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|
/*
* wrap.c
*
* Text wrapping, hyphenation, justification and shaping
*
* Copyright © 2013 Thomas White <taw@bitwiz.org.uk>
*
* This file is part of Colloquium.
*
* Colloquium 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 3 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, see <http://www.gnu.org/licenses/>.
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include <pango/pangocairo.h>
#include <math.h>
#include "storycode.h"
#include "wrap.h"
#include "frame.h"
static void alloc_lines(struct frame *fr)
{
struct wrap_line *lines_new;
lines_new = realloc(fr->lines, fr->max_lines * sizeof(struct wrap_line));
if ( lines_new == NULL ) {
fprintf(stderr, "Couldn't allocate memory for lines!\n");
return;
}
fr->lines = lines_new;
}
static void alloc_boxes(struct wrap_line *l)
{
struct wrap_box *boxes_new;
boxes_new = realloc(l->boxes, l->max_boxes * sizeof(struct wrap_box));
if ( boxes_new == NULL ) {
fprintf(stderr, "Couldn't allocate memory for boxes!\n");
return;
}
l->boxes = boxes_new;
}
static void initialise_line(struct wrap_line *l)
{
l->n_boxes = 0;
l->max_boxes = 32;
l->boxes = NULL;
l->width = 0;
l->height = 0;
l->ascent = 0;
l->last_line = 0;
l->overfull = 0;
alloc_boxes(l);
}
void get_cursor_pos(struct frame *fr, size_t pos,
double *xposd, double *yposd, double *line_height)
{
int line, box;
signed int i;
struct wrap_line *l;
struct wrap_box *b;
int p;
int found = 0;
*xposd = 0;
*yposd = 0;
line = 0;
for ( i=0; i<fr->n_lines; i++ ) {
if ( fr->lines[i].sc_offset > pos ) {
line = i-1;
found = 1;
break;
}
}
if ( !found ) {
/* Cursor is on the last line */
line = fr->n_lines-1;
}
assert(line >= 0);
for ( i=0; i<line; i++ ) {
*yposd += fr->lines[i].height;
}
*line_height = pango_units_to_double(fr->lines[line].height);
*yposd /= PANGO_SCALE;
*yposd += fr->lop.pad_t;
l = &fr->lines[line];
box = 0;
for ( i=0; i<l->n_boxes-1; i++ ) {
box = i;
if ( l->boxes[i+1].type == WRAP_BOX_SENTINEL ) break;
if ( l->boxes[i+1].sc_offset > pos ) break;
*xposd += l->boxes[i].width;
if ( i < l->n_boxes-2 ) {
*xposd += l->boxes[i].sp;
}
}
b = &l->boxes[box];
if ( b->type == WRAP_BOX_PANGO ) {
pango_glyph_string_index_to_x(b->glyphs, b->text,
strlen(b->text),
&b->item->analysis,
pos - b->sc_offset,
FALSE, &p);
//printf("offset %i in '%s' -> %i\n",
// (int)pos-(int)b->sc_offset, b->text, p);
*xposd += p;
*xposd /= PANGO_SCALE;
*xposd += fr->lop.pad_l;
//printf("%i -> line %i, box %i -> %f, %f\n",
// (int)pos, line, box, *xposd, *yposd);
} else {
}
}
#if 0
size_t find_cursor_pos(struct frame *fr, double xposd, double yposd)
{
int line, box;
signed int i;
struct wrap_line *l;
struct wrap_box *b;
int p;
int found = 0;
*xposd = 0;
*yposd = 0;
line = 0;
for ( i=0; i<fr->n_lines; i++ ) {
if ( fr->lines[i].sc_offset > pos ) {
line = i-1;
found = 1;
break;
}
}
if ( !found ) {
/* Cursor is on the last line */
line = fr->n_lines-1;
}
assert(line >= 0);
for ( i=0; i<line; i++ ) {
*yposd += fr->lines[i].height;
}
*line_height = pango_units_to_double(fr->lines[line].height);
*yposd /= PANGO_SCALE;
*yposd += fr->lop.pad_t;
l = &fr->lines[line];
box = 0;
for ( i=0; i<l->n_boxes-1; i++ ) {
box = i;
if ( l->boxes[i+1].type == WRAP_BOX_SENTINEL ) break;
if ( l->boxes[i+1].sc_offset > pos ) break;
*xposd += l->boxes[i].width;
if ( i < l->n_boxes-2 ) {
*xposd += l->boxes[i].sp;
}
}
b = &l->boxes[box];
if ( b->type == WRAP_BOX_PANGO ) {
pango_glyph_string_index_to_x(b->glyphs, b->text,
strlen(b->text),
&b->item->analysis,
pos - b->sc_offset,
FALSE, &p);
//printf("offset %i in '%s' -> %i\n",
// (int)pos-(int)b->sc_offset, b->text, p);
*xposd += p;
*xposd /= PANGO_SCALE;
*xposd += fr->lop.pad_l;
//printf("%i -> line %i, box %i -> %f, %f\n",
// (int)pos, line, box, *xposd, *yposd);
} else {
}
}
#endif
static void shape_and_measure(gpointer data, gpointer user_data)
{
struct wrap_box *box = user_data;
PangoItem *item = data;
PangoRectangle rect;
/* FIXME: Don't assume only one run per wrap box */
box->glyphs = pango_glyph_string_new();
box->item = item;
pango_shape(box->text+item->offset, item->length, &item->analysis,
box->glyphs);
pango_glyph_string_extents(box->glyphs, box->font, NULL, &rect);
box->width += rect.width;
if ( rect.height > box->height ) {
box->height = rect.height;
}
if ( PANGO_ASCENT(rect) > box->ascent ) {
box->ascent = PANGO_ASCENT(rect);
}
}
static void calc_line_geometry(struct wrap_line *line)
{
int i;
line->width = 0;
for ( i=0; i<line->n_boxes; i++ ) {
struct wrap_box *box = &line->boxes[i];
line->width += box->width;
line->width += box->sp;
if ( box->height > line->height ) line->height = box->height;
if ( box->ascent > line->ascent ) line->ascent = box->ascent;
}
}
struct sc_font
{
PangoFontDescription *fontdesc;
PangoFont *font;
double col[4];
};
/* Add "text", followed by a space of type "space", to "line" */
static int add_wrap_box(struct wrap_line *line, char *text, size_t offset,
enum wrap_box_space space, PangoContext *pc,
struct sc_font *font)
{
GList *pango_items;
struct wrap_box *box;
PangoAttrList *attrs;
PangoAttribute *attr;
if ( line->n_boxes == line->max_boxes ) {
line->max_boxes += 32;
alloc_boxes(line);
if ( line->n_boxes == line->max_boxes ) return 1;
}
box = &line->boxes[line->n_boxes];
box->sc_offset = offset;
box->type = WRAP_BOX_PANGO;
box->text = text;
box->space = space;
box->font = font->font;
box->width = 0;
box->ascent = 0;
box->height = 0;
box->col[0] = font->col[0]; /* Red */
box->col[1] = font->col[1]; /* Green */
box->col[2] = font->col[2]; /* Blue */
box->col[3] = font->col[3]; /* Alpha */
line->n_boxes++;
if ( strlen(text) == 0 ) {
box->type = WRAP_BOX_NOTHING;
return 0;
}
attrs = pango_attr_list_new();
attr = pango_attr_font_desc_new(font->fontdesc);
pango_attr_list_insert_before(attrs, attr);
pango_items = pango_itemize(pc, text, 0, strlen(text), attrs, NULL);
g_list_foreach(pango_items, shape_and_measure, box);
g_list_free(pango_items);
pango_attr_list_unref(attrs);
return 0;
}
static int split_words(struct wrap_line *boxes, PangoContext *pc, char *sc,
size_t sc_offset, PangoLanguage *lang,
struct sc_font *font)
{
PangoLogAttr *log_attrs;
size_t len;
size_t i, start;
/* Empty block? */
if ( sc == NULL ) return 1;
len = strlen(sc);
if ( len == 0 ) return 1;
log_attrs = malloc((len+1)*sizeof(PangoLogAttr));
if ( log_attrs == NULL ) return 1;
/* Create glyph string */
pango_get_log_attrs(sc, len, -1, lang, log_attrs, len+1);
start = 0;
for ( i=0; i<len; i++ ) {
if ( log_attrs[i].is_line_break ) {
char *word;
enum wrap_box_space type;
size_t len;
/* Stuff up to (but not including) sc[i] forms a
* wrap box */
len = i-start;
if ( log_attrs[i].is_mandatory_break ) {
type = WRAP_SPACE_EOP;
if ( (i>0) && (sc[i-1] == '\n') ) len--;
if ( (i>0) && (sc[i-1] == '\r') ) len--;
} else if ( (i>0)
&& log_attrs[i-1].is_expandable_space ) {
type = WRAP_SPACE_INTERWORD;
len--; /* Not interested in spaces */
} else {
type = WRAP_SPACE_NONE;
}
word = strndup(sc+start, len);
if ( word == NULL ) {
fprintf(stderr, "strndup() failed.\n");
free(log_attrs);
return 1;
}
if ( add_wrap_box(boxes, word, start, type, pc,
font) ) {
fprintf(stderr, "Failed to add wrap box.\n");
}
start = i;
}
}
if ( i > start ) {
char *word;
word = strndup(sc+start, i-start);
if ( word == NULL ) {
fprintf(stderr, "strndup() failed.\n");
free(log_attrs);
return 1;
}
if ( (word[i-start-1] == '\n') ) {
/* There is a newline at the end of the SC */
char *word2;
word2 = strndup(word, i-start-1);
add_wrap_box(boxes, word2, start, WRAP_SPACE_EOP, pc,
font);
add_wrap_box(boxes, strdup(""), i, WRAP_SPACE_NONE, pc,
font);
} else {
add_wrap_box(boxes, word, start, WRAP_SPACE_NONE, pc,
font);
}
}
free(log_attrs);
return 0;
}
static void set_font(struct sc_font *scf, const char *font_name,
PangoContext *pc)
{
scf->fontdesc = pango_font_description_from_string(font_name);
if ( scf->fontdesc == NULL ) {
fprintf(stderr, "Couldn't describe font.\n");
return;
}
scf->font = pango_font_map_load_font(pango_context_get_font_map(pc),
pc, scf->fontdesc);
if ( scf->font == NULL ) {
fprintf(stderr, "Couldn't load font.\n");
return;
}
scf->col[0] = 0.0; scf->col[1] = 0.0; scf->col[2] = 0.0;
scf->col[3] = 1.0;
}
static struct sc_font *push_font(struct sc_font *stack, const char *font_name,
int *n_fonts, int *max_fonts,
PangoContext *pc)
{
if ( *n_fonts == *max_fonts ) {
struct sc_font *stack_new;
stack_new = realloc(stack,
sizeof(struct sc_font)*((*max_fonts)+8));
if ( stack_new == NULL ) {
fprintf(stderr, "Failed to push font.\n");
return stack;
}
stack = stack_new;
*max_fonts += 8;
}
set_font(&stack[*n_fonts], font_name, pc);
(*n_fonts)++;
return stack;
}
static void pop_font(struct sc_font *stack, int *n_fonts, int *max_fonts)
{
pango_font_description_free(stack[(*n_fonts)-1].fontdesc);
(*n_fonts)--;
}
static void run_sc(const char *sc, struct sc_font *fonts, int *n_fonts,
int *max_fonts, PangoContext *pc, struct wrap_line *boxes,
PangoLanguage *lang)
{
SCBlockList *bl;
SCBlockListIterator *iter;
struct scblock *b;
bl = sc_find_blocks(sc, NULL);
if ( bl == NULL ) {
printf("Failed to find blocks.\n");
return;
}
for ( b = sc_block_list_first(bl, &iter);
b != NULL;
b = sc_block_list_next(bl, iter) )
{
if ( b->name == NULL ) {
if ( split_words(boxes, pc, b->contents, b->offset,
lang, &fonts[(*n_fonts)-1]) ) {
fprintf(stderr, "Splitting failed.\n");
}
} else if ( (strcmp(b->name, "font")==0)
&& (b->contents == NULL) ) {
set_font(&fonts[(*n_fonts)-1], b->options, pc);
} else if ( (strcmp(b->name, "font")==0)
&& (b->contents != NULL) ) {
push_font(fonts, b->options, n_fonts, max_fonts, pc);
run_sc(b->contents, fonts, n_fonts, max_fonts, pc,
boxes, lang);
pop_font(fonts, n_fonts, max_fonts);
}
/* FIXME: Handle images */
}
sc_block_list_free(bl);
}
static struct wrap_line *sc_to_wrap_boxes(const char *sc, PangoContext *pc)
{
struct wrap_line *boxes;
PangoLanguage *lang;
struct sc_font *fonts;
int n_fonts, max_fonts;
int i;
boxes = malloc(sizeof(struct wrap_line));
if ( boxes == NULL ) {
fprintf(stderr, "Failed to allocate boxes.\n");
return NULL;
}
initialise_line(boxes);
fonts = NULL;
n_fonts = 0;
max_fonts = 0;
/* FIXME: Determine proper language (somehow...) */
lang = pango_language_from_string("en_GB");
/* The "ultimate" default font */
fonts = push_font(fonts, "Sans 12", &n_fonts, &max_fonts, pc);
run_sc(sc, fonts, &n_fonts, &max_fonts, pc, boxes, lang);
for ( i=0; i<n_fonts; i++ ) {
pango_font_description_free(fonts[i].fontdesc);
}
return boxes;
}
/* Normal width of space */
static double sp_x(enum wrap_box_space s)
{
switch ( s ) {
case WRAP_SPACE_INTERWORD :
return 10.0*PANGO_SCALE;
case WRAP_SPACE_EOP :
return 0.0;
default:
case WRAP_SPACE_NONE :
return 0.0;
}
}
/* Stretchability of space */
static double sp_y(enum wrap_box_space s)
{
switch ( s ) {
case WRAP_SPACE_INTERWORD :
return 10.0*PANGO_SCALE;
case WRAP_SPACE_EOP :
return INFINITY;
default:
case WRAP_SPACE_NONE :
return 0.0;
}
}
/* Shrinkability of space */
static double sp_z(enum wrap_box_space s)
{
switch ( s ) {
case WRAP_SPACE_INTERWORD :
return 7.0*PANGO_SCALE;
case WRAP_SPACE_EOP :
return 0.0;
default:
case WRAP_SPACE_NONE :
return 0.0;
}
}
/* Minimum width of space */
static double sp_zp(enum wrap_box_space s)
{
return sp_x(s) - sp_z(s);
}
/* Maximum width of space */
static double sp_yp(enum wrap_box_space s, double rho)
{
return sp_x(s) + rho*sp_y(s);
}
static void consider_break(double sigma_prime, double sigma_prime_max,
double sigma_prime_min, double line_length,
double *s, int j, double *dprime, int *jprime,
double rho)
{
double r;
double d;
if ( sigma_prime < line_length ) {
r = rho*(line_length - sigma_prime)
/ (sigma_prime_max - sigma_prime);
} else if ( sigma_prime > line_length ) {
r = rho*(line_length - sigma_prime)
/ (sigma_prime - sigma_prime_min);
} else {
r = 0.0;
}
d = s[j] + pow(1.0 + 100.0 * pow(abs(r),3.0), 2.0);
if ( d < *dprime ) {
*dprime = d;
*jprime = j;
}
}
static double width(struct wrap_line *boxes, int i)
{
/* Indices in Knuth paper go from 1...n. Indices in array go
* from 0...n-1 */
return boxes->boxes[i-1].width;
}
static enum wrap_box_space space(struct wrap_line *boxes, int i)
{
/* Indices in Knuth paper go from 1...n. Indices in array go
* from 0...n-1 */
return boxes->boxes[i-1].space;
}
static void distribute_spaces(struct wrap_line *line, double l, double rho)
{
int i;
double L, Y, Z, r;
int overfull = 0;
int underfull = 0;
l = pango_units_from_double(l);
L = 0.0; Y = 0.0; Z = 0.0;
for ( i=0; i<line->n_boxes-1; i++ ) {
L += line->boxes[i].width;
L += sp_x(line->boxes[i].space);
Y += sp_y(line->boxes[i].space);
Z += sp_z(line->boxes[i].space);
}
L += line->boxes[line->n_boxes-1].width;
if ( L < l ) {
r = (l - L)/Y;
} else if ( L > l ) {
r = (l - L)/Z;
} else {
r = 0.0;
}
if ( r >= 0.0 ) {
for ( i=0; i<line->n_boxes-1; i++ ) {
line->boxes[i].sp = sp_x(line->boxes[i].space);
line->boxes[i].sp += r*sp_y(line->boxes[i].space);
}
} else {
for ( i=0; i<line->n_boxes-1; i++ ) {
line->boxes[i].sp = sp_x(line->boxes[i].space);
line->boxes[i].sp += r*sp_z(line->boxes[i].space);
}
}
line->boxes[line->n_boxes-1].sp = 0.0;
line->overfull = overfull;
line->underfull = underfull;
}
static void output_line(int q, int s, struct frame *fr, struct wrap_line *boxes)
{
struct wrap_line *l;
int j;
l = &fr->lines[fr->n_lines];
fr->n_lines++;
initialise_line(l);
l->max_boxes = s-q;
alloc_boxes(l);
l->sc_offset = boxes->boxes[q].sc_offset;
for ( j=q; j<s; j++ ) {
l->boxes[l->n_boxes++] = boxes->boxes[j];
}
}
static void output(int a, int i, int *p, struct frame *fr,
struct wrap_line *boxes)
{
int q = i;
int r;
int s = 0;
if ( fr->n_lines + (i-a) + 1 > fr->max_lines ) {
fr->max_lines += 32;
alloc_lines(fr);
if ( fr->n_lines == fr->max_lines ) return;
}
while ( q != a ) {
r = p[q];
p[q] = s;
s = q;
q = r;
}
while ( q != i ) {
output_line(q, s, fr, boxes);
q = s;
s = p[q];
}
}
/* This is the "suboptimal fit" algorithm from Knuth and Plass, Software -
* Practice and Experience 11 (1981) p1119-1184. Despite the name, it's
* supposed to work as well as the full TeX algorithm in almost all of the cases
* that we care about here. */
static void knuth_suboptimal_fit(struct wrap_line *boxes, double line_length,
struct frame *fr, double rho)
{
int a = 0;
int *p;
double *s;
struct wrap_box *box;
int j;
double sigma_prime, sigma_max_prime, sigma_min_prime;
double dprime;
int n;
int reject;
n = boxes->n_boxes;
/* Set the space for the last box to be "end of paragraph" */
boxes->boxes[boxes->n_boxes-1].space = WRAP_SPACE_EOP;
/* Add empty zero-width box at end */
if ( boxes->n_boxes == boxes->max_boxes ) {
boxes->max_boxes += 32;
alloc_boxes(boxes);
if ( boxes->n_boxes == boxes->max_boxes ) return;
}
box = &boxes->boxes[boxes->n_boxes];
box->type = WRAP_BOX_SENTINEL;
box->text = NULL;
box->space = WRAP_SPACE_NONE;
box->font = NULL;
box->width = 0;
box->ascent = 0;
box->height = 0;
boxes->n_boxes++;
line_length *= PANGO_SCALE;
reject = 0;
for ( j=0; j<boxes->n_boxes; j++ ) {
if ( boxes->boxes[j].width > line_length ) {
fprintf(stderr, "ERROR: Box %i too long (%i %f)\n", j,
boxes->boxes[j].width, line_length);
reject = 1;
}
}
if ( reject ) return;
p = malloc((n+2) * sizeof(int)); /* p[0]..p[n+1] inclusive */
if ( p == NULL ) {
fprintf(stderr, "Failed to allocate p_k\n");
return;
}
s = malloc((n+2) * sizeof(double)); /* s[0]..s[n+1] inclusive */
if ( s == NULL ) {
fprintf(stderr, "Failed to allocate s_k\n");
return;
}
do {
int i = a;
int k = i+1;
double sigma = width(boxes, k);
double sigma_min = sigma;
double sigma_max = sigma;
int m = 1;
int jprime;
s[i] = 0;
do {
while ( sigma_min > line_length ) {
/* Begin <advance i by 1> */
if ( s[i] < INFINITY ) m--;
i++;
sigma -= width(boxes, i);
sigma -= sp_z(space(boxes, i));
sigma_max -= width(boxes, i);
sigma_max -= sp_yp(space(boxes, i), rho);
sigma_min -= width(boxes, i);
sigma_min -= sp_zp(space(boxes, i));
/* End */
}
/* Begin <examine all feasible lines ending at k> */
j = i;
sigma_prime = sigma;
sigma_max_prime = sigma_max;
sigma_min_prime = sigma_min;
dprime = INFINITY;
while ( sigma_max_prime >= line_length ) {
if ( s[j] < INFINITY ) {
consider_break(sigma_prime,
sigma_max_prime,
sigma_min_prime,
line_length, s, j,
&dprime, &jprime,
rho);
}
j++;
sigma_prime -= width(boxes, j);
sigma_prime -= sp_x(space(boxes, j));
sigma_max_prime -= width(boxes, j);
sigma_max_prime -= sp_yp(space(boxes, j),
rho);
sigma_min_prime -= width(boxes, j);
sigma_min_prime -= sp_zp(space(boxes, j));
}
/* End */
s[k] = dprime;
if ( dprime < INFINITY ) {
m++;
p[k] = jprime;
}
if ( (m == 0) || (k > n) ) break;
sigma += width(boxes, k+1);
sigma += sp_x(space(boxes, k));
sigma_max += width(boxes, k+1);
sigma_max += sp_yp(space(boxes, k), rho);
sigma_min += width(boxes, k+1);
sigma_min += sp_zp(space(boxes, k));
k++;
} while ( 1 );
if ( k > n ) {
output(a, n+1, p, fr, boxes);
break;
} else {
/* Begin <try hyphenation> */
do {
sigma += width(boxes, i);
sigma += sp_x(space(boxes, i));
sigma_max += width(boxes, i);
sigma_max += sp_yp(space(boxes, i), rho);
sigma_min += width(boxes, i);
sigma_min += sp_zp(space(boxes, i));
i--;
} while ( s[i] >= INFINITY );
output(a, i, p, fr, boxes);
/* Begin <split box k at the best place> */
jprime = 0;
dprime = INFINITY;
/* Test hyphenation points here */
/* End */
/* Begin <output and adjust w_k> */
output_line(i, k-1, fr, boxes);
/* End */
/* End */
a = k-1;
}
} while ( 1 );
fr->lines[fr->n_lines-1].last_line = 1;
free(p);
free(s);
}
void wrap_line_free(struct wrap_line *l)
{
int i;
for ( i=0; i<l->n_boxes; i++ ) {
switch ( l->boxes[i].type ) {
case WRAP_BOX_PANGO :
pango_glyph_string_free(l->boxes[i].glyphs);
pango_item_free(l->boxes[i].item);
free(l->boxes[i].text);
break;
case WRAP_BOX_IMAGE :
break;
case WRAP_BOX_NOTHING :
case WRAP_BOX_SENTINEL :
break;
}
}
free(l->boxes);
}
static struct wrap_line *split_paragraph(struct wrap_line *boxes, int *n)
{
int i;
int start = *n;
int end;
if ( start >= boxes->n_boxes ) return NULL;
for ( i=start; i<boxes->n_boxes; i++ ) {
if ( boxes->boxes[i].space == WRAP_SPACE_EOP ) {
break;
}
}
end = i + 1;
*n = end;
if ( i == boxes->n_boxes ) end--;
if ( end-start > 0 ) {
struct wrap_line *para;
para = malloc(sizeof(struct wrap_line));
para->boxes = NULL;
para->max_boxes = end-start;
para->n_boxes = end-start;
alloc_boxes(para);
for ( i=start; i<end; i++ ) {
para->boxes[i-start] = boxes->boxes[i];
}
return para;
}
return NULL;
}
/* Wrap the StoryCode inside "fr->sc" so that it fits within width "fr->w",
* and generate fr->lines */
int wrap_contents(struct frame *fr, PangoContext *pc)
{
struct wrap_line *boxes;
struct wrap_line *para;
int i;
const double rho = 2.0;
const double wrap_w = fr->w - fr->lop.pad_l - fr->lop.pad_r;
/* Turn the StoryCode into wrap boxes, all on one line */
boxes = sc_to_wrap_boxes(fr->sc, pc);
if ( boxes == NULL ) {
fprintf(stderr, "Failed to create wrap boxes.\n");
return 1;
}
/* Clear lines */
fr->n_lines = 0;
fr->max_lines = 32;
fr->lines = NULL;
alloc_lines(fr);
/* Split text into paragraphs */
i = 0;
do {
para = split_paragraph(boxes, &i);
/* Split paragraphs into lines */
if ( para != NULL ) {
knuth_suboptimal_fit(para, wrap_w, fr, rho);
free(para->boxes);
free(para);
}
} while ( para != NULL );
free(boxes->boxes);
free(boxes);
for ( i=0; i<fr->n_lines; i++ ) {
distribute_spaces(&fr->lines[i], wrap_w, rho);
calc_line_geometry(&fr->lines[i]);
}
return 0;
}
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