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#include "bracket_pair_layout.h"
#include "horizontal_layout.h"
#include <poincare/expression_layout_cursor.h>
#include <poincare/layout_engine.h>
extern "C" {
#include <assert.h>
#include <stdlib.h>
}
namespace Poincare {
ExpressionLayout * BracketPairLayout::clone() const {
BracketPairLayout * layout = new BracketPairLayout(const_cast<BracketPairLayout *>(this)->operandLayout(), true);
return layout;
}
void BracketPairLayout::collapseSiblingsAndMoveCursor(ExpressionLayoutCursor * cursor) {
// If the operand layout is not an HorizontalLayout, replace it with one.
if (!operandLayout()->isHorizontal()) {
ExpressionLayout * previousOperand = operandLayout();
HorizontalLayout * horizontalOperandLayout = new HorizontalLayout(previousOperand, false);
replaceChild(previousOperand, horizontalOperandLayout, false);
}
ExpressionLayout::collapseOnDirection(HorizontalDirection::Right, 0);
cursor->setPointedExpressionLayout(operandLayout());
cursor->setPosition(ExpressionLayoutCursor::Position::Left);
}
void BracketPairLayout::deleteBeforeCursor(ExpressionLayoutCursor * cursor) {
if (cursor->isEquivalentTo(ExpressionLayoutCursor(operandLayout(), ExpressionLayoutCursor::Position::Left))) {
// Case: Left of the operand. Delete the layout, keep the operand.
replaceWithAndMoveCursor(operandLayout(), true, cursor);
return;
}
ExpressionLayout::deleteBeforeCursor(cursor);
}
ExpressionLayoutCursor BracketPairLayout::cursorLeftOf(ExpressionLayoutCursor cursor, bool * shouldRecomputeLayout) {
// Case: Left of the operand. Go Left of the brackets.
if (operandLayout()
&& cursor.pointedExpressionLayout() == operandLayout()
&& cursor.position() == ExpressionLayoutCursor::Position::Left)
{
return ExpressionLayoutCursor(this, ExpressionLayoutCursor::Position::Left);
}
assert(cursor.pointedExpressionLayout() == this);
// Case: Right of the brackets. Go Right of the operand.
if (cursor.position() == ExpressionLayoutCursor::Position::Right) {
assert(operandLayout() != nullptr);
return ExpressionLayoutCursor(operandLayout(), ExpressionLayoutCursor::Position::Right);
}
assert(cursor.position() == ExpressionLayoutCursor::Position::Left);
// Case: Left of the brackets. Ask the parent.
if (m_parent) {
return m_parent->cursorLeftOf(cursor, shouldRecomputeLayout);
}
return ExpressionLayoutCursor();
}
ExpressionLayoutCursor BracketPairLayout::cursorRightOf(ExpressionLayoutCursor cursor, bool * shouldRecomputeLayout) {
// Case: Right of the operand. Go Right of the brackets.
if (operandLayout()
&& cursor.pointedExpressionLayout() == operandLayout()
&& cursor.position() == ExpressionLayoutCursor::Position::Right)
{
return ExpressionLayoutCursor(this, ExpressionLayoutCursor::Position::Right);
}
assert(cursor.pointedExpressionLayout() == this);
// Case: Left of the brackets. Go Left of the operand.
if (cursor.position() == ExpressionLayoutCursor::Position::Left) {
assert(operandLayout() != nullptr);
return ExpressionLayoutCursor(operandLayout(), ExpressionLayoutCursor::Position::Left);
}
assert(cursor.position() == ExpressionLayoutCursor::Position::Right);
// Case: Right of the brackets. Ask the parent.
cursor.setPointedExpressionLayout(this);
if (m_parent) {
return m_parent->cursorRightOf(cursor, shouldRecomputeLayout);
}
return ExpressionLayoutCursor();
}
int BracketPairLayout::writeTextInBuffer(char * buffer, int bufferSize) const {
if (bufferSize == 0) {
return -1;
}
buffer[bufferSize-1] = 0;
// Write the opening bracket
int numberOfChar = 0;
buffer[numberOfChar++] = '[';
if (numberOfChar >= bufferSize-1) { return bufferSize-1;}
// Write the argument
numberOfChar += const_cast<Poincare::BracketPairLayout *>(this)->operandLayout()->writeTextInBuffer(buffer+numberOfChar, bufferSize-numberOfChar);
if (numberOfChar >= bufferSize-1) { return bufferSize-1; }
// Write the closing bracket
buffer[numberOfChar++] = ']';
buffer[numberOfChar] = 0;
return numberOfChar;
}
void BracketPairLayout::render(KDContext * ctx, KDPoint p, KDColor expressionColor, KDColor backgroundColor) {
const KDCoordinate k_widthMargin = widthMargin();
const KDCoordinate k_externWidthMargin = externWidthMargin();
KDSize operandSize = operandLayout()->size();
KDCoordinate verticalBarHeight = operandLayout()->size().height() + 2*k_verticalMargin;
ctx->fillRect(KDRect(p.x()+k_externWidthMargin, p.y()+verticalExternMargin(), k_lineThickness, verticalBarHeight), expressionColor);
ctx->fillRect(KDRect(p.x()+k_externWidthMargin+operandSize.width()+2*k_widthMargin+k_lineThickness, p.y()+verticalExternMargin(), k_lineThickness, verticalBarHeight), expressionColor);
if (renderTopBar()) {
ctx->fillRect(KDRect(p.x()+k_externWidthMargin, p.y()+verticalExternMargin(), k_bracketWidth, k_lineThickness), expressionColor);
ctx->fillRect(KDRect(p.x()+k_externWidthMargin+2*k_lineThickness+operandSize.width()+2*k_widthMargin-k_bracketWidth, p.y() + verticalExternMargin(), k_bracketWidth, k_lineThickness), expressionColor);
}
if (renderBottomBar()) {
ctx->fillRect(KDRect(p.x()+k_externWidthMargin, p.y()+verticalExternMargin()+verticalBarHeight-k_lineThickness, k_bracketWidth, k_lineThickness), expressionColor);
ctx->fillRect(KDRect(p.x()+k_externWidthMargin+2*k_lineThickness+operandSize.width()+2*k_widthMargin-k_bracketWidth, p.y()+verticalExternMargin()+verticalBarHeight-k_lineThickness, k_bracketWidth, k_lineThickness), expressionColor);
}
}
KDSize BracketPairLayout::computeSize() {
const KDCoordinate k_widthMargin = widthMargin();
const KDCoordinate k_externWidthMargin = externWidthMargin();
KDSize operandSize = operandLayout()->size();
return KDSize(operandSize.width() + 2*k_externWidthMargin + 2*k_widthMargin + 2*k_lineThickness, operandSize.height() + 2 * k_verticalMargin + 2*verticalExternMargin());
}
void BracketPairLayout::computeBaseline() {
m_baseline = operandLayout()->baseline() + k_verticalMargin + verticalExternMargin();
m_baselined = true;
}
KDPoint BracketPairLayout::positionOfChild(ExpressionLayout * child) {
const KDCoordinate k_widthMargin = widthMargin();
const KDCoordinate k_externWidthMargin = externWidthMargin();
return KDPoint(k_widthMargin+k_externWidthMargin+k_lineThickness, k_verticalMargin + verticalExternMargin());
}
}
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