public static void Transform(Vector2[] sourceArray, ref Matrix2D matrix, Vector2[] destinationArray) { Transform(sourceArray, 0, ref matrix, destinationArray, 0, sourceArray.Length); }
public static Vector2 Transform(Vector2 position, Matrix2D matrix) { return(new Vector2((position.X * matrix.M11) + (position.Y * matrix.M21) + matrix.M31, (position.X * matrix.M12) + (position.Y * matrix.M22) + matrix.M32)); }
public void drawArrow( Vector2 start, Vector2 end, float length, float width, bool drawStartIndicator, Color color) { // Draw connection segment between start- and end-point // drawLine( start, end, color ); // Precalculate halfwidth var halfWidth = width / 2; // Create directional reference Vector2 rotation = start - end; rotation.Normalize(); // Calculate angle of directional vector float angle = (float)Math.Atan2(rotation.X, -rotation.Y); // Create matrix for rotation Matrix2D rotMatrix = Matrix2D.createRotation(angle); // Create translation matrix for end-point Matrix2D endMatrix = Matrix2D.createTranslation(end.X, end.Y); // Setup arrow end shape Vector2[] verts = new Vector2[3]; verts[0] = new Vector2(0, 0); verts[1] = new Vector2(-halfWidth, -length); verts[2] = new Vector2(halfWidth, -length); // Rotate end shape Vector2Ext.transform(verts, ref rotMatrix, verts); // Translate end shape Vector2Ext.transform(verts, ref endMatrix, verts); // Draw arrow end shape drawPolygon(verts, 3, color); if (drawStartIndicator) { // Create translation matrix for start Matrix2D startMatrix = Matrix2D.createTranslation(start.X, start.Y); // Setup arrow start shape Vector2[] baseVerts = new Vector2[4]; baseVerts[0] = new Vector2(-halfWidth, length / 4); baseVerts[1] = new Vector2(halfWidth, length / 4); baseVerts[2] = new Vector2(halfWidth, 0); baseVerts[3] = new Vector2(-halfWidth, 0); // Rotate start shape Vector2Ext.transform(baseVerts, ref rotMatrix, baseVerts); // Translate start shape Vector2Ext.transform(baseVerts, ref startMatrix, baseVerts); // Draw start shape drawPolygon(baseVerts, 4, color); } }
public void drawInto( Batcher batcher, ref FontCharacterSource text, Vector2 position, Color color, float rotation, Vector2 origin, Vector2 scale, SpriteEffects effect, float depth) { var flipAdjustment = Vector2.Zero; var flippedVert = (effect & SpriteEffects.FlipVertically) == SpriteEffects.FlipVertically; var flippedHorz = (effect & SpriteEffects.FlipHorizontally) == SpriteEffects.FlipHorizontally; if (flippedVert || flippedHorz) { Vector2 size; measureString(ref text, out size); if (flippedHorz) { origin.X *= -1; flipAdjustment.X = -size.X; } if (flippedVert) { origin.Y *= -1; flipAdjustment.Y = _font.LineSpacing - size.Y; } } // TODO: This looks excessive... i suspect we could do most of this with simple vector math and avoid this much matrix work. var requiresTransformation = flippedHorz || flippedVert || rotation != 0f || scale != Vector2.One; if (requiresTransformation) { Matrix2D temp; Matrix2D.createTranslation(-origin.X, -origin.Y, out _transformationMatrix); Matrix2D.createScale(flippedHorz ? -scale.X : scale.X, flippedVert ? -scale.Y : scale.Y, out temp); Matrix2D.multiply(ref _transformationMatrix, ref temp, out _transformationMatrix); Matrix2D.createTranslation(flipAdjustment.X, flipAdjustment.Y, out temp); Matrix2D.multiply(ref temp, ref _transformationMatrix, out _transformationMatrix); Matrix2D.createRotation(rotation, out temp); Matrix2D.multiply(ref _transformationMatrix, ref temp, out _transformationMatrix); Matrix2D.createTranslation(position.X, position.Y, out temp); Matrix2D.multiply(ref _transformationMatrix, ref temp, out _transformationMatrix); } // Get the default glyph here once. SpriteFont.Glyph?defaultGlyph = null; if (_font.DefaultCharacter.HasValue) { defaultGlyph = _glyphs[_font.DefaultCharacter.Value]; } var currentGlyph = SpriteFont.Glyph.Empty; var offset = requiresTransformation ? Vector2.Zero : position - origin; var firstGlyphOfLine = true; for (var i = 0; i < text.Length; ++i) { var c = text[i]; if (c == '\r') { continue; } if (c == '\n') { offset.X = requiresTransformation ? 0f : position.X - origin.X; offset.Y += _font.LineSpacing; firstGlyphOfLine = true; continue; } if (!_glyphs.TryGetValue(c, out currentGlyph)) { if (!defaultGlyph.HasValue) { throw new ArgumentException("Errors.TextContainsUnresolvableCharacters", "text"); } currentGlyph = defaultGlyph.Value; } // The first character on a line might have a negative left side bearing. // In this scenario, SpriteBatch/SpriteFont normally offset the text to the right, // so that text does not hang off the left side of its rectangle. if (firstGlyphOfLine) { offset.X += Math.Max(currentGlyph.LeftSideBearing, 0); firstGlyphOfLine = false; } else { offset.X += _font.Spacing + currentGlyph.LeftSideBearing; } var p = offset; if (flippedHorz) { p.X += currentGlyph.BoundsInTexture.Width; } p.X += currentGlyph.Cropping.X; if (flippedVert) { p.Y += currentGlyph.BoundsInTexture.Height - _font.LineSpacing; } p.Y += currentGlyph.Cropping.Y; // transform our point if we need to if (requiresTransformation) { Vector2Ext.transform(ref p, ref _transformationMatrix, out p); } var destRect = RectangleExt.fromFloats( p.X, p.Y, currentGlyph.BoundsInTexture.Width * scale.X, currentGlyph.BoundsInTexture.Height * scale.Y); batcher.draw( _font.Texture, destRect, currentGlyph.BoundsInTexture, color, rotation, Vector2.Zero, effect, depth); offset.X += currentGlyph.Width + currentGlyph.RightSideBearing; } }
/// <summary> /// compiles the text into raw verts/texture coordinates. This method must be called anytime text or any other properties are /// changed. /// </summary> public void compile() { _charDetails = new CharDetails[_text.Length]; Character currentCharacter = null; var effects = (byte)SpriteEffects.None; var _transformationMatrix = Matrix2D.identity; var requiresTransformation = rotation != 0f || _scale != Vector2.One; if (requiresTransformation) { Matrix2D temp; Matrix2D.createTranslation(-_origin.X, -_origin.Y, out _transformationMatrix); Matrix2D.createScale(_scale.X, _scale.Y, out temp); Matrix2D.multiply(ref _transformationMatrix, ref temp, out _transformationMatrix); Matrix2D.createRotation(rotation, out temp); Matrix2D.multiply(ref _transformationMatrix, ref temp, out _transformationMatrix); Matrix2D.createTranslation(position.X, position.Y, out temp); Matrix2D.multiply(ref _transformationMatrix, ref temp, out _transformationMatrix); } var offset = requiresTransformation ? Vector2.Zero : position - _origin; for (var i = 0; i < _text.Length; ++i) { _charDetails[i].initialize(); _charDetails[i].color = _color; var c = _text[i]; if (c == '\n') { offset.X = requiresTransformation ? 0f : position.X - _origin.X; offset.Y += _font.lineHeight; currentCharacter = null; continue; } if (currentCharacter != null) { offset.X += _font.spacing.X + currentCharacter.xAdvance; } currentCharacter = _font[c]; var p = offset; p.X += currentCharacter.offset.X; p.Y += currentCharacter.offset.Y; // transform our point if we need to if (requiresTransformation) { Vector2Ext.transform(ref p, ref _transformationMatrix, out p); } var destination = new Vector4(p.X, p.Y, currentCharacter.bounds.Width * _scale.X, currentCharacter.bounds.Height * _scale.Y); _charDetails[i].texture = _font.textures[_font[currentCharacter.character].texturePage]; //_charDetails[i].texture = currentCharacter.subtexture.texture2D; // Batcher calculations var sourceRectangle = currentCharacter.bounds; float sourceX, sourceY, sourceW, sourceH; var destW = destination.Z; var destH = destination.W; // calculate uvs var inverseTexW = 1.0f / (float)currentCharacter.bounds.Width; var inverseTexH = 1.0f / (float)currentCharacter.bounds.Height; sourceX = sourceRectangle.X * inverseTexW; sourceY = sourceRectangle.Y * inverseTexH; sourceW = Math.Max(sourceRectangle.Width, float.Epsilon) * inverseTexW; sourceH = Math.Max(sourceRectangle.Height, float.Epsilon) * inverseTexH; // Rotation Calculations float rotationMatrix1X; float rotationMatrix1Y; float rotationMatrix2X; float rotationMatrix2Y; if (!Mathf.withinEpsilon(rotation, 0.0f)) { var sin = Mathf.sin(rotation); var cos = Mathf.cos(rotation); rotationMatrix1X = cos; rotationMatrix1Y = sin; rotationMatrix2X = -sin; rotationMatrix2Y = cos; } else { rotationMatrix1X = 1.0f; rotationMatrix1Y = 0.0f; rotationMatrix2X = 0.0f; rotationMatrix2Y = 1.0f; } // Calculate vertices, finally. // top-left _charDetails[i].verts[0].X = rotationMatrix2X + rotationMatrix1X + destination.X - 1; _charDetails[i].verts[0].Y = rotationMatrix2Y + rotationMatrix1Y + destination.Y - 1; // top-right var cornerX = _cornerOffsetX[1] * destW; var cornerY = _cornerOffsetY[1] * destH; _charDetails[i].verts[1].X = ( (rotationMatrix2X * cornerY) + (rotationMatrix1X * cornerX) + destination.X ); _charDetails[i].verts[1].Y = ( (rotationMatrix2Y * cornerY) + (rotationMatrix1Y * cornerX) + destination.Y ); // bottom-left cornerX = _cornerOffsetX[2] * destW; cornerY = _cornerOffsetY[2] * destH; _charDetails[i].verts[2].X = ( (rotationMatrix2X * cornerY) + (rotationMatrix1X * cornerX) + destination.X ); _charDetails[i].verts[2].Y = ( (rotationMatrix2Y * cornerY) + (rotationMatrix1Y * cornerX) + destination.Y ); // bottom-right cornerX = _cornerOffsetX[3] * destW; cornerY = _cornerOffsetY[3] * destH; _charDetails[i].verts[3].X = ( (rotationMatrix2X * cornerY) + (rotationMatrix1X * cornerX) + destination.X ); _charDetails[i].verts[3].Y = ( (rotationMatrix2Y * cornerY) + (rotationMatrix1Y * cornerX) + destination.Y ); // texture coordintes _charDetails[i].texCoords[0].X = (_cornerOffsetX[0 ^ effects] * sourceW) + sourceX; _charDetails[i].texCoords[0].Y = (_cornerOffsetY[0 ^ effects] * sourceH) + sourceY; _charDetails[i].texCoords[1].X = (_cornerOffsetX[1 ^ effects] * sourceW) + sourceX; _charDetails[i].texCoords[1].Y = (_cornerOffsetY[1 ^ effects] * sourceH) + sourceY; _charDetails[i].texCoords[2].X = (_cornerOffsetX[2 ^ effects] * sourceW) + sourceX; _charDetails[i].texCoords[2].Y = (_cornerOffsetY[2 ^ effects] * sourceH) + sourceY; _charDetails[i].texCoords[3].X = (_cornerOffsetX[3 ^ effects] * sourceW) + sourceX; _charDetails[i].texCoords[3].Y = (_cornerOffsetY[3 ^ effects] * sourceH) + sourceY; } }