/*
* 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 "SkottiePriv.h"
#include "SkJSON.h"
#include "SkottieAdapter.h"
#include "SkottieJson.h"
#include "SkottieValue.h"
#include "SkPath.h"
#include "SkSGColor.h"
#include "SkSGDraw.h"
#include "SkSGGeometryTransform.h"
#include "SkSGGradient.h"
#include "SkSGGroup.h"
#include "SkSGMerge.h"
#include "SkSGPath.h"
#include "SkSGRect.h"
#include "SkSGRoundEffect.h"
#include "SkSGTransform.h"
#include "SkSGTrimEffect.h"
#include <algorithm>
#include <iterator>
namespace skottie {
namespace internal {
namespace {
sk_sp<sksg::GeometryNode> AttachPathGeometry(const skjson::ObjectValue& jpath,
const AnimationBuilder* abuilder,
AnimatorScope* ascope) {
return abuilder->attachPath(jpath["ks"], ascope);
}
sk_sp<sksg::GeometryNode> AttachRRectGeometry(const skjson::ObjectValue& jrect,
const AnimationBuilder* abuilder,
AnimatorScope* ascope) {
auto rect_node = sksg::RRect::Make();
rect_node->setDirection(ParseDefault(jrect["d"], -1) == 3 ? SkPath::kCCW_Direction
: SkPath::kCW_Direction);
rect_node->setInitialPointIndex(2); // starting point: (Right, Top - radius.y)
auto adapter = sk_make_sp<RRectAdapter>(rect_node);
auto p_attached = abuilder->bindProperty<VectorValue>(jrect["p"], ascope,
[adapter](const VectorValue& p) {
adapter->setPosition(ValueTraits<VectorValue>::As<SkPoint>(p));
});
auto s_attached = abuilder->bindProperty<VectorValue>(jrect["s"], ascope,
[adapter](const VectorValue& s) {
adapter->setSize(ValueTraits<VectorValue>::As<SkSize>(s));
});
auto r_attached = abuilder->bindProperty<ScalarValue>(jrect["r"], ascope,
[adapter](const ScalarValue& r) {
adapter->setRadius(SkSize::Make(r, r));
});
if (!p_attached && !s_attached && !r_attached) {
return nullptr;
}
return std::move(rect_node);
}
sk_sp<sksg::GeometryNode> AttachEllipseGeometry(const skjson::ObjectValue& jellipse,
const AnimationBuilder* abuilder,
AnimatorScope* ascope) {
auto rect_node = sksg::RRect::Make();
rect_node->setDirection(ParseDefault(jellipse["d"], -1) == 3 ? SkPath::kCCW_Direction
: SkPath::kCW_Direction);
rect_node->setInitialPointIndex(1); // starting point: (Center, Top)
auto adapter = sk_make_sp<RRectAdapter>(rect_node);
auto p_attached = abuilder->bindProperty<VectorValue>(jellipse["p"], ascope,
[adapter](const VectorValue& p) {
adapter->setPosition(ValueTraits<VectorValue>::As<SkPoint>(p));
});
auto s_attached = abuilder->bindProperty<VectorValue>(jellipse["s"], ascope,
[adapter](const VectorValue& s) {
const auto sz = ValueTraits<VectorValue>::As<SkSize>(s);
adapter->setSize(sz);
adapter->setRadius(SkSize::Make(sz.width() / 2, sz.height() / 2));
});
if (!p_attached && !s_attached) {
return nullptr;
}
return std::move(rect_node);
}
sk_sp<sksg::GeometryNode> AttachPolystarGeometry(const skjson::ObjectValue& jstar,
const AnimationBuilder* abuilder,
AnimatorScope* ascope) {
static constexpr PolyStarAdapter::Type gTypes[] = {
PolyStarAdapter::Type::kStar, // "sy": 1
PolyStarAdapter::Type::kPoly, // "sy": 2
};
const auto type = ParseDefault<size_t>(jstar["sy"], 0) - 1;
if (type >= SK_ARRAY_COUNT(gTypes)) {
abuilder->log(Logger::Level::kError, &jstar, "Unknown polystar type.");
return nullptr;
}
auto path_node = sksg::Path::Make();
auto adapter = sk_make_sp<PolyStarAdapter>(path_node, gTypes[type]);
abuilder->bindProperty<VectorValue>(jstar["p"], ascope,
[adapter](const VectorValue& p) {
adapter->setPosition(ValueTraits<VectorValue>::As<SkPoint>(p));
});
abuilder->bindProperty<ScalarValue>(jstar["pt"], ascope,
[adapter](const ScalarValue& pt) {
adapter->setPointCount(pt);
});
abuilder->bindProperty<ScalarValue>(jstar["ir"], ascope,
[adapter](const ScalarValue& ir) {
adapter->setInnerRadius(ir);
});
abuilder->bindProperty<ScalarValue>(jstar["or"], ascope,
[adapter](const ScalarValue& otr) {
adapter->setOuterRadius(otr);
});
abuilder->bindProperty<ScalarValue>(jstar["is"], ascope,
[adapter](const ScalarValue& is) {
adapter->setInnerRoundness(is);
});
abuilder->bindProperty<ScalarValue>(jstar["os"], ascope,
[adapter](const ScalarValue& os) {
adapter->setOuterRoundness(os);
});
abuilder->bindProperty<ScalarValue>(jstar["r"], ascope,
[adapter](const ScalarValue& r) {
adapter->setRotation(r);
});
return std::move(path_node);
}
sk_sp<sksg::Gradient> AttachGradient(const skjson::ObjectValue& jgrad,
const AnimationBuilder* abuilder, AnimatorScope* ascope) {
const skjson::ObjectValue* stops = jgrad["g"];
if (!stops)
return nullptr;
const auto stopCount = ParseDefault<int>((*stops)["p"], -1);
if (stopCount < 0)
return nullptr;
sk_sp<sksg::Gradient> gradient_node;
sk_sp<GradientAdapter> adapter;
if (ParseDefault<int>(jgrad["t"], 1) == 1) {
auto linear_node = sksg::LinearGradient::Make();
adapter = sk_make_sp<LinearGradientAdapter>(linear_node, stopCount);
gradient_node = std::move(linear_node);
} else {
auto radial_node = sksg::RadialGradient::Make();
adapter = sk_make_sp<RadialGradientAdapter>(radial_node, stopCount);
// TODO: highlight, angle
gradient_node = std::move(radial_node);
}
abuilder->bindProperty<VectorValue>((*stops)["k"], ascope,
[adapter](const VectorValue& stops) {
adapter->setColorStops(stops);
});
abuilder->bindProperty<VectorValue>(jgrad["s"], ascope,
[adapter](const VectorValue& s) {
adapter->setStartPoint(ValueTraits<VectorValue>::As<SkPoint>(s));
});
abuilder->bindProperty<VectorValue>(jgrad["e"], ascope,
[adapter](const VectorValue& e) {
adapter->setEndPoint(ValueTraits<VectorValue>::As<SkPoint>(e));
});
return gradient_node;
}
sk_sp<sksg::PaintNode> AttachPaint(const skjson::ObjectValue& jpaint,
const AnimationBuilder* abuilder, AnimatorScope* ascope,
sk_sp<sksg::PaintNode> paint_node) {
if (paint_node) {
paint_node->setAntiAlias(true);
abuilder->bindProperty<ScalarValue>(jpaint["o"], ascope,
[paint_node](const ScalarValue& o) {
// BM opacity is [0..100]
paint_node->setOpacity(o * 0.01f);
});
}
return paint_node;
}
sk_sp<sksg::PaintNode> AttachStroke(const skjson::ObjectValue& jstroke,
const AnimationBuilder* abuilder, AnimatorScope* ascope,
sk_sp<sksg::PaintNode> stroke_node) {
if (!stroke_node)
return nullptr;
stroke_node->setStyle(SkPaint::kStroke_Style);
abuilder->bindProperty<ScalarValue>(jstroke["w"], ascope,
[stroke_node](const ScalarValue& w) {
stroke_node->setStrokeWidth(w);
});
stroke_node->setStrokeMiter(ParseDefault<SkScalar>(jstroke["ml"], 4.0f));
static constexpr SkPaint::Join gJoins[] = {
SkPaint::kMiter_Join,
SkPaint::kRound_Join,
SkPaint::kBevel_Join,
};
stroke_node->setStrokeJoin(gJoins[SkTMin<size_t>(ParseDefault<size_t>(jstroke["lj"], 1) - 1,
SK_ARRAY_COUNT(gJoins) - 1)]);
static constexpr SkPaint::Cap gCaps[] = {
SkPaint::kButt_Cap,
SkPaint::kRound_Cap,
SkPaint::kSquare_Cap,
};
stroke_node->setStrokeCap(gCaps[SkTMin<size_t>(ParseDefault<size_t>(jstroke["lc"], 1) - 1,
SK_ARRAY_COUNT(gCaps) - 1)]);
return stroke_node;
}
sk_sp<sksg::PaintNode> AttachColorFill(const skjson::ObjectValue& jfill,
const AnimationBuilder* abuilder, AnimatorScope* ascope) {
return AttachPaint(jfill, abuilder, ascope, abuilder->attachColor(jfill, ascope, "c"));
}
sk_sp<sksg::PaintNode> AttachGradientFill(const skjson::ObjectValue& jfill,
const AnimationBuilder* abuilder, AnimatorScope* ascope) {
return AttachPaint(jfill, abuilder, ascope, AttachGradient(jfill, abuilder, ascope));
}
sk_sp<sksg::PaintNode> AttachColorStroke(const skjson::ObjectValue& jstroke,
const AnimationBuilder* abuilder,
AnimatorScope* ascope) {
return AttachStroke(jstroke, abuilder, ascope,
AttachPaint(jstroke, abuilder, ascope,
abuilder->attachColor(jstroke, ascope, "c")));
}
sk_sp<sksg::PaintNode> AttachGradientStroke(const skjson::ObjectValue& jstroke,
const AnimationBuilder* abuilder,
AnimatorScope* ascope) {
return AttachStroke(jstroke, abuilder, ascope,
AttachPaint(jstroke, abuilder, ascope,
AttachGradient(jstroke, abuilder, ascope)));
}
sk_sp<sksg::Merge> Merge(std::vector<sk_sp<sksg::GeometryNode>>&& geos, sksg::Merge::Mode mode) {
std::vector<sksg::Merge::Rec> merge_recs;
merge_recs.reserve(geos.size());
for (auto& geo : geos) {
merge_recs.push_back(
{std::move(geo), merge_recs.empty() ? sksg::Merge::Mode::kMerge : mode});
}
return sksg::Merge::Make(std::move(merge_recs));
}
std::vector<sk_sp<sksg::GeometryNode>> AttachMergeGeometryEffect(
const skjson::ObjectValue& jmerge, const AnimationBuilder*, AnimatorScope*,
std::vector<sk_sp<sksg::GeometryNode>>&& geos) {
static constexpr sksg::Merge::Mode gModes[] = {
sksg::Merge::Mode::kMerge, // "mm": 1
sksg::Merge::Mode::kUnion, // "mm": 2
sksg::Merge::Mode::kDifference, // "mm": 3
sksg::Merge::Mode::kIntersect, // "mm": 4
sksg::Merge::Mode::kXOR , // "mm": 5
};
const auto mode = gModes[SkTMin<size_t>(ParseDefault<size_t>(jmerge["mm"], 1) - 1,
SK_ARRAY_COUNT(gModes) - 1)];
std::vector<sk_sp<sksg::GeometryNode>> merged;
merged.push_back(Merge(std::move(geos), mode));
return merged;
}
std::vector<sk_sp<sksg::GeometryNode>> AttachTrimGeometryEffect(
const skjson::ObjectValue& jtrim, const AnimationBuilder* abuilder, AnimatorScope* ascope,
std::vector<sk_sp<sksg::GeometryNode>>&& geos) {
enum class Mode {
kMerged, // "m": 1
kSeparate, // "m": 2
} gModes[] = { Mode::kMerged, Mode::kSeparate };
const auto mode = gModes[SkTMin<size_t>(ParseDefault<size_t>(jtrim["m"], 1) - 1,
SK_ARRAY_COUNT(gModes) - 1)];
std::vector<sk_sp<sksg::GeometryNode>> inputs;
if (mode == Mode::kMerged) {
inputs.push_back(Merge(std::move(geos), sksg::Merge::Mode::kMerge));
} else {
inputs = std::move(geos);
}
std::vector<sk_sp<sksg::GeometryNode>> trimmed;
trimmed.reserve(inputs.size());
for (const auto& i : inputs) {
auto trimEffect = sksg::TrimEffect::Make(i);
trimmed.push_back(trimEffect);
const auto adapter = sk_make_sp<TrimEffectAdapter>(std::move(trimEffect));
abuilder->bindProperty<ScalarValue>(jtrim["s"], ascope,
[adapter](const ScalarValue& s) {
adapter->setStart(s);
});
abuilder->bindProperty<ScalarValue>(jtrim["e"], ascope,
[adapter](const ScalarValue& e) {
adapter->setEnd(e);
});
abuilder->bindProperty<ScalarValue>(jtrim["o"], ascope,
[adapter](const ScalarValue& o) {
adapter->setOffset(o);
});
}
return trimmed;
}
std::vector<sk_sp<sksg::GeometryNode>> AttachRoundGeometryEffect(
const skjson::ObjectValue& jtrim, const AnimationBuilder* abuilder, AnimatorScope* ascope,
std::vector<sk_sp<sksg::GeometryNode>>&& geos) {
std::vector<sk_sp<sksg::GeometryNode>> rounded;
rounded.reserve(geos.size());
for (auto& g : geos) {
const auto roundEffect = sksg::RoundEffect::Make(std::move(g));
rounded.push_back(roundEffect);
abuilder->bindProperty<ScalarValue>(jtrim["r"], ascope,
[roundEffect](const ScalarValue& r) {
roundEffect->setRadius(r);
});
}
return rounded;
}
std::vector<sk_sp<sksg::RenderNode>> AttachRepeaterDrawEffect(
const skjson::ObjectValue& jrepeater,
const AnimationBuilder* abuilder,
AnimatorScope* ascope,
std::vector<sk_sp<sksg::RenderNode>>&& draws) {
std::vector<sk_sp<sksg::RenderNode>> repeater_draws;
if (const skjson::ObjectValue* jtransform = jrepeater["tr"]) {
sk_sp<sksg::RenderNode> repeater_node;
if (draws.size() > 1) {
repeater_node = sksg::Group::Make(std::move(draws));
} else {
repeater_node = std::move(draws[0]);
}
const auto repeater_composite = (ParseDefault(jrepeater["m"], 1) == 1)
? RepeaterAdapter::Composite::kAbove
: RepeaterAdapter::Composite::kBelow;
auto adapter = sk_make_sp<RepeaterAdapter>(std::move(repeater_node),
repeater_composite);
abuilder->bindProperty<ScalarValue>(jrepeater["c"], ascope,
[adapter](const ScalarValue& c) {
adapter->setCount(c);
});
abuilder->bindProperty<ScalarValue>(jrepeater["o"], ascope,
[adapter](const ScalarValue& o) {
adapter->setOffset(o);
});
abuilder->bindProperty<VectorValue>((*jtransform)["a"], ascope,
[adapter](const VectorValue& a) {
adapter->setAnchorPoint(ValueTraits<VectorValue>::As<SkPoint>(a));
});
abuilder->bindProperty<VectorValue>((*jtransform)["p"], ascope,
[adapter](const VectorValue& p) {
adapter->setPosition(ValueTraits<VectorValue>::As<SkPoint>(p));
});
abuilder->bindProperty<VectorValue>((*jtransform)["s"], ascope,
[adapter](const VectorValue& s) {
adapter->setScale(ValueTraits<VectorValue>::As<SkVector>(s));
});
abuilder->bindProperty<ScalarValue>((*jtransform)["r"], ascope,
[adapter](const ScalarValue& r) {
adapter->setRotation(r);
});
abuilder->bindProperty<ScalarValue>((*jtransform)["so"], ascope,
[adapter](const ScalarValue& so) {
adapter->setStartOpacity(so);
});
abuilder->bindProperty<ScalarValue>((*jtransform)["eo"], ascope,
[adapter](const ScalarValue& eo) {
adapter->setEndOpacity(eo);
});
repeater_draws.reserve(1);
repeater_draws.push_back(adapter->root());
} else {
repeater_draws = std::move(draws);
}
return repeater_draws;
}
using GeometryAttacherT = sk_sp<sksg::GeometryNode> (*)(const skjson::ObjectValue&,
const AnimationBuilder*, AnimatorScope*);
static constexpr GeometryAttacherT gGeometryAttachers[] = {
AttachPathGeometry,
AttachRRectGeometry,
AttachEllipseGeometry,
AttachPolystarGeometry,
};
using PaintAttacherT = sk_sp<sksg::PaintNode> (*)(const skjson::ObjectValue&,
const AnimationBuilder*, AnimatorScope*);
static constexpr PaintAttacherT gPaintAttachers[] = {
AttachColorFill,
AttachColorStroke,
AttachGradientFill,
AttachGradientStroke,
};
using GeometryEffectAttacherT =
std::vector<sk_sp<sksg::GeometryNode>> (*)(const skjson::ObjectValue&,
const AnimationBuilder*, AnimatorScope*,
std::vector<sk_sp<sksg::GeometryNode>>&&);
static constexpr GeometryEffectAttacherT gGeometryEffectAttachers[] = {
AttachMergeGeometryEffect,
AttachTrimGeometryEffect,
AttachRoundGeometryEffect,
};
using DrawEffectAttacherT =
std::vector<sk_sp<sksg::RenderNode>> (*)(const skjson::ObjectValue&,
const AnimationBuilder*, AnimatorScope*,
std::vector<sk_sp<sksg::RenderNode>>&&);
static constexpr DrawEffectAttacherT gDrawEffectAttachers[] = {
AttachRepeaterDrawEffect,
};
enum class ShapeType {
kGeometry,
kGeometryEffect,
kPaint,
kGroup,
kTransform,
kDrawEffect,
};
struct ShapeInfo {
const char* fTypeString;
ShapeType fShapeType;
uint32_t fAttacherIndex; // index into respective attacher tables
};
const ShapeInfo* FindShapeInfo(const skjson::ObjectValue& jshape) {
static constexpr ShapeInfo gShapeInfo[] = {
{ "el", ShapeType::kGeometry , 2 }, // ellipse -> AttachEllipseGeometry
{ "fl", ShapeType::kPaint , 0 }, // fill -> AttachColorFill
{ "gf", ShapeType::kPaint , 2 }, // gfill -> AttachGradientFill
{ "gr", ShapeType::kGroup , 0 }, // group -> Inline handler
{ "gs", ShapeType::kPaint , 3 }, // gstroke -> AttachGradientStroke
{ "mm", ShapeType::kGeometryEffect, 0 }, // merge -> AttachMergeGeometryEffect
{ "rc", ShapeType::kGeometry , 1 }, // rrect -> AttachRRectGeometry
{ "rd", ShapeType::kGeometryEffect, 2 }, // round -> AttachRoundGeometryEffect
{ "rp", ShapeType::kDrawEffect , 0 }, // repeater -> AttachRepeaterDrawEffect
{ "sh", ShapeType::kGeometry , 0 }, // shape -> AttachPathGeometry
{ "sr", ShapeType::kGeometry , 3 }, // polystar -> AttachPolyStarGeometry
{ "st", ShapeType::kPaint , 1 }, // stroke -> AttachColorStroke
{ "tm", ShapeType::kGeometryEffect, 1 }, // trim -> AttachTrimGeometryEffect
{ "tr", ShapeType::kTransform , 0 }, // transform -> Inline handler
};
const skjson::StringValue* type = jshape["ty"];
if (!type) {
return nullptr;
}
const auto* info = bsearch(type->begin(),
gShapeInfo,
SK_ARRAY_COUNT(gShapeInfo),
sizeof(ShapeInfo),
[](const void* key, const void* info) {
return strcmp(static_cast<const char*>(key),
static_cast<const ShapeInfo*>(info)->fTypeString);
});
return static_cast<const ShapeInfo*>(info);
}
struct GeometryEffectRec {
const skjson::ObjectValue& fJson;
GeometryEffectAttacherT fAttach;
};
} // namespace
struct AnimationBuilder::AttachShapeContext {
AttachShapeContext(AnimatorScope* ascope,
std::vector<sk_sp<sksg::GeometryNode>>* geos,
std::vector<GeometryEffectRec>* effects,
size_t committedAnimators)
: fScope(ascope)
, fGeometryStack(geos)
, fGeometryEffectStack(effects)
, fCommittedAnimators(committedAnimators) {}
AnimatorScope* fScope;
std::vector<sk_sp<sksg::GeometryNode>>* fGeometryStack;
std::vector<GeometryEffectRec>* fGeometryEffectStack;
size_t fCommittedAnimators;
};
sk_sp<sksg::RenderNode> AnimationBuilder::attachShape(const skjson::ArrayValue* jshape,
AttachShapeContext* ctx) const {
if (!jshape)
return nullptr;
SkDEBUGCODE(const auto initialGeometryEffects = ctx->fGeometryEffectStack->size();)
const skjson::ObjectValue* jtransform = nullptr;
struct ShapeRec {
const skjson::ObjectValue& fJson;
const ShapeInfo& fInfo;
};
// First pass (bottom->top):
//
// * pick up the group transform and opacity
// * push local geometry effects onto the stack
// * store recs for next pass
//
std::vector<ShapeRec> recs;
for (size_t i = 0; i < jshape->size(); ++i) {
const skjson::ObjectValue* shape = (*jshape)[jshape->size() - 1 - i];
if (!shape) continue;
const auto* info = FindShapeInfo(*shape);
if (!info) {
this->log(Logger::Level::kError, &(*shape)["ty"], "Unknown shape.");
continue;
}
recs.push_back({ *shape, *info });
switch (info->fShapeType) {
case ShapeType::kTransform:
// Just track the transform property for now -- we'll deal with it later.
jtransform = shape;
break;
case ShapeType::kGeometryEffect:
SkASSERT(info->fAttacherIndex < SK_ARRAY_COUNT(gGeometryEffectAttachers));
ctx->fGeometryEffectStack->push_back(
{ *shape, gGeometryEffectAttachers[info->fAttacherIndex] });
break;
default:
break;
}
}
// Second pass (top -> bottom, after 2x reverse):
//
// * track local geometry
// * emit local paints
//
std::vector<sk_sp<sksg::GeometryNode>> geos;
std::vector<sk_sp<sksg::RenderNode >> draws;
const auto add_draw = [this, &draws](sk_sp<sksg::RenderNode> draw, const ShapeRec& rec) {
// All draws can have an optional blend mode.
draws.push_back(this->attachBlendMode(rec.fJson, std::move(draw)));
};
for (auto rec = recs.rbegin(); rec != recs.rend(); ++rec) {
const AutoPropertyTracker apt(this, rec->fJson);
switch (rec->fInfo.fShapeType) {
case ShapeType::kGeometry: {
SkASSERT(rec->fInfo.fAttacherIndex < SK_ARRAY_COUNT(gGeometryAttachers));
if (auto geo = gGeometryAttachers[rec->fInfo.fAttacherIndex](rec->fJson,
this,
ctx->fScope)) {
geos.push_back(std::move(geo));
}
} break;
case ShapeType::kGeometryEffect: {
// Apply the current effect and pop from the stack.
SkASSERT(rec->fInfo.fAttacherIndex < SK_ARRAY_COUNT(gGeometryEffectAttachers));
if (!geos.empty()) {
geos = gGeometryEffectAttachers[rec->fInfo.fAttacherIndex](rec->fJson,
this,
ctx->fScope,
std::move(geos));
}
SkASSERT(&ctx->fGeometryEffectStack->back().fJson == &rec->fJson);
SkASSERT(ctx->fGeometryEffectStack->back().fAttach ==
gGeometryEffectAttachers[rec->fInfo.fAttacherIndex]);
ctx->fGeometryEffectStack->pop_back();
} break;
case ShapeType::kGroup: {
AttachShapeContext groupShapeCtx(ctx->fScope,
&geos,
ctx->fGeometryEffectStack,
ctx->fCommittedAnimators);
if (auto subgroup = this->attachShape(rec->fJson["it"], &groupShapeCtx)) {
add_draw(std::move(subgroup), *rec);
SkASSERT(groupShapeCtx.fCommittedAnimators >= ctx->fCommittedAnimators);
ctx->fCommittedAnimators = groupShapeCtx.fCommittedAnimators;
}
} break;
case ShapeType::kPaint: {
SkASSERT(rec->fInfo.fAttacherIndex < SK_ARRAY_COUNT(gPaintAttachers));
auto paint = gPaintAttachers[rec->fInfo.fAttacherIndex](rec->fJson,
this,
ctx->fScope);
if (!paint || geos.empty())
break;
auto drawGeos = geos;
// Apply all pending effects from the stack.
for (auto it = ctx->fGeometryEffectStack->rbegin();
it != ctx->fGeometryEffectStack->rend(); ++it) {
drawGeos = it->fAttach(it->fJson, this, ctx->fScope, std::move(drawGeos));
}
// If we still have multiple geos, reduce using 'merge'.
auto geo = drawGeos.size() > 1
? Merge(std::move(drawGeos), sksg::Merge::Mode::kMerge)
: drawGeos[0];
SkASSERT(geo);
add_draw(sksg::Draw::Make(std::move(geo), std::move(paint)), *rec);
ctx->fCommittedAnimators = ctx->fScope->size();
} break;
case ShapeType::kDrawEffect: {
SkASSERT(rec->fInfo.fAttacherIndex < SK_ARRAY_COUNT(gDrawEffectAttachers));
if (!draws.empty()) {
draws = gDrawEffectAttachers[rec->fInfo.fAttacherIndex](rec->fJson,
this,
ctx->fScope,
std::move(draws));
ctx->fCommittedAnimators = ctx->fScope->size();
}
} break;
default:
break;
}
}
// By now we should have popped all local geometry effects.
SkASSERT(ctx->fGeometryEffectStack->size() == initialGeometryEffects);
sk_sp<sksg::RenderNode> shape_wrapper;
if (draws.size() == 1) {
// For a single draw, we don't need a group.
shape_wrapper = std::move(draws.front());
} else if (!draws.empty()) {
// Emit local draws reversed (bottom->top, per spec).
std::reverse(draws.begin(), draws.end());
draws.shrink_to_fit();
// We need a group to dispatch multiple draws.
shape_wrapper = sksg::Group::Make(std::move(draws));
}
sk_sp<sksg::Transform> shape_transform;
if (jtransform) {
const AutoPropertyTracker apt(this, *jtransform);
// This is tricky due to the interaction with ctx->fCommittedAnimators: we want any
// animators related to tranform/opacity to be committed => they must be inserted in front
// of the dangling/uncommitted ones.
AnimatorScope local_scope;
if ((shape_transform = this->attachMatrix2D(*jtransform, &local_scope, nullptr))) {
shape_wrapper = sksg::TransformEffect::Make(std::move(shape_wrapper), shape_transform);
}
shape_wrapper = this->attachOpacity(*jtransform, &local_scope, std::move(shape_wrapper));
ctx->fScope->insert(ctx->fScope->begin() + ctx->fCommittedAnimators,
std::make_move_iterator(local_scope.begin()),
std::make_move_iterator(local_scope.end()));
ctx->fCommittedAnimators += local_scope.size();
}
// Push transformed local geometries to parent list, for subsequent paints.
for (auto& geo : geos) {
ctx->fGeometryStack->push_back(shape_transform
? sksg::GeometryTransform::Make(std::move(geo), shape_transform)
: std::move(geo));
}
return shape_wrapper;
}
sk_sp<sksg::RenderNode> AnimationBuilder::attachShapeLayer(const skjson::ObjectValue& layer,
const LayerInfo&,
AnimatorScope* ascope) const {
std::vector<sk_sp<sksg::GeometryNode>> geometryStack;
std::vector<GeometryEffectRec> geometryEffectStack;
AttachShapeContext shapeCtx(ascope, &geometryStack, &geometryEffectStack, ascope->size());
auto shapeNode = this->attachShape(layer["shapes"], &shapeCtx);
// Trim uncommitted animators: AttachShape consumes effects on the fly, and greedily attaches
// geometries => at the end, we can end up with unused geometries, which are nevertheless alive
// due to attached animators. To avoid this, we track committed animators and discard the
// orphans here.
SkASSERT(shapeCtx.fCommittedAnimators <= ascope->size());
ascope->resize(shapeCtx.fCommittedAnimators);
return shapeNode;
}
} // namespace internal
} // namespace skottie