/*
orig_size = {
width: ширина_исходного_изображения,
height: высота_исходного_изображения
};
angle - угол поворота по часовой стрелке в радианах.
*/
function get_small_image_size(orig_size, angle)
{
function det4(v1, v2, v3, v4)
{
return v1 * v4 - v2 * v3;
}
function get_intersection_point(line1, line2)
{
let {x1, y1, x2, y2} = line1;
let {x1: x3, y1: y3, x2: x4, y2: y4} = line2;
let x12 = x1 - x2;
let x34 = x3 - x4;
let y12 = y1 - y2;
let y34 = y3 - y4;
let xy12 = det4(x1, y1, x2, y2);
let xy34 = det4(x3, y3, x4, y4);
let denom = det4(x12, y12, x34, y34);
let x = det4(xy12, x12, xy34, x34) / denom;
let y = det4(xy12, y12, xy34, y34) / denom;
x = isNaN(x) ? Infinity : x;
y = isNaN(y) ? Infinity : y;
return {x, y};
}
function rot(point, angle)
{
let sin_theta = Math.sin(angle);
let cos_theta = Math.cos(angle);
let x = cos_theta * point.x + sin_theta * point.y;
let y = -sin_theta * point.x + cos_theta * point.y;
return {x, y};
}
function points_to_line(p1, p2)
{
return {x1: p1.x, y1: p1.y, x2: p2.x, y2: p2.y};
}
function dist2(p1, p2)
{
let x = p1.x - p2.x;
let y = p1.y - p2.y;
return x * x + y * y;
}
let {width, height} = orig_size;
let O = {x: 0, y: 0 };
let A = {x: -0.5 * width, y: 0.5 * height};
let B = {x: 0.5 * width, y: 0.5 * height};
let D = {x: -0.5 * width, y: -0.5 * height};
let As = rot(A, angle);
let Bs = rot(B, angle);
let Ds = rot(D, angle);
let AO = points_to_line(A, O);
let BO = points_to_line(B, O);
let AsBs = points_to_line(As, Bs);
let AsDs = points_to_line(As, Ds);
let AO_AsBs = get_intersection_point(AO, AsBs);
let AO_AsDs = get_intersection_point(AO, AsDs);
let BO_AsBs = get_intersection_point(BO, AsBs);
let BO_AsDs = get_intersection_point(BO, AsDs);
let len_diag1 = Math.min( dist2(AO_AsBs, O), dist2(AO_AsDs, O) );
let len_diag2 = Math.min( dist2(BO_AsBs, O), dist2(BO_AsDs, O) );
let len_diag = 2 * Math.sqrt( Math.min(len_diag1, len_diag2) );
let ratio = height / width;
let res = {};
res.width = len_diag / Math.sqrt(ratio * ratio + 1);
res.height = ratio * res.width;
return res;
}
async function rotate(addr)
{
let img = new Image();
img.setAttribute('src', addr);
await (() => { return new Promise((resolve, reject) => { img.onload = function() { resolve() } }) })();
let ctx = document.getElementById("canvas_id").getContext("2d");
ctx.canvas.width = img.width;
ctx.canvas.height = img.height;
let input = document.getElementById("input_id");
let label = document.getElementById("label_id");
let small_ctx = document.createElement("canvas").getContext("2d");
function handler()
{
let angle_rad = input.value * Math.PI / 180;
label.textContent = input.value;
ctx.save();
{
ctx.fillStyle = "yellow";
ctx.fillRect(0, 0, ctx.canvas.width, ctx.canvas.height);
ctx.translate(ctx.canvas.width / 2, ctx.canvas.height / 2);
ctx.rotate(angle_rad);
ctx.drawImage(img, -ctx.canvas.width / 2, -ctx.canvas.height / 2);
}
ctx.restore();
ctx.save()
{
let orig_size = {width: img.width, height: img.height};
let {width: small_width, height: small_height} = get_small_image_size(orig_size, angle_rad);
let small_x = Math.round(ctx.canvas.width / 2 - small_width / 2);
let small_y = Math.round(ctx.canvas.height / 2 - small_height / 2);
small_width = Math.round(small_width);
small_height = Math.round(small_height);
small_ctx.canvas.width = small_width;
small_ctx.canvas.height = small_height;
small_ctx.drawImage(ctx.canvas, small_x, small_y, small_width, small_height, 0, 0, small_width, small_height);
ctx.fillStyle = "rgba(0, 0, 0, 0.6)";
ctx.fillRect(0, 0, ctx.canvas.width, ctx.canvas.height);
ctx.drawImage(small_ctx.canvas, small_x, small_y);
}
ctx.restore();
}
handler();
input.addEventListener("input", () => label.textContent = input.value);
input.addEventListener("change", handler);
}
rotate("https://i.stack.imgur.com/ezAfF.jpg");
<p>
<input id = "input_id" type = "range" min = "-180" max = "180" value = "30">
<label id = "label_id" for = "input_id"></label>
</p>
<p><canvas id = "canvas_id"></canvas></p>