Affine Transformations

Transform rotate (const real x, [const real y = 0, [const real z = 0]])

Virtual function

Creates a Transform t locally and calls t.rotate(x, y, z). t is then applied to all of the Points on points. The return value is t.

Transform scale (real x, [real y = 1, [real z = 1]])

Function

Creates a Transform t locally and calls t.scale(x, y, z). t is then applied to all of the Points on points. The return value is t. The Points on the Path are scaled according to the arguments: Point pt[8]; pt[0] = (-1, -1); for (int i = 1; i < 8; ++i) { pt[i] = pt[0]; pt[i].rotate(0, 0, i * 45); } Path p("--", true, &pt[0], &pt[1], &pt[2], &pt[3], &pt[4], &pt[5], &pt[6], &pt[7], 0); p.draw(); p.scale(2, 2); p.draw(); Fig. 115.

Transform shear (real xy, [real xz = 0, [real yx = 0, [real yz = 0, [real zx = 0, [real zy = 0]]]]])

Function

Creates a Transform t locally and calls t.shear(xy, xz, yx, yz, zx, zy). t is then applied to all of the Points on points. The return value is t. Point p0; Point p1(1); Point p2(1, 1); Point p3(0, 1); Path q("--", true, &p0, &p1, &p2, &p3, 0); q.rotate(0, 45); q.shift(1); q.filldraw(black, light_gray); q.shear(1.5, 2, 2.5, 3, 3.5, 5); q.filldraw(black, light_gray); Fig. 116.

Transform shift (real x, [real y = 0, [real z = 0]])

Function

Creates a Transform t locally and calls t.shift(x, y, z). t is then applied to all of the Points on points. The return value is t. Shifts each of the Points on the Path according to the arguments. default_focus.set(5, 10, -10, 0, 10, 10, 10); Point pt[6]; pt[0].set(-2, -2); pt[1].set(0, -3); pt[2].set(2, -2); pt[3].set(2, 2); pt[4].set(0, 3); pt[5].set(-2, 2); Path p("--", true, &pt[0], &pt[1], &pt[2], &pt[3], &pt[4], &pt[5], 0); p.draw(); p.shift(3, 3, 3); p.draw(); Fig. 117.

Transform shift (const Point& p)

Function

Creates a Transform t locally and calls t.shift(p). t is then applied to all of the Points on points. The return value is t. This version of shift() uses the x, y, and z-coordinates of the Point p to shift the Path. default_focus.set(5, 10, -10, 0, 10, 10, 10); Point pt[6]; pt[0].set(-2, -2); pt[1].set(0, -3); pt[2].set(2, -2); pt[3].set(2, 2); pt[4].set(0, 3); pt[5].set(-2, 2); Path p("--", true, &pt[0], &pt[1], &pt[2], &pt[3], &pt[4], &pt[5], 0); p.draw(); Point s(1, 1, 1); p.shift(s); p.draw(); Fig. 118.

void shift_times (real x, [real y = 1, [real z = 1]])	Virtual function
void shift_times (const Point& @var{p})	Virtual function

Each of these functions calls the corresponding version of Point::shift_times() on all of the Points on points. See Point Reference; Affine Transformations. The return value is void, because there is no guarantee that all of the Points on a Path will have identical transform members (although it's likely). Please note that shift_times() will only have an effect on the Points on a Path if it's called after a call to shift() and before an operation is applied that causes Point::apply_transform() to be called.

Transform rotate (const Point& p0, const Point& p1, [const real angle = 180])

Virtual function

Creates a Transform t locally and calls t.rotate(p0, p1, angle). t is then applied to all of the Points on points. The return value is t.

Transform rotate (const Path& p, [const real angle = 180])

Function

If p.is_linear() returns true, this function creates a Transform t locally and calls t.rotate(p, angle). t is then applied to all of the Points on points. The return value is t. Otherwise, it issues an error message and returns INVALID_TRANSFORM.