start_col)); prints("\002\003"); print_contents(); prints("\003\002"); } void center_text_entry::add_tab() { printfs(" \\n[%1]u", column_end_reg(end_col)); } numeric_text_entry::numeric_text_entry(char *s, const entry_modifier *m, int pos) : text_entry(s, m), dot_pos(pos) { } void numeric_text_entry::do_width() { if (dot_pos != 0) { set_location(); printfs(".nr %1 0\\w" DELIMITER_CHAR, block_width_reg(start_row, start_col)); set_inline_modifier(mod); for (int i = 0; i < dot_pos; i++) prints(contents[i]); restore_inline_modifier(mod); prints(DELIMITER_CHAR "\n"); printfs(".nr %1 \\n[%1]>?\\n[%2]\n", span_left_numeric_width_reg(start_col, end_col), block_width_reg(start_row, start_col)); } else printfs(".nr %1 0\n", block_width_reg(start_row, start_col)); if (contents[dot_pos] != '\0') { set_location(); printfs(".nr %1 \\n[%1]>?\\w" DELIMITER_CHAR, span_right_numeric_width_reg(start_col, end_col)); set_inline_modifier(mod); prints(contents + dot_pos); restore_inline_modifier(mod); prints(DELIMITER_CHAR "\n"); } } void numeric_text_entry::simple_print(int) { printfs("\\h'|(\\n[%1]u-\\n[%2]u-\\n[%3]u/2u+\\n[%2]u+\\n[%4]u-\\n[%5]u)'", span_width_reg(start_col, end_col), span_left_numeric_width_reg(start_col, end_col), span_right_numeric_width_reg(start_col, end_col), column_start_reg(start_col), block_width_reg(start_row, start_col)); print_contents(); } alphabetic_text_entry::alphabetic_text_entry(char *s, const entry_modifier *m) : text_entry(s, m) { } void alphabetic_text_entry::do_width() { set_location(); printfs(".nr %1 \\n[%1]>?\\w" DELIMITER_CHAR, span_alphabetic_width_reg(start_col, end_col)); print_contents(); prints(DELIMITER_CHAR "\n"); } void alphabetic_text_entry::simple_print(int) { printfs("\\h'|\\n[%1]u'", column_start_reg(start_col)); printfs("\\h'\\n[%1]u-\\n[%2]u/2u'", span_width_reg(start_col, end_col), span_alphabetic_width_reg(start_col, end_col)); print_contents(); } // The only point of this is to make `\a' ``work'' as in Unix tbl. Grrr. void alphabetic_text_entry::add_tab() { printfs(" \\n[%1]u", column_end_reg(end_col)); } block_entry::block_entry(char *s, const entry_modifier *m) : table_entry(m), contents(s) { } block_entry::~block_entry() { a_delete contents; } void block_entry::position_vertically() { if (start_row != end_row) switch(mod->vertical_alignment) { case entry_modifier::TOP: printfs(".sp |\\n[%1]u\n", row_start_reg(start_row)); break; case entry_modifier::CENTER: // Peform the motion in two stages so that the center is rounded // vertically upwards even if net vertical motion is upwards. printfs(".sp |\\n[%1]u\n", row_start_reg(start_row)); printfs(".sp \\n[" BOTTOM_REG "]u-\\n[%1]u-\\n[%2]u/2u\n", row_start_reg(start_row), block_height_reg(start_row, start_col)); break; case entry_modifier::BOTTOM: printfs(".sp |\\n[%1]u+\\n[" BOTTOM_REG "]u-\\n[%1]u-\\n[%2]u\n", row_start_reg(start_row), block_height_reg(start_row, start_col)); break; default: assert(0); } if (mod->stagger) prints(".sp -.5v\n"); } int block_entry::divert(int ncols, const string *mw, int *sep) { do_divert(0, ncols, mw, sep); return 1; } void block_entry::do_divert(int alphabetic, int ncols, const string *mw, int *sep) { printfs(".di %1\n", block_diversion_name(start_row, start_col)); prints(".if \\n[" SAVED_FILL_REG "] .fi\n" ".in 0\n"); prints(".ll "); int i; for (i = start_col; i <= end_col; i++) if (mw[i].empty()) break; if (i > end_col) { // Every column spanned by this entry has a minimum width. for (int j = start_col; j <= end_col; j++) { if (j > start_col) { if (sep) printfs("+%1n", as_string(sep[j - 1])); prints('+'); } printfs("(n;%1)", mw[j]); } printfs(">?\\n[%1]u", span_width_reg(start_col, end_col)); } else printfs("(u;\\n[%1]>?(\\n[.l]*%2/%3))", span_width_reg(start_col, end_col), as_string(end_col - start_col + 1), as_string(ncols + 1)); if (alphabetic) prints("-2n"); prints("\n"); set_modifier(mod); prints(".cp \\n(" COMPATIBLE_REG "\n"); set_location(); prints(contents); prints(".br\n.di\n.cp 0\n"); if (!mod->zero_width) { if (alphabetic) { printfs(".nr %1 \\n[%1]>?(\\n[dl]+2n)\n", span_width_reg(start_col, end_col)); printfs(".nr %1 \\n[%1]>?\\n[dl]\n", span_alphabetic_width_reg(start_col, end_col)); } else printfs(".nr %1 \\n[%1]>?\\n[dl]\n", span_width_reg(start_col, end_col)); } printfs(".nr %1 \\n[dn]\n", block_height_reg(start_row, start_col)); printfs(".nr %1 \\n[dl]\n", block_width_reg(start_row, start_col)); prints("." RESET_MACRO_NAME "\n" ".in \\n[" SAVED_INDENT_REG "]u\n" ".nf\n"); // the block might have contained .lf commands location_force_filename = 1; } void block_entry::do_width() { // do nothing; the action happens in divert } void block_entry::do_depth() { printfs(".nr " BOTTOM_REG " \\n[" BOTTOM_REG "]>?(\\n[%1]+\\n[%2])\n", row_start_reg(start_row), block_height_reg(start_row, start_col)); } left_block_entry::left_block_entry(char *s, const entry_modifier *m) : block_entry(s, m) { } void left_block_entry::print() { printfs(".in +\\n[%1]u\n", column_start_reg(start_col)); printfs(".%1\n", block_diversion_name(start_row, start_col)); prints(".in\n"); } right_block_entry::right_block_entry(char *s, const entry_modifier *m) : block_entry(s, m) { } void right_block_entry::print() { printfs(".in +\\n[%1]u+\\n[%2]u-\\n[%3]u\n", column_start_reg(start_col), span_width_reg(start_col, end_col), block_width_reg(start_row, start_col)); printfs(".%1\n", block_diversion_name(start_row, start_col)); prints(".in\n"); } center_block_entry::center_block_entry(char *s, const entry_modifier *m) : block_entry(s, m) { } void center_block_entry::print() { printfs(".in +\\n[%1]u+(\\n[%2]u-\\n[%3]u/2u)\n", column_start_reg(start_col), span_width_reg(start_col, end_col), block_width_reg(start_row, start_col)); printfs(".%1\n", block_diversion_name(start_row, start_col)); prints(".in\n"); } alphabetic_block_entry::alphabetic_block_entry(char *s, const entry_modifier *m) : block_entry(s, m) { } int alphabetic_block_entry::divert(int ncols, const string *mw, int *sep) { do_divert(1, ncols, mw, sep); return 1; } void alphabetic_block_entry::print() { printfs(".in +\\n[%1]u+(\\n[%2]u-\\n[%3]u/2u)\n", column_start_reg(start_col), span_width_reg(start_col, end_col), span_alphabetic_width_reg(start_col, end_col)); printfs(".%1\n", block_diversion_name(start_row, start_col)); prints(".in\n"); } line_entry::line_entry(const entry_modifier *m) : simple_entry(m), double_vrule_on_right(0), double_vrule_on_left(0) { } void line_entry::note_double_vrule_on_right(int is_corner) { double_vrule_on_right = is_corner ? 1 : 2; } void line_entry::note_double_vrule_on_left(int is_corner) { double_vrule_on_left = is_corner ? 1 : 2; } single_line_entry::single_line_entry(const entry_modifier *m) : line_entry(m) { } int single_line_entry::line_type() { return 1; } void single_line_entry::simple_print(int dont_move) { printfs("\\h'|\\n[%1]u", column_divide_reg(start_col)); if (double_vrule_on_left) { prints(double_vrule_on_left == 1 ? "-" : "+"); prints(HALF_DOUBLE_LINE_SEP); } prints("'"); if (!dont_move) prints("\\v'-" BAR_HEIGHT "'"); printfs("\\s[\\n[" LINESIZE_REG "]]" "\\D'l |\\n[%1]u", column_divide_reg(end_col+1)); if (double_vrule_on_right) { prints(double_vrule_on_left == 1 ? "+" : "-"); prints(HALF_DOUBLE_LINE_SEP); } prints("0'\\s0"); if (!dont_move) prints("\\v'" BAR_HEIGHT "'"); } single_line_entry *single_line_entry::to_single_line_entry() { return this; } double_line_entry::double_line_entry(const entry_modifier *m) : line_entry(m) { } int double_line_entry::line_type() { return 2; } void double_line_entry::simple_print(int dont_move) { if (!dont_move) prints("\\v'-" BAR_HEIGHT "'"); printfs("\\h'|\\n[%1]u", column_divide_reg(start_col)); if (double_vrule_on_left) { prints(double_vrule_on_left == 1 ? "-" : "+"); prints(HALF_DOUBLE_LINE_SEP); } prints("'"); printfs("\\v'-" HALF_DOUBLE_LINE_SEP "'" "\\s[\\n[" LINESIZE_REG "]]" "\\D'l |\\n[%1]u", column_divide_reg(end_col+1)); if (double_vrule_on_right) prints("-" HALF_DOUBLE_LINE_SEP); prints(" 0'"); printfs("\\v'" DOUBLE_LINE_SEP "'" "\\D'l |\\n[%1]u", column_divide_reg(start_col)); if (double_vrule_on_right) { prints(double_vrule_on_left == 1 ? "+" : "-"); prints(HALF_DOUBLE_LINE_SEP); } prints(" 0'"); prints("\\s0" "\\v'-" HALF_DOUBLE_LINE_SEP "'"); if (!dont_move) prints("\\v'" BAR_HEIGHT "'"); } double_line_entry *double_line_entry::to_double_line_entry() { return this; } short_line_entry::short_line_entry(const entry_modifier *m) : simple_entry(m) { } int short_line_entry::line_type() { return 1; } void short_line_entry::simple_print(int dont_move) { if (mod->stagger) prints("\\v'-.5v'"); if (!dont_move) prints("\\v'-" BAR_HEIGHT "'"); printfs("\\h'|\\n[%1]u'", column_start_reg(start_col)); printfs("\\s[\\n[" LINESIZE_REG "]]" "\\D'l \\n[%1]u 0'" "\\s0", span_width_reg(start_col, end_col)); if (!dont_move) prints("\\v'" BAR_HEIGHT "'"); if (mod->stagger) prints("\\v'.5v'"); } short_double_line_entry::short_double_line_entry(const entry_modifier *m) : simple_entry(m) { } int short_double_line_entry::line_type() { return 2; } void short_double_line_entry::simple_print(int dont_move) { if (mod->stagger) prints("\\v'-.5v'"); if (!dont_move) prints("\\v'-" BAR_HEIGHT "'"); printfs("\\h'|\\n[%2]u'" "\\v'-" HALF_DOUBLE_LINE_SEP "'" "\\s[\\n[" LINESIZE_REG "]]" "\\D'l \\n[%1]u 0'" "\\v'" DOUBLE_LINE_SEP "'" "\\D'l |\\n[%2]u 0'" "\\s0" "\\v'-" HALF_DOUBLE_LINE_SEP "'", span_width_reg(start_col, end_col), column_start_reg(start_col)); if (!dont_move) prints("\\v'" BAR_HEIGHT "'"); if (mod->stagger) prints("\\v'.5v'"); } void set_modifier(const entry_modifier *m) { if (!m->font.empty()) printfs(".ft %1\n", m->font); if (m->point_size.val != 0) { prints(".ps "); if (m->point_size.inc > 0) prints('+'); else if (m->point_size.inc < 0) prints('-'); printfs("%1\n", as_string(m->point_size.val)); } if (m->vertical_spacing.val != 0) { prints(".vs "); if (m->vertical_spacing.inc > 0) prints('+'); else if (m->vertical_spacing.inc < 0) prints('-'); printfs("%1\n", as_string(m->vertical_spacing.val)); } } void set_inline_modifier(const entry_modifier *m) { if (!m->font.empty()) printfs("\\f[%1]", m->font); if (m->point_size.val != 0) { prints("\\s["); if (m->point_size.inc > 0) prints('+'); else if (m->point_size.inc < 0) prints('-'); printfs("%1]", as_string(m->point_size.val)); } if (m->stagger) prints("\\v'-.5v'"); } void restore_inline_modifier(const entry_modifier *m) { if (!m->font.empty()) prints("\\f[\\n[" SAVED_FONT_REG "]]"); if (m->point_size.val != 0) prints("\\s[\\n[" SAVED_SIZE_REG "]]"); if (m->stagger) prints("\\v'.5v'"); } struct stuff { stuff *next; int row; // occurs before row `row' char printed; // has it been printed? stuff(int); virtual void print(table *) = 0; virtual ~stuff(); virtual int is_single_line() { return 0; }; virtual int is_double_line() { return 0; }; }; stuff::stuff(int r) : row(r), next(0), printed(0) { } stuff::~stuff() { } struct text_stuff : public stuff { string contents; const char *filename; int lineno; text_stuff(const string &, int r, const char *fn, int ln); ~text_stuff(); void print(table *); }; text_stuff::text_stuff(const string &s, int r, const char *fn, int ln) : contents(s), stuff(r), filename(fn), lineno(ln) { } text_stuff::~text_stuff() { } void text_stuff::print(table *) { printed = 1; prints(".cp \\n(" COMPATIBLE_REG "\n"); set_troff_location(filename, lineno); prints(contents); prints(".cp 0\n"); location_force_filename = 1; // it might have been a .lf command } struct single_hline_stuff : public stuff { single_hline_stuff(int r); void print(table *); int is_single_line(); }; single_hline_stuff::single_hline_stuff(int r) : stuff(r) { } void single_hline_stuff::print(table *tbl) { printed = 1; tbl->print_single_hline(row); } int single_hline_stuff::is_single_line() { return 1; } struct double_hline_stuff : stuff { double_hline_stuff(int r); void print(table *); int is_double_line(); }; double_hline_stuff::double_hline_stuff(int r) : stuff(r) { } void double_hline_stuff::print(table *tbl) { printed = 1; tbl->print_double_hline(row); } int double_hline_stuff::is_double_line() { return 1; } struct vertical_rule { vertical_rule *next; int start_row; int end_row; short col; char is_double; string top_adjust; string bot_adjust; vertical_rule(int sr, int er, int c, int dbl, vertical_rule *); ~vertical_rule(); void contribute_to_bottom_macro(table *); void print(); }; vertical_rule::vertical_rule(int sr, int er, int c, int dbl, vertical_rule *p) : start_row(sr), end_row(er), col(c), is_double(dbl), next(p) { } vertical_rule::~vertical_rule() { } void vertical_rule::contribute_to_bottom_macro(table *tbl) { printfs(".if \\n[" CURRENT_ROW_REG "]>=%1", as_string(start_row)); if (end_row != tbl->get_nrows() - 1) printfs("&(\\n[" CURRENT_ROW_REG "]<%1)", as_string(end_row)); prints(" \\{"); printfs(".if %1<=\\n[" LAST_PASSED_ROW_REG "] .nr %2 \\n[#T]\n", as_string(start_row), row_top_reg(start_row)); const char *offset_table[3]; if (is_double) { offset_table[0] = "-" HALF_DOUBLE_LINE_SEP; offset_table[1] = "+" HALF_DOUBLE_LINE_SEP; offset_table[2] = 0; } else { offset_table[0] = ""; offset_table[1] = 0; } for (const char **offsetp = offset_table; *offsetp; offsetp++) { prints(".sp -1\n" "\\v'" BODY_DEPTH); if (!bot_adjust.empty()) printfs("+%1", bot_adjust); prints("'"); printfs("\\h'\\n[%1]u%3'\\s[\\n[" LINESIZE_REG "]]\\D'l 0 |\\n[%2]u-1v", column_divide_reg(col), row_top_reg(start_row), *offsetp); if (!bot_adjust.empty()) printfs("-(%1)", bot_adjust); // don't perform the top adjustment if the top is actually #T if (!top_adjust.empty()) printfs("+((%1)*(%2>\\n[" LAST_PASSED_ROW_REG "]))", top_adjust, as_string(start_row)); prints("'\\s0\n"); } prints(".\\}\n"); } void vertical_rule::print() { printfs("\\*[" TRANSPARENT_STRING_NAME "]" ".if %1<=\\*[" QUOTE_STRING_NAME "]\\n[" LAST_PASSED_ROW_REG "] " ".nr %2 \\*[" QUOTE_STRING_NAME "]\\n[#T]\n", as_string(start_row), row_top_reg(start_row)); const char *offset_table[3]; if (is_double) { offset_table[0] = "-" HALF_DOUBLE_LINE_SEP; offset_table[1] = "+" HALF_DOUBLE_LINE_SEP; offset_table[2] = 0; } else { offset_table[0] = ""; offset_table[1] = 0; } for (const char **offsetp = offset_table; *offsetp; offsetp++) { prints("\\*[" TRANSPARENT_STRING_NAME "].sp -1\n" "\\*[" TRANSPARENT_STRING_NAME "]\\v'" BODY_DEPTH); if (!bot_adjust.empty()) printfs("+%1", bot_adjust); prints("'"); printfs("\\h'\\n[%1]u%3'" "\\s[\\n[" LINESIZE_REG "]]" "\\D'l 0 |\\*[" QUOTE_STRING_NAME "]\\n[%2]u-1v", column_divide_reg(col), row_top_reg(start_row), *offsetp); if (!bot_adjust.empty()) printfs("-(%1)", bot_adjust); // don't perform the top adjustment if the top is actually #T if (!top_adjust.empty()) printfs("+((%1)*(%2>\\*[" QUOTE_STRING_NAME "]\\n[" LAST_PASSED_ROW_REG "]))", top_adjust, as_string(start_row)); prints("'" "\\s0\n"); } } table::table(int nc, unsigned f, int ls, char dpc) : ncolumns(nc), flags(f), linesize(ls), decimal_point_char(dpc), nrows(0), allocated_rows(0), entry(0), entry_list(0), entry_list_tailp(&entry_list), left_separation(0), right_separation(0), stuff_list(0), vline(0), vrule_list(0), row_is_all_lines(0), span_list(0) { minimum_width = new string[ncolumns]; column_separation = ncolumns > 1 ? new int[ncolumns - 1] : 0; equal = new char[ncolumns]; int i; for (i = 0; i < ncolumns; i++) equal[i] = 0; for (i = 0; i < ncolumns-1; i++) column_separation[i] = DEFAULT_COLUMN_SEPARATION; delim[0] = delim[1] = '\0'; } table::~table() { for (int i = 0; i < nrows; i++) { a_delete entry[i]; a_delete vline[i]; } a_delete entry; a_delete vline; while (entry_list) { table_entry *tem = entry_list; entry_list = entry_list->next; delete tem; } ad_delete(ncolumns) minimum_width; a_delete column_separation; a_delete equal; while (stuff_list) { stuff *tem = stuff_list; stuff_list = stuff_list->next; delete tem; } while (vrule_list) { vertical_rule *tem = vrule_list; vrule_list = vrule_list->next; delete tem; } a_delete row_is_all_lines; while (span_list) { horizontal_span *tem = span_list; span_list = span_list->next; delete tem; } } void table::set_delim(char c1, char c2) { delim[0] = c1; delim[1] = c2; } void table::set_minimum_width(int c, const string &w) { assert(c >= 0 && c < ncolumns); minimum_width[c] = w; } void table::set_column_separation(int c, int n) { assert(c >= 0 && c < ncolumns - 1); column_separation[c] = n; } void table::set_equal_column(int c) { assert(c >= 0 && c < ncolumns); equal[c] = 1; } void table::add_stuff(stuff *p) { stuff **pp; for (pp = &stuff_list; *pp; pp = &(*pp)->next) ; *pp = p; } void table::add_text_line(int r, const string &s, const char *filename, int lineno) { add_stuff(new text_stuff(s, r, filename, lineno)); } void table::add_single_hline(int r) { add_stuff(new single_hline_stuff(r)); } void table::add_double_hline(int r) { add_stuff(new double_hline_stuff(r)); } void table::allocate(int r) { if (r >= nrows) { typedef table_entry **PPtable_entry; // work around g++ 1.36.1 bug if (r >= allocated_rows) { if (allocated_rows == 0) { allocated_rows = 16; if (allocated_rows <= r) allocated_rows = r + 1; entry = new PPtable_entry[allocated_rows]; vline = new char*[allocated_rows]; } else { table_entry ***old_entry = entry; int old_allocated_rows = allocated_rows; allocated_rows *= 2; if (allocated_rows <= r) allocated_rows = r + 1; entry = new PPtable_entry[allocated_rows]; memcpy(entry, old_entry, sizeof(table_entry**)*old_allocated_rows); a_delete old_entry; char **old_vline = vline; vline = new char*[allocated_rows]; memcpy(vline, old_vline, sizeof(char*)*old_allocated_rows); a_delete old_vline; } } assert(allocated_rows > r); while (nrows <= r) { entry[nrows] = new table_entry*[ncolumns]; int i; for (i = 0; i < ncolumns; i++) entry[nrows][i] = 0; vline[nrows] = new char[ncolumns+1]; for (i = 0; i < ncolumns+1; i++) vline[nrows][i] = 0; nrows++; } } } void table::do_hspan(int r, int c) { assert(r >= 0 && c >= 0 && r < nrows && c < ncolumns); if (c == 0) { error("first column cannot be horizontally spanned"); return; } table_entry *e = entry[r][c]; if (e) { assert(e->start_row <= r && r <= e->end_row && e->start_col <= c && c <= e->end_col && e->end_row - e->start_row > 0 && e->end_col - e->start_col > 0); return; } e = entry[r][c-1]; // e can be 0 if we had an empty entry or an error if (e == 0) return; if (e->start_row != r) { /* l l ^ s */ error("impossible horizontal span at row %1, column %2", r + 1, c + 1); } else { e->end_col = c; entry[r][c] = e; } } void table::do_vspan(int r, int c) { assert(r >= 0 && c >= 0 && r < nrows && c < ncolumns); if (r == 0) { error("first row cannot be vertically spanned"); return; } table_entry *e = entry[r][c]; if (e) { assert(e->start_row <= r && r <= e->end_row && e->start_col <= c && c <= e->end_col && e->end_row - e->start_row > 0 && e->end_col - e->start_col > 0); return; } e = entry[r-1][c]; // e can be 0 if we had an empty entry or an error if (e == 0) return; if (e->start_col != c) { /* l s l ^ */ error("impossible vertical span at row %1, column %2", r + 1, c + 1); } else { for (int i = c; i <= e->end_col; i++) { assert(entry[r][i] == 0); entry[r][i] = e; } e->end_row = r; } } int find_decimal_point(const char *s, char decimal_point_char, const char *delim) { if (s == 0 || *s == '\0') return -1; const char *p; int in_delim = 0; // is p within eqn delimiters? // tbl recognises \& even within eqn delimiters; I don't for (p = s; *p; p++) if (in_delim) { if (*p == delim[1]) in_delim = 0; } else if (*p == delim[0]) in_delim = 1; else if (p[0] == '\\' && p[1] == '&') return p - s; int possible_pos = -1; in_delim = 0; for (p = s; *p; p++) if (in_delim) { if (*p == delim[1]) in_delim = 0; } else if (*p == delim[0]) in_delim = 1; else if (p[0] == decimal_point_char && csdigit(p[1])) possible_pos = p - s; if (possible_pos >= 0) return possible_pos; in_delim = 0; for (p = s; *p; p++) if (in_delim) { if (*p == delim[1]) in_delim = 0; } else if (*p == delim[0]) in_delim = 1; else if (csdigit(*p)) possible_pos = p + 1 - s; return possible_pos; } void table::add_entry(int r, int c, const string &str, const entry_format *f, const char *fn, int ln) { allocate(r); table_entry *e = 0; if (str == "\\_") { e = new short_line_entry(f); } else if (str == "\\=") { e = new short_double_line_entry(f); } else if (str == "_") { single_line_entry *lefte; if (c > 0 && entry[r][c-1] != 0 && (lefte = entry[r][c-1]->to_single_line_entry()) != 0 && lefte->start_row == r && lefte->mod->stagger == f->stagger) { lefte->end_col = c; entry[r][c] = lefte; } else e = new single_line_entry(f); } else if (str == "=") { double_line_entry *lefte; if (c > 0 && entry[r][c-1] != 0 && (lefte = entry[r][c-1]->to_double_line_entry()) != 0 && lefte->start_row == r && lefte->mod->stagger == f->stagger) { lefte->end_col = c; entry[r][c] = lefte; } else e = new double_line_entry(f); } else if (str == "\\^") { do_vspan(r, c); } else if (str.length() > 2 && str[0] == '\\' && str[1] == 'R') { if (str.search('\n') >= 0) error_with_file_and_line(fn, ln, "bad repeated character"); else { char *s = str.substring(2, str.length() - 2).extract(); e = new repeated_char_entry(s, f); } } else { int is_block = str.search('\n') >= 0; char *s; switch (f->type) { case FORMAT_SPAN: assert(str.empty()); do_hspan(r, c); break; case FORMAT_LEFT: if (!str.empty()) { s = str.extract(); if (is_block) e = new left_block_entry(s, f); else e = new left_text_entry(s, f); } else e = new empty_entry(f); break; case FORMAT_CENTER: if (!str.empty()) { s = str.extract(); if (is_block) e = new center_block_entry(s, f); else e = new center_text_entry(s, f); } else e = new empty_entry(f); break; case FORMAT_RIGHT: if (!str.empty()) { s = str.extract(); if (is_block) e = new right_block_entry(s, f); else e = new right_text_entry(s, f); } else e = new empty_entry(f); break; case FORMAT_NUMERIC: if (!str.empty()) { s = str.extract(); if (is_block) { error_with_file_and_line(fn, ln, "can't have numeric text block"); e = new left_block_entry(s, f); } else { int pos = find_decimal_point(s, decimal_point_char, delim); if (pos < 0) e = new center_text_entry(s, f); else e = new numeric_text_entry(s, f, pos); } } else e = new empty_entry(f); break; case FORMAT_ALPHABETIC: if (!str.empty()) { s = str.extract(); if (is_block) e = new alphabetic_block_entry(s, f); else e = new alphabetic_text_entry(s, f); } else e = new empty_entry(f); break; case FORMAT_VSPAN: do_vspan(r, c); break; case FORMAT_HLINE: if (str.length() != 0) error_with_file_and_line(fn, ln, "non-empty data entry for `_' format ignored"); e = new single_line_entry(f); break; case FORMAT_DOUBLE_HLINE: if (str.length() != 0) error_with_file_and_line(fn, ln, "non-empty data entry for `=' format ignored"); e = new double_line_entry(f); break; default: assert(0); } } if (e) { table_entry *preve = entry[r][c]; if (preve) { /* c s ^ l */ error_with_file_and_line(fn, ln, "row %1, column %2 already spanned", r + 1, c + 1); delete e; } else { e->input_lineno = ln; e->input_filename = fn; e->start_row = e->end_row = r; e->start_col = e->end_col = c; *entry_list_tailp = e; entry_list_tailp = &e->next; entry[r][c] = e; } } } // add vertical lines for row r void table::add_vlines(int r, const char *v) { allocate(r); for (int i = 0; i < ncolumns+1; i++) vline[r][i] = v[i]; } void table::check() { table_entry *p = entry_list; int i, j; while (p) { for (i = p->start_row; i <= p->end_row; i++) for (j = p->start_col; j <= p->end_col; j++) assert(entry[i][j] == p); p = p->next; } } void table::print() { location_force_filename = 1; check(); init_output(); determine_row_type(); compute_widths(); if (!(flags & CENTER)) prints(".if \\n[" SAVED_CENTER_REG "] \\{"); prints(".in +(u;\\n[.l]-\\n[.i]-\\n[TW]/2)\n" ".nr " SAVED_INDENT_REG " \\n[.i]\n"); if (!(flags & CENTER)) prints(".\\}\n"); build_vrule_list(); define_bottom_macro(); do_top(); for (int i = 0; i < nrows; i++) do_row(i); do_bottom(); } void table::determine_row_type() { row_is_all_lines = new char[nrows]; for (int i = 0; i < nrows; i++) { int had_single = 0; int had_double = 0; int had_non_line = 0; for (int c = 0; c < ncolumns; c++) { table_entry *e = entry[i][c]; if (e != 0) { if (e->start_row == e->end_row) { int t = e->line_type(); switch (t) { case -1: had_non_line = 1; break; case 0: // empty break; case 1: had_single = 1; break; case 2: had_double = 1; break; default: assert(0); } if (had_non_line) break; } c = e->end_col; } } if (had_non_line) row_is_all_lines[i] = 0; else if (had_double) row_is_all_lines[i] = 2; else if (had_single) row_is_all_lines[i] = 1; else row_is_all_lines[i] = 0; } } void table::init_output() { prints(".nr " COMPATIBLE_REG " \\n(.C\n" ".cp 0\n"); if (linesize > 0) printfs(".nr " LINESIZE_REG " %1\n", as_string(linesize)); else prints(".nr " LINESIZE_REG " \\n[.s]\n"); if (!(flags & CENTER)) prints(".nr " SAVED_CENTER_REG " \\n[.ce]\n"); prints(".de " RESET_MACRO_NAME "\n" ".ft \\n[.f]\n" ".ps \\n[.s]\n" ".vs \\n[.v]u\n" ".in \\n[.i]u\n" ".ll \\n[.l]u\n" ".ls \\n[.L]\n" ".ad \\n[.j]\n" ".ie \\n[.u] .fi\n" ".el .nf\n" ".ce \\n[.ce]\n" "..\n" ".nr " SAVED_INDENT_REG " \\n[.i]\n" ".nr " SAVED_FONT_REG " \\n[.f]\n" ".nr " SAVED_SIZE_REG " \\n[.s]\n" ".nr " SAVED_FILL_REG " \\n[.u]\n" ".nr T. 0\n" ".nr " CURRENT_ROW_REG " 0-1\n" ".nr " LAST_PASSED_ROW_REG " 0-1\n" ".nr " SECTION_DIVERSION_FLAG_REG " 0\n" ".ds " TRANSPARENT_STRING_NAME "\n" ".ds " QUOTE_STRING_NAME "\n" ".nr " NEED_BOTTOM_RULE_REG " 1\n" ".nr " SUPPRESS_BOTTOM_REG " 0\n" ".eo\n" ".de " REPEATED_MARK_MACRO "\n" ".mk \\$1\n" ".if !'\\n(.z'' \\!." REPEATED_MARK_MACRO " \"\\$1\"\n" "..\n" ".de " REPEATED_VPT_MACRO "\n" ".vpt \\$1\n" ".if !'\\n(.z'' \\!." REPEATED_VPT_MACRO " \"\\$1\"\n" "..\n"); if (!(flags & NOKEEP)) prints(".de " KEEP_MACRO_NAME "\n" ".if '\\n[.z]'' \\{.ds " QUOTE_STRING_NAME " \\\\\n" ".ds " TRANSPARENT_STRING_NAME " \\!\n" ".di " SECTION_DIVERSION_NAME "\n" ".nr " SECTION_DIVERSION_FLAG_REG " 1\n" ".in 0\n" ".\\}\n" "..\n" ".de " RELEASE_MACRO_NAME "\n" ".if \\n[" SECTION_DIVERSION_FLAG_REG "] \\{" ".di\n" ".in \\n[" SAVED_INDENT_REG "]u\n" ".nr " SAVED_DN_REG " \\n[dn]\n" ".ds " QUOTE_STRING_NAME "\n" ".ds " TRANSPARENT_STRING_NAME "\n" ".nr " SECTION_DIVERSION_FLAG_REG " 0\n" ".if \\n[.t]<=\\n[dn] \\{" ".nr T. 1\n" ".T#\n" ".nr " SUPPRESS_BOTTOM_REG " 1\n" ".sp \\n[.t]u\n" ".nr " SUPPRESS_BOTTOM_REG " 0\n" ".mk #T\n" ".\\}\n" ".if \\n[.t]<=\\n[" SAVED_DN_REG "] " /* Since we turn off traps, it won't get into an infinite loop when we try and print it; it will just go off the bottom of the page. */ ".tm warning: page \\n%: table text block will not fit on one page\n" ".nf\n" ".ls 1\n" "." SECTION_DIVERSION_NAME "\n" ".ls\n" ".rm " SECTION_DIVERSION_NAME "\n" ".\\}\n" "..\n" ".nr " TABLE_DIVERSION_FLAG_REG " 0\n" ".de " TABLE_KEEP_MACRO_NAME "\n" ".if '\\n[.z]'' \\{" ".di " TABLE_DIVERSION_NAME "\n" ".nr " TABLE_DIVERSION_FLAG_REG " 1\n" ".\\}\n" "..\n" ".de " TABLE_RELEASE_MACRO_NAME "\n" ".if \\n[" TABLE_DIVERSION_FLAG_REG "] \\{.br\n" ".di\n" ".nr " SAVED_DN_REG " \\n[dn]\n" ".ne \\n[dn]u+\\n[.V]u\n" ".ie \\n[.t]<=\\n[" SAVED_DN_REG "] " ".tm error: page \\n%: table will not fit on one page; use .TS H/.TH with a supporting macro package\n" ".el \\{" ".in 0\n" ".ls 1\n" ".nf\n" "." TABLE_DIVERSION_NAME "\n" ".\\}\n" ".rm " TABLE_DIVERSION_NAME "\n" ".\\}\n" "..\n"); prints(".ec\n" ".ce 0\n" ".nf\n"); } string block_width_reg(int r, int c) { static char name[sizeof(BLOCK_WIDTH_PREFIX)+INT_DIGITS+1+INT_DIGITS]; sprintf(name, BLOCK_WIDTH_PREFIX "%d,%d", r, c); return string(name); } string block_diversion_name(int r, int c) { static char name[sizeof(BLOCK_DIVERSION_PREFIX)+INT_DIGITS+1+INT_DIGITS]; sprintf(name, BLOCK_DIVERSION_PREFIX "%d,%d", r, c); return string(name); } string block_height_reg(int r, int c) { static char name[sizeof(BLOCK_HEIGHT_PREFIX)+INT_DIGITS+1+INT_DIGITS]; sprintf(name, BLOCK_HEIGHT_PREFIX "%d,%d", r, c); return string(name); } string span_width_reg(int start_col, int end_col) { static char name[sizeof(SPAN_WIDTH_PREFIX)+INT_DIGITS+1+INT_DIGITS]; sprintf(name, SPAN_WIDTH_PREFIX "%d", start_col); if (end_col != start_col) sprintf(strchr(name, '\0'), ",%d", end_col); return string(name); } string span_left_numeric_width_reg(int start_col, int end_col) { static char name[sizeof(SPAN_LEFT_NUMERIC_WIDTH_PREFIX)+INT_DIGITS+1+INT_DIGITS]; sprintf(name, SPAN_LEFT_NUMERIC_WIDTH_PREFIX "%d", start_col); if (end_col != start_col) sprintf(strchr(name, '\0'), ",%d", end_col); return string(name); } string span_right_numeric_width_reg(int start_col, int end_col) { static char name[sizeof(SPAN_RIGHT_NUMERIC_WIDTH_PREFIX)+INT_DIGITS+1+INT_DIGITS]; sprintf(name, SPAN_RIGHT_NUMERIC_WIDTH_PREFIX "%d", start_col); if (end_col != start_col) sprintf(strchr(name, '\0'), ",%d", end_col); return string(name); } string span_alphabetic_width_reg(int start_col, int end_col) { static char name[sizeof(SPAN_ALPHABETIC_WIDTH_PREFIX)+INT_DIGITS+1+INT_DIGITS]; sprintf(name, SPAN_ALPHABETIC_WIDTH_PREFIX "%d", start_col); if (end_col != start_col) sprintf(strchr(name, '\0'), ",%d", end_col); return string(name); } string column_separation_reg(int col) { static char name[sizeof(COLUMN_SEPARATION_PREFIX)+INT_DIGITS]; sprintf(name, COLUMN_SEPARATION_PREFIX "%d", col); return string(name); } string row_start_reg(int row) { static char name[sizeof(ROW_START_PREFIX)+INT_DIGITS]; sprintf(name, ROW_START_PREFIX "%d", row); return string(name); } string column_start_reg(int col) { static char name[sizeof(COLUMN_START_PREFIX)+INT_DIGITS]; sprintf(name, COLUMN_START_PREFIX "%d", col); return string(name); } string column_end_reg(int col) { static char name[sizeof(COLUMN_END_PREFIX)+INT_DIGITS]; sprintf(name, COLUMN_END_PREFIX "%d", col); return string(name); } string column_divide_reg(int col) { static char name[sizeof(COLUMN_DIVIDE_PREFIX)+INT_DIGITS]; sprintf(name, COLUMN_DIVIDE_PREFIX "%d", col); return string(name); } string row_top_reg(int row) { static char name[sizeof(ROW_TOP_PREFIX)+INT_DIGITS]; sprintf(name, ROW_TOP_PREFIX "%d", row); return string(name); } void init_span_reg(int start_col, int end_col) { printfs(".nr %1 \\n(.H\n.nr %2 0\n.nr %3 0\n.nr %4 0\n", span_width_reg(start_col, end_col), span_alphabetic_width_reg(start_col, end_col), span_left_numeric_width_reg(start_col, end_col), span_right_numeric_width_reg(start_col, end_col)); } void compute_span_width(int start_col, int end_col) { printfs(".nr %1 \\n[%1]>?(\\n[%2]+\\n[%3])\n" ".if \\n[%4] .nr %1 \\n[%1]>?(\\n[%4]+2n)\n", span_width_reg(start_col, end_col), span_left_numeric_width_reg(start_col, end_col), span_right_numeric_width_reg(start_col, end_col), span_alphabetic_width_reg(start_col, end_col)); } // Increase the widths of columns so that the width of any spanning entry // is no greater than the sum of the widths of the columns that it spans. // Ensure that the widths of columns remain equal. void table::divide_span(int start_col, int end_col) { assert(end_col > start_col); printfs(".nr " NEEDED_REG " \\n[%1]-(\\n[%2]", span_width_reg(start_col, end_col), span_width_reg(start_col, start_col)); int i; for (i = start_col + 1; i <= end_col; i++) { // The column separation may shrink with the expand option. if (!(flags & EXPAND)) printfs("+%1n", as_string(column_separation[i - 1])); printfs("+\\n[%1]", span_width_reg(i, i)); } prints(")\n"); printfs(".nr " NEEDED_REG " \\n[" NEEDED_REG "]/%1\n", as_string(end_col - start_col + 1)); prints(".if \\n[" NEEDED_REG "] \\{"); for (i = start_col; i <= end_col; i++) printfs(".nr %1 +\\n[" NEEDED_REG "]\n", span_width_reg(i, i)); int equal_flag = 0; for (i = start_col; i <= end_col && !equal_flag; i++) if (equal[i]) equal_flag = 1; if (equal_flag) { for (i = 0; i < ncolumns; i++) if (i < start_col || i > end_col) printfs(".nr %1 +\\n[" NEEDED_REG "]\n", span_width_reg(i, i)); } prints(".\\}\n"); } void table::sum_columns(int start_col, int end_col) { assert(end_col > start_col); printfs(".nr %1 \\n[%2]", span_width_reg(start_col, end_col), span_width_reg(start_col, start_col)); for (int i = start_col + 1; i <= end_col; i++) printfs("+(%1*\\n[" SEPARATION_FACTOR_REG "])+\\n[%2]", as_string(column_separation[i - 1]), span_width_reg(i, i)); prints('\n'); } horizontal_span::horizontal_span(int sc, int ec, horizontal_span *p) : start_col(sc), end_col(ec), next(p) { } void table::build_span_list() { span_list = 0; table_entry *p = entry_list; while (p) { if (p->end_col != p->start_col) { horizontal_span *q; for (q = span_list; q; q = q->next) if (q->start_col == p->start_col && q->end_col == p->end_col) break; if (!q) span_list = new horizontal_span(p->start_col, p->end_col, span_list); } p = p->next; } // Now sort span_list primarily by order of end_row, and secondarily // by reverse order of start_row. This ensures that if we divide // spans using the order in span_list, we will get reasonable results. horizontal_span *unsorted = span_list; span_list = 0; while (unsorted) { horizontal_span **pp; for (pp = &span_list; *pp; pp = &(*pp)->next) if (unsorted->end_col < (*pp)->end_col || (unsorted->end_col == (*pp)->end_col && (unsorted->start_col > (*pp)->start_col))) break; horizontal_span *tem = unsorted->next; unsorted->next = *pp; *pp = unsorted; unsorted = tem; } } void table::compute_separation_factor() { if (flags & (ALLBOX|BOX|DOUBLEBOX)) left_separation = right_separation = 1; else { for (int i = 0; i < nrows; i++) { if (vline[i][0] > 0) left_separation = 1; if (vline[i][ncolumns] > 0) right_separation = 1; } } if (flags & EXPAND) { int total_sep = left_separation + right_separation; int i; for (i = 0; i < ncolumns - 1; i++) total_sep += column_separation[i]; if (total_sep != 0) { // Don't let the separation factor be negative. prints(".nr " SEPARATION_FACTOR_REG " \\n[.l]-\\n[.i]"); for (i = 0; i < ncolumns; i++) printfs("-\\n[%1]", span_width_reg(i, i)); printfs("/%1>?0\n", as_string(total_sep)); } } } void table::compute_column_positions() { printfs(".nr %1 0\n", column_divide_reg(0)); printfs(".nr %1 %2*\\n[" SEPARATION_FACTOR_REG "]\n", column_start_reg(0), as_string(left_separation)); int i; for (i = 1;; i++) { printfs(".nr %1 \\n[%2]+\\n[%3]\n", column_end_reg(i-1), column_start_reg(i-1), span_width_reg(i-1, i-1)); if (i >= ncolumns) break; printfs(".nr %1 \\n[%2]+(%3*\\n[" SEPARATION_FACTOR_REG "])\n", column_start_reg(i), column_end_reg(i-1), as_string(column_separation[i-1])); printfs(".nr %1 \\n[%2]+\\n[%3]/2\n", column_divide_reg(i), column_end_reg(i-1), column_start_reg(i)); } printfs(".nr %1 \\n[%2]+(%3*\\n[" SEPARATION_FACTOR_REG "])\n", column_divide_reg(ncolumns), column_end_reg(i-1), as_string(right_separation)); printfs(".nr TW \\n[%1]\n", column_divide_reg(ncolumns)); if (flags & DOUBLEBOX) { printfs(".nr %1 +" DOUBLE_LINE_SEP "\n", column_divide_reg(0)); printfs(".nr %1 -" DOUBLE_LINE_SEP "\n", column_divide_reg(ncolumns)); } } void table::make_columns_equal() { int first = -1; // index of first equal column int i; for (i = 0; i < ncolumns; i++) if (equal[i]) { if (first < 0) { printfs(".nr %1 \\n[%1]", span_width_reg(i, i)); first = i; } else printfs(">?\\n[%1]", span_width_reg(i, i)); } if (first >= 0) { prints('\n'); for (i = first + 1; i < ncolumns; i++) if (equal[i]) printfs(".nr %1 \\n[%2]\n", span_width_reg(i, i), span_width_reg(first, first)); } } void table::compute_widths() { build_span_list(); int i; horizontal_span *p; prints(".nr " SEPARATION_FACTOR_REG " 1n\n"); for (i = 0; i < ncolumns; i++) { init_span_reg(i, i); if (!minimum_width[i].empty()) printfs(".nr %1 %2\n", span_width_reg(i, i), minimum_width[i]); } for (p = span_list; p; p = p->next) init_span_reg(p->start_col, p->end_col); table_entry *q; for (q = entry_list; q; q = q->next) if (!q->mod->zero_width) q->do_width(); for (i = 0; i < ncolumns; i++) compute_span_width(i, i); for (p = span_list; p; p = p->next) compute_span_width(p->start_col, p->end_col); make_columns_equal(); // Note that divide_span keeps equal width columns equal. for (p = span_list; p; p = p->next) divide_span(p->start_col, p->end_col); for (p = span_list; p; p = p->next) sum_columns(p->start_col, p->end_col); int had_spanning_block = 0; int had_equal_block = 0; for (q = entry_list; q; q = q->next) if (q->divert(ncolumns, minimum_width, (flags & EXPAND) ? column_separation : 0)) { if (q->end_col > q->start_col) had_spanning_block = 1; for (i = q->start_col; i <= q->end_col && !had_equal_block; i++) if (equal[i]) had_equal_block = 1; } if (had_equal_block) make_columns_equal(); if (had_spanning_block) for (p = span_list; p; p = p->next) divide_span(p->start_col, p->end_col); compute_separation_factor(); for (p = span_list; p; p = p->next) sum_columns(p->start_col, p->end_col); compute_column_positions(); } void table::print_single_hline(int r) { prints(".vs " LINE_SEP ">?\\n[.V]u\n" ".ls 1\n" "\\v'" BODY_DEPTH "'" "\\s[\\n[" LINESIZE_REG "]]"); if (r > nrows - 1) prints("\\D'l |\\n[TW]u 0'"); else { int start_col = 0; for (;;) { while (start_col < ncolumns && entry[r][start_col] != 0 && entry[r][start_col]->start_row != r) start_col++; int end_col; for (end_col = start_col; end_col < ncolumns && (entry[r][end_col] == 0 || entry[r][end_col]->start_row == r); end_col++) ; if (end_col <= start_col) break; printfs("\\h'|\\n[%1]u", column_divide_reg(start_col)); if ((r > 0 && vline[r-1][start_col] == 2) || (r < nrows && vline[r][start_col] == 2)) prints("-" HALF_DOUBLE_LINE_SEP); prints("'"); printfs("\\D'l |\\n[%1]u", column_divide_reg(end_col)); if ((r > 0 && vline[r-1][end_col] == 2) || (r < nrows && vline[r][end_col] == 2)) prints("+" HALF_DOUBLE_LINE_SEP); prints(" 0'"); start_col = end_col; } } prints("\\s0\n"); prints(".ls\n" ".vs\n"); } void table::print_double_hline(int r) { prints(".vs " LINE_SEP "+" DOUBLE_LINE_SEP ">?\\n[.V]u\n" ".ls 1\n" "\\v'" BODY_DEPTH "'" "\\s[\\n[" LINESIZE_REG "]]"); if (r > nrows - 1) prints("\\v'-" DOUBLE_LINE_SEP "'" "\\D'l |\\n[TW]u 0'" "\\v'" DOUBLE_LINE_SEP "'" "\\h'|0'" "\\D'l |\\n[TW]u 0'"); else { int start_col = 0; for (;;) { while (start_col < ncolumns && entry[r][start_col] != 0 && entry[r][start_col]->start_row != r) start_col++; int end_col; for (end_col = start_col; end_col < ncolumns && (entry[r][end_col] == 0 || entry[r][end_col]->start_row == r); end_col++) ; if (end_col <= start_col) break; const char *left_adjust = 0; if ((r > 0 && vline[r-1][start_col] == 2) || (r < nrows && vline[r][start_col] == 2)) left_adjust = "-" HALF_DOUBLE_LINE_SEP; const char *right_adjust = 0; if ((r > 0 && vline[r-1][end_col] == 2) || (r < nrows && vline[r][end_col] == 2)) right_adjust = "+" HALF_DOUBLE_LINE_SEP; printfs("\\v'-" DOUBLE_LINE_SEP "'" "\\h'|\\n[%1]u", column_divide_reg(start_col)); if (left_adjust) prints(left_adjust); prints("'"); printfs("\\D'l |\\n[%1]u", column_divide_reg(end_col)); if (right_adjust) prints(right_adjust); prints(" 0'"); printfs("\\v'" DOUBLE_LINE_SEP "'" "\\h'|\\n[%1]u", column_divide_reg(start_col)); if (left_adjust) prints(left_adjust); prints("'"); printfs("\\D'l |\\n[%1]u", column_divide_reg(end_col)); if (right_adjust) prints(right_adjust); prints(" 0'"); start_col = end_col; } } prints("\\s0\n" ".ls\n" ".vs\n"); } void table::compute_vrule_top_adjust(int start_row, int col, string &result) { if (row_is_all_lines[start_row] && start_row < nrows - 1) { if (row_is_all_lines[start_row] == 2) result = LINE_SEP ">?\\n[.V]u" "+" DOUBLE_LINE_SEP; else result = LINE_SEP ">?\\n[.V]u"; start_row++; } else { result = ""; if (start_row == 0) return; for (stuff *p = stuff_list; p && p->row <= start_row; p = p->next) if (p->row == start_row && (p->is_single_line() || p->is_double_line())) return; } int left = 0; if (col > 0) { table_entry *e = entry[start_row-1][col-1]; if (e && e->start_row == e->end_row) { if (e->to_double_line_entry() != 0) left = 2; else if (e->to_single_line_entry() != 0) left = 1; } } int right = 0; if (col < ncolumns) { table_entry *e = entry[start_row-1][col]; if (e && e->start_row == e->end_row) { if (e->to_double_line_entry() != 0) right = 2; else if (e->to_single_line_entry() != 0) right = 1; } } if (row_is_all_lines[start_row-1] == 0) { if (left > 0 || right > 0) { result += "-" BODY_DEPTH "-" BAR_HEIGHT; if ((left == 2 && right != 2) || (right == 2 && left != 2)) result += "-" HALF_DOUBLE_LINE_SEP; else if (left == 2 && right == 2) result += "+" HALF_DOUBLE_LINE_SEP; } } else if (row_is_all_lines[start_row-1] == 2) { if ((left == 2 && right != 2) || (right == 2 && left != 2)) result += "-" DOUBLE_LINE_SEP; else if (left == 1 || right == 1) result += "-" HALF_DOUBLE_LINE_SEP; } } void table::compute_vrule_bot_adjust(int end_row, int col, string &result) { if (row_is_all_lines[end_row] && end_row > 0) { end_row--; result = ""; } else { stuff *p; for (p = stuff_list; p && p->row < end_row + 1; p = p->next) ; if (p && p->row == end_row + 1 && p->is_double_line()) { result = "-" DOUBLE_LINE_SEP; return; } if ((p != 0 && p->row == end_row + 1) || end_row == nrows - 1) { result = ""; return; } if (row_is_all_lines[end_row+1] == 1) result = LINE_SEP; else if (row_is_all_lines[end_row+1] == 2) result = LINE_SEP "+" DOUBLE_LINE_SEP; else result = ""; } int left = 0; if (col > 0) { table_entry *e = entry[end_row+1][col-1]; if (e && e->start_row == e->end_row) { if (e->to_double_line_entry() != 0) left = 2; else if (e->to_single_line_entry() != 0) left = 1; } } int right = 0; if (col < ncolumns) { table_entry *e = entry[end_row+1][col]; if (e && e->start_row == e->end_row) { if (e->to_double_line_entry() != 0) right = 2; else if (e->to_single_line_entry() != 0) right = 1; } } if (row_is_all_lines[end_row+1] == 0) { if (left > 0 || right > 0) { result = "1v-" BODY_DEPTH "-" BAR_HEIGHT; if ((left == 2 && right != 2) || (right == 2 && left != 2)) result += "+" HALF_DOUBLE_LINE_SEP; else if (left == 2 && right == 2) result += "-" HALF_DOUBLE_LINE_SEP; } } else if (row_is_all_lines[end_row+1] == 2) { if (left == 2 && right == 2) result += "-" DOUBLE_LINE_SEP; else if (left != 2 && right != 2 && (left == 1 || right == 1)) result += "-" HALF_DOUBLE_LINE_SEP; } } void table::add_vertical_rule(int start_row, int end_row, int col, int is_double) { vrule_list = new vertical_rule(start_row, end_row, col, is_double, vrule_list); compute_vrule_top_adjust(start_row, col, vrule_list->top_adjust); compute_vrule_bot_adjust(end_row, col, vrule_list->bot_adjust); } void table::build_vrule_list() { int col; if (flags & ALLBOX) { for (col = 1; col < ncolumns; col++) { int start_row = 0; for (;;) { while (start_row < nrows && vline_spanned(start_row, col)) start_row++; if (start_row >= nrows) break; int end_row = start_row; while (end_row < nrows && !vline_spanned(end_row, col)) end_row++; end_row--; add_vertical_rule(start_row, end_row, col, 0); start_row = end_row + 1; } } } if (flags & (BOX|ALLBOX|DOUBLEBOX)) { add_vertical_rule(0, nrows - 1, 0, 0); add_vertical_rule(0, nrows - 1, ncolumns, 0); } for (int end_row = 0; end_row < nrows; end_row++) for (col = 0; col < ncolumns+1; col++) if (vline[end_row][col] > 0 && !vline_spanned(end_row, col) && (end_row == nrows - 1 || vline[end_row+1][col] != vline[end_row][col] || vline_spanned(end_row+1, col))) { int start_row; for (start_row = end_row - 1; start_row >= 0 && vline[start_row][col] == vline[end_row][col] && !vline_spanned(start_row, col); start_row--) ; start_row++; add_vertical_rule(start_row, end_row, col, vline[end_row][col] > 1); } for (vertical_rule *p = vrule_list; p; p = p->next) if (p->is_double) for (int r = p->start_row; r <= p->end_row; r++) { if (p->col > 0 && entry[r][p->col-1] != 0 && entry[r][p->col-1]->end_col == p->col-1) { int is_corner = r == p->start_row || r == p->end_row; entry[r][p->col-1]->note_double_vrule_on_right(is_corner); } if (p->col < ncolumns && entry[r][p->col] != 0 && entry[r][p->col]->start_col == p->col) { int is_corner = r == p->start_row || r == p->end_row; entry[r][p->col]->note_double_vrule_on_left(is_corner); } } } void table::define_bottom_macro() { prints(".eo\n" ".de T#\n" ".if !\\n[" SUPPRESS_BOTTOM_REG "] \\{" "." REPEATED_VPT_MACRO " 0\n" ".mk " SAVED_VERTICAL_POS_REG "\n"); if (flags & (BOX|ALLBOX|DOUBLEBOX)) { prints(".if \\n[T.]&\\n[" NEED_BOTTOM_RULE_REG "] \\{"); print_single_hline(0); prints(".\\}\n"); } prints(".ls 1\n"); for (vertical_rule *p = vrule_list; p; p = p->next) p->contribute_to_bottom_macro(this); if (flags & DOUBLEBOX) prints(".if \\n[T.] \\{.vs " DOUBLE_LINE_SEP ">?\\n[.V]u\n" "\\v'" BODY_DEPTH "'\\s[\\n[" LINESIZE_REG "]]" "\\D'l \\n[TW]u 0'\\s0\n" ".vs\n" ".\\}\n" ".if \\n[" LAST_PASSED_ROW_REG "]>=0 " ".nr " TOP_REG " \\n[#T]-" DOUBLE_LINE_SEP "\n" ".sp -1\n" "\\v'" BODY_DEPTH "'\\s[\\n[" LINESIZE_REG "]]" "\\D'l 0 |\\n[" TOP_REG "]u-1v'\\s0\n" ".sp -1\n" "\\v'" BODY_DEPTH "'\\h'|\\n[TW]u'\\s[\\n[" LINESIZE_REG "]]" "\\D'l 0 |\\n[" TOP_REG "]u-1v'\\s0\n"); prints(".ls\n"); prints(".nr " LAST_PASSED_ROW_REG " \\n[" CURRENT_ROW_REG "]\n" ".sp |\\n[" SAVED_VERTICAL_POS_REG "]u\n" "." REPEATED_VPT_MACRO " 1\n" ".\\}\n" "..\n" ".ec\n"); } // is the vertical line before column c in row r horizontally spanned? int table::vline_spanned(int r, int c) { assert(r >= 0 && r < nrows && c >= 0 && c < ncolumns + 1); return (c != 0 && c != ncolumns && entry[r][c] != 0 && entry[r][c]->start_col != c // horizontally spanning lines don't count && entry[r][c]->to_double_line_entry() == 0 && entry[r][c]->to_single_line_entry() == 0); } int table::row_begins_section(int r) { assert(r >= 0 && r < nrows); for (int i = 0; i < ncolumns; i++) if (entry[r][i] && entry[r][i]->start_row != r) return 0; return 1; } int table::row_ends_section(int r) { assert(r >= 0 && r < nrows); for (int i = 0; i < ncolumns; i++) if (entry[r][i] && entry[r][i]->end_row != r) return 0; return 1; } void table::do_row(int r) { if (!(flags & NOKEEP) && row_begins_section(r)) prints("." KEEP_MACRO_NAME "\n"); int had_line = 0; stuff *p; for (p = stuff_list; p && p->row < r; p = p->next) ; for (stuff *p1 = p; p1 && p1->row == r; p1 = p1->next) if (!p1->printed && (p1->is_single_line() || p1->is_double_line())) { had_line = 1; break; } if (!had_line && !row_is_all_lines[r]) printfs("." REPEATED_MARK_MACRO " %1\n", row_top_reg(r)); had_line = 0; for (; p && p->row == r; p = p->next) if (!p->printed) { p->print(this); if (!had_line && (p->is_single_line() || p->is_double_line())) { printfs("." REPEATED_MARK_MACRO " %1\n", row_top_reg(r)); had_line = 1; } } // Change the row *after* printing the stuff list (which might contain .TH). printfs("\\*[" TRANSPARENT_STRING_NAME "].nr " CURRENT_ROW_REG " %1\n", as_string(r)); if (!had_line && row_is_all_lines[r]) printfs("." REPEATED_MARK_MACRO " %1\n", row_top_reg(r)); // we might have had a .TH, for example, since we last tried if (!(flags & NOKEEP) && row_begins_section(r)) prints("." KEEP_MACRO_NAME "\n"); printfs(".mk %1\n", row_start_reg(r)); prints(".mk " BOTTOM_REG "\n" "." REPEATED_VPT_MACRO " 0\n"); int c; int row_is_blank = 1; int first_start_row = r; for (c = 0; c < ncolumns; c++) { table_entry *e = entry[r][c]; if (e) { if (e->end_row == r) { e->do_depth(); if (e->start_row < first_start_row) first_start_row = e->start_row; row_is_blank = 0; } c = e->end_col; } } if (row_is_blank) prints(".nr " BOTTOM_REG " +1v\n"); if (row_is_all_lines[r]) { prints(".vs " LINE_SEP); if (row_is_all_lines[r] == 2) prints("+" DOUBLE_LINE_SEP); prints(">?\\n[.V]u\n.ls 1\n"); prints("\\&"); prints("\\v'" BODY_DEPTH); if (row_is_all_lines[r] == 2) prints("-" HALF_DOUBLE_LINE_SEP); prints("'"); for (c = 0; c < ncolumns; c++) { table_entry *e = entry[r][c]; if (e) { if (e->end_row == e->start_row) e->to_simple_entry()->simple_print(1); c = e->end_col; } } prints("\n"); prints(".ls\n" ".vs\n"); prints(".nr " BOTTOM_REG " \\n[" BOTTOM_REG "]>?\\n[.d]\n"); printfs(".sp |\\n[%1]u\n", row_start_reg(r)); } for (int i = row_is_all_lines[r] ? r - 1 : r; i >= first_start_row; i--) { simple_entry *first = 0; for (c = 0; c < ncolumns; c++) { table_entry *e = entry[r][c]; if (e) { if (e->end_row == r && e->start_row == i) { simple_entry *simple = e->to_simple_entry(); if (simple) { if (!first) { prints(".ta"); first = simple; } simple->add_tab(); } } c = e->end_col; } } if (first) { prints('\n'); first->position_vertically(); first->set_location(); prints("\\&"); first->simple_print(0); for (c = first->end_col + 1; c < ncolumns; c++) { table_entry *e = entry[r][c]; if (e) { if (e->end_row == r && e->start_row == i) { simple_entry *simple = e->to_simple_entry(); if (simple) simple->simple_print(0); } c = e->end_col; } } prints('\n'); prints(".nr " BOTTOM_REG " \\n[" BOTTOM_REG "]>?\\n[.d]\n"); printfs(".sp |\\n[%1]u\n", row_start_reg(r)); } } for (c = 0; c < ncolumns; c++) { table_entry *e = entry[r][c]; if (e) { if (e->end_row == r && e->to_simple_entry() == 0) { e->position_vertically(); e->print(); prints(".nr " BOTTOM_REG " \\n[" BOTTOM_REG "]>?\\n[.d]\n"); printfs(".sp |\\n[%1]u\n", row_start_reg(r)); } c = e->end_col; } } prints("." REPEATED_VPT_MACRO " 1\n" ".sp |\\n[" BOTTOM_REG "]u\n" "\\*[" TRANSPARENT_STRING_NAME "].nr " NEED_BOTTOM_RULE_REG " 1\n"); if (r != nrows - 1 && (flags & ALLBOX)) { print_single_hline(r + 1); prints("\\*[" TRANSPARENT_STRING_NAME "].nr " NEED_BOTTOM_RULE_REG " 0\n"); } if (r != nrows - 1) { if (p && p->row == r + 1 && (p->is_single_line() || p->is_double_line())) { p->print(this); prints("\\*[" TRANSPARENT_STRING_NAME "].nr " NEED_BOTTOM_RULE_REG " 0\n"); } int printed_one = 0; for (vertical_rule *vr = vrule_list; vr; vr = vr->next) if (vr->end_row == r) { if (!printed_one) { prints("." REPEATED_VPT_MACRO " 0\n"); printed_one = 1; } vr->print(); } if (printed_one) prints("." REPEATED_VPT_MACRO " 1\n"); if (!(flags & NOKEEP) && row_ends_section(r)) prints("." RELEASE_MACRO_NAME "\n"); } } void table::do_top() { prints(".fc \002\003\n"); if (!(flags & NOKEEP) && (flags & (BOX|DOUBLEBOX|ALLBOX))) prints("." TABLE_KEEP_MACRO_NAME "\n"); if (flags & DOUBLEBOX) { prints(".ls 1\n" ".vs " LINE_SEP ">?\\n[.V]u\n" "\\v'" BODY_DEPTH "'\\s[\\n[" LINESIZE_REG "]]\\D'l \\n[TW]u 0'\\s0\n" ".vs\n" "." REPEATED_MARK_MACRO " " TOP_REG "\n" ".vs " DOUBLE_LINE_SEP ">?\\n[.V]u\n"); printfs("\\v'" BODY_DEPTH "'" "\\s[\\n[" LINESIZE_REG "]]" "\\h'\\n[%1]u'" "\\D'l |\\n[%2]u 0'" "\\s0" "\n", column_divide_reg(0), column_divide_reg(ncolumns)); prints(".ls\n" ".vs\n"); } else if (flags & (ALLBOX|BOX)) { print_single_hline(0); } //printfs(".mk %1\n", row_top_reg(0)); } void table::do_bottom() { // print stuff after last row for (stuff *p = stuff_list; p; p = p->next) if (p->row > nrows - 1) p->print(this); if (!(flags & NOKEEP)) prints("." RELEASE_MACRO_NAME "\n"); printfs(".mk %1\n", row_top_reg(nrows)); prints(".nr " NEED_BOTTOM_RULE_REG " 1\n" ".nr T. 1\n" ".T#\n"); if (!(flags & NOKEEP) && (flags & (BOX|DOUBLEBOX|ALLBOX))) prints("." TABLE_RELEASE_MACRO_NAME "\n"); if (flags & DOUBLEBOX) prints(".sp " DOUBLE_LINE_SEP "\n"); prints("." RESET_MACRO_NAME "\n" ".fc\n" ".cp \\n(" COMPATIBLE_REG "\n"); } int table::get_nrows() { return nrows; } const char *last_filename = 0; void set_troff_location(const char *fn, int ln) { if (!location_force_filename && last_filename != 0 && strcmp(fn, last_filename) == 0) printfs(".lf %1\n", as_string(ln)); else { printfs(".lf %1 %2\n", as_string(ln), fn); last_filename = fn; location_force_filename = 0; } } void printfs(const char *s, const string &arg1, const string &arg2, const string &arg3, const string &arg4, const string &arg5) { if (s) { char c; while ((c = *s++) != '\0') { if (c == '%') { switch (*s++) { case '1': prints(arg1); break; case '2': prints(arg2); break; case '3': prints(arg3); break; case '4': prints(arg4); break; case '5': prints(arg5); break; case '6': case '7': case '8': case '9': break; case '%': prints('%'); break; default: assert(0); } } else prints(c); } } }