2016-08-09 21:24:18 +03:00
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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef MOZILLA_GFX_POLYGON_H
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#define MOZILLA_GFX_POLYGON_H
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2016-09-17 02:03:32 +03:00
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#include "Matrix.h"
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2016-08-09 21:24:18 +03:00
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#include "mozilla/InitializerList.h"
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2016-10-04 02:35:52 +03:00
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#include "mozilla/Move.h"
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2016-08-09 21:24:18 +03:00
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#include "nsTArray.h"
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#include "Point.h"
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#include "Triangle.h"
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2016-08-09 21:24:18 +03:00
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namespace mozilla {
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namespace gfx {
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2016-10-04 02:35:52 +03:00
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// Polygon3DTyped stores the points of a convex planar polygon.
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template<class Units>
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class Polygon3DTyped {
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public:
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Polygon3DTyped() {}
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explicit Polygon3DTyped(const std::initializer_list<Point3DTyped<Units>>& aPoints,
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Point3DTyped<Units> aNormal =
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Point3DTyped<Units>(0.0f, 0.0f, 1.0f))
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: mNormal(aNormal), mPoints(aPoints)
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{
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#ifdef DEBUG
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EnsurePlanarPolygon();
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#endif
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}
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explicit Polygon3DTyped(nsTArray<Point3DTyped<Units>>&& aPoints,
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Point3DTyped<Units> aNormal =
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Point3DTyped<Units>(0.0f, 0.0f, 1.0f))
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: mNormal(aNormal), mPoints(Move(aPoints))
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{
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#ifdef DEBUG
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EnsurePlanarPolygon();
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#endif
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}
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explicit Polygon3DTyped(const nsTArray<Point3DTyped<Units>>& aPoints,
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Point3DTyped<Units> aNormal =
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Point3DTyped<Units>(0.0f, 0.0f, 1.0f))
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: mNormal(aNormal), mPoints(aPoints)
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{
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#ifdef DEBUG
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EnsurePlanarPolygon();
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#endif
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}
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RectTyped<Units> BoundingBox() const
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{
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float minX, maxX, minY, maxY;
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minX = maxX = mPoints[0].x;
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minY = maxY = mPoints[0].y;
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for (const Point3DTyped<Units>& point : mPoints) {
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minX = std::min(point.x, minX);
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maxX = std::max(point.x, maxX);
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minY = std::min(point.y, minY);
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maxY = std::max(point.y, maxY);
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}
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return RectTyped<Units>(minX, minY, maxX - minX, maxY - minY);
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}
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nsTArray<float>
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CalculateDotProducts(const Polygon3DTyped<Units>& aPlane,
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size_t& aPos, size_t& aNeg) const
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{
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// Point classification might produce incorrect results due to numerical
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// inaccuracies. Using an epsilon value makes the splitting plane "thicker".
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const float epsilon = 0.05f;
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MOZ_ASSERT(!aPlane.GetPoints().IsEmpty());
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const Point3DTyped<Units>& planeNormal = aPlane.GetNormal();
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const Point3DTyped<Units>& planePoint = aPlane[0];
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aPos = aNeg = 0;
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nsTArray<float> dotProducts;
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for (const Point3DTyped<Units>& point : mPoints) {
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float dot = (point - planePoint).DotProduct(planeNormal);
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if (dot > epsilon) {
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aPos++;
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} else if (dot < -epsilon) {
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aNeg++;
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} else {
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// The point is within the thick plane.
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dot = 0.0f;
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}
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dotProducts.AppendElement(dot);
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}
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return dotProducts;
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}
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// Clips the polygon against the given 2D rectangle.
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Polygon3DTyped<Units> ClipPolygon(const RectTyped<Units>& aRect) const
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{
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Polygon3DTyped<Units> polygon(mPoints, mNormal);
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// Left edge
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ClipPolygonWithEdge(polygon, aRect.BottomLeft(), aRect.TopLeft());
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// Bottom edge
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ClipPolygonWithEdge(polygon, aRect.BottomRight(), aRect.BottomLeft());
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// Right edge
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ClipPolygonWithEdge(polygon, aRect.TopRight(), aRect.BottomRight());
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// Top edge
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ClipPolygonWithEdge(polygon, aRect.TopLeft(), aRect.TopRight());
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return polygon;
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}
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const Point3DTyped<Units>& GetNormal() const
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{
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return mNormal;
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}
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const nsTArray<Point3DTyped<Units>>& GetPoints() const
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{
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return mPoints;
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}
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const Point3DTyped<Units>& operator[](size_t aIndex) const
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{
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MOZ_ASSERT(mPoints.Length() > aIndex);
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return mPoints[aIndex];
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}
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void SplitPolygon(const Polygon3DTyped<Units>& aSplittingPlane,
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const nsTArray<float>& aDots,
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nsTArray<Point3DTyped<Units>>& aBackPoints,
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nsTArray<Point3DTyped<Units>>& aFrontPoints) const
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{
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static const auto Sign = [](const float& f) {
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if (f > 0.0f) return 1;
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if (f < 0.0f) return -1;
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return 0;
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};
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const Point3DTyped<Units>& normal = aSplittingPlane.GetNormal();
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const size_t pointCount = mPoints.Length();
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for (size_t i = 0; i < pointCount; ++i) {
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size_t j = (i + 1) % pointCount;
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const Point3DTyped<Units>& a = mPoints[i];
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const Point3DTyped<Units>& b = mPoints[j];
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const float dotA = aDots[i];
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const float dotB = aDots[j];
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// The point is in front of or on the plane.
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if (dotA >= 0) {
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aFrontPoints.AppendElement(a);
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}
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// The point is behind or on the plane.
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if (dotA <= 0) {
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aBackPoints.AppendElement(a);
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}
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// If the sign of the dot products changes between two consecutive
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// vertices, then the plane intersects with the polygon edge.
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// The case where the polygon edge is within the plane is handled above.
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if (Sign(dotA) && Sign(dotB) && Sign(dotA) != Sign(dotB)) {
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// Calculate the line segment and plane intersection point.
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const Point3DTyped<Units> ab = b - a;
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const float dotAB = ab.DotProduct(normal);
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const float t = -dotA / dotAB;
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const Point3DTyped<Units> p = a + (ab * t);
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// Add the intersection point to both polygons.
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aBackPoints.AppendElement(p);
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aFrontPoints.AppendElement(p);
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}
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}
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}
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2016-10-07 20:58:13 +03:00
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nsTArray<TriangleTyped<Units>> ToTriangles() const
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{
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nsTArray<TriangleTyped<Units>> triangles;
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if (mPoints.Length() < 3) {
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return triangles;
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}
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for (size_t i = 1; i < mPoints.Length() - 1; ++i) {
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TriangleTyped<Units> triangle(Point(mPoints[0].x, mPoints[0].y),
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Point(mPoints[i].x, mPoints[i].y),
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Point(mPoints[i+1].x, mPoints[i+1].y));
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triangles.AppendElement(Move(triangle));
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}
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return triangles;
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}
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2016-10-07 20:58:13 +03:00
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void TransformToLayerSpace(const Matrix4x4Typed<Units, Units>& aTransform)
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{
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TransformPoints(aTransform);
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mNormal = Point3DTyped<Units>(0.0f, 0.0f, 1.0f);
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}
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void TransformToScreenSpace(const Matrix4x4Typed<Units, Units>& aTransform)
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{
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TransformPoints(aTransform);
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// Normal vectors should be transformed using inverse transpose.
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mNormal = aTransform.Inverse().Transpose().TransformPoint(mNormal);
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}
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private:
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void ClipPolygonWithEdge(Polygon3DTyped<Units>& aPolygon,
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const PointTyped<Units>& aFirst,
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const PointTyped<Units>& aSecond) const
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{
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const Point3DTyped<Units> a(aFirst.x, aFirst.y, 0.0f);
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const Point3DTyped<Units> b(aSecond.x, aSecond.y, 0.0f);
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const Point3DTyped<Units> normal(b.y - a.y, a.x - b.x, 0.0f);
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Polygon3DTyped<Units> plane({a, b}, normal);
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size_t pos, neg;
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nsTArray<float> dots = aPolygon.CalculateDotProducts(plane, pos, neg);
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nsTArray<Point3DTyped<Units>> backPoints, frontPoints;
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aPolygon.SplitPolygon(plane, dots, backPoints, frontPoints);
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// Only use the points that are behind the clipping plane.
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aPolygon = Polygon3DTyped<Units>(Move(backPoints), aPolygon.GetNormal());
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}
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#ifdef DEBUG
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void EnsurePlanarPolygon() const
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{
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if (mPoints.Length() <= 3) {
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// Polygons with three or less points are guaranteed to be planar.
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return;
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}
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// This normal calculation method works only for planar polygons.
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// The resulting normal vector will point towards the viewer when the
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// polygon has a counter-clockwise winding order from the perspective
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// of the viewer.
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Point3DTyped<Units> normal;
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for (size_t i = 1; i < mPoints.Length() - 1; ++i) {
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normal +=
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(mPoints[i] - mPoints[0]).CrossProduct(mPoints[i + 1] - mPoints[0]);
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}
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// Ensure that at least one component is greater than zero.
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// This avoids division by zero when normalizing the vector.
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bool hasNonZeroComponent = std::abs(normal.x) > 0.0f ||
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std::abs(normal.y) > 0.0f ||
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std::abs(normal.z) > 0.0f;
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MOZ_ASSERT(hasNonZeroComponent);
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normal.Normalize();
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// Ensure that the polygon is planar.
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// http://mathworld.wolfram.com/Point-PlaneDistance.html
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const float epsilon = 0.01f;
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for (const Point3DTyped<Units>& point : mPoints) {
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float d = normal.DotProduct(point - mPoints[0]);
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MOZ_ASSERT(std::abs(d) < epsilon);
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}
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}
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#endif
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void TransformPoints(const Matrix4x4Typed<Units, Units>& aTransform)
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{
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for (Point3DTyped<Units>& point : mPoints) {
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point = aTransform.TransformPoint(point);
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}
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}
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Point3DTyped<Units> mNormal;
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nsTArray<Point3DTyped<Units>> mPoints;
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};
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typedef Polygon3DTyped<UnknownUnits> Polygon3D;
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} // namespace gfx
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} // namespace mozilla
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2016-08-16 21:01:06 +03:00
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#endif /* MOZILLA_GFX_POLYGON_H */
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