// -*- 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, 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "eqn.h" #include "pbox.h" class over_box : public box { private: int reduce_size; box *num; box *den; public: over_box(int small, box *, box *); ~over_box(); void debug_print(); int compute_metrics(int); void output(); void check_tabs(int); }; box *make_over_box(box *pp, box *qq) { return new over_box(0, pp, qq); } box *make_small_over_box(box *pp, box *qq) { return new over_box(1, pp, qq); } over_box::over_box(int is_small, box *pp, box *qq) : num(pp), den(qq), reduce_size(is_small) { spacing_type = INNER_TYPE; } over_box::~over_box() { delete num; delete den; } int over_box::compute_metrics(int style) { if (reduce_size) { style = script_style(style); printf(".nr " SIZE_FORMAT " \\n[.s]\n", uid); set_script_size(); printf(".nr " SMALL_SIZE_FORMAT " \\n[.s]\n", uid); } int mark_uid; int res = num->compute_metrics(style); if (res) mark_uid = num->uid; int r = den->compute_metrics(cramped_style(style)); if (r && res) error("multiple marks and lineups"); else { mark_uid = den->uid; res = r; } if (reduce_size) printf(".ps \\n[" SIZE_FORMAT "]\n", uid); printf(".nr " WIDTH_FORMAT " (\\n[" WIDTH_FORMAT "]>?\\n[" WIDTH_FORMAT "]", uid, num->uid, den->uid); // allow for \(ru being wider than both the numerator and denominator if (!draw_flag) fputs(">?\\w" DELIMITER_CHAR "\\(ru" DELIMITER_CHAR, stdout); printf(")+%dM\n", null_delimiter_space*2 + over_hang*2); // 15b printf(".nr " SUP_RAISE_FORMAT " %dM\n", uid, (reduce_size ? num2 : num1)); printf(".nr " SUB_LOWER_FORMAT " %dM\n", uid, (reduce_size ? denom2 : denom1)); // 15d printf(".nr " SUP_RAISE_FORMAT " +(\\n[" DEPTH_FORMAT "]-\\n[" SUP_RAISE_FORMAT "]+%dM+(%dM/2)+%dM)>?0\n", uid, num->uid, uid, axis_height, default_rule_thickness, default_rule_thickness*(reduce_size ? 1 : 3)); printf(".nr " SUB_LOWER_FORMAT " +(\\n[" HEIGHT_FORMAT "]-\\n[" SUB_LOWER_FORMAT "]-%dM+(%dM/2)+%dM)>?0\n", uid, den->uid, uid, axis_height, default_rule_thickness, default_rule_thickness*(reduce_size ? 1 : 3)); printf(".nr " HEIGHT_FORMAT " \\n[" SUP_RAISE_FORMAT "]+\\n[" HEIGHT_FORMAT "]\n", uid, uid, num->uid); printf(".nr " DEPTH_FORMAT " \\n[" SUB_LOWER_FORMAT "]+\\n[" DEPTH_FORMAT "]\n", uid, uid, den->uid); if (res) printf(".nr " MARK_REG " +(\\n[" WIDTH_FORMAT "]-\\n[" WIDTH_FORMAT "]/2)\n", uid, mark_uid); return res; } #define USE_Z void over_box::output() { if (reduce_size) printf("\\s[\\n[" SMALL_SIZE_FORMAT "]]", uid); #ifdef USE_Z printf("\\Z" DELIMITER_CHAR); #endif // move up to the numerator baseline printf("\\v'-\\n[" SUP_RAISE_FORMAT "]u'", uid); // move across so that it's centered printf("\\h'\\n[" WIDTH_FORMAT "]u-\\n[" WIDTH_FORMAT "]u/2u'", uid, num->uid); // print the numerator num->output(); #ifdef USE_Z printf(DELIMITER_CHAR); #else // back again printf("\\h'-\\n[" WIDTH_FORMAT "]u'", num->uid); printf("\\h'-(\\n[" WIDTH_FORMAT "]u-\\n[" WIDTH_FORMAT "]u/2u)'", uid, num->uid); // down again printf("\\v'\\n[" SUP_RAISE_FORMAT "]u'", uid); #endif #ifdef USE_Z printf("\\Z" DELIMITER_CHAR); #endif // move down to the denominator baseline printf("\\v'\\n[" SUB_LOWER_FORMAT "]u'", uid); // move across so that it's centered printf("\\h'\\n[" WIDTH_FORMAT "]u-\\n[" WIDTH_FORMAT "]u/2u'", uid, den->uid); // print the the denominator den->output(); #ifdef USE_Z printf(DELIMITER_CHAR); #else // back again printf("\\h'-\\n[" WIDTH_FORMAT "]u'", den->uid); printf("\\h'-(\\n[" WIDTH_FORMAT "]u-\\n[" WIDTH_FORMAT "]u/2u)'", uid, den->uid); // up again printf("\\v'-\\n[" SUB_LOWER_FORMAT "]u'", uid); #endif if (reduce_size) printf("\\s[\\n[" SIZE_FORMAT "]]", uid); // draw the line printf("\\h'%dM'", null_delimiter_space); printf("\\v'-%dM'", axis_height); fputs(draw_flag ? "\\D'l" : "\\l'", stdout); printf("\\n[" WIDTH_FORMAT "]u-%dM", uid, 2*null_delimiter_space); fputs(draw_flag ? " 0'" : "\\&\\(ru'", stdout); printf("\\v'%dM'", axis_height); printf("\\h'%dM'", null_delimiter_space); } void over_box::debug_print() { fprintf(stderr, "{ "); num->debug_print(); if (reduce_size) fprintf(stderr, " } smallover { "); else fprintf(stderr, " } over { "); den->debug_print(); fprintf(stderr, " }"); } void over_box::check_tabs(int level) { num->check_tabs(level + 1); den->check_tabs(level + 1); }