//======= Copyright (c) Stereolabs Corporation, All rights reserved. ===============
using UnityEngine;
using UnityEditor;
/// <summary>
/// Custom editor used by ZEDManager to extend the default panel shown in the Inspector.
/// Adds the camera status boxes, the button on the bottom to open camera settings, and a button to restart the camera when
/// a settings has changed that requires it.
/// </summary>
[CustomEditor(typeof(ZEDManager)), CanEditMultipleObjects]
public class ZEDCameraEditor : Editor
{
/// <summary>
/// Reference to the ZEDManager instance we're editing.
/// </summary>
ZEDManager manager;
//Store copies of ZEDManager's fields to detect changes later with CheckChange().
//These do not need to be SerializedProperties because they're only used for checking recent changes.
sl.RESOLUTION resolution;
sl.DEPTH_MODE depthmode;
bool usespatialmemory;
//Input Prop
private SerializedProperty cameraIDProperty;
private SerializedProperty inputTypeProperty;
private SerializedProperty depthModeProperty;
private SerializedProperty usbResolutionProperty;
private SerializedProperty usbFPSProperty;
private SerializedProperty svoFileNameProperty;
private SerializedProperty svoLoopProperty;
private SerializedProperty svoRealTimeModeProperty;
private SerializedProperty pauseSVOProperty;
private SerializedProperty currentFrameSVOProperty;
private SerializedProperty maxFrameSVOProperty;
private SerializedProperty streamIPProperty;
private SerializedProperty streamPortProperty;
#if ZED_HDRP
//SRP Lighting Prop
private SerializedProperty srpShaderTypeProperty;
private SerializedProperty selfIlluminationProperty;
private SerializedProperty applyZEDNormalsProperty;
#endif
//Tracking Prop
private SerializedProperty enableTrackingProperty;
private SerializedProperty enableSMProperty;
private SerializedProperty pathSMProperty;
private SerializedProperty estimateIPProperty;
private SerializedProperty trackingIsStaticProperty;
//Rendering Prop
private SerializedProperty depthOcclusionProperty;
private SerializedProperty arpostProcessingPropery;
private SerializedProperty camBrightnessProperty;
//Recording Prop
private SerializedProperty svoOutputFileNameProperty;
private SerializedProperty svoOutputCompressionModeProperty;
private SerializedProperty svoOutputBitrateProperty;
private SerializedProperty svoOutputTargetFPSProperty;
private SerializedProperty svoOutputTranscodeProperty;
//Streaming Prop
private SerializedProperty streamingOutProperty;
private SerializedProperty streamingOutCodecProperty;
private SerializedProperty streamingOutPortProperty;
private SerializedProperty streamingOutBitrateProperty;
private SerializedProperty streamingOutGopSizeProperty;
private SerializedProperty streamingOutAdaptBitrateProperty;
private SerializedProperty streamingOutChunkSizeProperty;
private SerializedProperty streamingOutTargetFPSProperty;
//Spatial mapping prop
private string displayText = "Hide Mesh";
/// <summary>
/// Serialized version of ZEDSpatialMappingManager's range_preset property.
/// </summary>
private SerializedProperty range;
/// <summary>
/// Serialized version of ZEDSpatialMappingManager's resolution_preset property.
/// </summary>
private SerializedProperty mappingResolution;
/// <summary>
/// Serialized version of ZEDSpatialMappingManager's isFilteringEnable property.
/// </summary>
private SerializedProperty isFilteringEnable;
/// <summary>
/// Serialized version of ZEDSpatialMappingManager's filterParameters property.
/// </summary>
private SerializedProperty filterParameters;
/// <summary>
/// Serialized version of ZEDSpatialMappingManager's isTextured property.
/// </summary>
private SerializedProperty saveWhenOver;
/// <summary>
/// Serialized version of ZEDSpatialMappingManager's saveWhenOver property.
/// </summary>
private SerializedProperty isTextured;
/// <summary>
/// Layout option used to draw the '...' button for opening a File Explorer window to find a mesh file.
/// </summary>
private SerializedProperty meshPath;
//Object Detection Prop
private SerializedProperty OD_ImageSyncMode;
private SerializedProperty OD_ObjectTracking;
private SerializedProperty OD_BodyFitting;
private SerializedProperty OD_2DMask;
private SerializedProperty OD_DetectionModel;
private SerializedProperty OD_MaxRange;
private SerializedProperty OD_FilteringMode;
//Object Detection Runtime Prop
private SerializedProperty OD_VehicleDetectionConfidence;
private SerializedProperty OD_PersonDetectionConfidence;
private SerializedProperty SK_PersonDetectionConfidence;
private SerializedProperty OD_BagDetectionConfidence;
private SerializedProperty OD_AnimalDetectionConfidence;
private SerializedProperty OD_ElectronicsDetectionConfidence;
private SerializedProperty OD_FruitVegetableDetectionConfidence;
private SerializedProperty OD_SportDetectionConfidence;
private SerializedProperty OD_PersonFilter;
private SerializedProperty OD_VehicleFilter;
private SerializedProperty OD_BagFilter;
private SerializedProperty OD_AnimalFilter;
private SerializedProperty OD_ElectronicsFilter;
private SerializedProperty OD_FruitVegetableFilter;
private SerializedProperty OD_SportFilter;
/// <summary>
/// Layout option used to draw the '...' button for opening a File Explorer window to find a mesh file.
/// </summary>
private GUILayoutOption[] optionsButtonBrowse = { GUILayout.MaxWidth(30) };
private GUILayoutOption[] optionsButtonStandard = { /*GUILayout.(EditorGUIUtility.labelWidth)*/};
SerializedProperty sensingModeProperty;
SerializedProperty rightDepthProperty;
SerializedProperty maxDepthProperty;
SerializedProperty confidenceThresholdProperty;
SerializedProperty textureConfidenceThresholdProperty;
SerializedProperty enableSelfCalibrationProperty;
SerializedProperty enableIMUFusionProperty;
SerializedProperty opencvCalibFilePath;
// Rendering Prop
private int arlayer;
private SerializedProperty showarrig;
private SerializedProperty fadeinonstart;
private SerializedProperty dontdestroyonload;
private SerializedProperty enableImageEnhancementProperty;
SerializedProperty setIMUPrior;
SerializedProperty allowPassThroughProperty;
SerializedProperty greyskybox;
SerializedProperty showadvanced; //Show advanced settings or not.
SerializedProperty showSpatialMapping; //Show spatial mapping or not.
SerializedProperty showObjectDetection; //show object detection settings or not
SerializedProperty showRecording; //Show recording settings or not.
SerializedProperty showStreamingOut; //Show streaming out settings or not
SerializedProperty showcamcontrol; //Show cam control settings or not.
// Current value for camera controls
SerializedProperty videoSettingsInitModeProperty;
SerializedProperty brightnessProperty;
SerializedProperty contrastProperty;
SerializedProperty hueProperty;
SerializedProperty saturationProperty;
SerializedProperty autoGainExposureProperty;
SerializedProperty exposureProperty;
SerializedProperty gainProperty;
SerializedProperty autoWhiteBalanceProperty;
SerializedProperty whitebalanceProperty;
SerializedProperty sharpnessProperty;
SerializedProperty gammaProperty;
SerializedProperty ledStatus;
//private bool hasLoadedSettings = false;
/// <summary>
/// Whether we've set a manual value to gain and exposure or if they're in auto mode.
/// </summary>
//private bool setManualValue = true;
/// <summary>
/// Whether we've set a manual value to white balance or if it's in auto mode.
/// </summary>
//private bool setManualWhiteBalance = true;
private string[] toolbarStrings = new string[] { "USB", "SVO", "Stream" };
private string pauseText = "Pause";
private string pauseTooltip = " SVO playback or recording."; //Appended to the pause Text to make tooltip text.
private string[] filters = { "Svo files", "svo" }; //Filters used for browsing for an SVO.
private void OnEnable()
{
manager = (ZEDManager)target;
////////////////////////////////////////////////// FoldOut
showadvanced = serializedObject.FindProperty("advancedPanelOpen");
showSpatialMapping = serializedObject.FindProperty("spatialMappingFoldoutOpen");
showcamcontrol = serializedObject.FindProperty("camControlFoldoutOpen");
showRecording = serializedObject.FindProperty("recordingFoldoutOpen");
showStreamingOut = serializedObject.FindProperty("streamingOutFoldoutOpen");
showObjectDetection = serializedObject.FindProperty("objectDetectionFoldoutOpen");
resolution = manager.resolution;
depthmode = manager.depthMode;
usespatialmemory = manager.enableSpatialMemory;
//Input Serialized Properties
cameraIDProperty = serializedObject.FindProperty("cameraID");
depthModeProperty = serializedObject.FindProperty("depthMode");
inputTypeProperty = serializedObject.FindProperty("inputType");
usbResolutionProperty = serializedObject.FindProperty("resolution");
usbFPSProperty = serializedObject.FindProperty("FPS");
svoFileNameProperty = serializedObject.FindProperty("svoInputFileName");
svoLoopProperty = serializedObject.FindProperty("svoLoopBack");
svoRealTimeModeProperty = serializedObject.FindProperty("svoRealTimeMode");
streamIPProperty = serializedObject.FindProperty("streamInputIP");
streamPortProperty = serializedObject.FindProperty("streamInputPort");
pauseSVOProperty = serializedObject.FindProperty("pauseSVOReading");
currentFrameSVOProperty = serializedObject.FindProperty("currentFrame");
maxFrameSVOProperty = serializedObject.FindProperty("numberFrameMax");
#if ZED_HDRP
//SRP Lighting Serialized Property
srpShaderTypeProperty = serializedObject.FindProperty("srpShaderType");
selfIlluminationProperty = serializedObject.FindProperty("selfIllumination");
applyZEDNormalsProperty = serializedObject.FindProperty("applyZEDNormals");
#endif
//Tracking Serialized Properties
enableTrackingProperty = serializedObject.FindProperty("enableTracking");
enableSMProperty = serializedObject.FindProperty("enableSpatialMemory");
pathSMProperty = serializedObject.FindProperty("pathSpatialMemory");
estimateIPProperty = serializedObject.FindProperty("estimateInitialPosition");
trackingIsStaticProperty = serializedObject.FindProperty("trackingIsStatic");
///Rendering Serialized Properties
depthOcclusionProperty = serializedObject.FindProperty("depthOcclusion");
arpostProcessingPropery = serializedObject.FindProperty("postProcessing");
camBrightnessProperty = serializedObject.FindProperty("m_cameraBrightness");
///Spatial Mapping Serialized Properties
range = serializedObject.FindProperty("mappingRangePreset");
mappingResolution = serializedObject.FindProperty("mappingResolutionPreset");
isFilteringEnable = serializedObject.FindProperty("isMappingFilteringEnable");
filterParameters = serializedObject.FindProperty("meshFilterParameters");
isTextured = serializedObject.FindProperty("isMappingTextured");
saveWhenOver = serializedObject.FindProperty("saveMeshWhenOver");
meshPath = serializedObject.FindProperty("meshPath");
///Object Detection Serialized Properties
OD_ImageSyncMode = serializedObject.FindProperty("objectDetectionImageSyncMode");
OD_ObjectTracking = serializedObject.FindProperty("objectDetectionTracking");
OD_BodyFitting = serializedObject.FindProperty("objectDetectionBodyFitting");
OD_2DMask = serializedObject.FindProperty("objectDetection2DMask");
OD_DetectionModel = serializedObject.FindProperty("objectDetectionModel");
OD_MaxRange = serializedObject.FindProperty("objectDetectionMaxRange");
OD_FilteringMode = serializedObject.FindProperty("objectDetectionFilteringMode");
OD_PersonDetectionConfidence = serializedObject.FindProperty("OD_personDetectionConfidenceThreshold");
SK_PersonDetectionConfidence = serializedObject.FindProperty("SK_personDetectionConfidenceThreshold");
OD_VehicleDetectionConfidence = serializedObject.FindProperty("vehicleDetectionConfidenceThreshold");
OD_BagDetectionConfidence = serializedObject.FindProperty("bagDetectionConfidenceThreshold");
OD_AnimalDetectionConfidence = serializedObject.FindProperty("animalDetectionConfidenceThreshold");
OD_ElectronicsDetectionConfidence = serializedObject.FindProperty("electronicsDetectionConfidenceThreshold");
OD_FruitVegetableDetectionConfidence = serializedObject.FindProperty("fruitVegetableDetectionConfidenceThreshold");
OD_SportDetectionConfidence = serializedObject.FindProperty("sportDetectionConfidenceThreshold");
OD_PersonFilter = serializedObject.FindProperty("objectClassPersonFilter");
OD_VehicleFilter = serializedObject.FindProperty("objectClassVehicleFilter");
OD_BagFilter = serializedObject.FindProperty("objectClassBagFilter");
OD_AnimalFilter = serializedObject.FindProperty("objectClassAnimalFilter");
OD_ElectronicsFilter = serializedObject.FindProperty("objectClassElectronicsFilter");
OD_FruitVegetableFilter = serializedObject.FindProperty("objectClassFruitVegetableFilter");
OD_SportFilter = serializedObject.FindProperty("objectClassSportFilter");
//Recording Serialized Properties
svoOutputFileNameProperty = serializedObject.FindProperty("svoOutputFileName");
svoOutputCompressionModeProperty = serializedObject.FindProperty("svoOutputCompressionMode");
svoOutputBitrateProperty = serializedObject.FindProperty("svoOutputBitrate");
svoOutputTargetFPSProperty = serializedObject.FindProperty("svoOutputTargetFPS");
svoOutputTranscodeProperty = serializedObject.FindProperty("svoOutputTranscodeStreaming");
streamingOutProperty = serializedObject.FindProperty("enableStreaming");
streamingOutCodecProperty = serializedObject.FindProperty("streamingCodec");
streamingOutPortProperty = serializedObject.FindProperty("streamingPort");
streamingOutBitrateProperty = serializedObject.FindProperty("bitrate");
streamingOutGopSizeProperty = serializedObject.FindProperty("gopSize");
streamingOutAdaptBitrateProperty = serializedObject.FindProperty("adaptativeBitrate");
streamingOutChunkSizeProperty = serializedObject.FindProperty("chunkSize");
streamingOutTargetFPSProperty = serializedObject.FindProperty("streamingTargetFramerate");
///Advanced Settings Serialized Properties
arlayer = ZEDLayers.arlayer;
showarrig = serializedObject.FindProperty("showarrig");
fadeinonstart = serializedObject.FindProperty("fadeInOnStart");
greyskybox = serializedObject.FindProperty("greySkybox");
dontdestroyonload = serializedObject.FindProperty("dontDestroyOnLoad");
showarrig = serializedObject.FindProperty("showarrig");
sensingModeProperty = serializedObject.FindProperty("sensingMode");
rightDepthProperty = serializedObject.FindProperty("enableRightDepthMeasure");
maxDepthProperty = serializedObject.FindProperty("m_maxDepthRange");
confidenceThresholdProperty = serializedObject.FindProperty("m_confidenceThreshold");
textureConfidenceThresholdProperty = serializedObject.FindProperty("m_textureConfidenceThreshold");
enableSelfCalibrationProperty = serializedObject.FindProperty("enableSelfCalibration");
enableIMUFusionProperty = serializedObject.FindProperty("enableIMUFusion");
allowPassThroughProperty = serializedObject.FindProperty("allowARPassThrough");
setIMUPrior = serializedObject.FindProperty("setIMUPriorInAR");
enableImageEnhancementProperty = serializedObject.FindProperty("enableImageEnhancement");
opencvCalibFilePath = serializedObject.FindProperty("opencvCalibFile");
//Video Settings Serialized Properties
videoSettingsInitModeProperty = serializedObject.FindProperty("videoSettingsInitMode");
brightnessProperty = serializedObject.FindProperty("videoBrightness"); ;
contrastProperty = serializedObject.FindProperty("videoContrast"); ;
hueProperty = serializedObject.FindProperty("videoHue"); ;
saturationProperty = serializedObject.FindProperty("videoSaturation"); ;
autoGainExposureProperty = serializedObject.FindProperty("videoAutoGainExposure"); ;
gainProperty = serializedObject.FindProperty("videoGain"); ;
exposureProperty = serializedObject.FindProperty("videoExposure"); ;
autoWhiteBalanceProperty = serializedObject.FindProperty("videoAutoWhiteBalance"); ;
whitebalanceProperty = serializedObject.FindProperty("videoWhiteBalance"); ;
sharpnessProperty = serializedObject.FindProperty("videoSharpness");
gammaProperty = serializedObject.FindProperty("videoGamma");
ledStatus = serializedObject.FindProperty("videoLEDStatus"); ;
}
public override void OnInspectorGUI()
{
GUIStyle boldfoldout = new GUIStyle(EditorStyles.foldout);
boldfoldout.fontStyle = FontStyle.Bold;
//DrawDefaultInspector(); //Draws what you'd normally see in the inspector in absence of a custom inspector.
EditorGUIUtility.labelWidth = EditorGUIUtility.currentViewWidth * 0.4f;
///////////////////////////////////////////////////////////////
/// Inputlayout /////////////////////////////////
/////////////////////////////////////////////////////////////
GUILayout.Space(10);
EditorGUILayout.LabelField("Input", EditorStyles.boldLabel);
GUILayout.Space(5);
EditorGUI.indentLevel++;
GUIContent cameraIDLabel = new GUIContent("Camera ID", "Which ZED camera to connect to. Used when multiple ZED cameras are connected to this device.");
cameraIDProperty.enumValueIndex = (int)(sl.ZED_CAMERA_ID)EditorGUILayout.EnumPopup(cameraIDLabel, (sl.ZED_CAMERA_ID)cameraIDProperty.enumValueIndex);
GUIContent cameraDepthModeLabel = new GUIContent("Depth Mode", "Camera depth mode. Higher values increase quality at the cost of performance.");
depthModeProperty.enumValueIndex = (int)(sl.DEPTH_MODE)EditorGUILayout.EnumPopup(cameraDepthModeLabel, (sl.DEPTH_MODE)depthModeProperty.enumValueIndex);
GUILayout.Space(15);
EditorGUILayout.BeginHorizontal();
GUIContent inputTypeLabel = new GUIContent("Input Type", "Where the ZED video feed comes from.\r\n\n" +
"- USB: A live ZED camera connected to this device.\r\n\n- SVO: A video file recorded from a ZED previously.\r\n\n" +
"- Stream: A live ZED camera connected to a device elsewhere on the network.");
EditorGUILayout.LabelField(inputTypeLabel, GUILayout.Width(EditorGUIUtility.labelWidth));
GUI.enabled = !Application.isPlaying;
inputTypeProperty.intValue = GUILayout.Toolbar(inputTypeProperty.intValue, toolbarStrings, GUILayout.ExpandWidth(true));
GUI.enabled = true;
EditorGUILayout.EndHorizontal();
GUILayout.Space(5);
switch (inputTypeProperty.intValue)
{
case 0:
GUIContent cameraResolutionLabel = new GUIContent("Resolution", "Camera resolution.");
//GUI.enabled = !Application.isPlaying;
usbResolutionProperty.enumValueIndex = (int)(sl.RESOLUTION)EditorGUILayout.EnumPopup(cameraResolutionLabel, (sl.RESOLUTION)usbResolutionProperty.enumValueIndex);
//GUI.enabled = true;
GUIContent cameraFPSLabel = new GUIContent("FPS", "Desired camera FPS. Maximum FPS depends on your resolution setting:\r\n\n" +
"- HD2k: 15FPS\r\n\n- HD1080: 30FPS\r\n\n- HD720p: 60FPS\r\n\n- VGA: 100FPS");
GUI.enabled = !Application.isPlaying;
usbFPSProperty.intValue = EditorGUILayout.IntField(cameraFPSLabel, usbFPSProperty.intValue);
GUI.enabled = true;
serializedObject.ApplyModifiedProperties();
//Check if we need to restart the camera, and create a button for the user to do so.
if (Application.isPlaying && manager.IsZEDReady && CheckChange())
{
GUILayout.Space(10);
GUIStyle orangetext = new GUIStyle(EditorStyles.label);
orangetext.normal.textColor = Color.red;
orangetext.wordWrap = true;
string labeltext = "Settings have changed that require restarting the camera to apply.";
Rect labelrect = GUILayoutUtility.GetRect(new GUIContent(labeltext, ""), orangetext);
EditorGUI.LabelField(labelrect, labeltext, orangetext);
if (GUILayout.Button("Restart Camera"))
{
manager.Reset(); //Reset the ZED.
//Reset the fields now that they're synced.
resolution = manager.resolution;
depthmode = manager.depthMode;
}
}
break;
case 1:
EditorGUILayout.BeginHorizontal();
GUIContent svoFileNameLabel = new GUIContent("SVO File", "SVO file name");
GUI.enabled = !Application.isPlaying;
svoFileNameProperty.stringValue = EditorGUILayout.TextField(svoFileNameLabel, svoFileNameProperty.stringValue);
GUIContent loadSVOlabel = new GUIContent("...", "Browse for existing SVO file.");
if (GUILayout.Button(loadSVOlabel, optionsButtonBrowse))
{
svoFileNameProperty.stringValue = EditorUtility.OpenFilePanelWithFilters("Load SVO", "", filters);
}
GUI.enabled = true;
EditorGUILayout.EndHorizontal();
GUIContent svoLoopLabel = new GUIContent("Loop SVO", "Loop SVO when it reaches the end.");
svoLoopProperty.boolValue = EditorGUILayout.Toggle(svoLoopLabel, svoLoopProperty.boolValue);
GUIContent svoRealTimeModelabel = new GUIContent("Real-Time Mode", "When enabled, the time between frames comes from the actual timestamps of each frame. Otherwise, " +
"each frame is read based on the maximum FPS of the recorded resolution (ex. 30FPS for HD1080). Real-Time mode makes playback speed more true, but dropped frames result in pauses.");
svoRealTimeModeProperty.boolValue = EditorGUILayout.Toggle(svoRealTimeModelabel, svoRealTimeModeProperty.boolValue);
EditorGUI.BeginChangeCheck();
GUI.enabled = (manager.NumberFrameMax > 0);
GUIContent sliderlabel = new GUIContent("Frame ", "SVO playback position");
currentFrameSVOProperty.intValue = EditorGUILayout.IntSlider(sliderlabel, currentFrameSVOProperty.intValue, 0, maxFrameSVOProperty.intValue);
if (EditorGUI.EndChangeCheck())
{
if (manager.zedCamera != null)
{
//If the slider of frame from the SVO has moved, manually grab the frame and update the textures.
manager.zedCamera.SetSVOPosition(currentFrameSVOProperty.intValue);
if (pauseSVOProperty.boolValue)
{
manager.NeedNewFrameGrab = true;
}
}
}
GUI.enabled = false;
if (manager.zedCamera != null)
GUI.enabled = manager.zedCamera.IsCameraReady;
EditorGUILayout.BeginHorizontal();
GUILayout.Space(EditorGUIUtility.labelWidth);
pauseText = pauseSVOProperty.boolValue ? "Resume" : "Pause";
GUIContent pauselabel = new GUIContent(pauseText, pauseText + pauseTooltip);
if (GUILayout.Button(pauselabel))
{
pauseSVOProperty.boolValue = !pauseSVOProperty.boolValue;
}
EditorGUILayout.EndHorizontal();
GUI.enabled = true;
serializedObject.ApplyModifiedProperties();
break;
case 2:
GUIContent streamIPLabel = new GUIContent("IP", "IP of the host device with the ZED attached.");
GUI.enabled = !Application.isPlaying;
streamIPProperty.stringValue = EditorGUILayout.TextField(streamIPLabel, streamIPProperty.stringValue);
GUI.enabled = true;
GUIContent streamPortLabel = new GUIContent("Port", "Port where the ZED stream is sent to.");
GUI.enabled = !Application.isPlaying;
streamPortProperty.intValue = EditorGUILayout.IntField(streamPortLabel, streamPortProperty.intValue);
GUI.enabled = true;
serializedObject.ApplyModifiedProperties();
break;
}
EditorGUI.indentLevel--;
#if ZED_HDRP
///////////////////////////////////////////////////////////////
/// HDRP Lighting layout /////////////////////////////////
/////////////////////////////////////////////////////////////
GUILayout.Space(10);
EditorGUILayout.LabelField("SRP Lighting", EditorStyles.boldLabel);
GUILayout.Space(5);
EditorGUI.indentLevel++;
GUIContent shaderTypeLabel = new GUIContent("Lighting Type", "Defines the type of shader (lit or unlit) that's applied to the canvas object(s) used to display the ZED image. " +
"Lit takes into account scene lighting - it is the most realistic but harder to configure. Unlit makes the ZED image evenly lit, but lacks lighting/shadow effects.");
string[] shaderoptions = new string[5] { "Lit", "Unlit", "Lit Greenscreen", "Unlit Greenscreen", "Don't Change"};
GUI.enabled = !Application.isPlaying;
srpShaderTypeProperty.enumValueIndex = EditorGUILayout.Popup(shaderTypeLabel, srpShaderTypeProperty.enumValueIndex, shaderoptions);
GUI.enabled = true;
if (srpShaderTypeProperty.enumValueIndex == 2 || srpShaderTypeProperty.enumValueIndex == 3)
{
GUIStyle greenscreennotestyle = new GUIStyle();
greenscreennotestyle.normal.textColor = new Color(.7f, .7f, .7f);
greenscreennotestyle.wordWrap = true;
greenscreennotestyle.fontSize = 10;
greenscreennotestyle.fixedWidth = 0;
greenscreennotestyle.stretchWidth = false;
greenscreennotestyle.alignment = TextAnchor.MiddleLeft;
greenscreennotestyle.fontStyle = FontStyle.Italic;
GUILayout.Space(2);
EditorGUI.indentLevel++;
string greenscreennote = "Requires GreenScreenManager component on the ZED rig's Camera objects.";
Rect gsrect = GUILayoutUtility.GetRect(new GUIContent(greenscreennote, ""), greenscreennotestyle);
EditorGUI.LabelField(gsrect, greenscreennote, greenscreennotestyle);
GUILayout.Space(8);
EditorGUI.indentLevel--;
}
if (srpShaderTypeProperty.enumValueIndex == 0 || srpShaderTypeProperty.enumValueIndex == 2)
{
GUIContent selfIlluminationLabel = new GUIContent("Self-Illumination", "How much the ZED image should light itself via emission. " +
"Setting to zero is most realistic, but requires you to emulate the real-world lighting conditions within Unity. Higher settings cause the image " +
"to be uniformly lit, but light and shadow effects are less visible.");
selfIlluminationProperty.floatValue = EditorGUILayout.Slider(selfIlluminationLabel, selfIlluminationProperty.floatValue, 0, 1);
GUIContent applyZEDNormalsLabel = new GUIContent("ZED Normals", "Apply normals map from the ZED SDK. Causes lighting to be calculated based "
+ "on the real-world angle of the geometry, instead of treating the ZED image like a plane. However, the normals map is imperfect and can lead to noise.");
applyZEDNormalsProperty.boolValue = EditorGUILayout.Toggle(applyZEDNormalsLabel, applyZEDNormalsProperty.boolValue);
}
EditorGUI.indentLevel--;
#endif
///////////////////////////////////////////////////////////////
/// Motion Tracking layout /////////////////////////////////
/////////////////////////////////////////////////////////////
GUILayout.Space(10);
EditorGUILayout.LabelField("Motion Tracking", EditorStyles.boldLabel);
GUILayout.Space(5);
EditorGUI.indentLevel++;
GUIContent enableTrackingLabel = new GUIContent("Enable Tracking", "If enabled, the ZED will move/rotate itself using its own inside-out tracking. " +
"If false, the camera tracking will move with the VR HMD if connected and available.");
enableTrackingProperty.boolValue = EditorGUILayout.Toggle(enableTrackingLabel, enableTrackingProperty.boolValue);
GUIContent enableSMPropertyLabel = new GUIContent("Enable Spatial Memory", "Enables the spatial memory. Will detect and correct tracking drift by remembering features and anchors in the environment, "
+ "but may cause visible jumps when it happens");
enableSMProperty.boolValue = EditorGUILayout.Toggle(enableSMPropertyLabel, enableSMProperty.boolValue);
GUIContent pathSMlabel = new GUIContent("Path Spatial Memory", "If using Spatial Memory, you can specify a path to an existing .area file to start with some memory already loaded. " +
".area files are created by scanning a scene with ZEDSpatialMappingManager and saving the scan.");
pathSMProperty.stringValue = EditorGUILayout.TextField(pathSMlabel, pathSMProperty.stringValue);
GUIContent estimateIPPropertyLabel = new GUIContent("Estimate Initial Position", "Estimate initial position by detecting the floor. Leave it false if using VR Headset");
estimateIPProperty.boolValue = EditorGUILayout.Toggle(estimateIPPropertyLabel, estimateIPProperty.boolValue);
GUIContent trackingIsStaticPropertyLabel = new GUIContent("Tracking Is Static", "If true, tracking is enabled but doesn't move after initializing. " +
"Can be useful for stationary cameras where you still need tracking enabled, such as in Object Detection.");
trackingIsStaticProperty.boolValue = EditorGUILayout.Toggle(trackingIsStaticPropertyLabel, trackingIsStaticProperty.boolValue);
EditorGUI.indentLevel--;
///////////////////////////////////////////////////////////////
/// Rendering layout /////////////////////////////////
/////////////////////////////////////////////////////////////
GUILayout.Space(10);
EditorGUILayout.LabelField("Rendering", EditorStyles.boldLabel);
GUILayout.Space(5);
EditorGUI.indentLevel++;
GUIContent depthOcclusionPropertyLabel = new GUIContent("Depth Occlusion", "When enabled, the real world can occlude (cover up) virtual objects that are behind it. " +
"Otherwise, virtual objects will appear in front.");
depthOcclusionProperty.boolValue = EditorGUILayout.Toggle(depthOcclusionPropertyLabel, depthOcclusionProperty.boolValue);
GUIContent arpostProcessingProperyLabel = new GUIContent("AR Post-Processing", "Enables post-processing effects on virtual objects that blends them in with the real world.");
arpostProcessingPropery.boolValue = EditorGUILayout.Toggle(arpostProcessingProperyLabel, arpostProcessingPropery.boolValue);
GUIContent camBrightnessPropertyLabel = new GUIContent("Camera Brightness", "Brightness of the final real-world image. Default is 100. Lower to darken the environment in a realistic-looking way. " +
"This is a rendering setting that doesn't affect the raw input from the camera.");
camBrightnessProperty.intValue = EditorGUILayout.IntSlider(camBrightnessPropertyLabel, camBrightnessProperty.intValue, 0, 100);
EditorGUI.indentLevel--;
///////////////////////////////////////////////////////////////
/// Spatial Mapping layout /////////////////////////////////
/////////////////////////////////////////////////////////////
GUILayout.Space(10);
showSpatialMapping.boolValue = EditorGUILayout.Foldout(showSpatialMapping.boolValue, "Spatial Mapping", boldfoldout);
if (showSpatialMapping.boolValue)
{
EditorGUI.indentLevel++;
bool cameraIsReady = false;
if (manager)
cameraIsReady = manager.zedCamera != null ? manager.zedCamera.IsCameraReady : false;
displayText = manager.IsSpatialMappingDisplay ? "Hide Mesh" : "Display Mesh";
EditorGUILayout.BeginHorizontal();
GUILayout.Space(5);
EditorGUILayout.EndHorizontal();
GUIContent resolutionlabel = new GUIContent("Resolution", "Resolution setting for the scan. " +
"A higher resolution creates more submeshes and uses more memory, but is more accurate.");
ZEDSpatialMapping.RESOLUTION newResolution = (ZEDSpatialMapping.RESOLUTION)EditorGUILayout.EnumPopup(resolutionlabel, manager.mappingResolutionPreset);
if (newResolution != manager.mappingResolutionPreset)
{
mappingResolution.enumValueIndex = (int)newResolution;
serializedObject.ApplyModifiedProperties();
}
GUIContent rangelabel = new GUIContent("Range", "Maximum distance geometry can be from the camera to be scanned. " +
"Geometry scanned from farther away will be less accurate.");
ZEDSpatialMapping.RANGE newRange = (ZEDSpatialMapping.RANGE)EditorGUILayout.EnumPopup(rangelabel, manager.mappingRangePreset);
if (newRange != manager.mappingRangePreset)
{
range.enumValueIndex = (int)newRange;
serializedObject.ApplyModifiedProperties();
}
EditorGUILayout.BeginHorizontal();
GUIContent filteringlabel = new GUIContent("Mesh Filtering", "Whether mesh filtering is needed.");
filterParameters.enumValueIndex = (int)(sl.FILTER)EditorGUILayout.EnumPopup(filteringlabel, (sl.FILTER)filterParameters.enumValueIndex);
isFilteringEnable.boolValue = true;
EditorGUILayout.EndHorizontal();
GUI.enabled = !manager.IsMappingRunning; //Don't allow changing the texturing setting while the scan is running.
GUIContent texturedlabel = new GUIContent("Texturing", "Whether surface textures will be scanned and applied. " +
"Note that texturing will add further delay to the post-scan finalizing period.");
isTextured.boolValue = EditorGUILayout.Toggle(texturedlabel, isTextured.boolValue);
GUI.enabled = cameraIsReady; //Gray out below elements if the ZED hasn't been initialized as you can't yet start a scan.
EditorGUILayout.BeginHorizontal();
GUILayout.Space(EditorGUIUtility.labelWidth);
if (!manager.IsMappingRunning)
{
GUIContent startmappinglabel = new GUIContent("Start Spatial Mapping", "Begin the spatial mapping process.");
if (GUILayout.Button(startmappinglabel))
{
if (!manager.IsSpatialMappingDisplay)
{
manager.SwitchDisplayMeshState(true);
}
manager.StartSpatialMapping();
}
}
else
{
if (manager.IsMappingRunning && !manager.IsMappingUpdateThreadRunning || manager.IsMappingRunning && manager.IsMappingTexturingRunning)
{
GUILayout.FlexibleSpace();
GUIContent finishinglabel = new GUIContent("Spatial mapping is finishing", "Please wait - the mesh is being processed.");
GUILayout.Label(finishinglabel);
Repaint();
GUILayout.FlexibleSpace();
}
else
{
GUIContent stopmappinglabel = new GUIContent("Stop Spatial Mapping", "Ends spatial mapping and begins processing the final mesh.");
if (GUILayout.Button(stopmappinglabel))
{
manager.StopSpatialMapping();
}
}
}
EditorGUILayout.EndHorizontal();
EditorGUILayout.BeginHorizontal();
GUI.enabled = cameraIsReady;
string displaytooltip = manager.IsSpatialMappingDisplay ? "Hide the mesh from view." : "Display the hidden mesh.";
GUILayout.Space(EditorGUIUtility.labelWidth);
GUIContent displaylabel = new GUIContent(displayText, displaytooltip);
if (GUILayout.Button(displayText))
{
manager.SwitchDisplayMeshState(!manager.IsSpatialMappingDisplay);
}
EditorGUILayout.EndHorizontal();
EditorGUILayout.BeginHorizontal();
GUIContent clearMesheslabel = new GUIContent("Clear All Meshes", "Clear all meshes created with the ZED");
GUILayout.Space(EditorGUIUtility.labelWidth);
if (GUILayout.Button(clearMesheslabel))
{
manager.ClearAllMeshes();
}
EditorGUILayout.EndHorizontal();
GUI.enabled = true;
GUILayout.Space(5);
EditorGUILayout.LabelField("Storage", EditorStyles.boldLabel);
GUIContent savelabel = new GUIContent("Save Mesh (when finished)", "Whether to save the mesh and .area file when finished scanning.");
saveWhenOver.boolValue = EditorGUILayout.Toggle(savelabel, saveWhenOver.boolValue);
EditorGUILayout.BeginHorizontal();
GUIContent pathlabel = new GUIContent("Mesh Path", "Path where the mesh is saved/loaded from. Valid file types are .obj, .ply and .bin.");
meshPath.stringValue = EditorGUILayout.TextField(pathlabel, meshPath.stringValue);
GUIContent findfilelabel = new GUIContent("...", "Browse for an existing .obj, .ply or .bin file.");
if (GUILayout.Button(findfilelabel, optionsButtonBrowse))
{
meshPath.stringValue = EditorUtility.OpenFilePanel("Mesh file", "", "ply,obj,bin");
serializedObject.ApplyModifiedProperties();
}
EditorGUILayout.EndHorizontal();
EditorGUILayout.BeginHorizontal();
GUILayout.FlexibleSpace();
GUI.enabled = System.IO.File.Exists(meshPath.stringValue) && cameraIsReady;
GUIContent loadlabel = new GUIContent("Load", "Load an existing mesh and .area file into the scene.");
if (GUILayout.Button(loadlabel))
{
manager.LoadMesh(meshPath.stringValue);
}
EditorGUILayout.EndHorizontal();
GUI.enabled = true;
EditorGUI.indentLevel--;
}
serializedObject.ApplyModifiedProperties();
///////////////////////////////////////////////////////////////
/// Object Detection layout /////////////////////////////////
/////////////////////////////////////////////////////////////
GUILayout.Space(10);
showObjectDetection.boolValue = EditorGUILayout.Foldout(showObjectDetection.boolValue, "Object Detection / Body Tracking", boldfoldout);
if (showObjectDetection.boolValue)
{
bool cameraIsReady = false;
if (manager)
cameraIsReady = manager.zedCamera != null ? manager.zedCamera.IsCameraReady : false;
GUILayout.Space(10);
EditorGUILayout.LabelField("Detection Mode", EditorStyles.boldLabel);
GUILayout.Space(5);
EditorGUI.indentLevel++;
GUIContent ObjectDetectionModelLabel = new GUIContent("Object Detection Model", "Select the available object detection model. HUMAN_XXX for skeleton tracking");
OD_DetectionModel.enumValueIndex = (int)(sl.DETECTION_MODEL)EditorGUILayout.EnumPopup(ObjectDetectionModelLabel, (sl.DETECTION_MODEL)OD_DetectionModel.enumValueIndex);
EditorGUI.indentLevel--;
GUILayout.Space(10);
EditorGUILayout.LabelField("Init Parameters", EditorStyles.boldLabel);
GUILayout.Space(5);
EditorGUI.indentLevel++;
GUI.enabled = !cameraIsReady || !manager.IsObjectDetectionRunning;
GUIContent ImageSyncModeLabel = new GUIContent("Image Sync", "If enabled, object detection will be computed for each image before the next frame is available, " +
"locking the main thread if necessary.\r\n\nRecommended setting is false for real-time applications.");
OD_ImageSyncMode.boolValue = EditorGUILayout.Toggle(ImageSyncModeLabel, OD_ImageSyncMode.boolValue);
GUIContent ObjectTrackingLabel = new GUIContent("Enable Object Tracking", "Whether to track objects across multiple frames using the ZED's position relative to the floor.\r\n\n" +
"Requires tracking to be on. It's also recommended to enable Estimate Initial Position to find the floor.");
OD_ObjectTracking.boolValue = EditorGUILayout.Toggle(ObjectTrackingLabel, OD_ObjectTracking.boolValue);
if (OD_DetectionModel.enumValueIndex == (int)sl.DETECTION_MODEL.MULTI_CLASS_BOX || OD_DetectionModel.enumValueIndex == (int)sl.DETECTION_MODEL.MULTI_CLASS_BOX_MEDIUM || OD_DetectionModel.enumValueIndex == (int)sl.DETECTION_MODEL.MULTI_CLASS_BOX_ACCURATE ||
OD_DetectionModel.enumValueIndex == (int)sl.DETECTION_MODEL.CUSTOM_BOX_OBJECTS || OD_DetectionModel.enumValueIndex == (int)sl.DETECTION_MODEL.PERSON_HEAD_BOX)
{
GUIContent Object2DMaskLabel = new GUIContent("Enable 2D Mask", "Whether to calculate 2D masks for each object, showing exactly which pixels within the 2D bounding box are the object.\r\n\n" +
"Must be on when Object Detection starts. Requires more performance, so do not enable unless needed.");
OD_2DMask.boolValue = EditorGUILayout.Toggle(Object2DMaskLabel, OD_2DMask.boolValue);
}
else
{
GUIContent BodyFittingLabel = new GUIContent("Enable Body Fitting", "Defines if the body fitting will be applied.\r\n\n" +
"Requires tracking to be on. It's also recommended to enable Estimate Initial Position to find the floor.");
OD_BodyFitting.boolValue = EditorGUILayout.Toggle(BodyFittingLabel, OD_BodyFitting.boolValue);
}
GUIContent MaxRangeLabel = new GUIContent("Max Range", "Defines a upper depth range for detections.");
OD_MaxRange.floatValue = EditorGUILayout.Slider(MaxRangeLabel, OD_MaxRange.floatValue, 0, 40.0f);
GUIContent FilteringModeLabel = new GUIContent("Filtering Mode", "Defines the bounding box preprocessor used.");
OD_FilteringMode.enumValueIndex = (int)(sl.OBJECT_FILTERING_MODE)EditorGUILayout.EnumPopup(FilteringModeLabel, (sl.OBJECT_FILTERING_MODE)OD_FilteringMode.enumValueIndex);
GUI.enabled = true;
EditorGUI.indentLevel--;
GUILayout.Space(10);
if (OD_DetectionModel.enumValueIndex == (int)sl.DETECTION_MODEL.MULTI_CLASS_BOX || OD_DetectionModel.enumValueIndex == (int)sl.DETECTION_MODEL.MULTI_CLASS_BOX_MEDIUM || OD_DetectionModel.enumValueIndex == (int)sl.DETECTION_MODEL.MULTI_CLASS_BOX_ACCURATE)
{
EditorGUILayout.LabelField("Runtime Parameters", EditorStyles.boldLabel);
GUILayout.Space(5);
EditorGUI.indentLevel++;
GUIContent OD_personDetectionConfidenceThresholdLabel = new GUIContent("Person Confidence Threshold", "Detection sensitivity.Represents how sure the SDK must be that " +
"an object exists to report it.\r\n\nEx: If the threshold is 80, then only objects where the SDK is 80% sure or greater will appear in the list of detected objects.");
OD_PersonDetectionConfidence.intValue = EditorGUILayout.IntSlider(OD_personDetectionConfidenceThresholdLabel, OD_PersonDetectionConfidence.intValue, 1, 99);
GUIContent vehicleDetectionConfidenceThresholdLabel = new GUIContent("Vehicle Confidence Threshold", "Detection sensitivity.Represents how sure the SDK must be that " +
"an object exists to report it.\r\n\nEx: If the threshold is 80, then only objects where the SDK is 80% sure or greater will appear in the list of detected objects.");
OD_VehicleDetectionConfidence.intValue = EditorGUILayout.IntSlider(vehicleDetectionConfidenceThresholdLabel, OD_VehicleDetectionConfidence.intValue, 1, 99);
GUIContent bagDetectionConfidenceThresholdLabel = new GUIContent("Bag Confidence Threshold", "Detection sensitivity.Represents how sure the SDK must be that " +
"an object exists to report it.\r\n\nEx: If the threshold is 80, then only objects where the SDK is 80% sure or greater will appear in the list of detected objects.");
OD_BagDetectionConfidence.intValue = EditorGUILayout.IntSlider(bagDetectionConfidenceThresholdLabel, OD_BagDetectionConfidence.intValue, 1, 99);
GUIContent animalDetectionConfidenceThresholdLabel = new GUIContent("Animal Confidence Threshold", "Detection sensitivity.Represents how sure the SDK must be that " +
"an object exists to report it.\r\n\nEx: If the threshold is 80, then only objects where the SDK is 80% sure or greater will appear in the list of detected objects.");
OD_AnimalDetectionConfidence.intValue = EditorGUILayout.IntSlider(animalDetectionConfidenceThresholdLabel, OD_AnimalDetectionConfidence.intValue, 1, 99);
GUIContent electronicsDetectionConfidenceThresholdLabel = new GUIContent("Electronics Confidence Threshold", "Detection sensitivity.Represents how sure the SDK must be that " +
"an object exists to report it.\r\n\nEx: If the threshold is 80, then only objects where the SDK is 80% sure or greater will appear in the list of detected objects.");
OD_ElectronicsDetectionConfidence.intValue = EditorGUILayout.IntSlider(electronicsDetectionConfidenceThresholdLabel, OD_ElectronicsDetectionConfidence.intValue, 1, 99);
GUIContent fruitVegetableDetectionConfidenceThresholdLabel = new GUIContent("Fruit and Vegetable Confidence Threshold", "Detection sensitivity.Represents how sure the SDK must be that " +
"an object exists to report it.\r\n\nEx: If the threshold is 80, then only objects where the SDK is 80% sure or greater will appear in the list of detected objects.");
OD_FruitVegetableDetectionConfidence.intValue = EditorGUILayout.IntSlider(fruitVegetableDetectionConfidenceThresholdLabel, OD_FruitVegetableDetectionConfidence.intValue, 1, 99);
GUIContent sportDetectionConfidenceThresholdLabel = new GUIContent("Sport Confidence Threshold", "Detection sensitivity.Represents how sure the SDK must be that " +
"an object exists to report it.\r\n\nEx: If the threshold is 80, then only objects where the SDK is 80% sure or greater will appear in the list of detected objects.");
OD_SportDetectionConfidence.intValue = EditorGUILayout.IntSlider(sportDetectionConfidenceThresholdLabel, OD_SportDetectionConfidence.intValue, 1, 99);
GUILayout.Space(5);
GUIContent PersonFilterLabel = new GUIContent("Person Filter", "Whether to detect people during object detection.");
OD_PersonFilter.boolValue = EditorGUILayout.Toggle(PersonFilterLabel, OD_PersonFilter.boolValue);
GUIContent VehicleFilterLabel = new GUIContent("Vehicle Filter", "Whether to detect vehicles during object detection.");
OD_VehicleFilter.boolValue = EditorGUILayout.Toggle(VehicleFilterLabel, OD_VehicleFilter.boolValue);
GUIContent BagFilterLabel = new GUIContent("Bag Filter", "Whether to detect bags during object detection.");
OD_BagFilter.boolValue = EditorGUILayout.Toggle(BagFilterLabel, OD_BagFilter.boolValue);
GUIContent AnimalFilterLabel = new GUIContent("Animal Filter", "Whether to detect animals during object detection.");
OD_AnimalFilter.boolValue = EditorGUILayout.Toggle(AnimalFilterLabel, OD_AnimalFilter.boolValue);
GUIContent ElectronicsFilterLabel = new GUIContent("Electronics Filter", "Whether to detect electronics devices during object detection.");
OD_ElectronicsFilter.boolValue = EditorGUILayout.Toggle(ElectronicsFilterLabel, OD_ElectronicsFilter.boolValue);
GUIContent FruitVegetableFilterLabel = new GUIContent("Fruit and Vegetable Filter", "Whether to detect fruits and vegetablesduring object detection.");
OD_FruitVegetableFilter.boolValue = EditorGUILayout.Toggle(FruitVegetableFilterLabel, OD_FruitVegetableFilter.boolValue);
GUIContent SportFilterLabel = new GUIContent("Sport Filter", "Whether to detect sport related objects during object detection.");
OD_SportFilter.boolValue = EditorGUILayout.Toggle(SportFilterLabel, OD_SportFilter.boolValue);
EditorGUI.indentLevel--;
}
else if (OD_DetectionModel.enumValueIndex == (int)sl.DETECTION_MODEL.PERSON_HEAD_BOX)
{
EditorGUILayout.LabelField("Runtime Parameters", EditorStyles.boldLabel);
GUILayout.Space(5);
EditorGUI.indentLevel++;
GUIContent OD_personDetectionConfidenceThresholdLabel = new GUIContent("Person head Confidence Threshold", "Detection sensitivity.Represents how sure the SDK must be that " +
"an object exists to report it.\r\n\nEx: If the threshold is 80, then only objects where the SDK is 80% sure or greater will appear in the list of detected objects.");
OD_PersonDetectionConfidence.intValue = EditorGUILayout.IntSlider(OD_personDetectionConfidenceThresholdLabel, OD_PersonDetectionConfidence.intValue, 1, 99);
}
else if (OD_DetectionModel.enumValueIndex == (int)sl.DETECTION_MODEL.CUSTOM_BOX_OBJECTS) {
}
else //SKELETON
{
EditorGUILayout.LabelField("Runtime Parameters", EditorStyles.boldLabel);
GUILayout.Space(5);
EditorGUI.indentLevel++;
GUIContent SK_personDetectionConfidenceThresholdLabel = new GUIContent("Person Confidence Threshold", "Detection sensitivity.Represents how sure the SDK must be that " +
"an object exists to report it.\r\n\nEx: If the threshold is 80, then only objects where the SDK is 80% sure or greater will appear in the list of detected objects.");
SK_PersonDetectionConfidence.intValue = EditorGUILayout.IntSlider(SK_personDetectionConfidenceThresholdLabel, SK_PersonDetectionConfidence.intValue, 1, 99);
}
GUI.enabled = cameraIsReady;
GUILayout.Space(10);
if (!manager.IsObjectDetectionRunning)
{
GUIContent startODlabel = new GUIContent("Start Object Detection", "Begin the OD process.");
if (GUILayout.Button(startODlabel))
{
manager.StartObjectDetection();
}
}
else
{
GUIContent stopODlabel = new GUIContent("Stop Object Detection", "Stop the OD process.");
if (GUILayout.Button(stopODlabel))
{
manager.StopObjectDetection();
}
}
GUI.enabled = true;
}
///////////////////////////////////////////////////////////////
/// Recording layout /////////////////////////////////
/////////////////////////////////////////////////////////////
GUILayout.Space(10);
showRecording.boolValue = EditorGUILayout.Foldout(showRecording.boolValue, "Recording", boldfoldout);
if (showRecording.boolValue)
{
EditorGUI.indentLevel++;
GUILayout.Space(5);
bool cameraIsReady = false;
if (manager)
cameraIsReady = manager.zedCamera != null ? manager.zedCamera.IsCameraReady : false;
GUIContent svoOutFileNameLabel = new GUIContent("SVO File", "SVO file name");
svoOutputFileNameProperty.stringValue = EditorGUILayout.TextField(svoOutFileNameLabel, svoOutputFileNameProperty.stringValue, GUILayout.ExpandWidth(true));
GUIContent svoCompressionModeLabel = new GUIContent("SVO Compression", "SVO Compression mode for the recorded SVO file");
svoOutputCompressionModeProperty.enumValueIndex = (int)(sl.SVO_COMPRESSION_MODE)EditorGUILayout.EnumPopup(svoCompressionModeLabel, (sl.SVO_COMPRESSION_MODE)svoOutputCompressionModeProperty.enumValueIndex, GUILayout.ExpandWidth(true));
GUIContent svoOutBitrateLabel = new GUIContent("Bitrate", "Bitrate for H264/5 recording");
svoOutputBitrateProperty.intValue = EditorGUILayout.IntField(svoOutBitrateLabel, svoOutputBitrateProperty.intValue);
GUIContent svoOutTargetFPSLabel = new GUIContent("Target FPS", "Target FPS for SVO recording");
svoOutputTargetFPSProperty.intValue = EditorGUILayout.IntField(svoOutTargetFPSLabel, svoOutputTargetFPSProperty.intValue);
GUIContent svoOutputTranscodeLabel = new GUIContent("Transcode", "If streaming input, set to false to avoid transcoding (decoding+ re-encoding for SVO). Recommended to leave at false.");
svoOutputTranscodeProperty.boolValue = EditorGUILayout.Toggle(svoOutputTranscodeLabel, svoOutputTranscodeProperty.boolValue);
EditorGUILayout.BeginHorizontal();
GUI.enabled = cameraIsReady;
string recordLabel = manager.needRecordFrame ? "Stop Recording" : "Start Recording";
string recordtooltip = manager.needRecordFrame ? "Stop Recording" : "Start Recording";
GUIContent displaylabel = new GUIContent(recordLabel, recordtooltip);
GUILayout.Space(EditorGUIUtility.labelWidth);
if (GUILayout.Button(recordLabel))
{
if (manager.needRecordFrame)
{
manager.zedCamera.DisableRecording();
manager.needRecordFrame = false;
}
else
{
if (manager.zedCamera.EnableRecording(svoOutputFileNameProperty.stringValue, (sl.SVO_COMPRESSION_MODE)svoOutputCompressionModeProperty.enumValueIndex,(int)svoOutputBitrateProperty.intValue,(int)svoOutputTargetFPSProperty.intValue,svoOutputTranscodeProperty.boolValue) == sl.ERROR_CODE.SUCCESS)
manager.needRecordFrame = true;
else
{
Debug.LogError("Failed to start SVO Recording");
manager.needRecordFrame = false;
}
}
}
EditorGUI.indentLevel--;
GUI.enabled = true;
EditorGUILayout.EndHorizontal();
}
///////////////////////////////////////////////////////////////
/// Streaming Out layout /////////////////////////////////
/////////////////////////////////////////////////////////////
GUILayout.Space(10);
showStreamingOut.boolValue = EditorGUILayout.Foldout(showStreamingOut.boolValue, "Streaming", boldfoldout);
if (showStreamingOut.boolValue)
{
EditorGUI.indentLevel++;
GUILayout.Space(5);
GUIContent streamingOutPropertyLabel = new GUIContent("Enable Streaming Output", "Enable Streaming Output with below settings");
streamingOutProperty.boolValue = EditorGUILayout.Toggle(streamingOutPropertyLabel, streamingOutProperty.boolValue);
GUIContent streamingOutCodecPropertyLabel = new GUIContent("Codec", "Codec used for images compression");
streamingOutCodecProperty.enumValueIndex = (int)(sl.STREAMING_CODEC)EditorGUILayout.EnumPopup(streamingOutCodecPropertyLabel, (sl.STREAMING_CODEC)streamingOutCodecProperty.enumValueIndex);
GUIContent streamingOutPortPropertyLabel = new GUIContent("Port", "Port where stream is sent to ");
streamingOutPortProperty.intValue = EditorGUILayout.IntField(streamingOutPortPropertyLabel, streamingOutPortProperty.intValue);
GUIContent streamingOutBitratePropertyLabel = new GUIContent("Bitrate", "Target Bitrate for the codec");
streamingOutBitrateProperty.intValue = EditorGUILayout.IntField(streamingOutBitratePropertyLabel, streamingOutBitrateProperty.intValue);
GUIContent streamingOutGopSizePropertyLabel = new GUIContent("Gop", "Maximum Gop size for the codec");
streamingOutGopSizeProperty.intValue = EditorGUILayout.IntField(streamingOutGopSizePropertyLabel, streamingOutGopSizeProperty.intValue);
GUIContent streamingOutAdaptBitratePropertyLabel = new GUIContent("Adaptative Bitrate", "Adaptative bitrate for the codec");
streamingOutAdaptBitrateProperty.boolValue = EditorGUILayout.Toggle(streamingOutAdaptBitratePropertyLabel, streamingOutAdaptBitrateProperty.boolValue);
GUIContent streamingOutChunkSizePropertyLabel = new GUIContent("Payload", "Chunk size for packet streaming");
streamingOutChunkSizeProperty.intValue = EditorGUILayout.IntField(streamingOutChunkSizePropertyLabel, streamingOutChunkSizeProperty.intValue);
GUIContent streamingOutTargetFPSPropertyLabel = new GUIContent("Target FPS", "Target FPS for streaming output");
streamingOutTargetFPSProperty.intValue = EditorGUILayout.IntField(streamingOutTargetFPSPropertyLabel, streamingOutTargetFPSProperty.intValue);
EditorGUI.indentLevel--;
}
///////////////////////////////////////////////////////////////
/// Advanced Settings layout ///////////////////////////////
/////////////////////////////////////////////////////////////
GUILayout.Space(10);
showadvanced.boolValue = EditorGUILayout.Foldout(showadvanced.boolValue, "Advanced Settings", boldfoldout);
if (showadvanced.boolValue)
{
EditorGUI.indentLevel++;
GUILayout.Space(5);
GUIContent sensingModeLabel = new GUIContent("Sensing Mode", "FILL approximates depth in areas where depth can't be measured. " +
"FILL is almost always better for augmented/mixed reality applications.");
sensingModeProperty.enumValueIndex = (int)(sl.SENSING_MODE)EditorGUILayout.EnumPopup(sensingModeLabel, (sl.SENSING_MODE)sensingModeProperty.enumValueIndex);
GUIContent maxDepthPropertyLabel = new GUIContent("Max Depth Range", "Maximum depth at which the camera will display the real world, in meters. " +
"Pixels further than this value will be invisible.");
maxDepthProperty.floatValue = EditorGUILayout.Slider(maxDepthPropertyLabel, maxDepthProperty.floatValue, 0f, 40f);
GUIContent confidenceThresholdPropertyLabel = new GUIContent("Confidence Threshold", "How tolerant the ZED SDK is to low confidence values. Lower values filter more pixels based on stereo matching score.");
if (Application.isPlaying)
{
manager.confidenceThreshold = EditorGUILayout.IntSlider(confidenceThresholdPropertyLabel, manager.confidenceThreshold, 0, 100);
}
else
{
confidenceThresholdProperty.intValue = EditorGUILayout.IntSlider(confidenceThresholdPropertyLabel, confidenceThresholdProperty.intValue, 0, 100);
}
GUIContent textureConfidenceThresholdPropertyLabel = new GUIContent("Texture Confidence Threshold", "How tolerant the ZED SDK is to homogenous block. Lower values filter more pixels based on textureness.");
if (Application.isPlaying)
{
manager.textureConfidenceThreshold = EditorGUILayout.IntSlider(textureConfidenceThresholdPropertyLabel, manager.textureConfidenceThreshold, 0, 100);
}
else
{
textureConfidenceThresholdProperty.intValue = EditorGUILayout.IntSlider(textureConfidenceThresholdPropertyLabel, textureConfidenceThresholdProperty.intValue, 0, 100);
}
GUILayout.Space(12);
//Enable image enhancement toggle
EditorGUI.BeginDisabledGroup(Application.isPlaying);
GUIContent imageenhancementlabel = new GUIContent("Image Enhancement", "Whether to enable the new color/gamma curve added to the ZED SDK in v3.0.\r\n" +
"Exposes more detail in darker regions and removes a slight red bias.");
enableImageEnhancementProperty.boolValue = EditorGUILayout.Toggle(imageenhancementlabel, manager.enableImageEnhancement);
EditorGUI.EndDisabledGroup();
GUIContent enalbeIMUFusionLabel = new GUIContent("Visual-Inertial Tracking", "If true, and you are using a ZED2 or ZED Mini, IMU fusion uses data from the camera's IMU to improve tracking results. ");
enableIMUFusionProperty.boolValue = EditorGUILayout.Toggle(enalbeIMUFusionLabel, enableIMUFusionProperty.boolValue);
//Whether to enable the ZED SDK's self-calibration feature.
GUIContent enableselfcaliblabel = new GUIContent("Self-Calibration", "If true, the ZED SDK will subtly adjust the ZED's calibration " +
"during runtime to account for heat and other factors. Reasons to disable this are rare. ");
enableSelfCalibrationProperty.boolValue = EditorGUILayout.Toggle(enableselfcaliblabel, enableSelfCalibrationProperty.boolValue);
//Grey Skybox toggle.
GUIContent greyskyboxlabel = new GUIContent("Grey Out Skybox on Start", "True to set the background to a neutral gray when the scene starts.\n\r" +
"Recommended for AR so that lighting on virtual objects better matches the real world.");
greyskybox.boolValue = EditorGUILayout.Toggle(greyskyboxlabel, manager.greySkybox);
//Don't Destroy On Load toggle.
GUIContent dontdestroylabel = new GUIContent("Don't Destroy on Load", "When enabled, applies DontDestroyOnLoad() on the ZED rig in Awake(), " +
"preserving it between scene transitions.");
dontdestroyonload.boolValue = EditorGUILayout.Toggle(dontdestroylabel, manager.dontDestroyOnLoad);
GUIContent openCalibPathlabel = new GUIContent("Opencv Calibration File ", "Optional, Set an optional file path where the SDK can find a file containing the calibration information of the camera computed by OpenCV. ");
opencvCalibFilePath.stringValue = EditorGUILayout.TextField(openCalibPathlabel, opencvCalibFilePath.stringValue);
GUILayout.Space(12);
EditorGUI.indentLevel--;
EditorGUILayout.LabelField("AR Passthrough Settings", EditorStyles.boldLabel);
GUILayout.Space(5);
EditorGUI.indentLevel++;
//Style for the AR layer box.
GUIStyle layerboxstyle = new GUIStyle(EditorStyles.numberField);
layerboxstyle.fixedWidth = 30;
layerboxstyle.stretchWidth = false;
layerboxstyle.alignment = TextAnchor.MiddleCenter;
GUIStyle layerboxstylewarning = new GUIStyle(layerboxstyle);
layerboxstylewarning.normal.textColor = new Color(.9f, .9f, 0); //Red color if layer number is invalid.
GUIStyle layerboxstyleerror = new GUIStyle(layerboxstyle);
layerboxstyleerror.normal.textColor = new Color(.8f, 0, 0); //Red color if layer number is invalid.
GUIContent arlayerlabel = new GUIContent("AR Layer", "Layer that a final, normally-hidden AR rig sees. Used to confine it from the rest of the scene.\r\n " +
"You can assign this to any empty layer, and multiple ZEDs can share the same layer.");
arlayer = EditorGUILayout.IntField(arlayerlabel, ZEDLayers.arlayer, arlayer < 32 ? layerboxstyle : layerboxstyleerror);
//Show an error message if the set layer is invalid.
GUIStyle errormessagestyle = new GUIStyle(EditorStyles.label);
errormessagestyle.normal.textColor = layerboxstyleerror.normal.textColor;
errormessagestyle.wordWrap = true;
errormessagestyle.fontSize = 10;
//Show small error message if user set layer to below zero.
if (arlayer < 0)
{
string errortext = "Unity layers must be above zero to be visible.";
Rect labelrect = GUILayoutUtility.GetRect(new GUIContent(errortext, ""), errormessagestyle);
EditorGUI.LabelField(labelrect, errortext, errormessagestyle);
}
//Show small error message if user set layer higher than 31, which is invalid because Unity layers only go up to 31.
if (arlayer > 31)
{
string errortext = "Unity doesn't support layers above 31.";
Rect labelrect = GUILayoutUtility.GetRect(new GUIContent(errortext, ""), errormessagestyle);
EditorGUI.LabelField(labelrect, errortext, errormessagestyle);
}
//Show warnings if the layer is valid but not recommended.
GUIStyle warningmessagestyle = new GUIStyle(EditorStyles.label);
warningmessagestyle.normal.textColor = layerboxstylewarning.normal.textColor;
warningmessagestyle.wordWrap = true;
warningmessagestyle.fontSize = 10;
//Show small warning message if user set layer to 31, which is technically valid but Unity reserves it for other uses.
if (arlayer == 31)
{
string warningext = "Warning: Unity reserves layer 31 for previews in the editor. Assigning to layer 31 can cause conflicts.";
Rect labelrect = GUILayoutUtility.GetRect(new GUIContent(warningext, ""), warningmessagestyle);
EditorGUI.LabelField(labelrect, warningext, warningmessagestyle);
}
//Show small warning message if user set layer to 0
if (arlayer == 0)
{
string warningext = "Warning: Setting the AR rig to see the Default layer means other objects will be drawn in the background, " +
"and in unexpected positions as the AR rig position is not synced with the ZED_Rig_Stereo object.";
Rect labelrect = GUILayoutUtility.GetRect(new GUIContent(warningext, ""), warningmessagestyle);
EditorGUI.LabelField(labelrect, warningext, warningmessagestyle);
}
ZEDLayersManager.ClearLayer(ZEDLayers.ID_arlayer);
ZEDLayersManager.CreateLayer(ZEDLayers.ID_arlayer, arlayer);
//Show AR Rig toggle.
GUIContent showarlabel = new GUIContent("Show Final AR Rig", "Whether to show the hidden camera rig used in stereo AR mode to " +
"prepare images for HMD output. You normally shouldn't tamper with this rig, but seeing it can be useful for " +
"understanding how the ZED output works.");
bool lastshowar = manager.showARRig;
showarrig.boolValue = EditorGUILayout.Toggle(showarlabel, manager.showARRig);
if (showarrig.boolValue != lastshowar)
{
LayerMask arlayers = (1 << manager.arLayer);
if (showarrig.boolValue == true)
{
Tools.visibleLayers |= arlayers;
}
else
{
Tools.visibleLayers &= ~(arlayers);
}
if (manager.zedRigDisplayer != null && Application.isPlaying)
{
manager.zedRigDisplayer.hideFlags = showarrig.boolValue ? HideFlags.None : HideFlags.HideInHierarchy;
}
}
//GUILayout.Space(12);
EditorGUI.BeginDisabledGroup(Application.isPlaying);
GUIContent rightDepthLabel = new GUIContent("Enable Right Depth", "Whether to enable depth measurements from the right camera. Required for depth effects in AR pass-through, " +
"but requires performance even if not used.\r\n\n'AUTO' enables it only if a ZEDRenderingPlane component set to the right eye is detected as a child of ZEDManager's " +
"GameObject (as in the ZED rig prefabs.)");
rightDepthProperty.enumValueIndex = (int)(ZEDManager.RightDepthEnabledMode)EditorGUILayout.EnumPopup(rightDepthLabel, (ZEDManager.RightDepthEnabledMode)rightDepthProperty.enumValueIndex);
GUIContent allowPassThroughLabel = new GUIContent("Allow AR Pass-Through", "If true, the ZED rig will enter 'pass-through' mode if it detects a stereo rig - at least " +
"two cameras as children with ZEDRenderingPlane components, each with a different eye) - and a VR headset is connected. If false, it will never enter pass-through mode.");
allowPassThroughProperty.boolValue = EditorGUILayout.Toggle(allowPassThroughLabel, allowPassThroughProperty.boolValue);
//Whether to set the IMU prior in AR passthrough mode.
GUIContent setimupriorlabel = new GUIContent("Set IMU Prior in AR", "In AR pass-through mode, whether to compare the " +
"ZED's IMU data against the reported position of the VR headset. This helps compensate for drift and should " +
"usually be left on. However, in some setups, like when using a custom mount, this can cause tracking errors.");
setIMUPrior.boolValue = EditorGUILayout.Toggle(setimupriorlabel, manager.setIMUPriorInAR);
//Fade In At Start toggle.
GUIContent fadeinlabel = new GUIContent("Fade In at Start", "When enabled, makes the ZED image fade in from black when the application starts.");
fadeinonstart.boolValue = EditorGUILayout.Toggle(fadeinlabel, manager.fadeInOnStart);
GUILayout.Space(12);
GUI.enabled = true;
GUIContent camRebootButton = new GUIContent("Reboot Camera", "Reboot the camera.");
if (GUILayout.Button(camRebootButton))
{
if (Application.isPlaying && manager.zedCamera.IsCameraReady)
{
manager.Reboot();
}
}
EditorGUI.EndDisabledGroup();
EditorGUI.indentLevel--;
}
serializedObject.ApplyModifiedProperties();
///////////////////////////////////////////////////////////////
/// Camera control layout ///////////////////////////////////
/////////////////////////////////////////////////////////////
/*//TEST: Try loading starting settings.
if (Application.isPlaying && manager.zedCamera.IsCameraReady)
{
if (!hasLoadedSettings)
{
Debug.Log("Loaded settings.");
LoadCurrentVideoSettings();
hasLoadedSettings = true;
}
}
else hasLoadedSettings = false;*/
GUILayout.Space(10);
showcamcontrol.boolValue = EditorGUILayout.Foldout(showcamcontrol.boolValue, "Camera Controls", boldfoldout);
if (showcamcontrol.boolValue)
{
GUILayout.Space(5);
EditorGUI.indentLevel++;
//usbResolutionProperty.enumValueIndex = (int)(sl.RESOLUTION)EditorGUILayout.EnumPopup(cameraResolutionLabel, (sl.RESOLUTION)usbResolutionProperty.enumValueIndex);
//(ZEDManager.VideoSettingsInitMode)
GUIContent videoInitModeLabel = new GUIContent("Load From: ", "Where the ZED's settings come from when you start the scene.\r\n\n" +
"- Custom: Applies settings as set below before runtime.\r\n\n- Load From SDK: Camera will load settings last applied to the ZED. " +
"May have been from a source outside Unity.\r\n\n- Default: Camera will load default video settings.");
videoSettingsInitModeProperty.enumValueIndex = (int)(ZEDManager.VideoSettingsInitMode)EditorGUILayout.EnumPopup(videoInitModeLabel,
(ZEDManager.VideoSettingsInitMode)videoSettingsInitModeProperty.enumValueIndex);
if (manager.zedCamera == null && videoSettingsInitModeProperty.enumValueIndex != (int)ZEDManager.VideoSettingsInitMode.Custom)
GUI.enabled = false;
else
GUI.enabled = true;
EditorGUI.BeginChangeCheck();
brightnessProperty.intValue = EditorGUILayout.IntSlider("Brightness", brightnessProperty.intValue, 0, 8);
if (EditorGUI.EndChangeCheck())
{
if (manager.zedCamera != null && manager.zedCamera.IsCameraReady)
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.BRIGHTNESS, brightnessProperty.intValue);
}
EditorGUI.BeginChangeCheck();
contrastProperty.intValue = EditorGUILayout.IntSlider("Contrast", contrastProperty.intValue, 0, 8);
if (EditorGUI.EndChangeCheck())
{
if (manager.zedCamera != null && manager.zedCamera.IsCameraReady)
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.CONTRAST, contrastProperty.intValue);
}
EditorGUI.BeginChangeCheck();
hueProperty.intValue = EditorGUILayout.IntSlider("Hue", hueProperty.intValue, 0, 11);
if (EditorGUI.EndChangeCheck())
{
if (manager.zedCamera != null && manager.zedCamera.IsCameraReady)
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.HUE, hueProperty.intValue);
}
EditorGUI.BeginChangeCheck();
saturationProperty.intValue = EditorGUILayout.IntSlider("Saturation", saturationProperty.intValue, 0, 8);
if (EditorGUI.EndChangeCheck())
{
if (manager.zedCamera != null && manager.zedCamera.IsCameraReady)
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.SATURATION, saturationProperty.intValue);
}
EditorGUI.BeginChangeCheck();
sharpnessProperty.intValue = EditorGUILayout.IntSlider("Sharpness", sharpnessProperty.intValue, 0, 8);
if (EditorGUI.EndChangeCheck())
{
if (manager.zedCamera != null && manager.zedCamera.IsCameraReady)
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.SHARPNESS, sharpnessProperty.intValue);
}
EditorGUI.BeginChangeCheck();
gammaProperty.intValue = EditorGUILayout.IntSlider("Gamma", gammaProperty.intValue, 1, 9);
if (EditorGUI.EndChangeCheck())
{
if (manager.zedCamera != null && manager.zedCamera.IsCameraReady)
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.GAMMA, gammaProperty.intValue);
}
EditorGUI.BeginChangeCheck();
ledStatus.boolValue = EditorGUILayout.Toggle("LED Status", ledStatus.boolValue, EditorStyles.toggle);
if (EditorGUI.EndChangeCheck())
{
if (manager.zedCamera != null && manager.zedCamera.IsCameraReady)
{
int lst = ledStatus.boolValue ? 1 : 0;
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.LED_STATUS, lst);
}
}
EditorGUI.BeginChangeCheck();
autoGainExposureProperty.boolValue = EditorGUILayout.Toggle("AEC / AGC ", autoGainExposureProperty.boolValue, EditorStyles.toggle);
if (Application.isPlaying && manager.zedCamera != null && manager.zedCamera.IsCameraReady)
{
if (EditorGUI.EndChangeCheck())
{
if (autoGainExposureProperty.boolValue)
{
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.AEC_AGC, 1);
}
else
{
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.AEC_AGC, 0);
gainProperty.intValue = manager.zedCamera.GetCameraSettings(sl.CAMERA_SETTINGS.GAIN);
exposureProperty.intValue = manager.zedCamera.GetCameraSettings(sl.CAMERA_SETTINGS.EXPOSURE);
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.GAIN, gainProperty.intValue); //Apply last settings immediately.
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.EXPOSURE, exposureProperty.intValue);
}
}
}
GUI.enabled = !autoGainExposureProperty.boolValue;
EditorGUI.BeginChangeCheck();
EditorGUI.indentLevel++;
gainProperty.intValue = EditorGUILayout.IntSlider("Gain", gainProperty.intValue, 0, 100);
if (EditorGUI.EndChangeCheck())
{
if (manager.zedCamera != null && !autoGainExposureProperty.boolValue)
{
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.GAIN, gainProperty.intValue);
}
}
EditorGUI.BeginChangeCheck();
exposureProperty.intValue = EditorGUILayout.IntSlider("Exposure", exposureProperty.intValue, 0, 100);
if (EditorGUI.EndChangeCheck())
{
if (manager.zedCamera != null && manager.zedCamera.IsCameraReady && !autoGainExposureProperty.boolValue)
{
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.EXPOSURE, exposureProperty.intValue);
}
}
if (manager.zedCamera == null && videoSettingsInitModeProperty.enumValueIndex != (int)ZEDManager.VideoSettingsInitMode.Custom)
GUI.enabled = false;
else
GUI.enabled = true;
EditorGUI.indentLevel--;
EditorGUI.BeginChangeCheck();
autoWhiteBalanceProperty.boolValue = EditorGUILayout.Toggle(" AWB ", autoWhiteBalanceProperty.boolValue, EditorStyles.toggle);
if (Application.isPlaying && manager.zedCamera.IsCameraReady)
{
if (EditorGUI.EndChangeCheck())
{
if (autoWhiteBalanceProperty.boolValue)
{
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.AUTO_WHITEBALANCE, 1);
}
else
{
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.AUTO_WHITEBALANCE, 0);
whitebalanceProperty.intValue = manager.zedCamera.GetCameraSettings(sl.CAMERA_SETTINGS.WHITEBALANCE) * 100;
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.WHITEBALANCE, whitebalanceProperty.intValue / 100);
}
}
}
EditorGUI.indentLevel++;
GUI.enabled = !autoWhiteBalanceProperty.boolValue;
EditorGUI.BeginChangeCheck();
whitebalanceProperty.intValue = 100 * EditorGUILayout.IntSlider("White balance", whitebalanceProperty.intValue / 100, 26, 65);
if (!autoWhiteBalanceProperty.boolValue && EditorGUI.EndChangeCheck())
{
if (manager.zedCamera != null && manager.zedCamera.IsCameraReady)
manager.zedCamera.SetCameraSettings(sl.CAMERA_SETTINGS.WHITEBALANCE, whitebalanceProperty.intValue);
}
EditorGUI.indentLevel--;
EditorGUI.indentLevel--;
GUILayout.Space(7);
if (manager.zedCamera == null && videoSettingsInitModeProperty.enumValueIndex != (int)ZEDManager.VideoSettingsInitMode.Custom)
GUI.enabled = false;
else
GUI.enabled = true;
EditorGUILayout.BeginHorizontal();
GUILayout.Space(EditorGUIUtility.labelWidth);
GUIContent camcontrolbuttonreset = new GUIContent("Reset to Default", "Reset camera controls to default.");
if (GUILayout.Button(camcontrolbuttonreset))
{
if (Application.isPlaying && manager.zedCamera.IsCameraReady)
{
manager.zedCamera.ResetCameraSettings();
LoadCurrentVideoSettings();
}
else
{
brightnessProperty.intValue = sl.ZEDCamera.brightnessDefault;
contrastProperty.intValue = sl.ZEDCamera.contrastDefault;
hueProperty.intValue = sl.ZEDCamera.hueDefault;
saturationProperty.intValue = sl.ZEDCamera.saturationDefault;
autoGainExposureProperty.boolValue = true;
autoWhiteBalanceProperty.boolValue = true;
sharpnessProperty.intValue = sl.ZEDCamera.sharpnessDefault;
gammaProperty.intValue = sl.ZEDCamera.gammaDefault;
ledStatus.boolValue = true;
}
}
EditorGUILayout.EndHorizontal();
GUI.enabled = true;
}
serializedObject.ApplyModifiedProperties();
///////////////////////////////////////////////////////////////
/// Status layout //////////////////////////////////////////
/////////////////////////////////////////////////////////////
serializedObject.ApplyModifiedProperties();
GUIStyle standardStyle = new GUIStyle(EditorStyles.textField);
GUIStyle errorStyle = new GUIStyle(EditorStyles.textField);
errorStyle.normal.textColor = Color.red;
GUILayout.Space(10);
EditorGUILayout.LabelField("Status", EditorStyles.boldLabel);
EditorGUI.BeginDisabledGroup(true);
EditorGUI.indentLevel++;
GUILayout.Space(5);
GUIContent cameraModellabel = new GUIContent("Camera Model:", "Model of the targeted camera.");
EditorGUILayout.TextField(cameraModellabel, manager.cameraModel);
GUIContent cameraSerialNumberlabel = new GUIContent("Camera S/N:", "Serial number of the targeted camera.");
EditorGUILayout.TextField(cameraSerialNumberlabel, manager.cameraSerialNumber);
GUIContent cameraFWlabel = new GUIContent("Camera Firmware:", "Firmware of the targeted camera.");
EditorGUILayout.TextField(cameraFWlabel, manager.cameraFirmware);
GUIContent sdkversionlabel = new GUIContent("SDK Version:", "Version of the installed ZED SDK.");
EditorGUILayout.TextField(sdkversionlabel, manager.versionZED);
GUIContent enginefpslabel = new GUIContent("Engine FPS:", "How many frames per second the engine is rendering.");
EditorGUILayout.TextField(enginefpslabel, manager.engineFPS);
GUIContent camerafpslabel = new GUIContent("Camera FPS:", "How many images per second are received from the ZED.");
EditorGUILayout.TextField(camerafpslabel, manager.cameraFPS);
GUIContent trackingstatelabel = new GUIContent("Tracking State:", "Whether the ZED's tracking is on, off, or searching (lost position, trying to recover).");
if (manager.IsCameraTracked || !manager.IsZEDReady)
EditorGUILayout.TextField(trackingstatelabel, manager.trackingState, standardStyle);
else
EditorGUILayout.TextField(trackingstatelabel, manager.trackingState, errorStyle);
GUIContent odfpslabel = new GUIContent("Obj Detection FPS:", "How many images per second are used for OD");
EditorGUILayout.TextField(odfpslabel, manager.objectDetectionFPS);
EditorGUI.indentLevel--;
EditorGUI.EndDisabledGroup();
}
/// <summary>
/// Check if something has changed that requires restarting the camera.
/// Used to know if the Restart Camera button and a prompt to press it should be visible.
/// </summary>
/// <returns>True if a setting was changed that won't go into effect until a restart. </returns>
private bool CheckChange()
{
if (resolution != manager.resolution ||
depthmode != manager.depthMode)
{
return true;
}
else return false;
}
/// <summary>
/// If the given layer name is equal to the provided string, it clears it.
/// Used when a ZED layer is moved to a different layer.
/// </summary>
/// <param name="layer"></param>
/// <param name="constname"></param>
private void ClearLayerNameIfNeeded(int layer, string constname)
{
if (layer < 0 || layer > 31) return; //Invalid ID.
SerializedObject tagManager = new SerializedObject(AssetDatabase.LoadAllAssetsAtPath("ProjectSettings/TagManager.asset")[0]);
SerializedProperty layerNames = tagManager.FindProperty("layers");
if (layerNames.GetArrayElementAtIndex(layer).stringValue == constname)
{
layerNames.GetArrayElementAtIndex(layer).stringValue = "";
tagManager.ApplyModifiedProperties();
}
}
/// <summary>
/// Loads all current camera video settings from the ZED SDK into the buffer values (brightness, contrast, etc.)
/// </summary>
private void LoadCurrentVideoSettings()
{
brightnessProperty.intValue = manager.zedCamera.GetCameraSettings(sl.CAMERA_SETTINGS.BRIGHTNESS);
contrastProperty.intValue = manager.zedCamera.GetCameraSettings(sl.CAMERA_SETTINGS.CONTRAST);
hueProperty.intValue = manager.zedCamera.GetCameraSettings(sl.CAMERA_SETTINGS.HUE);
saturationProperty.intValue = manager.zedCamera.GetCameraSettings(sl.CAMERA_SETTINGS.SATURATION);
sharpnessProperty.intValue = manager.zedCamera.GetCameraSettings(sl.CAMERA_SETTINGS.SHARPNESS);
gammaProperty.intValue = manager.zedCamera.GetCameraSettings(sl.CAMERA_SETTINGS.GAMMA);
gainProperty.intValue = manager.zedCamera.GetCameraSettings(sl.CAMERA_SETTINGS.GAIN);
exposureProperty.intValue = manager.zedCamera.GetCameraSettings(sl.CAMERA_SETTINGS.EXPOSURE);
whitebalanceProperty.intValue = manager.zedCamera.GetCameraSettings(sl.CAMERA_SETTINGS.WHITEBALANCE);
autoGainExposureProperty.boolValue = manager.zedCamera.GetCameraSettings(sl.CAMERA_SETTINGS.AEC_AGC) == 1 ? true : false;
autoWhiteBalanceProperty.boolValue = manager.zedCamera.GetCameraSettings(sl.CAMERA_SETTINGS.AUTO_WHITEBALANCE) == 1 ? true : false;
ledStatus.boolValue = manager.zedCamera.GetCameraSettings(sl.CAMERA_SETTINGS.LED_STATUS) == 1 ? true : false;
}
}