/// <summary>
/// Displays a GUI enabling the user to create a mesh based on the camera's Z-buffer.
/// </summary>
public override void OnInspectorGUI()
{
// Start the GUI.
GeneralToolkit.EditorStart(serializedObject, _targetObject);
// Start a change check.
EditorGUI.BeginChangeCheck();
// Enable the user to choose the camera model.
GeneralToolkit.EditorNewSection("Camera model");
CameraModelEditor.SectionCamera(_objectCameraModel);
// End the change check.
bool shouldUpdatePreview = EditorGUI.EndChangeCheck();
// Enable the user to choose parameters for depth processing.
GeneralToolkit.EditorNewSection("Depth processing parameters");
SectionDepthProcessing(_targetObject.GetCameraModel().isOmnidirectional);
// Enable the user to generate the mesh.
GeneralToolkit.EditorNewSection("Generate");
SectionGenerateButton();
// End the GUI.
GeneralToolkit.EditorEnd(serializedObject);
// If the preview window should be updated, notify the target object.
if (shouldUpdatePreview)
{
((PerViewMeshesQSTRDB)_targetObject).UpdateCameraModel();
}
}
/// <summary>
/// Displays a GUI enabling the user to modify various rendering parameters.
/// </summary>
public override void OnInspectorGUI()
{
// Start the GUI.
GeneralToolkit.EditorStart(serializedObject, _targetObject);
// Enable the user to select the source data directory.
GeneralToolkit.EditorNewSection("Source data");
SectionDataDirectory();
// Enable the user to specify launch options.
GeneralToolkit.EditorNewSection("Launch options");
SectionLaunchOptions();
// Start a change check.
EditorGUI.BeginChangeCheck();
// Enable the user to select a blending method.
GeneralToolkit.EditorNewSection("Blending method");
SectionBlendingMethod();
// Enable the user to select an evaluation method.
GeneralToolkit.EditorNewSection("Evaluation method");
SectionEvaluationMethod();
// End the change check.
bool shouldPreviewChange = EditorGUI.EndChangeCheck();
// End the GUI.
GeneralToolkit.EditorEnd(serializedObject);
// If the preview should change, inform the target object to update the preview images.
if (shouldPreviewChange)
{
_targetObject.processing.cameraSetup.onPreviewIndexChangeEvent.Invoke();
}
}
/// <summary>
/// Displays a GUI enabling the user to set up a COLIBRI VR directory structure from a set of images from the Stanford Light Field Archive.
/// </summary>
public override void OnInspectorGUI()
{
// Start the GUI.
GeneralToolkit.EditorStart(serializedObject, _targetObject);
// Enable the user to select the input directory.
GeneralToolkit.EditorNewSection("Data directory");
SectionDataDirectory();
// Enable the user to parse the camera setup from the set of images.
GeneralToolkit.EditorNewSection("Parse camera setup");
SectionParseCameraSetup();
// End the GUI.
GeneralToolkit.EditorEnd(serializedObject);
}
/// <summary>
/// Displays a GUI enabling the user to see the camera model parameters.
/// Intentionally, this interface cannot be used to modify the parameters.
/// </summary>
public override void OnInspectorGUI()
{
// Start the GUI.
GeneralToolkit.EditorStart(serializedObject, _targetObject);
bool isGUIEnabled = GUI.enabled;
GUI.enabled = false;
// Enable the user to see the camera parameters.
GeneralToolkit.EditorNewSection("Camera parameters");
SectionCamera(serializedObject);
// End the GUI.
GUI.enabled = isGUIEnabled;
GeneralToolkit.EditorEnd(serializedObject);
}
/// <summary>
/// Displays a GUI enabling the user to create a mesh based on the camera's Z-buffer.
/// </summary>
public override void OnInspectorGUI()
{
// Start the GUI.
GeneralToolkit.EditorStart(serializedObject, _targetObject);
// Start a change check.
EditorGUI.BeginChangeCheck();
// Enable the user to select the source data directory.
GeneralToolkit.EditorNewSection("Source data");
COLIBRIVR.Processing.ProcessingEditor.SectionDataDirectory(_targetProcessing);
// Enable the user to select the source camera index.
SubsectionSourceCameraIndex();
// End the change check.
bool shouldDestroyMesh = EditorGUI.EndChangeCheck();
// Enable the user to choose parameters for depth processing.
CameraModel cameraModel = _targetObject.GetCameraModel();
if (cameraModel != null)
{
GeneralToolkit.EditorNewSection("Depth processing parameters");
SectionDepthProcessing(cameraModel.isOmnidirectional);
// Enable the user to generate the mesh.
GeneralToolkit.EditorNewSection("Generate");
bool isGUIEnabled = GUI.enabled;
GUI.enabled = (_targetProcessing.sourcePerViewGeometryCount > 0);
SectionGenerateButton();
GUI.enabled = isGUIEnabled;
}
// End the GUI.
GeneralToolkit.EditorEnd(serializedObject);
// If the mesh should be destroyed, do so.
if (shouldDestroyMesh)
{
_targetObject.DestroyMesh();
}
}
/// <summary>
/// Displays a GUI enabling the user to perform various processing tasks.
/// </summary>
public override void OnInspectorGUI()
{
// Start the GUI.
GeneralToolkit.EditorStart(serializedObject, _targetObject);
// Enable the user to select the source data directory.
GeneralToolkit.EditorNewSection("Source data");
SectionDataDirectory(_targetObject);
// Enable the user to perform 3D reconstruction and simplification using external tools.
GeneralToolkit.EditorNewSection("External processing helpers");
SectionExternalTools();
// Enable the user to process the source data to create Unity assets and compress these assets into an asset bundle.
GeneralToolkit.EditorNewSection("Data processing");
SectionProcessingMethods();
SectionProcessAndBundle();
// End the GUI.
GeneralToolkit.EditorEnd(serializedObject);
}
/// <summary>
/// Displays a GUI enabling the user to modify various acquisition parameters.
/// </summary>
public override void OnInspectorGUI()
{
// Start the GUI.
GeneralToolkit.EditorStart(serializedObject, _targetObject);
// Start a change check.
EditorGUI.BeginChangeCheck();
// Enable the user to define the acquisition setup.
GeneralToolkit.EditorNewSection("Acquisition setup");
SectionSetup();
// Enable the user to define the source camera parameters.
GeneralToolkit.EditorNewSection("Camera parameters");
SectionCameraParameters();
// Enable the user to define whether geometric data is to be captured.
GeneralToolkit.EditorNewSection("Geometry acquisition");
SectionGeometry();
// End the change check. If any of the previous parameters have changed, the preview window should be updated.
bool shouldUpdatePreview = EditorGUI.EndChangeCheck();
// Enable the user to define where to store the captured data.
GeneralToolkit.EditorNewSection("Output data directory");
SectionDataDirectory();
// Provide the user with a button to launch the acquisition process.
GeneralToolkit.EditorNewSection("Acquire data");
SectionAcquire();
// End the GUI.
GeneralToolkit.EditorEnd(serializedObject);
// Inform the target object to update the displayed preview information if necessary.
if (shouldUpdatePreview)
{
_targetObject.ComputeAcquisitionCameraPoses();
_targetObject.UpdatePreviewCameraModel(false);
SceneView.RepaintAll();
}
}
/// <summary>
/// Displays a GUI enabling the user to see the current package settings.
/// Intentionally, this interface cannot be used to modify these settings.
/// </summary>
public override void OnInspectorGUI()
{
// Start the GUI.
GeneralToolkit.EditorStart(serializedObject, _targetObject);
// Indicate how to modify these settings.
EditorGUILayout.Space();
EditorGUILayout.LabelField("The settings below can be modified from the Project Settings window.", GeneralToolkit.wordWrapStyle);
EditorGUILayout.Space();
// Disable the GUI.
bool isGUIEnabled = GUI.enabled;
GUI.enabled = false;
// Enable the user to see the package's settings.
COLIBRIVRSettings.SectionPackageSettings(_targetObject);
// End the GUI.
GUI.enabled = isGUIEnabled;
GeneralToolkit.EditorEnd(serializedObject);
}