From e88fe8f8c2b0bffee3d67b73200381cde2351dab Mon Sep 17 00:00:00 2001
From: Théo de la Hogue
Date: Wed, 23 Aug 2023 13:58:16 +0200
Subject: Adding gaze analysis pipeline user guide section. Hidding older user
 guide sections.

---
 .../ar_frame_configuration_and_execution.md        |  10 +-
 .../ar_layer_configuration_and_execution.md        | 151 +++++++++++++++++++++
 .../gaze_analysis_pipeline/introduction.md         |   2 +-
 3 files changed, 157 insertions(+), 6 deletions(-)
 create mode 100644 docs/user_guide/gaze_analysis_pipeline/ar_layer_configuration_and_execution.md

(limited to 'docs/user_guide/gaze_analysis_pipeline')

diff --git a/docs/user_guide/gaze_analysis_pipeline/ar_frame_configuration_and_execution.md b/docs/user_guide/gaze_analysis_pipeline/ar_frame_configuration_and_execution.md
index 00300a8..f1264c7 100644
--- a/docs/user_guide/gaze_analysis_pipeline/ar_frame_configuration_and_execution.md
+++ b/docs/user_guide/gaze_analysis_pipeline/ar_frame_configuration_and_execution.md
@@ -3,7 +3,7 @@ Configure and execute ArFrame
 
 The [ArFrame](../../../argaze/#argaze.ArFeatures.ArFrame) class defines a rectangular area where timestamped gaze positions are projected in and inside which they need to be analyzed.
 
-![Timestamped Gaze Positions](../../img/ar_frame.png)
+![Empty frame area](../../img/ar_frame_empty.png)
 
 ## Load JSON configuration file
 
@@ -22,7 +22,7 @@ Here is a simple JSON ArFrame configuration file example:
 		}
 	},
 	"scan_path": {
-		"duration_max": 30000,
+		"duration_max": 30000
 	},
 	"scan_path_analyzers": {
 		"Basic": {},
@@ -60,7 +60,7 @@ print("heatmap:", ar_frame.heatmap)
 
 Finally, here is what the program writes in console:
 
-```
+```txt
 name: My FullHD screen
 size: [1920, 1080]
 gaze movement identifier type: <class 'argaze.GazeAnalysis.DispersionThresholdIdentification.GazeMovementIdentifier'>
@@ -88,7 +88,7 @@ The first [ArFrame](../../../argaze/#argaze.ArFeatures.ArFrame) pipeline step is
 
 The identification method can be selected by instantiating a particular [GazeMovementIdentifier](../../../argaze/#argaze.GazeFeatures.GazeMovementIdentifier) from the [argaze.GazeAnalysis](../../../argaze/#argaze.GazeAnalysis) submodule or [another python package](../advanced_topics/plugin_loading).
 
-In the example file, the choosen identification method is the [Dispersion Threshold Identification (I-DT)](../../../argaze/#argaze.GazeAnalysis.DispersionThresholdIdentification) which has two specific deviation_max_threshold and duration_min_threshold attributes.
+In the example file, the choosen identification method is the [Dispersion Threshold Identification (I-DT)](../../../argaze/#argaze.GazeAnalysis.DispersionThresholdIdentification) which has two specific *deviation_max_threshold* and *duration_min_threshold* attributes.
 
 !!! note
 	In ArGaze, [Fixation](../../../argaze/#argaze.GazeFeatures.Fixation) and [Saccade](../../../argaze/#argaze.GazeFeatures.Saccade) are considered as particular [GazeMovements](../../../argaze/#argaze.GazeFeatures.GazeMovement).
@@ -128,7 +128,7 @@ The Heatmap object have tree attributes to set its size, the sigma point spreadi
 Timestamped gaze positions have to be passed one by one to [ArFrame.look](../../../argaze/#argaze.ArFeatures.ArFrame.look) method to execute the whole intanciated pipeline.
 
 ```python
-# Assuming that timestamp gaze positions are available
+# Assuming that timestamped gaze positions are available
 ...
 
     # Look ArFrame at a timestamped gaze position
diff --git a/docs/user_guide/gaze_analysis_pipeline/ar_layer_configuration_and_execution.md b/docs/user_guide/gaze_analysis_pipeline/ar_layer_configuration_and_execution.md
new file mode 100644
index 0000000..c9ca097
--- /dev/null
+++ b/docs/user_guide/gaze_analysis_pipeline/ar_layer_configuration_and_execution.md
@@ -0,0 +1,151 @@
+Add and execute ArLayer
+=============================
+
+The [ArLayer](../../../argaze/#argaze.ArFeatures.ArLayer) class defines a space where to make matching of gaze movements and AOIs and inside which those matchings need to be analyzed.
+
+![Empty layer area](../../img/ar_layer_empty.png)
+
+## Add ArLayer to ArFrame JSON configuration file
+
+An [ArFrame](../../../argaze/#argaze.ArFeatures.ArFrame) instance can contains multiples [ArLayers](../../../argaze/#argaze.ArFeatures.ArLayer).
+
+Here is the JSON ArFrame configuration file example where one layer is added:
+
+```json
+{
+	"name": "My FullHD screen",
+	"size": [1920, 1080],
+	...
+	"layers": {
+		"MyLayer": {
+			"aoi_scene" : {
+        		"upper_left_corner": [[0, 0], [960, 0], [960, 540], [0, 540]],
+        		"upper_right_corner": [[960, 0], [1920, 0], [1920, 540], [960, 540]],
+        		"lower_left_corner": [[0, 540], [960, 540], [960, 1080], [0, 1080]],
+        		"lower_right_corner": [[960, 540], [1920, 540], [1920, 1080], [960, 1080]]
+        	},
+        	"aoi_matcher": {
+                "DeviationCircleCoverage": {
+                    "coverage_threshold": 0.5
+                }
+            },
+        	"aoi_scan_path": {
+        		"duration_max": 30000
+        	},
+			"aoi_scan_path_analyzers": {
+				"Basic": {},
+				"TransitionMatrix": {},
+				"NGram": {
+					"n_min": 3,
+					"n_max": 5
+				}
+			}
+		}
+	}
+}
+```
+
+Then, after the JSON file being loaded:
+
+```python
+from argaze import ArFeatures
+
+# Assuming the ArFrame is loaded
+...
+
+# Print ArLayer attributes
+for name, ar_layer in ar_frame.layers.items():
+
+	print("name:", ar_layer.name)
+	print("AOI scene:", ar_layer.aoi_scene)
+	print("AOI scan path:", ar_layer.aoi_scan_path)
+
+	for module, analyzer in ar_layer.aoi_scan_path_analyzers.items():
+		print('AOI scan path analyzer module:', module)
+```
+
+Finally, here is what the program writes in console:
+
+```txt
+...
+
+name: MyLayer
+AOI scene: 
+	upper_left_corner:
+[[0, 0], [960, 0], [960, 540], [0, 540]]
+	upper_right_corner:
+[[960, 0], [1920, 0], [1920, 540], [960, 540]]
+	lower_left_corner:
+[[0, 540], [960, 540], [960, 1080], [0, 1080]]
+	lower_right_corner:
+[[960, 540], [1920, 540], [1920, 1080], [960, 1080]]
+AOI scan path: []
+AOI scan path analyzer module: argaze.GazeAnalysis.Basic
+AOI scan path analyzer module: argaze.GazeAnalysis.TransitionMatrix
+AOI scan path analyzer module: argaze.GazeAnalysis.NGram
+```
+
+Now, let's understand the meaning of each JSON entry.
+
+### Name
+
+The name of the [ArLayer](../../../argaze/#argaze.ArFeatures.ArLayer). Basically useful for visualisation purpose.
+
+### AOI Scene
+
+The [AOIScene](../../../argaze/#argaze.AreaOfInterest.AOIFeatures.AOIScene) defines a set of 2D [AreaOfInterest](../../../argaze/#argaze.AreaOfInterest.AOIFeatures.AreaOfInterest) registered by name.
+
+![AOI Scene](../../img/ar_layer_aoi_scene.png)
+
+### AOI Matcher
+
+The first [ArLayer](../../../argaze/#argaze.ArFeatures.ArLayer) pipeline step aims to make match identified gaze movement with an AOI of the scene.
+
+![AOI Matcher](../../img/ar_layer_aoi_matcher.png)
+
+The matching method can be selected by instantiating a particular [AOIMatcher](../../../argaze/#argaze.GazeFeatures.AOIMatcher) from the [argaze.GazeAnalysis](../../../argaze/#argaze.GazeAnalysis) submodule or [another python package](../advanced_topics/plugin_loading).
+
+In the example file, the choosen matching method is the [Deviation Circle Coverage](../../../argaze/#argaze.GazeAnalysis.DeviationCircleCoverage) which has one specific *coverage_threshold* attribute.
+
+!!! warning
+	JSON *aoi_matcher* entry is mandatory. Otherwise, the AOIScanPath and AOIScanPathAnalyzers steps are disabled.
+
+### AOI Scan Path
+
+The second [ArLayer](../../../argaze/#argaze.ArFeatures.ArLayer) pipeline step aims to build a [AOIScanPath](../../../argaze/#argaze.GazeFeatures.AOIScanPath) defined as a list of [AOIScanSteps](../../../argaze/#argaze.GazeFeatures.AOIScanStep) made by a set of successive fixations/saccades onto a same AOI.
+
+![AOI Scan Path](../../img/ar_layer_aoi_scan_path.png)
+
+Once fixations and saccades are identified and fixations are matched to AOI, they are automatically appended to the AOIScanPath if required.
+
+The [AOIScanPath.duration_max](../../../argaze/#argaze.GazeFeatures.AOIScanPath.duration_max) attribute is the duration from which older AOI scan steps are removed each time new AOI scan steps are added.
+
+### AOI Scan Path Analyzers
+
+Finally, the last [ArLayer](../../../argaze/#argaze.ArFeatures.ArLayer) pipeline step consists in passing the previously built [AOIScanPath](../../../argaze/#argaze.GazeFeatures.AOIScanPath) to each loaded [AOIScanPathAnalyzer](../../../argaze/#argaze.GazeFeatures.AOIScanPathAnalyzer).
+
+Each analysis algorithm can be selected by instantiating a particular [AOIScanPathAnalyzer](../../../argaze/#argaze.GazeFeatures.AOIScanPathAnalyzer) from the [argaze.GazeAnalysis](../../../argaze/#argaze.GazeAnalysis) submodule or [another python package](../advanced_topics/plugin_loading).
+
+!!! note
+	JSON *aoi_scan_path* entry is not mandatory. If aoi_scan_path_analyzers entry is not empty, the AOIScanPath step is automatically enabled.
+
+## Pipeline execution
+
+Timestamped gaze movements identified by parent ArFrame are passed one by one to each [ArLayer.look](../../../argaze/#argaze.ArFeatures.ArLayer.look) method to execute each layer intanciated pipeline.
+
+```python
+# Assuming that timestamped gaze positions are available
+...
+
+    # Look ArFrame at a timestamped gaze position
+    movement, _, layers_analysis, _, _ = ar_frame.look(timestamp, gaze_position)
+
+    # Check if a movement has been identified
+    if movement.valid and movement.finished:
+
+		# Do something with each layer AOI scan path analysis
+		for layer_name, layer_aoi_scan_path_analysis in layers_analysis.items():
+			for module, analysis in layer_aoi_scan_path_analysis.items():
+				for data, value in analysis.items():
+					...
+```
diff --git a/docs/user_guide/gaze_analysis_pipeline/introduction.md b/docs/user_guide/gaze_analysis_pipeline/introduction.md
index 568cba2..ee67c9d 100644
--- a/docs/user_guide/gaze_analysis_pipeline/introduction.md
+++ b/docs/user_guide/gaze_analysis_pipeline/introduction.md
@@ -11,7 +11,7 @@ To build your own gaze analysis pipeline, you need to know:
 
 * [How to edit timestamped gaze positions](../timestamped_gaze_positions_edition),
 * [How to deal with an ArFrame instance](../ar_frame_configuration_and_execution),
-* [How to setup Areas Of Interest](../ar_frame_aoi_configuration),
+* [How to deal with an ArLayer instance](../ar_layer_configuration_and_execution),
 * [How to log resulted gaze analysis](../analysis).
 
 More advanced features are also explained like:
-- 
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