mediapipe-rs/mediapipe/modules/objectron/calculators/object.proto

// Copyright 2020 The MediaPipe Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//      http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.

syntax = "proto3";

package mediapipe;

message KeyPoint {
  // The position of the keypoint in the local coordinate system of the rigid
  // object.
  float x = 1;
  float y = 2;
  float z = 3;

  // Sphere around the keypoint, indiciating annotator's confidence of the
  // position in meters.
  float confidence_radius = 4;

  // The name of the keypoint (e.g. legs, head, etc.).
  // Does not have to be unique.
  string name = 5;

  // Indicates whether the keypoint is hidden or not.
  bool hidden = 6;
}

message Object {
  // Unique object id through a sequence. There might be multiple objects of
  // the same label in this sequence.
  int32 id = 1;

  // Describes what category an object is. E.g. object class, attribute,
  // instance or person identity. This provides additional context for the
  // object type.
  string category = 2;

  enum Type {
    UNDEFINED_TYPE = 0;
    BOUNDING_BOX = 1;
    SKELETON = 2;
  }

  Type type = 3;

  // 3x3 row-major rotation matrix describing the orientation of the rigid
  // object's frame of reference in the world-coordinate system.
  repeated float rotation = 4;

  // 3x1 vector describing the translation of the rigid object's frame of
  // reference in the world-coordinate system in meters.
  repeated float translation = 5;

  // 3x1 vector describing the scale of the rigid object's frame of reference in
  // the world-coordinate system in meters.
  repeated float scale = 6;

  // List of all the key points associated with this object in the object
  // coordinate system.
  // The first keypoint is always the object's frame of reference,
  // e.g. the centroid of the box.
  // E.g. bounding box with its center as frame of reference, the 9 keypoints :
  // {0., 0., 0.},
  // {-.5, -.5, -.5}, {-.5, -.5, +.5}, {-.5, +.5, -.5}, {-.5, +.5, +.5},
  // {+.5, -.5, -.5}, {+.5, -.5, +.5}, {+.5, +.5, -.5}, {+.5, +.5, +.5}
  // To get the bounding box in the world-coordinate system, we first scale the
  // box then transform the scaled box.
  // For example, bounding box in the world coordinate system is
  // rotation * scale * keypoints + translation
  repeated KeyPoint keypoints = 7;

  // Enum to reflect how this object is created.
  enum Method {
    UNKNOWN_METHOD = 0;
    ANNOTATION = 1;    // Created by data annotation.
    AUGMENTATION = 2;  // Created by data augmentation.
  }
  Method method = 8;
}

// The edge connecting two keypoints together
message Edge {
  // keypoint id of the edge's source
  int32 source = 1;

  // keypoint id of the edge's sink
  int32 sink = 2;
}

// The skeleton template for different objects (e.g. humans, chairs, hands, etc)
// The annotation tool reads the skeleton template dictionary.
message Skeleton {
  // The origin keypoint in the object coordinate system. (i.e. Point 0, 0, 0)
  int32 reference_keypoint = 1;

  // The skeleton's category (e.g. human, chair, hand.). Should be unique in the
  // dictionary.
  string category = 2;

  // Initialization value for all the keypoints in the skeleton in the object's
  // local coordinate system. Pursuit will transform these points using object's
  // transformation to get the keypoint in the world-cooridnate.
  repeated KeyPoint keypoints = 3;

  // List of edges connecting keypoints
  repeated Edge edges = 4;
}

// The list of all the modeled skeletons in our library. These models can be
// objects (chairs, desks, etc), humans (full pose, hands, faces, etc), or box.
// We can have multiple skeletons in the same file.
message Skeletons {
  repeated Skeleton object = 1;
}
add mediapipe modules to fix examples 2022-06-11 21:25:48 +02:00			`// Copyright 2020 The MediaPipe Authors.`
			`//`
			`// Licensed under the Apache License, Version 2.0 (the "License");`
			`// you may not use this file except in compliance with the License.`
			`// You may obtain a copy of the License at`
			`//`
			`// http://www.apache.org/licenses/LICENSE-2.0`
			`//`
			`// Unless required by applicable law or agreed to in writing, software`
			`// distributed under the License is distributed on an "AS IS" BASIS,`
			`// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.`
			`// See the License for the specific language governing permissions and`
			`// limitations under the License.`

			`syntax = "proto3";`

			`package mediapipe;`

			`message KeyPoint {`
			`// The position of the keypoint in the local coordinate system of the rigid`
			`// object.`
			`float x = 1;`
			`float y = 2;`
			`float z = 3;`

			`// Sphere around the keypoint, indiciating annotator's confidence of the`
			`// position in meters.`
			`float confidence_radius = 4;`

			`// The name of the keypoint (e.g. legs, head, etc.).`
			`// Does not have to be unique.`
			`string name = 5;`

			`// Indicates whether the keypoint is hidden or not.`
			`bool hidden = 6;`
			`}`

			`message Object {`
			`// Unique object id through a sequence. There might be multiple objects of`
			`// the same label in this sequence.`
			`int32 id = 1;`

			`// Describes what category an object is. E.g. object class, attribute,`
			`// instance or person identity. This provides additional context for the`
			`// object type.`
			`string category = 2;`

			`enum Type {`
			`UNDEFINED_TYPE = 0;`
			`BOUNDING_BOX = 1;`
			`SKELETON = 2;`
			`}`

			`Type type = 3;`

			`// 3x3 row-major rotation matrix describing the orientation of the rigid`
			`// object's frame of reference in the world-coordinate system.`
			`repeated float rotation = 4;`

			`// 3x1 vector describing the translation of the rigid object's frame of`
			`// reference in the world-coordinate system in meters.`
			`repeated float translation = 5;`

			`// 3x1 vector describing the scale of the rigid object's frame of reference in`
			`// the world-coordinate system in meters.`
			`repeated float scale = 6;`

			`// List of all the key points associated with this object in the object`
			`// coordinate system.`
			`// The first keypoint is always the object's frame of reference,`
			`// e.g. the centroid of the box.`
			`// E.g. bounding box with its center as frame of reference, the 9 keypoints :`
			`// {0., 0., 0.},`
			`// {-.5, -.5, -.5}, {-.5, -.5, +.5}, {-.5, +.5, -.5}, {-.5, +.5, +.5},`
			`// {+.5, -.5, -.5}, {+.5, -.5, +.5}, {+.5, +.5, -.5}, {+.5, +.5, +.5}`
			`// To get the bounding box in the world-coordinate system, we first scale the`
			`// box then transform the scaled box.`
			`// For example, bounding box in the world coordinate system is`
			`// rotation * scale * keypoints + translation`
			`repeated KeyPoint keypoints = 7;`

			`// Enum to reflect how this object is created.`
			`enum Method {`
			`UNKNOWN_METHOD = 0;`
			`ANNOTATION = 1; // Created by data annotation.`
			`AUGMENTATION = 2; // Created by data augmentation.`
			`}`
			`Method method = 8;`
			`}`

			`// The edge connecting two keypoints together`
			`message Edge {`
			`// keypoint id of the edge's source`
			`int32 source = 1;`

			`// keypoint id of the edge's sink`
			`int32 sink = 2;`
			`}`

			`// The skeleton template for different objects (e.g. humans, chairs, hands, etc)`
			`// The annotation tool reads the skeleton template dictionary.`
			`message Skeleton {`
			`// The origin keypoint in the object coordinate system. (i.e. Point 0, 0, 0)`
			`int32 reference_keypoint = 1;`

			`// The skeleton's category (e.g. human, chair, hand.). Should be unique in the`
			`// dictionary.`
			`string category = 2;`

			`// Initialization value for all the keypoints in the skeleton in the object's`
			`// local coordinate system. Pursuit will transform these points using object's`
			`// transformation to get the keypoint in the world-cooridnate.`
			`repeated KeyPoint keypoints = 3;`

			`// List of edges connecting keypoints`
			`repeated Edge edges = 4;`
			`}`

			`// The list of all the modeled skeletons in our library. These models can be`
			`// objects (chairs, desks, etc), humans (full pose, hands, faces, etc), or box.`
			`// We can have multiple skeletons in the same file.`
			`message Skeletons {`
			`repeated Skeleton object = 1;`
			`}`