mediapipe-rs/mediapipe/modules/face_geometry/face_geometry_from_detection.pbtxt

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2022-03-01 13:04:01 +01:00
# MediaPipe graph to extract geometry from face detection for multiple faces.
#
# It is required that "geometry_pipeline_metadata_detection.binarypb" is
# available at
# "mediapipe/modules/face_geometry/data/geometry_pipeline_metadata_detection.binarypb"
# path during execution.
#
# EXAMPLE:
# node {
# calculator: "FaceGeometryFromDetection"
# input_stream: "IMAGE_SIZE:image_size"
# input_stream: "MULTI_FACE_DETECTION:multi_face_detection"
# input_side_packet: "ENVIRONMENT:environment"
# output_stream: "MULTI_FACE_GEOMETRY:multi_face_geometry"
# }
type: "FaceGeometryFromDetection"
# The size of the input frame. The first element of the pair is the frame width;
# the other one is the frame height.
#
# The face landmarks should have been detected on a frame with the same
# ratio. If used as-is, the resulting face geometry visualization should be
# happening on a frame with the same ratio as well.
#
# (std::pair<int, int>)
input_stream: "IMAGE_SIZE:image_size"
# Collection of detected/predicted faces, each represented as a detection.
# (std::vector<DETECTION>)
input_stream: "MULTI_FACE_DETECTION:multi_face_detection"
# Environment that describes the current virtual scene.
# (face_geometry::Environment)
input_side_packet: "ENVIRONMENT:environment"
# A list of geometry data for each detected face.
# (std::vector<face_geometry::FaceGeometry>)
#
# NOTE: the triangular topology of the face meshes is only useful when derived
# from the 468 face landmarks, not from the 6 face detection landmarks
# (keypoints). The former don't cover the entire face and this mesh is
# defined here only to comply with the API. It should be considered as
# a placeholder and/or for debugging purposes.
#
# Use the face geometry derived from the face detection landmarks
# (keypoints) for the face pose transformation matrix, not the mesh.
output_stream: "MULTI_FACE_GEOMETRY:multi_face_geometry"
# Begin iterating over a vector of the face detections.
node {
calculator: "BeginLoopDetectionCalculator"
input_stream: "ITERABLE:multi_face_detection"
output_stream: "ITEM:face_detection"
output_stream: "BATCH_END:detection_timestamp"
}
# Extracts face detection keypoints as a normalized landmarks.
node {
calculator: "DetectionToLandmarksCalculator"
input_stream: "DETECTION:face_detection"
output_stream: "LANDMARKS:face_landmarks"
}
# End iterating over a vector of the face detections and receive a vector of
# face landmark lists as a result.
node {
calculator: "EndLoopNormalizedLandmarkListVectorCalculator"
input_stream: "ITEM:face_landmarks"
input_stream: "BATCH_END:detection_timestamp"
output_stream: "ITERABLE:multi_face_landmarks"
}
# Extracts face geometry for multiple faces from a vector of face detection
# landmark lists.
node {
calculator: "FaceGeometryPipelineCalculator"
input_side_packet: "ENVIRONMENT:environment"
input_stream: "IMAGE_SIZE:image_size"
input_stream: "MULTI_FACE_LANDMARKS:multi_face_landmarks"
output_stream: "MULTI_FACE_GEOMETRY:multi_face_geometry"
options: {
[mediapipe.FaceGeometryPipelineCalculatorOptions.ext] {
metadata_path: "mediapipe/modules/face_geometry/data/geometry_pipeline_metadata_detection.binarypb"
}
}
}