rimworld-animation-studio/Library/PackageCache/com.unity.2d.pixel-perfect@2.1.0/Runtime/PixelPerfectCameraInternal.cs

using System;

namespace UnityEngine.U2D
{
    internal interface IPixelPerfectCamera
    {
        int assetsPPU { get; set; }
        int refResolutionX { get; set; }
        int refResolutionY { get; set; }
        bool upscaleRT { get; set; }
        bool pixelSnapping { get; set; }
        bool cropFrameX { get; set; }
        bool cropFrameY { get; set; }
        bool stretchFill { get; set; }
    }

    [Serializable]
    internal class PixelPerfectCameraInternal : ISerializationCallbackReceiver
    {
        // Case 1061634: 
        // In order for this class to survive hot reloading, we need to make the fields serializable.
        // Unity can't serialize an interface object, but does properly serialize UnityEngine.Object. 
        // So we cast the reference to PixelPerfectCamera (which inherits UnityEngine.Object) 
        // before serialization happens, and restore the interface reference after deserialization.
        [NonSerialized]
        IPixelPerfectCamera m_Component;

        PixelPerfectCamera m_SerializableComponent;

        internal float originalOrthoSize;
        internal bool hasPostProcessLayer;
        internal bool cropFrameXAndY = false;
        internal bool cropFrameXOrY = false;
        internal bool useStretchFill = false;
        internal int zoom = 1;
        internal bool useOffscreenRT = false;
        internal int offscreenRTWidth = 0;
        internal int offscreenRTHeight = 0;
        internal Rect pixelRect = Rect.zero;
        internal float orthoSize = 1.0f;
        internal float unitsPerPixel = 0.0f;
        internal int cinemachineVCamZoom = 1;

        internal PixelPerfectCameraInternal(IPixelPerfectCamera component)
        {
            m_Component = component;
        }

        public void OnBeforeSerialize()
        {
            m_SerializableComponent = m_Component as PixelPerfectCamera;
        }

        public void OnAfterDeserialize()
        {
            if (m_SerializableComponent != null)
                m_Component = m_SerializableComponent;
        }

        internal void CalculateCameraProperties(int screenWidth, int screenHeight)
        {
            int assetsPPU = m_Component.assetsPPU;
            int refResolutionX = m_Component.refResolutionX;
            int refResolutionY = m_Component.refResolutionY;
            bool upscaleRT = m_Component.upscaleRT;
            bool pixelSnapping = m_Component.pixelSnapping;
            bool cropFrameX = m_Component.cropFrameX;
            bool cropFrameY = m_Component.cropFrameY;
            bool stretchFill = m_Component.stretchFill;

            cropFrameXAndY = cropFrameY && cropFrameX;
            cropFrameXOrY = cropFrameY || cropFrameX;
            useStretchFill = cropFrameXAndY && stretchFill;

            // zoom level (PPU scale)
            int verticalZoom = screenHeight / refResolutionY;
            int horizontalZoom = screenWidth / refResolutionX;
            zoom = Math.Max(1, Math.Min(verticalZoom, horizontalZoom));

            // off-screen RT
            useOffscreenRT = false;
            offscreenRTWidth = 0;
            offscreenRTHeight = 0;

            if (cropFrameXOrY)
            {
                if (!upscaleRT)
                {
                    if (useStretchFill)
                    {
                        useOffscreenRT = true;
                        offscreenRTWidth = zoom * refResolutionX;
                        offscreenRTHeight = zoom * refResolutionY;
                    }
                }
                else
                {
                    useOffscreenRT = true;
                    if (cropFrameXAndY)
                    {
                        offscreenRTWidth = refResolutionX;
                        offscreenRTHeight = refResolutionY;
                    }
                    else if (cropFrameY)
                    {
                        offscreenRTWidth = screenWidth / zoom / 2 * 2;   // Make sure it's an even number by / 2 * 2.
                        offscreenRTHeight = refResolutionY;
                    }
                    else    // crop frame X
                    {
                        offscreenRTWidth = refResolutionX;
                        offscreenRTHeight = screenHeight / zoom / 2 * 2;   // Make sure it's an even number by / 2 * 2.
                    }
                }
            }
            else if (upscaleRT && zoom > 1)
            {
                useOffscreenRT = true;
                offscreenRTWidth = screenWidth / zoom / 2 * 2;        // Make sure it's an even number by / 2 * 2.
                offscreenRTHeight = screenHeight / zoom / 2 * 2;
            }

            // viewport
            pixelRect = Rect.zero;

            if (cropFrameXOrY && !upscaleRT && !useStretchFill)
            {
                if (cropFrameXAndY)
                {
                    pixelRect.width = zoom * refResolutionX;
                    pixelRect.height = zoom * refResolutionY;
                }
                else if (cropFrameY)
                {
                    pixelRect.width = screenWidth;
                    pixelRect.height = zoom * refResolutionY;
                }
                else // crop frame X
                {
                    pixelRect.width = zoom * refResolutionX;
                    pixelRect.height = screenHeight;
                }

                pixelRect.x = (screenWidth - (int)pixelRect.width) / 2;
                pixelRect.y = (screenHeight - (int)pixelRect.height) / 2;
            }
            else if (useOffscreenRT)
            {
                // When Camera.forceIntoRenderTexture is true, the size of the internal RT is determined by VP size.
                // That's why we set the VP size to be (m_OffscreenRTWidth, m_OffscreenRTHeight) here.
                pixelRect = new Rect(0.0f, 0.0f, offscreenRTWidth, offscreenRTHeight);
            }

            // orthographic size
            if (cropFrameY)
                orthoSize = (refResolutionY * 0.5f) / assetsPPU;
            else if (cropFrameX)
            {
                float aspect = (pixelRect == Rect.zero) ? (float)screenWidth / screenHeight : pixelRect.width / pixelRect.height;
                orthoSize = ((refResolutionX / aspect) * 0.5f) / assetsPPU;
            }
            else if (upscaleRT && zoom > 1)
                orthoSize = (offscreenRTHeight * 0.5f) / assetsPPU;
            else
            {
                float pixelHeight = (pixelRect == Rect.zero) ? screenHeight : pixelRect.height;
                orthoSize = (pixelHeight * 0.5f) / (zoom * assetsPPU);
            }

            // Camera pixel grid spacing
            if (upscaleRT || (!upscaleRT && pixelSnapping))
                unitsPerPixel = 1.0f / assetsPPU;
            else
                unitsPerPixel = 1.0f / (zoom * assetsPPU);
        }

        internal Rect CalculatePostRenderPixelRect(float cameraAspect, int screenWidth, int screenHeight)
        {
            // This VP is used when the internal temp RT is blitted back to screen.
            Rect pixelRect = new Rect();

            if (useStretchFill)
            {
                // stretch (fit either width or height)
                float screenAspect = (float)screenWidth / screenHeight;
                if (screenAspect > cameraAspect)
                {
                    pixelRect.height = screenHeight;
                    pixelRect.width = screenHeight * cameraAspect;
                    pixelRect.x = (screenWidth - (int)pixelRect.width) / 2;
                    pixelRect.y = 0;
                }
                else
                {
                    pixelRect.width = screenWidth;
                    pixelRect.height = screenWidth / cameraAspect;
                    pixelRect.y = (screenHeight - (int)pixelRect.height) / 2;
                    pixelRect.x = 0;
                }
            }
            else
            {
                // center
                pixelRect.height = zoom * offscreenRTHeight;
                pixelRect.width = zoom * offscreenRTWidth;
                pixelRect.x = (screenWidth - (int)pixelRect.width) / 2;
                pixelRect.y = (screenHeight - (int)pixelRect.height) / 2;
            }

            return pixelRect;
        }

        // Find a pixel-perfect orthographic size as close to targetOrthoSize as possible.
        internal float CorrectCinemachineOrthoSize(float targetOrthoSize)
        {
            float correctedOrthoSize;

            if (m_Component.upscaleRT)
            {
                cinemachineVCamZoom = Math.Max(1, Mathf.RoundToInt(orthoSize / targetOrthoSize));
                correctedOrthoSize = orthoSize / cinemachineVCamZoom;
            }
            else
            {
                cinemachineVCamZoom = Math.Max(1, Mathf.RoundToInt(zoom * orthoSize / targetOrthoSize));
                correctedOrthoSize = zoom * orthoSize / cinemachineVCamZoom;
            }

            // In this case the actual zoom level is cinemachineVCamZoom instead of zoom.
            if (!m_Component.upscaleRT && !m_Component.pixelSnapping)
                unitsPerPixel = 1.0f / (cinemachineVCamZoom * m_Component.assetsPPU);

            return correctedOrthoSize;
        }
    }
}
Initial commit 2022-09-13 05:36:34 +00:00			`using System;`

			`namespace UnityEngine.U2D`
			`{`
			`internal interface IPixelPerfectCamera`
			`{`
			`int assetsPPU { get; set; }`
			`int refResolutionX { get; set; }`
			`int refResolutionY { get; set; }`
			`bool upscaleRT { get; set; }`
			`bool pixelSnapping { get; set; }`
			`bool cropFrameX { get; set; }`
			`bool cropFrameY { get; set; }`
			`bool stretchFill { get; set; }`
			`}`

			`[Serializable]`
			`internal class PixelPerfectCameraInternal : ISerializationCallbackReceiver`
			`{`
			`// Case 1061634:`
			`// In order for this class to survive hot reloading, we need to make the fields serializable.`
			`// Unity can't serialize an interface object, but does properly serialize UnityEngine.Object.`
			`// So we cast the reference to PixelPerfectCamera (which inherits UnityEngine.Object)`
			`// before serialization happens, and restore the interface reference after deserialization.`
			`[NonSerialized]`
			`IPixelPerfectCamera m_Component;`

			`PixelPerfectCamera m_SerializableComponent;`

			`internal float originalOrthoSize;`
			`internal bool hasPostProcessLayer;`
			`internal bool cropFrameXAndY = false;`
			`internal bool cropFrameXOrY = false;`
			`internal bool useStretchFill = false;`
			`internal int zoom = 1;`
			`internal bool useOffscreenRT = false;`
			`internal int offscreenRTWidth = 0;`
			`internal int offscreenRTHeight = 0;`
			`internal Rect pixelRect = Rect.zero;`
			`internal float orthoSize = 1.0f;`
			`internal float unitsPerPixel = 0.0f;`
			`internal int cinemachineVCamZoom = 1;`

			`internal PixelPerfectCameraInternal(IPixelPerfectCamera component)`
			`{`
			`m_Component = component;`
			`}`

			`public void OnBeforeSerialize()`
			`{`
			`m_SerializableComponent = m_Component as PixelPerfectCamera;`
			`}`

			`public void OnAfterDeserialize()`
			`{`
			`if (m_SerializableComponent != null)`
			`m_Component = m_SerializableComponent;`
			`}`

			`internal void CalculateCameraProperties(int screenWidth, int screenHeight)`
			`{`
			`int assetsPPU = m_Component.assetsPPU;`
			`int refResolutionX = m_Component.refResolutionX;`
			`int refResolutionY = m_Component.refResolutionY;`
			`bool upscaleRT = m_Component.upscaleRT;`
			`bool pixelSnapping = m_Component.pixelSnapping;`
			`bool cropFrameX = m_Component.cropFrameX;`
			`bool cropFrameY = m_Component.cropFrameY;`
			`bool stretchFill = m_Component.stretchFill;`

			`cropFrameXAndY = cropFrameY && cropFrameX;`
			`cropFrameXOrY = cropFrameY \|\| cropFrameX;`
			`useStretchFill = cropFrameXAndY && stretchFill;`

			`// zoom level (PPU scale)`
			`int verticalZoom = screenHeight / refResolutionY;`
			`int horizontalZoom = screenWidth / refResolutionX;`
			`zoom = Math.Max(1, Math.Min(verticalZoom, horizontalZoom));`

			`// off-screen RT`
			`useOffscreenRT = false;`
			`offscreenRTWidth = 0;`
			`offscreenRTHeight = 0;`

			`if (cropFrameXOrY)`
			`{`
			`if (!upscaleRT)`
			`{`
			`if (useStretchFill)`
			`{`
			`useOffscreenRT = true;`
			`offscreenRTWidth = zoom * refResolutionX;`
			`offscreenRTHeight = zoom * refResolutionY;`
			`}`
			`}`
			`else`
			`{`
			`useOffscreenRT = true;`
			`if (cropFrameXAndY)`
			`{`
			`offscreenRTWidth = refResolutionX;`
			`offscreenRTHeight = refResolutionY;`
			`}`
			`else if (cropFrameY)`
			`{`
			`offscreenRTWidth = screenWidth / zoom / 2 * 2; // Make sure it's an even number by / 2 * 2.`
			`offscreenRTHeight = refResolutionY;`
			`}`
			`else // crop frame X`
			`{`
			`offscreenRTWidth = refResolutionX;`
			`offscreenRTHeight = screenHeight / zoom / 2 * 2; // Make sure it's an even number by / 2 * 2.`
			`}`
			`}`
			`}`
			`else if (upscaleRT && zoom > 1)`
			`{`
			`useOffscreenRT = true;`
			`offscreenRTWidth = screenWidth / zoom / 2 * 2; // Make sure it's an even number by / 2 * 2.`
			`offscreenRTHeight = screenHeight / zoom / 2 * 2;`
			`}`

			`// viewport`
			`pixelRect = Rect.zero;`

			`if (cropFrameXOrY && !upscaleRT && !useStretchFill)`
			`{`
			`if (cropFrameXAndY)`
			`{`
			`pixelRect.width = zoom * refResolutionX;`
			`pixelRect.height = zoom * refResolutionY;`
			`}`
			`else if (cropFrameY)`
			`{`
			`pixelRect.width = screenWidth;`
			`pixelRect.height = zoom * refResolutionY;`
			`}`
			`else // crop frame X`
			`{`
			`pixelRect.width = zoom * refResolutionX;`
			`pixelRect.height = screenHeight;`
			`}`

			`pixelRect.x = (screenWidth - (int)pixelRect.width) / 2;`
			`pixelRect.y = (screenHeight - (int)pixelRect.height) / 2;`
			`}`
			`else if (useOffscreenRT)`
			`{`
			`// When Camera.forceIntoRenderTexture is true, the size of the internal RT is determined by VP size.`
			`// That's why we set the VP size to be (m_OffscreenRTWidth, m_OffscreenRTHeight) here.`
			`pixelRect = new Rect(0.0f, 0.0f, offscreenRTWidth, offscreenRTHeight);`
			`}`

			`// orthographic size`
			`if (cropFrameY)`
			`orthoSize = (refResolutionY * 0.5f) / assetsPPU;`
			`else if (cropFrameX)`
			`{`
			`float aspect = (pixelRect == Rect.zero) ? (float)screenWidth / screenHeight : pixelRect.width / pixelRect.height;`
			`orthoSize = ((refResolutionX / aspect) * 0.5f) / assetsPPU;`
			`}`
			`else if (upscaleRT && zoom > 1)`
			`orthoSize = (offscreenRTHeight * 0.5f) / assetsPPU;`
			`else`
			`{`
			`float pixelHeight = (pixelRect == Rect.zero) ? screenHeight : pixelRect.height;`
			`orthoSize = (pixelHeight * 0.5f) / (zoom * assetsPPU);`
			`}`

			`// Camera pixel grid spacing`
			`if (upscaleRT \|\| (!upscaleRT && pixelSnapping))`
			`unitsPerPixel = 1.0f / assetsPPU;`
			`else`
			`unitsPerPixel = 1.0f / (zoom * assetsPPU);`
			`}`

			`internal Rect CalculatePostRenderPixelRect(float cameraAspect, int screenWidth, int screenHeight)`
			`{`
			`// This VP is used when the internal temp RT is blitted back to screen.`
			`Rect pixelRect = new Rect();`

			`if (useStretchFill)`
			`{`
			`// stretch (fit either width or height)`
			`float screenAspect = (float)screenWidth / screenHeight;`
			`if (screenAspect > cameraAspect)`
			`{`
			`pixelRect.height = screenHeight;`
			`pixelRect.width = screenHeight * cameraAspect;`
			`pixelRect.x = (screenWidth - (int)pixelRect.width) / 2;`
			`pixelRect.y = 0;`
			`}`
			`else`
			`{`
			`pixelRect.width = screenWidth;`
			`pixelRect.height = screenWidth / cameraAspect;`
			`pixelRect.y = (screenHeight - (int)pixelRect.height) / 2;`
			`pixelRect.x = 0;`
			`}`
			`}`
			`else`
			`{`
			`// center`
			`pixelRect.height = zoom * offscreenRTHeight;`
			`pixelRect.width = zoom * offscreenRTWidth;`
			`pixelRect.x = (screenWidth - (int)pixelRect.width) / 2;`
			`pixelRect.y = (screenHeight - (int)pixelRect.height) / 2;`
			`}`

			`return pixelRect;`
			`}`

			`// Find a pixel-perfect orthographic size as close to targetOrthoSize as possible.`
			`internal float CorrectCinemachineOrthoSize(float targetOrthoSize)`
			`{`
			`float correctedOrthoSize;`

			`if (m_Component.upscaleRT)`
			`{`
			`cinemachineVCamZoom = Math.Max(1, Mathf.RoundToInt(orthoSize / targetOrthoSize));`
			`correctedOrthoSize = orthoSize / cinemachineVCamZoom;`
			`}`
			`else`
			`{`
			`cinemachineVCamZoom = Math.Max(1, Mathf.RoundToInt(zoom * orthoSize / targetOrthoSize));`
			`correctedOrthoSize = zoom * orthoSize / cinemachineVCamZoom;`
			`}`

			`// In this case the actual zoom level is cinemachineVCamZoom instead of zoom.`
			`if (!m_Component.upscaleRT && !m_Component.pixelSnapping)`
			`unitsPerPixel = 1.0f / (cinemachineVCamZoom * m_Component.assetsPPU);`

			`return correctedOrthoSize;`
			`}`
			`}`
			`}`