/*
* This file is part of OpenTTD.
* OpenTTD 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, version 2.
* OpenTTD 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 OpenTTD. If not, see .
*/
/** @file textbuf.cpp Textbuffer handling. */
#include "stdafx.h"
#include "textbuf_type.h"
#include "string_func.h"
#include "strings_func.h"
#include "gfx_type.h"
#include "gfx_func.h"
#include "window_func.h"
#include "core/alloc_func.hpp"
#include "safeguards.h"
/**
* Try to retrieve the current clipboard contents.
*
* @note OS-specific function.
* @return The (optional) clipboard contents.
*/
std::optional GetClipboardContents();
int _caret_timer;
/**
* Checks if it is possible to delete a character.
* @param backspace if set, delete the character before the caret,
* otherwise, delete the character after it.
* @return true if a character can be deleted in the given direction.
*/
bool Textbuf::CanDelChar(bool backspace)
{
return backspace ? this->caretpos != 0 : this->caretpos < this->bytes - 1;
}
/**
* Delete a character from a textbuffer, either with 'Delete' or 'Backspace'
* The character is delete from the position the caret is at
* @param keycode Type of deletion, either WKC_BACKSPACE or WKC_DELETE
* @return Return true on successful change of Textbuf, or false otherwise
*/
bool Textbuf::DeleteChar(uint16_t keycode)
{
bool word = (keycode & WKC_CTRL) != 0;
keycode &= ~WKC_SPECIAL_KEYS;
if (keycode != WKC_BACKSPACE && keycode != WKC_DELETE) return false;
bool backspace = keycode == WKC_BACKSPACE;
if (!CanDelChar(backspace)) return false;
char *s = this->buf + this->caretpos;
uint16_t len = 0;
if (word) {
/* Delete a complete word. */
if (backspace) {
/* Delete whitespace and word in front of the caret. */
len = this->caretpos - (uint16_t)this->char_iter->Prev(StringIterator::ITER_WORD);
s -= len;
} else {
/* Delete word and following whitespace following the caret. */
len = (uint16_t)this->char_iter->Next(StringIterator::ITER_WORD) - this->caretpos;
}
/* Update character count. */
for (const char *ss = s; ss < s + len; Utf8Consume(&ss)) {
this->chars--;
}
} else {
/* Delete a single character. */
if (backspace) {
/* Delete the last code point in front of the caret. */
s = Utf8PrevChar(s);
char32_t c;
len = (uint16_t)Utf8Decode(&c, s);
this->chars--;
} else {
/* Delete the complete character following the caret. */
len = (uint16_t)this->char_iter->Next(StringIterator::ITER_CHARACTER) - this->caretpos;
/* Update character count. */
for (const char *ss = s; ss < s + len; Utf8Consume(&ss)) {
this->chars--;
}
}
}
/* Move the remaining characters over the marker */
memmove(s, s + len, this->bytes - (s - this->buf) - len);
this->bytes -= len;
if (backspace) this->caretpos -= len;
this->UpdateStringIter();
this->UpdateWidth();
this->UpdateCaretPosition();
this->UpdateMarkedText();
return true;
}
/**
* Delete every character in the textbuffer
*/
void Textbuf::DeleteAll()
{
memset(this->buf, 0, this->max_bytes);
this->bytes = this->chars = 1;
this->pixels = this->caretpos = this->caretxoffs = 0;
this->markpos = this->markend = this->markxoffs = this->marklength = 0;
this->UpdateStringIter();
}
/**
* Insert a character to a textbuffer. If maxwidth of the Textbuf is zero,
* we don't care about the visual-length but only about the physical
* length of the string
* @param key Character to be inserted
* @return Return true on successful change of Textbuf, or false otherwise
*/
bool Textbuf::InsertChar(char32_t key)
{
uint16_t len = (uint16_t)Utf8CharLen(key);
if (this->bytes + len <= this->max_bytes && this->chars + 1 <= this->max_chars) {
memmove(this->buf + this->caretpos + len, this->buf + this->caretpos, this->bytes - this->caretpos);
Utf8Encode(this->buf + this->caretpos, key);
this->chars++;
this->bytes += len;
this->caretpos += len;
this->UpdateStringIter();
this->UpdateWidth();
this->UpdateCaretPosition();
this->UpdateMarkedText();
return true;
}
return false;
}
/**
* Insert a string into the text buffer. If maxwidth of the Textbuf is zero,
* we don't care about the visual-length but only about the physical
* length of the string.
* @param str String to insert.
* @param marked Replace the currently marked text with the new text.
* @param caret Move the caret to this point in the insertion string.
* @param insert_location Position at which to insert the string.
* @param replacement_end Replace all characters from #insert_location up to this location with the new string.
* @return True on successful change of Textbuf, or false otherwise.
*/
bool Textbuf::InsertString(const char *str, bool marked, const char *caret, const char *insert_location, const char *replacement_end)
{
uint16_t insertpos = (marked && this->marklength != 0) ? this->markpos : this->caretpos;
if (insert_location != nullptr) {
insertpos = insert_location - this->buf;
if (insertpos > this->bytes) return false;
if (replacement_end != nullptr) {
this->DeleteText(insertpos, replacement_end - this->buf, str == nullptr);
}
} else {
if (marked) this->DiscardMarkedText(str == nullptr);
}
if (str == nullptr) return false;
uint16_t bytes = 0, chars = 0;
char32_t c;
for (const char *ptr = str; (c = Utf8Consume(&ptr)) != '\0';) {
if (!IsValidChar(c, this->afilter)) break;
byte len = Utf8CharLen(c);
if (this->bytes + bytes + len > this->max_bytes) break;
if (this->chars + chars + 1 > this->max_chars) break;
bytes += len;
chars++;
/* Move caret if needed. */
if (ptr == caret) this->caretpos = insertpos + bytes;
}
if (bytes == 0) return false;
if (marked) {
this->markpos = insertpos;
this->markend = insertpos + bytes;
}
memmove(this->buf + insertpos + bytes, this->buf + insertpos, this->bytes - insertpos);
memcpy(this->buf + insertpos, str, bytes);
this->bytes += bytes;
this->chars += chars;
if (!marked && caret == nullptr) this->caretpos += bytes;
assert(this->bytes <= this->max_bytes);
assert(this->chars <= this->max_chars);
this->buf[this->bytes - 1] = '\0'; // terminating zero
this->UpdateStringIter();
this->UpdateWidth();
this->UpdateCaretPosition();
this->UpdateMarkedText();
return true;
}
/**
* Insert a chunk of text from the clipboard onto the textbuffer. Get TEXT clipboard
* and append this up to the maximum length (either absolute or screenlength). If maxlength
* is zero, we don't care about the screenlength but only about the physical length of the string
* @return true on successful change of Textbuf, or false otherwise
*/
bool Textbuf::InsertClipboard()
{
auto contents = GetClipboardContents();
if (!contents.has_value()) return false;
return this->InsertString(contents.value().c_str(), false);
}
/**
* Delete a part of the text.
* @param from Start of the text to delete.
* @param to End of the text to delete.
* @param update Set to true if the internal state should be updated.
*/
void Textbuf::DeleteText(uint16_t from, uint16_t to, bool update)
{
uint c = 0;
const char *s = this->buf + from;
while (s < this->buf + to) {
Utf8Consume(&s);
c++;
}
/* Strip marked characters from buffer. */
memmove(this->buf + from, this->buf + to, this->bytes - to);
this->bytes -= to - from;
this->chars -= c;
auto fixup = [&](uint16_t &pos) {
if (pos <= from) return;
if (pos <= to) {
pos = from;
} else {
pos -= to - from;
}
};
/* Fixup caret if needed. */
fixup(this->caretpos);
/* Fixup marked text if needed. */
fixup(this->markpos);
fixup(this->markend);
if (update) {
this->UpdateStringIter();
this->UpdateCaretPosition();
this->UpdateMarkedText();
}
}
/**
* Discard any marked text.
* @param update Set to true if the internal state should be updated.
*/
void Textbuf::DiscardMarkedText(bool update)
{
if (this->markend == 0) return;
this->DeleteText(this->markpos, this->markend, update);
this->markpos = this->markend = this->markxoffs = this->marklength = 0;
}
/**
* Get the current text.
* @return Current text.
*/
const char *Textbuf::GetText() const
{
return this->buf;
}
/** Update the character iter after the text has changed. */
void Textbuf::UpdateStringIter()
{
this->char_iter->SetString(this->buf);
size_t pos = this->char_iter->SetCurPosition(this->caretpos);
this->caretpos = pos == StringIterator::END ? 0 : (uint16_t)pos;
}
/** Update pixel width of the text. */
void Textbuf::UpdateWidth()
{
this->pixels = GetStringBoundingBox(this->buf, FS_NORMAL).width;
}
/** Update pixel position of the caret. */
void Textbuf::UpdateCaretPosition()
{
this->caretxoffs = this->chars > 1 ? GetCharPosInString(this->buf, this->buf + this->caretpos, FS_NORMAL).x : 0;
}
/** Update pixel positions of the marked text area. */
void Textbuf::UpdateMarkedText()
{
if (this->markend != 0) {
this->markxoffs = GetCharPosInString(this->buf, this->buf + this->markpos, FS_NORMAL).x;
this->marklength = GetCharPosInString(this->buf, this->buf + this->markend, FS_NORMAL).x - this->markxoffs;
} else {
this->markxoffs = this->marklength = 0;
}
}
/**
* Handle text navigation with arrow keys left/right.
* This defines where the caret will blink and the next character interaction will occur
* @param keycode Direction in which navigation occurs (WKC_CTRL |) WKC_LEFT, (WKC_CTRL |) WKC_RIGHT, WKC_END, WKC_HOME
* @return Return true on successful change of Textbuf, or false otherwise
*/
bool Textbuf::MovePos(uint16_t keycode)
{
switch (keycode) {
case WKC_LEFT:
case WKC_CTRL | WKC_LEFT: {
if (this->caretpos == 0) break;
size_t pos = this->char_iter->Prev(keycode & WKC_CTRL ? StringIterator::ITER_WORD : StringIterator::ITER_CHARACTER);
if (pos == StringIterator::END) return true;
this->caretpos = (uint16_t)pos;
this->UpdateCaretPosition();
return true;
}
case WKC_RIGHT:
case WKC_CTRL | WKC_RIGHT: {
if (this->caretpos >= this->bytes - 1) break;
size_t pos = this->char_iter->Next(keycode & WKC_CTRL ? StringIterator::ITER_WORD : StringIterator::ITER_CHARACTER);
if (pos == StringIterator::END) return true;
this->caretpos = (uint16_t)pos;
this->UpdateCaretPosition();
return true;
}
case WKC_HOME:
this->caretpos = 0;
this->char_iter->SetCurPosition(this->caretpos);
this->UpdateCaretPosition();
return true;
case WKC_END:
this->caretpos = this->bytes - 1;
this->char_iter->SetCurPosition(this->caretpos);
this->UpdateCaretPosition();
return true;
default:
break;
}
return false;
}
/**
* Initialize the textbuffer by supplying it the buffer to write into
* and the maximum length of this buffer
* @param max_bytes maximum size in bytes, including terminating '\0'
* @param max_chars maximum size in chars, including terminating '\0'
*/
Textbuf::Textbuf(uint16_t max_bytes, uint16_t max_chars)
: buf(MallocT(max_bytes)), char_iter(StringIterator::Create())
{
assert(max_bytes != 0);
assert(max_chars != 0);
this->afilter = CS_ALPHANUMERAL;
this->max_bytes = max_bytes;
this->max_chars = max_chars == UINT16_MAX ? max_bytes : max_chars;
this->caret = true;
this->DeleteAll();
}
Textbuf::~Textbuf()
{
free(this->buf);
}
/**
* Render a string into the textbuffer.
* @param string String
*/
void Textbuf::Assign(StringID string)
{
this->Assign(GetString(string));
}
/**
* Copy a string into the textbuffer.
* @param text Source.
*/
void Textbuf::Assign(const std::string_view text)
{
const char *last_of = &this->buf[this->max_bytes - 1];
strecpy(this->buf, text.data(), last_of);
StrMakeValidInPlace(this->buf, last_of, SVS_NONE);
/* Make sure the name isn't too long for the text buffer in the number of
* characters (not bytes). max_chars also counts the '\0' characters. */
while (Utf8StringLength(this->buf) + 1 > this->max_chars) {
*Utf8PrevChar(this->buf + strlen(this->buf)) = '\0';
}
this->UpdateSize();
}
/**
* Update Textbuf type with its actual physical character and screenlength
* Get the count of characters in the string as well as the width in pixels.
* Useful when copying in a larger amount of text at once
*/
void Textbuf::UpdateSize()
{
const char *buf = this->buf;
this->chars = this->bytes = 1; // terminating zero
char32_t c;
while ((c = Utf8Consume(&buf)) != '\0') {
this->bytes += Utf8CharLen(c);
this->chars++;
}
assert(this->bytes <= this->max_bytes);
assert(this->chars <= this->max_chars);
this->caretpos = this->bytes - 1;
this->UpdateStringIter();
this->UpdateWidth();
this->UpdateMarkedText();
this->UpdateCaretPosition();
}
/**
* Handle the flashing of the caret.
* @return True if the caret state changes.
*/
bool Textbuf::HandleCaret()
{
/* caret changed? */
bool b = !!(_caret_timer & 0x20);
if (b != this->caret) {
this->caret = b;
return true;
}
return false;
}
HandleKeyPressResult Textbuf::HandleKeyPress(char32_t key, uint16_t keycode)
{
bool edited = false;
switch (keycode) {
case WKC_ESC: return HKPR_CANCEL;
case WKC_RETURN: case WKC_NUM_ENTER: return HKPR_CONFIRM;
case (WKC_CTRL | 'V'):
case (WKC_SHIFT | WKC_INSERT):
edited = this->InsertClipboard();
break;
case (WKC_CTRL | 'U'):
this->DeleteAll();
edited = true;
break;
case WKC_BACKSPACE: case WKC_DELETE:
case WKC_CTRL | WKC_BACKSPACE: case WKC_CTRL | WKC_DELETE:
edited = this->DeleteChar(keycode);
break;
case WKC_LEFT: case WKC_RIGHT: case WKC_END: case WKC_HOME:
case WKC_CTRL | WKC_LEFT: case WKC_CTRL | WKC_RIGHT:
this->MovePos(keycode);
break;
default:
if (IsValidChar(key, this->afilter)) {
edited = this->InsertChar(key);
} else {
return HKPR_NOT_HANDLED;
}
break;
}
return edited ? HKPR_EDITING : HKPR_CURSOR;
}