text_area.cpp
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#include <escher/text_area.h>
#include <escher/clipboard.h>
#include <stddef.h>
#include <assert.h>
#include <limits.h>
static inline size_t min(size_t a, size_t b) {
return (a>b ? b : a);
}
TextArea::Text::Text(char * buffer, size_t bufferSize) :
m_buffer(buffer),
m_bufferSize(bufferSize)
{
}
void TextArea::Text::setText(char * buffer, size_t bufferSize) {
m_buffer = buffer;
m_bufferSize = bufferSize;
}
TextArea::Text::Line::Line(const char * text) :
m_text(text),
m_length(0)
{
if (m_text != nullptr) {
while (*text != 0 && *text != '\n') {
text++;
}
m_length = text-m_text;
}
}
bool TextArea::Text::Line::contains(const char * c) const {
return (c >= m_text) && (c < m_text + m_length);
}
TextArea::Text::LineIterator & TextArea::Text::LineIterator::operator++() {
const char * last = m_line.text() + m_line.length();
m_line = Line(*last == 0 ? nullptr : last+1);
return *this;
}
size_t TextArea::Text::indexAtPosition(Position p) {
assert(m_buffer != nullptr);
if (p.line() < 0) {
return 0;
}
int y = 0;
const char * endOfLastLine = nullptr;
for (Line l : *this) {
if (p.line() == y) {
size_t x = p.column() < 0 ? 0 : p.column();
x = min(x, l.length());
return l.text() - m_buffer + x;
}
endOfLastLine = l.text() + l.length();
y++;
}
assert(endOfLastLine != nullptr && endOfLastLine >= m_buffer);
return endOfLastLine - m_buffer;
}
TextArea::Text::Position TextArea::Text::positionAtIndex(size_t index) {
assert(m_buffer != nullptr);
assert(index < m_bufferSize);
const char * target = m_buffer + index;
size_t y = 0;
for (Line l : *this) {
if (l.text() <= target && l.text() + l.length() >= target) {
size_t x = target - l.text();
return Position(x, y);
}
y++;
}
assert(false);
return Position(0, 0);
}
void TextArea::Text::insertChar(char c, size_t index) {
assert(m_buffer != nullptr);
assert(index < m_bufferSize-1);
char previous = c;
for (size_t i=index; i<m_bufferSize; i++) {
char inserted = previous;
previous = m_buffer[i];
m_buffer[i] = inserted;
if (inserted == 0) {
break;
}
}
}
char TextArea::Text::removeChar(size_t index) {
assert(m_buffer != nullptr);
assert(index < m_bufferSize-1);
char deletedChar = m_buffer[index];
for (size_t i=index; i<m_bufferSize; i++) {
m_buffer[i] = m_buffer[i+1];
if (m_buffer[i] == 0) {
break;
}
}
return deletedChar;
}
int TextArea::Text::removeRemainingLine(size_t index, int direction) {
assert(m_buffer != nullptr);
assert(index < m_bufferSize);
int jump = index;
while (m_buffer[jump] != '\n' && m_buffer[jump] != 0 && jump >= 0) {
jump += direction;
}
int delta = direction > 0 ? jump - index : index - jump;
if (delta == 0) {
return 0;
}
/* We stop at m_bufferSize-1 because:
* - if direction > 0: jump >= k+1 so we will reach the 0 before m_bufferSize-1
* - if direction < 0: k+1 will reach m_bufferSize. */
for (size_t k = index; k < m_bufferSize-1; k++) {
if (direction > 0) {
m_buffer[k] = m_buffer[jump++];
} else {
m_buffer[++jump] = m_buffer[k+1];
}
if (m_buffer[k] == 0 || m_buffer[k+1] == 0) {
return delta;
}
}
assert(false);
return 0;
}
TextArea::Text::Position TextArea::Text::span() const {
assert(m_buffer != nullptr);
size_t width = 0;
size_t height = 0;
for (Line l : *this) {
if (l.length() > width) {
width = l.length();
}
height++;
}
return Position(width, height);
}
/* TextArea::ContentView */
TextArea::ContentView::ContentView(char * textBuffer, size_t textBufferSize, KDText::FontSize fontSize, KDColor textColor, KDColor backgroundColor) :
View(),
m_cursorIndex(0),
m_text(textBuffer, textBufferSize),
m_fontSize(fontSize),
m_textColor(textColor),
m_backgroundColor(backgroundColor)
{
}
KDSize TextArea::ContentView::minimalSizeForOptimalDisplay() const {
KDSize charSize = KDText::charSize(m_fontSize);
Text::Position span = m_text.span();
return KDSize(
/* We take into account the space required to draw a cursor at the end of
* line by adding charSize.width() to the width. */
charSize.width() * (span.column()+1),
charSize.height() * span.line()
);
}
void TextArea::ContentView::drawRect(KDContext * ctx, KDRect rect) const {
ctx->fillRect(rect, m_backgroundColor);
KDSize charSize = KDText::charSize(m_fontSize);
// We want to draw even partially visible characters. So we need to round
// down for the top left corner and up for the bottom right one.
Text::Position topLeft(
rect.x()/charSize.width(),
rect.y()/charSize.height()
);
Text::Position bottomRight(
rect.right()/charSize.width() + 1,
rect.bottom()/charSize.height() + 1
);
int y = 0;
size_t x = topLeft.column();
for (Text::Line line : m_text) {
if (y >= topLeft.line() && y <= bottomRight.line() && topLeft.column() < (int)line.length()) {
//drawString(line.text(), 0, y*charHeight); // Naive version
ctx->drawString(
line.text() + topLeft.column(),
KDPoint(x*charSize.width(), y*charSize.height()),
m_fontSize,
m_textColor,
m_backgroundColor,
min(line.length() - topLeft.column(), bottomRight.column() - topLeft.column())
);
}
y++;
}
}
int TextArea::ContentView::numberOfSubviews() const {
return 1;
}
View * TextArea::ContentView::subviewAtIndex(int index) {
return &m_cursorView;
}
void TextArea::ContentView::layoutSubviews() {
m_cursorView.setFrame(cursorRect());
}
void TextArea::TextArea::ContentView::setText(char * textBuffer, size_t textBufferSize) {
m_text.setText(textBuffer, textBufferSize);
m_cursorIndex = 0;
}
const char * TextArea::TextArea::ContentView::text() const {
return m_text.text();
}
bool TextArea::TextArea::ContentView::insertText(const char * text) {
int textSize = strlen(text);
if (m_text.textLength() + textSize >= m_text.bufferSize() || textSize == 0) {
return false;
}
bool lineBreak = false;
while (*text != 0) {
lineBreak |= *text == '\n';
m_text.insertChar(*text++, m_cursorIndex++);
}
layoutSubviews(); // Reposition the cursor
markRectAsDirty(dirtyRectFromCursorPosition(m_cursorIndex-1, lineBreak));
return true;
}
void TextArea::TextArea::ContentView::removeChar() {
bool lineBreak = false;
if (m_cursorIndex > 0) {
lineBreak = m_text.removeChar(--m_cursorIndex) == '\n';
}
layoutSubviews(); // Reposition the cursor
markRectAsDirty(dirtyRectFromCursorPosition(m_cursorIndex, lineBreak));
}
bool TextArea::ContentView::removeEndOfLine() {
int removedLine = m_text.removeRemainingLine(m_cursorIndex, 1);
if (removedLine > 0) {
layoutSubviews();
markRectAsDirty(dirtyRectFromCursorPosition(m_cursorIndex, false));
return true;
}
return false;
}
void TextArea::ContentView::removeStartOfLine() {
if (m_cursorIndex <= 0) {
return;
}
int removedLine = m_text.removeRemainingLine(m_cursorIndex-1, -1);
if (removedLine > 0) {
assert(m_cursorIndex >= removedLine);
m_cursorIndex -= removedLine;
layoutSubviews();
markRectAsDirty(dirtyRectFromCursorPosition(m_cursorIndex, false));
}
}
KDRect TextArea::TextArea::ContentView::cursorRect() {
return characterFrameAtIndex(m_cursorIndex);
}
KDRect TextArea::TextArea::ContentView::characterFrameAtIndex(size_t index) {
KDSize charSize = KDText::charSize(m_fontSize);
Text::Position p = m_text.positionAtIndex(index);
return KDRect(
p.column() * charSize.width(),
p.line() * charSize.height(),
charSize.width(),
charSize.height()
);
}
void TextArea::TextArea::ContentView::moveCursorGeo(int deltaX, int deltaY) {
Text::Position p = m_text.positionAtIndex(m_cursorIndex);
m_cursorIndex = m_text.indexAtPosition(Text::Position(p.column() + deltaX, p.line() + deltaY));
layoutSubviews();
}
void TextArea::TextArea::ContentView::moveCursorIndex(int deltaX) {
assert(deltaX == -1 || deltaX == 1);
if (deltaX == -1 && m_cursorIndex>0) {
m_cursorIndex--;
}
if (deltaX == 1 && m_text[m_cursorIndex] != 0) {
m_cursorIndex++;
}
layoutSubviews();
}
KDRect TextArea::TextArea::ContentView::dirtyRectFromCursorPosition(size_t index, bool lineBreak) {
KDRect charRect = characterFrameAtIndex(index);
KDRect dirtyRect = KDRect(charRect.x(), charRect.y(), bounds().width() - charRect.x(), charRect.height());
if (lineBreak) {
dirtyRect = dirtyRect.unionedWith(KDRect(0, charRect.bottom()+1, bounds().width(), bounds().height()-charRect.bottom()-1));
}
return dirtyRect;
}
/* TextArea */
TextArea::TextArea(Responder * parentResponder, char * textBuffer,
size_t textBufferSize, TextAreaDelegate * delegate,
KDText::FontSize fontSize, KDColor textColor, KDColor backgroundColor) :
ScrollableView(parentResponder, &m_contentView, this),
m_contentView(textBuffer, textBufferSize, fontSize, textColor, backgroundColor),
m_delegate(delegate)
{
assert(textBufferSize < INT_MAX/2);
}
Toolbox * TextArea::toolbox() {
if (m_delegate != nullptr) {
return m_delegate->toolboxForTextArea(this);
}
return nullptr;
}
bool TextArea::handleEvent(Ion::Events::Event event) {
if (m_delegate != nullptr && m_delegate->textAreaDidReceiveEvent(this, event)) {
} else if (Responder::handleEvent(event)) {
// The only event Responder handles is 'Toolbox' displaying.
return true;
} else if (event == Ion::Events::Left) {
m_contentView.moveCursorIndex(-1);
} else if (event == Ion::Events::Right) {
m_contentView.moveCursorIndex(1);
} else if (event == Ion::Events::Up) {
m_contentView.moveCursorGeo(0, -1);
} else if (event == Ion::Events::Down) {
m_contentView.moveCursorGeo(0, 1);
} else if (event == Ion::Events::ShiftLeft) {
m_contentView.moveCursorGeo(-INT_MAX/2, 0);
} else if (event == Ion::Events::ShiftRight) {
m_contentView.moveCursorGeo(INT_MAX/2, 0);
} else if (event == Ion::Events::Backspace) {
removeChar();
} else if (event.hasText()) {
insertText(event.text());
} else if (event == Ion::Events::EXE) {
insertText("\n");
} else if (event == Ion::Events::Clear) {
if (!m_contentView.removeEndOfLine()) {
m_contentView.removeStartOfLine();
}
} else if (event == Ion::Events::Paste) {
insertText(Clipboard::sharedClipboard()->storedText());
} else {
return false;
}
/* Technically, we do not need to overscroll in text area. However,
* logically, we should layout the scroll view before calling
* scrollToContentRect in case the size of the scroll view has changed and
* then call scrollToContentRect which call another layout of the scroll view
* if the offset has evolved. In order to avoid requiring two layouts, we
* allow overscrolling in scrollToContentRect and the last layout of the
* scroll view corrects the size of the scroll view only once. */
scrollToContentRect(m_contentView.cursorRect(), true);
return true;
}
void TextArea::setText(char * textBuffer, size_t textBufferSize) {
m_contentView.setText(textBuffer, textBufferSize);
m_contentView.moveCursorGeo(0, 0);
}
bool TextArea::insertTextWithIndentation(const char * textBuffer) {
int indentation = indentationBeforeCursor();
char spaceString[indentation+1];
for (int i = 0; i < indentation; i++) {
spaceString[i] = ' ';
}
spaceString[indentation] = 0;
int spaceStringSize = strlen(spaceString);
int textSize = strlen(textBuffer);
int totalIndentationSize = 0;
for (size_t i = 0; i < strlen(textBuffer); i++) {
if (textBuffer[i] == '\n') {
totalIndentationSize+=spaceStringSize;
}
}
if (m_contentView.getText()->textLength() + textSize + totalIndentationSize >= m_contentView.getText()->bufferSize() || textSize == 0) {
return false;
}
for (size_t i = 0; i < strlen(textBuffer); i++) {
const char charString[] = {textBuffer[i], 0};
insertText(charString);
if (textBuffer[i] == '\n') {
insertText(spaceString);
}
}
return true;
}
int TextArea::indentationBeforeCursor() const {
int charIndex = cursorLocation()-1;
int indentationSize = 0;
while (charIndex >= 0 && m_contentView.text()[charIndex] != '\n') {
if (m_contentView.text()[charIndex] == ' ') {
indentationSize++;
} else {
indentationSize = 0;
}
charIndex--;
}
return indentationSize;
}
void TextArea::moveCursor(int deltaX) {
int sign = deltaX > 0? 1 : -1;
int numberSteps = deltaX * sign;
for (int i = 0; i < numberSteps; i++) {
m_contentView.moveCursorIndex(sign);
}
scrollToContentRect(m_contentView.cursorRect(), true);
}