blob: 5cce6b1f28364a2ff69f2e3a6b06f25743e131c4 [file] [log] [blame]
/*
* Copyright 2018 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "tools/viewer/SlideDir.h"
#include "include/core/SkCanvas.h"
#include "include/core/SkCubicMap.h"
#include "include/core/SkTypeface.h"
#include "modules/sksg/include/SkSGDraw.h"
#include "modules/sksg/include/SkSGGroup.h"
#include "modules/sksg/include/SkSGPaint.h"
#include "modules/sksg/include/SkSGPlane.h"
#include "modules/sksg/include/SkSGRect.h"
#include "modules/sksg/include/SkSGRenderNode.h"
#include "modules/sksg/include/SkSGScene.h"
#include "modules/sksg/include/SkSGText.h"
#include "modules/sksg/include/SkSGTransform.h"
#include "tools/timer/TimeUtils.h"
#include <cmath>
#include <utility>
class SlideDir::Animator : public SkRefCnt {
public:
Animator(const Animator&) = delete;
Animator& operator=(const Animator&) = delete;
void tick(float t) { this->onTick(t); }
protected:
Animator() = default;
virtual void onTick(float t) = 0;
};
namespace {
static constexpr float kAspectRatio = 1.5f;
static constexpr float kLabelSize = 12.0f;
static constexpr SkSize kPadding = { 12.0f , 24.0f };
static constexpr float kFocusDuration = 500;
static constexpr SkSize kFocusInset = { 100.0f, 100.0f };
static constexpr SkPoint kFocusCtrl0 = { 0.3f, 1.0f };
static constexpr SkPoint kFocusCtrl1 = { 0.0f, 1.0f };
static constexpr SkColor kFocusShade = 0xa0000000;
// TODO: better unfocus binding?
static constexpr SkUnichar kUnfocusKey = ' ';
class SlideAdapter final : public sksg::RenderNode {
public:
explicit SlideAdapter(sk_sp<Slide> slide)
: fSlide(std::move(slide)) {
SkASSERT(fSlide);
}
sk_sp<SlideDir::Animator> makeForwardingAnimator() {
// Trivial sksg::Animator -> skottie::Animation tick adapter
class ForwardingAnimator final : public SlideDir::Animator {
public:
explicit ForwardingAnimator(sk_sp<SlideAdapter> adapter)
: fAdapter(std::move(adapter)) {}
protected:
void onTick(float t) override {
fAdapter->tick(SkScalarRoundToInt(t));
}
private:
sk_sp<SlideAdapter> fAdapter;
};
return sk_make_sp<ForwardingAnimator>(sk_ref_sp(this));
}
protected:
SkRect onRevalidate(sksg::InvalidationController* ic, const SkMatrix& ctm) override {
const auto isize = fSlide->getDimensions();
return SkRect::MakeIWH(isize.width(), isize.height());
}
void onRender(SkCanvas* canvas, const RenderContext* ctx) const override {
SkAutoCanvasRestore acr(canvas, true);
canvas->clipRect(SkRect::Make(fSlide->getDimensions()), true);
// TODO: commit the context?
fSlide->draw(canvas);
}
const RenderNode* onNodeAt(const SkPoint&) const override { return nullptr; }
private:
void tick(SkMSec t) {
fSlide->animate(t * 1e6);
this->invalidate();
}
const sk_sp<Slide> fSlide;
using INHERITED = sksg::RenderNode;
};
SkMatrix SlideMatrix(const sk_sp<Slide>& slide, const SkRect& dst) {
const auto slideSize = slide->getDimensions();
return SkMatrix::MakeRectToRect(SkRect::MakeIWH(slideSize.width(), slideSize.height()),
dst,
SkMatrix::kCenter_ScaleToFit);
}
} // namespace
struct SlideDir::Rec {
sk_sp<Slide> fSlide;
sk_sp<sksg::RenderNode> fSlideRoot;
sk_sp<sksg::Matrix<SkMatrix>> fMatrix;
SkRect fRect;
};
class SlideDir::FocusController final : public Animator {
public:
FocusController(const SlideDir* dir, const SkRect& focusRect)
: fDir(dir)
, fRect(focusRect)
, fTarget(nullptr)
, fMap(kFocusCtrl1, kFocusCtrl0)
, fState(State::kIdle) {
fShadePaint = sksg::Color::Make(kFocusShade);
fShade = sksg::Draw::Make(sksg::Plane::Make(), fShadePaint);
}
bool hasFocus() const { return fState == State::kFocused; }
void startFocus(const Rec* target) {
if (fState != State::kIdle)
return;
fTarget = target;
// Move the shade & slide to front.
fDir->fRoot->removeChild(fTarget->fSlideRoot);
fDir->fRoot->addChild(fShade);
fDir->fRoot->addChild(fTarget->fSlideRoot);
fM0 = SlideMatrix(fTarget->fSlide, fTarget->fRect);
fM1 = SlideMatrix(fTarget->fSlide, fRect);
fOpacity0 = 0;
fOpacity1 = 1;
fTimeBase = 0;
fState = State::kFocusing;
// Push initial state to the scene graph.
this->onTick(fTimeBase);
}
void startUnfocus() {
SkASSERT(fTarget);
using std::swap;
swap(fM0, fM1);
swap(fOpacity0, fOpacity1);
fTimeBase = 0;
fState = State::kUnfocusing;
}
bool onMouse(SkScalar x, SkScalar y, skui::InputState state, skui::ModifierKey modifiers) {
SkASSERT(fTarget);
if (!fRect.contains(x, y)) {
this->startUnfocus();
return true;
}
// Map coords to slide space.
const auto xform = SkMatrix::MakeRectToRect(fRect,
SkRect::MakeSize(fDir->fWinSize),
SkMatrix::kCenter_ScaleToFit);
const auto pt = xform.mapXY(x, y);
return fTarget->fSlide->onMouse(pt.x(), pt.y(), state, modifiers);
}
bool onChar(SkUnichar c) {
SkASSERT(fTarget);
return fTarget->fSlide->onChar(c);
}
protected:
void onTick(float t) override {
if (!this->isAnimating())
return;
if (!fTimeBase) {
fTimeBase = t;
}
const auto rel_t = (t - fTimeBase) / kFocusDuration,
map_t = SkTPin(fMap.computeYFromX(rel_t), 0.0f, 1.0f);
SkMatrix m;
for (int i = 0; i < 9; ++i) {
m[i] = fM0[i] + map_t * (fM1[i] - fM0[i]);
}
SkASSERT(fTarget);
fTarget->fMatrix->setMatrix(m);
const auto shadeOpacity = fOpacity0 + map_t * (fOpacity1 - fOpacity0);
fShadePaint->setOpacity(shadeOpacity);
if (rel_t < 1)
return;
switch (fState) {
case State::kFocusing:
fState = State::kFocused;
break;
case State::kUnfocusing:
fState = State::kIdle;
fDir->fRoot->removeChild(fShade);
break;
case State::kIdle:
case State::kFocused:
SkASSERT(false);
break;
}
}
private:
enum class State {
kIdle,
kFocusing,
kUnfocusing,
kFocused,
};
bool isAnimating() const { return fState == State::kFocusing || fState == State::kUnfocusing; }
const SlideDir* fDir;
const SkRect fRect;
const Rec* fTarget;
SkCubicMap fMap;
sk_sp<sksg::RenderNode> fShade;
sk_sp<sksg::PaintNode> fShadePaint;
SkMatrix fM0 = SkMatrix::I(),
fM1 = SkMatrix::I();
float fOpacity0 = 0,
fOpacity1 = 1,
fTimeBase = 0;
State fState = State::kIdle;
using INHERITED = Animator;
};
SlideDir::SlideDir(const SkString& name, SkTArray<sk_sp<Slide>>&& slides, int columns)
: fSlides(std::move(slides))
, fColumns(columns) {
fName = name;
}
static sk_sp<sksg::RenderNode> MakeLabel(const SkString& txt,
const SkPoint& pos,
const SkMatrix& dstXform) {
const auto size = kLabelSize / std::sqrt(dstXform.getScaleX() * dstXform.getScaleY());
auto text = sksg::Text::Make(nullptr, txt);
text->setEdging(SkFont::Edging::kAntiAlias);
text->setSize(size);
text->setAlign(SkTextUtils::kCenter_Align);
text->setPosition(pos + SkPoint::Make(0, size));
return sksg::Draw::Make(std::move(text), sksg::Color::Make(SK_ColorBLACK));
}
void SlideDir::load(SkScalar winWidth, SkScalar winHeight) {
// Build a global scene using transformed animation fragments:
//
// [Group(root)]
// [Transform]
// [Group]
// [AnimationWrapper]
// [Draw]
// [Text]
// [Color]
// [Transform]
// [Group]
// [AnimationWrapper]
// [Draw]
// [Text]
// [Color]
// ...
//
fWinSize = SkSize::Make(winWidth, winHeight);
const auto cellWidth = winWidth / fColumns;
fCellSize = SkSize::Make(cellWidth, cellWidth / kAspectRatio);
fRoot = sksg::Group::Make();
for (int i = 0; i < fSlides.count(); ++i) {
const auto& slide = fSlides[i];
slide->load(winWidth, winHeight);
const auto slideSize = slide->getDimensions();
const auto cell = SkRect::MakeXYWH(fCellSize.width() * (i % fColumns),
fCellSize.height() * (i / fColumns),
fCellSize.width(),
fCellSize.height()),
slideRect = cell.makeInset(kPadding.width(), kPadding.height());
auto slideMatrix = sksg::Matrix<SkMatrix>::Make(SlideMatrix(slide, slideRect));
auto adapter = sk_make_sp<SlideAdapter>(slide);
auto slideGrp = sksg::Group::Make();
slideGrp->addChild(sksg::Draw::Make(sksg::Rect::Make(SkRect::MakeIWH(slideSize.width(),
slideSize.height())),
sksg::Color::Make(0xfff0f0f0)));
slideGrp->addChild(adapter);
slideGrp->addChild(MakeLabel(slide->getName(),
SkPoint::Make(slideSize.width() / 2, slideSize.height()),
slideMatrix->getMatrix()));
auto slideRoot = sksg::TransformEffect::Make(std::move(slideGrp), slideMatrix);
fSceneAnimators.push_back(adapter->makeForwardingAnimator());
fRoot->addChild(slideRoot);
fRecs.push_back({ slide, slideRoot, slideMatrix, slideRect });
}
fScene = sksg::Scene::Make(fRoot);
const auto focusRect = SkRect::MakeSize(fWinSize).makeInset(kFocusInset.width(),
kFocusInset.height());
fFocusController = std::make_unique<FocusController>(this, focusRect);
}
void SlideDir::unload() {
for (const auto& slide : fSlides) {
slide->unload();
}
fRecs.reset();
fScene.reset();
fFocusController.reset();
fRoot.reset();
fTimeBase = 0;
}
SkISize SlideDir::getDimensions() const {
return SkSize::Make(fWinSize.width(),
fCellSize.height() * (1 + (fSlides.count() - 1) / fColumns)).toCeil();
}
void SlideDir::draw(SkCanvas* canvas) {
fScene->render(canvas);
}
bool SlideDir::animate(double nanos) {
SkMSec msec = TimeUtils::NanosToMSec(nanos);
if (fTimeBase == 0) {
// Reset the animation time.
fTimeBase = msec;
}
const auto t = msec - fTimeBase;
for (const auto& anim : fSceneAnimators) {
anim->tick(t);
}
fFocusController->tick(t);
return true;
}
bool SlideDir::onChar(SkUnichar c) {
if (fFocusController->hasFocus()) {
if (c == kUnfocusKey) {
fFocusController->startUnfocus();
return true;
}
return fFocusController->onChar(c);
}
return false;
}
bool SlideDir::onMouse(SkScalar x, SkScalar y, skui::InputState state,
skui::ModifierKey modifiers) {
modifiers &= ~skui::ModifierKey::kFirstPress;
if (state == skui::InputState::kMove || sknonstd::Any(modifiers))
return false;
if (fFocusController->hasFocus()) {
return fFocusController->onMouse(x, y, state, modifiers);
}
const auto* cell = this->findCell(x, y);
if (!cell)
return false;
static constexpr SkScalar kClickMoveTolerance = 4;
switch (state) {
case skui::InputState::kDown:
fTrackingCell = cell;
fTrackingPos = SkPoint::Make(x, y);
break;
case skui::InputState::kUp:
if (cell == fTrackingCell &&
SkPoint::Distance(fTrackingPos, SkPoint::Make(x, y)) < kClickMoveTolerance) {
fFocusController->startFocus(cell);
}
break;
default:
break;
}
return false;
}
const SlideDir::Rec* SlideDir::findCell(float x, float y) const {
// TODO: use SG hit testing instead of layout info?
const auto size = this->getDimensions();
if (x < 0 || y < 0 || x >= size.width() || y >= size.height()) {
return nullptr;
}
const int col = static_cast<int>(x / fCellSize.width()),
row = static_cast<int>(y / fCellSize.height()),
idx = row * fColumns + col;
return idx < fRecs.count() ? &fRecs[idx] : nullptr;
}