Library Coq.Reals.Rgeom

Require Import Rbase.
Require Import Rfunctions.
Require Import SeqSeries.
Require Import Rtrigo1.
Require Import R_sqrt.
Local Open Scope R_scope.

Distance

Definition dist_euc (x0 y0 x1 y1:R) : R :=
  sqrt (Rsqr (x0 - x1) + Rsqr (y0 - y1)).

Lemma distance_refl : forall x0 y0:R, dist_euc x0 y0 x0 y0 = 0.

Lemma distance_symm :
  forall x0 y0 x1 y1:R, dist_euc x0 y0 x1 y1 = dist_euc x1 y1 x0 y0.

Lemma law_cosines :
  forall x0 y0 x1 y1 x2 y2 ac:R,
    let a := dist_euc x1 y1 x0 y0 in
      let b := dist_euc x2 y2 x0 y0 in
        let c := dist_euc x2 y2 x1 y1 in
          a * c * cos ac = (x0 - x1 ) * (x2 - x1 ) + (y0 - y1 ) * (y2 - y1 ) ->
          Rsqr b = Rsqr c + Rsqr a - 2 * (a * c * cos ac ).

Lemma triangle :
  forall x0 y0 x1 y1 x2 y2:R,
    dist_euc x0 y0 x1 y1 <= dist_euc x0 y0 x2 y2 + dist_euc x2 y2 x1 y1.

Definition xt (x tx:R) : R := x + tx.
Definition yt (y ty:R) : R := y + ty.

Lemma translation_0 : forall x y:R, xt x 0 = x /\ yt y 0 = y.

Lemma isometric_translation :
  forall x1 x2 y1 y2 tx ty:R,
    Rsqr (x1 - x2) + Rsqr (y1 - y2) =
    Rsqr (xt x1 tx - xt x2 tx) + Rsqr (yt y1 ty - yt y2 ty).

Definition xr (x y theta:R) : R := x * cos theta + y * sin theta.
Definition yr (x y theta:R) : R := - x * sin theta + y * cos theta.

Lemma rotation_0 : forall x y:R, xr x y 0 = x /\ yr x y 0 = y.

Lemma rotation_PI2 :
  forall x y:R, xr x y (PI / 2) = y /\ yr x y (PI / 2) = - x.

Lemma isometric_rotation_0 :
  forall x1 y1 x2 y2 theta:R,
    Rsqr (x1 - x2) + Rsqr (y1 - y2) =
    Rsqr (xr x1 y1 theta - xr x2 y2 theta) +
    Rsqr (yr x1 y1 theta - yr x2 y2 theta).

Lemma isometric_rotation :
  forall x1 y1 x2 y2 theta:R,
    dist_euc x1 y1 x2 y2 =
    dist_euc (xr x1 y1 theta) (yr x1 y1 theta) (xr x2 y2 theta)
    (yr x2 y2 theta).