/* 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. */ /****************************************************************************** * * extent2.h: HyperDoc extent computation routines * * Copyright The Numerical Algorithms Group Limited 1991, 1992, 1993. * ****************************************************************************/ #include "openaxiom-c-macros.h" #include "debug.h" #include "halloc.h" #include "sockio.h" #include "extent.h" #include "group.h" #include "titlebar.h" #include "cfuns.h" using namespace OpenAxiom; static void center_nodes(TextNode * begin_node , TextNode * end_node); static int input_string_width(TextNode * node); static int punctuation_width(TextNode * node); static int text_height1(TextNode * node , int Ender); static int verbatim_width(TextNode * node); static int width_of_dash(TextNode * node); static int word_width(TextNode * node); static int x_value(TextNode * node); static int cur_height = 0; static int max_x_value = 0; /* * start_newline updates the current header node, and also allocates if needed * memory for the next Line Header. It also assigns the first TextNode on the * line to the structure, because this is the last time I will be able to do * this */ void start_newline(int distance, TextNode * node) { if (gLineNode != NULL) { if (gTopOfGroupStack->center) center_nodes(gLineNode, node); gLineNode = node; } text_y += distance; past_line_height = distance; present_line_height = line_height; gInLine = 0; } /* * center_nodes goes through and centers all the text between the two * given nodes. */ static void center_nodes(TextNode * begin_node, TextNode * end_node) { int begin_x, end_x, wmid_x, offset, mid_x; TextNode *node; end_x = text_x; begin_x = x_value(begin_node); mid_x = (int) (end_x + begin_x) / 2; wmid_x = (int) (right_margin + indent) / 2; if (mid_x > wmid_x) offset = 0; else offset = wmid_x - mid_x; for (node = begin_node; node != end_node; node = node->next) if (node->x > 0) node->x += offset; } static int punctuation_width(TextNode * node) { int twidth, width = strlen(node->data.text); twidth = XTextWidth(gTopOfGroupStack->cur_font, node->data.text, width); /* check to see if there was some space in front */ if (gInLine && (node->space & FRONTSPACE)) twidth += inter_word_space; # if 0 if (node->space & BACKSPACE) { switch (node->data.text[0]) { case '.': case '?': case '!': twidth += term_punct_space; break; } } #endif return twidth; } static int input_string_width(TextNode * node) { InputItem *item; int t_width; /** search the symbol table for the proper entry **/ item = node->link->reference.string; /** Once I have gotten this far, I should just be able to calculate the width using the normal font **/ t_width = (item->size + 1) * gInputFont->max_bounds.width + 10; return t_width; } static int word_width(TextNode * node) { int twidth, len = strlen(node->data.text); twidth = XTextWidth(gTopOfGroupStack->cur_font, node->data.text, len); if (node->space & FRONTSPACE) twidth += inter_word_space; return twidth; } static int verbatim_width(TextNode * node) { int twidth, len = strlen(node->data.text); twidth = XTextWidth(gTopOfGroupStack->cur_font, node->data.text, len); if (node->space) twidth += inter_word_space; return twidth; } static int width_of_dash(TextNode * node) { int num_dashes, twidth; 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 (node->space) twidth += inter_word_space; return twidth; } /* * return the gWindow->width in pixels of the given text node, when * displayed */ int text_width(TextNode * node, int Ender) { int twidth = 0, num_words; for (num_words = 0; node != NULL; num_words++, node = node->next) { if (Ender == openaxiom_Endtokens_token) { if (node->type == openaxiom_Endtokens_token) return twidth; } else if (node->type == Ender) return twidth; switch (node->type) { case openaxiom_Macro_token: case openaxiom_Pound_token: if (node->space && gInLine) twidth += inter_word_space; break; case openaxiom_Punctuation_token: twidth += punctuation_width(node); break; case openaxiom_Dash_token: if (gInLine && node->space) twidth += inter_word_space; twidth += width_of_dash(node); break; case openaxiom_Verbatim_token: case openaxiom_Spadsrctxt_token: twidth += verbatim_width(node); break; case openaxiom_Lsquarebrace_token: case openaxiom_Rsquarebrace_token: case openaxiom_Word_token: twidth += word_width(node); break; case openaxiom_Box_token: twidth += 2 * box_space; break; case openaxiom_Link_token: case openaxiom_Downlink_token: case openaxiom_Memolink_token: case openaxiom_Windowlink_token: case openaxiom_LispMemoLink_token: case openaxiom_Lispwindowlink_token: case openaxiom_Lisplink_token: case openaxiom_Unixlink_token: case openaxiom_Spadcall_token: case openaxiom_Spadcallquit_token: case openaxiom_Qspadcall_token: case openaxiom_Qspadcallquit_token: case openaxiom_LispDownLink_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: case openaxiom_Upbutton_token: case openaxiom_Returnbutton_token: case openaxiom_Description_token: push_active_group(); break; case openaxiom_Endbutton_token: case openaxiom_Endspadcommand_token: case openaxiom_Enddescription_token: pop_group_stack(); break; case openaxiom_Endlink_token: pop_group_stack(); break; case openaxiom_Inputstring_token: twidth += input_string_width(node); break; case openaxiom_SimpleBox_token: case openaxiom_Radiobox_token: twidth += node->width + ((node->space) ? inter_word_space : 0); break; case openaxiom_Spadcommand_token: case openaxiom_Spadgraph_token: push_spad_group(); break; case openaxiom_VSpace_token: break; case openaxiom_HSpace_token: twidth += (node->data.node != NULL ? atoi(node->data.node->data.text) : 1); break; case openaxiom_Space_token: twidth += (gTopOfGroupStack->cur_font->max_bounds.width) * (node->data.node != NULL ? atoi(node->data.node->data.text) : 1); break; case openaxiom_Tab_token: twidth = (gTopOfGroupStack->cur_font->max_bounds.width) * (node->data.node != NULL ? atoi(node->data.node->data.text) : 1); break; case openaxiom_Table_token: twidth = gWindow->width - left_margin - right_margin_space; break; case openaxiom_Tableitem_token: case openaxiom_Group_token: twidth += (node->space) ? inter_word_space : 0; push_group_stack(); break; case openaxiom_BoldFace_token: if (node->space) twidth += inter_word_space; bf_top_group(); break; case openaxiom_Emphasize_token: if (node->space) twidth += inter_word_space; if (gTopOfGroupStack->cur_font == gRmFont) em_top_group(); else rm_top_group(); break; case openaxiom_It_token: if (node->space) twidth += inter_word_space; em_top_group(); break; case openaxiom_Rm_token: case openaxiom_Sl_token: case openaxiom_Tt_token: if (node->space) twidth += inter_word_space; rm_top_group(); break; case openaxiom_Endgroup_token: pop_group_stack(); break; case openaxiom_Controlbitmap_token: case openaxiom_Inputbitmap_token: if (node->width == -1) insert_bitmap_file(node); twidth += node->width; break; case openaxiom_Inputpixmap_token: if (node->width == -1) insert_pixmap_file(node); twidth += node->width; break; case openaxiom_Mbox_token: case openaxiom_Indent_token: case openaxiom_Endmacro_token: case openaxiom_Free_token: case openaxiom_Bound_token: case openaxiom_Beep_token: case openaxiom_Item_token: case openaxiom_Titem_token: case openaxiom_Beginitems_token: case openaxiom_Noop_token: case openaxiom_Endinputbox_token: case openaxiom_Fi_token: case openaxiom_Ifcond_token: case openaxiom_Endif_token: case openaxiom_Begintitems_token: case openaxiom_Enditems_token: case openaxiom_Endtitems_token: case openaxiom_Endtableitem_token: case openaxiom_Endtable_token: case openaxiom_Endparameter_token: case openaxiom_Endbox_token: case openaxiom_Endheader_token: case openaxiom_Endfooter_token: case openaxiom_Endscrolling_token: case openaxiom_Endverbatim_token: case openaxiom_Endspadsrc_token: break; case openaxiom_Newline_token: /* WOw, I guess I should ertunr a really big number */ twidth += gWindow->width; break; default: /* * fprintf(stderr, "Unknown nodetype %d in text_width\n", * node->type); */ break; } } return twidth; } /* * total_width traces through the nodes, until it finds a blank space. It is * used by compute_word_extent, and compute_punctuation extent to determine * How far we go before we actually see white space. */ int total_width(TextNode * node, int Ender) { int twidth = 0; for (; (node != NULL); node = node->next) { if (Ender == openaxiom_Endtokens_token) { if (node->type >= openaxiom_Endtokens_token) return twidth; } else if (node->type == Ender) return twidth; /* * The first thing we check for is to see if there was space in front * of the current node, if so we are done */ if (node->space) return twidth; /*** Else depending on the node type ***/ switch (node->type) { case openaxiom_Noop_token: case openaxiom_Endinputbox_token: case openaxiom_Pound_token: case openaxiom_Ifcond_token: case openaxiom_Fi_token: case openaxiom_Endif_token: break; case openaxiom_Rsquarebrace_token: case openaxiom_Punctuation_token: case openaxiom_Word_token: case openaxiom_Dash_token: twidth += XTextWidth(gTopOfGroupStack->cur_font, node->data.text, strlen(node->data.text)); break; case openaxiom_Box_token: case openaxiom_Link_token: case openaxiom_Downlink_token: case openaxiom_Memolink_token: case openaxiom_Windowlink_token: case openaxiom_LispMemoLink_token: case openaxiom_Lispwindowlink_token: case openaxiom_Lisplink_token: case openaxiom_Unixlink_token: case openaxiom_Spadcall_token: case openaxiom_Spadcallquit_token: case openaxiom_Qspadcall_token: case openaxiom_Qspadcallquit_token: case openaxiom_LispDownLink_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: case openaxiom_Inputstring_token: case openaxiom_SimpleBox_token: case openaxiom_Radiobox_token: case openaxiom_Upbutton_token: case openaxiom_Returnbutton_token: case openaxiom_Spadcommand_token: case openaxiom_Spadgraph_token: case openaxiom_VSpace_token: case openaxiom_HSpace_token: case openaxiom_Space_token: case openaxiom_Table_token: case openaxiom_Group_token: case openaxiom_Controlbitmap_token: case openaxiom_Inputbitmap_token: case openaxiom_Inputpixmap_token: case openaxiom_Free_token: case openaxiom_Beep_token: case openaxiom_Bound_token: case openaxiom_Lsquarebrace_token: case openaxiom_BoldFace_token: case openaxiom_Emphasize_token: case openaxiom_It_token: case openaxiom_Rm_token: case openaxiom_Sl_token: case openaxiom_Tt_token: case openaxiom_Newline_token: case openaxiom_Verbatim_token: case openaxiom_Spadsrctxt_token: return twidth; default: break; } } return twidth; } /* * init_extents initialize some text size variables */ void init_extents() { present_line_height = line_height; gInLine = 0; gInItem = 0; gInAxiomCommand = 0; item_indent = 0; gInDesc = 0; indent = left_margin; text_x = indent; gTopOfGroupStack->cur_font = gRmFont; gTopOfGroupStack->cur_color = gRmColor; right_margin = gWindow->width - right_margin_space; clear_item_stack(); } /* * init_title_extents initialize some title text size variables */ void init_title_extents(HyperDocPage * page) { present_line_height = line_height; gInLine = 0; gInAxiomCommand = 0; item_indent = 0; gInDesc = 0; indent = left_margin + page->title->x; text_x = indent; gTopOfGroupStack->cur_font = gRmFont; gTopOfGroupStack->cur_color = gRmColor; right_margin = gWindow->width - right_margin_space - gWindow->border_width - 2 * twwidth; clear_item_stack(); } /* * init_text initialize some text size variables */ void init_text() { normal_text_height = gRmFont->ascent + gRmFont->descent; line_height = gRmFont->ascent + gRmFont->descent + inter_line_space; word_off_height = line_height - normal_text_height; space_width = gRmFont->max_bounds.width; } /* * text_height returns the height of a piece of formatted text in pixels */ int text_height(TextNode * node, int Ender) { cur_height = 0; return text_height1(node, Ender); } /* * text_height1 is the recursive part of text_height */ static int text_height1(TextNode * node, int Ender) { for (; node != NULL; node = node->next) { if (Ender == openaxiom_Endtokens_token) { if (node->type > -openaxiom_Endtokens_token) return cur_height; } else if (node->type == Ender) return cur_height; switch (node->type) { case openaxiom_Center_token: case openaxiom_Downlink_token: case openaxiom_Link_token: case openaxiom_Spadcommand_token: case openaxiom_Spadgraph_token: case openaxiom_Upbutton_token: case openaxiom_Returnbutton_token: case openaxiom_Windowlink_token: case openaxiom_Memolink_token: case openaxiom_Lispwindowlink_token: case openaxiom_Lisplink_token: case openaxiom_Unixlink_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: case openaxiom_SimpleBox_token: case openaxiom_Radiobox_token: case openaxiom_Group_token: case openaxiom_Box_token: case openaxiom_Controlbitmap_token: case openaxiom_Inputbitmap_token: case openaxiom_Inputpixmap_token: case openaxiom_Horizontalline_token: case openaxiom_Punctuation_token: case openaxiom_Lsquarebrace_token: case openaxiom_Rsquarebrace_token: case openaxiom_Word_token: case openaxiom_Verbatim_token: case openaxiom_Math_token: case openaxiom_Spadsrctxt_token: case openaxiom_Dash_token: case openaxiom_Inputstring_token: cur_height = max(node->y, cur_height); break; case openaxiom_Mbox_token: case openaxiom_Macro_token: case openaxiom_Pound_token: case openaxiom_Emphasize_token: case openaxiom_BoldFace_token: case openaxiom_It_token: case openaxiom_Rm_token: case openaxiom_Sl_token: case openaxiom_Tt_token: case openaxiom_Endparameter_token: case openaxiom_Description_token: case openaxiom_Enddescription_token: case openaxiom_Noop_token: case openaxiom_Fi_token: case openaxiom_Ifcond_token: case openaxiom_Endif_token: case openaxiom_Endinputbox_token: case openaxiom_Tab_token: case openaxiom_Newline_token: case openaxiom_Space_token: case openaxiom_VSpace_token: case openaxiom_HSpace_token: case openaxiom_Beginitems_token: case openaxiom_Begintitems_token: case openaxiom_Endtitems_token: case openaxiom_Titem_token: case openaxiom_Enditems_token: case openaxiom_Endtable_token: case openaxiom_Endtableitem_token: case openaxiom_Item_token: case openaxiom_Par_token: case openaxiom_Beep_token: case openaxiom_Free_token: case openaxiom_Bound_token: case openaxiom_Endgroup_token: case openaxiom_Endcenter_token: case openaxiom_Endbutton_token: case openaxiom_Endmacro_token: case openaxiom_Tableitem_token: case openaxiom_Endlink_token: case openaxiom_Endspadcommand_token: case openaxiom_Indent_token: case openaxiom_Indentrel_token: case openaxiom_Endbox_token: case openaxiom_Endmbox_token: case openaxiom_Table_token: case openaxiom_Endverbatim_token: case openaxiom_Endmath_token: case openaxiom_Spadsrc_token: case openaxiom_Endspadsrc_token: break; case openaxiom_Beginscroll_token: case openaxiom_Endscroll_token: break; case openaxiom_Endscrolling_token: return cur_height; default: /* * fprintf(stderr, "Text_height1: Unknown Node Type %d\n", * node->type); */ break; } } return cur_height; } /* * max_x returns the height of a piece of formatted text in pixels */ int max_x(TextNode * node, int Ender) { max_x_value = 0; for (; node != NULL; node = node->next) { if (Ender == openaxiom_Endtokens_token) { if (node->type >= openaxiom_Endtokens_token) return max_x_value; } else if (node->type == Ender) return max_x_value; switch (node->type) { case openaxiom_Lsquarebrace_token: case openaxiom_Rsquarebrace_token: case openaxiom_Word_token: max_x_value = max(max_x_value, node->x + word_width(node)); break; case openaxiom_Verbatim_token: case openaxiom_Spadsrctxt_token: max_x_value = max(max_x_value, node->x + verbatim_width(node)); break; case openaxiom_Punctuation_token: max_x_value = max(max_x_value, node->x + punctuation_width(node)); break; case openaxiom_Dash_token: max_x_value = max(max_x_value, node->x + width_of_dash(node)); break; case openaxiom_HSpace_token: max_x_value = max(max_x_value, node->x + (node->data.node != NULL ? atoi(node->data.node->data.text) : 1)); break; case openaxiom_Space_token: max_x_value = max(max_x_value, node->x + (gTopOfGroupStack->cur_font->max_bounds.width) * (node->data.node != NULL ? atoi(node->data.node->data.text) : 1)); break; case openaxiom_Group_token: push_group_stack(); break; case openaxiom_BoldFace_token: bf_top_group(); break; case openaxiom_Emphasize_token: if (gTopOfGroupStack->cur_font == gRmFont) em_top_group(); else rm_top_group(); break; case openaxiom_It_token: em_top_group(); break; case openaxiom_Rm_token: case openaxiom_Sl_token: case openaxiom_Tt_token: rm_top_group(); break; case openaxiom_Endgroup_token: pop_group_stack(); break; case openaxiom_Controlbitmap_token: case openaxiom_Inputbitmap_token: if (node->width == -1) insert_bitmap_file(node); max_x_value = max(max_x_value, node->x + node->width); break; case openaxiom_Inputpixmap_token: if (node->width == -1) insert_pixmap_file(node); max_x_value = max(max_x_value, node->y + node->width); break; default: break; } } return cur_height; } static int x_value(TextNode * node) { for (; node != NULL; node = node->next) { switch (node->type) { case openaxiom_Controlbitmap_token: case openaxiom_Inputbitmap_token: case openaxiom_Inputpixmap_token: case openaxiom_Lsquarebrace_token: case openaxiom_Rsquarebrace_token: case openaxiom_Word_token: case openaxiom_Verbatim_token: case openaxiom_Spadsrctxt_token: case openaxiom_Dash_token: case openaxiom_Punctuation_token: case openaxiom_VSpace_token: case openaxiom_HSpace_token: case openaxiom_Horizontalline_token: case openaxiom_Box_token: case openaxiom_Downlink_token: case openaxiom_Link_token: case openaxiom_Lispwindowlink_token: case openaxiom_Lisplink_token: case openaxiom_Unixlink_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_Spadcommand_token: case openaxiom_Spadgraph_token: case openaxiom_Unixcommand_token: case openaxiom_Space_token: case openaxiom_SimpleBox_token: case openaxiom_Radiobox_token: return node->x; default: #ifdef DEBUG fprintf(stderr, "X_value did not know x value of type %d\n", node->type); #endif return x_value(node->next); } } return 0; } /* * trailing_space computes the length of the trailing spaces of a node */ int trailing_space(TextNode * node) { int space = 0; for (; node->type < openaxiom_Endtokens_token; node = node->next); if (node->type == openaxiom_Space_token) space += inter_word_space * (node->data.node != NULL ? atoi(node->data.node->data.text) : 1); return space; } /* * insert_bitmap_file reads a bitmap file into memory */ void insert_bitmap_file(TextNode * node) { char *filename = node->data.text; int bm_width, bm_height; XImage *im; ImageStruct *image; if (*filename == ' ') filename++; if (node->image.pm == 0) { if ( ((image = (ImageStruct *) hash_find(&gImageHashTable, filename)) == NULL) || (oa_getenv("HTCACHE"))) { /* * read the bitmap if not already in memory or if the environment * variable HTCACHE is set (NAG addition). */ im = HTReadBitmapFile(gXDisplay, gXScreenNumber, filename, &bm_width, &bm_height); /** now add the image to the gImageHashTable **/ image = (ImageStruct *) halloc(sizeof(ImageStruct), "ImageStruct"); image->image.xi = im; image->width = image->image.xi->width; image->height = image->image.xi->height; image->filename = (char *) halloc(sizeof(char) * strlen(filename) +1,"Image Filename"); /* strcpy(image->filename, filename); */ sprintf(image->filename, "%s", filename); hash_insert(&gImageHashTable, (char *)image, image->filename); } node->width = image->width; node->height = image->height; node->image.xi = image->image.xi; } } /* * insert_pixmap_file reads a pixmap file into memory */ void insert_pixmap_file(TextNode * node) { char *filename = node->data.text; int bm_width, bm_height, ret_val; XImage *xi; ImageStruct *image; if (*filename == ' ') filename++; if (node->image.xi == 0) { if ((image = (ImageStruct *) hash_find(&gImageHashTable, filename)) == NULL) { ret_val = read_pixmap_file(gXDisplay, gXScreenNumber, filename, &xi, &bm_width, &bm_height); switch (ret_val) { case(-1): gSwitch_to_mono = 1; return; case BitmapFileInvalid: fprintf(stderr, "File %s contains invalid bitmap data\n", filename); return; case BitmapOpenFailed: fprintf(stderr, "couldn't open bitmap file %s\n", filename); return; case BitmapNoMemory: fprintf(stderr, "not enough memory to store bitmap\n"); return; } image = (ImageStruct *) halloc(sizeof(ImageStruct), "ImageStruct"); image->width = bm_width; image->height = bm_height; image->filename = (char *) halloc(sizeof(char) * strlen(filename) +1, "insert_pixmap--filename"); /* strcpy(image->filename, filename); */ sprintf(image->filename, "%s", filename); image->image.xi = xi; hash_insert(&gImageHashTable, (char *)image, image->filename); } node->width = image->width; node->height = plh(image->height + inter_line_space); node->image.xi = image->image.xi; } } /* * plh calculates the closet value of line_height > height */ int plh(int height) { int rheight = height; if (gExtentRegion == Scrolling) { for (rheight = line_height; rheight < height; rheight += line_height) ; } return rheight; }