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Current File : //usr/src/contrib/groff/src/roff/troff/column.cpp |
// -*- C++ -*- /* Copyright (C) 1989, 1990, 1991, 1992, 2000 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, 51 Franklin St - Fifth Floor, Boston, MA 02110-1301, USA. */ #ifdef COLUMN #include "troff.h" #include "symbol.h" #include "dictionary.h" #include "hvunits.h" #include "env.h" #include "request.h" #include "node.h" #include "token.h" #include "div.h" #include "reg.h" #include "stringclass.h" void output_file::vjustify(vunits, symbol) { // do nothing } struct justification_spec; struct output_line; class column : public output_file { private: output_file *out; vunits bottom; output_line *col; output_line **tail; void add_output_line(output_line *); void begin_page(int pageno, vunits page_length); void flush(); void print_line(hunits, vunits, node *, vunits, vunits); void vjustify(vunits, symbol); void transparent_char(unsigned char c); void copy_file(hunits, vunits, const char *); int is_printing(); void check_bottom(); public: column(); ~column(); void start(); void output(); void justify(const justification_spec &); void trim(); void reset(); vunits get_bottom(); vunits get_last_extra_space(); int is_active() { return out != 0; } }; column *the_column = 0; struct transparent_output_line; struct vjustify_output_line; class output_line { output_line *next; public: output_line(); virtual ~output_line(); virtual void output(output_file *, vunits); virtual transparent_output_line *as_transparent_output_line(); virtual vjustify_output_line *as_vjustify_output_line(); virtual vunits distance(); virtual vunits height(); virtual void reset(); virtual vunits extra_space(); // post line friend class column; friend class justification_spec; }; class position_output_line : public output_line { vunits dist; public: position_output_line(vunits); vunits distance(); }; class node_output_line : public position_output_line { node *nd; hunits page_offset; vunits before; vunits after; public: node_output_line(vunits, node *, hunits, vunits, vunits); ~node_output_line(); void output(output_file *, vunits); vunits height(); vunits extra_space(); }; class vjustify_output_line : public position_output_line { vunits current; symbol typ; public: vjustify_output_line(vunits dist, symbol); vunits height(); vjustify_output_line *as_vjustify_output_line(); void vary(vunits amount); void reset(); symbol type(); }; inline symbol vjustify_output_line::type() { return typ; } class copy_file_output_line : public position_output_line { symbol filename; hunits hpos; public: copy_file_output_line(vunits, const char *, hunits); void output(output_file *, vunits); }; class transparent_output_line : public output_line { string buf; public: transparent_output_line(); void output(output_file *, vunits); void append_char(unsigned char c); transparent_output_line *as_transparent_output_line(); }; output_line::output_line() : next(0) { } output_line::~output_line() { } void output_line::reset() { } transparent_output_line *output_line::as_transparent_output_line() { return 0; } vjustify_output_line *output_line::as_vjustify_output_line() { return 0; } void output_line::output(output_file *, vunits) { } vunits output_line::distance() { return V0; } vunits output_line::height() { return V0; } vunits output_line::extra_space() { return V0; } position_output_line::position_output_line(vunits d) : dist(d) { } vunits position_output_line::distance() { return dist; } node_output_line::node_output_line(vunits d, node *n, hunits po, vunits b, vunits a) : position_output_line(d), nd(n), page_offset(po), before(b), after(a) { } node_output_line::~node_output_line() { delete_node_list(nd); } void node_output_line::output(output_file *out, vunits pos) { out->print_line(page_offset, pos, nd, before, after); nd = 0; } vunits node_output_line::height() { return after; } vunits node_output_line::extra_space() { return after; } vjustify_output_line::vjustify_output_line(vunits d, symbol t) : position_output_line(d), typ(t) { } void vjustify_output_line::reset() { current = V0; } vunits vjustify_output_line::height() { return current; } vjustify_output_line *vjustify_output_line::as_vjustify_output_line() { return this; } inline void vjustify_output_line::vary(vunits amount) { current += amount; } transparent_output_line::transparent_output_line() { } transparent_output_line *transparent_output_line::as_transparent_output_line() { return this; } void transparent_output_line::append_char(unsigned char c) { assert(c != 0); buf += c; } void transparent_output_line::output(output_file *out, vunits) { int len = buf.length(); for (int i = 0; i < len; i++) out->transparent_char(buf[i]); } copy_file_output_line::copy_file_output_line(vunits d, const char *f, hunits h) : position_output_line(d), hpos(h), filename(f) { } void copy_file_output_line::output(output_file *out, vunits pos) { out->copy_file(hpos, pos, filename.contents()); } column::column() : bottom(V0), col(0), tail(&col), out(0) { } column::~column() { assert(out != 0); error("automatically outputting column before exiting"); output(); delete the_output; } void column::start() { assert(out == 0); if (!the_output) init_output(); assert(the_output != 0); out = the_output; the_output = this; } void column::begin_page(int pageno, vunits page_length) { assert(out != 0); if (col) { error("automatically outputting column before beginning next page"); output(); the_output->begin_page(pageno, page_length); } else out->begin_page(pageno, page_length); } void column::flush() { assert(out != 0); out->flush(); } int column::is_printing() { assert(out != 0); return out->is_printing(); } vunits column::get_bottom() { return bottom; } void column::add_output_line(output_line *ln) { *tail = ln; bottom += ln->distance(); bottom += ln->height(); ln->next = 0; tail = &(*tail)->next; } void column::print_line(hunits page_offset, vunits pos, node *nd, vunits before, vunits after) { assert(out != 0); add_output_line(new node_output_line(pos - bottom, nd, page_offset, before, after)); } void column::vjustify(vunits pos, symbol typ) { assert(out != 0); add_output_line(new vjustify_output_line(pos - bottom, typ)); } void column::transparent_char(unsigned char c) { assert(out != 0); transparent_output_line *tl = 0; if (*tail) tl = (*tail)->as_transparent_output_line(); if (!tl) { tl = new transparent_output_line; add_output_line(tl); } tl->append_char(c); } void column::copy_file(hunits page_offset, vunits pos, const char *filename) { assert(out != 0); add_output_line(new copy_file_output_line(pos - bottom, filename, page_offset)); } void column::trim() { output_line **spp = 0; for (output_line **pp = &col; *pp; pp = &(*pp)->next) if ((*pp)->as_vjustify_output_line() == 0) spp = 0; else if (!spp) spp = pp; if (spp) { output_line *ln = *spp; *spp = 0; tail = spp; while (ln) { output_line *tem = ln->next; bottom -= ln->distance(); bottom -= ln->height(); delete ln; ln = tem; } } } void column::reset() { bottom = V0; for (output_line *ln = col; ln; ln = ln->next) { bottom += ln->distance(); ln->reset(); bottom += ln->height(); } } void column::check_bottom() { vunits b; for (output_line *ln = col; ln; ln = ln->next) { b += ln->distance(); b += ln->height(); } assert(b == bottom); } void column::output() { assert(out != 0); vunits vpos(V0); output_line *ln = col; while (ln) { vpos += ln->distance(); ln->output(out, vpos); vpos += ln->height(); output_line *tem = ln->next; delete ln; ln = tem; } tail = &col; bottom = V0; col = 0; the_output = out; out = 0; } vunits column::get_last_extra_space() { if (!col) return V0; for (output_line *p = col; p->next; p = p->next) ; return p->extra_space(); } class justification_spec { vunits height; symbol *type; vunits *amount; int n; int maxn; public: justification_spec(vunits); ~justification_spec(); void append(symbol t, vunits v); void justify(output_line *, vunits *bottomp) const; }; justification_spec::justification_spec(vunits h) : height(h), n(0), maxn(10) { type = new symbol[maxn]; amount = new vunits[maxn]; } justification_spec::~justification_spec() { a_delete type; a_delete amount; } void justification_spec::append(symbol t, vunits v) { if (v <= V0) { if (v < V0) warning(WARN_RANGE, "maximum space for vertical justification must not be negative"); else warning(WARN_RANGE, "maximum space for vertical justification must not be zero"); return; } if (n >= maxn) { maxn *= 2; symbol *old_type = type; type = new symbol[maxn]; int i; for (i = 0; i < n; i++) type[i] = old_type[i]; a_delete old_type; vunits *old_amount = amount; amount = new vunits[maxn]; for (i = 0; i < n; i++) amount[i] = old_amount[i]; a_delete old_amount; } assert(n < maxn); type[n] = t; amount[n] = v; n++; } void justification_spec::justify(output_line *col, vunits *bottomp) const { if (*bottomp >= height) return; vunits total; output_line *p; for (p = col; p; p = p->next) { vjustify_output_line *sp = p->as_vjustify_output_line(); if (sp) { symbol t = sp->type(); for (int i = 0; i < n; i++) { if (t == type[i]) total += amount[i]; } } } vunits gap = height - *bottomp; for (p = col; p; p = p->next) { vjustify_output_line *sp = p->as_vjustify_output_line(); if (sp) { symbol t = sp->type(); for (int i = 0; i < n; i++) { if (t == type[i]) { if (total <= gap) { sp->vary(amount[i]); gap -= amount[i]; } else { // gap < total vunits v = scale(amount[i], gap, total); sp->vary(v); gap -= v; } total -= amount[i]; } } } } assert(total == V0); *bottomp = height - gap; } void column::justify(const justification_spec &js) { check_bottom(); js.justify(col, &bottom); check_bottom(); } void column_justify() { vunits height; if (!the_column->is_active()) error("can't justify column - column not active"); else if (get_vunits(&height, 'v')) { justification_spec js(height); symbol nm = get_long_name(1); if (!nm.is_null()) { vunits v; if (get_vunits(&v, 'v')) { js.append(nm, v); int err = 0; while (has_arg()) { nm = get_long_name(1); if (nm.is_null()) { err = 1; break; } if (!get_vunits(&v, 'v')) { err = 1; break; } js.append(nm, v); } if (!err) the_column->justify(js); } } } skip_line(); } void column_start() { if (the_column->is_active()) error("can't start column - column already active"); else the_column->start(); skip_line(); } void column_output() { if (!the_column->is_active()) error("can't output column - column not active"); else the_column->output(); skip_line(); } void column_trim() { if (!the_column->is_active()) error("can't trim column - column not active"); else the_column->trim(); skip_line(); } void column_reset() { if (!the_column->is_active()) error("can't reset column - column not active"); else the_column->reset(); skip_line(); } class column_bottom_reg : public reg { public: const char *get_string(); }; const char *column_bottom_reg::get_string() { return i_to_a(the_column->get_bottom().to_units()); } class column_extra_space_reg : public reg { public: const char *get_string(); }; const char *column_extra_space_reg::get_string() { return i_to_a(the_column->get_last_extra_space().to_units()); } class column_active_reg : public reg { public: const char *get_string(); }; const char *column_active_reg::get_string() { return the_column->is_active() ? "1" : "0"; } static int no_vjustify_mode = 0; class vjustify_node : public node { symbol typ; public: vjustify_node(symbol); int reread(int *); const char *type(); int same(node *); node *copy(); }; vjustify_node::vjustify_node(symbol t) : typ(t) { } node *vjustify_node::copy() { return new vjustify_node(typ, div_nest_level); } const char *vjustify_node::type() { return "vjustify_node"; } int vjustify_node::same(node *nd) { return typ == ((vjustify_node *)nd)->typ; } int vjustify_node::reread(int *bolp) { curdiv->vjustify(typ); *bolp = 1; return 1; } void macro_diversion::vjustify(symbol type) { if (!no_vjustify_mode) mac->append(new vjustify_node(type)); } void top_level_diversion::vjustify(symbol type) { if (no_space_mode || no_vjustify_mode) return; assert(first_page_begun); // I'm not sure about this. the_output->vjustify(vertical_position, type); } void no_vjustify() { skip_line(); no_vjustify_mode = 1; } void restore_vjustify() { skip_line(); no_vjustify_mode = 0; } void init_column_requests() { the_column = new column; init_request("cols", column_start); init_request("colo", column_output); init_request("colj", column_justify); init_request("colr", column_reset); init_request("colt", column_trim); init_request("nvj", no_vjustify); init_request("rvj", restore_vjustify); number_reg_dictionary.define(".colb", new column_bottom_reg); number_reg_dictionary.define(".colx", new column_extra_space_reg); number_reg_dictionary.define(".cola", new column_active_reg); number_reg_dictionary.define(".nvj", new constant_int_reg(&no_vjustify_mode)); } #endif /* COLUMN */