quakeforge/libs/ui/passage.c

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[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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/*
passage.c
Text passage formatting.
Copyright (C) 2022 Bill Currie <bill@taniwha.org>
This program 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
of the License, or (at your option) any later version.
This program 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 this program; if not, write to:
Free Software Foundation, Inc.
59 Temple Place - Suite 330
Boston, MA 02111-1307, USA
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#ifdef HAVE_STRING_H
# include <string.h>
#endif
#ifdef HAVE_STRINGS_H
# include <strings.h>
#endif
#include "QF/alloc.h"
#include "QF/qtypes.h"
#include "QF/sys.h"
#include "QF/ecs.h"
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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#include "QF/ui/passage.h"
#include "QF/ui/view.h"
const component_t passage_components[passage_comp_count] = {
[passage_href] = {
.size = sizeof (hierref_t),
.name = "passage href",
.destroy = Hierref_DestroyComponent,
},
};
static const component_t passage_type_components[passage_type_count] = {
[passage_type_text_obj] = {
.size = sizeof (psg_text_t),
.name = "Text",
},
};
static const hierarchy_type_t passage_type = {
.num_components = passage_type_count,
.components = passage_type_components,
};
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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VISIBLE int
Passage_IsSpace (const char *text)
{
if (text[0] == ' ') {
return 1;
}
// 2002;EN SPACE;Zs;0;WS;<compat> 0020;;;;N;;;;;
// 2003;EM SPACE;Zs;0;WS;<compat> 0020;;;;N;;;;;
// 2004;THREE-PER-EM SPACE;Zs;0;WS;<compat> 0020;;;;N;;;;;
// 2005;FOUR-PER-EM SPACE;Zs;0;WS;<compat> 0020;;;;N;;;;;
// 2006;SIX-PER-EM SPACE;Zs;0;WS;<compat> 0020;;;;N;;;;;
// 2008;PUNCTUATION SPACE;Zs;0;WS;<compat> 0020;;;;N;;;;;
// 2009;THIN SPACE;Zs;0;WS;<compat> 0020;;;;N;;;;;
// 200A;HAIR SPACE;Zs;0;WS;<compat> 0020;;;;N;;;;;
if ((byte)text[0] == 0xe2 && (byte)text[1] == 0x80
&& ((byte)text[2] >= 0x80 && (byte)text[2] < 0x90
&& ((1 << (text[2] & 0xf)) & 0x077c))) {
return 3;
}
// 205F;MEDIUM MATHEMATICAL SPACE;Zs;0;WS;<compat> 0020;;;;N;;;;;
if ((byte)text[0] == 0xe2 && (byte)text[1] == 0x81
&& (byte)text[2] == 0x9f) {
return 3;
}
return 0;
}
static void
add_entity (hierarchy_t *h, uint32_t parent)
{
uint32_t i = Hierarchy_InsertHierarchy (h, 0, parent, 0);
h->ent[i] = ECS_NewEntity (h->reg);
hierref_t *ref = Ent_AddComponent (h->ent[i], h->href_comp, h->reg);
ref->hierarchy = h;
ref->index = i;
}
VISIBLE void
Passage_ParseText (passage_t *passage, const char *text)
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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{
if (passage->hierarchy) {//FIXME just empty hierarchy
Hierarchy_Delete (passage->hierarchy);
}
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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if (!*text) {
return;
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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}
passage->text = text;
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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unsigned num_paragraphs = 1;
unsigned num_text_objects = 1;
psg_text_t root_text = {};
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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int parsing_space = Passage_IsSpace (text);
for (const char *c = text; *c; c++) {
int size;
if ((size = Passage_IsSpace (c))) {
if (!parsing_space) {
num_text_objects++;
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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}
parsing_space = 1;
c += size - 1;
} else if (*c == '\n') {
if (c[1]) {
num_paragraphs++;
num_text_objects += !Passage_IsSpace (c + 1);
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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}
} else {
if (parsing_space) {
num_text_objects++;
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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}
parsing_space = 0;
}
root_text.size = c - text;
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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}
passage->hierarchy = Hierarchy_New (passage->reg,
passage->comp_base + passage_href,
&passage_type, 0);
Hierarchy_Reserve (passage->hierarchy,
1 + num_paragraphs + num_text_objects);
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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#if 0
printf ("num_paragraphs %d, num_text_objects %d\n", num_paragraphs,
passage->num_text_objects);
#endif
add_entity (passage->hierarchy, nullent);
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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for (unsigned i = 0; i < num_paragraphs; i++) {
add_entity (passage->hierarchy, 0);
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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}
num_paragraphs = 0;
hierarchy_t *h = passage->hierarchy;
psg_text_t *passage_obj = h->components[passage_type_text_obj];
psg_text_t *par_obj = &passage_obj[h->childIndex[0]];
psg_text_t *text_obj = &passage_obj[h->childIndex[1]];
*par_obj = *text_obj = (psg_text_t) { };
*passage_obj = root_text;
add_entity (passage->hierarchy, par_obj - passage_obj);
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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parsing_space = Passage_IsSpace (text);
for (const char *c = text; *c; c++) {
int size;
if ((size = Passage_IsSpace (c))) {
if (!parsing_space) {
add_entity (passage->hierarchy, par_obj - passage_obj);
text_obj->size = c - text - text_obj->text;
(++text_obj)->text = c - text;
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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}
parsing_space = 1;
c += size - 1;
} else if (*c == '\n') {
text_obj->size = c - text - text_obj->text;
par_obj->size = c - text - par_obj->text;
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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if (c[1]) {
(++par_obj)->text = c + 1 - text;
add_entity (passage->hierarchy, par_obj - passage_obj);
(++text_obj)->text = c + 1 - text;
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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parsing_space = Passage_IsSpace (c + 1);
}
} else {
if (parsing_space) {
add_entity (passage->hierarchy, par_obj - passage_obj);
text_obj->size = c - text - text_obj->text;
(++text_obj)->text = c - text;
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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}
parsing_space = 0;
if (!c[1]) {
text_obj->size = c + 1 - text - text_obj->text;
par_obj->size = c + 1 - text - par_obj->text;
passage_obj->size = c + 1 - text - passage_obj->text;
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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}
}
}
#if 0
for (uint32_t i = 0; i < h->num_objects; i++) {
psg_text_t *to = &passage_obj[i];
uint32_t ent = h->ent[i];
hierref_t *ref = Ent_GetComponent (ent, h->href_comp, reg);
printf ("%3d %8x %3d %4d %4d '%.*s'\n", i, ent, ref->index,
to->text, to->size, to->size, text + to->text);
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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}
#endif
}
VISIBLE passage_t *
Passage_New (ecs_system_t passage_sys)
{
passage_t *passage = malloc (sizeof (passage_t));
passage->text = 0;
passage->reg = passage_sys.reg;
passage->comp_base = passage_sys.base;
passage->hierarchy = 0;
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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return passage;
}
VISIBLE void
Passage_Delete (passage_t *passage)
{
if (passage->hierarchy) {
Hierarchy_Delete (passage->hierarchy);
}
[ui] Add a sub-system for parsing text passages A passage object has a list of all the text objects in the given string, where the objects represent either white space or "words", as well as a view_t object representing the entire passage, with paragraphs split into child views of the passage view, and each paragraph has a child view for every text/space object in the paragraph. Paragraphs are split by '\n' (not included in any object). White space is grouped into clumps such that multiple adjacent spaces form a single object. The standard ASCII space (0x20) and all of the Unicode characters marked "WS;<compat> 0020" are counted as white space. Unless a white space object is the first in the paragraph, its view is marked for suppression by the view flow code. Contiguous non-white space characters are grouped into single objects, and their views are not suppressed. All text object views (both white space and "word") have their data pointer set to the psg_text_t object representing the text for that view. This should be suitable for simple text-mode unattributed display. More advanced rendering would probably want to create suitable objects and set the view data pointers to those objects. No assumption is made about text direction. Passage and paragraph views need to have their primary axis sizes set appropriately, as well as their resize flags. Their xlen and ylen are both set to 10, and xpos,ypos is 0,0. Paragraph views need their setgeometry pointer set to the appropriate view_flow_* function. However, they are set up to have their secondary axis set automatically when flowed. Text object views are set up for automatic flowing: grav_flow, 0,0 for xpos,ypos. However, xlen and ylen are also both 0, so need to be set by the renderer before attempting to flow the text.
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free (passage);
}