tools/viewer/ParticlesSlide.cpp - skia - Git at Google

 /*
 * Copyright 2019 Google LLC
 *
 * Use of this source code is governed by a BSD-style license that can be
 * found in the LICENSE file.
 */

 #include "ParticlesSlide.h"

 #include "ImGuiLayer.h"
 #include "SkParticleAffector.h"
 #include "SkParticleEffect.h"
 #include "SkParticleEmitter.h"
 #include "SkParticleSerialization.h"
 #include "SkReflected.h"

 #include "imgui.h"

 using namespace sk_app;

 namespace {

 static SkScalar kDragSize = 8.0f;
 static SkTArray<SkPoint*> gDragPoints;
 int gDragIndex = -1;

 }

 ///////////////////////////////////////////////////////////////////////////////

 static int InputTextCallback(ImGuiInputTextCallbackData* data) {
     if (data->EventFlag == ImGuiInputTextFlags_CallbackResize) {
         SkString* s = (SkString*)data->UserData;
         SkASSERT(data->Buf == s->writable_str());
         SkString tmp(data->Buf, data->BufTextLen);
         s->swap(tmp);
         data->Buf = s->writable_str();
     }
     return 0;
 }

 class SkGuiVisitor : public SkFieldVisitor {
 public:
     SkGuiVisitor() {
         fTreeStack.push_back(true);
     }

 #define IF_OPEN(WIDGET) if (fTreeStack.back()) { WIDGET; }

     void visit(const char* name, float& f, SkField field) override {
         if (fTreeStack.back()) {
             if (field.fFlags & SkField::kAngle_Field) {
                 ImGui::SliderAngle(item(name), &f, 0.0f);
             } else {
                 ImGui::DragFloat(item(name), &f);
             }
         }
     }
     void visit(const char* name, int& i, SkField) override {
         IF_OPEN(ImGui::DragInt(item(name), &i))
     }
     void visit(const char* name, bool& b, SkField) override {
         IF_OPEN(ImGui::Checkbox(item(name), &b))
     }
     void visit(const char* name, SkString& s, SkField) override {
         if (fTreeStack.back()) {
             ImGuiInputTextFlags flags = ImGuiInputTextFlags_CallbackResize;
             ImGui::InputText(item(name), s.writable_str(), s.size() + 1, flags, InputTextCallback,
                              &s);
         }
     }

     void visit(const char* name, SkPoint& p, SkField) override {
         if (fTreeStack.back()) {
             ImGui::DragFloat2(item(name), &p.fX);
             gDragPoints.push_back(&p);
         }
     }
     void visit(const char* name, SkColor4f& c, SkField) override {
         IF_OPEN(ImGui::ColorEdit4(item(name), c.vec()))
     }

 #undef IF_OPEN

     void visit(const char* name, SkCurve& c, SkField) override {
         this->enterObject(item(name));
         if (fTreeStack.back()) {
             // Get vertical extents of the curve
             SkScalar extents[2];
             c.getExtents(extents);

             // Grow the extents by 10%, at least 1.0f
             SkScalar grow = SkTMax((extents[1] - extents[0]) * 0.1f, 1.0f);
             extents[0] -= grow;
             extents[1] += grow;

             {
                 ImGui::DragCanvas dc(&c, { 0.0f, extents[1] }, { 1.0f, extents[0] }, 0.5f);
                 dc.fillColor(IM_COL32(0, 0, 0, 128));

                 for (int i = 0; i < c.fSegments.count(); ++i) {
                     SkSTArray<8, ImVec2, true> pts;
                     SkScalar rangeMin = (i == 0) ? 0.0f : c.fXValues[i - 1];
                     SkScalar rangeMax = (i == c.fXValues.count()) ? 1.0f : c.fXValues[i];
                     auto screenPoint = [&](int idx, bool useMax) {
                         SkScalar xVal = rangeMin + (idx / 3.0f) * (rangeMax - rangeMin);
                         SkScalar* yVals = useMax ? c.fSegments[i].fMax : c.fSegments[i].fMin;
                         SkScalar yVal = yVals[c.fSegments[i].fConstant ? 0 : idx];
                         SkPoint pt = dc.fLocalToScreen.mapXY(xVal, yVal);
                         return ImVec2(pt.fX, pt.fY);
                     };
                     for (int i = 0; i < 4; ++i) {
                         pts.push_back(screenPoint(i, false));
                     }
                     if (c.fSegments[i].fRanged) {
                         for (int i = 3; i >= 0; --i) {
                             pts.push_back(screenPoint(i, true));
                         }
                     }

                     if (c.fSegments[i].fRanged) {
                         dc.fDrawList->PathLineTo(pts[0]);
                         dc.fDrawList->PathBezierCurveTo(pts[1], pts[2], pts[3]);
                         dc.fDrawList->PathLineTo(pts[4]);
                         dc.fDrawList->PathBezierCurveTo(pts[5], pts[6], pts[7]);
                         dc.fDrawList->PathFillConvex(IM_COL32(255, 255, 255, 128));
                     } else {
                         dc.fDrawList->AddBezierCurve(pts[0], pts[1], pts[2], pts[3],
                                                      IM_COL32(255, 255, 255, 255), 1.0f);
                     }
                 }
             }
             c.visitFields(this);
         }
         this->exitObject();
     }

     void visit(sk_sp<SkReflected>& e, const SkReflected::Type* baseType) override {
         if (fTreeStack.back()) {
             const SkReflected::Type* curType = e ? e->getType() : nullptr;
             if (ImGui::BeginCombo("Type", curType ? curType->fName : "Null")) {
                 auto visitType = [curType,&e](const SkReflected::Type* t) {
                     if (ImGui::Selectable(t->fName, curType == t)) {
                         e = t->fFactory();
                     }
                 };
                 SkReflected::VisitTypes(visitType, baseType);
                 ImGui::EndCombo();
             }
         }
     }

     void enterObject(const char* name) override {
         if (fTreeStack.back()) {
             fTreeStack.push_back(ImGui::TreeNodeEx(item(name),
                                                    ImGuiTreeNodeFlags_AllowItemOverlap));
         } else {
             fTreeStack.push_back(false);
         }
     }
     void exitObject() override {
         if (fTreeStack.back()) {
             ImGui::TreePop();
         }
         fTreeStack.pop_back();
     }

     int enterArray(const char* name, int oldCount) override {
         this->enterObject(item(name));
         fArrayCounterStack.push_back(0);
         fArrayEditStack.push_back();

         int count = oldCount;
         if (fTreeStack.back()) {
             ImGui::SameLine();
             if (ImGui::Button("+")) {
                 ++count;
             }
         }
         return count;
     }
     ArrayEdit exitArray() override {
         fArrayCounterStack.pop_back();
         auto edit = fArrayEditStack.back();
         fArrayEditStack.pop_back();
         this->exitObject();
         return edit;
     }

 private:
     const char* item(const char* name) {
         if (name) {
             return name;
         }

         // We're in an array. Add extra controls and a dynamic label.
         int index = fArrayCounterStack.back()++;
         ArrayEdit& edit(fArrayEditStack.back());
         fScratchLabel = SkStringPrintf("[%d]", index);

         ImGui::PushID(index);

         if (ImGui::Button("X")) {
             edit.fVerb = ArrayEdit::Verb::kRemove;
             edit.fIndex = index;
         }
         ImGui::SameLine();
         if (ImGui::Button("^")) {
             edit.fVerb = ArrayEdit::Verb::kMoveForward;
             edit.fIndex = index;
         }
         ImGui::SameLine();
         if (ImGui::Button("v")) {
             edit.fVerb = ArrayEdit::Verb::kMoveForward;
             edit.fIndex = index + 1;
         }
         ImGui::SameLine();

         ImGui::PopID();

         return fScratchLabel.c_str();
     }

     SkSTArray<16, bool, true> fTreeStack;
     SkSTArray<16, int, true>  fArrayCounterStack;
     SkSTArray<16, ArrayEdit, true> fArrayEditStack;
     SkString fScratchLabel;
 };

 static sk_sp<SkParticleEffectParams> LoadEffectParams(const char* filename) {
     sk_sp<SkParticleEffectParams> params(new SkParticleEffectParams());
     if (auto fileData = SkData::MakeFromFileName(filename)) {
         skjson::DOM dom(static_cast<const char*>(fileData->data()), fileData->size());
         SkFromJsonVisitor fromJson(dom.root());
         params->visitFields(&fromJson);
     }
     return params;
 }

 ParticlesSlide::ParticlesSlide() {
     // Register types for serialization
     REGISTER_REFLECTED(SkReflected);
     SkParticleAffector::RegisterAffectorTypes();
     SkParticleEmitter::RegisterEmitterTypes();
     fName = "Particles";
 }

 void ParticlesSlide::load(SkScalar winWidth, SkScalar winHeight) {
     fEffect.reset(new SkParticleEffect(LoadEffectParams("resources/particles/default.json"),
                                        fRandom));
 }

 void ParticlesSlide::draw(SkCanvas* canvas) {
     canvas->clear(0);

     gDragPoints.reset();
     if (ImGui::Begin("Particles")) {
         static bool looped = true;
         ImGui::Checkbox("Looped", &looped);
         if (fTimer && ImGui::Button("Play")) {
             fEffect->start(*fTimer, looped);
         }
         static char filename[64] = "resources/particles/default.json";
         ImGui::InputText("Filename", filename, sizeof(filename));
         if (ImGui::Button("Load")) {
             if (auto newParams = LoadEffectParams(filename)) {
                 fEffect.reset(new SkParticleEffect(std::move(newParams), fRandom));
             }
         }
         ImGui::SameLine();

         if (ImGui::Button("Save")) {
             SkFILEWStream fileStream(filename);
             if (fileStream.isValid()) {
                 SkJSONWriter writer(&fileStream, SkJSONWriter::Mode::kPretty);
                 SkToJsonVisitor toJson(writer);
                 writer.beginObject();
                 fEffect->getParams()->visitFields(&toJson);
                 writer.endObject();
                 writer.flush();
                 fileStream.flush();
             } else {
                 SkDebugf("Failed to open file\n");
             }
         }

         SkGuiVisitor gui;
         fEffect->getParams()->visitFields(&gui);
     }
     ImGui::End();

     SkPaint dragPaint;
     dragPaint.setColor(SK_ColorLTGRAY);
     dragPaint.setAntiAlias(true);
     SkPaint dragHighlight;
     dragHighlight.setStyle(SkPaint::kStroke_Style);
     dragHighlight.setColor(SK_ColorGREEN);
     dragHighlight.setStrokeWidth(2);
     dragHighlight.setAntiAlias(true);
     for (int i = 0; i < gDragPoints.count(); ++i) {
         canvas->drawCircle(*gDragPoints[i], kDragSize, dragPaint);
         if (gDragIndex == i) {
             canvas->drawCircle(*gDragPoints[i], kDragSize, dragHighlight);
         }
     }
     fEffect->draw(canvas);
 }

 bool ParticlesSlide::animate(const SkAnimTimer& timer) {
     fTimer = &timer;
     fEffect->update(timer);
     return true;
 }

 bool ParticlesSlide::onMouse(SkScalar x, SkScalar y, Window::InputState state, uint32_t modifiers) {
     if (gDragIndex == -1) {
         if (state == Window::kDown_InputState) {
             float bestDistance = kDragSize;
             SkPoint mousePt = { x, y };
             for (int i = 0; i < gDragPoints.count(); ++i) {
                 float distance = SkPoint::Distance(*gDragPoints[i], mousePt);
                 if (distance < bestDistance) {
                     gDragIndex = i;
                     bestDistance = distance;
                 }
             }
             return gDragIndex != -1;
         }
     } else {
         // Currently dragging
         SkASSERT(gDragIndex < gDragPoints.count());
         gDragPoints[gDragIndex]->set(x, y);
         if (state == Window::kUp_InputState) {
             gDragIndex = -1;
         }
         return true;
     }
     return false;
 }
	/*
	* Copyright 2019 Google LLC
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "ParticlesSlide.h"

	#include "ImGuiLayer.h"
	#include "SkParticleAffector.h"
	#include "SkParticleEffect.h"
	#include "SkParticleEmitter.h"
	#include "SkParticleSerialization.h"
	#include "SkReflected.h"

	#include "imgui.h"

	using namespace sk_app;

	namespace {

	static SkScalar kDragSize = 8.0f;
	static SkTArray<SkPoint*> gDragPoints;
	int gDragIndex = -1;

	}

	///////////////////////////////////////////////////////////////////////////////

	static int InputTextCallback(ImGuiInputTextCallbackData* data) {
	if (data->EventFlag == ImGuiInputTextFlags_CallbackResize) {
	SkString* s = (SkString*)data->UserData;
	SkASSERT(data->Buf == s->writable_str());
	SkString tmp(data->Buf, data->BufTextLen);
	s->swap(tmp);
	data->Buf = s->writable_str();
	}
	return 0;
	}

	class SkGuiVisitor : public SkFieldVisitor {
	public:
	SkGuiVisitor() {
	fTreeStack.push_back(true);
	}

	#define IF_OPEN(WIDGET) if (fTreeStack.back()) { WIDGET; }

	void visit(const char* name, float& f, SkField field) override {
	if (fTreeStack.back()) {
	if (field.fFlags & SkField::kAngle_Field) {
	ImGui::SliderAngle(item(name), &f, 0.0f);
	} else {
	ImGui::DragFloat(item(name), &f);
	}
	}
	}
	void visit(const char* name, int& i, SkField) override {
	IF_OPEN(ImGui::DragInt(item(name), &i))
	}
	void visit(const char* name, bool& b, SkField) override {
	IF_OPEN(ImGui::Checkbox(item(name), &b))
	}
	void visit(const char* name, SkString& s, SkField) override {
	if (fTreeStack.back()) {
	ImGuiInputTextFlags flags = ImGuiInputTextFlags_CallbackResize;
	ImGui::InputText(item(name), s.writable_str(), s.size() + 1, flags, InputTextCallback,
	&s);
	}
	}

	void visit(const char* name, SkPoint& p, SkField) override {
	if (fTreeStack.back()) {
	ImGui::DragFloat2(item(name), &p.fX);
	gDragPoints.push_back(&p);
	}
	}
	void visit(const char* name, SkColor4f& c, SkField) override {
	IF_OPEN(ImGui::ColorEdit4(item(name), c.vec()))
	}

	#undef IF_OPEN

	void visit(const char* name, SkCurve& c, SkField) override {
	this->enterObject(item(name));
	if (fTreeStack.back()) {
	// Get vertical extents of the curve
	SkScalar extents[2];
	c.getExtents(extents);

	// Grow the extents by 10%, at least 1.0f
	SkScalar grow = SkTMax((extents[1] - extents[0]) * 0.1f, 1.0f);
	extents[0] -= grow;
	extents[1] += grow;

	{
	ImGui::DragCanvas dc(&c, { 0.0f, extents[1] }, { 1.0f, extents[0] }, 0.5f);
	dc.fillColor(IM_COL32(0, 0, 0, 128));

	for (int i = 0; i < c.fSegments.count(); ++i) {
	SkSTArray<8, ImVec2, true> pts;
	SkScalar rangeMin = (i == 0) ? 0.0f : c.fXValues[i - 1];
	SkScalar rangeMax = (i == c.fXValues.count()) ? 1.0f : c.fXValues[i];
	auto screenPoint = [&](int idx, bool useMax) {
	SkScalar xVal = rangeMin + (idx / 3.0f) * (rangeMax - rangeMin);
	SkScalar* yVals = useMax ? c.fSegments[i].fMax : c.fSegments[i].fMin;
	SkScalar yVal = yVals[c.fSegments[i].fConstant ? 0 : idx];
	SkPoint pt = dc.fLocalToScreen.mapXY(xVal, yVal);
	return ImVec2(pt.fX, pt.fY);
	};
	for (int i = 0; i < 4; ++i) {
	pts.push_back(screenPoint(i, false));
	}
	if (c.fSegments[i].fRanged) {
	for (int i = 3; i >= 0; --i) {
	pts.push_back(screenPoint(i, true));
	}
	}

	if (c.fSegments[i].fRanged) {
	dc.fDrawList->PathLineTo(pts[0]);
	dc.fDrawList->PathBezierCurveTo(pts[1], pts[2], pts[3]);
	dc.fDrawList->PathLineTo(pts[4]);
	dc.fDrawList->PathBezierCurveTo(pts[5], pts[6], pts[7]);
	dc.fDrawList->PathFillConvex(IM_COL32(255, 255, 255, 128));
	} else {
	dc.fDrawList->AddBezierCurve(pts[0], pts[1], pts[2], pts[3],
	IM_COL32(255, 255, 255, 255), 1.0f);
	}
	}
	}
	c.visitFields(this);
	}
	this->exitObject();
	}

	void visit(sk_sp<SkReflected>& e, const SkReflected::Type* baseType) override {
	if (fTreeStack.back()) {
	const SkReflected::Type* curType = e ? e->getType() : nullptr;
	if (ImGui::BeginCombo("Type", curType ? curType->fName : "Null")) {
	auto visitType = [curType,&e](const SkReflected::Type* t) {
	if (ImGui::Selectable(t->fName, curType == t)) {
	e = t->fFactory();
	}
	};
	SkReflected::VisitTypes(visitType, baseType);
	ImGui::EndCombo();
	}
	}
	}

	void enterObject(const char* name) override {
	if (fTreeStack.back()) {
	fTreeStack.push_back(ImGui::TreeNodeEx(item(name),
	ImGuiTreeNodeFlags_AllowItemOverlap));
	} else {
	fTreeStack.push_back(false);
	}
	}
	void exitObject() override {
	if (fTreeStack.back()) {
	ImGui::TreePop();
	}
	fTreeStack.pop_back();
	}

	int enterArray(const char* name, int oldCount) override {
	this->enterObject(item(name));
	fArrayCounterStack.push_back(0);
	fArrayEditStack.push_back();

	int count = oldCount;
	if (fTreeStack.back()) {
	ImGui::SameLine();
	if (ImGui::Button("+")) {
	++count;
	}
	}
	return count;
	}
	ArrayEdit exitArray() override {
	fArrayCounterStack.pop_back();
	auto edit = fArrayEditStack.back();
	fArrayEditStack.pop_back();
	this->exitObject();
	return edit;
	}

	private:
	const char* item(const char* name) {
	if (name) {
	return name;
	}

	// We're in an array. Add extra controls and a dynamic label.
	int index = fArrayCounterStack.back()++;
	ArrayEdit& edit(fArrayEditStack.back());
	fScratchLabel = SkStringPrintf("[%d]", index);

	ImGui::PushID(index);

	if (ImGui::Button("X")) {
	edit.fVerb = ArrayEdit::Verb::kRemove;
	edit.fIndex = index;
	}
	ImGui::SameLine();
	if (ImGui::Button("^")) {
	edit.fVerb = ArrayEdit::Verb::kMoveForward;
	edit.fIndex = index;
	}
	ImGui::SameLine();
	if (ImGui::Button("v")) {
	edit.fVerb = ArrayEdit::Verb::kMoveForward;
	edit.fIndex = index + 1;
	}
	ImGui::SameLine();

	ImGui::PopID();

	return fScratchLabel.c_str();
	}

	SkSTArray<16, bool, true> fTreeStack;
	SkSTArray<16, int, true> fArrayCounterStack;
	SkSTArray<16, ArrayEdit, true> fArrayEditStack;
	SkString fScratchLabel;
	};

	static sk_sp<SkParticleEffectParams> LoadEffectParams(const char* filename) {
	sk_sp<SkParticleEffectParams> params(new SkParticleEffectParams());
	if (auto fileData = SkData::MakeFromFileName(filename)) {
	skjson::DOM dom(static_cast<const char*>(fileData->data()), fileData->size());
	SkFromJsonVisitor fromJson(dom.root());
	params->visitFields(&fromJson);
	}
	return params;
	}

	ParticlesSlide::ParticlesSlide() {
	// Register types for serialization
	REGISTER_REFLECTED(SkReflected);
	SkParticleAffector::RegisterAffectorTypes();
	SkParticleEmitter::RegisterEmitterTypes();
	fName = "Particles";
	}

	void ParticlesSlide::load(SkScalar winWidth, SkScalar winHeight) {
	fEffect.reset(new SkParticleEffect(LoadEffectParams("resources/particles/default.json"),
	fRandom));
	}

	void ParticlesSlide::draw(SkCanvas* canvas) {
	canvas->clear(0);

	gDragPoints.reset();
	if (ImGui::Begin("Particles")) {
	static bool looped = true;
	ImGui::Checkbox("Looped", &looped);
	if (fTimer && ImGui::Button("Play")) {
	fEffect->start(*fTimer, looped);
	}
	static char filename[64] = "resources/particles/default.json";
	ImGui::InputText("Filename", filename, sizeof(filename));
	if (ImGui::Button("Load")) {
	if (auto newParams = LoadEffectParams(filename)) {
	fEffect.reset(new SkParticleEffect(std::move(newParams), fRandom));
	}
	}
	ImGui::SameLine();

	if (ImGui::Button("Save")) {
	SkFILEWStream fileStream(filename);
	if (fileStream.isValid()) {
	SkJSONWriter writer(&fileStream, SkJSONWriter::Mode::kPretty);
	SkToJsonVisitor toJson(writer);
	writer.beginObject();
	fEffect->getParams()->visitFields(&toJson);
	writer.endObject();
	writer.flush();
	fileStream.flush();
	} else {
	SkDebugf("Failed to open file\n");
	}
	}

	SkGuiVisitor gui;
	fEffect->getParams()->visitFields(&gui);
	}
	ImGui::End();

	SkPaint dragPaint;
	dragPaint.setColor(SK_ColorLTGRAY);
	dragPaint.setAntiAlias(true);
	SkPaint dragHighlight;
	dragHighlight.setStyle(SkPaint::kStroke_Style);
	dragHighlight.setColor(SK_ColorGREEN);
	dragHighlight.setStrokeWidth(2);
	dragHighlight.setAntiAlias(true);
	for (int i = 0; i < gDragPoints.count(); ++i) {
	canvas->drawCircle(*gDragPoints[i], kDragSize, dragPaint);
	if (gDragIndex == i) {
	canvas->drawCircle(*gDragPoints[i], kDragSize, dragHighlight);
	}
	}
	fEffect->draw(canvas);
	}

	bool ParticlesSlide::animate(const SkAnimTimer& timer) {
	fTimer = &timer;
	fEffect->update(timer);
	return true;
	}

	bool ParticlesSlide::onMouse(SkScalar x, SkScalar y, Window::InputState state, uint32_t modifiers) {
	if (gDragIndex == -1) {
	if (state == Window::kDown_InputState) {
	float bestDistance = kDragSize;
	SkPoint mousePt = { x, y };
	for (int i = 0; i < gDragPoints.count(); ++i) {
	float distance = SkPoint::Distance(*gDragPoints[i], mousePt);
	if (distance < bestDistance) {
	gDragIndex = i;
	bestDistance = distance;
	}
	}
	return gDragIndex != -1;
	}
	} else {
	// Currently dragging
	SkASSERT(gDragIndex < gDragPoints.count());
	gDragPoints[gDragIndex]->set(x, y);
	if (state == Window::kUp_InputState) {
	gDragIndex = -1;
	}
	return true;
	}
	return false;
	}