Mon, 20 Feb 2017 07:56:21 +0200
Made fixed cameras matrix-based. This simplifies some math.
/* * LDForge: LDraw parts authoring CAD * Copyright (C) 2013 - 2017 Teemu Piippo * * This program 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, either version 3 of the License, or * (at your option) any later version. * * This program 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 this program. If not, see <http://www.gnu.org/licenses/>. */ #include "glcamera.h" #include "grid.h" #include "miscallenous.h" /* * Constructs a fixed camera from parameters. */ GLCamera::GLCamera(QString name, FixedCameraParameters&& bag) : m_name {name}, m_rotationMatrix {bag.rotationMatrix}, m_localX {bag.localX}, m_localY {bag.localY}, m_negatedX {bag.negatedX}, m_negatedY {bag.negatedY}, m_negatedDepth {bag.negatedZ} {} /* * Constructs a free camera. */ GLCamera::GLCamera(QString name, decltype(FreeCamera)) : m_name {name}, m_isFree {true} {} /* * Returns whether or not the given axis is negated on this camera. */ bool GLCamera::isAxisNegated(Axis axis) const { switch (axis) { case X: return m_negatedX; case Y: return m_negatedY; case Z: return m_negatedDepth; default: return false; } } /* * Returns the 3D axis that is on the X axis in this camera. */ Axis GLCamera::axisX() const { return m_localX; } /* * Returns the 3D axis that is on the Y axis in this camera. */ Axis GLCamera::axisY() const { return m_localY; } /* * Returns the 3D axis that is on the Z axis in this camera (inwards). */ Axis GLCamera::axisZ() const { return static_cast<Axis>(3 - m_localX - m_localY); } /* * This converts a 2D point on the screen to a 3D point in the model. If 'snap' is true, the 3D point will snap to the current grid. */ Vertex GLCamera::convert2dTo3d(const QPoint& position2d, Grid* grid) const { if (m_isFree) { return {0, 0, 0}; } else { Vertex position3d; int signX = m_negatedX ? -1 : 1; int signY = m_negatedY ? -1 : 1; // Calculate cx and cy - these are the LDraw unit coords the cursor is at. double cx = -m_virtualSize.width() + (2 * position2d.x() * m_virtualSize.width() / m_size.width()) - m_panningX; double cy = m_virtualSize.height() - (2 * position2d.y() * m_virtualSize.height() / m_size.height()) - m_panningY; // If a grid was passed, snap coordinates to it. if (grid) { cx = grid->snap(cx, Grid::Coordinate); cy = grid->snap(cy, Grid::Coordinate); } roundToDecimals(cx, 4); roundToDecimals(cy, 4); // Create the vertex from the coordinates position3d.setCoordinate(axisX(), cx * signX); position3d.setCoordinate(axisY(), cy * signY); position3d.setCoordinate(axisZ(), m_depth); return position3d; } } /* * Inverse operation for the above - convert a 3D position to a 2D screen position. */ QPoint GLCamera::convert3dTo2d(const Vertex& position3d) const { if (m_isFree) { return {0, 0}; } else { int signX = m_negatedX ? -1 : 1; int signY = m_negatedY ? -1 : 1; int rx = (position3d[axisX()] * signX + m_virtualSize.width() + m_panningX) * m_size.width() / 2 / m_virtualSize.width(); int ry = (position3d[axisY()] * signY - m_virtualSize.height() + m_panningY) * m_size.height() / 2 / m_virtualSize.height(); return {rx, -ry}; } } /* * Resizes the camera when the renderer is resized. */ void GLCamera::rendererResized(int width, int height) { m_size = {width, height}; m_virtualSize = {m_zoom, height * m_zoom / width}; } /* * Returns the "virtual size" of the camera. Used to zoom in while keeping proportions. */ const QSizeF& GLCamera::virtualSize() const { return m_virtualSize; } /* * Returns the "z depth" of the camera. Since the camera provides 2D editing, this value fills in the value for the * third dimension for 3D vertices. */ double GLCamera::depth() const { return m_depth; } /* * Returns the X-panning of this camera. */ double GLCamera::panningX() const { return m_panningX; } /* * Returns the Y-panning of this camera. */ double GLCamera::panningY() const { return m_panningY; } /* * Returns the zoom level of this camera. */ double GLCamera::zoom() const { return m_zoom; } /* * Explicitly sets the panning of this camera. */ void GLCamera::setPanning(double x, double y) { m_panningX = x; m_panningY = y; } /* * Makes the camera pan by the provided mouse move input. */ void GLCamera::pan(int xMove, int yMove) { m_panningX += 0.03f * xMove * zoom() / 7.5f; m_panningY -= 0.03f * yMove * zoom() / 7.5f; } /* * Zooms the camera in one notch (e.g. by mousewheel). */ void GLCamera::zoomNotch (bool inward) { m_zoom *= inward ? 0.833f : 1.2f; m_zoom = qBound(0.01, zoom(), 10000.0); rendererResized(m_size.width(), m_size.height()); } /* * Explicitly sets the zoom of this camera. */ void GLCamera::setZoom(double zoom) { m_zoom = zoom; rendererResized(m_size.width(), m_size.height()); } /* * Returns the name of the camera */ const QString& GLCamera::name() const { return m_name; } const GLRotationMatrix& GLCamera::transformationMatrix() const { return m_rotationMatrix; } /* * Returns the camera's transformation matrix, scaled by the given scale value. */ GLRotationMatrix GLCamera::transformationMatrix(double scale) const { GLRotationMatrix matrix = m_rotationMatrix; for (int i = 0; i < 4; ++i) for (int j = 0; j < 4; ++j) matrix(i, j) *= scale; return matrix; }