ui/views/controls/progress_bar.cc - chromium/src - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "ui/views/controls/progress_bar.h"

 #include <algorithm>
 #include <cmath>
 #include <string>

 #include "base/logging.h"
 #include "base/macros.h"
 #include "cc/paint/paint_flags.h"
 #include "third_party/skia/include/core/SkPath.h"
 #include "third_party/skia/include/effects/SkGradientShader.h"
 #include "ui/accessibility/ax_node_data.h"
 #include "ui/gfx/animation/linear_animation.h"
 #include "ui/gfx/canvas.h"
 #include "ui/gfx/color_utils.h"
 #include "ui/native_theme/native_theme.h"

 namespace views {

 namespace {

 // In DP, the amount to round the corners of the progress bar (both bg and
 // fg, aka slice).
 const int kCornerRadius = 3;

 // Adds a rectangle to the path. The corners will be rounded if there is room.
 void AddPossiblyRoundRectToPath(const gfx::Rect& rectangle,
                                 bool allow_round_corner,
                                 SkPath* path) {
   if (!allow_round_corner || rectangle.height() < kCornerRadius) {
     path->addRect(gfx::RectToSkRect(rectangle));
   } else {
     path->addRoundRect(gfx::RectToSkRect(rectangle), kCornerRadius,
                        kCornerRadius);
   }
 }

 }  // namespace

 // static
 const char ProgressBar::kViewClassName[] = "ProgressBar";

 ProgressBar::ProgressBar(int preferred_height, bool allow_round_corner)
     : preferred_height_(preferred_height),
       allow_round_corner_(allow_round_corner) {
   EnableCanvasFlippingForRTLUI(true);
 }

 ProgressBar::~ProgressBar() {
 }

 void ProgressBar::GetAccessibleNodeData(ui::AXNodeData* node_data) {
   node_data->role = ax::mojom::Role::kProgressIndicator;
 }

 gfx::Size ProgressBar::CalculatePreferredSize() const {
   // The width will typically be ignored.
   gfx::Size pref_size(1, preferred_height_);
   gfx::Insets insets = GetInsets();
   pref_size.Enlarge(insets.width(), insets.height());
   return pref_size;
 }

 const char* ProgressBar::GetClassName() const {
   return kViewClassName;
 }

 void ProgressBar::OnPaint(gfx::Canvas* canvas) {
   if (IsIndeterminate())
     return OnPaintIndeterminate(canvas);

   gfx::Rect content_bounds = GetContentsBounds();

   // Draw background.
   SkPath background_path;
   AddPossiblyRoundRectToPath(content_bounds, allow_round_corner_,
                              &background_path);
   cc::PaintFlags background_flags;
   background_flags.setStyle(cc::PaintFlags::kFill_Style);
   background_flags.setAntiAlias(true);
   background_flags.setColor(GetBackgroundColor());
   canvas->DrawPath(background_path, background_flags);

   // Draw slice.
   SkPath slice_path;
   const int slice_width = static_cast<int>(
       content_bounds.width() * std::min(current_value_, 1.0) + 0.5);
   if (slice_width < 1)
     return;

   gfx::Rect slice_bounds = content_bounds;
   slice_bounds.set_width(slice_width);
   AddPossiblyRoundRectToPath(slice_bounds, allow_round_corner_, &slice_path);

   cc::PaintFlags slice_flags;
   slice_flags.setStyle(cc::PaintFlags::kFill_Style);
   slice_flags.setAntiAlias(true);
   slice_flags.setColor(GetForegroundColor());
   canvas->DrawPath(slice_path, slice_flags);
 }

 void ProgressBar::SetValue(double value) {
   double adjusted_value = (value < 0.0 || value > 1.0) ? -1.0 : value;

   if (adjusted_value == current_value_)
     return;

   current_value_ = adjusted_value;
   if (IsIndeterminate()) {
     indeterminate_bar_animation_.reset(new gfx::LinearAnimation(this));
     indeterminate_bar_animation_->SetDuration(base::TimeDelta::FromSeconds(2));
     indeterminate_bar_animation_->Start();
   } else {
     indeterminate_bar_animation_.reset();
     SchedulePaint();
   }
 }

 SkColor ProgressBar::GetForegroundColor() const {
   if (foreground_color_)
     return foreground_color_.value();

   return GetNativeTheme()->GetSystemColor(
       ui::NativeTheme::kColorId_ProminentButtonColor);
 }

 SkColor ProgressBar::GetBackgroundColor() const {
   return background_color_.value_or(
       color_utils::BlendTowardMaxContrast(GetForegroundColor(), 0xCC));
 }

 void ProgressBar::AnimationProgressed(const gfx::Animation* animation) {
   DCHECK_EQ(animation, indeterminate_bar_animation_.get());
   DCHECK(IsIndeterminate());
   SchedulePaint();
 }

 void ProgressBar::AnimationEnded(const gfx::Animation* animation) {
   DCHECK_EQ(animation, indeterminate_bar_animation_.get());
   // Restarts animation.
   if (IsIndeterminate())
     indeterminate_bar_animation_->Start();
 }

 bool ProgressBar::IsIndeterminate() {
   return current_value_ < 0.0;
 }

 void ProgressBar::OnPaintIndeterminate(gfx::Canvas* canvas) {
   gfx::Rect content_bounds = GetContentsBounds();

   // Draw background.
   SkPath background_path;
   AddPossiblyRoundRectToPath(content_bounds, allow_round_corner_,
                              &background_path);
   cc::PaintFlags background_flags;
   background_flags.setStyle(cc::PaintFlags::kFill_Style);
   background_flags.setAntiAlias(true);
   background_flags.setColor(GetBackgroundColor());
   canvas->DrawPath(background_path, background_flags);

   // Draw slice.
   SkPath slice_path;
   double time = indeterminate_bar_animation_->GetCurrentValue();

   // The animation spec corresponds to the material design lite's parameter.
   // (cf. https://github.com/google/material-design-lite/)
   double bar1_left;
   double bar1_width;
   double bar2_left;
   double bar2_width;
   if (time < 0.50) {
     bar1_left = time / 2;
     bar1_width = time * 1.5;
     bar2_left = 0;
     bar2_width = 0;
   } else if (time < 0.75) {
     bar1_left = time * 3 - 1.25;
     bar1_width = 0.75 - (time - 0.5) * 3;
     bar2_left = 0;
     bar2_width = time - 0.5;
   } else {
     bar1_left = 1;
     bar1_width = 0;
     bar2_left = (time - 0.75) * 4;
     bar2_width = 0.25 - (time - 0.75);
   }

   int bar1_start_x = std::round(content_bounds.width() * bar1_left);
   int bar1_end_x = std::round(
       content_bounds.width() * std::min(1.0, bar1_left + bar1_width));
   int bar2_start_x = std::round(content_bounds.width() * bar2_left);
   int bar2_end_x = std::round(
       content_bounds.width() * std::min(1.0, bar2_left + bar2_width));

   gfx::Rect slice_bounds = content_bounds;
   slice_bounds.set_x(content_bounds.x() + bar1_start_x);
   slice_bounds.set_width(bar1_end_x - bar1_start_x);
   AddPossiblyRoundRectToPath(slice_bounds, allow_round_corner_, &slice_path);
   slice_bounds.set_x(content_bounds.x() + bar2_start_x);
   slice_bounds.set_width(bar2_end_x - bar2_start_x);
   AddPossiblyRoundRectToPath(slice_bounds, allow_round_corner_, &slice_path);

   cc::PaintFlags slice_flags;
   slice_flags.setStyle(cc::PaintFlags::kFill_Style);
   slice_flags.setAntiAlias(true);
   slice_flags.setColor(GetForegroundColor());
   canvas->DrawPath(slice_path, slice_flags);
 }

 }  // namespace views
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "ui/views/controls/progress_bar.h"

	#include <algorithm>
	#include <cmath>
	#include <string>

	#include "base/logging.h"
	#include "base/macros.h"
	#include "cc/paint/paint_flags.h"
	#include "third_party/skia/include/core/SkPath.h"
	#include "third_party/skia/include/effects/SkGradientShader.h"
	#include "ui/accessibility/ax_node_data.h"
	#include "ui/gfx/animation/linear_animation.h"
	#include "ui/gfx/canvas.h"
	#include "ui/gfx/color_utils.h"
	#include "ui/native_theme/native_theme.h"

	namespace views {

	namespace {

	// In DP, the amount to round the corners of the progress bar (both bg and
	// fg, aka slice).
	const int kCornerRadius = 3;

	// Adds a rectangle to the path. The corners will be rounded if there is room.
	void AddPossiblyRoundRectToPath(const gfx::Rect& rectangle,
	bool allow_round_corner,
	SkPath* path) {
	if (!allow_round_corner \|\| rectangle.height() < kCornerRadius) {
	path->addRect(gfx::RectToSkRect(rectangle));
	} else {
	path->addRoundRect(gfx::RectToSkRect(rectangle), kCornerRadius,
	kCornerRadius);
	}
	}

	} // namespace

	// static
	const char ProgressBar::kViewClassName[] = "ProgressBar";

	ProgressBar::ProgressBar(int preferred_height, bool allow_round_corner)
	: preferred_height_(preferred_height),
	allow_round_corner_(allow_round_corner) {
	EnableCanvasFlippingForRTLUI(true);
	}

	ProgressBar::~ProgressBar() {
	}

	void ProgressBar::GetAccessibleNodeData(ui::AXNodeData* node_data) {
	node_data->role = ax::mojom::Role::kProgressIndicator;
	}

	gfx::Size ProgressBar::CalculatePreferredSize() const {
	// The width will typically be ignored.
	gfx::Size pref_size(1, preferred_height_);
	gfx::Insets insets = GetInsets();
	pref_size.Enlarge(insets.width(), insets.height());
	return pref_size;
	}

	const char* ProgressBar::GetClassName() const {
	return kViewClassName;
	}

	void ProgressBar::OnPaint(gfx::Canvas* canvas) {
	if (IsIndeterminate())
	return OnPaintIndeterminate(canvas);

	gfx::Rect content_bounds = GetContentsBounds();

	// Draw background.
	SkPath background_path;
	AddPossiblyRoundRectToPath(content_bounds, allow_round_corner_,
	&background_path);
	cc::PaintFlags background_flags;
	background_flags.setStyle(cc::PaintFlags::kFill_Style);
	background_flags.setAntiAlias(true);
	background_flags.setColor(GetBackgroundColor());
	canvas->DrawPath(background_path, background_flags);

	// Draw slice.
	SkPath slice_path;
	const int slice_width = static_cast<int>(
	content_bounds.width() * std::min(current_value_, 1.0) + 0.5);
	if (slice_width < 1)
	return;

	gfx::Rect slice_bounds = content_bounds;
	slice_bounds.set_width(slice_width);
	AddPossiblyRoundRectToPath(slice_bounds, allow_round_corner_, &slice_path);

	cc::PaintFlags slice_flags;
	slice_flags.setStyle(cc::PaintFlags::kFill_Style);
	slice_flags.setAntiAlias(true);
	slice_flags.setColor(GetForegroundColor());
	canvas->DrawPath(slice_path, slice_flags);
	}

	void ProgressBar::SetValue(double value) {
	double adjusted_value = (value < 0.0 \|\| value > 1.0) ? -1.0 : value;

	if (adjusted_value == current_value_)
	return;

	current_value_ = adjusted_value;
	if (IsIndeterminate()) {
	indeterminate_bar_animation_.reset(new gfx::LinearAnimation(this));
	indeterminate_bar_animation_->SetDuration(base::TimeDelta::FromSeconds(2));
	indeterminate_bar_animation_->Start();
	} else {
	indeterminate_bar_animation_.reset();
	SchedulePaint();
	}
	}

	SkColor ProgressBar::GetForegroundColor() const {
	if (foreground_color_)
	return foreground_color_.value();

	return GetNativeTheme()->GetSystemColor(
	ui::NativeTheme::kColorId_ProminentButtonColor);
	}

	SkColor ProgressBar::GetBackgroundColor() const {
	return background_color_.value_or(
	color_utils::BlendTowardMaxContrast(GetForegroundColor(), 0xCC));
	}

	void ProgressBar::AnimationProgressed(const gfx::Animation* animation) {
	DCHECK_EQ(animation, indeterminate_bar_animation_.get());
	DCHECK(IsIndeterminate());
	SchedulePaint();
	}

	void ProgressBar::AnimationEnded(const gfx::Animation* animation) {
	DCHECK_EQ(animation, indeterminate_bar_animation_.get());
	// Restarts animation.
	if (IsIndeterminate())
	indeterminate_bar_animation_->Start();
	}

	bool ProgressBar::IsIndeterminate() {
	return current_value_ < 0.0;
	}

	void ProgressBar::OnPaintIndeterminate(gfx::Canvas* canvas) {
	gfx::Rect content_bounds = GetContentsBounds();

	// Draw background.
	SkPath background_path;
	AddPossiblyRoundRectToPath(content_bounds, allow_round_corner_,
	&background_path);
	cc::PaintFlags background_flags;
	background_flags.setStyle(cc::PaintFlags::kFill_Style);
	background_flags.setAntiAlias(true);
	background_flags.setColor(GetBackgroundColor());
	canvas->DrawPath(background_path, background_flags);

	// Draw slice.
	SkPath slice_path;
	double time = indeterminate_bar_animation_->GetCurrentValue();

	// The animation spec corresponds to the material design lite's parameter.
	// (cf. https://github.com/google/material-design-lite/)
	double bar1_left;
	double bar1_width;
	double bar2_left;
	double bar2_width;
	if (time < 0.50) {
	bar1_left = time / 2;
	bar1_width = time * 1.5;
	bar2_left = 0;
	bar2_width = 0;
	} else if (time < 0.75) {
	bar1_left = time * 3 - 1.25;
	bar1_width = 0.75 - (time - 0.5) * 3;
	bar2_left = 0;
	bar2_width = time - 0.5;
	} else {
	bar1_left = 1;
	bar1_width = 0;
	bar2_left = (time - 0.75) * 4;
	bar2_width = 0.25 - (time - 0.75);
	}

	int bar1_start_x = std::round(content_bounds.width() * bar1_left);
	int bar1_end_x = std::round(
	content_bounds.width() * std::min(1.0, bar1_left + bar1_width));
	int bar2_start_x = std::round(content_bounds.width() * bar2_left);
	int bar2_end_x = std::round(
	content_bounds.width() * std::min(1.0, bar2_left + bar2_width));

	gfx::Rect slice_bounds = content_bounds;
	slice_bounds.set_x(content_bounds.x() + bar1_start_x);
	slice_bounds.set_width(bar1_end_x - bar1_start_x);
	AddPossiblyRoundRectToPath(slice_bounds, allow_round_corner_, &slice_path);
	slice_bounds.set_x(content_bounds.x() + bar2_start_x);
	slice_bounds.set_width(bar2_end_x - bar2_start_x);
	AddPossiblyRoundRectToPath(slice_bounds, allow_round_corner_, &slice_path);

	cc::PaintFlags slice_flags;
	slice_flags.setStyle(cc::PaintFlags::kFill_Style);
	slice_flags.setAntiAlias(true);
	slice_flags.setColor(GetForegroundColor());
	canvas->DrawPath(slice_path, slice_flags);
	}

	} // namespace views