lines-grid-editor/gridpreview.cpp

#include "gridpreview.h"

GridPreview::GridPreview(QWidget *parent)
    : QWidget{parent}
{
    colorMap.insert(QString("red"), Qt::red);
    colorMap.insert(QString("green"), Qt::green);
    colorMap.insert(QString("blue"), Qt::blue);
}

void GridPreview::setSize(int newWidth, int newHeight)
{
    width = newWidth;
    height = newHeight;

    update();
    emit updatedContents();
}

void GridPreview::addLine(Line &line)
{
    lines.push_back(line);

    update();
    emit updatedContents();
}

void GridPreview::removeLine(int index)
{
    lines.removeAt(index);

    update();
    emit updatedContents();
}

void GridPreview::setLineColor(int index, QString color)
{
    lines[index].setColor(color);

    update();
    emit updatedContents();
}

void GridPreview::setLineStartPoint(int index, QPoint point)
{
    lines[index].setStartPoint(point);

    update();
    emit updatedContents();
}

void GridPreview::setLineEndPoint(int index, QPoint point)
{
    lines[index].setEndPoint(point);

    update();
    emit updatedContents();
}

int GridPreview::getWidth()
{
    return width;
}

int GridPreview::getHeight()
{
    return height;
}

const Line &GridPreview::getLine(int index)
{
    return lines.at(index);
}

const QString GridPreview::toLuaTable()
{
    QString output(tableTemplate.arg(width).arg(height));
    QString linesSubTable = "";
    for(auto iter = lines.begin(); iter != lines.end(); iter++ )
    {
        linesSubTable += QString("        %1,\n").arg(iter->toLuaTable());
    }
    linesSubTable.removeLast(); // \n
    linesSubTable.removeLast(); // ,
    return output.arg(linesSubTable);
}

void GridPreview::paintEvent(QPaintEvent *)
{
    QPainter painter(this);
    QPen pen(Qt::black, 2);
    painter.setPen(pen);
    QBrush brush(Qt::black);
    double aspectRatio = (double) rect().width() / rect().height();
    double cellAspectRatio = (double) width / height;
    bool widthBased = aspectRatio > cellAspectRatio;
    int cellSize = widthBased ?
                       rect().height() / height :
                       rect().width() / width;

    int dotSize = cellSize * 0.5;
    int filledDotSize = cellSize * 0.7;

    int areaWidth = cellSize * width;
    int areaHeight = cellSize * height;

    int offsetX = (rect().width() - areaWidth) / 2;
    int offsetY = (rect().height() - areaHeight) / 2;

    QRect drawArea(offsetX, offsetY, areaWidth, areaHeight);

    // Draw main grid

    painter.drawRect(drawArea);

    QRect cell(0, 0, cellSize, cellSize);
    painter.setBrush(brush);
    for (int cellX = 0; cellX < width; cellX++)
    {
        for (int cellY = 0; cellY < height; cellY++)
        {
            cell.setLeft(offsetX + (cellSize - dotSize) / 2 + cellX * cellSize);
            cell.setWidth(dotSize);
            cell.setTop(offsetY + (cellSize - dotSize) / 2 + cellY * cellSize);
            cell.setHeight(dotSize);
            painter.drawEllipse(cell);
        }
    }

    // Draw line points

    for (auto iter = lines.begin(); iter < lines.end(); iter++)
    {
        QColor color(colorFromString(iter->getColor()));
        brush.setColor(color);
        painter.setBrush(brush);

        // Draw start
        cell.setLeft(offsetX + (cellSize - filledDotSize) / 2 + (iter->getStart().x() - 1) * cellSize);
        cell.setWidth(filledDotSize);
        cell.setTop(offsetY + (cellSize - filledDotSize) / 2 + (iter->getStart().y() - 1) * cellSize);
        cell.setHeight(filledDotSize);
        painter.drawEllipse(cell);

        // Draw end
        cell.setLeft(offsetX + (cellSize - filledDotSize) / 2 + (iter->getEnd().x() - 1) * cellSize);
        cell.setWidth(filledDotSize);
        cell.setTop(offsetY + (cellSize - filledDotSize) / 2 + (iter->getEnd().y() - 1) * cellSize);
        cell.setHeight(filledDotSize);
        painter.drawEllipse(cell);
    }
}

const QColor GridPreview::colorFromString(const QString color)
{
    if (!colorMap.contains(color))
        return colorMap[QString("red")];
    return colorMap[color];
}

void GridPreview::mouseMoveEvent(QMouseEvent *event)
{
    if (!mouseCaptured) {
        return;
    }
}

void GridPreview::mousePressEvent(QMouseEvent *event)
{
    mouseCaptured = true;

    QPoint gridPos = localMousePosition(event);

    std::cout << gridPos.x() << ',' << gridPos.y() << std::endl;

    if (!isPointOccupied(gridPos) && pointInBounds(gridPos))
    {
        Line line;
        line.setStartPoint(gridPos);
        line.setEndPoint(gridPos);
        addLine(line);
    }
}

void GridPreview::mouseReleaseEvent(QMouseEvent *event)
{
    mouseCaptured = false;
}

const QPoint GridPreview::localMousePosition(QMouseEvent *event)
{
    QPoint position(event->position().toPoint());
    return snapToGrid(position);
}

const QPoint GridPreview::snapToGrid(const QPoint &global)
{
    double aspectRatio = (double) rect().width() / rect().height();
    double cellAspectRatio = (double) width / height;
    bool widthBased = aspectRatio > cellAspectRatio;
    int cellSize = widthBased ?
                       rect().height() / height :
                       rect().width() / width;

    int areaWidth = cellSize * width;
    int areaHeight = cellSize * height;

    int offsetX = (rect().width() - areaWidth) / 2;
    int offsetY = (rect().height() - areaHeight) / 2;

    return QPoint(1 + (global.x() - offsetX) / cellSize, 1 + (global.y() - offsetY) / cellSize);
}

double GridPreview::isPointOccupied(const QPoint &point)
{
    for (auto iter = lines.begin(); iter < lines.end(); iter++)
    {
        if (iter->getStart() == point || iter->getEnd() == point)
        {
            return true;
        }
    }
    return false;
}

double GridPreview::pointInBounds(const QPoint &point)
{
    return point.x() > 0 && point.y() > 0 && point.x() <= width && point.y() <= height;
}