# 一次変換を使ってパズルのブロックを回転させる処理で同じ角度に回転される原因が知りたい。

##### 試したこと

`console.log`を使って色々な変数の値を調べました。

##### Console
``````Game.js:500
Game.js:518 rgba(255,0,0,1) , rgba(255,0,0,1)
Game.js:519 rgba(0,0,0,1) , rgba(0,0,0,1)
Game.js:498
Game.js:499
Game.js:500
Game.js:518 rgba(0,0,0,1) , rgba(0,0,0,1)
Game.js:519 rgba(255,0,0,1) , rgba(255,0,0,1)
Game.js:498
Game.js:499
Game.js:500
Game.js:518 rgba(0,0,0,1) , rgba(255,0,0,1)
Game.js:519 rgba(0,0,0,1) , rgba(255,0,0,1)
``````
##### Game.js
``````"use strict"

const PUYO_SIZE = 25;   //ぷよサイズ
const WALL = 5;         //壁カラー
let None;         //なしマス

const STAGE_HEIGHT = 19;
const STAGE_WIDTH = 12;

//マス目
let board =
[
[WALL,0,0,0,0,0,0,0,0,0,0,WALL],
[WALL,0,0,0,0,0,0,0,0,0,0,WALL],
[WALL,0,0,0,0,0,0,0,0,0,0,WALL],
[WALL,0,0,0,0,0,0,0,0,0,0,WALL],
[WALL,0,0,0,0,0,0,0,0,0,0,WALL],

[WALL,0,0,0,0,0,0,0,0,0,0,WALL],
[WALL,0,0,0,0,0,0,0,0,0,0,WALL],
[WALL,0,0,0,0,0,0,0,0,0,0,WALL],
[WALL,0,0,0,0,0,0,0,0,0,0,WALL],
[WALL,0,0,0,0,0,0,0,0,0,0,WALL],

[WALL,0,0,0,0,0,0,0,0,0,0,WALL],
[WALL,0,0,0,0,0,0,0,0,0,0,WALL],
[WALL,0,0,0,0,0,0,0,0,0,0,WALL],
[WALL,0,0,0,0,0,0,0,0,0,0,WALL],
[WALL,0,0,0,0,0,0,0,0,0,0,WALL],

[WALL,0,0,0,0,0,0,0,0,0,0,WALL],
[WALL,0,0,0,0,0,0,0,0,0,0,WALL],
[WALL,0,0,0,0,0,0,0,0,0,0,WALL],
[WALL,WALL,WALL,WALL,WALL,WALL,WALL,WALL,WALL,WALL,WALL,WALL],
];

let puyo =
[
[0,0],
[0,0]
];

let colorType = new Array(2);

// ################################################################
// # ステージ
// ################################################################
class Stage
{
constructor()
{
None = color(0,0,0);
for(let y = 0; y < STAGE_HEIGHT; y++)
{
for(let x = 0; x < STAGE_WIDTH; x++)
{
if( board[y][x] != WALL)
{
board[y][x] = None;
}

}
}
}

Update()
{

}

setPuyo(puyo)
{
for(let i = 0; i < board.length; i++)
{
for(let j = 0; j <board[i].length; j++)
{

if(board[i][j] == WALL)
{
fill(255,255,255);
rect(j * PUYO_SIZE,i * PUYO_SIZE,PUYO_SIZE ,PUYO_SIZE);
}
}
}

}

Renderer()
{
for(let y = 0; y < board.length; y++)
{
for(let x = 0; x <board[y].length; x++)
{
if(board[y][x] == WALL)
{
fill(255,255,255);
rect(x * PUYO_SIZE,y * PUYO_SIZE,PUYO_SIZE ,PUYO_SIZE);
}
else
{
fill(board[y][x]);
rect(x * PUYO_SIZE,y * PUYO_SIZE,PUYO_SIZE ,PUYO_SIZE);

}

}
}
}

}

// ################################################################
// # 操作
// ################################################################
class Control
{

//　ぷよを設定
setPuyo()
{

//switch(Math.floor(random(0,5)))
switch(0)
{
//赤
case 0:
{
colorType[0] = color(255,0,0);
}
break;

//青
case 1:
{
colorType[0] = color(24,235,249);
}
break;

//黄色
case 2:
{
colorType[0] = color(255,255,0);
}
break;

//緑
case 3:
{
colorType[0] = color(0,528,0);
}
break;

//紫
case 4:
{
colorType[0] = color(192,48,192);
}
break;

default:
{
console.log("colorType" + colorType);
}
}

//switch(Math.floor(random(0,5)))
switch(0)
{
//赤
case 0:
{
colorType[1] = color(255,0,0);
}
break;

//青
case 1:
{
colorType[1] = color(24,235,249);
}
break;

//黄色
case 2:
{
colorType[1] = color(255,255,0);
}
break;

//緑
case 3:
{
colorType[1] = color(0,528,0);
}
break;

//紫
case 4:
{
colorType[1] = color(192,48,192);
}
break;

default:
{
console.log("colorType" + colorType);
}
}

//        console.log(colorType.toString());
//        console.log(None.toString());
/////////////////////////////////////////////////////////////////////////////
puyo[0][0] = None;
puyo[0][1] = None;
puyo[1][0] = None;
puyo[1][1] = None;

puyo[0][0] = colorType[0];
puyo[0][1] = None;
puyo[1][0] = colorType[1];
puyo[1][1] = None;

//////////////////////////////////////////////////////////////////////////////
/*
console.log(puyo[0][0].toString());
console.log(puyo[0][1].toString());
console.log(puyo[1][0].toString());
console.log(puyo[1][1].toString());
console.log("");
console.log("");
*/

//        console.log(puyo[0][1].toString());

}

//座標を初期化
Reset()
{
this.position = new Vector(6,1);
}

constructor()
{
this.position = new Vector(6,1);
this.press = false;
this.pressSpace = false;
this.downSpeed = 200;
this.time  = 0;
this.rotate = 0;
this.sideCollision = false;
this.comboArray = new Array(0); //コンボ
this.comboList = new Array(0);
this.comboHistory = new Array(0);   //一時変数　コンボ履歴
this.comboFirst = true;
this.comboColor;
this.combo  = new Array(0);

this.setPuyo();

}

setStage()
{
for(let yy = 0; yy < 2; yy++)
{
for(let xx = 0; xx < 2; xx++)
{
if(puyo[yy][xx] != 0)
{
//                    console.log( "あああ "  + puyo[yy][xx]);
board[this.position.y + yy - 2][this.position.x + xx - 1] = puyo[yy][xx];
}
}
}
}

// ################################ 連鎖対象のぷよ判定 ################################
isComboList(pos)
{
for(let i = 0; i < this.comboHistory.length; i++)
{
if(this.comboHistory[i].x == pos.x && this.comboHistory[i].y == pos.y)
{

return true;
}

//            console.log("isComboList:   "+ this.comboHistory[i].x + " , " +  this.comboHistory[i].y);

}

return false;
}

// ################################ 連鎖判定 ################################
ComboCheck(pos,puyoColor)
{
if(this.comboFirst == true)
{
this.comboHistory.push(new Vector(pos.x,pos.y));
this.comboFirst = false;
}

if(board[pos.y + 1][pos.x].toString() == puyoColor.toString())    //Down
{
if ( this.isComboList(new Vector(pos.x,pos.y + 1)) == false )
{
this.p = new Vector(pos.x,pos.y + 1);
this.comboArray.push(new Vector(pos.x,pos.y + 1));
this.comboHistory.push(new Vector(pos.x,pos.y + 1));
//                console.log("Down   " + (this.p.x) + " , " + (this.p.y));

this.ComboCheck(this.p,puyoColor);
}
}

if(board[pos.y - 1][pos.x].toString() == puyoColor.toString())   //Up
{
if ( this.isComboList(new Vector(pos.x,pos.y - 1)) == false )
{
//                console.log("Up     " + (pos.x) + " , " + (pos.y - 1));

this.p = new Vector(pos.x,pos.y - 1);
this.comboArray.push(new Vector(pos.x,pos.y - 1));
this.comboHistory.push(new Vector(pos.x,pos.y - 1));

this.ComboCheck(this.p,puyoColor);
}
}

if(board[pos.y][pos.x + 1].toString() == puyoColor.toString())   //Right
{
if ( this.isComboList(new Vector(pos.x + 1,pos.y)) == false )
{
//                console.log("Right      " + (pos.x + 1) + " , " + (pos.y));

this.p = new Vector(pos.x + 1,pos.y);
this.comboArray.push(new Vector(pos.x + 1,pos.y));
this.comboHistory.push(new Vector(pos.x + 1,pos.y));

this.ComboCheck(this.p,puyoColor);
}
}

if(board[pos.y][pos.x - 1].toString() == puyoColor.toString())   //Left
{
if ( this.isComboList(new Vector(pos.x - 1,pos.y)) == false )
{
//                console.log("Left       " + (pos.x - 1) + " , " + (pos.y));

this.p = new Vector(pos.x - 1,pos.y);
this.comboArray.push(new Vector(pos.x - 1,pos.y));
this.comboHistory.push(new Vector(pos.x - 1,pos.y));

this.ComboCheck(this.p,puyoColor);
}
}
}

Clear()
{
this.comboHistory.length = 0;

for(let y = 0; y < STAGE_HEIGHT; y++)
{
for(let x = 0; x < STAGE_WIDTH; x++)
{
if( (board[y][x] != WALL) && (board[y][x] != None) )
{

this.comboArray.push(new Vector(x,y));

this.ComboCheck(new Vector(x,y),board[y][x]);

//連鎖配列に代入
if(this.comboArray.length  > 3)
{
console.log("削除 !");
this.comboArray.forEach((item) =>
{
this.combo.push(item);
})
}

this.comboFirst = true;
this.comboArray.length = 0;

}
}
}
this.comboArray.length = 0;

//コンボしたブロックを削除
for(let i = 0; i < this.combo.length; i++)
{
board[this.combo[i].y][this.combo[i].x] = None;
}

this.combo.length = 0;

}

Move()
{

//落下
this.time += deltaTime;
if(this.time > this.downSpeed)
{
this.time = 0;
this.position.y += 1;

if(this.Collision() != None)
{
this.setStage();
this.Reset();

this.Clear();   //ぷよを消す

}
}

/*
console.log(puyo[0][0].toString());
console.log(puyo[0][1].toString());
console.log(puyo[1][0].toString());
console.log(puyo[1][1].toString());
console.log("");
console.log("");
*/

// ################################ 回転 ################################
if( keyIsDown(" ".charCodeAt(0)) && (this.pressSpace == false) )
{

this.rotate += 1.0;
if(this.rotate > 3.0)
{
this.rotate = 0.0;
}

this.pressSpace = true;

this.puyo_temp = [[0,0],[0,0]]; //一時変数

for(let y = 0; y < 2; y++)
{
for(let x = 0; x < 2; x++)
{
if(puyo[y][x].toString() != None.toString())
{
let xx = (cos( (PI / 2.0) * this.rotate) * (x - 0.5)) + (-sin( (PI / 2.0) * this.rotate) * (y - 0.5));
let yy = (sin( (PI / 2.0) * this.rotate) * (x - 0.5)) + ( cos( (PI / 2.0) * this.rotate) * (y - 0.5));

if ( puyo[y][x].toString() == colorType[0].toString())
{
this.puyo_temp[Math.round(yy + 0.5)][Math.round((xx + 0.5))] = colorType[0];
}
else if ( puyo[y][x].toString() == colorType[1].toString())
{
this.puyo_temp[Math.round(yy + 0.5)][Math.round((xx + 0.5))] = colorType[1];
}

}
}
}

console.log("");
console.log("");
console.log("");

for(let y = 0; y < 2; y++)
{
for(let x = 0; x < 2; x++)
{
if(this.puyo_temp[y][x].toString() != 0)
{
puyo[y][x] = this.puyo_temp[y][x].toString();
}
else
{
puyo[y][x] = None;
}
}
}

console.log(puyo[0][0] + " , " + puyo[0][1]);
console.log(puyo[1][0] + " , " + puyo[1][1]);

}
else if(keyIsDown(" ".charCodeAt(0)) == false)
{
this.pressSpace = false;
}

//左右移動
if(keyIsDown(LEFT_ARROW) && (this.press == false) )
{
this.position.x += -1;
if(this.Collision() == WALL)
{
this.position.x += 1;
}

this.press = true;
}
else if(keyIsDown(RIGHT_ARROW) && (this.press == false) )
{
this.position.x += 1;
if(this.Collision() == WALL)
{
this.position.x += -1;
}

this.press = true;
}

if( (keyIsDown(LEFT_ARROW) == false) && (keyIsDown(RIGHT_ARROW) == false) )
{
this.press = false;
}

}

//当たり判定
Collision()
{
for(let y = 0; y < 2; y++)
{
for(let x = 0; x < 2; x++)
{
if(puyo[y][x] != 0)
{
if(board[this.position.y + y][this.position.x + x - 1] != 0)
{
return board[this.position.y + y][this.position.x + x - 1];
}
}
}
}

return None;
}

Update()
{
this.Move();

}

getPosition()
{
return this.position;
}

Renderer()
{
for(let y = 0; y < 2; y++)
{
for(let x = 0; x < 2; x++)
{

if(puyo[y][x].toString() != None.toString())
{
//      console.log( x + " , "+ y + "       " + puyo[y][x]);

fill(puyo[y][x]);
this.pos = new Vector(0,0);

this.pos.x = (this.position.x * PUYO_SIZE) + (PUYO_SIZE * x);
this.pos.y = (this.position.y * PUYO_SIZE) + (PUYO_SIZE * y);

circle(this.pos.x - (PUYO_SIZE / 2),this.pos.y - (PUYO_SIZE / 2),PUYO_SIZE);

//                    console.log(this.position.x * PUYO_SIZE / PUYO_SIZE);
}
}
}

//console.log("");
//console.log("");
}

}

// ################################################################
// # ループ
// ################################################################
class Game
{

constructor()
{
this.stage = new Stage();

this.control = new Control();
}

Update()
{
this.control.Update();

}

Renderer()
{
this.stage.Renderer();
this.control.Renderer();

//        fill(0,255,0);
//        rect(PUYO_SIZE * 5,PUYO_SIZE * 16, PUYO_SIZE);

}
}
``````
##### Vector.js
``````
const PI = 3.14159;           //円周率
const sinSpeed = PI / 100.0;  //sin波　加算
const speed = 10;             //移動速度

//ベクトルの引き算
//引数　Vector型
function VectorSub(a,b)
{
let xx = a.x - b.x;
let yy = a.y - b.y;

return new Vector(xx,yy);
}

function Range(a,b)
{
return sqrt((a.x * a.x) + (b.y * b.y));
}

//ベクター
class Vector
{
{
console.assert(other instanceof Vector);

return new Vector(this.x + other.x,this.y + other.y);
}

constructor(xx,yy)
{
this.x = xx;
this.y = yy;
}
}

//線分
class LineSegment
{
constructor(a,b)
{
this.start = new Vector(a.x,a.y);
this.end = new Vector(b.x,b.y);
}
}

``````

## 1 件の回答

(0, 0) 以外の点に回転行列を適用したら角度によっては負の値になるのは当然です。

そもそもこの作業に行列計算は必要ですか? たとえば、90度まわすなら

``````let t = puyo[0][0];
puyo[0][0] = puyo[1][0];
puyo[1][0] = puyo[1][1];
puyo[1][1] = puyo[0][1];
puyo[0][1] = t;
``````

などで十分ではないでしょうか。

• そうなのですが数式を使ったやり方が知りたいので質問しました。
– user48206
1月12日 8:00