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/*
* This file is subject to the terms of the GFX License. If a copy of
* the license was not distributed with this file, you can obtain one at:
*
* http://ugfx.org/license.html
*/
#include "mf_wordwrap.h"
#ifndef MF_NO_COMPILE
/* Returns true if the line can be broken at this character. */
static bool is_wrap_space(uint16_t c)
{
return c == ' ' || c == '\n' || c == '\t' || c == '\r' || c == '-';
}
#if MF_USE_ADVANCED_WORDWRAP
/* Represents a single word and the whitespace after it. */
struct wordlen_s
{
int16_t word; /* Length of the word in pixels. */
int16_t space; /* Length of the whitespace in pixels. */
uint16_t chars; /* Number of characters in word + space, combined. */
};
/* Take the next word from the string and compute its width.
* Returns true if the word ends in a linebreak. */
static bool get_wordlen(const struct mf_font_s *font, mf_str *text,
struct wordlen_s *result)
{
mf_char c;
mf_str prev;
result->word = 0;
result->space = 0;
result->chars = 0;
c = mf_getchar(text);
while (c && !is_wrap_space(c))
{
result->chars++;
result->word += mf_character_width(font, c);
c = mf_getchar(text);
}
prev = *text;
while (c && is_wrap_space(c))
{
result->chars++;
if (c == ' ')
result->space += mf_character_width(font, c);
else if (c == '\t')
result->space += mf_character_width(font, 'm') * MF_TABSIZE;
else if (c == '\n')
break;
prev = *text;
c = mf_getchar(text);
}
/* The last loop reads the first character of next word, put it back. */
if (c)
*text = prev;
return (c == '\0' || c == '\n');
}
/* Represents the rendered length for a single line. */
struct linelen_s
{
mf_str start; /* Start of the text for line. */
uint16_t chars; /* Total number of characters on the line. */
int16_t width; /* Total length of all words + whitespace on the line in pixels. */
bool linebreak; /* True if line ends in a linebreak */
struct wordlen_s last_word; /* Last word on the line. */
struct wordlen_s last_word_2; /* Second to last word on the line. */
};
/* Append word onto the line if it fits. If it would overflow, don't add and
* return false. */
static bool append_word(const struct mf_font_s *font, int16_t width,
struct linelen_s *current, mf_str *text)
{
mf_str tmp = *text;
struct wordlen_s wordlen;
bool linebreak;
linebreak = get_wordlen(font, &tmp, &wordlen);
if (current->width + wordlen.word <= width)
{
*text = tmp;
current->last_word_2 = current->last_word;
current->last_word = wordlen;
current->linebreak = linebreak;
current->chars += wordlen.chars;
current->width += wordlen.word + wordlen.space;
return true;
}
else
{
return false;
}
}
/* Append a character to the line if it fits. */
static bool append_char(const struct mf_font_s *font, int16_t width,
struct linelen_s *current, mf_str *text)
{
mf_str tmp = *text;
mf_char c;
uint16_t w;
c = mf_getchar(&tmp);
w = mf_character_width(font, c);
if (current->width + w <= width)
{
*text = tmp;
current->chars++;
current->width += w;
return true;
}
else
{
return false;
}
}
static int32_t sq16(int16_t x) { return (int32_t)x * x; }
/* Try to balance the lines by potentially moving one word from the previous
* line to the the current one. */
static void tune_lines(struct linelen_s *current, struct linelen_s *previous,
int16_t max_width)
{
int16_t curw1, prevw1;
int16_t curw2, prevw2;
int32_t delta1, delta2;
/* If the lines are rendered as is */
curw1 = current->width - current->last_word.space;
prevw1 = previous->width - previous->last_word.space;
delta1 = sq16(max_width - prevw1) + sq16(max_width - curw1);
/* If the last word is moved */
curw2 = current->width + previous->last_word.word;
prevw2 = previous->width - previous->last_word.word
- previous->last_word.space
- previous->last_word_2.space;
delta2 = sq16(max_width - prevw2) + sq16(max_width - curw2);
if (delta1 > delta2 && curw2 <= max_width)
{
/* Do the change. */
uint16_t chars;
chars = previous->last_word.chars;
previous->chars -= chars;
current->chars += chars;
previous->width -= previous->last_word.word + previous->last_word.space;
current->width += previous->last_word.word + previous->last_word.space;
previous->last_word = previous->last_word_2;
while (chars--) mf_rewind(¤t->start);
}
}
void mf_wordwrap(const struct mf_font_s *font, int16_t width,
mf_str text, mf_line_callback_t callback, void *state)
{
struct linelen_s current = { 0 };
struct linelen_s previous = { 0 };
bool full;
current.start = text;
while (*text)
{
full = !append_word(font, width, ¤t, &text);
if (full || current.linebreak)
{
if (!current.chars)
{
/* We have a very long word. We must just cut it off at some
* point. */
while (append_char(font, width, ¤t, &text));
}
if (previous.chars)
{
/* Tune the length and dispatch the previous line. */
if (!previous.linebreak && !current.linebreak)
tune_lines(¤t, &previous, width);
if (!callback(previous.start, previous.chars, state))
return;
}
previous = current;
current.start = text;
current.chars = 0;
current.width = 0;
current.linebreak = false;
current.last_word.word = 0;
current.last_word.space = 0;
current.last_word.chars = 0;
}
}
/* Dispatch the last lines. */
if (previous.chars)
{
if (!callback(previous.start, previous.chars, state))
return;
}
if (current.chars)
callback(current.start, current.chars, state);
}
#else
void mf_wordwrap(const struct mf_font_s *font, int16_t width,
mf_str text, mf_line_callback_t callback, void *state)
{
mf_str linestart;
/* Current line width and character count */
int16_t lw_cur = 0, cc_cur = 0;
/* Previous wrap point */
int16_t cc_prev;
mf_str ls_prev;
linestart = text;
while (*text)
{
cc_prev = 0;
ls_prev = text;
while (*text)
{
mf_char c;
int16_t new_width;
mf_str tmp;
tmp = text;
c = mf_getchar(&text);
new_width = lw_cur + mf_character_width(font, c);
if (c == '\n')
{
cc_prev = cc_cur + 1;
ls_prev = text;
break;
}
if (new_width > width)
{
text = tmp;
break;
}
cc_cur++;
lw_cur = new_width;
if (is_wrap_space(c))
{
cc_prev = cc_cur;
ls_prev = text;
}
}
/* Handle unbreakable words */
if (cc_prev == 0)
{
cc_prev = cc_cur;
ls_prev = text;
}
if (!callback(linestart, cc_prev, state))
return;
linestart = ls_prev;
text = linestart;
lw_cur = 0;
cc_cur = 0;
}
}
#endif
#endif //MF_NO_COMPILE
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