src/constraints/transform_constraint.cpp - external/github.com/rive-app/rive-cpp - Git at Google

 #include "rive/constraints/transform_constraint.hpp"
 #include "rive/transform_component.hpp"
 #include "rive/math/mat2d.hpp"
 #include <cmath>

 using namespace rive;

 void TransformConstraint::constrain(TransformComponent* component) {
     if (m_Target == nullptr) {
         return;
     }

     const Mat2D& transformA = component->worldTransform();
     Mat2D transformB(m_Target->worldTransform());
     if (sourceSpace() == TransformSpace::local) {
         const Mat2D& targetParentWorld = getParentWorld(*m_Target);

         Mat2D inverse;
         if (!targetParentWorld.invert(&inverse)) {
             return;
         }
         transformB = inverse * transformB;
     }
     if (destSpace() == TransformSpace::local) {
         const Mat2D& targetParentWorld = getParentWorld(*component);
         transformB = targetParentWorld * transformB;
     }

     m_ComponentsA = transformA.decompose();
     m_ComponentsB = transformB.decompose();

     float angleA = std::fmod(m_ComponentsA.rotation(), (float)M_PI * 2);
     float angleB = std::fmod(m_ComponentsB.rotation(), (float)M_PI * 2);
     float diff = angleB - angleA;
     if (diff > M_PI) {
         diff -= M_PI * 2;
     } else if (diff < -M_PI) {
         diff += M_PI * 2;
     }

     float t = strength();
     float ti = 1.0f - t;

     m_ComponentsB.rotation(angleA + diff * t);
     m_ComponentsB.x(m_ComponentsA.x() * ti + m_ComponentsB.x() * t);
     m_ComponentsB.y(m_ComponentsA.y() * ti + m_ComponentsB.y() * t);
     m_ComponentsB.scaleX(m_ComponentsA.scaleX() * ti + m_ComponentsB.scaleX() * t);
     m_ComponentsB.scaleY(m_ComponentsA.scaleY() * ti + m_ComponentsB.scaleY() * t);
     m_ComponentsB.skew(m_ComponentsA.skew() * ti + m_ComponentsB.skew() * t);

     component->mutableWorldTransform() = Mat2D::compose(m_ComponentsB);
 }
	#include "rive/constraints/transform_constraint.hpp"
	#include "rive/transform_component.hpp"
	#include "rive/math/mat2d.hpp"
	#include <cmath>

	using namespace rive;

	void TransformConstraint::constrain(TransformComponent* component) {
	if (m_Target == nullptr) {
	return;
	}

	const Mat2D& transformA = component->worldTransform();
	Mat2D transformB(m_Target->worldTransform());
	if (sourceSpace() == TransformSpace::local) {
	const Mat2D& targetParentWorld = getParentWorld(*m_Target);

	Mat2D inverse;
	if (!targetParentWorld.invert(&inverse)) {
	return;
	}
	transformB = inverse * transformB;
	}
	if (destSpace() == TransformSpace::local) {
	const Mat2D& targetParentWorld = getParentWorld(*component);
	transformB = targetParentWorld * transformB;
	}

	m_ComponentsA = transformA.decompose();
	m_ComponentsB = transformB.decompose();

	float angleA = std::fmod(m_ComponentsA.rotation(), (float)M_PI * 2);
	float angleB = std::fmod(m_ComponentsB.rotation(), (float)M_PI * 2);
	float diff = angleB - angleA;
	if (diff > M_PI) {
	diff -= M_PI * 2;
	} else if (diff < -M_PI) {
	diff += M_PI * 2;
	}

	float t = strength();
	float ti = 1.0f - t;

	m_ComponentsB.rotation(angleA + diff * t);
	m_ComponentsB.x(m_ComponentsA.x() * ti + m_ComponentsB.x() * t);
	m_ComponentsB.y(m_ComponentsA.y() * ti + m_ComponentsB.y() * t);
	m_ComponentsB.scaleX(m_ComponentsA.scaleX() * ti + m_ComponentsB.scaleX() * t);
	m_ComponentsB.scaleY(m_ComponentsA.scaleY() * ti + m_ComponentsB.scaleY() * t);
	m_ComponentsB.skew(m_ComponentsA.skew() * ti + m_ComponentsB.skew() * t);

	component->mutableWorldTransform() = Mat2D::compose(m_ComponentsB);
	}