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blender-archive/source/blender/blenkernel/intern/text.c
Bastien Montagne 69ba3b98e4 Fix new Text ID usercount handling in add/load cases. 
Text datablocks should always have a 'single user' flag set, and they
usually do not have any user (since neither text editor itself, nor
Freestyle usage are text users - the second is odd btw...), the only one
am aware of is the script node (e.g. for OSL).

Add text case was simply not doing anything, so added.

Load text case was doing things in inversed logic (setting user count to
zero in BKE, then setting 'real user' flag in ED code). Made it the
other way around (BKE ID creation code should not care about usercount
usually, this is up to higher-level code to decide what to do
(operators, RNA...).

Note: tried to check all cases, but there might very well be some more
hidden bugs here...
2019-07-19 13:58:26 +02:00

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/*
* 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 the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* The Original Code is Copyright (C) 2001-2002 by NaN Holding BV.
* All rights reserved.
*/
/** \file
* \ingroup bke
*/
#include <stdlib.h> /* abort */
#include <string.h> /* strstr */
#include <sys/types.h>
#include <sys/stat.h>
#include <wchar.h>
#include <wctype.h>
#include "MEM_guardedalloc.h"
#include "BLI_utildefines.h"
#include "BLI_path_util.h"
#include "BLI_string.h"
#include "BLI_string_cursor_utf8.h"
#include "BLI_string_utf8.h"
#include "BLI_listbase.h"
#include "BLI_fileops.h"
#include "DNA_constraint_types.h"
#include "DNA_scene_types.h"
#include "DNA_screen_types.h"
#include "DNA_space_types.h"
#include "DNA_text_types.h"
#include "DNA_userdef_types.h"
#include "DNA_object_types.h"
#include "DNA_node_types.h"
#include "DNA_material_types.h"
#include "BKE_library.h"
#include "BKE_main.h"
#include "BKE_text.h"
#include "BKE_node.h"
#ifdef WITH_PYTHON
# include "BPY_extern.h"
#endif
/*
* How Texts should work
* --
* A text should relate to a file as follows -
* (Text *)->name should be the place where the
* file will or has been saved.
*
* (Text *)->flags has the following bits
* TXT_ISDIRTY - should always be set if the file in mem. differs from
* the file on disk, or if there is no file on disk.
* TXT_ISMEM - should always be set if the Text has not been mapped to
* a file, in which case (Text *)->name may be NULL or garbage.
* TXT_ISEXT - should always be set if the Text is not to be written into
* the .blend
* TXT_ISSCRIPT - should be set if the user has designated the text
* as a script. (NEW: this was unused, but now it is needed by
* space handler script links (see header_view3d.c, for example)
*
* ->>> see also: /makesdna/DNA_text_types.h
*
* Display
* --
*
* The st->top determines at what line the top of the text is displayed.
* If the user moves the cursor the st containing that cursor should
* be popped ... other st's retain their own top location.
*/
/***/
static void txt_pop_first(Text *text);
static void txt_pop_last(Text *text);
static void txt_delete_line(Text *text, TextLine *line);
static void txt_delete_sel(Text *text);
static void txt_make_dirty(Text *text);
/***/
/**
* \note caller must handle `compiled` member.
*/
void BKE_text_free_lines(Text *text)
{
for (TextLine *tmp = text->lines.first, *tmp_next; tmp; tmp = tmp_next) {
tmp_next = tmp->next;
MEM_freeN(tmp->line);
if (tmp->format) {
MEM_freeN(tmp->format);
}
MEM_freeN(tmp);
}
BLI_listbase_clear(&text->lines);
text->curl = text->sell = NULL;
}
/** Free (or release) any data used by this text (does not free the text itself). */
void BKE_text_free(Text *text)
{
/* No animdata here. */
BKE_text_free_lines(text);
MEM_SAFE_FREE(text->name);
#ifdef WITH_PYTHON
BPY_text_free_code(text);
#endif
}
void BKE_text_init(Text *ta)
{
TextLine *tmp;
BLI_assert(MEMCMP_STRUCT_AFTER_IS_ZERO(ta, id));
ta->name = NULL;
ta->nlines = 1;
ta->flags = TXT_ISDIRTY | TXT_ISMEM;
if ((U.flag & USER_TXT_TABSTOSPACES_DISABLE) == 0) {
ta->flags |= TXT_TABSTOSPACES;
}
BLI_listbase_clear(&ta->lines);
tmp = (TextLine *)MEM_mallocN(sizeof(TextLine), "textline");
tmp->line = (char *)MEM_mallocN(1, "textline_string");
tmp->format = NULL;
tmp->line[0] = 0;
tmp->len = 0;
tmp->next = NULL;
tmp->prev = NULL;
BLI_addhead(&ta->lines, tmp);
ta->curl = ta->lines.first;
ta->curc = 0;
ta->sell = ta->lines.first;
ta->selc = 0;
}
Text *BKE_text_add(Main *bmain, const char *name)
{
Text *ta;
ta = BKE_libblock_alloc(bmain, ID_TXT, name, 0);
/* Texts always have 'real' user (see also read code). */
id_us_ensure_real(&ta->id);
BKE_text_init(ta);
return ta;
}
/* this function replaces extended ascii characters */
/* to a valid utf-8 sequences */
int txt_extended_ascii_as_utf8(char **str)
{
ptrdiff_t bad_char, i = 0;
const ptrdiff_t length = (ptrdiff_t)strlen(*str);
int added = 0;
while ((*str)[i]) {
if ((bad_char = BLI_utf8_invalid_byte(*str + i, length - i)) == -1) {
break;
}
added++;
i += bad_char + 1;
}
if (added != 0) {
char *newstr = MEM_mallocN(length + added + 1, "text_line");
ptrdiff_t mi = 0;
i = 0;
while ((*str)[i]) {
if ((bad_char = BLI_utf8_invalid_byte((*str) + i, length - i)) == -1) {
memcpy(newstr + mi, (*str) + i, length - i + 1);
break;
}
memcpy(newstr + mi, (*str) + i, bad_char);
BLI_str_utf8_from_unicode((*str)[i + bad_char], newstr + mi + bad_char);
i += bad_char + 1;
mi += bad_char + 2;
}
newstr[length + added] = '\0';
MEM_freeN(*str);
*str = newstr;
}
return added;
}
// this function removes any control characters from
// a textline and fixes invalid utf-8 sequences
static void cleanup_textline(TextLine *tl)
{
int i;
for (i = 0; i < tl->len; i++) {
if (tl->line[i] < ' ' && tl->line[i] != '\t') {
memmove(tl->line + i, tl->line + i + 1, tl->len - i);
tl->len--;
i--;
}
}
tl->len += txt_extended_ascii_as_utf8(&tl->line);
}
/**
* used for load and reload (unlike txt_insert_buf)
* assumes all fields are empty
*/
static void text_from_buf(Text *text, const unsigned char *buffer, const int len)
{
int i, llen;
BLI_assert(BLI_listbase_is_empty(&text->lines));
text->nlines = 0;
llen = 0;
for (i = 0; i < len; i++) {
if (buffer[i] == '\n') {
TextLine *tmp;
tmp = (TextLine *)MEM_mallocN(sizeof(TextLine), "textline");
tmp->line = (char *)MEM_mallocN(llen + 1, "textline_string");
tmp->format = NULL;
if (llen) {
memcpy(tmp->line, &buffer[i - llen], llen);
}
tmp->line[llen] = 0;
tmp->len = llen;
cleanup_textline(tmp);
BLI_addtail(&text->lines, tmp);
text->nlines++;
llen = 0;
continue;
}
llen++;
}
/* create new line in cases:
* - rest of line (if last line in file hasn't got \n terminator).
* in this case content of such line would be used to fill text line buffer
* - file is empty. in this case new line is needed to start editing from.
* - last character in buffer is \n. in this case new line is needed to
* deal with newline at end of file. (see [#28087]) (sergey) */
if (llen != 0 || text->nlines == 0 || buffer[len - 1] == '\n') {
TextLine *tmp;
tmp = (TextLine *)MEM_mallocN(sizeof(TextLine), "textline");
tmp->line = (char *)MEM_mallocN(llen + 1, "textline_string");
tmp->format = NULL;
if (llen) {
memcpy(tmp->line, &buffer[i - llen], llen);
}
tmp->line[llen] = 0;
tmp->len = llen;
cleanup_textline(tmp);
BLI_addtail(&text->lines, tmp);
text->nlines++;
}
text->curl = text->sell = text->lines.first;
text->curc = text->selc = 0;
}
bool BKE_text_reload(Text *text)
{
unsigned char *buffer;
size_t buffer_len;
char filepath_abs[FILE_MAX];
BLI_stat_t st;
if (!text->name) {
return false;
}
BLI_strncpy(filepath_abs, text->name, FILE_MAX);
BLI_path_abs(filepath_abs, BKE_main_blendfile_path_from_global());
buffer = BLI_file_read_text_as_mem(filepath_abs, 0, &buffer_len);
if (buffer == NULL) {
return false;
}
/* free memory: */
BKE_text_free_lines(text);
txt_make_dirty(text);
/* clear undo buffer */
if (BLI_stat(filepath_abs, &st) != -1) {
text->mtime = st.st_mtime;
}
else {
text->mtime = 0;
}
text_from_buf(text, buffer, buffer_len);
MEM_freeN(buffer);
return true;
}
Text *BKE_text_load_ex(Main *bmain, const char *file, const char *relpath, const bool is_internal)
{
unsigned char *buffer;
size_t buffer_len;
Text *ta;
char filepath_abs[FILE_MAX];
BLI_stat_t st;
BLI_strncpy(filepath_abs, file, FILE_MAX);
if (relpath) { /* can be NULL (bg mode) */
BLI_path_abs(filepath_abs, relpath);
}
buffer = BLI_file_read_text_as_mem(filepath_abs, 0, &buffer_len);
if (buffer == NULL) {
return false;
}
ta = BKE_libblock_alloc(bmain, ID_TXT, BLI_path_basename(filepath_abs), 0);
/* Texts always have 'real' user (see also read code). */
id_us_ensure_real(&ta->id);
BLI_listbase_clear(&ta->lines);
ta->curl = ta->sell = NULL;
if ((U.flag & USER_TXT_TABSTOSPACES_DISABLE) == 0) {
ta->flags = TXT_TABSTOSPACES;
}
if (is_internal == false) {
ta->name = MEM_mallocN(strlen(file) + 1, "text_name");
strcpy(ta->name, file);
}
else {
ta->flags |= TXT_ISMEM | TXT_ISDIRTY;
}
/* clear undo buffer */
if (BLI_stat(filepath_abs, &st) != -1) {
ta->mtime = st.st_mtime;
}
else {
ta->mtime = 0;
}
text_from_buf(ta, buffer, buffer_len);
MEM_freeN(buffer);
return ta;
}
Text *BKE_text_load(Main *bmain, const char *file, const char *relpath)
{
return BKE_text_load_ex(bmain, file, relpath, false);
}
/**
* Only copy internal data of Text ID from source
* to already allocated/initialized destination.
* You probably never want to use that directly,
* use #BKE_id_copy or #BKE_id_copy_ex for typical needs.
*
* WARNING! This function will not handle ID user count!
*
* \param flag: Copying options (see BKE_library.h's LIB_ID_COPY_... flags for more).
*/
void BKE_text_copy_data(Main *UNUSED(bmain),
Text *ta_dst,
const Text *ta_src,
const int UNUSED(flag))
{
/* file name can be NULL */
if (ta_src->name) {
ta_dst->name = BLI_strdup(ta_src->name);
}
ta_dst->flags |= TXT_ISDIRTY;
BLI_listbase_clear(&ta_dst->lines);
ta_dst->curl = ta_dst->sell = NULL;
ta_dst->compiled = NULL;
/* Walk down, reconstructing */
for (TextLine *line_src = ta_src->lines.first; line_src; line_src = line_src->next) {
TextLine *line_dst = MEM_mallocN(sizeof(*line_dst), __func__);
line_dst->line = BLI_strdup(line_src->line);
line_dst->format = NULL;
line_dst->len = line_src->len;
BLI_addtail(&ta_dst->lines, line_dst);
}
ta_dst->curl = ta_dst->sell = ta_dst->lines.first;
ta_dst->curc = ta_dst->selc = 0;
}
Text *BKE_text_copy(Main *bmain, const Text *ta)
{
Text *ta_copy;
BKE_id_copy(bmain, &ta->id, (ID **)&ta_copy);
return ta_copy;
}
void BKE_text_make_local(Main *bmain, Text *text, const bool lib_local)
{
BKE_id_make_local_generic(bmain, &text->id, true, lib_local);
}
void BKE_text_clear(Text *text) /* called directly from rna */
{
txt_sel_all(text);
txt_delete_sel(text);
txt_make_dirty(text);
}
void BKE_text_write(Text *text, const char *str) /* called directly from rna */
{
txt_insert_buf(text, str);
txt_move_eof(text, 0);
txt_make_dirty(text);
}
/* returns 0 if file on disk is the same or Text is in memory only
* returns 1 if file has been modified on disk since last local edit
* returns 2 if file on disk has been deleted
* -1 is returned if an error occurs */
int BKE_text_file_modified_check(Text *text)
{
BLI_stat_t st;
int result;
char file[FILE_MAX];
if (!text->name) {
return 0;
}
BLI_strncpy(file, text->name, FILE_MAX);
BLI_path_abs(file, BKE_main_blendfile_path_from_global());
if (!BLI_exists(file)) {
return 2;
}
result = BLI_stat(file, &st);
if (result == -1) {
return -1;
}
if ((st.st_mode & S_IFMT) != S_IFREG) {
return -1;
}
if (st.st_mtime > text->mtime) {
return 1;
}
return 0;
}
void BKE_text_file_modified_ignore(Text *text)
{
BLI_stat_t st;
int result;
char file[FILE_MAX];
if (!text->name) {
return;
}
BLI_strncpy(file, text->name, FILE_MAX);
BLI_path_abs(file, BKE_main_blendfile_path_from_global());
if (!BLI_exists(file)) {
return;
}
result = BLI_stat(file, &st);
if (result == -1 || (st.st_mode & S_IFMT) != S_IFREG) {
return;
}
text->mtime = st.st_mtime;
}
/*****************************/
/* Editing utility functions */
/*****************************/
static void make_new_line(TextLine *line, char *newline)
{
if (line->line) {
MEM_freeN(line->line);
}
if (line->format) {
MEM_freeN(line->format);
}
line->line = newline;
line->len = strlen(newline);
line->format = NULL;
}
static TextLine *txt_new_line(const char *str)
{
TextLine *tmp;
if (!str) {
str = "";
}
tmp = (TextLine *)MEM_mallocN(sizeof(TextLine), "textline");
tmp->line = MEM_mallocN(strlen(str) + 1, "textline_string");
tmp->format = NULL;
strcpy(tmp->line, str);
tmp->len = strlen(str);
tmp->next = tmp->prev = NULL;
return tmp;
}
static TextLine *txt_new_linen(const char *str, int n)
{
TextLine *tmp;
tmp = (TextLine *)MEM_mallocN(sizeof(TextLine), "textline");
tmp->line = MEM_mallocN(n + 1, "textline_string");
tmp->format = NULL;
BLI_strncpy(tmp->line, (str) ? str : "", n + 1);
tmp->len = strlen(tmp->line);
tmp->next = tmp->prev = NULL;
return tmp;
}
void txt_clean_text(Text *text)
{
TextLine **top, **bot;
if (!text->lines.first) {
if (text->lines.last) {
text->lines.first = text->lines.last;
}
else {
text->lines.first = text->lines.last = txt_new_line(NULL);
}
}
if (!text->lines.last) {
text->lines.last = text->lines.first;
}
top = (TextLine **)&text->lines.first;
bot = (TextLine **)&text->lines.last;
while ((*top)->prev) {
*top = (*top)->prev;
}
while ((*bot)->next) {
*bot = (*bot)->next;
}
if (!text->curl) {
if (text->sell) {
text->curl = text->sell;
}
else {
text->curl = text->lines.first;
}
text->curc = 0;
}
if (!text->sell) {
text->sell = text->curl;
text->selc = 0;
}
}
int txt_get_span(TextLine *from, TextLine *to)
{
int ret = 0;
TextLine *tmp = from;
if (!to || !from) {
return 0;
}
if (from == to) {
return 0;
}
/* Look forwards */
while (tmp) {
if (tmp == to) {
return ret;
}
ret++;
tmp = tmp->next;
}
/* Look backwards */
if (!tmp) {
tmp = from;
ret = 0;
while (tmp) {
if (tmp == to) {
break;
}
ret--;
tmp = tmp->prev;
}
if (!tmp) {
ret = 0;
}
}
return ret;
}
static void txt_make_dirty(Text *text)
{
text->flags |= TXT_ISDIRTY;
#ifdef WITH_PYTHON
if (text->compiled) {
BPY_text_free_code(text);
}
#endif
}
/****************************/
/* Cursor utility functions */
/****************************/
static void txt_curs_cur(Text *text, TextLine ***linep, int **charp)
{
*linep = &text->curl;
*charp = &text->curc;
}
static void txt_curs_sel(Text *text, TextLine ***linep, int **charp)
{
*linep = &text->sell;
*charp = &text->selc;
}
bool txt_cursor_is_line_start(Text *text)
{
return (text->selc == 0);
}
bool txt_cursor_is_line_end(Text *text)
{
return (text->selc == text->sell->len);
}
/*****************************/
/* Cursor movement functions */
/*****************************/
int txt_utf8_offset_to_index(const char *str, int offset)
{
int index = 0, pos = 0;
while (pos != offset) {
pos += BLI_str_utf8_size(str + pos);
index++;
}
return index;
}
int txt_utf8_index_to_offset(const char *str, int index)
{
int offset = 0, pos = 0;
while (pos != index) {
offset += BLI_str_utf8_size(str + offset);
pos++;
}
return offset;
}
int txt_utf8_offset_to_column(const char *str, int offset)
{
int column = 0, pos = 0;
while (pos < offset) {
column += BLI_str_utf8_char_width_safe(str + pos);
pos += BLI_str_utf8_size_safe(str + pos);
}
return column;
}
int txt_utf8_column_to_offset(const char *str, int column)
{
int offset = 0, pos = 0, col;
while (*(str + offset) && pos < column) {
col = BLI_str_utf8_char_width_safe(str + offset);
if (pos + col > column) {
break;
}
offset += BLI_str_utf8_size_safe(str + offset);
pos += col;
}
return offset;
}
void txt_move_up(Text *text, const bool sel)
{
TextLine **linep;
int *charp;
if (sel) {
txt_curs_sel(text, &linep, &charp);
}
else {
txt_pop_first(text);
txt_curs_cur(text, &linep, &charp);
}
if (!*linep) {
return;
}
if ((*linep)->prev) {
int column = txt_utf8_offset_to_column((*linep)->line, *charp);
*linep = (*linep)->prev;
*charp = txt_utf8_column_to_offset((*linep)->line, column);
}
else {
txt_move_bol(text, sel);
}
if (!sel) {
txt_pop_sel(text);
}
}
void txt_move_down(Text *text, const bool sel)
{
TextLine **linep;
int *charp;
if (sel) {
txt_curs_sel(text, &linep, &charp);
}
else {
txt_pop_last(text);
txt_curs_cur(text, &linep, &charp);
}
if (!*linep) {
return;
}
if ((*linep)->next) {
int column = txt_utf8_offset_to_column((*linep)->line, *charp);
*linep = (*linep)->next;
*charp = txt_utf8_column_to_offset((*linep)->line, column);
}
else {
txt_move_eol(text, sel);
}
if (!sel) {
txt_pop_sel(text);
}
}
int txt_calc_tab_left(TextLine *tl, int ch)
{
/* do nice left only if there are only spaces */
int tabsize = (ch < TXT_TABSIZE) ? ch : TXT_TABSIZE;
for (int i = 0; i < ch; i++) {
if (tl->line[i] != ' ') {
tabsize = 0;
break;
}
}
/* if in the middle of the space-tab */
if (tabsize && ch % TXT_TABSIZE != 0) {
tabsize = (ch % TXT_TABSIZE);
}
return tabsize;
}
int txt_calc_tab_right(TextLine *tl, int ch)
{
if (tl->line[ch] == ' ') {
int i;
for (i = 0; i < ch; i++) {
if (tl->line[i] != ' ') {
return 0;
}
}
int tabsize = (ch) % TXT_TABSIZE + 1;
for (i = ch + 1; tl->line[i] == ' ' && tabsize < TXT_TABSIZE; i++) {
tabsize++;
}
return i - ch;
}
else {
return 0;
}
}
void txt_move_left(Text *text, const bool sel)
{
TextLine **linep;
int *charp;
int tabsize = 0;
if (sel) {
txt_curs_sel(text, &linep, &charp);
}
else {
txt_pop_first(text);
txt_curs_cur(text, &linep, &charp);
}
if (!*linep) {
return;
}
if (*charp == 0) {
if ((*linep)->prev) {
txt_move_up(text, sel);
*charp = (*linep)->len;
}
}
else {
/* do nice left only if there are only spaces */
// TXT_TABSIZE hardcoded in DNA_text_types.h
if (text->flags & TXT_TABSTOSPACES) {
tabsize = txt_calc_tab_left(*linep, *charp);
}
if (tabsize) {
(*charp) -= tabsize;
}
else {
const char *prev = BLI_str_prev_char_utf8((*linep)->line + *charp);
*charp = prev - (*linep)->line;
}
}
if (!sel) {
txt_pop_sel(text);
}
}
void txt_move_right(Text *text, const bool sel)
{
TextLine **linep;
int *charp;
if (sel) {
txt_curs_sel(text, &linep, &charp);
}
else {
txt_pop_last(text);
txt_curs_cur(text, &linep, &charp);
}
if (!*linep) {
return;
}
if (*charp == (*linep)->len) {
if ((*linep)->next) {
txt_move_down(text, sel);
*charp = 0;
}
}
else {
/* do nice right only if there are only spaces */
/* spaces hardcoded in DNA_text_types.h */
int tabsize = 0;
if (text->flags & TXT_TABSTOSPACES) {
tabsize = txt_calc_tab_right(*linep, *charp);
}
if (tabsize) {
(*charp) += tabsize;
}
else {
(*charp) += BLI_str_utf8_size((*linep)->line + *charp);
}
}
if (!sel) {
txt_pop_sel(text);
}
}
void txt_jump_left(Text *text, const bool sel, const bool use_init_step)
{
TextLine **linep;
int *charp;
if (sel) {
txt_curs_sel(text, &linep, &charp);
}
else {
txt_pop_first(text);
txt_curs_cur(text, &linep, &charp);
}
if (!*linep) {
return;
}
BLI_str_cursor_step_utf8(
(*linep)->line, (*linep)->len, charp, STRCUR_DIR_PREV, STRCUR_JUMP_DELIM, use_init_step);
if (!sel) {
txt_pop_sel(text);
}
}
void txt_jump_right(Text *text, const bool sel, const bool use_init_step)
{
TextLine **linep;
int *charp;
if (sel) {
txt_curs_sel(text, &linep, &charp);
}
else {
txt_pop_last(text);
txt_curs_cur(text, &linep, &charp);
}
if (!*linep) {
return;
}
BLI_str_cursor_step_utf8(
(*linep)->line, (*linep)->len, charp, STRCUR_DIR_NEXT, STRCUR_JUMP_DELIM, use_init_step);
if (!sel) {
txt_pop_sel(text);
}
}
void txt_move_bol(Text *text, const bool sel)
{
TextLine **linep;
int *charp;
if (sel) {
txt_curs_sel(text, &linep, &charp);
}
else {
txt_curs_cur(text, &linep, &charp);
}
if (!*linep) {
return;
}
*charp = 0;
if (!sel) {
txt_pop_sel(text);
}
}
void txt_move_eol(Text *text, const bool sel)
{
TextLine **linep;
int *charp;
if (sel) {
txt_curs_sel(text, &linep, &charp);
}
else {
txt_curs_cur(text, &linep, &charp);
}
if (!*linep) {
return;
}
*charp = (*linep)->len;
if (!sel) {
txt_pop_sel(text);
}
}
void txt_move_bof(Text *text, const bool sel)
{
TextLine **linep;
int *charp;
if (sel) {
txt_curs_sel(text, &linep, &charp);
}
else {
txt_curs_cur(text, &linep, &charp);
}
if (!*linep) {
return;
}
*linep = text->lines.first;
*charp = 0;
if (!sel) {
txt_pop_sel(text);
}
}
void txt_move_eof(Text *text, const bool sel)
{
TextLine **linep;
int *charp;
if (sel) {
txt_curs_sel(text, &linep, &charp);
}
else {
txt_curs_cur(text, &linep, &charp);
}
if (!*linep) {
return;
}
*linep = text->lines.last;
*charp = (*linep)->len;
if (!sel) {
txt_pop_sel(text);
}
}
void txt_move_toline(Text *text, unsigned int line, const bool sel)
{
txt_move_to(text, line, 0, sel);
}
/* Moves to a certain byte in a line, not a certain utf8-character! */
void txt_move_to(Text *text, unsigned int line, unsigned int ch, const bool sel)
{
TextLine **linep;
int *charp;
unsigned int i;
if (sel) {
txt_curs_sel(text, &linep, &charp);
}
else {
txt_curs_cur(text, &linep, &charp);
}
if (!*linep) {
return;
}
*linep = text->lines.first;
for (i = 0; i < line; i++) {
if ((*linep)->next) {
*linep = (*linep)->next;
}
else {
break;
}
}
if (ch > (unsigned int)((*linep)->len)) {
ch = (unsigned int)((*linep)->len);
}
*charp = ch;
if (!sel) {
txt_pop_sel(text);
}
}
/****************************/
/* Text selection functions */
/****************************/
static void txt_curs_swap(Text *text)
{
TextLine *tmpl;
int tmpc;
tmpl = text->curl;
text->curl = text->sell;
text->sell = tmpl;
tmpc = text->curc;
text->curc = text->selc;
text->selc = tmpc;
}
static void txt_pop_first(Text *text)
{
if (txt_get_span(text->curl, text->sell) < 0 ||
(text->curl == text->sell && text->curc > text->selc)) {
txt_curs_swap(text);
}
txt_pop_sel(text);
}
static void txt_pop_last(Text *text)
{
if (txt_get_span(text->curl, text->sell) > 0 ||
(text->curl == text->sell && text->curc < text->selc)) {
txt_curs_swap(text);
}
txt_pop_sel(text);
}
void txt_pop_sel(Text *text)
{
text->sell = text->curl;
text->selc = text->curc;
}
void txt_order_cursors(Text *text, const bool reverse)
{
if (!text->curl) {
return;
}
if (!text->sell) {
return;
}
/* Flip so text->curl is before/after text->sell */
if (reverse == false) {
if ((txt_get_span(text->curl, text->sell) < 0) ||
(text->curl == text->sell && text->curc > text->selc)) {
txt_curs_swap(text);
}
}
else {
if ((txt_get_span(text->curl, text->sell) > 0) ||
(text->curl == text->sell && text->curc < text->selc)) {
txt_curs_swap(text);
}
}
}
bool txt_has_sel(Text *text)
{
return ((text->curl != text->sell) || (text->curc != text->selc));
}
static void txt_delete_sel(Text *text)
{
TextLine *tmpl;
char *buf;
if (!text->curl) {
return;
}
if (!text->sell) {
return;
}
if (!txt_has_sel(text)) {
return;
}
txt_order_cursors(text, false);
buf = MEM_mallocN(text->curc + (text->sell->len - text->selc) + 1, "textline_string");
strncpy(buf, text->curl->line, text->curc);
strcpy(buf + text->curc, text->sell->line + text->selc);
buf[text->curc + (text->sell->len - text->selc)] = 0;
make_new_line(text->curl, buf);
tmpl = text->sell;
while (tmpl != text->curl) {
tmpl = tmpl->prev;
if (!tmpl) {
break;
}
txt_delete_line(text, tmpl->next);
}
text->sell = text->curl;
text->selc = text->curc;
}
void txt_sel_all(Text *text)
{
text->curl = text->lines.first;
text->curc = 0;
text->sell = text->lines.last;
text->selc = text->sell->len;
}
/**
* Reverse of #txt_pop_sel
* Clears the selection and ensures the cursor is located
* at the selection (where the cursor is visually while editing).
*/
void txt_sel_clear(Text *text)
{
if (text->sell) {
text->curl = text->sell;
text->curc = text->selc;
}
}
void txt_sel_line(Text *text)
{
if (!text->curl) {
return;
}
text->curc = 0;
text->sell = text->curl;
text->selc = text->sell->len;
}
/* -------------------------------------------------------------------- */
/** \name Buffer Conversion for Undo/Redo
*
* Buffer conversion functions that rely on the buffer already being validated.
*
* The only requirement for these functions is that they're reverse-able,
* the undo logic doesn't inspect their content.
*
* Currently buffers:
* - Always ends with a new-line.
* - Are not null terminated.
* \{ */
/**
* Create a buffer, the only requirement is #txt_from_buf_for_undo can decode it.
*/
char *txt_to_buf_for_undo(Text *text, int *r_buf_len)
{
int buf_len = 0;
for (const TextLine *l = text->lines.first; l; l = l->next) {
buf_len += l->len + 1;
}
char *buf = MEM_mallocN(buf_len, __func__);
char *buf_step = buf;
for (const TextLine *l = text->lines.first; l; l = l->next) {
memcpy(buf_step, l->line, l->len);
buf_step += l->len;
*buf_step++ = '\n';
}
*r_buf_len = buf_len;
return buf;
}
/**
* Decode a buffer from #txt_to_buf_for_undo.
*/
void txt_from_buf_for_undo(Text *text, const char *buf, int buf_len)
{
const char *buf_end = buf + buf_len;
const char *buf_step = buf;
/* First re-use existing lines.
* Good for undo since it means in practice many operations re-use all
* except for the modified line. */
TextLine *l_src = text->lines.first;
BLI_listbase_clear(&text->lines);
while (buf_step != buf_end && l_src) {
/* New lines are ensured by #txt_to_buf_for_undo. */
const char *buf_step_next = strchr(buf_step, '\n');
const int len = buf_step_next - buf_step;
TextLine *l = l_src;
l_src = l_src->next;
if (l->len != len) {
l->line = MEM_reallocN(l->line, len + 1);
l->len = len;
}
MEM_SAFE_FREE(l->format);
memcpy(l->line, buf_step, len);
l->line[len] = '\0';
BLI_addtail(&text->lines, l);
buf_step = buf_step_next + 1;
}
/* If we have extra lines. */
while (l_src != NULL) {
TextLine *l_src_next = l_src->next;
MEM_freeN(l_src->line);
if (l_src->format) {
MEM_freeN(l_src->format);
}
MEM_freeN(l_src);
l_src = l_src_next;
}
while (buf_step != buf_end) {
/* New lines are ensured by #txt_to_buf_for_undo. */
const char *buf_step_next = strchr(buf_step, '\n');
const int len = buf_step_next - buf_step;
TextLine *l = MEM_mallocN(sizeof(TextLine), "textline");
l->line = MEM_mallocN(len + 1, "textline_string");
l->len = len;
l->format = NULL;
memcpy(l->line, buf_step, len);
l->line[len] = '\0';
BLI_addtail(&text->lines, l);
buf_step = buf_step_next + 1;
}
text->curl = text->sell = text->lines.first;
text->curc = text->selc = 0;
txt_make_dirty(text);
}
/** \} */
/***************************/
/* Cut and paste functions */
/***************************/
char *txt_to_buf(Text *text, int *r_buf_strlen)
{
int length;
TextLine *tmp, *linef, *linel;
int charf, charl;
char *buf;
if (r_buf_strlen) {
*r_buf_strlen = 0;
}
if (!text->curl) {
return NULL;
}
if (!text->sell) {
return NULL;
}
if (!text->lines.first) {
return NULL;
}
linef = text->lines.first;
charf = 0;
linel = text->lines.last;
charl = linel->len;
if (linef == text->lines.last) {
length = charl - charf;
buf = MEM_mallocN(length + 2, "text buffer");
BLI_strncpy(buf, linef->line + charf, length + 1);
buf[length] = 0;
}
else {
length = linef->len - charf;
length += charl;
length += 2; /* For the 2 '\n' */
tmp = linef->next;
while (tmp && tmp != linel) {
length += tmp->len + 1;
tmp = tmp->next;
}
buf = MEM_mallocN(length + 1, "cut buffer");
strncpy(buf, linef->line + charf, linef->len - charf);
length = linef->len - charf;
buf[length++] = '\n';
tmp = linef->next;
while (tmp && tmp != linel) {
strncpy(buf + length, tmp->line, tmp->len);
length += tmp->len;
buf[length++] = '\n';
tmp = tmp->next;
}
strncpy(buf + length, linel->line, charl);
length += charl;
/* python compiler wants an empty end line */
buf[length++] = '\n';
buf[length] = 0;
}
if (r_buf_strlen) {
*r_buf_strlen = length;
}
return buf;
}
int txt_find_string(Text *text, const char *findstr, int wrap, int match_case)
{
TextLine *tl, *startl;
const char *s = NULL;
if (!text->curl || !text->sell) {
return 0;
}
txt_order_cursors(text, false);
tl = startl = text->sell;
if (match_case) {
s = strstr(&tl->line[text->selc], findstr);
}
else {
s = BLI_strcasestr(&tl->line[text->selc], findstr);
}
while (!s) {
tl = tl->next;
if (!tl) {
if (wrap) {
tl = text->lines.first;
}
else {
break;
}
}
if (match_case) {
s = strstr(tl->line, findstr);
}
else {
s = BLI_strcasestr(tl->line, findstr);
}
if (tl == startl) {
break;
}
}
if (s) {
int newl = txt_get_span(text->lines.first, tl);
int newc = (int)(s - tl->line);
txt_move_to(text, newl, newc, 0);
txt_move_to(text, newl, newc + strlen(findstr), 1);
return 1;
}
else {
return 0;
}
}
char *txt_sel_to_buf(Text *text, int *r_buf_strlen)
{
char *buf;
int length = 0;
TextLine *tmp, *linef, *linel;
int charf, charl;
if (r_buf_strlen) {
*r_buf_strlen = 0;
}
if (!text->curl) {
return NULL;
}
if (!text->sell) {
return NULL;
}
if (text->curl == text->sell) {
linef = linel = text->curl;
if (text->curc < text->selc) {
charf = text->curc;
charl = text->selc;
}
else {
charf = text->selc;
charl = text->curc;
}
}
else if (txt_get_span(text->curl, text->sell) < 0) {
linef = text->sell;
linel = text->curl;
charf = text->selc;
charl = text->curc;
}
else {
linef = text->curl;
linel = text->sell;
charf = text->curc;
charl = text->selc;
}
if (linef == linel) {
length = charl - charf;
buf = MEM_mallocN(length + 1, "sel buffer");
BLI_strncpy(buf, linef->line + charf, length + 1);
}
else {
length += linef->len - charf;
length += charl;
length++; /* For the '\n' */
tmp = linef->next;
while (tmp && tmp != linel) {
length += tmp->len + 1;
tmp = tmp->next;
}
buf = MEM_mallocN(length + 1, "sel buffer");
strncpy(buf, linef->line + charf, linef->len - charf);
length = linef->len - charf;
buf[length++] = '\n';
tmp = linef->next;
while (tmp && tmp != linel) {
strncpy(buf + length, tmp->line, tmp->len);
length += tmp->len;
buf[length++] = '\n';
tmp = tmp->next;
}
strncpy(buf + length, linel->line, charl);
length += charl;
buf[length] = 0;
}
if (r_buf_strlen) {
*r_buf_strlen = length;
}
return buf;
}
void txt_insert_buf(Text *text, const char *in_buffer)
{
int l = 0, len;
size_t i = 0, j;
TextLine *add;
char *buffer;
if (!in_buffer) {
return;
}
txt_delete_sel(text);
len = strlen(in_buffer);
buffer = BLI_strdupn(in_buffer, len);
len += txt_extended_ascii_as_utf8(&buffer);
/* Read the first line (or as close as possible */
while (buffer[i] && buffer[i] != '\n') {
txt_add_raw_char(text, BLI_str_utf8_as_unicode_step(buffer, &i));
}
if (buffer[i] == '\n') {
txt_split_curline(text);
i++;
while (i < len) {
l = 0;
while (buffer[i] && buffer[i] != '\n') {
i++;
l++;
}
if (buffer[i] == '\n') {
add = txt_new_linen(buffer + (i - l), l);
BLI_insertlinkbefore(&text->lines, text->curl, add);
i++;
}
else {
for (j = i - l; j < i && j < len;) {
txt_add_raw_char(text, BLI_str_utf8_as_unicode_step(buffer, &j));
}
break;
}
}
}
MEM_freeN(buffer);
}
/**************************/
/* Line editing functions */
/**************************/
void txt_split_curline(Text *text)
{
TextLine *ins;
char *left, *right;
if (!text->curl) {
return;
}
txt_delete_sel(text);
/* Make the two half strings */
left = MEM_mallocN(text->curc + 1, "textline_string");
if (text->curc) {
memcpy(left, text->curl->line, text->curc);
}
left[text->curc] = 0;
right = MEM_mallocN(text->curl->len - text->curc + 1, "textline_string");
memcpy(right, text->curl->line + text->curc, text->curl->len - text->curc + 1);
MEM_freeN(text->curl->line);
if (text->curl->format) {
MEM_freeN(text->curl->format);
}
/* Make the new TextLine */
ins = MEM_mallocN(sizeof(TextLine), "textline");
ins->line = left;
ins->format = NULL;
ins->len = text->curc;
text->curl->line = right;
text->curl->format = NULL;
text->curl->len = text->curl->len - text->curc;
BLI_insertlinkbefore(&text->lines, text->curl, ins);
text->curc = 0;
txt_make_dirty(text);
txt_clean_text(text);
txt_pop_sel(text);
}
static void txt_delete_line(Text *text, TextLine *line)
{
if (!text->curl) {
return;
}
BLI_remlink(&text->lines, line);
if (line->line) {
MEM_freeN(line->line);
}
if (line->format) {
MEM_freeN(line->format);
}
MEM_freeN(line);
txt_make_dirty(text);
txt_clean_text(text);
}
static void txt_combine_lines(Text *text, TextLine *linea, TextLine *lineb)
{
char *tmp, *s;
if (!linea || !lineb) {
return;
}
tmp = MEM_mallocN(linea->len + lineb->len + 1, "textline_string");
s = tmp;
s += BLI_strcpy_rlen(s, linea->line);
s += BLI_strcpy_rlen(s, lineb->line);
(void)s;
make_new_line(linea, tmp);
txt_delete_line(text, lineb);
txt_make_dirty(text);
txt_clean_text(text);
}
void txt_duplicate_line(Text *text)
{
TextLine *textline;
if (!text->curl) {
return;
}
if (text->curl == text->sell) {
textline = txt_new_line(text->curl->line);
BLI_insertlinkafter(&text->lines, text->curl, textline);
txt_make_dirty(text);
txt_clean_text(text);
}
}
void txt_delete_char(Text *text)
{
unsigned int c = '\n';
if (!text->curl) {
return;
}
if (txt_has_sel(text)) { /* deleting a selection */
txt_delete_sel(text);
txt_make_dirty(text);
return;
}
else if (text->curc == text->curl->len) { /* Appending two lines */
if (text->curl->next) {
txt_combine_lines(text, text->curl, text->curl->next);
txt_pop_sel(text);
}
else {
return;
}
}
else { /* Just deleting a char */
size_t c_len = 0;
c = BLI_str_utf8_as_unicode_and_size(text->curl->line + text->curc, &c_len);
UNUSED_VARS(c);
memmove(text->curl->line + text->curc,
text->curl->line + text->curc + c_len,
text->curl->len - text->curc - c_len + 1);
text->curl->len -= c_len;
txt_pop_sel(text);
}
txt_make_dirty(text);
txt_clean_text(text);
}
void txt_delete_word(Text *text)
{
txt_jump_right(text, true, true);
txt_delete_sel(text);
txt_make_dirty(text);
}
void txt_backspace_char(Text *text)
{
unsigned int c = '\n';
if (!text->curl) {
return;
}
if (txt_has_sel(text)) { /* deleting a selection */
txt_delete_sel(text);
txt_make_dirty(text);
return;
}
else if (text->curc == 0) { /* Appending two lines */
if (!text->curl->prev) {
return;
}
text->curl = text->curl->prev;
text->curc = text->curl->len;
txt_combine_lines(text, text->curl, text->curl->next);
txt_pop_sel(text);
}
else { /* Just backspacing a char */
size_t c_len = 0;
const char *prev = BLI_str_prev_char_utf8(text->curl->line + text->curc);
c = BLI_str_utf8_as_unicode_and_size(prev, &c_len);
UNUSED_VARS(c);
/* source and destination overlap, don't use memcpy() */
memmove(text->curl->line + text->curc - c_len,
text->curl->line + text->curc,
text->curl->len - text->curc + 1);
text->curl->len -= c_len;
text->curc -= c_len;
txt_pop_sel(text);
}
txt_make_dirty(text);
txt_clean_text(text);
}
void txt_backspace_word(Text *text)
{
txt_jump_left(text, true, true);
txt_delete_sel(text);
txt_make_dirty(text);
}
/* Max spaces to replace a tab with, currently hardcoded to TXT_TABSIZE = 4.
* Used by txt_convert_tab_to_spaces, indent and unindent.
* Remember to change this string according to max tab size */
static char tab_to_spaces[] = " ";
static void txt_convert_tab_to_spaces(Text *text)
{
/* sb aims to pad adjust the tab-width needed so that the right number of spaces
* is added so that the indention of the line is the right width (i.e. aligned
* to multiples of TXT_TABSIZE)
*/
const char *sb = &tab_to_spaces[text->curc % TXT_TABSIZE];
txt_insert_buf(text, sb);
}
static bool txt_add_char_intern(Text *text, unsigned int add, bool replace_tabs)
{
char *tmp, ch[BLI_UTF8_MAX];
size_t add_len;
if (!text->curl) {
return 0;
}
if (add == '\n') {
txt_split_curline(text);
return true;
}
/* insert spaces rather than tabs */
if (add == '\t' && replace_tabs) {
txt_convert_tab_to_spaces(text);
return true;
}
txt_delete_sel(text);
add_len = BLI_str_utf8_from_unicode(add, ch);
tmp = MEM_mallocN(text->curl->len + add_len + 1, "textline_string");
memcpy(tmp, text->curl->line, text->curc);
memcpy(tmp + text->curc, ch, add_len);
memcpy(
tmp + text->curc + add_len, text->curl->line + text->curc, text->curl->len - text->curc + 1);
make_new_line(text->curl, tmp);
text->curc += add_len;
txt_pop_sel(text);
txt_make_dirty(text);
txt_clean_text(text);
return 1;
}
bool txt_add_char(Text *text, unsigned int add)
{
return txt_add_char_intern(text, add, (text->flags & TXT_TABSTOSPACES) != 0);
}
bool txt_add_raw_char(Text *text, unsigned int add)
{
return txt_add_char_intern(text, add, 0);
}
void txt_delete_selected(Text *text)
{
txt_delete_sel(text);
txt_make_dirty(text);
}
bool txt_replace_char(Text *text, unsigned int add)
{
unsigned int del;
size_t del_size = 0, add_size;
char ch[BLI_UTF8_MAX];
if (!text->curl) {
return false;
}
/* If text is selected or we're at the end of the line just use txt_add_char */
if (text->curc == text->curl->len || txt_has_sel(text) || add == '\n') {
return txt_add_char(text, add);
}
del = BLI_str_utf8_as_unicode_and_size(text->curl->line + text->curc, &del_size);
UNUSED_VARS(del);
add_size = BLI_str_utf8_from_unicode(add, ch);
if (add_size > del_size) {
char *tmp = MEM_mallocN(text->curl->len + add_size - del_size + 1, "textline_string");
memcpy(tmp, text->curl->line, text->curc);
memcpy(tmp + text->curc + add_size,
text->curl->line + text->curc + del_size,
text->curl->len - text->curc - del_size + 1);
MEM_freeN(text->curl->line);
text->curl->line = tmp;
}
else if (add_size < del_size) {
char *tmp = text->curl->line;
memmove(tmp + text->curc + add_size,
tmp + text->curc + del_size,
text->curl->len - text->curc - del_size + 1);
}
memcpy(text->curl->line + text->curc, ch, add_size);
text->curc += add_size;
text->curl->len += add_size - del_size;
txt_pop_sel(text);
txt_make_dirty(text);
txt_clean_text(text);
return true;
}
/**
* Generic prefix operation, use for comment & indent.
*
* \note caller must handle undo.
*/
static void txt_select_prefix(Text *text, const char *add)
{
int len, num, curc_old;
char *tmp;
const int indentlen = strlen(add);
BLI_assert(!ELEM(NULL, text->curl, text->sell));
curc_old = text->curc;
num = 0;
while (true) {
/* don't indent blank lines */
if (text->curl->len != 0) {
tmp = MEM_mallocN(text->curl->len + indentlen + 1, "textline_string");
text->curc = 0;
if (text->curc) {
memcpy(tmp, text->curl->line, text->curc); /* XXX never true, check prev line */
}
memcpy(tmp + text->curc, add, indentlen);
len = text->curl->len - text->curc;
if (len > 0) {
memcpy(tmp + text->curc + indentlen, text->curl->line + text->curc, len);
}
tmp[text->curl->len + indentlen] = 0;
make_new_line(text->curl, tmp);
text->curc += indentlen;
txt_make_dirty(text);
txt_clean_text(text);
}
if (text->curl == text->sell) {
text->selc += indentlen;
break;
}
else {
text->curl = text->curl->next;
num++;
}
}
if (!curc_old) {
text->curc = 0;
}
else {
text->curc = curc_old + indentlen;
}
while (num > 0) {
text->curl = text->curl->prev;
num--;
}
/* caller must handle undo */
}
/**
* Generic un-prefix operation, use for comment & indent.
*
* \param r_line_index_mask: List of lines that are already at indent level 0,
* to store them later into the undo buffer.
*
* \note caller must handle undo.
*/
static void txt_select_unprefix(Text *text, const char *remove)
{
int num = 0;
const int indentlen = strlen(remove);
bool unindented_first = false;
BLI_assert(!ELEM(NULL, text->curl, text->sell));
while (true) {
bool changed = false;
if (STREQLEN(text->curl->line, remove, indentlen)) {
if (num == 0) {
unindented_first = true;
}
text->curl->len -= indentlen;
memmove(text->curl->line, text->curl->line + indentlen, text->curl->len + 1);
changed = true;
}
txt_make_dirty(text);
txt_clean_text(text);
if (text->curl == text->sell) {
if (changed) {
text->selc = MAX2(text->selc - indentlen, 0);
}
break;
}
else {
text->curl = text->curl->next;
num++;
}
}
if (unindented_first) {
text->curc = MAX2(text->curc - indentlen, 0);
}
while (num > 0) {
text->curl = text->curl->prev;
num--;
}
/* caller must handle undo */
}
void txt_comment(Text *text)
{
const char *prefix = "#";
if (ELEM(NULL, text->curl, text->sell)) {
return;
}
txt_select_prefix(text, prefix);
}
void txt_uncomment(Text *text)
{
const char *prefix = "#";
if (ELEM(NULL, text->curl, text->sell)) {
return;
}
txt_select_unprefix(text, prefix);
}
void txt_indent(Text *text)
{
const char *prefix = (text->flags & TXT_TABSTOSPACES) ? tab_to_spaces : "\t";
if (ELEM(NULL, text->curl, text->sell)) {
return;
}
txt_select_prefix(text, prefix);
}
void txt_unindent(Text *text)
{
const char *prefix = (text->flags & TXT_TABSTOSPACES) ? tab_to_spaces : "\t";
if (ELEM(NULL, text->curl, text->sell)) {
return;
}
txt_select_unprefix(text, prefix);
}
void txt_move_lines(struct Text *text, const int direction)
{
TextLine *line_other;
BLI_assert(ELEM(direction, TXT_MOVE_LINE_UP, TXT_MOVE_LINE_DOWN));
if (!text->curl || !text->sell) {
return;
}
txt_order_cursors(text, false);
line_other = (direction == TXT_MOVE_LINE_DOWN) ? text->sell->next : text->curl->prev;
if (!line_other) {
return;
}
BLI_remlink(&text->lines, line_other);
if (direction == TXT_MOVE_LINE_DOWN) {
BLI_insertlinkbefore(&text->lines, text->curl, line_other);
}
else {
BLI_insertlinkafter(&text->lines, text->sell, line_other);
}
txt_make_dirty(text);
txt_clean_text(text);
}
int txt_setcurr_tab_spaces(Text *text, int space)
{
int i = 0;
int test = 0;
const char *word = ":";
const char *comm = "#";
const char indent = (text->flags & TXT_TABSTOSPACES) ? ' ' : '\t';
static const char *back_words[] = {"return", "break", "continue", "pass", "yield", NULL};
if (!text->curl) {
return 0;
}
while (text->curl->line[i] == indent) {
// we only count those tabs/spaces that are before any text or before the curs;
if (i == text->curc) {
return i;
}
else {
i++;
}
}
if (strstr(text->curl->line, word)) {
/* if we find a ':' on this line, then add a tab but not if it is:
* 1) in a comment
* 2) within an identifier
* 3) after the cursor (text->curc), i.e. when creating space before a function def [#25414]
*/
int a;
bool is_indent = false;
for (a = 0; (a < text->curc) && (text->curl->line[a] != '\0'); a++) {
char ch = text->curl->line[a];
if (ch == '#') {
break;
}
else if (ch == ':') {
is_indent = 1;
}
else if (ch != ' ' && ch != '\t') {
is_indent = 0;
}
}
if (is_indent) {
i += space;
}
}
for (test = 0; back_words[test]; test++) {
/* if there are these key words then remove a tab because we are done with the block */
if (strstr(text->curl->line, back_words[test]) && i > 0) {
if (strcspn(text->curl->line, back_words[test]) < strcspn(text->curl->line, comm)) {
i -= space;
}
}
}
return i;
}
/*******************************/
/* Character utility functions */
/*******************************/
int text_check_bracket(const char ch)
{
int a;
char opens[] = "([{";
char close[] = ")]}";
for (a = 0; a < (sizeof(opens) - 1); a++) {
if (ch == opens[a]) {
return a + 1;
}
else if (ch == close[a]) {
return -(a + 1);
}
}
return 0;
}
/* TODO, have a function for operators -
* http://docs.python.org/py3k/reference/lexical_analysis.html#operators */
bool text_check_delim(const char ch)
{
int a;
char delims[] = "():\"\' ~!%^&*-+=[]{};/<>|.#\t,@";
for (a = 0; a < (sizeof(delims) - 1); a++) {
if (ch == delims[a]) {
return true;
}
}
return false;
}
bool text_check_digit(const char ch)
{
if (ch < '0') {
return false;
}
if (ch <= '9') {
return true;
}
return false;
}
bool text_check_identifier(const char ch)
{
if (ch < '0') {
return false;
}
if (ch <= '9') {
return true;
}
if (ch < 'A') {
return false;
}
if (ch <= 'Z' || ch == '_') {
return true;
}
if (ch < 'a') {
return false;
}
if (ch <= 'z') {
return true;
}
return false;
}
bool text_check_identifier_nodigit(const char ch)
{
if (ch <= '9') {
return false;
}
if (ch < 'A') {
return false;
}
if (ch <= 'Z' || ch == '_') {
return true;
}
if (ch < 'a') {
return false;
}
if (ch <= 'z') {
return true;
}
return false;
}
#ifndef WITH_PYTHON
int text_check_identifier_unicode(const unsigned int ch)
{
return (ch < 255 && text_check_identifier((unsigned int)ch));
}
int text_check_identifier_nodigit_unicode(const unsigned int ch)
{
return (ch < 255 && text_check_identifier_nodigit((char)ch));
}
#endif /* WITH_PYTHON */
bool text_check_whitespace(const char ch)
{
if (ch == ' ' || ch == '\t' || ch == '\r' || ch == '\n') {
return true;
}
return false;
}
int text_find_identifier_start(const char *str, int i)
{
if (UNLIKELY(i <= 0)) {
return 0;
}
while (i--) {
if (!text_check_identifier(str[i])) {
break;
}
}
i++;
return i;
}
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