skia2/docs/examples/ChromeMDRefreshTab.cpp

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// Copyright 2020 Google LLC.
// Use of this source code is governed by a BSD-style license that can be found in the LICENSE file.
#include "tools/fiddle/examples.h"
REG_FIDDLE(ChromeMDRefreshTab, 256, 256, false, 0) {
SkPath GetBorderPath(float scale,
bool unscale_at_end,
bool extend_to_top,
float endcap_width,
const SkISize& size) {
// const float top = scale - 1;
const float right = size.fWidth * scale;
const float bottom = size.fHeight * scale;
const float scaled_endcap_radius = (endcap_width / 2) * scale;
SkPath path;
path.moveTo(0, bottom - 1);
// bottom left
path.arcTo(scaled_endcap_radius - 1, scaled_endcap_radius - 1, 90, SkPath::kSmall_ArcSize,
SkPathDirection::kCCW, scaled_endcap_radius - 1,
bottom - 1 - scaled_endcap_radius);
// path.rLineTo(0, -1);
// path.rCubicTo(0.75 * scale, 0, 1.625 * scale, -0.5 * scale, 2 * scale,
// -1.5 * scale);
path.lineTo(scaled_endcap_radius - 1, scaled_endcap_radius + 1);
// path.lineTo((endcap_width - 2) * scale, top + 1.5 * scale);
// top left
path.arcTo(scaled_endcap_radius + 1, scaled_endcap_radius + 1, 90, SkPath::kSmall_ArcSize,
SkPathDirection::kCW, scaled_endcap_radius * 2, -1);
// if (extend_to_top) {
// Create the vertical extension by extending the side diagonals until
// they reach the top of the bounds.
// const float dy = 2.5 * scale - 1;
// const float dx = Tab::GetInverseDiagonalSlope() * dy;
// path.rLineTo(dx, -dy);
// path.lineTo(right - (endcap_width - 2) * scale - dx, 0);
// path.rLineTo(dx, dy);
//} else {
// path.rCubicTo(0.375 * scale, -scale, 1.25 * scale, -1.5 * scale, 2 * scale,
// -1.5 * scale);
// path.lineTo(right - endcap_width * scale, top);
// path.rCubicTo(0.75 * scale, 0, 1.625 * scale, 0.5 * scale, 2 * scale,
// 1.5 * scale);
//}
path.lineTo(right - scaled_endcap_radius * 2, -1);
// path.lineTo(right - 2 * scale, bottom - 1 - 1.5 * scale);
// top right
path.arcTo(scaled_endcap_radius + 1, scaled_endcap_radius + 1, 90, SkPath::kSmall_ArcSize,
SkPathDirection::kCW, right - scaled_endcap_radius + 1,
scaled_endcap_radius + 1);
// path.arcTo(SkRect::MakeLTRB(right - 2 * scale, bottom - 1 - 1.5 * scale,
// right - 2 * scale + 4, bottom - 1 - 1.5 * scale + 4), 90, 90, true);
// path.rCubicTo(0.375 * scale, scale, 1.25 * scale, 1.5 * scale, 2 * scale,
// 1.5 * scale);
path.lineTo(right - scaled_endcap_radius + 1, bottom - 1 - scaled_endcap_radius);
// path.rLineTo(0, 1);
// bottom right
path.arcTo(scaled_endcap_radius - 1, scaled_endcap_radius - 1, 90, SkPath::kSmall_ArcSize,
SkPathDirection::kCCW, right, bottom - 1);
path.close();
if (unscale_at_end && (scale != 1)) path.transform(SkMatrix::Scale(1.f / scale,
1.f / scale));
return path;
}
SkPath GetInteriorPath(
float scale, const SkISize& size, float endcap_width, float horizontal_inset = 0) {
const float right = size.fWidth * scale;
// The bottom of the tab needs to be pixel-aligned or else when we call
// ClipPath with anti-aliasing enabled it can cause artifacts.
const float bottom = std::ceil(size.fHeight * scale);
// const float scaled_horizontal_inset = horizontal_inset * scale;
const float scaled_endcap_radius = (endcap_width / 2) * scale;
// Construct the interior path by intersecting paths representing the left
// and right halves of the tab. Compared to computing the full path at once,
// this makes it easier to avoid overdraw in the top center near minimum
// width, and to implement cases where |horizontal_inset| != 0.
SkPath right_path;
right_path.moveTo(right, bottom);
// right_path.moveTo(right - 1 - scaled_horizontal_inset, bottom);
right_path.arcTo(scaled_endcap_radius, scaled_endcap_radius, 90, SkPath::kSmall_ArcSize,
SkPathDirection::kCW, right - scaled_endcap_radius,
bottom - scaled_endcap_radius);
// right_path.rCubicTo(-0.75 * scale, 0, -1.625 * scale, -0.5 * scale,
// -2 * scale, -1.5 * scale);
right_path.lineTo(right - scaled_endcap_radius, scaled_endcap_radius);
// right_path.lineTo(
// right - 1 - scaled_horizontal_inset - (endcap_width - 2) * scale,
// 2.5 * scale);
right_path.arcTo(scaled_endcap_radius, scaled_endcap_radius, 90, SkPath::kSmall_ArcSize,
SkPathDirection::kCCW, right - scaled_endcap_radius * 2, 0);
// right_path.rCubicTo(-0.375 * scale, -1 * scale, -1.25 * scale, -1.5 * scale,
// -2 * scale, -1.5 * scale);
right_path.lineTo(0, 0);
right_path.lineTo(0, bottom);
right_path.close();
SkPath left_path;
// const float scaled_endcap_width = 1 + endcap_width * scale;
left_path.moveTo(scaled_endcap_radius * 2, 0);
// left_path.moveTo(scaled_endcap_width + scaled_horizontal_inset, scale);
left_path.arcTo(scaled_endcap_radius, scaled_endcap_radius, 90, SkPath::kSmall_ArcSize,
SkPathDirection::kCCW, scaled_endcap_radius, scaled_endcap_radius);
// left_path.rCubicTo(-0.75 * scale, 0, -1.625 * scale, 0.5 * scale, -2 * scale,
// 1.5 * scale);
left_path.lineTo(scaled_endcap_radius, bottom - scaled_endcap_radius);
// left_path.lineTo(1 + scaled_horizontal_inset + 2 * scale,
// bottom - 1.5 * scale);
left_path.arcTo(scaled_endcap_radius, scaled_endcap_radius, 90, SkPath::kSmall_ArcSize,
SkPathDirection::kCW, 0, bottom);
// left_path.rCubicTo(-0.375 * scale, scale, -1.25 * scale, 1.5 * scale,
// -2 * scale, 1.5 * scale);
left_path.lineTo(right, bottom);
left_path.lineTo(right, 0);
left_path.close();
SkPath complete_path;
Op(left_path, right_path, SkPathOp::kIntersect_SkPathOp, &complete_path);
return complete_path;
}
void draw(SkCanvas* canvas) {
SkPaint p;
p.setColor(SK_ColorRED);
p.setAntiAlias(true);
p.setStyle(SkPaint::kStroke_Style);
p.setStrokeWidth(1);
SkPath path = GetInteriorPath(1.f, SkISize::Make(250, 36), 16);
path.transform(SkMatrix::Translate(0, 30));
canvas->drawPath(path, p);
p.setColor(SK_ColorBLUE);
SkPath border_path = GetBorderPath(1.f, false, false, 16, SkISize::Make(250, 36));
border_path.transform(SkMatrix::Translate(0, 30));
canvas->drawPath(border_path, p);
// canvas->drawLine(20, 20, 100, 100, p);
}
} // END FIDDLE