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|
/*
Copyright (C) 1991-2002, The Numerical Algorithms Group Ltd.
All rights reserved.
Copyright (C) 2007-2010, Gabriel Dos Reis.
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are
met:
- Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
- Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in
the documentation and/or other materials provided with the
distribution.
- Neither the name of The Numerical Algorithms Group Ltd. nor the
names of its contributors may be used to endorse or promote products
derived from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER
OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/******************************************************************************
*
* extent1.h: HyperDoc extent computation routines
*
* Copyright The Numerical Algorithms Group Limited 1991, 1992, 1993.
*
****************************************************************************/
#include "openaxiom-c-macros.h"
#include "debug.h"
#include "sockio.h"
#include "extent.h"
#include "hyper.h"
#include "group.h"
#include "titlebar.h"
#include "scrollbar.h"
static void compute_begin_items_extent(TextNode * node);
static void compute_bf_extent(TextNode * node);
static void compute_box_extent(TextNode * node);
static void compute_button_extent(TextNode * node);
static void compute_center_extent(TextNode * node);
static void compute_dash_extent(TextNode * node);
static void compute_em_extent(TextNode * node);
static void compute_ifcond_extent(TextNode * node);
static void compute_image_extent(TextNode * node);
static void compute_input_extent(TextNode * node);
static void compute_ir_extent(TextNode * node);
static void compute_it_extent(TextNode * node);
static void compute_item_extent(TextNode * node);
static void compute_mbox_extent(TextNode * node);
static void compute_mitem_extent(TextNode * node);
static void compute_paste_extent(TextNode * node);
static void compute_pastebutton_extent(TextNode * node);
static void compute_punctuation_extent(TextNode * node);
static void compute_rm_extent(TextNode * node);
static void compute_spadcommand_extent(TextNode * node);
static void compute_spadsrc_extent(TextNode * node);
static void compute_spadsrctxt_extent(TextNode * node);
static void compute_table_extent(TextNode * * node);
static void compute_verbatim_extent(TextNode * node);
static void compute_word_extent(TextNode * node);
static void end_spadcommand_extent(TextNode * node);
static void end_spadsrc_extent(TextNode * node);
static void endbutton_extent(TextNode * node);
static void endif_extent(TextNode * node);
static void endpastebutton_extent(TextNode * node);
/*
* Now we declare all the values which are shared among the extent routines
* and the showing routines
*/
int noop_count;
TextNode *link_node = NULL;
TextNode *paste_node = NULL;
TextNode *spad_node = NULL;
TextNode *if_node = NULL;
short int gExtentRegion;
short int gInDesc;
short int gInLine; /* true iff there have been words printed */
short int gInItem; /* true iff we are in a \item */
short int gInAxiomCommand; /* true iff we are in a \spadcommand */
short int gInTable;
/* Variables for the formatting state */
int right_margin_space;
int right_margin;
int indent;
int item_indent;
int text_x;
int text_y;
int y_off;
int scroll_bot;
int need_scroll_up_button;
int need_scroll_down_button;
int item_space;
int present_line_height;
int past_line_height;
int line_height; /* space between lines */
int normal_text_height; /* space between lines */
int space_width; /* the maximum width of a character */
int word_off_height; /* the diff between text height and */
TextNode *gLineNode;
/*
* Computes the extent of the input string or box
*/
static void
compute_input_extent(TextNode * node)
{
InputItem *item;
int t_width;
int num_lines;
/* search the symbol table for the proper entry */
item = node->link->reference.string;
num_lines = item->num_lines;
/*
* Once we have gotten this far, we should just be able to calculate the
* width using the normal font
*/
t_width = (item->size + 1) * gInputFont->max_bounds.width + 10;
if (gInLine)
text_x += inter_word_space;
if (text_x + t_width > right_margin) {
start_newline(present_line_height, node);
text_x = indent;
}
node->x = text_x;
/* now figure out the height of the current window */
node->height = line_height * (num_lines);
node->y = text_y - line_height + node->height - 1;
if (node->height > present_line_height)
present_line_height = plh(node->height);
node->width = t_width;
gInLine = 1;
text_x += t_width;
}
static void
compute_punctuation_extent(TextNode * node)
{
int twidth;
int nextwidth;
int incwidth;
node->height = normal_text_height;
node->width = strlen(node->data.text);
incwidth = twidth = XTextWidth(gTopOfGroupStack->cur_font, node->data.text,
node->width);
/* always check to see if there was some space in front of us */
if (gInLine && (node->space & FRONTSPACE))
twidth += inter_word_space;
/*
* now calcualte the width of the next one if it needs to be considered
*/
if (!(node->space & BACKSPACE))
nextwidth = total_width(node->next, openaxiom_Endtokens_token);
else
nextwidth = 0;
if ((!(node->space & BACKSPACE)) &&
(text_x + twidth + nextwidth > right_margin) && gInLine) {
start_newline(present_line_height, node);
if (gInAxiomCommand) {
text_x = indent + spadcom_indent;
}
else
text_x = indent;
}
if (node->space & FRONTSPACE)
text_x += inter_word_space;
node->x = text_x;
/*
* Now try to see if we should leave space after myself. Always leave
* space when there is space
*/
if (node->space & BACKSPACE) {
switch (node->data.text[0]) {
case '.':
case '?':
case '!':
text_x += term_punct_space;
break;
}
}
text_x += incwidth;
node->y = text_y - word_off_height;
gInLine = 1;
}
static void
compute_word_extent(TextNode * node)
{
int twidth;
int nextwidth;
int incwidth;
node->height = normal_text_height;
node->width = strlen(node->data.text);
incwidth = twidth = XTextWidth(gTopOfGroupStack->cur_font, node->data.text,
node->width);
/*
* Now if we should drop some space in front of me, then add it to twidth
*/
if (gInLine && node->space)
twidth += inter_word_space;
/*
* Now what we should do is find all the things after us that have no
* space in front and add there width on.
*/
nextwidth = total_width(node->next, openaxiom_Endtokens_token);
/*
* Should we start a new line?
*/
if (text_x + twidth + nextwidth > right_margin && gInLine) {
start_newline(present_line_height, node);
if (gInAxiomCommand) {
text_x = indent + spadcom_indent;
}
else
text_x = indent;
}
/*
* Now see if we am on the beginning of a line, and if not add some space
* if we need to
*/
if (gInLine && node->space)
text_x += inter_word_space;
node->x = text_x;
node->y = text_y - word_off_height;
text_x += incwidth;
gInLine = 1;
}
static void
compute_verbatim_extent(TextNode *node)
{
node->height = normal_text_height;
node->width = strlen(node->data.text);
node->x = text_x;
node->y = text_y - word_off_height;
gInLine = 1;
return;
}
static void
compute_spadsrctxt_extent(TextNode *node)
{
node->height = normal_text_height;
node->width = strlen(node->data.text);
if (gInLine) {
start_newline(present_line_height, node);
text_x = indent;
}
node->x = text_x;
node->y = text_y - word_off_height;
gInLine = 1;
return;
}
static void
compute_dash_extent(TextNode *node)
{
int num_dashes;
int twidth;
int nextwidth;
node->height = normal_text_height;
num_dashes = strlen(node->data.text);
if (num_dashes > 1)
twidth = node->width = num_dashes * dash_width;
else
twidth = node->width = XTextWidth(gTopOfGroupStack->cur_font,
node->data.text, 1);
if (gInLine && node->space)
twidth += inter_word_space;
/*
* Now what we should do is find all the things after us that have no
* space in front and add there width on.
*/
nextwidth = total_width(node->next, openaxiom_Endtokens_token);
/*
* Should we start a new line?
*/
if (text_x + twidth + nextwidth > right_margin) {
start_newline(present_line_height, node);
if (gInAxiomCommand) {
text_x = indent + spadcom_indent;
}
else
text_x = indent;
}
/*
* Now see if we am on the beginning of a line, and if not add some space
* if we need to
*/
if (gInLine && node->space)
text_x += inter_word_space;
node->x = text_x;
if (num_dashes > 1)
node->y = text_y - dash_y;
else
node->y = text_y - word_off_height;
text_x += node->width;
gInLine = 1;
return;
}
void
compute_text_extent(TextNode *node)
{
for (; node != NULL; node = node->next) {
switch (node->type) {
case openaxiom_Endpastebutton_token:
endpastebutton_extent(node);
break;
case openaxiom_Paste_token:
compute_paste_extent(node);
break;
case openaxiom_Endpaste_token:
if (gInLine) {
start_newline(present_line_height, node);
text_x = indent;
}
break;
case openaxiom_Pastebutton_token:
compute_pastebutton_extent(node);
break;
case openaxiom_Ifcond_token:
compute_ifcond_extent(node);
break;
case openaxiom_Fi_token:
break;
case openaxiom_Endif_token:
if (if_node == NULL) {
return;
}
else
endif_extent(node);
break;
case openaxiom_Endcenter_token:
start_newline(present_line_height, node->next);
pop_group_stack();
text_x = indent;
break;
case openaxiom_Pound_token:
case openaxiom_Macro_token:
/* check to see if we had space in front of me, if so add it */
if (node->space && gInLine)
text_x += inter_word_space;
break;
case openaxiom_Punctuation_token:
compute_punctuation_extent(node);
break;
case openaxiom_Endmath_token:
break;
case openaxiom_Endverbatim_token:
if (gInLine) {
start_newline(present_line_height, node);
text_x = indent;
}
break;
case openaxiom_Spadsrctxt_token:
compute_spadsrctxt_extent(node);
break;
case openaxiom_Math_token:
compute_word_extent(node);
break;
case openaxiom_Verbatim_token:
compute_verbatim_extent(node);
break;
case openaxiom_WindowId_token:
case openaxiom_Word_token:
case openaxiom_Lsquarebrace_token:
case openaxiom_Rsquarebrace_token:
compute_word_extent(node);
break;
case openaxiom_Dash_token:
compute_dash_extent(node);
break;
case openaxiom_HSpace_token:
node->height = line_height;
node->x = text_x;
node->y = text_y;
if (gInLine) {
text_x +=
(node->data.node != NULL ? atoi(node->data.node->data.text) : 1);
}
break;
case openaxiom_VSpace_token:
node->height = line_height;
node->x = text_x;
node->y = text_y + present_line_height;;
text_y +=
(node->data.node != NULL ? atoi(node->data.node->data.text) : 1) +
present_line_height;
past_line_height = (node->data.node != NULL ?
atoi(node->data.node->data.text) : 1)
+ present_line_height;
present_line_height = line_height;
break;
case openaxiom_Space_token:
node->height = line_height;
node->x = text_x;
node->y = text_y;
text_x += (gTopOfGroupStack->cur_font->max_bounds.width) *
(node->data.node != NULL ? atoi(node->data.node->data.text) : 1);
break;
case openaxiom_Tab_token:
node->height = line_height;
text_x = indent + (gTopOfGroupStack->cur_font->max_bounds.width) *
(node->data.node != NULL ? atoi(node->data.node->data.text) : 1);
gInLine = 0;
break;
case openaxiom_Par_token:
node->height = line_height;
if (gInItem)
text_x = indent;
else
text_x = indent + paragraph_space;
if (gInLine) {
start_newline(present_line_height, node);
}
break;
case openaxiom_Newline_token:
if (gInLine) {
start_newline(present_line_height, node);
text_x = indent;
}
break;
case openaxiom_Horizontalline_token:
if (gInLine) {
start_newline(present_line_height, node);
text_x = indent;
}
node->height = line_height;
gInLine = 0;
node->y = text_y - line_height / 2;
node->x = text_x;
start_newline(present_line_height, node);
break;
case openaxiom_Center_token:
compute_center_extent(node);
break;
case openaxiom_Box_token:
compute_box_extent(node);
break;
case openaxiom_Mbox_token:
compute_mbox_extent(node);
break;
case openaxiom_Beginitems_token:
case openaxiom_Begintitems_token:
compute_begin_items_extent(node);
break;
case openaxiom_Enditems_token:
case openaxiom_Endtitems_token:
pop_item_stack();
if (gInLine) {
start_newline(present_line_height, node);
}
text_x = indent;
break;
case openaxiom_Titem_token:
if (gInLine) {
start_newline(present_line_height, node);
}
text_x = indent - item_space;
break;
case openaxiom_Item_token:
compute_item_extent(node);
break;
case openaxiom_Mitem_token:
compute_mitem_extent(node);
break;
case openaxiom_Upbutton_token:
case openaxiom_Returnbutton_token:
case openaxiom_Memolink_token:
case openaxiom_Downlink_token:
case openaxiom_Link_token:
case openaxiom_Windowlink_token:
compute_button_extent(node);
break;
case openaxiom_Unixlink_token:
case openaxiom_Lisplink_token:
case openaxiom_Lispwindowlink_token:
case openaxiom_Spadcall_token:
case openaxiom_Spadcallquit_token:
case openaxiom_Qspadcall_token:
case openaxiom_Qspadcallquit_token:
case openaxiom_LispDownLink_token:
case openaxiom_LispMemoLink_token:
case openaxiom_Lispcommand_token:
case openaxiom_Lispcommandquit_token:
case openaxiom_Spadlink_token:
case openaxiom_Spaddownlink_token:
case openaxiom_Spadmemolink_token:
case openaxiom_Unixcommand_token:
compute_button_extent(node);
break;
case openaxiom_Endbutton_token:
endbutton_extent(node);
break;
case openaxiom_Endlink_token:
if (link_node == NULL)
return;
else
endbutton_extent(node);
break;
case openaxiom_Spadsrc_token:
compute_spadsrc_extent(node);
break;
case openaxiom_Spadcommand_token:
case openaxiom_Spadgraph_token:
compute_spadcommand_extent(node);
break;
case openaxiom_Endspadsrc_token:
end_spadsrc_extent(node);
break;
case openaxiom_Endspadcommand_token:
end_spadcommand_extent(node);
break;
case openaxiom_Indent_token:
indent = left_margin +
atoi(node->data.node->data.text) *
(gTopOfGroupStack->cur_font->max_bounds.width);
if (!gInLine)
text_x = indent;
break;
case openaxiom_Indentrel_token:
indent += atoi(node->data.node->data.text) *
(gTopOfGroupStack->cur_font->max_bounds.width);
if (!gInLine)
text_x = indent;
break;
case openaxiom_Group_token:
push_group_stack();
node->y = text_y;
if (gInLine && node->space)
text_x += inter_word_space;
break;
case openaxiom_Endgroup_token:
pop_group_stack();
break;
case openaxiom_Tableitem_token:
push_group_stack();
node->y = text_y;
if (gInLine && node->space)
text_x += inter_word_space;
break;
case openaxiom_Endtableitem_token:
pop_group_stack();
return;
case openaxiom_Controlbitmap_token:
case openaxiom_Inputbitmap_token:
if (node->width == -1)
insert_bitmap_file(node);
compute_image_extent(node);
break;
case openaxiom_Inputpixmap_token:
if (node->width == -1)
insert_pixmap_file(node);
compute_image_extent(node);
break;
case openaxiom_Table_token:
compute_table_extent(&node);
break;
case openaxiom_BoldFace_token:
compute_bf_extent(node);
break;
case openaxiom_Emphasize_token:
compute_em_extent(node);
break;
case openaxiom_It_token:
compute_it_extent(node);
break;
case openaxiom_Rm_token:
case openaxiom_Sl_token:
case openaxiom_Tt_token:
compute_rm_extent(node);
break;
case openaxiom_Inputstring_token:
compute_input_extent(node);
break;
case openaxiom_SimpleBox_token:
case openaxiom_Radiobox_token:
compute_ir_extent(node);
break;
case openaxiom_Endbox_token:
text_x += box_width;
break;
case openaxiom_Endmacro_token:
case openaxiom_Endparameter_token:
break;
case openaxiom_Description_token:
bf_top_group();
break;
case openaxiom_Enddescription_token:
pop_group_stack();
if (gInDesc)
return;
break;
case openaxiom_Endscrolling_token:
/*
* What we should do here is if we am in the middle of a line, we
* should end it here an now.
*/
if (gInLine)
start_newline(present_line_height, node);
break;
case openaxiom_Noop_token:
noop_count++;
break;
case openaxiom_Endinputbox_token:
case openaxiom_Endheader_token:
case openaxiom_Endtitle_token:
case openaxiom_Endfooter_token:
case openaxiom_Rbrace_token:
case openaxiom_Free_token:
case openaxiom_Bound_token:
case openaxiom_Beep_token:
case 0:
break;
default:
fprintf(stderr, "Compute_text_extent: Unknown node type %d\n",
node->type);
break;
}
}
}
static void
compute_begin_items_extent(TextNode * node)
{
int store_x, store_y, lh;
/*
* This routine pushes the current item_stack, and then tries to set the
* item_indent, and the indent level. It checks for an optional argument
* to begin{items} and if found uses its width.
*/
if (gInLine) {
start_newline(present_line_height, node);
}
store_x = text_x, store_y = text_y, lh = present_line_height;
text_x = indent;
push_item_stack();
gInItem++;
item_indent = indent;
if (node->data.node != NULL) {
/* we have a desc */
gInDesc = 1;
compute_text_extent(node->data.node);
gInDesc = 0;
item_space = text_width(node->data.node, openaxiom_Enddescription_token);
text_x = store_x;
text_y = store_y;
present_line_height = lh;
indent = item_indent + item_space;
}
else
indent = item_indent + 30;
gInLine = 0;
}
static void
compute_item_extent(TextNode * node)
{
if (gInLine)
start_newline(present_line_height, node);
text_x = item_indent;
}
static void
compute_mitem_extent(TextNode *node)
{
if (gInLine) {
start_newline(present_line_height, node);
}
text_x = item_indent;
}
static void
endif_extent(TextNode *node)
{
/*
* This node has the responsibilty for updating text_x and text_y so that
* they are the maxaimum width of teh else and then statements
*/
text_x = if_node->x;
text_y = if_node->y;
if_node = NULL;
}
static void
compute_ifcond_extent(TextNode *node)
{
TextNode *condnode = node->data.ifnode->cond;
TextNode *tln = gLineNode;
int store_x = text_x, store_y = text_y, lh = present_line_height;
int then_x, then_y;
/*
* This routine checks the value of the condition and swaps in the else
* or the then depending
*/
/*
* we have to compute the maximum width and height of the rest of the
* text and stuff
*/
push_group_stack();
if (gInLine && node->space)
text_x += inter_word_space;
compute_text_extent(node->data.ifnode->thennode);
then_x = text_x;
then_y = text_y;
text_x = store_x;
text_y = store_y;
present_line_height = lh;
gLineNode = tln;
if (gInLine && node->space)
text_x += inter_word_space;
compute_text_extent(node->data.ifnode->elsenode);
/* Now choose the best one that is biggest and put it into ifnode */
if (then_y > text_y) {
node->y = then_y;
node->x = then_x;
}
else if (text_y > then_y) {
node->y = text_y;
node->x = text_x;
}
else if (text_x > then_x) {
node->y = text_y;
node->x = text_x;
}
else {
node->y = then_y;
node->x = then_x;
}
/* restore everything */
text_x = store_x;
text_y = store_y;
present_line_height = lh;
gLineNode = tln;
node->width = 0;
if_node = node;
if (gInLine && node->space)
text_x += inter_word_space;
if (check_condition(condnode)) {
node->next = node->data.ifnode->thennode;
}
else {
node->next = node->data.ifnode->elsenode;
}
pop_group_stack();
}
static void
compute_center_extent(TextNode * node)
{
if (gInLine)
start_newline(present_line_height, node);
center_top_group();
if (gLineNode)
text_x = indent;
else {
fprintf(stderr, "(HyperDoc) Internal error: unexpected state in compute_center_extent.\n");
exit(-1);
}
}
static void
compute_bf_extent(TextNode *node)
{
if (gInLine && node->space)
text_x += inter_word_space;
node->x = text_x;
node->y = text_y;
bf_top_group();
}
static void
compute_em_extent(TextNode *node)
{
if (gInLine && node->space)
text_x += inter_word_space;
node->x = text_x;
node->y = text_y;
if (gTopOfGroupStack->cur_font == gEmFont)
rm_top_group();
else
em_top_group();
}
static void
compute_it_extent(TextNode *node)
{
if (gInLine && node->space)
text_x += inter_word_space;
node->x = text_x;
node->y = text_y;
}
static void
compute_rm_extent(TextNode *node)
{
if (gInLine && node->space)
text_x += inter_word_space;
node->x = text_x;
node->y = text_y;
rm_top_group();
}
static void
compute_button_extent(TextNode *node)
{
int twidth;
/*int store_x = text_x;*/
/*int store_y = text_y;*/
/*int lh = present_line_height;*/
push_active_group();
/* First see if we should leave a little space in front of myself * */
if (gInLine && node->space)
text_x += inter_word_space;
twidth = text_width(node->next, openaxiom_Endbutton_token);
if (gInLine && node->space)
text_x += inter_word_space;
if (text_x + twidth > right_margin && gInLine) {
start_newline(present_line_height, node);
text_x = indent;
}
node->x = text_x;
node->y = text_y;
link_node = node;
}
static void
endbutton_extent(TextNode *node)
{
int temp;
int height;
int twidth;
int y;
int maxx;
maxx = max_x(link_node, openaxiom_Endbutton_token);
link_node->width = twidth = text_width(link_node->next,
openaxiom_Endbutton_token);
height = link_node->y;
temp = text_height(link_node->next, openaxiom_Endbutton_token);
link_node->height = temp - link_node->y + line_height;
if (gInLine)
y = text_y;
else
y = text_y - past_line_height;
if (y > height) {
link_node->y = temp; /* height + link_node->height -
* normal_text_height; */
link_node->width = maxx - indent;
if (gInLine) {
start_newline(present_line_height, node);
text_x = indent;
}
}
else {
link_node->width = twidth;
link_node->y = text_y + link_node->height - line_height;
}
pop_group_stack();
link_node = NULL;
}
static void
compute_pastebutton_extent(TextNode *node)
{
int twidth;
push_active_group();
/*
First see if we should leave a little space in front of myself * */
if (gInLine && node->space)
text_x += inter_word_space;
twidth = text_width(node->next, openaxiom_Endpastebutton_token);
if (gInLine && node->space)
text_x += inter_word_space;
if (text_x + twidth > right_margin && gInLine) {
start_newline(present_line_height, node);
text_x = indent;
}
node->x = text_x;
node->y = text_y;
paste_node = node;
return;
}
static void
endpastebutton_extent(TextNode *node)
{
int temp;
int height;
int twidth;
paste_node->width = twidth = text_width(paste_node->next, openaxiom_Endpastebutton_token);
height = paste_node->y;
temp = text_height(paste_node->next, openaxiom_Endpastebutton_token);
paste_node->height = temp - paste_node->y + line_height;
if (text_y > height) {
paste_node->y = temp;
paste_node->width = right_margin - indent;
if (gInLine) {
start_newline(present_line_height, node);
text_x = indent;
}
}
else {
paste_node->width = twidth;
paste_node->y = text_y + paste_node->height - line_height;
}
pop_group_stack();
paste_node = NULL;
gInLine = 1;
}
static void
compute_paste_extent(TextNode *node)
{
if (gInLine) {
start_newline(present_line_height, node);
text_x = indent;
}
node->x = text_x;
node->y = text_y;
node->height = line_height;
}
/* Compute the text extent of a spadcommand node */
static void
compute_spadcommand_extent(TextNode *node)
{
/*
* From now on if there is an example which will take over a line, then
* it will start and end with a newline
*/
/*int height;*/
int t_width;
/*int store_x = text_x;*/
/*int store_y = text_y;*/
/*int lh = present_line_height;*/
gInAxiomCommand = 1;
push_spad_group();
/* Check to see if we should space in front of myself */
if (gInLine && node->space)
text_x += inter_word_space;
t_width = text_width(node->next, openaxiom_Endspadcommand_token);
if (gInLine && ((text_x + t_width) > right_margin)) {
start_newline(present_line_height, node);
text_x = indent;
}
node->x = text_x;
node->y = text_y;
spad_node = node;
}
static void
compute_spadsrc_extent(TextNode *node)
{
/*
* From now on if there is an example which will take over a line, then
* it will start and end with a newline
*/
/*int store_x = text_x;*/
/*int store_y = text_y;*/
/*int lh = present_line_height;*/
gInAxiomCommand = 1;
push_spad_group();
if (gInLine) {
start_newline(present_line_height, node);
text_x = indent;
}
node->x = text_x;
node->y = text_y;
spad_node = node;
}
static void
end_spadcommand_extent(TextNode *node)
{
int temp;
int height;
int twidth;
int maxx;
/*int y = (gInLine) ? (text_y) : (text_y - past_line_height);*/
maxx = max_x(spad_node, openaxiom_Endspadcommand_token);
twidth = spad_node->width = text_width(spad_node->next,
openaxiom_Endspadcommand_token);
height = spad_node->y;
temp = text_height(spad_node->next, openaxiom_Endspadcommand_token);
spad_node->height = temp - height + line_height;
if (text_y > height && gInLine) {
spad_node->y = temp;
spad_node->width = maxx - indent;
start_newline(present_line_height, node);
text_x = indent;
}
else {
spad_node->width = twidth;
spad_node->y = text_y - line_height + spad_node->height;
}
pop_group_stack();
gInAxiomCommand = 0;
spad_node = NULL;
}
static void
end_spadsrc_extent(TextNode *node)
{
int temp;
int height;
int twidth;
int maxx;
int y = (gInLine) ? (text_y) : (text_y - past_line_height);
maxx = max_x(spad_node, openaxiom_Endspadsrc_token);
twidth = spad_node->width = text_width(spad_node->next,
openaxiom_Endspadsrc_token);
height = spad_node->y;
temp = text_height(spad_node->next, openaxiom_Endspadsrc_token);
spad_node->height = temp - height + line_height;
if (y > height && gInLine) {
spad_node->y = temp;
spad_node->width = maxx - indent;
start_newline(present_line_height, node);
text_x = indent;
}
else {
spad_node->width = twidth;
spad_node->y = text_y - line_height + spad_node->height;
}
pop_group_stack();
gInAxiomCommand = 0;
spad_node = NULL;
}
static void
compute_mbox_extent(TextNode *node)
{
node->width = text_width(node->next, openaxiom_Endmbox_token);
if (node->space)
text_x += inter_word_space;
if (text_x + node->width > right_margin) {
start_newline(present_line_height, node);
text_x = indent;
}
node->x = text_x;
node->y = text_y;
}
static void
compute_box_extent(TextNode *node)
{
int t_width;
/*
* First thing we do is see if we need to skip some space in front of the
* word
*/
if (gInLine && node->space)
text_x += inter_word_space;
/* Calculate the actual width of the box */
t_width = text_width(node->next, openaxiom_Endbox_token) + 2 * box_width;
if (text_x + t_width > right_margin) {
start_newline(present_line_height, node);
text_x = indent;
}
node->x = text_x;
text_x = text_x + box_width;
node->y = text_y - 2;
node->width = t_width;
node->height = line_height - 2;
gInLine = 1;
}
static void
compute_ir_extent(TextNode *node)
{
int t_width;
/*
* First thing we do is see if we need to skip some space in front of the
* word
*/
if (gInLine && node->space)
text_x += inter_word_space;
/* Calculate the actual width of the box */
t_width = node->width;
if (text_x + t_width > right_margin) {
start_newline(present_line_height, node);
text_x = indent;
}
node->x = text_x;
if (node->height > line_height) {
node->height = present_line_height = plh(node->height + inter_line_space);
node->y = text_y + node->height - normal_text_height;
}
else {
node->y = text_y - line_height + node->height;
}
gInLine = 1;
text_x += node->width;
}
/* read a bitmap file into memory */
static void
compute_image_extent(TextNode *node)
{
if (text_x + node->width > right_margin) {
start_newline(present_line_height, node);
text_x = indent;
}
node->x = text_x;
if (node->height > line_height) {
present_line_height = plh(node->height + inter_line_space);
node->y = text_y + node->height - line_height;
}
else {
node->y = text_y - line_height + node->height;
}
text_x += node->width;
gInLine = 1;
}
/*
* compute the coordinates of the entries in a table
*/
static void
compute_table_extent(TextNode **node)
{
int num_cols, num_lines;
int max_width = 0, node_width, col_width;
int x, y, num_entries = 0,/* n=0, */ screen_width, table_top;
TextNode *front = *node;
TextNode *tn;
gInTable = 1;
front->x = text_x;
front->y = text_y;
for (tn = front->next; tn->type != openaxiom_Endtable_token;
num_entries++, tn = tn->next) {
/* Now we need to scan the table group by group */
node_width = text_width(tn->next, openaxiom_Endtableitem_token);
if (node_width > max_width)
max_width = node_width;
/* Get to the beginning og the next group */
for (; tn->type != openaxiom_Endtableitem_token; tn = tn->next);
}
col_width = max_width + min_inter_column_space;
screen_width = gWindow->width - right_margin_space - indent;
num_cols = screen_width / col_width;
if (num_cols == 0)
num_cols = 1;
num_lines = num_entries / num_cols;
if (num_entries % num_cols != 0)
++num_lines;
if (gInLine) {
start_newline(present_line_height, *node);
}
table_top = text_y;
num_cols = num_entries / num_lines;
if (num_entries % num_lines != 0)
++num_cols;
col_width = screen_width / num_cols;
for (tn = front->next, x = 0; x < num_cols; x++)
for (y = 0; y < num_lines && tn->type != openaxiom_Endtable_token; y++) {
if (num_cols == 1 && y > 0)
text_y += line_height;
else
text_y = table_top + y * line_height;
text_x = indent + x * col_width;
gInLine = 0;
compute_text_extent(tn->next);
for (; tn->type != openaxiom_Endtableitem_token; tn = tn->next);
tn = tn->next;
}
front->height = num_lines * line_height;
front->width = screen_width;
text_x = indent;
if (num_cols == 1)
text_y += line_height;
else
text_y = table_top + front->height;
*node = tn;
gInLine = 0;
}
void
compute_title_extent(HyperDocPage *page)
{
right_margin_space = non_scroll_right_margin_space;
page->title->height = twheight + gWindow->border_width;
page->title->x = gWindow->border_width + 2 * twwidth + (int) gWindow->border_width / 2;
gLineNode = page->title->next;
init_title_extents(page);
text_y = top_margin + line_height;
compute_text_extent(page->title->next);
page->title->height = max(text_height(page->title->next,
openaxiom_Endtitle_token),
twheight);
}
void
compute_header_extent(HyperDocPage *page)
{
/*
* Hopefully we will soon be able to actually compute the needed height
* for the header here
*/
int ty; /* UNUSED */
gExtentRegion = Header;
right_margin_space = non_scroll_right_margin_space;
init_extents();
ty = text_y = 3 * top_margin + line_height + max(page->title->height, twheight);
gLineNode = page->header->next;
compute_text_extent(page->header->next);
page->header->height = text_height(page->header->next,
openaxiom_Endheader_token);
if (page->header->height) {
page->header->height += 1 / 2 * line_height;
page->top_scroll_margin = (gInLine) ? text_y : text_y - past_line_height;
if (!(page->page_flags & NOLINES))
page->top_scroll_margin += (int) line_height / 2;
page->top_scroll_margin += gWindow->border_width + 2 * top_margin;
}
else {
page->top_scroll_margin = page->title->height + gWindow->border_width +
2 * scroll_top_margin;
}
}
void
compute_footer_extent(HyperDocPage * page)
{
if (page->footer) {
gExtentRegion = Footer;
right_margin_space = non_scroll_right_margin_space;
init_extents();
present_line_height = line_height;
text_y = line_height;
gLineNode = page->footer->next;
compute_text_extent(page->footer->next);
page->footer->height = text_height(page->footer->next,
openaxiom_Endfooter_token);
if (page->footer->height) {
if ((!page->page_flags & NOLINES))
page->footer->height += (int) line_height / 2;
page->bot_scroll_margin = gWindow->height -
page->footer->height - bottom_margin
- gWindow->border_width + top_margin;
}
else
page->bot_scroll_margin = gWindow->height;
}
}
void
compute_scrolling_extent(HyperDocPage *page)
{
/* Check to see if there is a scrolling region */
if (!page->scrolling) {
return;
}
noop_count = 0;
/* If there is then compute all the proper locations */
gExtentRegion = Scrolling;
right_margin_space = non_scroll_right_margin_space + gScrollbarWidth;
init_extents();
text_y = line_height;
gLineNode = page->scrolling->next;
compute_text_extent(page->scrolling->next);
/*
* the following is an attempt to fix the bug where one cannot scroll
* down to a bitmap that is opened at the bottom of a page.
*/
/*
* TTT trial if(!gInLine)
*/
if (0) {
text_y = text_y - past_line_height;
}
else if (present_line_height > line_height)
text_y = text_y + present_line_height - line_height;
page->scrolling->height = text_y;
}
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