axmol/cocos/2d/CCTextFieldTTF.cpp

745 lines
19 KiB
C++

/****************************************************************************
Copyright (c) 2010-2012 cocos2d-x.org
Copyright (c) 2013-2016 Chukong Technologies Inc.
Copyright (c) 2017-2018 Xiamen Yaji Software Co., Ltd.
http://www.cocos2d-x.org
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
****************************************************************************/
#include "2d/CCTextFieldTTF.h"
#include "base/CCDirector.h"
#include "platform/CCFileUtils.h"
#include "base/ccUTF8.h"
#include "2d/CCSprite.h"
NS_CC_BEGIN
#define CURSOR_TIME_SHOW_HIDE 0.5f
#define CURSOR_DEFAULT_CHAR '|'
#define PASSWORD_STYLE_TEXT_DEFAULT "\xe2\x80\xa2"
static std::size_t _calcCharCount(const char * text)
{
int n = 0;
char ch = 0;
while ((ch = *text))
{
CC_BREAK_IF(! ch);
if (0x80 != (0xC0 & ch))
{
++n;
}
++text;
}
return n;
}
bool TextFieldDelegate::onTextFieldAttachWithIME(TextFieldTTF* /*sender*/)
{
return false;
}
bool TextFieldDelegate::onTextFieldDetachWithIME(TextFieldTTF* /*sender*/)
{
return false;
}
bool TextFieldDelegate::onTextFieldInsertText(TextFieldTTF* /*sender*/, const char* /*text*/, size_t /*nLen*/)
{
return false;
}
bool TextFieldDelegate::onTextFieldDeleteBackward(TextFieldTTF* /*sender*/, const char* /*delText*/, size_t /*nLen*/)
{
return false;
}
bool TextFieldDelegate::onVisit(TextFieldTTF* /*sender*/, Renderer* /*renderer*/, const Mat4& /*transform*/, uint32_t /*flags*/)
{
return false;
}
//////////////////////////////////////////////////////////////////////////
// constructor and destructor
//////////////////////////////////////////////////////////////////////////
TextFieldTTF::TextFieldTTF()
: _delegate(0)
, _charCount(0)
, _inputText("")
, _placeHolder("") // prevent Label initWithString assertion
, _colorText(Color4B::WHITE)
, _secureTextEntry(false)
, _passwordStyleText(PASSWORD_STYLE_TEXT_DEFAULT)
, _cursorEnabled(false)
, _cursorPosition(0)
, _cursorChar(CURSOR_DEFAULT_CHAR)
, _cursorShowingTime(0.0f)
, _isAttachWithIME(false)
{
_colorSpaceHolder.r = _colorSpaceHolder.g = _colorSpaceHolder.b = 127;
_colorSpaceHolder.a = 255;
}
TextFieldTTF::~TextFieldTTF()
{
}
//////////////////////////////////////////////////////////////////////////
// static constructor
//////////////////////////////////////////////////////////////////////////
TextFieldTTF * TextFieldTTF::textFieldWithPlaceHolder(const std::string& placeholder, const Size& dimensions, TextHAlignment alignment, const std::string& fontName, float fontSize)
{
TextFieldTTF *ret = new (std::nothrow) TextFieldTTF();
if(ret && ret->initWithPlaceHolder("", dimensions, alignment, fontName, fontSize))
{
ret->autorelease();
if (placeholder.size()>0)
{
ret->setPlaceHolder(placeholder);
}
return ret;
}
CC_SAFE_DELETE(ret);
return nullptr;
}
TextFieldTTF * TextFieldTTF::textFieldWithPlaceHolder(const std::string& placeholder, const std::string& fontName, float fontSize)
{
TextFieldTTF *ret = new (std::nothrow) TextFieldTTF();
if(ret && ret->initWithPlaceHolder("", fontName, fontSize))
{
ret->autorelease();
if (placeholder.size()>0)
{
ret->setPlaceHolder(placeholder);
}
return ret;
}
CC_SAFE_DELETE(ret);
return nullptr;
}
//////////////////////////////////////////////////////////////////////////
// initialize
//////////////////////////////////////////////////////////////////////////
bool TextFieldTTF::initWithPlaceHolder(const std::string& placeholder, const Size& dimensions, TextHAlignment alignment, const std::string& fontName, float fontSize)
{
setDimensions(dimensions.width, dimensions.height);
setAlignment(alignment, TextVAlignment::CENTER);
return initWithPlaceHolder(placeholder, fontName, fontSize);
}
bool TextFieldTTF::initWithPlaceHolder(const std::string& placeholder, const std::string& fontName, float fontSize)
{
_placeHolder = placeholder;
do
{
// If fontName is ttf file and it corrected, use TTFConfig
if (FileUtils::getInstance()->isFileExist(fontName))
{
TTFConfig ttfConfig(fontName, fontSize, GlyphCollection::DYNAMIC);
if (setTTFConfig(ttfConfig))
{
break;
}
}
setSystemFontName(fontName);
setSystemFontSize(fontSize);
} while (false);
setTextColorInternally(_colorSpaceHolder);
Label::setString(_placeHolder);
#if (CC_TARGET_PLATFORM == CC_PLATFORM_MAC || CC_TARGET_PLATFORM == CC_PLATFORM_WIN32 || CC_TARGET_PLATFORM == CC_PLATFORM_LINUX)
// On desktop default enable cursor
if (_currentLabelType == LabelType::TTF)
{
setCursorEnabled(true);
}
#endif
return true;
}
//////////////////////////////////////////////////////////////////////////
// IMEDelegate
//////////////////////////////////////////////////////////////////////////
bool TextFieldTTF::attachWithIME()
{
bool ret = IMEDelegate::attachWithIME();
if (ret)
{
// open keyboard
auto pGlView = Director::getInstance()->getOpenGLView();
if (pGlView)
{
pGlView->setIMEKeyboardState(true);
}
}
return ret;
}
bool TextFieldTTF::detachWithIME()
{
bool ret = IMEDelegate::detachWithIME();
if (ret)
{
// close keyboard
auto glView = Director::getInstance()->getOpenGLView();
if (glView)
{
glView->setIMEKeyboardState(false);
}
}
return ret;
}
void TextFieldTTF::didAttachWithIME()
{
setAttachWithIME(true);
}
void TextFieldTTF::didDetachWithIME()
{
setAttachWithIME(false);
}
bool TextFieldTTF::canAttachWithIME()
{
return (_delegate) ? (! _delegate->onTextFieldAttachWithIME(this)) : true;
}
bool TextFieldTTF::canDetachWithIME()
{
return (_delegate) ? (! _delegate->onTextFieldDetachWithIME(this)) : true;
}
void TextFieldTTF::insertText(const char * text, size_t len)
{
std::string insert(text, len);
// insert \n means input end
int pos = static_cast<int>(insert.find((char)TextFormatter::NewLine));
if ((int)insert.npos != pos)
{
len = pos;
insert.erase(pos);
}
if (len > 0)
{
if (_delegate && _delegate->onTextFieldInsertText(this, insert.c_str(), len))
{
// delegate doesn't want to insert text
return;
}
std::size_t countInsertChar = _calcCharCount(insert.c_str());
_charCount += countInsertChar;
if (_cursorEnabled)
{
StringUtils::StringUTF8 stringUTF8;
stringUTF8.replace(_inputText);
stringUTF8.insert(_cursorPosition, insert);
setCursorPosition(_cursorPosition + countInsertChar);
setString(stringUTF8.getAsCharSequence());
}
else
{
std::string sText(_inputText);
sText.append(insert);
setString(sText);
}
}
if ((int)insert.npos == pos) {
return;
}
// '\n' inserted, let delegate process first
if (_delegate && _delegate->onTextFieldInsertText(this, "\n", 1))
{
return;
}
// if delegate hasn't processed, detach from IME by default
detachWithIME();
}
void TextFieldTTF::deleteBackward()
{
size_t len = _inputText.length();
if (! len)
{
// there is no string
return;
}
// get the delete byte number
size_t deleteLen = 1; // default, erase 1 byte
while(0x80 == (0xC0 & _inputText.at(len - deleteLen)))
{
++deleteLen;
}
if (_delegate && _delegate->onTextFieldDeleteBackward(this, _inputText.c_str() + len - deleteLen, static_cast<int>(deleteLen)))
{
// delegate doesn't want to delete backwards
return;
}
// if all text deleted, show placeholder string
if (len <= deleteLen)
{
_inputText = "";
_charCount = 0;
setCursorPosition(0);
setString(_inputText);
return;
}
// set new input text
if (_cursorEnabled)
{
if (_cursorPosition)
{
setCursorPosition(_cursorPosition - 1);
StringUtils::StringUTF8 stringUTF8;
stringUTF8.replace(_inputText);
stringUTF8.deleteChar(_cursorPosition);
_charCount = stringUTF8.length();
setString(stringUTF8.getAsCharSequence());
}
}
else
{
std::string text(_inputText.c_str(), len - deleteLen);
setString(text);
}
}
const std::string& TextFieldTTF::getContentText()
{
return _inputText;
}
void TextFieldTTF::setCursorPosition(std::size_t cursorPosition)
{
if (_cursorEnabled && cursorPosition <= (std::size_t)_charCount)
{
_cursorPosition = cursorPosition;
_cursorShowingTime = CURSOR_TIME_SHOW_HIDE * 2.0f;
}
}
void TextFieldTTF::setCursorFromPoint(const Vec2 &point, const Camera* camera)
{
if (_cursorEnabled)
{
// Reset Label, no cursor
bool oldIsAttachWithIME = _isAttachWithIME;
_isAttachWithIME = false;
updateCursorDisplayText();
Rect rect;
rect.size = getContentSize();
if (isScreenPointInRect(point, camera, getWorldToNodeTransform(), rect, nullptr))
{
int latterPosition = 0;
for (; latterPosition < _lengthOfString; ++latterPosition)
{
if (_lettersInfo[latterPosition].valid && _lettersInfo[latterPosition].atlasIndex >= 0)
{
auto sprite = getLetter(latterPosition);
if (sprite)
{
rect.size = sprite->getContentSize();
if (isScreenPointInRect(point, camera, sprite->getWorldToNodeTransform(), rect, nullptr))
{
setCursorPosition(latterPosition);
break;
}
}
}
}
if (latterPosition == _lengthOfString)
{
setCursorPosition(latterPosition);
}
}
// Set cursor
_isAttachWithIME = oldIsAttachWithIME;
updateCursorDisplayText();
}
}
void TextFieldTTF::setAttachWithIME(bool isAttachWithIME)
{
if (isAttachWithIME != _isAttachWithIME)
{
_isAttachWithIME = isAttachWithIME;
if (_isAttachWithIME)
{
setCursorPosition(_charCount);
}
updateCursorDisplayText();
}
}
void TextFieldTTF::setTextColorInternally(const Color4B& color)
{
if (_currentLabelType == LabelType::BMFONT) {
Label::setColor(Color3B(color));
return;
}
Label::setTextColor(color);
}
void TextFieldTTF::setTextColor(const Color4B &color)
{
_colorText = color;
if (!_inputText.empty())
{
setTextColorInternally(color);
}
}
void TextFieldTTF::visit(Renderer *renderer, const Mat4 &parentTransform, uint32_t parentFlags)
{
if (_delegate && _delegate->onVisit(this,renderer,parentTransform,parentFlags))
{
return;
}
Label::visit(renderer,parentTransform,parentFlags);
}
void TextFieldTTF::update(float delta)
{
if (_cursorEnabled && _isAttachWithIME)
{
_cursorShowingTime -= delta;
if (_cursorShowingTime < -CURSOR_TIME_SHOW_HIDE)
{
_cursorShowingTime = CURSOR_TIME_SHOW_HIDE;
}
// before cursor inserted '\b', need next letter
auto sprite = getLetter((int)_cursorPosition + 1);
if (sprite)
{
if (_currentLabelType == LabelType::BMFONT) {
sprite->setColor(getColor());
}
if (_cursorShowingTime >= 0.0f)
{
sprite->setOpacity(255);
}
else
{
sprite->setOpacity(0);
}
sprite->setDirty(true);
}
}
}
const Color4B& TextFieldTTF::getColorSpaceHolder()
{
return _colorSpaceHolder;
}
void TextFieldTTF::setColorSpaceHolder(const Color3B& color)
{
setColorSpaceHolder(Color4B(color));
}
void TextFieldTTF::setColorSpaceHolder(const Color4B& color)
{
_colorSpaceHolder = color;
if (_inputText.empty())
{
setTextColorInternally(_colorSpaceHolder);
}
}
//////////////////////////////////////////////////////////////////////////
// properties
//////////////////////////////////////////////////////////////////////////
// input text property
void TextFieldTTF::setString(const std::string &text)
{
std::string displayText;
std::size_t charCount = 0;
if (!text.empty())
{
_inputText = text;
displayText = _inputText;
charCount = _calcCharCount(_inputText.c_str());
if (_secureTextEntry)
{
displayText = "";
size_t length = charCount;
while (length)
{
displayText.append(_passwordStyleText);
--length;
}
}
}
else
{
_inputText = "";
}
if (_cursorEnabled && charCount != _charCount)
{
_cursorPosition = charCount;
}
if (_cursorEnabled)
{
// Need for recreate all letters in Label
Label::removeAllChildrenWithCleanup(false);
}
// if there is no input text, display placeholder instead
if (_inputText.empty() && (!_cursorEnabled || !_isAttachWithIME))
{
setTextColorInternally(_colorSpaceHolder);
Label::setString(_placeHolder);
}
else
{
makeStringSupportCursor(displayText);
setTextColorInternally(_colorText);
Label::setString(displayText);
}
_charCount = charCount;
}
void TextFieldTTF::appendString(const std::string& text)
{
insertText(text.c_str(), text.length());
}
void TextFieldTTF::makeStringSupportCursor(std::string& displayText)
{
if (_cursorEnabled && _isAttachWithIME)
{
if (displayText.empty())
{
// \b - Next char not change x position
if (_currentLabelType == LabelType::TTF || _currentLabelType == LabelType::BMFONT)
displayText.push_back((char) TextFormatter::NextCharNoChangeX);
displayText.push_back(_cursorChar);
}
else
{
StringUtils::StringUTF8 stringUTF8;
stringUTF8.replace(displayText);
if (_cursorPosition > stringUTF8.length())
{
_cursorPosition = stringUTF8.length();
}
std::string cursorChar;
// \b - Next char not change x position
if (_currentLabelType == LabelType::TTF || _currentLabelType == LabelType::BMFONT)
cursorChar.push_back((char)TextFormatter::NextCharNoChangeX);
cursorChar.push_back(_cursorChar);
stringUTF8.insert(_cursorPosition, cursorChar);
displayText = stringUTF8.getAsCharSequence();
}
}
}
void TextFieldTTF::updateCursorDisplayText()
{
// Update Label content
setString(_inputText);
}
void TextFieldTTF::setCursorChar(char cursor)
{
if (_cursorChar != cursor)
{
_cursorChar = cursor;
updateCursorDisplayText();
}
}
void TextFieldTTF::controlKey(EventKeyboard::KeyCode keyCode)
{
if (_cursorEnabled)
{
switch (keyCode)
{
case EventKeyboard::KeyCode::KEY_HOME:
case EventKeyboard::KeyCode::KEY_KP_HOME:
setCursorPosition(0);
updateCursorDisplayText();
break;
case EventKeyboard::KeyCode::KEY_END:
setCursorPosition(_charCount);
updateCursorDisplayText();
break;
case EventKeyboard::KeyCode::KEY_DELETE:
case EventKeyboard::KeyCode::KEY_KP_DELETE:
if (_cursorPosition < (std::size_t)_charCount)
{
StringUtils::StringUTF8 stringUTF8;
stringUTF8.replace(_inputText);
stringUTF8.deleteChar(_cursorPosition);
setCursorPosition(_cursorPosition);
_charCount = stringUTF8.length();
setString(stringUTF8.getAsCharSequence());
}
break;
case EventKeyboard::KeyCode::KEY_LEFT_ARROW:
if (_cursorPosition)
{
setCursorPosition(_cursorPosition - 1);
updateCursorDisplayText();
}
break;
case EventKeyboard::KeyCode::KEY_RIGHT_ARROW:
if (_cursorPosition < (std::size_t)_charCount)
{
setCursorPosition(_cursorPosition + 1);
updateCursorDisplayText();
}
break;
case EventKeyboard::KeyCode::KEY_ESCAPE:
detachWithIME();
break;
default:
break;
}
}
}
const std::string& TextFieldTTF::getString() const
{
return _inputText;
}
// place holder text property
void TextFieldTTF::setPlaceHolder(const std::string& text)
{
_placeHolder = text;
if (_inputText.empty() && !_isAttachWithIME)
{
setTextColorInternally(_colorSpaceHolder);
Label::setString(_placeHolder);
}
}
const std::string& TextFieldTTF::getPlaceHolder() const
{
return _placeHolder;
}
void TextFieldTTF::setCursorEnabled(bool enabled)
{
if (_cursorEnabled == enabled)
{
return;
}
_cursorEnabled = enabled;
if (_cursorEnabled)
{
_cursorPosition = _charCount;
if (_currentLabelType == LabelType::TTF || _currentLabelType == LabelType::BMFONT) {
scheduleUpdate();
}
return;
}
_cursorPosition = 0;
if (_currentLabelType == LabelType::TTF || _currentLabelType == LabelType::BMFONT) {
unscheduleUpdate();
}
}
// secureTextEntry
void TextFieldTTF::setSecureTextEntry(bool value)
{
if (_secureTextEntry != value)
{
_secureTextEntry = value;
setString(_inputText);
}
}
void TextFieldTTF::setPasswordTextStyle(const std::string &text)
{
if (text.length() < 1)
{
return;
}
if (text != _passwordStyleText) {
_passwordStyleText = text;
setString(_inputText);
}
}
const std::string& TextFieldTTF::getPasswordTextStyle() const
{
return _passwordStyleText;
}
bool TextFieldTTF::isSecureTextEntry() const
{
return _secureTextEntry;
}
NS_CC_END