diff --git a/osu.Game.Rulesets.Osu/Edit/OsuSelectionScaleHandler.cs b/osu.Game.Rulesets.Osu/Edit/OsuSelectionScaleHandler.cs index fc85865dd29d..e3ab95c402cb 100644 --- a/osu.Game.Rulesets.Osu/Edit/OsuSelectionScaleHandler.cs +++ b/osu.Game.Rulesets.Osu/Edit/OsuSelectionScaleHandler.cs @@ -240,39 +240,74 @@ public Vector2 ClampScaleToPlayfieldBounds(Vector2 scale, Vector2? origin = null points = originalConvexHull!; foreach (var point in points) - { - scale = clampToBound(scale, point, Vector2.Zero); - scale = clampToBound(scale, point, OsuPlayfield.BASE_SIZE); - } + scale = clampToBounds(scale, point, Vector2.Zero, OsuPlayfield.BASE_SIZE); - return Vector2.ComponentMax(scale, new Vector2(Precision.FLOAT_EPSILON)); - - float minPositiveComponent(Vector2 v) => MathF.Min(v.X < 0 ? float.PositiveInfinity : v.X, v.Y < 0 ? float.PositiveInfinity : v.Y); + return scale; - Vector2 clampToBound(Vector2 s, Vector2 p, Vector2 bound) + // Clamps the scale vector s such that the point p scaled by s is within the rectangle defined by lowerBounds and upperBounds + Vector2 clampToBounds(Vector2 s, Vector2 p, Vector2 lowerBounds, Vector2 upperBounds) { p -= actualOrigin; - bound -= actualOrigin; + lowerBounds -= actualOrigin; + upperBounds -= actualOrigin; + // a.X is the rotated X component of p with respect to the X bounds + // a.Y is the rotated X component of p with respect to the Y bounds + // b.X is the rotated Y component of p with respect to the X bounds + // b.Y is the rotated Y component of p with respect to the Y bounds var a = new Vector2(cos * cos * p.X - sin * cos * p.Y, -sin * cos * p.X + sin * sin * p.Y); var b = new Vector2(sin * sin * p.X + sin * cos * p.Y, sin * cos * p.X + cos * cos * p.Y); + float sLowerBound, sUpperBound; + switch (adjustAxis) { case Axes.X: - s.X = MathF.Min(scale.X, minPositiveComponent(Vector2.Divide(bound - b, a))); + (sLowerBound, sUpperBound) = computeBounds(lowerBounds - b, upperBounds - b, a); + s.X = MathHelper.Clamp(s.X, sLowerBound, sUpperBound); break; case Axes.Y: - s.Y = MathF.Min(scale.Y, minPositiveComponent(Vector2.Divide(bound - a, b))); + (sLowerBound, sUpperBound) = computeBounds(lowerBounds - a, upperBounds - a, b); + s.Y = MathHelper.Clamp(s.Y, sLowerBound, sUpperBound); break; case Axes.Both: - s = Vector2.ComponentMin(s, s * minPositiveComponent(Vector2.Divide(bound, a * s.X + b * s.Y))); + // Here we compute the bounds for the magnitude multiplier of the scale vector + // Therefore the ratio s.X / s.Y will be maintained + (sLowerBound, sUpperBound) = computeBounds(lowerBounds, upperBounds, a * s.X + b * s.Y); + s.X = s.X < 0 + ? MathHelper.Clamp(s.X, s.X * sUpperBound, s.X * sLowerBound) + : MathHelper.Clamp(s.X, s.X * sLowerBound, s.X * sUpperBound); + s.Y = s.Y < 0 + ? MathHelper.Clamp(s.Y, s.Y * sUpperBound, s.Y * sLowerBound) + : MathHelper.Clamp(s.Y, s.Y * sLowerBound, s.Y * sUpperBound); break; } return s; } + + // Computes the bounds for the magnitude of the scaled point p with respect to the bounds lowerBounds and upperBounds + (float, float) computeBounds(Vector2 lowerBounds, Vector2 upperBounds, Vector2 p) + { + var sLowerBounds = Vector2.Divide(lowerBounds, p); + var sUpperBounds = Vector2.Divide(upperBounds, p); + + // If the point is negative, then the bounds are flipped + if (p.X < 0) + (sLowerBounds.X, sUpperBounds.X) = (sUpperBounds.X, sLowerBounds.X); + if (p.Y < 0) + (sLowerBounds.Y, sUpperBounds.Y) = (sUpperBounds.Y, sLowerBounds.Y); + + // If the point is at zero, then any scale will have no effect on the point so the bounds are infinite + // The float division would already give us infinity for the bounds, but the sign is not consistent so we have to manually set it + if (Precision.AlmostEquals(p.X, 0)) + (sLowerBounds.X, sUpperBounds.X) = (float.NegativeInfinity, float.PositiveInfinity); + if (Precision.AlmostEquals(p.Y, 0)) + (sLowerBounds.Y, sUpperBounds.Y) = (float.NegativeInfinity, float.PositiveInfinity); + + return (MathF.Max(sLowerBounds.X, sLowerBounds.Y), MathF.Min(sUpperBounds.X, sUpperBounds.Y)); + } } private void moveSelectionInBounds() diff --git a/osu.Game.Rulesets.Osu/Edit/PreciseScalePopover.cs b/osu.Game.Rulesets.Osu/Edit/PreciseScalePopover.cs index 33b0c1418507..c6c0a4d3a80e 100644 --- a/osu.Game.Rulesets.Osu/Edit/PreciseScalePopover.cs +++ b/osu.Game.Rulesets.Osu/Edit/PreciseScalePopover.cs @@ -175,12 +175,14 @@ private void toggleAxisAvailable(Bindable axisBindable, bool available) axisBindable.Disabled = !available; } - private void updateMaxScale() + private void updateMinMaxScale() { if (!scaleHandler.OriginalSurroundingQuad.HasValue) return; + const float min_scale = 0.5f; const float max_scale = 10; + var scale = scaleHandler.ClampScaleToPlayfieldBounds(new Vector2(max_scale), getOriginPosition(scaleInfo.Value), getAdjustAxis(scaleInfo.Value), getRotation(scaleInfo.Value)); if (!scaleInfo.Value.XAxis) @@ -189,12 +191,21 @@ private void updateMaxScale() scale.Y = max_scale; scaleInputBindable.MaxValue = MathF.Max(1, MathF.Min(scale.X, scale.Y)); + + scale = scaleHandler.ClampScaleToPlayfieldBounds(new Vector2(min_scale), getOriginPosition(scaleInfo.Value), getAdjustAxis(scaleInfo.Value), getRotation(scaleInfo.Value)); + + if (!scaleInfo.Value.XAxis) + scale.X = min_scale; + if (!scaleInfo.Value.YAxis) + scale.Y = min_scale; + + scaleInputBindable.MinValue = MathF.Min(1, MathF.Max(scale.X, scale.Y)); } private void setOrigin(ScaleOrigin origin) { scaleInfo.Value = scaleInfo.Value with { Origin = origin }; - updateMaxScale(); + updateMinMaxScale(); updateAxisCheckBoxesEnabled(); } @@ -226,14 +237,14 @@ private void setOrigin(ScaleOrigin origin) private void setAxis(bool x, bool y) { scaleInfo.Value = scaleInfo.Value with { XAxis = x, YAxis = y }; - updateMaxScale(); + updateMinMaxScale(); } protected override void PopIn() { base.PopIn(); scaleHandler.Begin(); - updateMaxScale(); + updateMinMaxScale(); } protected override void PopOut()