diff --git a/DSFML/import/dsfml/graphics/rect.d b/DSFML/import/dsfml/graphics/rect.d index 0c72279f..39c2156b 100644 --- a/DSFML/import/dsfml/graphics/rect.d +++ b/DSFML/import/dsfml/graphics/rect.d @@ -51,17 +51,17 @@ else } /** -* Rect is an utility class for manipulating rectangles. -* Template parameter defines the type of coordinates (integer float, ...) -*/ + * Rect is an utility class for manipulating rectangles. + * Template parameter defines the type of coordinates (integer float, ...) + */ struct Rect(T) { private: T left; // Left coordinate of the rectangle T top; // Top coordinate of the rectangle - T right; // Right coordinate of the rectangle - T bottom; // Bottom coordinate of the rectangle + T width; // width + T height; // height public: static if (!isIntegerType!(T) && !isRealType!(T)) @@ -78,88 +78,48 @@ public: { return i > j ? i : j; } - -/+ - /** - * Construct the rectangle from its coordinates - * - * Params: - * leftCoord = Left coordinate of the rectangle - * topCoord = Top coordinate of the rectangle - * rightCoord = Right coordinate of the rectangle - * bottomCoord = Bottom coordinate of the rectangle - */ - this(T leftCoord, T topCoord, T rightCoord, T bottomCoord) - { - left = leftCoord; - top = topCoord; - right = rightCoord; - bottom = bottomCoord; - } -+/ /** - * Get the width of the rectangle - * - * Returns: - * Width of rectangle - */ - T getWidth() + * Get the right coordinate of the rectangle + */ + T right() { - return right - left; + return left + width; } /** - * Get the height of the rectangle - * - * Returns: - * Height of rectangle - */ - T getHeight() + * Get the bottom coordinate of the rectangle + */ + T bottom() { - return bottom - top; + return top + height; } /** - * Move the whole rectangle by the given offset - * - * Params: - * offsetX = Horizontal offset - * offsetY = Vertical offset - */ - void offset(T offsetX, T offsetY) - { - left += offsetX; - right += offsetX; - top += offsetY; - bottom += offsetY; - } - - /** - * Check if a point is inside the rectangle's area - * - * Params: - * x = X coordinate of the point to test - * y = Y coordinate of the point to test - * - * Returns: - * True if the point is inside - */ + * Check if a point is inside the rectangle's area + * + * Params: + * x = X coordinate of the point to test + * y = Y coordinate of the point to test + * + * Returns: + * True if the point is inside + */ bool contains(T x, T y) { - return (x >= left) && (x <= right) && (y >= top) && (y <= bottom); + return (x >= left) && (x < right) && (y >= top) && (y < bottom); } /** - * Check intersection between two rectangles - * - * Params: - * rectangle = Rectangle to test - * overlappingRect = Rectangle to be filled with overlapping rect (NULL by default) - * - * Returns: - * True if rectangles overlap - */ + * Check intersection between two rectangles + * + * Params: + * rectangle = Rectangle to test + * overlappingRect = Rectangle to be filled with overlapping rect (NULL by default) + * + * Returns: + * True if rectangles overlap + */ bool intersects(Rect!(T) rectangle, out Rect!(T) overlappingRect = Rect!(T)()) { // Compute overlapping rect diff --git a/DSFML/import/dsfml/graphics/shape.d b/DSFML/import/dsfml/graphics/shape.d index f314ad28..7e6e9c55 100644 --- a/DSFML/import/dsfml/graphics/shape.d +++ b/DSFML/import/dsfml/graphics/shape.d @@ -245,10 +245,8 @@ public: * Create a shape made of a single rectangle * * Params: - * p1X = X position of the first point - * p1Y = Y position of the first point - * p2X = X position second point - * p2Y = Y position second point + * left, top = Top-left corner of the rectangle + * width, height = Size of the rectangle * col = Color used to fill the rectangle * outline = Outline width (0 by default) * outlineCol = Color used to draw the outline (black by default) @@ -256,9 +254,9 @@ public: * Returns: * new rectangle shape */ - static Shape rectangle(float p1X, float p1Y, float p2X, float p2Y, Color col, float outline = 0.f, Color outlineCol = Color.BLACK) + static Shape rectangle(float left, float top, float width, float height, Color col, float outline = 0.f, Color outlineCol = Color.BLACK) { - return new Shape(sfShape_CreateRectangle(p1X, p1Y, p2X, p2Y, col, outline, outlineCol)); + return new Shape(sfShape_CreateRectangle(left, top, width, height, col, outline, outlineCol)); } /** diff --git a/DSFML/import/dsfml/graphics/view.d b/DSFML/import/dsfml/graphics/view.d index 0789a649..f70f2e29 100644 --- a/DSFML/import/dsfml/graphics/view.d +++ b/DSFML/import/dsfml/graphics/view.d @@ -62,7 +62,7 @@ public: */ this(Vector2f center, Vector2f size) { - super(sfView_CreateFromRect(FloatRect(center.x - size.x / 2, center.y - size.y / 2, center.x + size.x / 2, center.y + size.y / 2) )); + super(sfView_CreateFromRect(FloatRect(center.x - size.x / 2, center.y - size.y / 2, size.x, size.y) )); } /** diff --git a/DSFML/import/dsfml/system/vector2.d b/DSFML/import/dsfml/system/vector2.d index bf21d62f..e18f98b2 100644 --- a/DSFML/import/dsfml/system/vector2.d +++ b/DSFML/import/dsfml/system/vector2.d @@ -27,74 +27,56 @@ module dsfml.system.vector2; /** -* Vector2 is an utility class for manipulating 2 dimensional -* vectors. Template parameter defines the type of coordinates -* (integer, float, ...) -*/ + * Vector2 is an utility class for manipulating 2 dimensional + * vectors. Template parameter defines the type of coordinates + * (integer, float, ...) + */ struct Vector2(T) { T x; T y; - /// unary (-) overload - Vector2 opNeg() + /// negate the vector + Vector2 opUnary(string op : "-")() { return Vector2!(T)(-x, -y); } - /// (+=) overload - Vector2 opAddAssign(Vector2 other) + /// dot product + T opBinary(string op : "*", U:Vector2)(U v) { - x += other.x; - y += other.y; - return this; + return x*v.x + y*v.y; } - /// (-=) overload - Vector2 opSubAssign(Vector2 other) + /// element-wise operations, +, -, + Vector2 opBinary(string op, U:Vector2)(U v) + if (op != "*") { - x -= other.x; - y -= other.y; - return this; - } - - /// (+) overload - Vector2 opAdd(Vector2 other) - { - return Vector2!(T)( cast(T)(x + other.x), cast(T)(y + other.y) ); - } - - /// (-) overload - Vector2 opSub(Vector2 other) - { - return Vector2!(T) ( cast(T)(x - other.x), cast(T)(y - other.y) ); +// pragma(msg, "opBinary!"~op); + mixin("return Vector2!(T)( cast(T)(x " ~ op ~ " v.x), cast(T)(y " ~ op ~ " v.y) );"); } - /// (*) overload - Vector2 opMul(int i) + /// operations with a scalar + Vector2 opBinary(string op)(int i) { - return Vector2!(T) ( cast(T)(x * i), cast(T)(y * i) ); + mixin("return Vector2!(T) ( cast(T)(x " ~ op ~ " i), cast(T)(y " ~ op ~ " i) );"); } - - /// (*=) overload - Vector2 opMulAssign(int i) + + /// element-wise assign operations, +=, -=, ... + Vector2 opOpAssign(string op, U:Vector2)(U v) { - x *= i; - y *= i; + mixin("x " ~ op ~ " v.x;"); + mixin("y " ~ op ~ " v.y;"); return this; } + - /// (/) overload - Vector2 opDiv(int i) - { - return Vector2!(T) ( cast(T)(x / i), cast(T)(y / i)); - } - /// (/=) overload - Vector2 opDivAssign(int i) + /// (*=) overload + Vector2 opOpAssign(string op)(int i) { - x /= i; - y /= i; + mixin("x "~op~" i;"); + mixin("y "~op~" i;"); return this; } @@ -110,44 +92,41 @@ struct Vector2(T) } } -version (UnitTest) +unittest { - unittest - { - Vector2f main = Vector2f(10f, 10f); - Vector2f other = Vector2f(10f, 10f); - Vector2f result; - - result = -main; - assert (result == Vector2f(-10.f, -10.f) ); - - result = main; - result += other; - assert (result == Vector2f(20.f, 20.f)); - - result = main; - result -= other; - assert (result == Vector2f(0.f, 0.f)); - - result = main + other; - assert (result == Vector2f(20.f, 20.f)); - - result = main - other; - assert (result == Vector2f(0.f, 0.f)); - - result = main * 10; - assert (result == Vector2f(100.f, 100.f)); - - result *= 2; - assert (result == Vector2f(200.f, 200.f)); - - result = main / 2; - assert (result == Vector2f(5.f, 5.f)); - - result = main; - result /= 2; - assert (result == Vector2f(5.f, 5.f)); - } + Vector2f main = Vector2f(10f, 10f); + Vector2f other = Vector2f(10f, 10f); + Vector2f result; + + result = -main; + assert (result == Vector2f(-10.f, -10.f) ); + + result = main; + result += other; + assert (result == Vector2f(20.f, 20.f)); + + result = main; + result -= other; + assert (result == Vector2f(0.f, 0.f)); + + result = main + other; + assert (result == Vector2f(20.f, 20.f)); + + result = main - other; + assert (result == Vector2f(0.f, 0.f)); + + result = main * 10; + assert (result == Vector2f(100.f, 100.f)); + + result *= 2; + assert (result == Vector2f(200.f, 200.f)); + + result = main / 2; + assert (result == Vector2f(5.f, 5.f)); + + result = main; + result /= 2; + assert (result == Vector2f(5.f, 5.f)); } /// Aliases