Project import generated by Copybara.

GitOrigin-RevId: d073f8e21be2fcc0e503cb97c6695078b6b75310

.bazelrc

@@ -5,9 +5,12 @@ common --experimental_repo_remote_exec
 
 # Basic build settings
 build --jobs 128
-build --define='absl=1'
+build --define='absl=1'  # for gtest
 build --enable_platform_specific_config
 
+# Enable stack traces
+test --test_env="GTEST_INSTALL_FAILURE_SIGNAL_HANDLER=1"
+
 # Linux
 build:linux --cxxopt=-std=c++17
 build:linux --host_cxxopt=-std=c++17

MANIFEST.in

@@ -8,3 +8,5 @@ include README.md
 include requirements.txt
 
 recursive-include mediapipe/modules *.tflite *.txt *.binarypb
+exclude mediapipe/modules/objectron/object_detection_3d_chair_1stage.tflite
+exclude mediapipe/modules/objectron/object_detection_3d_sneakers_1stage.tflite

README.md

@@ -34,7 +34,7 @@ Hair Segmentation
 
 []()                                                                                      | [Android](https://google.github.io/mediapipe/getting_started/android) | [iOS](https://google.github.io/mediapipe/getting_started/ios) | [C++](https://google.github.io/mediapipe/getting_started/cpp) | [Python](https://google.github.io/mediapipe/getting_started/python) | [JS](https://google.github.io/mediapipe/getting_started/javascript) | [Coral](https://github.com/google/mediapipe/tree/master/mediapipe/examples/coral/README.md)
 :---------------------------------------------------------------------------------------- | :-------------------------------------------------------------: | :-----------------------------------------------------: | :-----------------------------------------------------: | :-----------------------------------------------------------: | :-----------------------------------------------------------: | :--------------------------------------------------------------------:
-[Face Detection](https://google.github.io/mediapipe/solutions/face_detection)                   | ✅                                                               | ✅                                                       | ✅                                                       |                                                               |                                                               | ✅
+[Face Detection](https://google.github.io/mediapipe/solutions/face_detection)                   | ✅                                                               | ✅                                                       | ✅                                                       | ✅                                                             | ✅                                                             | ✅
 [Face Mesh](https://google.github.io/mediapipe/solutions/face_mesh)                             | ✅                                                               | ✅                                                       | ✅                                                       | ✅                                                             | ✅                                                             |
 [Iris](https://google.github.io/mediapipe/solutions/iris)                                       | ✅                                                               | ✅                                                       | ✅                                                       |                                                               |                                                               |
 [Hands](https://google.github.io/mediapipe/solutions/hands)                                     | ✅                                                               | ✅                                                       | ✅                                                       | ✅                                                             | ✅                                                             |
@@ -44,7 +44,7 @@ Hair Segmentation
 [Object Detection](https://google.github.io/mediapipe/solutions/object_detection)               | ✅                                                               | ✅                                                       | ✅                                                       |                                                               |                                                               | ✅
 [Box Tracking](https://google.github.io/mediapipe/solutions/box_tracking)                       | ✅                                                               | ✅                                                       | ✅                                                       |                                                               |                                                               |
 [Instant Motion Tracking](https://google.github.io/mediapipe/solutions/instant_motion_tracking) | ✅                                                               |                                                         |                                                         |                                                               |                                                               |
-[Objectron](https://google.github.io/mediapipe/solutions/objectron)                             | ✅                                                               |                                                         |                                                         |                                                               |                                                               |
+[Objectron](https://google.github.io/mediapipe/solutions/objectron)                             | ✅                                                               |                                                         |                                                         | ✅                                                             |                                                               |
 [KNIFT](https://google.github.io/mediapipe/solutions/knift)                                     | ✅                                                               |                                                         |                                                         |                                                               |                                                               |
 [AutoFlip](https://google.github.io/mediapipe/solutions/autoflip)                               |                                                                 |                                                         | ✅                                                       |                                                               |                                                               |
 [MediaSequence](https://google.github.io/mediapipe/solutions/media_sequence)                    |                                                                 |                                                         | ✅                                                       |                                                               |                                                               |

WORKSPACE

@@ -38,8 +38,8 @@ http_archive(
 
 http_archive(
    name = "rules_foreign_cc",
-   strip_prefix = "rules_foreign_cc-master",
-   url = "https://github.com/bazelbuild/rules_foreign_cc/archive/master.zip",
+   strip_prefix = "rules_foreign_cc-main",
+   url = "https://github.com/bazelbuild/rules_foreign_cc/archive/main.zip",
 )
 
 load("@rules_foreign_cc//:workspace_definitions.bzl", "rules_foreign_cc_dependencies")

docs/framework_concepts/calculators.md

@@ -67,26 +67,26 @@ class CalculatorBase {
 
   // The subclasses of CalculatorBase must implement GetContract.
   // ...
-  static ::MediaPipe::Status GetContract(CalculatorContract* cc);
+  static absl::Status GetContract(CalculatorContract* cc);
 
   // Open is called before any Process() calls, on a freshly constructed
   // calculator.  Subclasses may override this method to perform necessary
   // setup, and possibly output Packets and/or set output streams' headers.
   // ...
-  virtual ::MediaPipe::Status Open(CalculatorContext* cc) {
-    return ::MediaPipe::OkStatus();
+  virtual absl::Status Open(CalculatorContext* cc) {
+    return absl::OkStatus();
   }
 
   // Processes the incoming inputs. May call the methods on cc to access
   // inputs and produce outputs.
   // ...
-  virtual ::MediaPipe::Status Process(CalculatorContext* cc) = 0;
+  virtual absl::Status Process(CalculatorContext* cc) = 0;
 
   // Is called if Open() was called and succeeded.  Is called either
   // immediately after processing is complete or after a graph run has ended
   // (if an error occurred in the graph).  ...
-  virtual ::MediaPipe::Status Close(CalculatorContext* cc) {
-    return ::MediaPipe::OkStatus();
+  virtual absl::Status Close(CalculatorContext* cc) {
+    return absl::OkStatus();
   }
 
   ...
@@ -199,7 +199,7 @@ name and index number. In the function below input are output are identified:
 // c++ Code snippet describing the SomeAudioVideoCalculator GetContract() method
 class SomeAudioVideoCalculator : public CalculatorBase {
  public:
-  static ::mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->Inputs().Index(0).SetAny();
     // SetAny() is used to specify that whatever the type of the
     // stream is, it's acceptable.  This does not mean that any
@@ -209,13 +209,13 @@ class SomeAudioVideoCalculator : public CalculatorBase {
     cc->Outputs().Tag("VIDEO").Set<ImageFrame>();
     cc->Outputs().Get("AUDIO", 0).Set<Matrix>();
     cc->Outputs().Get("AUDIO", 1).Set<Matrix>();
-    return ::mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 ```
 
 ## Processing
 
-`Process()` called on a non-source node must return `::mediapipe::OkStatus()` to
+`Process()` called on a non-source node must return `absl::OkStatus()` to
 indicate that all went well, or any other status code to signal an error
 
 If a non-source calculator returns `tool::StatusStop()`, then this signals the
@@ -224,12 +224,12 @@ input streams will be closed (and remaining Packets will propagate through the
 graph).
 
 A source node in a graph will continue to have `Process()` called on it as long
-as it returns `::mediapipe::OkStatus(`). To indicate that there is no more data
-to be generated return `tool::StatusStop()`. Any other status indicates an error
-has occurred.
+as it returns `absl::OkStatus(`). To indicate that there is no more data to be
+generated return `tool::StatusStop()`. Any other status indicates an error has
+occurred.
 
-`Close()` returns `::mediapipe::OkStatus()` to indicate success. Any other
-status indicates a failure.
+`Close()` returns `absl::OkStatus()` to indicate success. Any other status
+indicates a failure.
 
 Here is the basic `Process()` function. It uses the `Input()` method (which can
 be used only if the calculator has a single input) to request its input data. It
@@ -238,13 +238,13 @@ and does the calculations. When done it releases the pointer when adding it to
 the output stream.
 
 ```c++
-::util::Status MyCalculator::Process() {
+absl::Status MyCalculator::Process() {
   const Matrix& input = Input()->Get<Matrix>();
   std::unique_ptr<Matrix> output(new Matrix(input.rows(), input.cols()));
   // do your magic here....
   //    output->row(n) =  ...
   Output()->Add(output.release(), InputTimestamp());
-  return ::mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 ```
 
@@ -312,7 +312,7 @@ namespace mediapipe {
 //
 class PacketClonerCalculator : public CalculatorBase {
  public:
-  static ::mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     const int tick_signal_index = cc->Inputs().NumEntries() - 1;
     // cc->Inputs().NumEntries() returns the number of input streams
     // for the PacketClonerCalculator
@@ -322,10 +322,10 @@ class PacketClonerCalculator : public CalculatorBase {
       cc->Outputs().Index(i).SetSameAs(&cc->Inputs().Index(i));
     }
     cc->Inputs().Index(tick_signal_index).SetAny();
-    return ::mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  ::mediapipe::Status Open(CalculatorContext* cc) final {
+  absl::Status Open(CalculatorContext* cc) final {
     tick_signal_index_ = cc->Inputs().NumEntries() - 1;
     current_.resize(tick_signal_index_);
     // Pass along the header for each stream if present.
@@ -336,10 +336,10 @@ class PacketClonerCalculator : public CalculatorBase {
         // the header for the input stream of index i
       }
     }
-    return ::mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  ::mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     // Store input signals.
     for (int i = 0; i < tick_signal_index_; ++i) {
       if (!cc->Inputs().Index(i).Value().IsEmpty()) {
@@ -364,7 +364,7 @@ class PacketClonerCalculator : public CalculatorBase {
         }
       }
     }
-    return ::mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:

docs/framework_concepts/gpu.md

@@ -66,10 +66,10 @@ calculator derived from base class GlSimpleCalculator. The GPU calculator
 // See GlSimpleCalculator for inputs, outputs and input side packets.
 class LuminanceCalculator : public GlSimpleCalculator {
  public:
-  ::mediapipe::Status GlSetup() override;
-  ::mediapipe::Status GlRender(const GlTexture& src,
-                               const GlTexture& dst) override;
-  ::mediapipe::Status GlTeardown() override;
+  absl::Status GlSetup() override;
+  absl::Status GlRender(const GlTexture& src,
+                        const GlTexture& dst) override;
+  absl::Status GlTeardown() override;
 
  private:
   GLuint program_ = 0;
@@ -77,8 +77,8 @@ class LuminanceCalculator : public GlSimpleCalculator {
 };
 REGISTER_CALCULATOR(LuminanceCalculator);
 
-::mediapipe::Status LuminanceCalculator::GlRender(const GlTexture& src,
-                                                  const GlTexture& dst) {
+absl::Status LuminanceCalculator::GlRender(const GlTexture& src,
+                                           const GlTexture& dst) {
   static const GLfloat square_vertices[] = {
       -1.0f, -1.0f,  // bottom left
       1.0f,  -1.0f,  // bottom right
@@ -128,7 +128,7 @@ REGISTER_CALCULATOR(LuminanceCalculator);
   glDeleteVertexArrays(1, &vao);
   glDeleteBuffers(2, vbo);
 
-  return ::mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 ```
 

docs/framework_concepts/graphs.md

@@ -219,23 +219,23 @@ packet timestamps 0, 1, 2, 3, ...
 ```c++
 class UnitDelayCalculator : public Calculator {
  public:
-  static ::util::Status FillExpectations(
+  static absl::Status FillExpectations(
       const CalculatorOptions& extendable_options, PacketTypeSet* inputs,
       PacketTypeSet* outputs, PacketTypeSet* input_side_packets) {
     inputs->Index(0)->Set<int>("An integer.");
     outputs->Index(0)->Set<int>("The input delayed by one time unit.");
-    return ::mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  ::util::Status Open() final {
+  absl::Status Open() final {
     Output()->Add(new int(0), Timestamp(0));
-    return ::mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  ::util::Status Process() final {
+  absl::Status Process() final {
     const Packet& packet = Input()->Value();
     Output()->AddPacket(packet.At(packet.Timestamp().NextAllowedInStream()));
-    return ::mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 };
 ```

docs/getting_started/android_archive_library.md

@@ -45,7 +45,8 @@ each project.
 2.  Run the Bazel build command to generate the AAR.
 
     ```bash
-    bazel build -c opt --host_crosstool_top=@bazel_tools//tools/cpp:toolchain --fat_apk_cpu=arm64-v8a,armeabi-v7a \
+    bazel build -c opt --host_crosstool_top=@bazel_tools//tools/cpp:toolchain \
+        --fat_apk_cpu=arm64-v8a,armeabi-v7a --strip=ALWAYS \
         //path/to/the/aar/build/file:aar_name
     ```
 
@@ -86,16 +87,14 @@ each project.
     Build the MediaPipe binary graph and copy the assets into
     app/src/main/assets, e.g., for the face detection graph, you need to build
     and copy
-    [the binary graph](https://github.com/google/mediapipe/blob/master/mediapipe/examples/android/src/java/com/google/mediapipe/apps/facedetectiongpu/BUILD#L41),
-    [the tflite model](https://github.com/google/mediapipe/tree/master/mediapipe/models/face_detection_front.tflite),
+    [the binary graph](https://github.com/google/mediapipe/blob/master/mediapipe/examples/android/src/java/com/google/mediapipe/apps/facedetectiongpu/BUILD#L41)
     and
-    [the label map](https://github.com/google/mediapipe/blob/master/mediapipe/models/face_detection_front_labelmap.txt).
+    [the face detection tflite model](https://github.com/google/mediapipe/tree/master/mediapipe/modules/face_detection/face_detection_front.tflite).
 
     ```bash
     bazel build -c opt mediapipe/mediapipe/graphs/face_detection:mobile_gpu_binary_graph
     cp bazel-bin/mediapipe/graphs/face_detection/mobile_gpu.binarypb /path/to/your/app/src/main/assets/
-    cp mediapipe/models/face_detection_front.tflite /path/to/your/app/src/main/assets/
-    cp mediapipe/models/face_detection_front_labelmap.txt /path/to/your/app/src/main/assets/
+    cp mediapipe/modules/face_detection/face_detection_front.tflite /path/to/your/app/src/main/assets/
     ```
 
     ![Screenshot](../images/mobile/assets_location.png)

docs/getting_started/hello_world_android.md

@@ -59,7 +59,7 @@ node: {
   output_stream: "luma_video"
 }
 
-# Applies the Sobel filter to luminance images sotred in RGB format.
+# Applies the Sobel filter to luminance images stored in RGB format.
 node: {
   calculator: "SobelEdgesCalculator"
   input_stream: "luma_video"

docs/getting_started/hello_world_cpp.md

@@ -44,7 +44,7 @@ nav_order: 1
     `PrintHelloWorld()` function, defined in a [`CalculatorGraphConfig`] proto.
 
     ```C++
-    ::mediapipe::Status PrintHelloWorld() {
+    absl::Status PrintHelloWorld() {
       // Configures a simple graph, which concatenates 2 PassThroughCalculators.
       CalculatorGraphConfig config = ParseTextProtoOrDie<CalculatorGraphConfig>(R"(
         input_stream: "in"

docs/getting_started/hello_world_ios.md

@@ -492,6 +492,9 @@ in our app:
     if (![self.mediapipeGraph startWithError:&error]) {
       NSLog(@"Failed to start graph: %@", error);
     }
+    else if (![self.mediapipeGraph waitUntilIdleWithError:&error]) {
+      NSLog(@"Failed to complete graph initial run: %@", error);
+    }
 
     dispatch_async(_videoQueue, ^{
       [_cameraSource start];
@@ -500,8 +503,9 @@ in our app:
 }];
 ```
 
-Note: It is important to start the graph before starting the camera, so that the
-graph is ready to process frames as soon as the camera starts sending them.
+Note: It is important to start the graph before starting the camera and wait
+until completion, so that the graph is ready to process frames as soon as the
+camera starts sending them.
 
 Earlier, when we received frames from the camera in the `processVideoFrame`
 function, we displayed them in the `_liveView` using the `_renderer`. Now, we

docs/getting_started/javascript.md

@@ -19,9 +19,10 @@ MediaPipe currently offers the following solutions:
 Solution          | NPM Package                   | Example
 ----------------- | ----------------------------- | -------
 [Face Mesh][F-pg] | [@mediapipe/face_mesh][F-npm] | [mediapipe.dev/demo/face_mesh][F-demo]
+[Face Detection][Fd-pg] | [@mediapipe/face_detection][Fd-npm] | [mediapipe.dev/demo/face_detection][Fd-demo]
 [Hands][H-pg]     | [@mediapipe/hands][H-npm]     | [mediapipe.dev/demo/hands][H-demo]
-[Pose][P-pg]      | [@mediapipe/pose][P-npm]      | [mediapipe.dev/demo/pose][P-demo]
 [Holistic][Ho-pg] | [@mediapipe/holistic][Ho-npm] | [mediapipe.dev/demo/holistic][Ho-demo]
+[Pose][P-pg]      | [@mediapipe/pose][P-npm]      | [mediapipe.dev/demo/pose][P-demo]
 
 Click on a solution link above for more information, including API and code
 snippets.
@@ -63,10 +64,12 @@ affecting your work, restrict your request to a `<minor>` number. e.g.,
 
 [Ho-pg]: ../solutions/holistic#javascript-solution-api
 [F-pg]: ../solutions/face_mesh#javascript-solution-api
+[Fd-pg]: ../solutions/face_detection#javascript-solution-api
 [H-pg]: ../solutions/hands#javascript-solution-api
 [P-pg]: ../solutions/pose#javascript-solution-api
 [Ho-npm]: https://www.npmjs.com/package/@mediapipe/holistic
 [F-npm]: https://www.npmjs.com/package/@mediapipe/face_mesh
+[Fd-npm]: https://www.npmjs.com/package/@mediapipe/face_detection
 [H-npm]: https://www.npmjs.com/package/@mediapipe/hands
 [P-npm]: https://www.npmjs.com/package/@mediapipe/pose
 [draw-npm]: https://www.npmjs.com/package/@mediapipe/pose
@@ -74,14 +77,17 @@ affecting your work, restrict your request to a `<minor>` number. e.g.,
 [ctrl-npm]: https://www.npmjs.com/package/@mediapipe/pose
 [Ho-jsd]: https://www.jsdelivr.com/package/npm/@mediapipe/holistic
 [F-jsd]: https://www.jsdelivr.com/package/npm/@mediapipe/face_mesh
+[Fd-jsd]: https://www.jsdelivr.com/package/npm/@mediapipe/face_detection
 [H-jsd]: https://www.jsdelivr.com/package/npm/@mediapipe/hands
 [P-jsd]: https://www.jsdelivr.com/package/npm/@mediapipe/pose
 [Ho-pen]: https://code.mediapipe.dev/codepen/holistic
 [F-pen]: https://code.mediapipe.dev/codepen/face_mesh
+[Fd-pen]: https://code.mediapipe.dev/codepen/face_detection
 [H-pen]: https://code.mediapipe.dev/codepen/hands
 [P-pen]: https://code.mediapipe.dev/codepen/pose
 [Ho-demo]: https://mediapipe.dev/demo/holistic
 [F-demo]: https://mediapipe.dev/demo/face_mesh
+[Fd-demo]: https://mediapipe.dev/demo/face_detection
 [H-demo]: https://mediapipe.dev/demo/hands
 [P-demo]: https://mediapipe.dev/demo/pose
 [npm]: https://www.npmjs.com/package/@mediapipe

docs/getting_started/python.md

@@ -45,17 +45,23 @@ Tip: Use command `deactivate` to later exit the Python virtual environment.
 To learn more about configuration options and usage examples, please find
 details in each solution via the links below:
 
+*   [MediaPipe Face Detection](../solutions/face_detection#python-solution-api)
 *   [MediaPipe Face Mesh](../solutions/face_mesh#python-solution-api)
 *   [MediaPipe Hands](../solutions/hands#python-solution-api)
-*   [MediaPipe Pose](../solutions/pose#python-solution-api)
 *   [MediaPipe Holistic](../solutions/holistic#python-solution-api)
+*   [MediaPipe Objectron](../solutions/objectron#python-solution-api)
+*   [MediaPipe Pose](../solutions/pose#python-solution-api)
 
 ## MediaPipe on Google Colab
 
+*   [MediaPipe Face Detection Colab](https://mediapipe.page.link/face_detection_py_colab)
 *   [MediaPipe Face Mesh Colab](https://mediapipe.page.link/face_mesh_py_colab)
 *   [MediaPipe Hands Colab](https://mediapipe.page.link/hands_py_colab)
-*   [MediaPipe Pose Colab](https://mediapipe.page.link/pose_py_colab)
 *   [MediaPipe Holistic Colab](https://mediapipe.page.link/holistic_py_colab)
+*   [MediaPipe Objectron Colab](https://mediapipe.page.link/objectron_py_colab)
+*   [MediaPipe Pose Colab](https://mediapipe.page.link/pose_py_colab)
+*   [MediaPipe Pose Classification Colab (Basic)](https://mediapipe.page.link/pose_classification_basic)
+*   [MediaPipe Pose Classification Colab (Extended)](https://mediapipe.page.link/pose_classification_extended)
 
 ## MediaPipe Python Framework
 

docs/index.md

@@ -34,7 +34,7 @@ Hair Segmentation
 
 []()                                                                                      | [Android](https://google.github.io/mediapipe/getting_started/android) | [iOS](https://google.github.io/mediapipe/getting_started/ios) | [C++](https://google.github.io/mediapipe/getting_started/cpp) | [Python](https://google.github.io/mediapipe/getting_started/python) | [JS](https://google.github.io/mediapipe/getting_started/javascript) | [Coral](https://github.com/google/mediapipe/tree/master/mediapipe/examples/coral/README.md)
 :---------------------------------------------------------------------------------------- | :-------------------------------------------------------------: | :-----------------------------------------------------: | :-----------------------------------------------------: | :-----------------------------------------------------------: | :-----------------------------------------------------------: | :--------------------------------------------------------------------:
-[Face Detection](https://google.github.io/mediapipe/solutions/face_detection)                   | ✅                                                               | ✅                                                       | ✅                                                       |                                                               |                                                               | ✅
+[Face Detection](https://google.github.io/mediapipe/solutions/face_detection)                   | ✅                                                               | ✅                                                       | ✅                                                       | ✅                                                             | ✅                                                             | ✅
 [Face Mesh](https://google.github.io/mediapipe/solutions/face_mesh)                             | ✅                                                               | ✅                                                       | ✅                                                       | ✅                                                             | ✅                                                             |
 [Iris](https://google.github.io/mediapipe/solutions/iris)                                       | ✅                                                               | ✅                                                       | ✅                                                       |                                                               |                                                               |
 [Hands](https://google.github.io/mediapipe/solutions/hands)                                     | ✅                                                               | ✅                                                       | ✅                                                       | ✅                                                             | ✅                                                             |
@@ -44,7 +44,7 @@ Hair Segmentation
 [Object Detection](https://google.github.io/mediapipe/solutions/object_detection)               | ✅                                                               | ✅                                                       | ✅                                                       |                                                               |                                                               | ✅
 [Box Tracking](https://google.github.io/mediapipe/solutions/box_tracking)                       | ✅                                                               | ✅                                                       | ✅                                                       |                                                               |                                                               |
 [Instant Motion Tracking](https://google.github.io/mediapipe/solutions/instant_motion_tracking) | ✅                                                               |                                                         |                                                         |                                                               |                                                               |
-[Objectron](https://google.github.io/mediapipe/solutions/objectron)                             | ✅                                                               |                                                         |                                                         |                                                               |                                                               |
+[Objectron](https://google.github.io/mediapipe/solutions/objectron)                             | ✅                                                               |                                                         |                                                         | ✅                                                             |                                                               |
 [KNIFT](https://google.github.io/mediapipe/solutions/knift)                                     | ✅                                                               |                                                         |                                                         |                                                               |                                                               |
 [AutoFlip](https://google.github.io/mediapipe/solutions/autoflip)                               |                                                                 |                                                         | ✅                                                       |                                                               |                                                               |
 [MediaSequence](https://google.github.io/mediapipe/solutions/media_sequence)                    |                                                                 |                                                         | ✅                                                       |                                                               |                                                               |

docs/solutions/face_detection.md

@@ -39,6 +39,169 @@ section.
 
 ![face_detection_android_gpu.gif](../images/mobile/face_detection_android_gpu.gif)
 
+## Solution APIs
+
+### Configuration Options
+
+Naming style and availability may differ slightly across platforms/languages.
+
+#### min_detection_confidence
+
+Minimum confidence value (`[0.0, 1.0]`) from the face detection model for the
+detection to be considered successful. Default to `0.5`.
+
+### Output
+
+Naming style may differ slightly across platforms/languages.
+
+#### detections
+
+Collection of detected faces, where each face is represented as a detection
+proto message that contains a bounding box and 6 key points (right eye, left
+eye, nose tip, mouth center, right ear tragion, and left ear tragion). The
+bounding box is composed of `xmin` and `width` (both normalized to `[0.0, 1.0]`
+by the image width) and `ymin` and `height` (both normalized to `[0.0, 1.0]` by
+the image height). Each key point is composed of `x` and `y`, which are
+normalized to `[0.0, 1.0]` by the image width and height respectively.
+
+### Python Solution API
+
+Please first follow general [instructions](../getting_started/python.md) to
+install MediaPipe Python package, then learn more in the companion
+[Python Colab](#resources) and the following usage example.
+
+Supported configuration options:
+
+*   [min_detection_confidence](#min_detection_confidence)
+
+```python
+import cv2
+import mediapipe as mp
+mp_face_detction = mp.solutions.face_detection
+
+# For static images:
+with mp_face_detection.FaceDetection(
+    min_detection_confidence=0.5) as face_detection:
+  for idx, file in enumerate(file_list):
+    image = cv2.imread(file)
+    # Convert the BGR image to RGB and process it with MediaPipe Face Detection.
+    results = face_detection.process(cv2.cvtColor(image, cv2.COLOR_BGR2RGB))
+
+    # Draw face detections of each face.
+    if not results.detections:
+      continue
+    annotated_image = image.copy()
+    for detection in results.detections:
+      print('Nose tip:')
+      print(mp_face_detection.get_key_point(
+          detection, mp_face_detection.FaceKeyPoint.NOSE_TIP))
+      mp_drawing.draw_detection(annotated_image, detection)
+    cv2.imwrite('/tmp/annotated_image' + str(idx) + '.png', annotated_image)
+
+# For webcam input:
+cap = cv2.VideoCapture(0)
+with mp_face_detection.FaceDetection(
+    min_detection_confidence=0.5) as face_detection:
+  while cap.isOpened():
+    success, image = cap.read()
+    if not success:
+      print("Ignoring empty camera frame.")
+      # If loading a video, use 'break' instead of 'continue'.
+      continue
+
+    # Flip the image horizontally for a later selfie-view display, and convert
+    # the BGR image to RGB.
+    image = cv2.cvtColor(cv2.flip(image, 1), cv2.COLOR_BGR2RGB)
+    # To improve performance, optionally mark the image as not writeable to
+    # pass by reference.
+    image.flags.writeable = False
+    results = face_detection.process(image)
+
+    # Draw the face detection annotations on the image.
+    image.flags.writeable = True
+    image = cv2.cvtColor(image, cv2.COLOR_RGB2BGR)
+    if results.detections:
+      for detection in results.detections:
+        mp_drawing.draw_detection(image, detection)
+    cv2.imshow('MediaPipe Face Detection', image)
+    if cv2.waitKey(5) & 0xFF == 27:
+      break
+cap.release()
+```
+
+### JavaScript Solution API
+
+Please first see general [introduction](../getting_started/javascript.md) on
+MediaPipe in JavaScript, then learn more in the companion [web demo](#resources)
+and the following usage example.
+
+Supported configuration options:
+
+*   [minDetectionConfidence](#min_detection_confidence)
+
+```html
+<!DOCTYPE html>
+<html>
+<head>
+  <meta charset="utf-8">
+  <script src="https://cdn.jsdelivr.net/npm/@mediapipe/camera_utils/camera_utils.js" crossorigin="anonymous"></script>
+  <script src="https://cdn.jsdelivr.net/npm/@mediapipe/control_utils/control_utils.js" crossorigin="anonymous"></script>
+  <script src="https://cdn.jsdelivr.net/npm/@mediapipe/drawing_utils/drawing_utils.js" crossorigin="anonymous"></script>
+  <script src="https://cdn.jsdelivr.net/npm/@mediapipe/face_detection/face_detection.js" crossorigin="anonymous"></script>
+</head>
+
+<body>
+  <div class="container">
+    <video class="input_video"></video>
+    <canvas class="output_canvas" width="1280px" height="720px"></canvas>
+  </div>
+</body>
+</html>
+```
+
+```javascript
+<script type="module">
+const videoElement = document.getElementsByClassName('input_video')[0];
+const canvasElement = document.getElementsByClassName('output_canvas')[0];
+const canvasCtx = canvasElement.getContext('2d');
+
+function onResults(results) {
+  // Draw the overlays.
+  canvasCtx.save();
+  canvasCtx.clearRect(0, 0, canvasElement.width, canvasElement.height);
+  canvasCtx.drawImage(
+      results.image, 0, 0, canvasElement.width, canvasElement.height);
+  if (results.detections.length > 0) {
+    drawingUtils.drawRectangle(
+        canvasCtx, results.detections[0].boundingBox,
+        {color: 'blue', lineWidth: 4, fillColor: '#00000000'});
+    drawingUtils.drawLandmarks(canvasCtx, results.detections[0].landmarks, {
+      color: 'red',
+      radius: 5,
+    });
+  }
+  canvasCtx.restore();
+}
+
+const faceDetection = new Objectron({locateFile: (file) => {
+  return `https://cdn.jsdelivr.net/npm/@mediapipe/objectron@0.0/${file}`;
+}});
+faceDetection.setOptions({
+  minDetectionConfidence: 0.5
+});
+faceDetection.onResults(onResults);
+
+const camera = new Camera(videoElement, {
+  onFrame: async () => {
+    await faceDetection.send({image: videoElement});
+  },
+  width: 1280,
+  height: 720
+});
+camera.start();
+</script>
+```
+
 ## Example Apps
 
 Please first see general instructions for
@@ -108,3 +271,5 @@ to cross-compile and run MediaPipe examples on the
     ([presentation](https://docs.google.com/presentation/d/1YCtASfnYyZtH-41QvnW5iZxELFnf0MF-pPWSLGj8yjQ/present?slide=id.g5bc8aeffdd_1_0))
     ([poster](https://drive.google.com/file/d/1u6aB6wxDY7X2TmeUUKgFydulNtXkb3pu/view))
 *   [Models and model cards](./models.md#face_detection)
+*   [Web demo](https://code.mediapipe.dev/codepen/face_detection)
+*   [Python Colab](https://mediapipe.page.link/face_detection_py_colab)

docs/solutions/face_mesh.md

@@ -185,8 +185,8 @@ following steps are executed in the given order:
 The geometry pipeline is implemented as a MediaPipe
 [calculator](https://github.com/google/mediapipe/tree/master/mediapipe/modules/face_geometry/geometry_pipeline_calculator.cc).
 For your convenience, the face geometry pipeline calculator is bundled together
-with the face landmark module into a unified MediaPipe
-[subgraph](https://github.com/google/mediapipe/tree/master/mediapipe/modules/face_geometry/face_geometry_front_gpu.pbtxt).
+with corresponding metadata into a unified MediaPipe
+[subgraph](https://github.com/google/mediapipe/tree/master/mediapipe/modules/face_geometry/face_geometry_from_landmarks.pbtxt).
 The face geometry format is defined as a Protocol Buffer
 [message](https://github.com/google/mediapipe/tree/master/mediapipe/modules/face_geometry/protos/face_geometry.proto).
 
@@ -264,8 +264,8 @@ magnitude of `z` uses roughly the same scale as `x`.
 ### Python Solution API
 
 Please first follow general [instructions](../getting_started/python.md) to
-install MediaPipe Python package, then learn more in the companion [Colab] and
-the following usage example.
+install MediaPipe Python package, then learn more in the companion
+[Python Colab](#resources) and the following usage example.
 
 Supported configuration options:
 
@@ -281,74 +281,73 @@ mp_drawing = mp.solutions.drawing_utils
 mp_face_mesh = mp.solutions.face_mesh
 
 # For static images:
-face_mesh = mp_face_mesh.FaceMesh(
+drawing_spec = mp_drawing.DrawingSpec(thickness=1, circle_radius=1)
+with mp_face_mesh.FaceMesh(
     static_image_mode=True,
     max_num_faces=1,
-    min_detection_confidence=0.5)
-drawing_spec = mp_drawing.DrawingSpec(thickness=1, circle_radius=1)
-for idx, file in enumerate(file_list):
-  image = cv2.imread(file)
-  # Convert the BGR image to RGB before processing.
-  results = face_mesh.process(cv2.cvtColor(image, cv2.COLOR_BGR2RGB))
+    min_detection_confidence=0.5) as face_mesh:
+  for idx, file in enumerate(file_list):
+    image = cv2.imread(file)
+    # Convert the BGR image to RGB before processing.
+    results = face_mesh.process(cv2.cvtColor(image, cv2.COLOR_BGR2RGB))
 
-  # Print and draw face mesh landmarks on the image.
-  if not results.multi_face_landmarks:
-    continue
-  annotated_image = image.copy()
-  for face_landmarks in results.multi_face_landmarks:
-    print('face_landmarks:', face_landmarks)
-    mp_drawing.draw_landmarks(
-        image=annotated_image,
-        landmark_list=face_landmarks,
-        connections=mp_face_mesh.FACE_CONNECTIONS,
-        landmark_drawing_spec=drawing_spec,
-        connection_drawing_spec=drawing_spec)
-  cv2.imwrite('/tmp/annotated_image' + str(idx) + '.png', annotated_image)
-face_mesh.close()
-
-# For webcam input:
-face_mesh = mp_face_mesh.FaceMesh(
-    min_detection_confidence=0.5, min_tracking_confidence=0.5)
-drawing_spec = mp_drawing.DrawingSpec(thickness=1, circle_radius=1)
-cap = cv2.VideoCapture(0)
-while cap.isOpened():
-  success, image = cap.read()
-  if not success:
-    print("Ignoring empty camera frame.")
-    # If loading a video, use 'break' instead of 'continue'.
-    continue
-
-  # Flip the image horizontally for a later selfie-view display, and convert
-  # the BGR image to RGB.
-  image = cv2.cvtColor(cv2.flip(image, 1), cv2.COLOR_BGR2RGB)
-  # To improve performance, optionally mark the image as not writeable to
-  # pass by reference.
-  image.flags.writeable = False
-  results = face_mesh.process(image)
-
-  # Draw the face mesh annotations on the image.
-  image.flags.writeable = True
-  image = cv2.cvtColor(image, cv2.COLOR_RGB2BGR)
-  if results.multi_face_landmarks:
+    # Print and draw face mesh landmarks on the image.
+    if not results.multi_face_landmarks:
+      continue
+    annotated_image = image.copy()
     for face_landmarks in results.multi_face_landmarks:
+      print('face_landmarks:', face_landmarks)
       mp_drawing.draw_landmarks(
-          image=image,
+          image=annotated_image,
           landmark_list=face_landmarks,
           connections=mp_face_mesh.FACE_CONNECTIONS,
           landmark_drawing_spec=drawing_spec,
           connection_drawing_spec=drawing_spec)
-  cv2.imshow('MediaPipe FaceMesh', image)
-  if cv2.waitKey(5) & 0xFF == 27:
-    break
-face_mesh.close()
+    cv2.imwrite('/tmp/annotated_image' + str(idx) + '.png', annotated_image)
+
+# For webcam input:
+drawing_spec = mp_drawing.DrawingSpec(thickness=1, circle_radius=1)
+cap = cv2.VideoCapture(0)
+with mp_face_mesh.FaceMesh(
+    min_detection_confidence=0.5,
+    min_tracking_confidence=0.5) as face_mesh:
+  while cap.isOpened():
+    success, image = cap.read()
+    if not success:
+      print("Ignoring empty camera frame.")
+      # If loading a video, use 'break' instead of 'continue'.
+      continue
+
+    # Flip the image horizontally for a later selfie-view display, and convert
+    # the BGR image to RGB.
+    image = cv2.cvtColor(cv2.flip(image, 1), cv2.COLOR_BGR2RGB)
+    # To improve performance, optionally mark the image as not writeable to
+    # pass by reference.
+    image.flags.writeable = False
+    results = face_mesh.process(image)
+
+    # Draw the face mesh annotations on the image.
+    image.flags.writeable = True
+    image = cv2.cvtColor(image, cv2.COLOR_RGB2BGR)
+    if results.multi_face_landmarks:
+      for face_landmarks in results.multi_face_landmarks:
+        mp_drawing.draw_landmarks(
+            image=image,
+            landmark_list=face_landmarks,
+            connections=mp_face_mesh.FACE_CONNECTIONS,
+            landmark_drawing_spec=drawing_spec,
+            connection_drawing_spec=drawing_spec)
+    cv2.imshow('MediaPipe FaceMesh', image)
+    if cv2.waitKey(5) & 0xFF == 27:
+      break
 cap.release()
 ```
 
 ### JavaScript Solution API
 
 Please first see general [introduction](../getting_started/javascript.md) on
-MediaPipe in JavaScript, then learn more in the companion [web demo] and the
-following usage example.
+MediaPipe in JavaScript, then learn more in the companion [web demo](#resources)
+and the following usage example.
 
 Supported configuration options:
 
@@ -503,7 +502,5 @@ only works for a single face. For visual reference, please refer to *Fig. 4*.
     [OBJ](https://github.com/google/mediapipe/tree/master/mediapipe/modules/face_geometry/data/canonical_face_model.obj),
     [UV visualization](https://github.com/google/mediapipe/tree/master/mediapipe/modules/face_geometry/data/canonical_face_model_uv_visualization.png)
 *   [Models and model cards](./models.md#face_mesh)
-
-[Colab]:https://mediapipe.page.link/face_mesh_py_colab
-
-[web demo]:https://code.mediapipe.dev/codepen/face_mesh
+*   [Web demo](https://code.mediapipe.dev/codepen/face_mesh)
+*   [Python Colab](https://mediapipe.page.link/face_mesh_py_colab)

docs/solutions/hands.md

@@ -91,13 +91,14 @@ To detect initial hand locations, we designed a
 mobile real-time uses in a manner similar to the face detection model in
 [MediaPipe Face Mesh](./face_mesh.md). Detecting hands is a decidedly complex
 task: our
-[model](https://github.com/google/mediapipe/tree/master/mediapipe/models/palm_detection.tflite) has
-to work across a variety of hand sizes with a large scale span (~20x) relative
-to the image frame and be able to detect occluded and self-occluded hands.
-Whereas faces have high contrast patterns, e.g., in the eye and mouth region,
-the lack of such features in hands makes it comparatively difficult to detect
-them reliably from their visual features alone. Instead, providing additional
-context, like arm, body, or person features, aids accurate hand localization.
+[model](https://github.com/google/mediapipe/tree/master/mediapipe/modules/palm_detection/palm_detection.tflite)
+has to work across a variety of hand sizes with a large scale span (~20x)
+relative to the image frame and be able to detect occluded and self-occluded
+hands. Whereas faces have high contrast patterns, e.g., in the eye and mouth
+region, the lack of such features in hands makes it comparatively difficult to
+detect them reliably from their visual features alone. Instead, providing
+additional context, like arm, body, or person features, aids accurate hand
+localization.
 
 Our method addresses the above challenges using different strategies. First, we
 train a palm detector instead of a hand detector, since estimating bounding
@@ -119,7 +120,7 @@ just 86.22%.
 ### Hand Landmark Model
 
 After the palm detection over the whole image our subsequent hand landmark
-[model](https://github.com/google/mediapipe/tree/master/mediapipe/models/hand_landmark.tflite)
+[model](https://github.com/google/mediapipe/tree/master/mediapipe/modules/hand_landmark/hand_landmark.tflite)
 performs precise keypoint localization of 21 3D hand-knuckle coordinates inside
 the detected hand regions via regression, that is direct coordinate prediction.
 The model learns a consistent internal hand pose representation and is robust
@@ -136,11 +137,9 @@ to the corresponding 3D coordinates.
 :--------------------------------------------------------: |
 *Fig 2. 21 hand landmarks.*                                |
 
-| ![hand_crops.png](../images/mobile/hand_crops.png)                          |
-| :-------------------------------------------------------------------------: |
-| *Fig 3. Top: Aligned hand crops passed to the tracking network with ground  |
-: truth annotation. Bottom\: Rendered synthetic hand images with ground truth :
-: annotation.*                                                                :
+![hand_crops.png](../images/mobile/hand_crops.png)                          |
+:-------------------------------------------------------------------------: |
+*Fig 3. Top: Aligned hand crops passed to the tracking network with ground truth annotation. Bottom: Rendered synthetic hand images with ground truth annotation.* |
 
 ## Solution APIs
 
@@ -206,8 +205,8 @@ is not the case, please swap the handedness output in the application.
 ### Python Solution API
 
 Please first follow general [instructions](../getting_started/python.md) to
-install MediaPipe Python package, then learn more in the companion [Colab] and
-the following usage example.
+install MediaPipe Python package, then learn more in the companion
+[Python Colab](#resources) and the following usage example.
 
 Supported configuration options:
 
@@ -223,74 +222,73 @@ mp_drawing = mp.solutions.drawing_utils
 mp_hands = mp.solutions.hands
 
 # For static images:
-hands = mp_hands.Hands(
+with mp_hands.Hands(
     static_image_mode=True,
     max_num_hands=2,
-    min_detection_confidence=0.5)
-for idx, file in enumerate(file_list):
-  # Read an image, flip it around y-axis for correct handedness output (see
-  # above).
-  image = cv2.flip(cv2.imread(file), 1)
-  # Convert the BGR image to RGB before processing.
-  results = hands.process(cv2.cvtColor(image, cv2.COLOR_BGR2RGB))
+    min_detection_confidence=0.5) as hands:
+  for idx, file in enumerate(file_list):
+    # Read an image, flip it around y-axis for correct handedness output (see
+    # above).
+    image = cv2.flip(cv2.imread(file), 1)
+    # Convert the BGR image to RGB before processing.
+    results = hands.process(cv2.cvtColor(image, cv2.COLOR_BGR2RGB))
 
-  # Print handedness and draw hand landmarks on the image.
-  print('Handedness:', results.multi_handedness)
-  if not results.multi_hand_landmarks:
-    continue
-  image_hight, image_width, _ = image.shape
-  annotated_image = image.copy()
-  for hand_landmarks in results.multi_hand_landmarks:
-    print('hand_landmarks:', hand_landmarks)
-    print(
-        f'Index finger tip coordinates: (',
-        f'{hand_landmarks.landmark[mp_hands.HandLandmark.INDEX_FINGER_TIP].x * image_width}, '
-        f'{hand_landmarks.landmark[mp_hands.HandLandmark.INDEX_FINGER_TIP].y * image_hight})'
-    )
-    mp_drawing.draw_landmarks(
-        annotated_image, hand_landmarks, mp_hands.HAND_CONNECTIONS)
-  cv2.imwrite(
-      '/tmp/annotated_image' + str(idx) + '.png', cv2.flip(annotated_image, 1))
-hands.close()
+    # Print handedness and draw hand landmarks on the image.
+    print('Handedness:', results.multi_handedness)
+    if not results.multi_hand_landmarks:
+      continue
+    image_height, image_width, _ = image.shape
+    annotated_image = image.copy()
+    for hand_landmarks in results.multi_hand_landmarks:
+      print('hand_landmarks:', hand_landmarks)
+      print(
+          f'Index finger tip coordinates: (',
+          f'{hand_landmarks.landmark[mp_hands.HandLandmark.INDEX_FINGER_TIP].x * image_width}, '
+          f'{hand_landmarks.landmark[mp_hands.HandLandmark.INDEX_FINGER_TIP].y * image_height})'
+      )
+      mp_drawing.draw_landmarks(
+          annotated_image, hand_landmarks, mp_hands.HAND_CONNECTIONS)
+    cv2.imwrite(
+        '/tmp/annotated_image' + str(idx) + '.png', cv2.flip(annotated_image, 1))
 
 # For webcam input:
-hands = mp_hands.Hands(
-    min_detection_confidence=0.5, min_tracking_confidence=0.5)
 cap = cv2.VideoCapture(0)
-while cap.isOpened():
-  success, image = cap.read()
-  if not success:
-    print("Ignoring empty camera frame.")
-    # If loading a video, use 'break' instead of 'continue'.
-    continue
+with mp_hands.Hands(
+    min_detection_confidence=0.5,
+    min_tracking_confidence=0.5) as hands:
+  while cap.isOpened():
+    success, image = cap.read()
+    if not success:
+      print("Ignoring empty camera frame.")
+      # If loading a video, use 'break' instead of 'continue'.
+      continue
 
-  # Flip the image horizontally for a later selfie-view display, and convert
-  # the BGR image to RGB.
-  image = cv2.cvtColor(cv2.flip(image, 1), cv2.COLOR_BGR2RGB)
-  # To improve performance, optionally mark the image as not writeable to
-  # pass by reference.
-  image.flags.writeable = False
-  results = hands.process(image)
+    # Flip the image horizontally for a later selfie-view display, and convert
+    # the BGR image to RGB.
+    image = cv2.cvtColor(cv2.flip(image, 1), cv2.COLOR_BGR2RGB)
+    # To improve performance, optionally mark the image as not writeable to
+    # pass by reference.
+    image.flags.writeable = False
+    results = hands.process(image)
 
-  # Draw the hand annotations on the image.
-  image.flags.writeable = True
-  image = cv2.cvtColor(image, cv2.COLOR_RGB2BGR)
-  if results.multi_hand_landmarks:
-    for hand_landmarks in results.multi_hand_landmarks:
-      mp_drawing.draw_landmarks(
-          image, hand_landmarks, mp_hands.HAND_CONNECTIONS)
-  cv2.imshow('MediaPipe Hands', image)
-  if cv2.waitKey(5) & 0xFF == 27:
-    break
-hands.close()
+    # Draw the hand annotations on the image.
+    image.flags.writeable = True
+    image = cv2.cvtColor(image, cv2.COLOR_RGB2BGR)
+    if results.multi_hand_landmarks:
+      for hand_landmarks in results.multi_hand_landmarks:
+        mp_drawing.draw_landmarks(
+            image, hand_landmarks, mp_hands.HAND_CONNECTIONS)
+    cv2.imshow('MediaPipe Hands', image)
+    if cv2.waitKey(5) & 0xFF == 27:
+      break
 cap.release()
 ```
 
 ### JavaScript Solution API
 
 Please first see general [introduction](../getting_started/javascript.md) on
-MediaPipe in JavaScript, then learn more in the companion [web demo] and a
-[fun application], and the following usage example.
+MediaPipe in JavaScript, then learn more in the companion [web demo](#resources)
+and a [fun application], and the following usage example.
 
 Supported configuration options:
 
@@ -425,8 +423,6 @@ it, in the graph file modify the option of `ConstantSidePacketCalculator`.
     [MediaPipe Hands: On-device Real-time Hand Tracking](https://arxiv.org/abs/2006.10214)
     ([presentation](https://www.youtube.com/watch?v=I-UOrvxxXEk))
 *   [Models and model cards](./models.md#hands)
-
-[Colab]:https://mediapipe.page.link/hands_py_colab
-
-[web demo]:https://code.mediapipe.dev/codepen/hands
-[fun application]:https://code.mediapipe.dev/codepen/defrost
+*   [Web demo](https://code.mediapipe.dev/codepen/hands)
+*   [Fun application](https://code.mediapipe.dev/codepen/defrost)
+*   [Python Colab](https://mediapipe.page.link/hands_py_colab)

docs/solutions/holistic.md

@@ -201,8 +201,8 @@ A list of 21 hand landmarks on the right hand, in the same representation as
 ### Python Solution API
 
 Please first follow general [instructions](../getting_started/python.md) to
-install MediaPipe Python package, then learn more in the companion [Colab] and
-the following usage example.
+install MediaPipe Python package, then learn more in the companion
+[Python Colab](#resources) and the following usage example.
 
 Supported configuration options:
 
@@ -219,74 +219,75 @@ mp_drawing = mp.solutions.drawing_utils
 mp_holistic = mp.solutions.holistic
 
 # For static images:
-holistic = mp_holistic.Holistic(static_image_mode=True)
-for idx, file in enumerate(file_list):
-  image = cv2.imread(file)
-  image_hight, image_width, _ = image.shape
-  # Convert the BGR image to RGB before processing.
-  results = holistic.process(cv2.cvtColor(image, cv2.COLOR_BGR2RGB))
+with mp_holistic.Holistic(static_image_mode=True) as holistic:
+  for idx, file in enumerate(file_list):
+    image = cv2.imread(file)
+    image_height, image_width, _ = image.shape
+    # Convert the BGR image to RGB before processing.
+    results = holistic.process(cv2.cvtColor(image, cv2.COLOR_BGR2RGB))
 
-  if results.pose_landmarks:
-    print(
-        f'Nose coordinates: ('
-        f'{results.pose_landmarks.landmark[mp_holistic.PoseLandmark.NOSE].x * image_width}, '
-        f'{results.pose_landmarks.landmark[mp_holistic.PoseLandmark.NOSE].y * image_hight})'
-    )
-  # Draw pose, left and right hands, and face landmarks on the image.
-  annotated_image = image.copy()
-  mp_drawing.draw_landmarks(
-      annotated_image, results.face_landmarks, mp_holistic.FACE_CONNECTIONS)
-  mp_drawing.draw_landmarks(
-      annotated_image, results.left_hand_landmarks, mp_holistic.HAND_CONNECTIONS)
-  mp_drawing.draw_landmarks(
-      annotated_image, results.right_hand_landmarks, mp_holistic.HAND_CONNECTIONS)
-  mp_drawing.draw_landmarks(
-      annotated_image, results.pose_landmarks, mp_holistic.POSE_CONNECTIONS)
-  cv2.imwrite('/tmp/annotated_image' + str(idx) + '.png', annotated_image)
-holistic.close()
+    if results.pose_landmarks:
+      print(
+          f'Nose coordinates: ('
+          f'{results.pose_landmarks.landmark[mp_holistic.PoseLandmark.NOSE].x * image_width}, '
+          f'{results.pose_landmarks.landmark[mp_holistic.PoseLandmark.NOSE].y * image_height})'
+      )
+    # Draw pose, left and right hands, and face landmarks on the image.
+    annotated_image = image.copy()
+    mp_drawing.draw_landmarks(
+        annotated_image, results.face_landmarks, mp_holistic.FACE_CONNECTIONS)
+    mp_drawing.draw_landmarks(
+        annotated_image, results.left_hand_landmarks, mp_holistic.HAND_CONNECTIONS)
+    mp_drawing.draw_landmarks(
+        annotated_image, results.right_hand_landmarks, mp_holistic.HAND_CONNECTIONS)
+    # Use mp_holistic.UPPER_BODY_POSE_CONNECTIONS for drawing below when
+    # upper_body_only is set to True.
+    mp_drawing.draw_landmarks(
+        annotated_image, results.pose_landmarks, mp_holistic.POSE_CONNECTIONS)
+    cv2.imwrite('/tmp/annotated_image' + str(idx) + '.png', annotated_image)
 
 # For webcam input:
-holistic = mp_holistic.Holistic(
-    min_detection_confidence=0.5, min_tracking_confidence=0.5)
 cap = cv2.VideoCapture(0)
-while cap.isOpened():
-  success, image = cap.read()
-  if not success:
-    print("Ignoring empty camera frame.")
-    # If loading a video, use 'break' instead of 'continue'.
-    continue
+with mp_holistic.Holistic(
+    min_detection_confidence=0.5,
+    min_tracking_confidence=0.5) as holistic:
+  while cap.isOpened():
+    success, image = cap.read()
+    if not success:
+      print("Ignoring empty camera frame.")
+      # If loading a video, use 'break' instead of 'continue'.
+      continue
 
-  # Flip the image horizontally for a later selfie-view display, and convert
-  # the BGR image to RGB.
-  image = cv2.cvtColor(cv2.flip(image, 1), cv2.COLOR_BGR2RGB)
-  # To improve performance, optionally mark the image as not writeable to
-  # pass by reference.
-  image.flags.writeable = False
-  results = holistic.process(image)
+    # Flip the image horizontally for a later selfie-view display, and convert
+    # the BGR image to RGB.
+    image = cv2.cvtColor(cv2.flip(image, 1), cv2.COLOR_BGR2RGB)
+    # To improve performance, optionally mark the image as not writeable to
+    # pass by reference.
+    image.flags.writeable = False
+    results = holistic.process(image)
 
-  # Draw landmark annotation on the image.
-  image.flags.writeable = True
-  image = cv2.cvtColor(image, cv2.COLOR_RGB2BGR)
-  mp_drawing.draw_landmarks(
-      image, results.face_landmarks, mp_holistic.FACE_CONNECTIONS)
-  mp_drawing.draw_landmarks(
-      image, results.left_hand_landmarks, mp_holistic.HAND_CONNECTIONS)
-  mp_drawing.draw_landmarks(
-      image, results.right_hand_landmarks, mp_holistic.HAND_CONNECTIONS)
-  mp_drawing.draw_landmarks(
-      image, results.pose_landmarks, mp_holistic.POSE_CONNECTIONS)
-  cv2.imshow('MediaPipe Holistic', image)
-  if cv2.waitKey(5) & 0xFF == 27:
-    break
-holistic.close()
+    # Draw landmark annotation on the image.
+    image.flags.writeable = True
+    image = cv2.cvtColor(image, cv2.COLOR_RGB2BGR)
+    mp_drawing.draw_landmarks(
+        image, results.face_landmarks, mp_holistic.FACE_CONNECTIONS)
+    mp_drawing.draw_landmarks(
+        image, results.left_hand_landmarks, mp_holistic.HAND_CONNECTIONS)
+    mp_drawing.draw_landmarks(
+        image, results.right_hand_landmarks, mp_holistic.HAND_CONNECTIONS)
+    mp_drawing.draw_landmarks(
+        image, results.pose_landmarks, mp_holistic.POSE_CONNECTIONS)
+    cv2.imshow('MediaPipe Holistic', image)
+    if cv2.waitKey(5) & 0xFF == 27:
+      break
 cap.release()
 ```
 
 ### JavaScript Solution API
 
 Please first see general [introduction](../getting_started/javascript.md) on
-MediaPipe in JavaScript, then learn more in the companion [web demo] and the
-following usage example.
+MediaPipe in JavaScript, then learn more in the companion [web demo](#resources)
+and the following usage example.
 
 Supported configuration options:
 
@@ -407,7 +408,5 @@ on how to build MediaPipe examples.
 *   Google AI Blog:
     [MediaPipe Holistic - Simultaneous Face, Hand and Pose Prediction, on Device](https://ai.googleblog.com/2020/12/mediapipe-holistic-simultaneous-face.html)
 *   [Models and model cards](./models.md#holistic)
-
-[Colab]:https://mediapipe.page.link/holistic_py_colab
-
-[web demo]:https://code.mediapipe.dev/codepen/holistic
+*   [Web demo](https://code.mediapipe.dev/codepen/holistic)
+*   [Python Colab](https://mediapipe.page.link/holistic_py_colab)

docs/solutions/instant_motion_tracking.md

@@ -117,6 +117,25 @@ Please first see general instructions for
 * Android target (or download prebuilt [ARM64 APK](https://drive.google.com/file/d/1KnaBBoKpCHR73nOBJ4fL_YdWVTAcwe6L/view?usp=sharing)):
 [`mediapipe/examples/android/src/java/com/google/mediapipe/apps/instantmotiontracking:instantmotiontracking`](https://github.com/google/mediapipe/tree/master/mediapipe/examples/android/src/java/com/google/mediapipe/apps/instantmotiontracking/BUILD)
 
+* Assets rendered by the [GlAnimationOverlayCalculator](https://github.com/google/mediapipe/tree/master/mediapipe/graphs/object_detection_3d/calculators/gl_animation_overlay_calculator.cc) must be preprocessed into an OpenGL-ready custom .uuu format. This can be done
+for user assets as follows:
+> First run
+>
+> ```shell
+> ./mediapipe/graphs/object_detection_3d/obj_parser/obj_cleanup.sh [INPUT_DIR] [INTERMEDIATE_OUTPUT_DIR]
+> ```
+> and then run
+>
+> ```build
+> bazel run -c opt mediapipe/graphs/object_detection_3d/obj_parser:ObjParser -- input_dir=[INTERMEDIATE_OUTPUT_DIR] output_dir=[OUTPUT_DIR]
+> ```
+> INPUT_DIR should be the folder with initial asset .obj files to be processed,
+> and OUTPUT_DIR is the folder where the processed asset .uuu file will be placed.
+>
+> Note: ObjParser combines all .obj files found in the given directory into a
+> single .uuu animation file, using the order given by sorting the filenames alphanumerically. Also the ObjParser directory inputs must be given as
+> absolute paths, not relative paths. See parser utility library at [`mediapipe/graphs/object_detection_3d/obj_parser/`](https://github.com/google/mediapipe/tree/master/mediapipe/graphs/object_detection_3d/obj_parser/) for more details.
+
 ## Resources
 
 *   Google Developers Blog:

docs/solutions/models.md

@@ -41,8 +41,9 @@ nav_order: 30
     [TF.js model](https://tfhub.dev/mediapipe/handdetector/1)
 *   Hand landmark model:
     [TFLite model](https://github.com/google/mediapipe/tree/master/mediapipe/modules/hand_landmark/hand_landmark.tflite),
+    [TFLite model (sparse)](https://github.com/google/mediapipe/tree/master/mediapipe/modules/hand_landmark/hand_landmark_sparse.tflite),
     [TF.js model](https://tfhub.dev/mediapipe/handskeleton/1)
-*   [Model card](https://mediapipe.page.link/handmc)
+*   [Model card](https://mediapipe.page.link/handmc), [Model card (sparse)](https://mediapipe.page.link/handmc-sparse)
 
 ### [Pose](https://google.github.io/mediapipe/solutions/pose)
 
@@ -73,12 +74,12 @@ nav_order: 30
 
 ### [Objectron](https://google.github.io/mediapipe/solutions/objectron)
 
-*   [TFLite model for shoes](https://github.com/google/mediapipe/tree/master/mediapipe/models/object_detection_3d_sneakers.tflite)
-*   [TFLite model for chairs](https://github.com/google/mediapipe/tree/master/mediapipe/models/object_detection_3d_chair.tflite)
-*   [TFLite model for cameras](https://github.com/google/mediapipe/tree/master/mediapipe/models/object_detection_3d_camera.tflite)
-*   [TFLite model for cups](https://github.com/google/mediapipe/tree/master/mediapipe/models/object_detection_3d_cup.tflite)
-*   [Single-stage TFLite model for shoes](https://github.com/google/mediapipe/tree/master/mediapipe/models/object_detection_3d_sneakers_1stage.tflite)
-*   [Single-stage TFLite model for chairs](https://github.com/google/mediapipe/tree/master/mediapipe/models/object_detection_3d_chair_1stage.tflite)
+*   [TFLite model for shoes](https://github.com/google/mediapipe/tree/master/mediapipe/modules/objectron/object_detection_3d_sneakers.tflite)
+*   [TFLite model for chairs](https://github.com/google/mediapipe/tree/master/mediapipe/modules/objectron/object_detection_3d_chair.tflite)
+*   [TFLite model for cameras](https://github.com/google/mediapipe/tree/master/mediapipe/modules/objectron/object_detection_3d_camera.tflite)
+*   [TFLite model for cups](https://github.com/google/mediapipe/tree/master/mediapipe/modules/objectron/object_detection_3d_cup.tflite)
+*   [Single-stage TFLite model for shoes](https://github.com/google/mediapipe/tree/master/mediapipe/modules/objectron/object_detection_3d_sneakers_1stage.tflite)
+*   [Single-stage TFLite model for chairs](https://github.com/google/mediapipe/tree/master/mediapipe/modules/objectron/object_detection_3d_chair_1stage.tflite)
 *   [Model card](https://mediapipe.page.link/objectron-mc)
 
 ### [KNIFT](https://google.github.io/mediapipe/solutions/knift)

docs/solutions/objectron.md

@@ -186,6 +186,175 @@ trained our 3D object detection models. The technical details of the Objectron
 dataset, including usage and tutorials, are available on
 the [dataset website](https://github.com/google-research-datasets/Objectron/).
 
+## Solution APIs
+
+### Cross-platform Configuration Options
+
+Naming style and availability may differ slightly across platforms/languages.
+
+#### static_image_mode
+
+If set to `false`, the solution treats the input images as a video stream. It
+will try to detect objects in the very first images, and upon successful
+detection further localizes the 3D bounding box landmarks. In subsequent images,
+once all [max_num_objects](#max_num_objects) objects are detected and the
+corresponding 3D bounding box landmarks are localized, it simply tracks those
+landmarks without invoking another detection until it loses track of any of the
+objects. This reduces latency and is ideal for processing video frames. If set
+to `true`, object detection runs every input image, ideal for processing a batch
+of static, possibly unrelated, images. Default to `false`.
+
+#### max_num_objects
+
+Maximum number of objects to detect. Default to `5`.
+
+#### min_detection_confidence
+
+Minimum confidence value (`[0.0, 1.0]`) from the object-detection model for the
+detection to be considered successful. Default to `0.5`.
+
+#### min_tracking_confidence
+
+Minimum confidence value (`[0.0, 1.0]`) from the landmark-tracking model for the
+3D bounding box landmarks to be considered tracked successfully, or otherwise
+object detection will be invoked automatically on the next input image. Setting
+it to a higher value can increase robustness of the solution, at the expense of
+a higher latency. Ignored if [static_image_mode](#static_image_mode) is `true`,
+where object detection simply runs on every image. Default to `0.99`.
+
+#### model_name
+
+Name of the model to use for predicting 3D bounding box landmarks. Currently supports
+`{'Shoe', 'Chair', 'Cup', 'Camera'}`.
+
+#### focal_length
+
+Camera focal length `(fx, fy)`, by default is defined in
+[NDC space](#ndc-space). To use focal length `(fx_pixel, fy_pixel)` in
+[pixel space](#pixel-space), users should provide `image_size` = `(image_width,
+image_height)` to enable conversions inside the API. For further details about
+NDC and pixel space, please see [Coordinate Systems](#coordinate-systems).
+
+#### principal_point
+
+Camera principal point `(px, py)`, by default is defined in
+[NDC space](#ndc-space). To use principal point `(px_pixel, py_pixel)` in
+[pixel space](#pixel-space), users should provide `image_size` = `(image_width,
+image_height)` to enable conversions inside the API. For further details about
+NDC and pixel space, please see [Coordinate Systems](#coordinate-systems).
+
+#### image_size
+
+(**Optional**) size `(image_width, image_height)` of the input image, **ONLY**
+needed when use `focal_length` and `principal_point` in pixel space.
+
+### Output
+
+<!-- Naming style may differ slightly across platforms/languages. -->
+
+#### detected_objects
+
+A list of detected 3D bounding box. Each 3D bounding box consists of the
+following:
+
+*   `landmarks_2d` : 2D landmarks of the object's 3D bounding box. The landmark
+    coordinates are normalized to `[0.0, 1.0]` by the image width and height
+    respectively.
+
+*   `landmarks_3d` : 3D landmarks of the object's 3D bounding box. The landmark
+    coordinates are represented in [camera coordinate](#camera-coordinate)
+    frame.
+
+*   `rotation` : rotation matrix from object coordinate frame to camera
+    coordinate frame.
+
+*   `translation` : translation vector from object coordinate frame to camera
+    coordinate frame.
+
+*   `scale` : relative scale of the object along `x`, `y` and `z` directions.
+
+## Python Solution API
+
+Please first follow general [instructions](../getting_started/python.md) to
+install MediaPipe Python package, then learn more in the companion
+[Python Colab](#resources) and the following usage example.
+
+Supported configuration options:
+
+*   [static_image_mode](#static_image_mode)
+*   [max_num_objects](#max_num_objects)
+*   [min_detection_confidence](#min_detection_confidence)
+*   [min_tracking_confidence](#min_tracking_confidence)
+*   [model_name](#model_name)
+*   [focal_length](#focal_length)
+*   [principal_point](#principal_point)
+*   [image_size](#image_size)
+
+```python
+import cv2
+import mediapipe as mp
+mp_drawing = mp.solutions.drawing_utils
+mp_objectron = mp.solutions.objectron
+
+# For static images:
+with mp_objectron.Objectron(static_image_mode=True,
+                            max_num_objects=5,
+                            min_detection_confidence=0.5,
+                            model_name='Shoe') as objectron:
+  for idx, file in enumerate(file_list):
+    image = cv2.imread(file)
+    # Convert the BGR image to RGB and process it with MediaPipe Objectron.
+    results = objectron.process(cv2.cvtColor(image, cv2.COLOR_BGR2RGB))
+
+    # Draw box landmarks.
+    if not results.detected_objects:
+      print(f'No box landmarks detected on {file}')
+      continue
+    print(f'Box landmarks of {file}:')
+    annotated_image = image.copy()
+    for detected_object in results.detected_objects:
+      mp_drawing.draw_landmarks(
+          annotated_image, detected_object.landmarks_2d, mp_objectron.BOX_CONNECTIONS)
+      mp_drawing.draw_axis(annotated_image, detected_object.rotation,
+                           detected_object.translation)
+      cv2.imwrite('/tmp/annotated_image' + str(idx) + '.png', annotated_image)
+
+# For webcam input:
+cap = cv2.VideoCapture(0)
+with mp_objectron.Objectron(static_image_mode=False,
+                            max_num_objects=5,
+                            min_detection_confidence=0.5,
+                            min_tracking_confidence=0.99,
+                            model_name='Shoe') as objectron:
+  while cap.isOpened():
+    success, image = cap.read()
+    if not success:
+      print("Ignoring empty camera frame.")
+      # If loading a video, use 'break' instead of 'continue'.
+      continue
+
+    # Convert the BGR image to RGB.
+    image = cv2.cvtColor(image, cv2.COLOR_BGR2RGB)
+    # To improve performance, optionally mark the image as not writeable to
+    # pass by reference.
+    image.flags.writeable = False
+    results = objectron.process(image)
+
+    # Draw the box landmarks on the image.
+    image.flags.writeable = True
+    image = cv2.cvtColor(image, cv2.COLOR_RGB2BGR)
+    if results.detected_objects:
+        for detected_object in results.detected_objects:
+            mp_drawing.draw_landmarks(
+              image, detected_object.landmarks_2d, mp_objectron.BOX_CONNECTIONS)
+            mp_drawing.draw_axis(image, detected_object.rotation,
+                                 detected_object.translation)
+    cv2.imshow('MediaPipe Objectron', image)
+    if cv2.waitKey(5) & 0xFF == 27:
+      break
+cap.release()
+```
+
 ## Example Apps
 
 Please first see general instructions for
@@ -259,6 +428,104 @@ to visualize its associated subgraphs, please see
 
 *   iOS target: Not available
 
+### Assets
+
+Example app bounding boxes are rendered with [GlAnimationOverlayCalculator](https://github.com/google/mediapipe/tree/master/mediapipe/graphs/object_detection_3d/calculators/gl_animation_overlay_calculator.cc) using a parsing of the sequenced .obj file
+ format into a custom .uuu format. This can be done for user assets as follows:
+> First run
+>
+> ```shell
+> ./mediapipe/graphs/object_detection_3d/obj_parser/obj_cleanup.sh [INPUT_DIR] [INTERMEDIATE_OUTPUT_DIR]
+> ```
+> and then run
+>
+> ```build
+> bazel run -c opt mediapipe/graphs/object_detection_3d/obj_parser:ObjParser -- input_dir=[INTERMEDIATE_OUTPUT_DIR] output_dir=[OUTPUT_DIR]
+> ```
+> INPUT_DIR should be the folder with initial asset .obj files to be processed,
+> and OUTPUT_DIR is the folder where the processed asset .uuu file will be placed.
+>
+> Note: ObjParser combines all .obj files found in the given directory into a
+> single .uuu animation file, using the order given by sorting the filenames alphanumerically. Also the ObjParser directory inputs must be given as
+> absolute paths, not relative paths. See parser utility library at [`mediapipe/graphs/object_detection_3d/obj_parser/`](https://github.com/google/mediapipe/tree/master/mediapipe/graphs/object_detection_3d/obj_parser/) for more details.
+
+### Coordinate Systems
+
+#### Object Coordinate
+
+Each object has its object coordinate frame. We use the below object coordinate
+definition, with `+x` pointing right, `+y` pointing up and `+z` pointing front,
+origin is at the center of the 3D bounding box.
+
+![box_coordinate.svg](../images/box_coordinate.svg)
+
+#### Camera Coordinate
+
+A 3D object is parameterized by its `scale` and `rotation`, `translation` with
+regard to the camera coordinate frame. In this API we use the below camera
+coordinate definition, with `+x` pointing right, `+y` pointing up and `-z`
+pointing to the scene.
+
+![camera_coordinate.svg](../images/camera_coordinate.svg)
+
+To work with box landmarks, one can first derive landmark coordinates in object
+frame by scaling a origin centered unit box with `scale`, then transform to
+camera frame by applying `rotation` and `translation`:
+
+```
+landmarks_3d = rotation * scale * unit_box + translation
+```
+
+#### NDC Space
+
+In this API we use
+[NDC(normalized device coordinates)](http://www.songho.ca/opengl/gl_projectionmatrix.html)
+as an intermediate space when projecting points from 3D to 2D. In NDC space,
+`x`, `y` are confined to `[-1, 1]`.
+
+![ndc_coordinate.svg](../images/ndc_coordinate.svg)
+
+By default the camera parameters `(fx, fy)` and `(px, py)` are defined in NDC
+space. Given `(X, Y, Z)` of 3D points in camera coordinate, one can project 3D
+points to NDC space as follows:
+
+```
+x_ndc = -fx * X / Z + px
+y_ndc = -fy * Y / Z + py
+z_ndc = 1 / Z
+```
+
+#### Pixel Space
+
+In this API we set upper-left coner of an image as the origin of pixel
+coordinate. One can convert from NDC to pixel space as follows:
+
+```
+x_pixel = (1 + x_ndc) / 2.0 * image_width
+y_pixel = (1 - y_ndc) / 2.0 * image_height
+```
+
+Alternatively one can directly project from camera coordinate to pixel
+coordinate with camera parameters `(fx_pixel, fy_pixel)` and `(px_pixel,
+py_pixel)` defined in pixel space as follows:
+
+```
+x_pixel = -fx_pixel * X / Z + px_pixel
+y_pixel =  fy_pixel * Y / Z + py_pixel
+```
+
+Conversion of camera parameters from pixel space to NDC space:
+
+```
+fx = fx_pixel * 2.0 / image_width
+fy = fy_pixel * 2.0 / image_height
+```
+
+```
+px = -px_pixel * 2.0 / image_width  + 1.0
+py = -py_pixel * 2.0 / image_height + 1.0
+```
+
 ## Resources
 
 *   Google AI Blog:
@@ -271,3 +538,4 @@ to visualize its associated subgraphs, please see
     [Instant 3D Object Tracking with Applications in Augmented Reality](https://drive.google.com/open?id=1O_zHmlgXIzAdKljp20U_JUkEHOGG52R8)
     ([presentation](https://www.youtube.com/watch?v=9ndF1AIo7h0))
 *   [Models and model cards](./models.md#objectron)
+*   [Python Colab](https://mediapipe.page.link/objectron_py_colab)

docs/solutions/pose.md

@@ -21,13 +21,15 @@ nav_order: 5
 ## Overview
 
 Human pose estimation from video plays a critical role in various applications
-such as quantifying physical exercises, sign language recognition, and full-body
-gesture control. For example, it can form the basis for yoga, dance, and fitness
-applications. It can also enable the overlay of digital content and information
-on top of the physical world in augmented reality.
+such as
+[quantifying physical exercises](#pose-classification-and-repetition-counting),
+sign language recognition, and full-body gesture control. For example, it can
+form the basis for yoga, dance, and fitness applications. It can also enable the
+overlay of digital content and information on top of the physical world in
+augmented reality.
 
 MediaPipe Pose is a ML solution for high-fidelity body pose tracking, inferring
-33 2D landmarks on the whole body (or 25 upper-body landmarks) from RGB video
+33 3D landmarks on the whole body (or 25 upper-body landmarks) from RGB video
 frames utilizing our
 [BlazePose](https://ai.googleblog.com/2020/08/on-device-real-time-body-pose-tracking.html)
 research that also powers the
@@ -35,7 +37,7 @@ research that also powers the
 Current state-of-the-art approaches rely primarily on powerful desktop
 environments for inference, whereas our method achieves real-time performance on
 most modern [mobile phones](#mobile), [desktops/laptops](#desktop), in
-[python](#python) and even on the [web](#web).
+[python](#python-solution-api) and even on the [web](#javascript-solution-api).
 
 ![pose_tracking_upper_body_example.gif](../images/mobile/pose_tracking_upper_body_example.gif) |
 :--------------------------------------------------------------------------------------------: |
@@ -92,7 +94,7 @@ hip midpoints.
 :----------------------------------------------------------------------------------------------------: |
 *Fig 2. Vitruvian man aligned via two virtual keypoints predicted by BlazePose detector in addition to the face bounding box.* |
 
-### Pose Landmark Model (BlazePose Tracker)
+### Pose Landmark Model (BlazePose GHUM 3D)
 
 The landmark model in MediaPipe Pose comes in two versions: a full-body model
 that predicts the location of 33 pose landmarks (see figure below), and an
@@ -163,16 +165,21 @@ A list of pose landmarks. Each lanmark consists of the following:
 
 *   `x` and `y`: Landmark coordinates normalized to `[0.0, 1.0]` by the image
     width and height respectively.
-*   `z`: Should be discarded as currently the model is not fully trained to
-    predict depth, but this is something on the roadmap.
+*   `z`: Represents the landmark depth with the depth at the midpoint of hips
+    being the origin, and the smaller the value the closer the landmark is to
+    the camera. The magnitude of `z` uses roughly the same scale as `x`.
+
+    Note: `z` is predicted only in full-body mode, and should be discarded when
+    [upper_body_only](#upper_body_only) is `true`.
+
 *   `visibility`: A value in `[0.0, 1.0]` indicating the likelihood of the
     landmark being visible (present and not occluded) in the image.
 
 ### Python Solution API
 
 Please first follow general [instructions](../getting_started/python.md) to
-install MediaPipe Python package, then learn more in the companion [Colab] and
-the following usage example.
+install MediaPipe Python package, then learn more in the companion
+[Python Colab](#resources) and the following usage example.
 
 Supported configuration options:
 
@@ -189,64 +196,65 @@ mp_drawing = mp.solutions.drawing_utils
 mp_pose = mp.solutions.pose
 
 # For static images:
-pose = mp_pose.Pose(
-    static_image_mode=True, min_detection_confidence=0.5)
-for idx, file in enumerate(file_list):
-  image = cv2.imread(file)
-  image_hight, image_width, _ = image.shape
-  # Convert the BGR image to RGB before processing.
-  results = pose.process(cv2.cvtColor(image, cv2.COLOR_BGR2RGB))
+with mp_pose.Pose(
+    static_image_mode=True, min_detection_confidence=0.5) as pose:
+  for idx, file in enumerate(file_list):
+    image = cv2.imread(file)
+    image_height, image_width, _ = image.shape
+    # Convert the BGR image to RGB before processing.
+    results = pose.process(cv2.cvtColor(image, cv2.COLOR_BGR2RGB))
 
-  if not results.pose_landmarks:
-    continue
-  print(
-      f'Nose coordinates: ('
-      f'{results.pose_landmarks.landmark[mp_holistic.PoseLandmark.NOSE].x * image_width}, '
-      f'{results.pose_landmarks.landmark[mp_holistic.PoseLandmark.NOSE].y * image_hight})'
-  )
-  # Draw pose landmarks on the image.
-  annotated_image = image.copy()
-  mp_drawing.draw_landmarks(
-      annotated_image, results.pose_landmarks, mp_pose.POSE_CONNECTIONS)
-  cv2.imwrite('/tmp/annotated_image' + str(idx) + '.png', annotated_image)
-pose.close()
+    if not results.pose_landmarks:
+      continue
+    print(
+        f'Nose coordinates: ('
+        f'{results.pose_landmarks.landmark[mp_holistic.PoseLandmark.NOSE].x * image_width}, '
+        f'{results.pose_landmarks.landmark[mp_holistic.PoseLandmark.NOSE].y * image_height})'
+    )
+    # Draw pose landmarks on the image.
+    annotated_image = image.copy()
+    # Use mp_pose.UPPER_BODY_POSE_CONNECTIONS for drawing below when
+    # upper_body_only is set to True.
+    mp_drawing.draw_landmarks(
+        annotated_image, results.pose_landmarks, mp_pose.POSE_CONNECTIONS)
+    cv2.imwrite('/tmp/annotated_image' + str(idx) + '.png', annotated_image)
 
 # For webcam input:
-pose = mp_pose.Pose(
-    min_detection_confidence=0.5, min_tracking_confidence=0.5)
 cap = cv2.VideoCapture(0)
-while cap.isOpened():
-  success, image = cap.read()
-  if not success:
-    print("Ignoring empty camera frame.")
-    # If loading a video, use 'break' instead of 'continue'.
-    continue
+with mp_pose.Pose(
+    min_detection_confidence=0.5,
+    min_tracking_confidence=0.5) as pose:
+  while cap.isOpened():
+    success, image = cap.read()
+    if not success:
+      print("Ignoring empty camera frame.")
+      # If loading a video, use 'break' instead of 'continue'.
+      continue
 
-  # Flip the image horizontally for a later selfie-view display, and convert
-  # the BGR image to RGB.
-  image = cv2.cvtColor(cv2.flip(image, 1), cv2.COLOR_BGR2RGB)
-  # To improve performance, optionally mark the image as not writeable to
-  # pass by reference.
-  image.flags.writeable = False
-  results = pose.process(image)
+    # Flip the image horizontally for a later selfie-view display, and convert
+    # the BGR image to RGB.
+    image = cv2.cvtColor(cv2.flip(image, 1), cv2.COLOR_BGR2RGB)
+    # To improve performance, optionally mark the image as not writeable to
+    # pass by reference.
+    image.flags.writeable = False
+    results = pose.process(image)
 
-  # Draw the pose annotation on the image.
-  image.flags.writeable = True
-  image = cv2.cvtColor(image, cv2.COLOR_RGB2BGR)
-  mp_drawing.draw_landmarks(
-      image, results.pose_landmarks, mp_pose.POSE_CONNECTIONS)
-  cv2.imshow('MediaPipe Pose', image)
-  if cv2.waitKey(5) & 0xFF == 27:
-    break
-pose.close()
+    # Draw the pose annotation on the image.
+    image.flags.writeable = True
+    image = cv2.cvtColor(image, cv2.COLOR_RGB2BGR)
+    mp_drawing.draw_landmarks(
+        image, results.pose_landmarks, mp_pose.POSE_CONNECTIONS)
+    cv2.imshow('MediaPipe Pose', image)
+    if cv2.waitKey(5) & 0xFF == 27:
+      break
 cap.release()
 ```
 
 ### JavaScript Solution API
 
 Please first see general [introduction](../getting_started/javascript.md) on
-MediaPipe in JavaScript, then learn more in the companion [web demo] and the
-following usage example.
+MediaPipe in JavaScript, then learn more in the companion [web demo](#resources)
+and the following usage example.
 
 Supported configuration options:
 
@@ -379,6 +387,121 @@ on how to build MediaPipe examples.
     *   Target:
         [`mediapipe/examples/desktop/upper_body_pose_tracking:upper_body_pose_tracking_gpu`](https://github.com/google/mediapipe/tree/master/mediapipe/examples/desktop/upper_body_pose_tracking/BUILD)
 
+## Pose Classification and Repetition Counting
+
+One of the applications
+[BlazePose](https://ai.googleblog.com/2020/08/on-device-real-time-body-pose-tracking.html)
+can enable is fitness. More specifically - pose classification and repetition
+counting. In this section we'll provide basic guidance on building a custom pose
+classifier with the help of a
+[Colab](https://drive.google.com/file/d/19txHpN8exWhstO6WVkfmYYVC6uug_oVR/view?usp=sharing)
+and wrap it in a simple
+[fitness app](https://mediapipe.page.link/mlkit-pose-classification-demo-app)
+powered by [ML Kit](https://developers.google.com/ml-kit). Push-ups and squats
+are used for demonstration purposes as the most common exercises.
+
+![pose_classification_pushups_and_squats.gif](../images/mobile/pose_classification_pushups_and_squats.gif) |
+:--------------------------------------------------------------------------------------------------------: |
+*Fig 4. Pose classification and repetition counting with MediaPipe Pose.*                                  |
+
+We picked the
+[k-nearest neighbors algorithm](https://en.wikipedia.org/wiki/K-nearest_neighbors_algorithm)
+(k-NN) as the classifier. It's simple and easy to start with. The algorithm
+determines the object's class based on the closest samples in the training set.
+To build it, one needs to:
+
+*   Collect image samples of the target exercises and run pose prediction on
+    them,
+*   Convert obtained pose landmarks to a representation suitable for the k-NN
+    classifier and form a training set,
+*   Perform the classification itself followed by repetition counting.
+
+### Training Set
+
+To build a good classifier appropriate samples should be collected for the
+training set: about a few hundred samples for each terminal state of each
+exercise (e.g., "up" and "down" positions for push-ups). It's important that
+collected samples cover different camera angles, environment conditions, body
+shapes, and exercise variations.
+
+![pose_classification_pushups_un_and_down_samples.jpg](../images/mobile/pose_classification_pushups_un_and_down_samples.jpg) |
+:--------------------------------------------------------------------------------------------------------------------------: |
+*Fig 5. Two terminal states of push-ups.*                                                                                    |
+
+To transform samples into a k-NN classifier training set, either
+[basic](https://drive.google.com/file/d/1z4IM8kG6ipHN6keadjD-F6vMiIIgViKK/view?usp=sharing)
+or
+[extended](https://drive.google.com/file/d/19txHpN8exWhstO6WVkfmYYVC6uug_oVR/view?usp=sharing)
+Colab could be used. They both use the
+[Python Solution API](#python-solution-api) to run the BlazePose models on given
+images and dump predicted pose landmarks to a CSV file. Additionally, the
+extended Colab provides useful tools to find outliers (e.g., wrongly predicted
+poses) and underrepresented classes (e.g., not covering all camera angles) by
+classifying each sample against the entire training set. After that, you'll be
+able to test the classifier on an arbitrary video right in the Colab.
+
+### Classification
+
+Code of the classifier is available both in the
+[extended](https://drive.google.com/file/d/19txHpN8exWhstO6WVkfmYYVC6uug_oVR/view?usp=sharing)
+Colab and in the
+[ML Kit demo app](https://mediapipe.page.link/mlkit-pose-classification-demo-app).
+Please refer to them for details of the approach described below.
+
+The k-NN algorithm used for pose classification requires a feature vector
+representation of each sample and a metric to compute the distance between two
+such vectors to find the nearest pose samples to a target one.
+
+To convert pose landmarks to a feature vector, we use pairwise distances between
+predefined lists of pose joints, such as distances between wrist and shoulder,
+ankle and hip, and two wrists. Since the algorithm relies on distances, all
+poses are normalized to have the same torso size and vertical torso orientation
+before the conversion.
+
+![pose_classification_pairwise_distances.png](../images/mobile/pose_classification_pairwise_distances.png) |
+:--------------------------------------------------------------------------------------------------------: |
+*Fig 6. Main pairwise distances used for the pose feature vector.*                                         |
+
+To get a better classification result, k-NN search is invoked twice with
+different distance metrics:
+
+*   First, to filter out samples that are almost the same as the target one but
+    have only a few different values in the feature vector (which means
+    differently bent joints and thus other pose class), minimum per-coordinate
+    distance is used as distance metric,
+*   Then average per-coordinate distance is used to find the nearest pose
+    cluster among those from the first search.
+
+Finally, we apply
+[exponential moving average](https://en.wikipedia.org/wiki/Moving_average#Exponential_moving_average)
+(EMA) smoothing to level any noise from pose prediction or classification. To do
+that, we search not only for the nearest pose cluster, but we calculate a
+probability for each of them and use it for smoothing over time.
+
+### Repetition Counter
+
+To count the repetitions, the algorithm monitors the probability of a target
+pose class. Let's take push-ups with its "up" and "down" terminal states:
+
+*   When the probability of the "down" pose class passes a certain threshold for
+    the first time, the algorithm marks that the "down" pose class is entered.
+*   Once the probability drops below the threshold, the algorithm marks that the
+    "down" pose class has been exited and increases the counter.
+
+To avoid cases when the probability fluctuates around the threshold (e.g., when
+the user pauses between "up" and "down" states) causing phantom counts, the
+threshold used to detect when the state is exited is actually slightly lower
+than the one used to detect when the state is entered. It creates an interval
+where the pose class and the counter can't be changed.
+
+### Future Work
+
+We are actively working on improving BlazePose GHUM 3D's Z prediction. It will
+allow us to use joint angles in the feature vectors, which are more natural and
+easier to configure (although distances can still be useful to detect touches
+between body parts) and to perform rotation normalization of poses and reduce
+the number of camera angles required for accurate k-NN classification.
+
 ## Resources
 
 *   Google AI Blog:
@@ -387,7 +510,7 @@ on how to build MediaPipe examples.
     [BlazePose: On-device Real-time Body Pose Tracking](https://arxiv.org/abs/2006.10204)
     ([presentation](https://youtu.be/YPpUOTRn5tA))
 *   [Models and model cards](./models.md#pose)
-
-[Colab]:https://mediapipe.page.link/pose_py_colab
-
-[web demo]:https://code.mediapipe.dev/codepen/pose
+*   [Web demo](https://code.mediapipe.dev/codepen/pose)
+*   [Python Colab](https://mediapipe.page.link/pose_py_colab)
+*   [Pose Classification Colab (Basic)](https://mediapipe.page.link/pose_classification_basic)
+*   [Pose Classification Colab (Extended)](https://mediapipe.page.link/pose_classification_extended)

docs/solutions/solutions.md

@@ -18,7 +18,7 @@ has_toc: false
 
 []()                                                                                      | [Android](https://google.github.io/mediapipe/getting_started/android) | [iOS](https://google.github.io/mediapipe/getting_started/ios) | [C++](https://google.github.io/mediapipe/getting_started/cpp) | [Python](https://google.github.io/mediapipe/getting_started/python) | [JS](https://google.github.io/mediapipe/getting_started/javascript) | [Coral](https://github.com/google/mediapipe/tree/master/mediapipe/examples/coral/README.md)
 :---------------------------------------------------------------------------------------- | :-------------------------------------------------------------: | :-----------------------------------------------------: | :-----------------------------------------------------: | :-----------------------------------------------------------: | :-----------------------------------------------------------: | :--------------------------------------------------------------------:
-[Face Detection](https://google.github.io/mediapipe/solutions/face_detection)                   | ✅                                                               | ✅                                                       | ✅                                                       |                                                               |                                                               | ✅
+[Face Detection](https://google.github.io/mediapipe/solutions/face_detection)                   | ✅                                                               | ✅                                                       | ✅                                                       | ✅                                                             | ✅                                                             | ✅
 [Face Mesh](https://google.github.io/mediapipe/solutions/face_mesh)                             | ✅                                                               | ✅                                                       | ✅                                                       | ✅                                                             | ✅                                                             |
 [Iris](https://google.github.io/mediapipe/solutions/iris)                                       | ✅                                                               | ✅                                                       | ✅                                                       |                                                               |                                                               |
 [Hands](https://google.github.io/mediapipe/solutions/hands)                                     | ✅                                                               | ✅                                                       | ✅                                                       | ✅                                                             | ✅                                                             |
@@ -28,7 +28,7 @@ has_toc: false
 [Object Detection](https://google.github.io/mediapipe/solutions/object_detection)               | ✅                                                               | ✅                                                       | ✅                                                       |                                                               |                                                               | ✅
 [Box Tracking](https://google.github.io/mediapipe/solutions/box_tracking)                       | ✅                                                               | ✅                                                       | ✅                                                       |                                                               |                                                               |
 [Instant Motion Tracking](https://google.github.io/mediapipe/solutions/instant_motion_tracking) | ✅                                                               |                                                         |                                                         |                                                               |                                                               |
-[Objectron](https://google.github.io/mediapipe/solutions/objectron)                             | ✅                                                               |                                                         |                                                         |                                                               |                                                               |
+[Objectron](https://google.github.io/mediapipe/solutions/objectron)                             | ✅                                                               |                                                         |                                                         | ✅                                                             |                                                               |
 [KNIFT](https://google.github.io/mediapipe/solutions/knift)                                     | ✅                                                               |                                                         |                                                         |                                                               |                                                               |
 [AutoFlip](https://google.github.io/mediapipe/solutions/autoflip)                               |                                                                 |                                                         | ✅                                                       |                                                               |                                                               |
 [MediaSequence](https://google.github.io/mediapipe/solutions/media_sequence)                    |                                                                 |                                                         | ✅                                                       |                                                               |                                                               |

docs/tools/visualizer.md

@@ -37,7 +37,7 @@ The graph can be modified by adding and editing code in the Editor view.
     ![New Button](../images/upload_button.png)
 
 *   Pressing the "Upload" button will prompt the user to select a local PBTXT
-    file, which will everwrite the current code within the editor.
+    file, which will overwrite the current code within the editor.
 
 *   Alternatively, code can be pasted directly into the editor window.
 

mediapipe/MediaPipe.tulsiproj/Configs/MediaPipe.tulsigen

@@ -14,6 +14,7 @@
     "mediapipe/examples/ios/iristrackinggpu/BUILD",
     "mediapipe/examples/ios/objectdetectioncpu/BUILD",
     "mediapipe/examples/ios/objectdetectiongpu/BUILD",
+    "mediapipe/examples/ios/objectdetectiontrackinggpu/BUILD",
     "mediapipe/examples/ios/posetrackinggpu/BUILD",
     "mediapipe/examples/ios/upperbodyposetrackinggpu/BUILD",
     "mediapipe/framework/BUILD",
@@ -33,6 +34,7 @@
     "//mediapipe/examples/ios/iristrackinggpu:IrisTrackingGpuApp",
     "//mediapipe/examples/ios/objectdetectioncpu:ObjectDetectionCpuApp",
     "//mediapipe/examples/ios/objectdetectiongpu:ObjectDetectionGpuApp",
+    "//mediapipe/examples/ios/objectdetectiontrackinggpu:ObjectDetectionTrackingGpuApp",
     "//mediapipe/examples/ios/posetrackinggpu:PoseTrackingGpuApp",
     "//mediapipe/examples/ios/upperbodyposetrackinggpu:UpperBodyPoseTrackingGpuApp",
     "//mediapipe/objc:mediapipe_framework_ios"

mediapipe/MediaPipe.tulsiproj/project.tulsiconf

@@ -20,6 +20,7 @@
     "mediapipe/examples/ios/iristrackinggpu",
     "mediapipe/examples/ios/objectdetectioncpu",
     "mediapipe/examples/ios/objectdetectiongpu",
+    "mediapipe/examples/ios/objectdetectiontrackinggpu",
     "mediapipe/examples/ios/posetrackinggpu",
     "mediapipe/examples/ios/upperbodyposetrackinggpu",
     "mediapipe/objc"

mediapipe/calculators/audio/BUILD

@@ -1,4 +1,4 @@
-# Copyright 2019 The MediaPipe Authors.
+# Copyright 2019, 2021 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.
@@ -167,7 +167,7 @@ cc_library(
         "//mediapipe/util:time_series_util",
         "@com_google_absl//absl/strings",
         "@com_google_audio_tools//audio/dsp:resampler",
-        "@com_google_audio_tools//audio/dsp:resampler_rational_factor",
+        "@com_google_audio_tools//audio/dsp:resampler_q",
         "@eigen_archive//:eigen",
     ],
     alwayslink = 1,
@@ -242,6 +242,7 @@ cc_test(
         "//mediapipe/framework:calculator_runner",
         "//mediapipe/framework/deps:file_path",
         "//mediapipe/framework/formats:time_series_header_cc_proto",
+        "//mediapipe/framework/port:commandlineflags",
         "//mediapipe/framework/port:gtest_main",
         "//mediapipe/framework/port:parse_text_proto",
     ],

mediapipe/calculators/audio/audio_decoder_calculator.cc

@@ -48,17 +48,17 @@ namespace mediapipe {
 // TODO: support decoding multiple streams.
 class AudioDecoderCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc);
+  static absl::Status GetContract(CalculatorContract* cc);
 
-  mediapipe::Status Open(CalculatorContext* cc) override;
-  mediapipe::Status Process(CalculatorContext* cc) override;
-  mediapipe::Status Close(CalculatorContext* cc) override;
+  absl::Status Open(CalculatorContext* cc) override;
+  absl::Status Process(CalculatorContext* cc) override;
+  absl::Status Close(CalculatorContext* cc) override;
 
  private:
   std::unique_ptr<AudioDecoder> decoder_;
 };
 
-mediapipe::Status AudioDecoderCalculator::GetContract(CalculatorContract* cc) {
+absl::Status AudioDecoderCalculator::GetContract(CalculatorContract* cc) {
   cc->InputSidePackets().Tag("INPUT_FILE_PATH").Set<std::string>();
   if (cc->InputSidePackets().HasTag("OPTIONS")) {
     cc->InputSidePackets().Tag("OPTIONS").Set<mediapipe::AudioDecoderOptions>();
@@ -67,10 +67,10 @@ mediapipe::Status AudioDecoderCalculator::GetContract(CalculatorContract* cc) {
   if (cc->Outputs().HasTag("AUDIO_HEADER")) {
     cc->Outputs().Tag("AUDIO_HEADER").SetNone();
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status AudioDecoderCalculator::Open(CalculatorContext* cc) {
+absl::Status AudioDecoderCalculator::Open(CalculatorContext* cc) {
   const std::string& input_file_path =
       cc->InputSidePackets().Tag("INPUT_FILE_PATH").Get<std::string>();
   const auto& decoder_options =
@@ -87,10 +87,10 @@ mediapipe::Status AudioDecoderCalculator::Open(CalculatorContext* cc) {
     cc->Outputs().Tag("AUDIO_HEADER").SetHeader(Adopt(header.release()));
   }
   cc->Outputs().Tag("AUDIO_HEADER").Close();
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status AudioDecoderCalculator::Process(CalculatorContext* cc) {
+absl::Status AudioDecoderCalculator::Process(CalculatorContext* cc) {
   Packet data;
   int options_index = -1;
   auto status = decoder_->GetData(&options_index, &data);
@@ -100,7 +100,7 @@ mediapipe::Status AudioDecoderCalculator::Process(CalculatorContext* cc) {
   return status;
 }
 
-mediapipe::Status AudioDecoderCalculator::Close(CalculatorContext* cc) {
+absl::Status AudioDecoderCalculator::Close(CalculatorContext* cc) {
   return decoder_->Close();
 }
 

mediapipe/calculators/audio/audio_decoder_calculator_test.cc

@@ -15,6 +15,7 @@
 #include "mediapipe/framework/calculator_runner.h"
 #include "mediapipe/framework/deps/file_path.h"
 #include "mediapipe/framework/formats/time_series_header.pb.h"
+#include "mediapipe/framework/port/commandlineflags.h"
 #include "mediapipe/framework/port/gmock.h"
 #include "mediapipe/framework/port/gtest.h"
 #include "mediapipe/framework/port/parse_text_proto.h"

mediapipe/calculators/audio/basic_time_series_calculators.cc

@@ -38,7 +38,7 @@ static bool SafeMultiply(int x, int y, int* result) {
 }
 }  // namespace
 
-mediapipe::Status BasicTimeSeriesCalculatorBase::GetContract(
+absl::Status BasicTimeSeriesCalculatorBase::GetContract(
     CalculatorContract* cc) {
   cc->Inputs().Index(0).Set<Matrix>(
       // Input stream with TimeSeriesHeader.
@@ -46,10 +46,10 @@ mediapipe::Status BasicTimeSeriesCalculatorBase::GetContract(
   cc->Outputs().Index(0).Set<Matrix>(
       // Output stream with TimeSeriesHeader.
   );
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status BasicTimeSeriesCalculatorBase::Open(CalculatorContext* cc) {
+absl::Status BasicTimeSeriesCalculatorBase::Open(CalculatorContext* cc) {
   TimeSeriesHeader input_header;
   MP_RETURN_IF_ERROR(time_series_util::FillTimeSeriesHeaderIfValid(
       cc->Inputs().Index(0).Header(), &input_header));
@@ -57,11 +57,13 @@ mediapipe::Status BasicTimeSeriesCalculatorBase::Open(CalculatorContext* cc) {
   auto output_header = new TimeSeriesHeader(input_header);
   MP_RETURN_IF_ERROR(MutateHeader(output_header));
   cc->Outputs().Index(0).SetHeader(Adopt(output_header));
-  return mediapipe::OkStatus();
+
+  cc->SetOffset(0);
+
+  return absl::OkStatus();
 }
 
-mediapipe::Status BasicTimeSeriesCalculatorBase::Process(
-    CalculatorContext* cc) {
+absl::Status BasicTimeSeriesCalculatorBase::Process(CalculatorContext* cc) {
   const Matrix& input = cc->Inputs().Index(0).Get<Matrix>();
   MP_RETURN_IF_ERROR(time_series_util::IsMatrixShapeConsistentWithHeader(
       input, cc->Inputs().Index(0).Header().Get<TimeSeriesHeader>()));
@@ -71,12 +73,12 @@ mediapipe::Status BasicTimeSeriesCalculatorBase::Process(
       *output, cc->Outputs().Index(0).Header().Get<TimeSeriesHeader>()));
 
   cc->Outputs().Index(0).Add(output.release(), cc->InputTimestamp());
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status BasicTimeSeriesCalculatorBase::MutateHeader(
+absl::Status BasicTimeSeriesCalculatorBase::MutateHeader(
     TimeSeriesHeader* output_header) {
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 // Calculator to sum an input time series across channels.  This is
@@ -86,9 +88,9 @@ mediapipe::Status BasicTimeSeriesCalculatorBase::MutateHeader(
 class SumTimeSeriesAcrossChannelsCalculator
     : public BasicTimeSeriesCalculatorBase {
  protected:
-  mediapipe::Status MutateHeader(TimeSeriesHeader* output_header) final {
+  absl::Status MutateHeader(TimeSeriesHeader* output_header) final {
     output_header->set_num_channels(1);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   Matrix ProcessMatrix(const Matrix& input_matrix) final {
@@ -104,9 +106,9 @@ REGISTER_CALCULATOR(SumTimeSeriesAcrossChannelsCalculator);
 class AverageTimeSeriesAcrossChannelsCalculator
     : public BasicTimeSeriesCalculatorBase {
  protected:
-  mediapipe::Status MutateHeader(TimeSeriesHeader* output_header) final {
+  absl::Status MutateHeader(TimeSeriesHeader* output_header) final {
     output_header->set_num_channels(1);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   Matrix ProcessMatrix(const Matrix& input_matrix) final {
@@ -122,7 +124,7 @@ REGISTER_CALCULATOR(AverageTimeSeriesAcrossChannelsCalculator);
 // Options proto: None.
 class SummarySaiToPitchogramCalculator : public BasicTimeSeriesCalculatorBase {
  protected:
-  mediapipe::Status MutateHeader(TimeSeriesHeader* output_header) final {
+  absl::Status MutateHeader(TimeSeriesHeader* output_header) final {
     if (output_header->num_channels() != 1) {
       return tool::StatusInvalid(
           absl::StrCat("Expected single-channel input, got ",
@@ -131,7 +133,7 @@ class SummarySaiToPitchogramCalculator : public BasicTimeSeriesCalculatorBase {
     output_header->set_num_channels(output_header->num_samples());
     output_header->set_num_samples(1);
     output_header->set_sample_rate(output_header->packet_rate());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   Matrix ProcessMatrix(const Matrix& input_matrix) final {
@@ -160,7 +162,7 @@ REGISTER_CALCULATOR(ReverseChannelOrderCalculator);
 // Options proto: None.
 class FlattenPacketCalculator : public BasicTimeSeriesCalculatorBase {
  protected:
-  mediapipe::Status MutateHeader(TimeSeriesHeader* output_header) final {
+  absl::Status MutateHeader(TimeSeriesHeader* output_header) final {
     const int num_input_channels = output_header->num_channels();
     const int num_input_samples = output_header->num_samples();
     RET_CHECK(num_input_channels >= 0)
@@ -174,7 +176,7 @@ class FlattenPacketCalculator : public BasicTimeSeriesCalculatorBase {
     output_header->set_num_channels(output_num_channels);
     output_header->set_num_samples(1);
     output_header->set_sample_rate(output_header->packet_rate());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   Matrix ProcessMatrix(const Matrix& input_matrix) final {
@@ -253,10 +255,10 @@ REGISTER_CALCULATOR(DivideByMeanAcrossChannelsCalculator);
 // Options proto: None.
 class MeanCalculator : public BasicTimeSeriesCalculatorBase {
  protected:
-  mediapipe::Status MutateHeader(TimeSeriesHeader* output_header) final {
+  absl::Status MutateHeader(TimeSeriesHeader* output_header) final {
     output_header->set_num_samples(1);
     output_header->set_sample_rate(output_header->packet_rate());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   Matrix ProcessMatrix(const Matrix& input_matrix) final {
@@ -272,10 +274,10 @@ REGISTER_CALCULATOR(MeanCalculator);
 // Options proto: None.
 class StandardDeviationCalculator : public BasicTimeSeriesCalculatorBase {
  protected:
-  mediapipe::Status MutateHeader(TimeSeriesHeader* output_header) final {
+  absl::Status MutateHeader(TimeSeriesHeader* output_header) final {
     output_header->set_num_samples(1);
     output_header->set_sample_rate(output_header->packet_rate());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   Matrix ProcessMatrix(const Matrix& input_matrix) final {
@@ -293,9 +295,9 @@ REGISTER_CALCULATOR(StandardDeviationCalculator);
 // Options proto: None.
 class CovarianceCalculator : public BasicTimeSeriesCalculatorBase {
  protected:
-  mediapipe::Status MutateHeader(TimeSeriesHeader* output_header) final {
+  absl::Status MutateHeader(TimeSeriesHeader* output_header) final {
     output_header->set_num_samples(output_header->num_channels());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   Matrix ProcessMatrix(const Matrix& input_matrix) final {
@@ -313,9 +315,9 @@ REGISTER_CALCULATOR(CovarianceCalculator);
 // Options proto: None.
 class L2NormCalculator : public BasicTimeSeriesCalculatorBase {
  protected:
-  mediapipe::Status MutateHeader(TimeSeriesHeader* output_header) final {
+  absl::Status MutateHeader(TimeSeriesHeader* output_header) final {
     output_header->set_num_channels(1);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   Matrix ProcessMatrix(const Matrix& input_matrix) final {
@@ -385,12 +387,12 @@ REGISTER_CALCULATOR(ElementwiseSquareCalculator);
 // Options proto: None.
 class FirstHalfSlicerCalculator : public BasicTimeSeriesCalculatorBase {
  protected:
-  mediapipe::Status MutateHeader(TimeSeriesHeader* output_header) final {
+  absl::Status MutateHeader(TimeSeriesHeader* output_header) final {
     const int num_input_samples = output_header->num_samples();
     RET_CHECK(num_input_samples >= 0)
         << "FirstHalfSlicerCalculator: num_input_samples < 0";
     output_header->set_num_samples(num_input_samples / 2);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   Matrix ProcessMatrix(const Matrix& input_matrix) final {

mediapipe/calculators/audio/basic_time_series_calculators.h

@@ -28,16 +28,16 @@ namespace mediapipe {
 
 class BasicTimeSeriesCalculatorBase : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc);
-  mediapipe::Status Open(CalculatorContext* cc) override;
-  mediapipe::Status Process(CalculatorContext* cc) override;
+  static absl::Status GetContract(CalculatorContract* cc);
+  absl::Status Open(CalculatorContext* cc) final;
+  absl::Status Process(CalculatorContext* cc) final;
 
  protected:
   // Open() calls this method to mutate the output stream header.  The input
   // to this function will contain a copy of the input stream header, so
   // subclasses that do not need to mutate the header do not need to override
   // it.
-  virtual mediapipe::Status MutateHeader(TimeSeriesHeader* output_header);
+  virtual absl::Status MutateHeader(TimeSeriesHeader* output_header);
 
   // Process() calls this method on each packet to compute the output matrix.
   virtual Matrix ProcessMatrix(const Matrix& input_matrix) = 0;

mediapipe/calculators/audio/mfcc_mel_calculators.cc

@@ -66,7 +66,7 @@ std::string PortableDebugString(const TimeSeriesHeader& header) {
 // rows corresponding to the new feature space).
 class FramewiseTransformCalculatorBase : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->Inputs().Index(0).Set<Matrix>(
         // Sequence of Matrices, each column describing a particular time frame,
         // each row a feature dimension, with TimeSeriesHeader.
@@ -75,11 +75,11 @@ class FramewiseTransformCalculatorBase : public CalculatorBase {
         // Sequence of Matrices, each column describing a particular time frame,
         // each row a feature dimension, with TimeSeriesHeader.
     );
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) override;
-  mediapipe::Status Process(CalculatorContext* cc) override;
+  absl::Status Open(CalculatorContext* cc) final;
+  absl::Status Process(CalculatorContext* cc) final;
 
   int num_output_channels(void) { return num_output_channels_; }
 
@@ -90,8 +90,8 @@ class FramewiseTransformCalculatorBase : public CalculatorBase {
  private:
   // Takes header and options, and sets up state including calling
   // set_num_output_channels() on the base object.
-  virtual mediapipe::Status ConfigureTransform(const TimeSeriesHeader& header,
-                                               CalculatorContext* cc) = 0;
+  virtual absl::Status ConfigureTransform(const TimeSeriesHeader& header,
+                                          CalculatorContext* cc) = 0;
 
   // Takes a vector<double> corresponding to an input frame, and
   // perform the specific transformation to produce an output frame.
@@ -102,23 +102,23 @@ class FramewiseTransformCalculatorBase : public CalculatorBase {
   int num_output_channels_;
 };
 
-mediapipe::Status FramewiseTransformCalculatorBase::Open(
-    CalculatorContext* cc) {
+absl::Status FramewiseTransformCalculatorBase::Open(CalculatorContext* cc) {
   TimeSeriesHeader input_header;
   MP_RETURN_IF_ERROR(time_series_util::FillTimeSeriesHeaderIfValid(
       cc->Inputs().Index(0).Header(), &input_header));
 
-  mediapipe::Status status = ConfigureTransform(input_header, cc);
+  absl::Status status = ConfigureTransform(input_header, cc);
 
   auto output_header = new TimeSeriesHeader(input_header);
   output_header->set_num_channels(num_output_channels_);
   cc->Outputs().Index(0).SetHeader(Adopt(output_header));
 
+  cc->SetOffset(0);
+
   return status;
 }
 
-mediapipe::Status FramewiseTransformCalculatorBase::Process(
-    CalculatorContext* cc) {
+absl::Status FramewiseTransformCalculatorBase::Process(CalculatorContext* cc) {
   const Matrix& input = cc->Inputs().Index(0).Get<Matrix>();
   const int num_frames = input.cols();
   std::unique_ptr<Matrix> output(new Matrix(num_output_channels_, num_frames));
@@ -145,7 +145,7 @@ mediapipe::Status FramewiseTransformCalculatorBase::Process(
   }
   cc->Outputs().Index(0).Add(output.release(), cc->InputTimestamp());
 
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 // Calculator wrapper around the dsp/mfcc/mfcc.cc routine.
@@ -170,13 +170,13 @@ mediapipe::Status FramewiseTransformCalculatorBase::Process(
 // }
 class MfccCalculator : public FramewiseTransformCalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     return FramewiseTransformCalculatorBase::GetContract(cc);
   }
 
  private:
-  mediapipe::Status ConfigureTransform(const TimeSeriesHeader& header,
-                                       CalculatorContext* cc) override {
+  absl::Status ConfigureTransform(const TimeSeriesHeader& header,
+                                  CalculatorContext* cc) override {
     MfccCalculatorOptions mfcc_options = cc->Options<MfccCalculatorOptions>();
     mfcc_.reset(new audio_dsp::Mfcc());
     int input_length = header.num_channels();
@@ -194,7 +194,7 @@ class MfccCalculator : public FramewiseTransformCalculatorBase {
     // audio_dsp::MelFilterBank needs to know this to
     // correctly interpret the spectrogram bins.
     if (!header.has_audio_sample_rate()) {
-      return mediapipe::InvalidArgumentError(
+      return absl::InvalidArgumentError(
           absl::StrCat("No audio_sample_rate in input TimeSeriesHeader ",
                        PortableDebugString(header)));
     }
@@ -203,10 +203,10 @@ class MfccCalculator : public FramewiseTransformCalculatorBase {
         mfcc_->Initialize(input_length, header.audio_sample_rate());
 
     if (initialized) {
-      return mediapipe::OkStatus();
+      return absl::OkStatus();
     } else {
-      return mediapipe::Status(mediapipe::StatusCode::kInternal,
-                               "Mfcc::Initialize returned uninitialized");
+      return absl::Status(absl::StatusCode::kInternal,
+                          "Mfcc::Initialize returned uninitialized");
     }
   }
 
@@ -228,13 +228,13 @@ REGISTER_CALCULATOR(MfccCalculator);
 // if you ask for too many channels.
 class MelSpectrumCalculator : public FramewiseTransformCalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     return FramewiseTransformCalculatorBase::GetContract(cc);
   }
 
  private:
-  mediapipe::Status ConfigureTransform(const TimeSeriesHeader& header,
-                                       CalculatorContext* cc) override {
+  absl::Status ConfigureTransform(const TimeSeriesHeader& header,
+                                  CalculatorContext* cc) override {
     MelSpectrumCalculatorOptions mel_spectrum_options =
         cc->Options<MelSpectrumCalculatorOptions>();
     mel_filterbank_.reset(new audio_dsp::MelFilterbank());
@@ -245,7 +245,7 @@ class MelSpectrumCalculator : public FramewiseTransformCalculatorBase {
     // audio_dsp::MelFilterBank needs to know this to
     // correctly interpret the spectrogram bins.
     if (!header.has_audio_sample_rate()) {
-      return mediapipe::InvalidArgumentError(
+      return absl::InvalidArgumentError(
           absl::StrCat("No audio_sample_rate in input TimeSeriesHeader ",
                        PortableDebugString(header)));
     }
@@ -255,10 +255,10 @@ class MelSpectrumCalculator : public FramewiseTransformCalculatorBase {
         mel_spectrum_options.max_frequency_hertz());
 
     if (initialized) {
-      return mediapipe::OkStatus();
+      return absl::OkStatus();
     } else {
-      return mediapipe::Status(mediapipe::StatusCode::kInternal,
-                               "mfcc::Initialize returned uninitialized");
+      return absl::Status(absl::StatusCode::kInternal,
+                          "mfcc::Initialize returned uninitialized");
     }
   }
 

mediapipe/calculators/audio/mfcc_mel_calculators_test.cc

@@ -84,7 +84,7 @@ class FramewiseTransformCalculatorTest
     num_samples_per_packet_ = GenerateRandomNonnegInputStream(kNumPackets);
   }
 
-  mediapipe::Status Run() { return this->RunGraph(); }
+  absl::Status Run() { return this->RunGraph(); }
 
   void CheckResults(int expected_num_channels) {
     const auto& output_header =

mediapipe/calculators/audio/rational_factor_resample_calculator.cc

@@ -1,4 +1,4 @@
-// Copyright 2019 The MediaPipe Authors.
+// Copyright 2019, 2021 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.
@@ -16,22 +16,18 @@
 
 #include "mediapipe/calculators/audio/rational_factor_resample_calculator.h"
 
-#include "audio/dsp/resampler_rational_factor.h"
+#include "audio/dsp/resampler_q.h"
 
-using audio_dsp::DefaultResamplingKernel;
-using audio_dsp::RationalFactorResampler;
 using audio_dsp::Resampler;
 
 namespace mediapipe {
-mediapipe::Status RationalFactorResampleCalculator::Process(
-    CalculatorContext* cc) {
+absl::Status RationalFactorResampleCalculator::Process(CalculatorContext* cc) {
   return ProcessInternal(cc->Inputs().Index(0).Get<Matrix>(), false, cc);
 }
 
-mediapipe::Status RationalFactorResampleCalculator::Close(
-    CalculatorContext* cc) {
+absl::Status RationalFactorResampleCalculator::Close(CalculatorContext* cc) {
   if (initial_timestamp_ == Timestamp::Unstarted()) {
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
   Matrix empty_input_frame(num_channels_, 0);
   return ProcessInternal(empty_input_frame, true, cc);
@@ -40,11 +36,8 @@ mediapipe::Status RationalFactorResampleCalculator::Close(
 namespace {
 void CopyChannelToVector(const Matrix& matrix, int channel,
                          std::vector<float>* vec) {
-  vec->clear();
-  vec->reserve(matrix.cols());
-  for (int sample = 0; sample < matrix.cols(); ++sample) {
-    vec->push_back(matrix(channel, sample));
-  }
+  vec->resize(matrix.cols());
+  Eigen::Map<Eigen::ArrayXf>(vec->data(), vec->size()) = matrix.row(channel);
 }
 
 void CopyVectorToChannel(const std::vector<float>& vec, Matrix* matrix,
@@ -53,17 +46,14 @@ void CopyVectorToChannel(const std::vector<float>& vec, Matrix* matrix,
     matrix->resize(matrix->rows(), vec.size());
   } else {
     CHECK_EQ(vec.size(), matrix->cols());
-    CHECK_LT(channel, matrix->rows());
-  }
-  for (int sample = 0; sample < matrix->cols(); ++sample) {
-    (*matrix)(channel, sample) = vec[sample];
   }
+  CHECK_LT(channel, matrix->rows());
+  matrix->row(channel) =
+      Eigen::Map<const Eigen::ArrayXf>(vec.data(), vec.size());
 }
-
 }  // namespace
 
-mediapipe::Status RationalFactorResampleCalculator::Open(
-    CalculatorContext* cc) {
+absl::Status RationalFactorResampleCalculator::Open(CalculatorContext* cc) {
   RationalFactorResampleCalculatorOptions resample_options =
       cc->Options<RationalFactorResampleCalculatorOptions>();
 
@@ -88,7 +78,7 @@ mediapipe::Status RationalFactorResampleCalculator::Open(
                                resample_options);
       if (!r) {
         LOG(ERROR) << "Failed to initialize resampler.";
-        return mediapipe::UnknownError("Failed to initialize resampler.");
+        return absl::UnknownError("Failed to initialize resampler.");
       }
     }
   }
@@ -106,10 +96,10 @@ mediapipe::Status RationalFactorResampleCalculator::Open(
   initial_timestamp_ = Timestamp::Unstarted();
   check_inconsistent_timestamps_ =
       resample_options.check_inconsistent_timestamps();
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status RationalFactorResampleCalculator::ProcessInternal(
+absl::Status RationalFactorResampleCalculator::ProcessInternal(
     const Matrix& input_frame, bool should_flush, CalculatorContext* cc) {
   if (initial_timestamp_ == Timestamp::Unstarted()) {
     initial_timestamp_ = cc->InputTimestamp();
@@ -131,7 +121,7 @@ mediapipe::Status RationalFactorResampleCalculator::ProcessInternal(
     *output_frame = input_frame;
   } else {
     if (!Resample(input_frame, output_frame.get(), should_flush)) {
-      return mediapipe::UnknownError("Resample() failed.");
+      return absl::UnknownError("Resample() failed.");
     }
   }
   cumulative_output_samples_ += output_frame->cols();
@@ -139,7 +129,7 @@ mediapipe::Status RationalFactorResampleCalculator::ProcessInternal(
   if (output_frame->cols() > 0) {
     cc->Outputs().Index(0).Add(output_frame.release(), output_timestamp);
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 bool RationalFactorResampleCalculator::Resample(const Matrix& input_frame,
@@ -167,25 +157,28 @@ RationalFactorResampleCalculator::ResamplerFromOptions(
   std::unique_ptr<Resampler<float>> resampler;
   const auto& rational_factor_options =
       options.resampler_rational_factor_options();
-  std::unique_ptr<DefaultResamplingKernel> kernel;
+  audio_dsp::QResamplerParams params;
   if (rational_factor_options.has_radius() &&
       rational_factor_options.has_cutoff() &&
       rational_factor_options.has_kaiser_beta()) {
-    kernel = absl::make_unique<DefaultResamplingKernel>(
-        source_sample_rate, target_sample_rate,
-        rational_factor_options.radius(), rational_factor_options.cutoff(),
-        rational_factor_options.kaiser_beta());
-  } else {
-    kernel = absl::make_unique<DefaultResamplingKernel>(source_sample_rate,
-                                                        target_sample_rate);
+    // Convert RationalFactorResampler kernel parameters to QResampler
+    // settings.
+    params.filter_radius_factor =
+        rational_factor_options.radius() *
+        std::min(1.0, target_sample_rate / source_sample_rate);
+    params.cutoff_proportion = 2 * rational_factor_options.cutoff() /
+                               std::min(source_sample_rate, target_sample_rate);
+    params.kaiser_beta = rational_factor_options.kaiser_beta();
   }
-
   // Set large enough so that the resampling factor between common sample
   // rates (e.g. 8kHz, 16kHz, 22.05kHz, 32kHz, 44.1kHz, 48kHz) is exact, and
   // that any factor is represented with error less than 0.025%.
-  const int kMaxDenominator = 2000;
-  resampler = absl::make_unique<RationalFactorResampler<float>>(
-      *kernel, kMaxDenominator);
+  params.max_denominator = 2000;
+
+  // NOTE: QResampler supports multichannel resampling, so the code might be
+  // simplified using a single instance rather than one per channel.
+  resampler = absl::make_unique<audio_dsp::QResampler<float>>(
+      source_sample_rate, target_sample_rate, /*num_channels=*/1, params);
   if (resampler != nullptr && !resampler->Valid()) {
     resampler = std::unique_ptr<Resampler<float>>();
   }

mediapipe/calculators/audio/rational_factor_resample_calculator.h

@@ -1,4 +1,4 @@
-// Copyright 2019 The MediaPipe Authors.
+// Copyright 2019, 2021 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.
@@ -36,28 +36,31 @@ namespace mediapipe {
 // stream's sampling rate is specified by target_sample_rate in the
 // RationalFactorResampleCalculatorOptions.  The output time series may have
 // a varying number of samples per frame.
+//
+// NOTE: This calculator uses QResampler, despite the name, which supersedes
+// RationalFactorResampler.
 class RationalFactorResampleCalculator : public CalculatorBase {
  public:
   struct TestAccess;
 
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->Inputs().Index(0).Set<Matrix>(
         // Single input stream with TimeSeriesHeader.
     );
     cc->Outputs().Index(0).Set<Matrix>(
         // Resampled stream with TimeSeriesHeader.
     );
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
   // Returns FAIL if the input stream header is invalid or if the
   // resampler cannot be initialized.
-  mediapipe::Status Open(CalculatorContext* cc) override;
+  absl::Status Open(CalculatorContext* cc) override;
   // Resamples a packet of TimeSeries data.  Returns FAIL if the
   // resampler state becomes inconsistent.
-  mediapipe::Status Process(CalculatorContext* cc) override;
+  absl::Status Process(CalculatorContext* cc) override;
   // Flushes any remaining state.  Returns FAIL if the resampler state
   // becomes inconsistent.
-  mediapipe::Status Close(CalculatorContext* cc) override;
+  absl::Status Close(CalculatorContext* cc) override;
 
  protected:
   typedef audio_dsp::Resampler<float> ResamplerType;
@@ -72,8 +75,8 @@ class RationalFactorResampleCalculator : public CalculatorBase {
   // Does Timestamp bookkeeping and resampling common to Process() and
   // Close().  Returns FAIL if the resampler state becomes
   // inconsistent.
-  mediapipe::Status ProcessInternal(const Matrix& input_frame,
-                                    bool should_flush, CalculatorContext* cc);
+  absl::Status ProcessInternal(const Matrix& input_frame, bool should_flush,
+                               CalculatorContext* cc);
 
   // Uses the internal resampler_ objects to actually resample each
   // row of the input TimeSeries.  Returns false if the resampler

mediapipe/calculators/audio/rational_factor_resample_calculator.proto

@@ -1,4 +1,4 @@
-// Copyright 2019 The MediaPipe Authors.
+// Copyright 2019, 2021 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.
@@ -18,6 +18,8 @@ package mediapipe;
 
 import "mediapipe/framework/calculator.proto";
 
+// NOTE: This calculator uses QResampler, despite the name, which supersedes
+// RationalFactorResampler.
 message RationalFactorResampleCalculatorOptions {
   extend CalculatorOptions {
     optional RationalFactorResampleCalculatorOptions ext = 259760074;
@@ -27,8 +29,7 @@ message RationalFactorResampleCalculatorOptions {
   // stream.  Required.  Must be greater than 0.
   optional double target_sample_rate = 1;
 
-  // Parameters for initializing the RationalFactorResampler. See
-  // RationalFactorResampler for more details.
+  // Parameters for initializing QResampler. See QResampler for more details.
   message ResamplerRationalFactorOptions {
     // Kernel radius in units of input samples.
     optional double radius = 1;

mediapipe/calculators/audio/rational_factor_resample_calculator_test.cc

@@ -80,7 +80,7 @@ class RationalFactorResampleCalculatorTest
   }
 
   // Initializes and runs the test graph.
-  mediapipe::Status Run(double output_sample_rate) {
+  absl::Status Run(double output_sample_rate) {
     options_.set_target_sample_rate(output_sample_rate);
     InitializeGraph();
 
@@ -120,7 +120,6 @@ class RationalFactorResampleCalculatorTest
 
     // The exact number of expected samples may vary based on the implementation
     // of the resampler since the exact value is not an integer.
-    // TODO: Reduce this offset to + 1 once cl/185829520 is submitted.
     const double expected_num_output_samples = num_input_samples_ * factor;
     EXPECT_LE(ceil(expected_num_output_samples), num_output_samples);
     EXPECT_GE(ceil(expected_num_output_samples) + 11, num_output_samples);

mediapipe/calculators/audio/spectrogram_calculator.cc

@@ -66,7 +66,7 @@ namespace mediapipe {
 // analysis frame will advance from its predecessor by the same time step.
 class SpectrogramCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->Inputs().Index(0).Set<Matrix>(
         // Input stream with TimeSeriesHeader.
     );
@@ -96,26 +96,34 @@ class SpectrogramCalculator : public CalculatorBase {
         );
       }
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   // Returns FAIL if the input stream header is invalid.
-  mediapipe::Status Open(CalculatorContext* cc) override;
+  absl::Status Open(CalculatorContext* cc) override;
 
   // Outputs at most one packet consisting of a single Matrix with one or
   // more columns containing the spectral values from as many input frames
   // as are completed by the input samples.  Always returns OK.
-  mediapipe::Status Process(CalculatorContext* cc) override;
+  absl::Status Process(CalculatorContext* cc) override;
 
   // Performs zero-padding and processing of any remaining samples
   // if pad_final_packet is set.
   // Returns OK.
-  mediapipe::Status Close(CalculatorContext* cc) override;
+  absl::Status Close(CalculatorContext* cc) override;
 
  private:
   Timestamp CurrentOutputTimestamp(CalculatorContext* cc) {
     if (use_local_timestamp_) {
-      return cc->InputTimestamp();
+      const Timestamp now = cc->InputTimestamp();
+      if (now == Timestamp::Done()) {
+        // During Close the timestamp is not available, send an estimate.
+        return last_local_output_timestamp_ +
+               round(last_completed_frames_ * frame_step_samples() *
+                     Timestamp::kTimestampUnitsPerSecond / input_sample_rate_);
+      }
+      last_local_output_timestamp_ = now;
+      return now;
     }
     return CumulativeOutputTimestamp();
   }
@@ -138,17 +146,20 @@ class SpectrogramCalculator : public CalculatorBase {
   // Convert the output of the spectrogram object into a Matrix (or an
   // Eigen::MatrixXcf if complex-valued output is requested) and pass to
   // MediaPipe output.
-  mediapipe::Status ProcessVector(const Matrix& input_stream,
-                                  CalculatorContext* cc);
+  absl::Status ProcessVector(const Matrix& input_stream, CalculatorContext* cc);
 
   // Templated function to process either real- or complex-output spectrogram.
   template <class OutputMatrixType>
-  mediapipe::Status ProcessVectorToOutput(
+  absl::Status ProcessVectorToOutput(
       const Matrix& input_stream,
       const OutputMatrixType postprocess_output_fn(const OutputMatrixType&),
       CalculatorContext* cc);
 
+  // Use the MediaPipe timestamp instead of the estimated one. Useful when the
+  // data is intermittent.
   bool use_local_timestamp_;
+  Timestamp last_local_output_timestamp_;
+
   double input_sample_rate_;
   bool pad_final_packet_;
   int frame_duration_samples_;
@@ -157,6 +168,9 @@ class SpectrogramCalculator : public CalculatorBase {
   int64 cumulative_input_samples_;
   // How many frames we've emitted, used for calculating output time stamps.
   int64 cumulative_completed_frames_;
+  // How many frames were emitted last, used for estimating the timestamp on
+  // Close when use_local_timestamp_ is true;
+  int64 last_completed_frames_;
   Timestamp initial_input_timestamp_;
   int num_input_channels_;
   // How many frequency bins we emit (=N_FFT/2 + 1).
@@ -177,7 +191,7 @@ REGISTER_CALCULATOR(SpectrogramCalculator);
 // Factor to convert ln(magnitude_squared) to deciBels = 10.0/ln(10.0).
 const float SpectrogramCalculator::kLnPowerToDb = 4.342944819032518;
 
-mediapipe::Status SpectrogramCalculator::Open(CalculatorContext* cc) {
+absl::Status SpectrogramCalculator::Open(CalculatorContext* cc) {
   SpectrogramCalculatorOptions spectrogram_options =
       cc->Options<SpectrogramCalculatorOptions>();
 
@@ -271,11 +285,20 @@ mediapipe::Status SpectrogramCalculator::Open(CalculatorContext* cc) {
         Adopt(multichannel_output_header.release()));
   }
   cumulative_completed_frames_ = 0;
+  last_completed_frames_ = 0;
   initial_input_timestamp_ = Timestamp::Unstarted();
-  return mediapipe::OkStatus();
+  if (use_local_timestamp_) {
+    // Inform the framework that the calculator will output packets at the same
+    // timestamps as input packets to enable packet queueing optimizations. The
+    // final packet (emitted from Close()) does not follow this rule but it's
+    // sufficient that its timestamp is strictly greater than the timestamp of
+    // the previous packet.
+    cc->SetOffset(0);
+  }
+  return absl::OkStatus();
 }
 
-mediapipe::Status SpectrogramCalculator::Process(CalculatorContext* cc) {
+absl::Status SpectrogramCalculator::Process(CalculatorContext* cc) {
   if (initial_input_timestamp_ == Timestamp::Unstarted()) {
     initial_input_timestamp_ = cc->InputTimestamp();
   }
@@ -291,7 +314,7 @@ mediapipe::Status SpectrogramCalculator::Process(CalculatorContext* cc) {
 }
 
 template <class OutputMatrixType>
-mediapipe::Status SpectrogramCalculator::ProcessVectorToOutput(
+absl::Status SpectrogramCalculator::ProcessVectorToOutput(
     const Matrix& input_stream,
     const OutputMatrixType postprocess_output_fn(const OutputMatrixType&),
     CalculatorContext* cc) {
@@ -311,8 +334,8 @@ mediapipe::Status SpectrogramCalculator::ProcessVectorToOutput(
 
     if (!spectrogram_generators_[channel]->ComputeSpectrogram(
             input_vector, &output_vectors)) {
-      return mediapipe::Status(mediapipe::StatusCode::kInternal,
-                               "Spectrogram returned failure");
+      return absl::Status(absl::StatusCode::kInternal,
+                          "Spectrogram returned failure");
     }
     if (channel == 0) {
       // Record the number of time frames we expect from each channel.
@@ -354,12 +377,19 @@ mediapipe::Status SpectrogramCalculator::ProcessVectorToOutput(
           CurrentOutputTimestamp(cc));
     }
     cumulative_completed_frames_ += output_vectors.size();
+    last_completed_frames_ = output_vectors.size();
+    if (!use_local_timestamp_) {
+      // In non-local timestamp mode the timestamp of the next packet will be
+      // equal to CumulativeOutputTimestamp(). Inform the framework about this
+      // fact to enable packet queueing optimizations.
+      cc->Outputs().Index(0).SetNextTimestampBound(CumulativeOutputTimestamp());
+    }
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status SpectrogramCalculator::ProcessVector(
-    const Matrix& input_stream, CalculatorContext* cc) {
+absl::Status SpectrogramCalculator::ProcessVector(const Matrix& input_stream,
+                                                  CalculatorContext* cc) {
   switch (output_type_) {
     // These blocks deliberately ignore clang-format to preserve the
     // "silhouette" of the different cases.
@@ -394,13 +424,13 @@ mediapipe::Status SpectrogramCalculator::ProcessVector(
     }
     // clang-format on
     default: {
-      return mediapipe::Status(mediapipe::StatusCode::kInvalidArgument,
-                               "Unrecognized spectrogram output type.");
+      return absl::Status(absl::StatusCode::kInvalidArgument,
+                          "Unrecognized spectrogram output type.");
     }
   }
 }
 
-mediapipe::Status SpectrogramCalculator::Close(CalculatorContext* cc) {
+absl::Status SpectrogramCalculator::Close(CalculatorContext* cc) {
   if (cumulative_input_samples_ > 0 && pad_final_packet_) {
     // We can flush any remaining samples by sending frame_step_samples - 1
     // zeros to the Process method, and letting it do its thing,
@@ -416,7 +446,7 @@ mediapipe::Status SpectrogramCalculator::Close(CalculatorContext* cc) {
         Matrix::Zero(num_input_channels_, required_padding_samples), cc);
   }
 
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 }  // namespace mediapipe

mediapipe/calculators/audio/spectrogram_calculator_test.cc

@@ -50,7 +50,7 @@ class SpectrogramCalculatorTest
   }
 
   // Initializes and runs the test graph.
-  mediapipe::Status Run() {
+  absl::Status Run() {
     // Now that options are set, we can set up some internal constants.
     frame_duration_samples_ =
         round(options_.frame_duration_seconds() * input_sample_rate_);

mediapipe/calculators/audio/stabilized_log_calculator.cc

@@ -41,17 +41,17 @@ namespace mediapipe {
 // }
 class StabilizedLogCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->Inputs().Index(0).Set<Matrix>(
         // Input stream with TimeSeriesHeader.
     );
     cc->Outputs().Index(0).Set<Matrix>(
         // Output stabilized log stream with TimeSeriesHeader.
     );
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) override {
+  absl::Status Open(CalculatorContext* cc) override {
     StabilizedLogCalculatorOptions stabilized_log_calculator_options =
         cc->Options<StabilizedLogCalculatorOptions>();
 
@@ -70,23 +70,23 @@ class StabilizedLogCalculator : public CalculatorBase {
       cc->Outputs().Index(0).SetHeader(
           Adopt(new TimeSeriesHeader(input_header)));
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
+  absl::Status Process(CalculatorContext* cc) override {
     auto input_matrix = cc->Inputs().Index(0).Get<Matrix>();
     if (input_matrix.array().isNaN().any()) {
-      return mediapipe::InvalidArgumentError("NaN input to log operation.");
+      return absl::InvalidArgumentError("NaN input to log operation.");
     }
     if (check_nonnegativity_) {
       if (input_matrix.minCoeff() < 0.0) {
-        return mediapipe::OutOfRangeError("Negative input to log operation.");
+        return absl::OutOfRangeError("Negative input to log operation.");
       }
     }
     std::unique_ptr<Matrix> output_frame(new Matrix(
         output_scale_ * (input_matrix.array() + stabilizer_).log().matrix()));
     cc->Outputs().Index(0).Add(output_frame.release(), cc->InputTimestamp());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:

mediapipe/calculators/audio/time_series_framer_calculator.cc

@@ -66,26 +66,26 @@ namespace mediapipe {
 // cumulative_completed_samples / sample_rate_.
 class TimeSeriesFramerCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->Inputs().Index(0).Set<Matrix>(
         // Input stream with TimeSeriesHeader.
     );
     cc->Outputs().Index(0).Set<Matrix>(
         // Fixed length time series Packets with TimeSeriesHeader.
     );
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   // Returns FAIL if the input stream header is invalid.
-  mediapipe::Status Open(CalculatorContext* cc) override;
+  absl::Status Open(CalculatorContext* cc) override;
 
   // Outputs as many framed packets as possible given the accumulated
   // input.  Always returns OK.
-  mediapipe::Status Process(CalculatorContext* cc) override;
+  absl::Status Process(CalculatorContext* cc) override;
 
   // Flushes any remaining samples in a zero-padded packet.  Always
   // returns OK.
-  mediapipe::Status Close(CalculatorContext* cc) override;
+  absl::Status Close(CalculatorContext* cc) override;
 
  private:
   // Adds input data to the internal buffer.
@@ -134,7 +134,6 @@ class TimeSeriesFramerCalculator : public CalculatorBase {
   // emulate_fractional_frame_overlap is true.
   double average_frame_step_samples_;
   int samples_still_to_drop_;
-  int64 cumulative_input_samples_;
   int64 cumulative_output_frames_;
   // "Completed" samples are samples that are no longer needed because
   // the framer has completely stepped past them (taking into account
@@ -163,8 +162,6 @@ void TimeSeriesFramerCalculator::EnqueueInput(CalculatorContext* cc) {
     sample_buffer_.emplace_back(std::make_pair(
         input_frame.col(i), CurrentSampleTimestamp(cc->InputTimestamp(), i)));
   }
-
-  cumulative_input_samples_ += input_frame.cols();
 }
 
 void TimeSeriesFramerCalculator::FrameOutput(CalculatorContext* cc) {
@@ -203,9 +200,15 @@ void TimeSeriesFramerCalculator::FrameOutput(CalculatorContext* cc) {
     ++cumulative_output_frames_;
     cumulative_completed_samples_ += frame_step_samples;
   }
+  if (!use_local_timestamp_) {
+    // In non-local timestamp mode the timestamp of the next packet will be
+    // equal to CumulativeOutputTimestamp(). Inform the framework about this
+    // fact to enable packet queueing optimizations.
+    cc->Outputs().Index(0).SetNextTimestampBound(CumulativeOutputTimestamp());
+  }
 }
 
-mediapipe::Status TimeSeriesFramerCalculator::Process(CalculatorContext* cc) {
+absl::Status TimeSeriesFramerCalculator::Process(CalculatorContext* cc) {
   if (initial_input_timestamp_ == Timestamp::Unstarted()) {
     initial_input_timestamp_ = cc->InputTimestamp();
     current_timestamp_ = initial_input_timestamp_;
@@ -214,10 +217,10 @@ mediapipe::Status TimeSeriesFramerCalculator::Process(CalculatorContext* cc) {
   EnqueueInput(cc);
   FrameOutput(cc);
 
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status TimeSeriesFramerCalculator::Close(CalculatorContext* cc) {
+absl::Status TimeSeriesFramerCalculator::Close(CalculatorContext* cc) {
   while (samples_still_to_drop_ > 0 && !sample_buffer_.empty()) {
     sample_buffer_.pop_front();
     --samples_still_to_drop_;
@@ -234,10 +237,10 @@ mediapipe::Status TimeSeriesFramerCalculator::Close(CalculatorContext* cc) {
                                CurrentOutputTimestamp());
   }
 
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status TimeSeriesFramerCalculator::Open(CalculatorContext* cc) {
+absl::Status TimeSeriesFramerCalculator::Open(CalculatorContext* cc) {
   TimeSeriesFramerCalculatorOptions framer_options =
       cc->Options<TimeSeriesFramerCalculatorOptions>();
 
@@ -286,7 +289,6 @@ mediapipe::Status TimeSeriesFramerCalculator::Open(CalculatorContext* cc) {
   }
   cc->Outputs().Index(0).SetHeader(Adopt(output_header));
   cumulative_completed_samples_ = 0;
-  cumulative_input_samples_ = 0;
   cumulative_output_frames_ = 0;
   samples_still_to_drop_ = 0;
   initial_input_timestamp_ = Timestamp::Unstarted();
@@ -317,7 +319,7 @@ mediapipe::Status TimeSeriesFramerCalculator::Open(CalculatorContext* cc) {
   }
   use_local_timestamp_ = framer_options.use_local_timestamp();
 
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 }  // namespace mediapipe

mediapipe/calculators/audio/time_series_framer_calculator_test.cc

@@ -69,7 +69,7 @@ class TimeSeriesFramerCalculatorTest
   }
 
   // Initializes and runs the test graph.
-  mediapipe::Status Run() {
+  absl::Status Run() {
     InitializeGraph();
 
     FillInputHeader();
@@ -441,7 +441,7 @@ class TimeSeriesFramerCalculatorTimestampingTest
     }
   }
 
-  mediapipe::Status RunTimestampTest() {
+  absl::Status RunTimestampTest() {
     InitializeGraph();
     InitializeInputForTimeStampingTest();
     FillInputHeader();

mediapipe/calculators/core/BUILD

@@ -249,6 +249,8 @@ cc_library(
     visibility = ["//visibility:public"],
     deps = [
         ":concatenate_vector_calculator_cc_proto",
+        "//mediapipe/framework/api2:node",
+        "//mediapipe/framework/api2:port",
         "//mediapipe/framework/formats:classification_cc_proto",
         "//mediapipe/framework/formats:landmark_cc_proto",
         "//mediapipe/framework/formats:tensor",
@@ -554,6 +556,7 @@ cc_library(
     ],
     deps = [
         "//mediapipe/framework:calculator_framework",
+        "//mediapipe/framework/api2:node",
         "//mediapipe/framework/port:ret_check",
     ],
     alwayslink = 1,

mediapipe/calculators/core/add_header_calculator.cc

@@ -53,27 +53,28 @@ class AddHeaderCalculator : public Node {
 
   MEDIAPIPE_NODE_CONTRACT(kHeader, kHeaderSide, kData, kOut);
 
-  static mediapipe::Status UpdateContract(CalculatorContract* cc) {
+  static absl::Status UpdateContract(CalculatorContract* cc) {
     if (kHeader(cc).IsConnected() == kHeaderSide(cc).IsConnected()) {
-      return mediapipe::InvalidArgumentError(
+      return absl::InvalidArgumentError(
           "Header must be provided via exactly one of side input and input "
           "stream");
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) override {
+  absl::Status Open(CalculatorContext* cc) override {
     const PacketBase& header =
         kHeader(cc).IsConnected() ? kHeader(cc).Header() : kHeaderSide(cc);
     if (!header.IsEmpty()) {
       kOut(cc).SetHeader(header);
     }
-    return mediapipe::OkStatus();
+    cc->SetOffset(0);
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
+  absl::Status Process(CalculatorContext* cc) override {
     kOut(cc).Send(kData(cc).packet());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 };
 

mediapipe/calculators/core/add_header_calculator_test.cc

@@ -153,7 +153,7 @@ TEST_F(AddHeaderCalculatorTest, UsingBothSideInputAndStream) {
   }
 
   // Run should fail because header can only be provided one way.
-  EXPECT_EQ(runner.Run().code(), mediapipe::InvalidArgumentError("").code());
+  EXPECT_EQ(runner.Run().code(), absl::InvalidArgumentError("").code());
 }
 
 }  // namespace mediapipe

mediapipe/calculators/core/begin_end_loop_calculator_graph_test.cc

@@ -42,22 +42,22 @@ REGISTER_CALCULATOR(BeginLoopIntegerCalculator);
 
 class IncrementCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->Inputs().Index(0).Set<int>();
     cc->Outputs().Index(0).Set<int>();
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) override {
+  absl::Status Open(CalculatorContext* cc) override {
     cc->SetOffset(TimestampDiff(0));
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
+  absl::Status Process(CalculatorContext* cc) override {
     const int& input_int = cc->Inputs().Index(0).Get<int>();
     auto output_int = absl::make_unique<int>(input_int + 1);
     cc->Outputs().Index(0).Add(output_int.release(), cc->InputTimestamp());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 };
 
@@ -166,19 +166,19 @@ TEST_F(BeginEndLoopCalculatorGraphTest, MultipleVectors) {
 // bound update.
 class PassThroughOrEmptyVectorCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->SetProcessTimestampBounds(true);
     cc->Inputs().Index(0).Set<std::vector<int>>();
     cc->Outputs().Index(0).Set<std::vector<int>>();
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) override {
+  absl::Status Open(CalculatorContext* cc) override {
     cc->SetOffset(TimestampDiff(0));
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
+  absl::Status Process(CalculatorContext* cc) override {
     if (!cc->Inputs().Index(0).IsEmpty()) {
       cc->Outputs().Index(0).AddPacket(cc->Inputs().Index(0).Value());
     } else {
@@ -186,7 +186,7 @@ class PassThroughOrEmptyVectorCalculator : public CalculatorBase {
           MakePacket<std::vector<int>>(std::vector<int>())
               .At(cc->InputTimestamp()));
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 };
 
@@ -311,24 +311,24 @@ TEST_F(BeginEndLoopCalculatorGraphProcessingEmptyPacketsTest, MultipleVectors) {
 
 class MultiplierCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->Inputs().Index(0).Set<int>();
     cc->Inputs().Index(1).Set<int>();
     cc->Outputs().Index(0).Set<int>();
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) override {
+  absl::Status Open(CalculatorContext* cc) override {
     cc->SetOffset(TimestampDiff(0));
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
+  absl::Status Process(CalculatorContext* cc) override {
     const int& input_int = cc->Inputs().Index(0).Get<int>();
     const int& multiplier_int = cc->Inputs().Index(1).Get<int>();
     auto output_int = absl::make_unique<int>(input_int * multiplier_int);
     cc->Outputs().Index(0).Add(output_int.release(), cc->InputTimestamp());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 };
 

mediapipe/calculators/core/begin_loop_calculator.h

@@ -61,7 +61,7 @@ class BeginLoopCalculator : public CalculatorBase {
   using ItemT = typename IterableT::value_type;
 
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     // The below enables processing of timestamp bound updates, and that enables
     // correct timestamp propagation by the companion EndLoopCalculator.
     //
@@ -106,10 +106,10 @@ class BeginLoopCalculator : public CalculatorBase {
       }
     }
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     Timestamp last_timestamp = loop_internal_timestamp_;
     if (!cc->Inputs().Tag("ITERABLE").IsEmpty()) {
       const IterableT& collection =
@@ -139,7 +139,7 @@ class BeginLoopCalculator : public CalculatorBase {
         .AddPacket(MakePacket<Timestamp>(cc->InputTimestamp())
                        .At(Timestamp(loop_internal_timestamp_ - 1)));
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:

mediapipe/calculators/core/clip_vector_size_calculator.h

@@ -43,13 +43,13 @@ namespace mediapipe {
 template <typename T>
 class ClipVectorSizeCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     RET_CHECK(cc->Inputs().NumEntries() == 1);
     RET_CHECK(cc->Outputs().NumEntries() == 1);
 
     if (cc->Options<::mediapipe::ClipVectorSizeCalculatorOptions>()
             .max_vec_size() < 1) {
-      return mediapipe::InternalError(
+      return absl::InternalError(
           "max_vec_size should be greater than or equal to 1.");
     }
 
@@ -60,10 +60,10 @@ class ClipVectorSizeCalculator : public CalculatorBase {
       cc->InputSidePackets().Index(0).Set<int>();
     }
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) override {
+  absl::Status Open(CalculatorContext* cc) override {
     cc->SetOffset(TimestampDiff(0));
     max_vec_size_ = cc->Options<::mediapipe::ClipVectorSizeCalculatorOptions>()
                         .max_vec_size();
@@ -72,23 +72,23 @@ class ClipVectorSizeCalculator : public CalculatorBase {
         !cc->InputSidePackets().Index(0).IsEmpty()) {
       max_vec_size_ = cc->InputSidePackets().Index(0).Get<int>();
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
+  absl::Status Process(CalculatorContext* cc) override {
     if (max_vec_size_ < 1) {
-      return mediapipe::InternalError(
+      return absl::InternalError(
           "max_vec_size should be greater than or equal to 1.");
     }
     if (cc->Inputs().Index(0).IsEmpty()) {
-      return mediapipe::OkStatus();
+      return absl::OkStatus();
     }
 
     return ClipVectorSize<T>(std::is_copy_constructible<T>(), cc);
   }
 
   template <typename U>
-  mediapipe::Status ClipVectorSize(std::true_type, CalculatorContext* cc) {
+  absl::Status ClipVectorSize(std::true_type, CalculatorContext* cc) {
     auto output = absl::make_unique<std::vector<U>>();
     const std::vector<U>& input_vector =
         cc->Inputs().Index(0).Get<std::vector<U>>();
@@ -100,24 +100,23 @@ class ClipVectorSizeCalculator : public CalculatorBase {
       }
     }
     cc->Outputs().Index(0).Add(output.release(), cc->InputTimestamp());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   template <typename U>
-  mediapipe::Status ClipVectorSize(std::false_type, CalculatorContext* cc) {
+  absl::Status ClipVectorSize(std::false_type, CalculatorContext* cc) {
     return ConsumeAndClipVectorSize<T>(std::is_move_constructible<U>(), cc);
   }
 
   template <typename U>
-  mediapipe::Status ConsumeAndClipVectorSize(std::true_type,
-                                             CalculatorContext* cc) {
+  absl::Status ConsumeAndClipVectorSize(std::true_type, CalculatorContext* cc) {
     auto output = absl::make_unique<std::vector<U>>();
-    mediapipe::StatusOr<std::unique_ptr<std::vector<U>>> input_status =
+    absl::StatusOr<std::unique_ptr<std::vector<U>>> input_status =
         cc->Inputs().Index(0).Value().Consume<std::vector<U>>();
 
     if (input_status.ok()) {
       std::unique_ptr<std::vector<U>> input_vector =
-          std::move(input_status).ValueOrDie();
+          std::move(input_status).value();
       auto begin_it = input_vector->begin();
       auto end_it = input_vector->end();
       if (max_vec_size_ < input_vector->size()) {
@@ -129,13 +128,13 @@ class ClipVectorSizeCalculator : public CalculatorBase {
       return input_status.status();
     }
     cc->Outputs().Index(0).Add(output.release(), cc->InputTimestamp());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   template <typename U>
-  mediapipe::Status ConsumeAndClipVectorSize(std::false_type,
-                                             CalculatorContext* cc) {
-    return mediapipe::InternalError(
+  absl::Status ConsumeAndClipVectorSize(std::false_type,
+                                        CalculatorContext* cc) {
+    return absl::InternalError(
         "Cannot copy or move input vectors and clip their size.");
   }
 

mediapipe/calculators/core/concatenate_detection_vector_calculator.cc

@@ -1,4 +1,4 @@
-// Copyright 2019 The MediaPipe Authors.
+// Copyright 2019-2020 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.
@@ -20,14 +20,16 @@
 namespace mediapipe {
 
 // Example config:
+//
 // node {
 //   calculator: "ConcatenateDetectionVectorCalculator"
 //   input_stream: "detection_vector_1"
 //   input_stream: "detection_vector_2"
 //   output_stream: "concatenated_detection_vector"
 // }
+//
 typedef ConcatenateVectorCalculator<::mediapipe::Detection>
     ConcatenateDetectionVectorCalculator;
-REGISTER_CALCULATOR(ConcatenateDetectionVectorCalculator);
+MEDIAPIPE_REGISTER_NODE(ConcatenateDetectionVectorCalculator);
 
 }  // namespace mediapipe

mediapipe/calculators/core/concatenate_normalized_landmark_list_calculator.cc

@@ -36,35 +36,35 @@ class ConcatenateNormalizedLandmarkListCalculator : public Node {
 
   MEDIAPIPE_NODE_CONTRACT(kIn, kOut);
 
-  static mediapipe::Status UpdateContract(CalculatorContract* cc) {
+  static absl::Status UpdateContract(CalculatorContract* cc) {
     RET_CHECK_GE(kIn(cc).Count(), 1);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) override {
+  absl::Status Open(CalculatorContext* cc) override {
     only_emit_if_all_present_ =
         cc->Options<::mediapipe::ConcatenateVectorCalculatorOptions>()
             .only_emit_if_all_present();
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
+  absl::Status Process(CalculatorContext* cc) override {
     if (only_emit_if_all_present_) {
-      for (int i = 0; i < kIn(cc).Count(); ++i) {
-        if (kIn(cc)[i].IsEmpty()) return mediapipe::OkStatus();
+      for (const auto& input : kIn(cc)) {
+        if (input.IsEmpty()) return absl::OkStatus();
       }
     }
 
     NormalizedLandmarkList output;
-    for (int i = 0; i < kIn(cc).Count(); ++i) {
-      if (kIn(cc)[i].IsEmpty()) continue;
-      const NormalizedLandmarkList& input = *kIn(cc)[i];
-      for (int j = 0; j < input.landmark_size(); ++j) {
-        *output.add_landmark() = input.landmark(j);
+    for (const auto& input : kIn(cc)) {
+      if (input.IsEmpty()) continue;
+      const NormalizedLandmarkList& list = *input;
+      for (int j = 0; j < list.landmark_size(); ++j) {
+        *output.add_landmark() = list.landmark(j);
       }
     }
     kOut(cc).Send(std::move(output));
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:

mediapipe/calculators/core/concatenate_vector_calculator.cc

@@ -25,7 +25,7 @@
 
 #if !defined(MEDIAPIPE_DISABLE_GL_COMPUTE)
 #include "tensorflow/lite/delegates/gpu/gl/gl_buffer.h"
-#endif  //  !MEDIAPIPE_DISABLE_GPU
+#endif  // !defined(MEDIAPIPE_DISABLE_GL_COMPUTE)
 
 namespace mediapipe {
 
@@ -37,7 +37,7 @@ namespace mediapipe {
 //   output_stream: "concatenated_float_vector"
 // }
 typedef ConcatenateVectorCalculator<float> ConcatenateFloatVectorCalculator;
-REGISTER_CALCULATOR(ConcatenateFloatVectorCalculator);
+MEDIAPIPE_REGISTER_NODE(ConcatenateFloatVectorCalculator);
 
 // Example config:
 // node {
@@ -47,13 +47,13 @@ REGISTER_CALCULATOR(ConcatenateFloatVectorCalculator);
 //   output_stream: "concatenated_int32_vector"
 // }
 typedef ConcatenateVectorCalculator<int32> ConcatenateInt32VectorCalculator;
-REGISTER_CALCULATOR(ConcatenateInt32VectorCalculator);
+MEDIAPIPE_REGISTER_NODE(ConcatenateInt32VectorCalculator);
 
 typedef ConcatenateVectorCalculator<uint64> ConcatenateUInt64VectorCalculator;
-REGISTER_CALCULATOR(ConcatenateUInt64VectorCalculator);
+MEDIAPIPE_REGISTER_NODE(ConcatenateUInt64VectorCalculator);
 
 typedef ConcatenateVectorCalculator<bool> ConcatenateBoolVectorCalculator;
-REGISTER_CALCULATOR(ConcatenateBoolVectorCalculator);
+MEDIAPIPE_REGISTER_NODE(ConcatenateBoolVectorCalculator);
 
 // Example config:
 // node {
@@ -64,31 +64,31 @@ REGISTER_CALCULATOR(ConcatenateBoolVectorCalculator);
 // }
 typedef ConcatenateVectorCalculator<TfLiteTensor>
     ConcatenateTfLiteTensorVectorCalculator;
-REGISTER_CALCULATOR(ConcatenateTfLiteTensorVectorCalculator);
+MEDIAPIPE_REGISTER_NODE(ConcatenateTfLiteTensorVectorCalculator);
 
 typedef ConcatenateVectorCalculator<Tensor> ConcatenateTensorVectorCalculator;
-REGISTER_CALCULATOR(ConcatenateTensorVectorCalculator);
+MEDIAPIPE_REGISTER_NODE(ConcatenateTensorVectorCalculator);
 
 typedef ConcatenateVectorCalculator<::mediapipe::NormalizedLandmark>
     ConcatenateLandmarkVectorCalculator;
-REGISTER_CALCULATOR(ConcatenateLandmarkVectorCalculator);
+MEDIAPIPE_REGISTER_NODE(ConcatenateLandmarkVectorCalculator);
 
 typedef ConcatenateVectorCalculator<::mediapipe::NormalizedLandmarkList>
     ConcatenateLandmarListVectorCalculator;
-REGISTER_CALCULATOR(ConcatenateLandmarListVectorCalculator);
+MEDIAPIPE_REGISTER_NODE(ConcatenateLandmarListVectorCalculator);
 
 typedef ConcatenateVectorCalculator<mediapipe::ClassificationList>
     ConcatenateClassificationListVectorCalculator;
-REGISTER_CALCULATOR(ConcatenateClassificationListVectorCalculator);
+MEDIAPIPE_REGISTER_NODE(ConcatenateClassificationListVectorCalculator);
 
 #if !defined(MEDIAPIPE_DISABLE_GL_COMPUTE)
 typedef ConcatenateVectorCalculator<::tflite::gpu::gl::GlBuffer>
     ConcatenateGlBufferVectorCalculator;
-REGISTER_CALCULATOR(ConcatenateGlBufferVectorCalculator);
+MEDIAPIPE_REGISTER_NODE(ConcatenateGlBufferVectorCalculator);
 #endif
 
 typedef ConcatenateVectorCalculator<mediapipe::RenderData>
     ConcatenateRenderDataVectorCalculator;
-REGISTER_CALCULATOR(ConcatenateRenderDataVectorCalculator);
+MEDIAPIPE_REGISTER_NODE(ConcatenateRenderDataVectorCalculator);
 
 }  // namespace mediapipe

mediapipe/calculators/core/concatenate_vector_calculator.h

@@ -20,120 +20,96 @@
 #include <vector>
 
 #include "mediapipe/calculators/core/concatenate_vector_calculator.pb.h"
+#include "mediapipe/framework/api2/node.h"
+#include "mediapipe/framework/api2/port.h"
 #include "mediapipe/framework/calculator_framework.h"
 #include "mediapipe/framework/port/canonical_errors.h"
 #include "mediapipe/framework/port/ret_check.h"
 #include "mediapipe/framework/port/status.h"
 
 namespace mediapipe {
+// Note: since this is a calculator template that can be included by other
+// source files, we do not place this in namespace api2 directly, but qualify
+// the api2 names below, to avoid changing the visible name of the class.
+// We cannot simply write "using mediapipe::api2" since it's a header file.
+// This distinction will go away once api2 is finalized.
 
 // Concatenates several objects of type T or std::vector<T> following stream
 // index order. This class assumes that every input stream contains either T or
 // vector<T> type. To use this class for a particular type T, regisiter a
 // calculator using ConcatenateVectorCalculator<T>.
 template <typename T>
-class ConcatenateVectorCalculator : public CalculatorBase {
+class ConcatenateVectorCalculator : public api2::Node {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
-    RET_CHECK(cc->Inputs().NumEntries() != 0);
-    RET_CHECK(cc->Outputs().NumEntries() == 1);
+  static constexpr
+      typename api2::Input<api2::OneOf<T, std::vector<T>>>::Multiple kIn{""};
+  static constexpr api2::Output<std::vector<T>> kOut{""};
 
-    for (int i = 0; i < cc->Inputs().NumEntries(); ++i) {
-      // Actual type T or vector<T> will be validated in Process().
-      cc->Inputs().Index(i).SetAny();
-    }
+  MEDIAPIPE_NODE_CONTRACT(kIn, kOut);
 
-    cc->Outputs().Index(0).Set<std::vector<T>>();
-
-    return mediapipe::OkStatus();
+  static absl::Status UpdateContract(CalculatorContract* cc) {
+    RET_CHECK_GE(kIn(cc).Count(), 1);
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) override {
-    cc->SetOffset(TimestampDiff(0));
+  absl::Status Open(CalculatorContext* cc) override {
     only_emit_if_all_present_ =
         cc->Options<::mediapipe::ConcatenateVectorCalculatorOptions>()
             .only_emit_if_all_present();
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
+  absl::Status Process(CalculatorContext* cc) override {
     if (only_emit_if_all_present_) {
-      for (int i = 0; i < cc->Inputs().NumEntries(); ++i) {
-        if (cc->Inputs().Index(i).IsEmpty()) return mediapipe::OkStatus();
+      for (const auto& input : kIn(cc)) {
+        if (input.IsEmpty()) return ::absl::OkStatus();
       }
     }
-
     return ConcatenateVectors<T>(std::is_copy_constructible<T>(), cc);
   }
 
   template <typename U>
-  mediapipe::Status ConcatenateVectors(std::true_type, CalculatorContext* cc) {
-    auto output = absl::make_unique<std::vector<U>>();
-    for (int i = 0; i < cc->Inputs().NumEntries(); ++i) {
-      auto& input = cc->Inputs().Index(i);
-
+  absl::Status ConcatenateVectors(std::true_type, CalculatorContext* cc) {
+    auto output = std::vector<U>();
+    for (const auto& input : kIn(cc)) {
       if (input.IsEmpty()) continue;
-
-      if (input.Value().ValidateAsType<U>().ok()) {
-        const U& value = input.Get<U>();
-        output->push_back(value);
-      } else if (input.Value().ValidateAsType<std::vector<U>>().ok()) {
-        const std::vector<U>& value = input.Get<std::vector<U>>();
-        output->insert(output->end(), value.begin(), value.end());
-      } else {
-        return mediapipe::InvalidArgumentError("Invalid input stream type.");
-      }
+      input.Visit([&output](const U& value) { output.push_back(value); },
+                  [&output](const std::vector<U>& value) {
+                    output.insert(output.end(), value.begin(), value.end());
+                  });
     }
-    cc->Outputs().Index(0).Add(output.release(), cc->InputTimestamp());
-    return mediapipe::OkStatus();
+    kOut(cc).Send(std::move(output));
+    return absl::OkStatus();
   }
 
   template <typename U>
-  mediapipe::Status ConcatenateVectors(std::false_type, CalculatorContext* cc) {
+  absl::Status ConcatenateVectors(std::false_type, CalculatorContext* cc) {
     return ConsumeAndConcatenateVectors<T>(std::is_move_constructible<U>(), cc);
   }
 
   template <typename U>
-  mediapipe::Status ConsumeAndConcatenateVectors(std::true_type,
-                                                 CalculatorContext* cc) {
-    auto output = absl::make_unique<std::vector<U>>();
-    for (int i = 0; i < cc->Inputs().NumEntries(); ++i) {
-      auto& input = cc->Inputs().Index(i);
-
+  absl::Status ConsumeAndConcatenateVectors(std::true_type,
+                                            CalculatorContext* cc) {
+    auto output = std::vector<U>();
+    for (auto input : kIn(cc)) {
       if (input.IsEmpty()) continue;
-
-      if (input.Value().ValidateAsType<U>().ok()) {
-        mediapipe::StatusOr<std::unique_ptr<U>> value_status =
-            input.Value().Consume<U>();
-        if (value_status.ok()) {
-          std::unique_ptr<U> value = std::move(value_status).ValueOrDie();
-          output->push_back(std::move(*value));
-        } else {
-          return value_status.status();
-        }
-      } else if (input.Value().ValidateAsType<std::vector<U>>().ok()) {
-        mediapipe::StatusOr<std::unique_ptr<std::vector<U>>> value_status =
-            input.Value().Consume<std::vector<U>>();
-        if (value_status.ok()) {
-          std::unique_ptr<std::vector<U>> value =
-              std::move(value_status).ValueOrDie();
-          output->insert(output->end(), std::make_move_iterator(value->begin()),
-                         std::make_move_iterator(value->end()));
-        } else {
-          return value_status.status();
-        }
-      } else {
-        return mediapipe::InvalidArgumentError("Invalid input stream type.");
-      }
+      MP_RETURN_IF_ERROR(input.ConsumeAndVisit(
+          [&output](std::unique_ptr<U> value) {
+            output.push_back(std::move(*value));
+          },
+          [&output](std::unique_ptr<std::vector<U>> value) {
+            output.insert(output.end(), std::make_move_iterator(value->begin()),
+                          std::make_move_iterator(value->end()));
+          }));
     }
-    cc->Outputs().Index(0).Add(output.release(), cc->InputTimestamp());
-    return mediapipe::OkStatus();
+    kOut(cc).Send(std::move(output));
+    return absl::OkStatus();
   }
 
   template <typename U>
-  mediapipe::Status ConsumeAndConcatenateVectors(std::false_type,
-                                                 CalculatorContext* cc) {
-    return mediapipe::InternalError(
+  absl::Status ConsumeAndConcatenateVectors(std::false_type,
+                                            CalculatorContext* cc) {
+    return absl::InternalError(
         "Cannot copy or move inputs to concatenate them");
   }
 

mediapipe/calculators/core/concatenate_vector_calculator_test.cc

@@ -28,7 +28,7 @@
 namespace mediapipe {
 
 typedef ConcatenateVectorCalculator<int> TestConcatenateIntVectorCalculator;
-REGISTER_CALCULATOR(TestConcatenateIntVectorCalculator);
+MEDIAPIPE_REGISTER_NODE(TestConcatenateIntVectorCalculator);
 
 void AddInputVector(int index, const std::vector<int>& input, int64 timestamp,
                     CalculatorRunner* runner) {
@@ -384,7 +384,7 @@ TEST(ConcatenateFloatVectorCalculatorTest, OneEmptyStreamNoOutput) {
 
 typedef ConcatenateVectorCalculator<std::unique_ptr<int>>
     TestConcatenateUniqueIntPtrCalculator;
-REGISTER_CALCULATOR(TestConcatenateUniqueIntPtrCalculator);
+MEDIAPIPE_REGISTER_NODE(TestConcatenateUniqueIntPtrCalculator);
 
 TEST(TestConcatenateUniqueIntVectorCalculatorTest, ConsumeOneTimestamp) {
   /* Note: We don't use CalculatorRunner for this test because it keeps copies

mediapipe/calculators/core/constant_side_packet_calculator.cc

@@ -54,7 +54,7 @@ namespace {}  // namespace
 // }
 class ConstantSidePacketCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     const auto& options =
         cc->Options<::mediapipe::ConstantSidePacketCalculatorOptions>();
     RET_CHECK_EQ(cc->OutputSidePackets().NumEntries(kPacketTag),
@@ -80,14 +80,14 @@ class ConstantSidePacketCalculator : public CalculatorBase {
       } else if (packet_options.has_classification_list_value()) {
         packet.Set<ClassificationList>();
       } else {
-        return mediapipe::InvalidArgumentError(
+        return absl::InvalidArgumentError(
             "None of supported values were specified in options.");
       }
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) override {
+  absl::Status Open(CalculatorContext* cc) override {
     const auto& options =
         cc->Options<::mediapipe::ConstantSidePacketCalculatorOptions>();
     int index = 0;
@@ -109,15 +109,15 @@ class ConstantSidePacketCalculator : public CalculatorBase {
         packet.Set(MakePacket<ClassificationList>(
             packet_options.classification_list_value()));
       } else {
-        return mediapipe::InvalidArgumentError(
+        return absl::InvalidArgumentError(
             "None of supported values were specified in options.");
       }
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
-    return mediapipe::OkStatus();
+  absl::Status Process(CalculatorContext* cc) override {
+    return absl::OkStatus();
   }
 
  private:

mediapipe/calculators/core/constant_side_packet_calculator_test.cc

@@ -49,7 +49,7 @@ void DoTestSingleSidePacket(absl::string_view packet_spec,
 
   MP_ASSERT_OK(graph.GetOutputSidePacket("packet"));
   auto actual_value =
-      graph.GetOutputSidePacket("packet").ValueOrDie().template Get<T>();
+      graph.GetOutputSidePacket("packet").value().template Get<T>();
   EXPECT_EQ(actual_value, expected_value);
 }
 
@@ -89,28 +89,24 @@ TEST(ConstantSidePacketCalculatorTest, MultiplePackets) {
   MP_ASSERT_OK(graph.WaitUntilIdle());
 
   MP_ASSERT_OK(graph.GetOutputSidePacket("int_packet"));
-  EXPECT_EQ(graph.GetOutputSidePacket("int_packet").ValueOrDie().Get<int>(),
-            256);
+  EXPECT_EQ(graph.GetOutputSidePacket("int_packet").value().Get<int>(), 256);
   MP_ASSERT_OK(graph.GetOutputSidePacket("float_packet"));
-  EXPECT_EQ(graph.GetOutputSidePacket("float_packet").ValueOrDie().Get<float>(),
+  EXPECT_EQ(graph.GetOutputSidePacket("float_packet").value().Get<float>(),
             0.5f);
   MP_ASSERT_OK(graph.GetOutputSidePacket("bool_packet"));
-  EXPECT_FALSE(
-      graph.GetOutputSidePacket("bool_packet").ValueOrDie().Get<bool>());
+  EXPECT_FALSE(graph.GetOutputSidePacket("bool_packet").value().Get<bool>());
   MP_ASSERT_OK(graph.GetOutputSidePacket("string_packet"));
-  EXPECT_EQ(graph.GetOutputSidePacket("string_packet")
-                .ValueOrDie()
-                .Get<std::string>(),
-            "string");
+  EXPECT_EQ(
+      graph.GetOutputSidePacket("string_packet").value().Get<std::string>(),
+      "string");
   MP_ASSERT_OK(graph.GetOutputSidePacket("another_string_packet"));
   EXPECT_EQ(graph.GetOutputSidePacket("another_string_packet")
-                .ValueOrDie()
+                .value()
                 .Get<std::string>(),
             "another string");
   MP_ASSERT_OK(graph.GetOutputSidePacket("another_int_packet"));
-  EXPECT_EQ(
-      graph.GetOutputSidePacket("another_int_packet").ValueOrDie().Get<int>(),
-      128);
+  EXPECT_EQ(graph.GetOutputSidePacket("another_int_packet").value().Get<int>(),
+            128);
 }
 
 TEST(ConstantSidePacketCalculatorTest, ProcessingPacketsWithCorrectTagOnly) {
@@ -142,19 +138,16 @@ TEST(ConstantSidePacketCalculatorTest, ProcessingPacketsWithCorrectTagOnly) {
   MP_ASSERT_OK(graph.WaitUntilIdle());
 
   MP_ASSERT_OK(graph.GetOutputSidePacket("int_packet"));
-  EXPECT_EQ(graph.GetOutputSidePacket("int_packet").ValueOrDie().Get<int>(),
-            256);
+  EXPECT_EQ(graph.GetOutputSidePacket("int_packet").value().Get<int>(), 256);
   MP_ASSERT_OK(graph.GetOutputSidePacket("float_packet"));
-  EXPECT_EQ(graph.GetOutputSidePacket("float_packet").ValueOrDie().Get<float>(),
+  EXPECT_EQ(graph.GetOutputSidePacket("float_packet").value().Get<float>(),
             0.5f);
   MP_ASSERT_OK(graph.GetOutputSidePacket("bool_packet"));
-  EXPECT_FALSE(
-      graph.GetOutputSidePacket("bool_packet").ValueOrDie().Get<bool>());
+  EXPECT_FALSE(graph.GetOutputSidePacket("bool_packet").value().Get<bool>());
   MP_ASSERT_OK(graph.GetOutputSidePacket("string_packet"));
-  EXPECT_EQ(graph.GetOutputSidePacket("string_packet")
-                .ValueOrDie()
-                .Get<std::string>(),
-            "string");
+  EXPECT_EQ(
+      graph.GetOutputSidePacket("string_packet").value().Get<std::string>(),
+      "string");
 }
 
 TEST(ConstantSidePacketCalculatorTest, IncorrectConfig_MoreOptionsThanPackets) {

mediapipe/calculators/core/counting_source_calculator.cc

@@ -30,7 +30,7 @@ namespace mediapipe {
 // provided, then batches are of size 1.
 class CountingSourceCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->Outputs().Index(0).Set<int>();
 
     if (cc->InputSidePackets().HasTag("ERROR_ON_OPEN")) {
@@ -55,13 +55,13 @@ class CountingSourceCalculator : public CalculatorBase {
     if (cc->InputSidePackets().HasTag("INCREMENT")) {
       cc->InputSidePackets().Tag("INCREMENT").Set<int>();
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) override {
+  absl::Status Open(CalculatorContext* cc) override {
     if (cc->InputSidePackets().HasTag("ERROR_ON_OPEN") &&
         cc->InputSidePackets().Tag("ERROR_ON_OPEN").Get<bool>()) {
-      return mediapipe::NotFoundError("expected error");
+      return absl::NotFoundError("expected error");
     }
     if (cc->InputSidePackets().HasTag("ERROR_COUNT")) {
       error_count_ = cc->InputSidePackets().Tag("ERROR_COUNT").Get<int>();
@@ -83,12 +83,12 @@ class CountingSourceCalculator : public CalculatorBase {
       RET_CHECK_LT(0, increment_);
     }
     RET_CHECK(error_count_ >= 0 || max_count_ >= 0);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
+  absl::Status Process(CalculatorContext* cc) override {
     if (error_count_ >= 0 && batch_counter_ >= error_count_) {
-      return mediapipe::InternalError("expected error");
+      return absl::InternalError("expected error");
     }
     if (max_count_ >= 0 && batch_counter_ >= max_count_) {
       return tool::StatusStop();
@@ -98,7 +98,7 @@ class CountingSourceCalculator : public CalculatorBase {
       counter_ += increment_;
     }
     ++batch_counter_;
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:

mediapipe/calculators/core/dequantize_byte_array_calculator.cc

@@ -37,34 +37,34 @@ namespace mediapipe {
 
 class DequantizeByteArrayCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->Inputs().Tag("ENCODED").Set<std::string>();
     cc->Outputs().Tag("FLOAT_VECTOR").Set<std::vector<float>>();
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) final {
+  absl::Status Open(CalculatorContext* cc) final {
     const auto options =
         cc->Options<::mediapipe::DequantizeByteArrayCalculatorOptions>();
     if (!options.has_max_quantized_value() ||
         !options.has_min_quantized_value()) {
-      return mediapipe::InvalidArgumentError(
+      return absl::InvalidArgumentError(
           "Both max_quantized_value and min_quantized_value must be provided "
           "in DequantizeByteArrayCalculatorOptions.");
     }
     float max_quantized_value = options.max_quantized_value();
     float min_quantized_value = options.min_quantized_value();
     if (max_quantized_value < min_quantized_value + FLT_EPSILON) {
-      return mediapipe::InvalidArgumentError(
+      return absl::InvalidArgumentError(
           "max_quantized_value must be greater than min_quantized_value.");
     }
     float range = max_quantized_value - min_quantized_value;
     scalar_ = range / 255.0;
     bias_ = (range / 512.0) + min_quantized_value;
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     const std::string& encoded =
         cc->Inputs().Tag("ENCODED").Value().Get<std::string>();
     std::vector<float> float_vector;
@@ -77,7 +77,7 @@ class DequantizeByteArrayCalculator : public CalculatorBase {
         .Tag("FLOAT_VECTOR")
         .AddPacket(MakePacket<std::vector<float>>(float_vector)
                        .At(cc->InputTimestamp()));
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:

mediapipe/calculators/core/end_loop_calculator.h

@@ -57,7 +57,7 @@ class EndLoopCalculator : public CalculatorBase {
   using ItemT = typename IterableT::value_type;
 
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     RET_CHECK(cc->Inputs().HasTag("BATCH_END"))
         << "Missing BATCH_END tagged input_stream.";
     cc->Inputs().Tag("BATCH_END").Set<Timestamp>();
@@ -67,10 +67,10 @@ class EndLoopCalculator : public CalculatorBase {
 
     RET_CHECK(cc->Outputs().HasTag("ITERABLE"));
     cc->Outputs().Tag("ITERABLE").Set<IterableT>();
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
+  absl::Status Process(CalculatorContext* cc) override {
     if (!cc->Inputs().Tag("ITEM").IsEmpty()) {
       if (!input_stream_collection_) {
         input_stream_collection_.reset(new IterableT);
@@ -94,7 +94,7 @@ class EndLoopCalculator : public CalculatorBase {
             .SetNextTimestampBound(Timestamp(loop_control_ts.Value() + 1));
       }
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:

mediapipe/calculators/core/flow_limiter_calculator.cc

@@ -67,7 +67,7 @@ namespace mediapipe {
 //
 class FlowLimiterCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     auto& side_inputs = cc->InputSidePackets();
     side_inputs.Tag("OPTIONS").Set<FlowLimiterCalculatorOptions>().Optional();
     cc->Inputs().Tag("OPTIONS").Set<FlowLimiterCalculatorOptions>().Optional();
@@ -81,10 +81,10 @@ class FlowLimiterCalculator : public CalculatorBase {
     cc->Outputs().Tag("ALLOW").Set<bool>().Optional();
     cc->SetInputStreamHandler("ImmediateInputStreamHandler");
     cc->SetProcessTimestampBounds(true);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) final {
+  absl::Status Open(CalculatorContext* cc) final {
     options_ = cc->Options<FlowLimiterCalculatorOptions>();
     options_ = tool::RetrieveOptions(options_, cc->InputSidePackets());
     if (cc->InputSidePackets().HasTag("MAX_IN_FLIGHT")) {
@@ -93,7 +93,7 @@ class FlowLimiterCalculator : public CalculatorBase {
     }
     input_queues_.resize(cc->Inputs().NumEntries(""));
     RET_CHECK_OK(CopyInputHeadersToOutputs(cc->Inputs(), &(cc->Outputs())));
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   // Returns true if an additional frame can be released for processing.
@@ -151,7 +151,7 @@ class FlowLimiterCalculator : public CalculatorBase {
   }
 
   // Releases input packets allowed by the max_in_flight constraint.
-  mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     options_ = tool::RetrieveOptions(options_, cc->Inputs());
 
     // Process the FINISHED input stream.
@@ -216,7 +216,7 @@ class FlowLimiterCalculator : public CalculatorBase {
     }
 
     ProcessAuxiliaryInputs(cc);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:

mediapipe/calculators/core/flow_limiter_calculator_test.cc

@@ -71,19 +71,19 @@ std::vector<T> PacketValues(const std::vector<Packet>& packets) {
 }
 
 // A Calculator::Process callback function.
-typedef std::function<mediapipe::Status(const InputStreamShardSet&,
-                                        OutputStreamShardSet*)>
+typedef std::function<absl::Status(const InputStreamShardSet&,
+                                   OutputStreamShardSet*)>
     ProcessFunction;
 
 // A testing callback function that passes through all packets.
-mediapipe::Status PassthroughFunction(const InputStreamShardSet& inputs,
-                                      OutputStreamShardSet* outputs) {
+absl::Status PassthroughFunction(const InputStreamShardSet& inputs,
+                                 OutputStreamShardSet* outputs) {
   for (int i = 0; i < inputs.NumEntries(); ++i) {
     if (!inputs.Index(i).Value().IsEmpty()) {
       outputs->Index(i).AddPacket(inputs.Index(i).Value());
     }
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 // Tests demonstrating an FlowLimiterCalculator operating in a cyclic graph.
@@ -111,8 +111,8 @@ class FlowLimiterCalculatorSemaphoreTest : public testing::Test {
                            {"callback_1", Adopt(new auto(semaphore_1_func))},
                        }));
 
-    allow_poller_.reset(new OutputStreamPoller(
-        graph_.AddOutputStreamPoller("allow").ValueOrDie()));
+    allow_poller_.reset(
+        new OutputStreamPoller(graph_.AddOutputStreamPoller("allow").value()));
   }
 
   // Adds a packet to a graph input stream.
@@ -203,22 +203,22 @@ TEST_F(FlowLimiterCalculatorSemaphoreTest, FramesDropped) {
 // A calculator that sleeps during Process.
 class SleepCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->Inputs().Tag("PACKET").SetAny();
     cc->Outputs().Tag("PACKET").SetSameAs(&cc->Inputs().Tag("PACKET"));
     cc->InputSidePackets().Tag("SLEEP_TIME").Set<int64>();
     cc->InputSidePackets().Tag("WARMUP_TIME").Set<int64>();
     cc->InputSidePackets().Tag("CLOCK").Set<mediapipe::Clock*>();
     cc->SetTimestampOffset(0);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) final {
+  absl::Status Open(CalculatorContext* cc) final {
     clock_ = cc->InputSidePackets().Tag("CLOCK").Get<mediapipe::Clock*>();
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     ++packet_count;
     absl::Duration sleep_time = absl::Microseconds(
         packet_count == 1
@@ -226,7 +226,7 @@ class SleepCalculator : public CalculatorBase {
             : cc->InputSidePackets().Tag("SLEEP_TIME").Get<int64>());
     clock_->Sleep(sleep_time);
     cc->Outputs().Tag("PACKET").AddPacket(cc->Inputs().Tag("PACKET").Value());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:
@@ -239,15 +239,15 @@ REGISTER_CALCULATOR(SleepCalculator);
 // Drops the 3rd packet, and optionally the corresponding timestamp bound.
 class DropCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->Inputs().Tag("PACKET").SetAny();
     cc->Outputs().Tag("PACKET").SetSameAs(&cc->Inputs().Tag("PACKET"));
     cc->InputSidePackets().Tag("DROP_TIMESTAMPS").Set<bool>();
     cc->SetProcessTimestampBounds(true);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     if (!cc->Inputs().Tag("PACKET").Value().IsEmpty()) {
       ++packet_count;
     }
@@ -259,7 +259,7 @@ class DropCalculator : public CalculatorBase {
       cc->Outputs().Tag("PACKET").SetNextTimestampBound(
           cc->InputTimestamp().NextAllowedInStream());
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:
@@ -365,11 +365,11 @@ TEST_F(FlowLimiterCalculatorTest, FinishedTimestamps) {
   MP_ASSERT_OK(graph_.Initialize(graph_config));
   MP_EXPECT_OK(graph_.ObserveOutputStream("out_1", [this](Packet p) {
     out_1_packets_.push_back(p);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }));
   MP_EXPECT_OK(graph_.ObserveOutputStream("allow", [this](Packet p) {
     allow_packets_.push_back(p);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }));
   simulation_clock_->ThreadStart();
   MP_ASSERT_OK(graph_.StartRun(side_packets));
@@ -437,11 +437,11 @@ TEST_F(FlowLimiterCalculatorTest, FinishedLost) {
   MP_ASSERT_OK(graph_.Initialize(graph_config));
   MP_EXPECT_OK(graph_.ObserveOutputStream("out_1", [this](Packet p) {
     out_1_packets_.push_back(p);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }));
   MP_EXPECT_OK(graph_.ObserveOutputStream("allow", [this](Packet p) {
     allow_packets_.push_back(p);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }));
   simulation_clock_->ThreadStart();
   MP_ASSERT_OK(graph_.StartRun(side_packets));
@@ -501,11 +501,11 @@ TEST_F(FlowLimiterCalculatorTest, FinishedDelayed) {
   MP_ASSERT_OK(graph_.Initialize(graph_config));
   MP_EXPECT_OK(graph_.ObserveOutputStream("out_1", [this](Packet p) {
     out_1_packets_.push_back(p);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }));
   MP_EXPECT_OK(graph_.ObserveOutputStream("allow", [this](Packet p) {
     allow_packets_.push_back(p);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }));
   simulation_clock_->ThreadStart();
   MP_ASSERT_OK(graph_.StartRun(side_packets));
@@ -596,16 +596,16 @@ TEST_F(FlowLimiterCalculatorTest, TwoInputStreams) {
   MP_ASSERT_OK(graph_.Initialize(graph_config));
   MP_EXPECT_OK(graph_.ObserveOutputStream("out_1", [this](Packet p) {
     out_1_packets_.push_back(p);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }));
   std::vector<Packet> out_2_packets;
   MP_EXPECT_OK(graph_.ObserveOutputStream("in_2_sampled", [&](Packet p) {
     out_2_packets.push_back(p);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }));
   MP_EXPECT_OK(graph_.ObserveOutputStream("allow", [this](Packet p) {
     allow_packets_.push_back(p);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }));
   simulation_clock_->ThreadStart();
   MP_ASSERT_OK(graph_.StartRun(side_packets));
@@ -705,16 +705,16 @@ TEST_F(FlowLimiterCalculatorTest, ZeroQueue) {
   MP_ASSERT_OK(graph_.Initialize(graph_config));
   MP_EXPECT_OK(graph_.ObserveOutputStream("out_1", [this](Packet p) {
     out_1_packets_.push_back(p);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }));
   std::vector<Packet> out_2_packets;
   MP_EXPECT_OK(graph_.ObserveOutputStream("in_2_sampled", [&](Packet p) {
     out_2_packets.push_back(p);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }));
   MP_EXPECT_OK(graph_.ObserveOutputStream("allow", [this](Packet p) {
     allow_packets_.push_back(p);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }));
   simulation_clock_->ThreadStart();
   MP_ASSERT_OK(graph_.StartRun(side_packets));

mediapipe/calculators/core/gate_calculator.cc

@@ -82,8 +82,7 @@ class GateCalculator : public CalculatorBase {
  public:
   GateCalculator() {}
 
-  static mediapipe::Status CheckAndInitAllowDisallowInputs(
-      CalculatorContract* cc) {
+  static absl::Status CheckAndInitAllowDisallowInputs(CalculatorContract* cc) {
     bool input_via_side_packet = cc->InputSidePackets().HasTag("ALLOW") ||
                                  cc->InputSidePackets().HasTag("DISALLOW");
     bool input_via_stream =
@@ -110,10 +109,10 @@ class GateCalculator : public CalculatorBase {
         cc->Inputs().Tag("DISALLOW").Set<bool>();
       }
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     RET_CHECK_OK(CheckAndInitAllowDisallowInputs(cc));
 
     const int num_data_streams = cc->Inputs().NumEntries("");
@@ -130,10 +129,10 @@ class GateCalculator : public CalculatorBase {
       cc->Outputs().Tag("STATE_CHANGE").Set<bool>();
     }
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) final {
+  absl::Status Open(CalculatorContext* cc) final {
     use_side_packet_for_allow_disallow_ = false;
     if (cc->InputSidePackets().HasTag("ALLOW")) {
       use_side_packet_for_allow_disallow_ = true;
@@ -153,10 +152,10 @@ class GateCalculator : public CalculatorBase {
     const auto& options = cc->Options<::mediapipe::GateCalculatorOptions>();
     empty_packets_as_allow_ = options.empty_packets_as_allow();
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     bool allow = empty_packets_as_allow_;
     if (use_side_packet_for_allow_disallow_) {
       allow = allow_by_side_packet_decision_;
@@ -195,7 +194,7 @@ class GateCalculator : public CalculatorBase {
           cc->Outputs().Get("", i).Close();
         }
       }
-      return mediapipe::OkStatus();
+      return absl::OkStatus();
     }
 
     // Process data streams.
@@ -205,7 +204,7 @@ class GateCalculator : public CalculatorBase {
       }
     }
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:

mediapipe/calculators/core/gate_calculator_test.cc

@@ -25,7 +25,7 @@ namespace {
 class GateCalculatorTest : public ::testing::Test {
  protected:
   // Helper to run a graph and return status.
-  static mediapipe::Status RunGraph(const std::string& proto) {
+  static absl::Status RunGraph(const std::string& proto) {
     auto runner = absl::make_unique<CalculatorRunner>(
         ParseTextProtoOrDie<CalculatorGraphConfig::Node>(proto));
     return runner->Run();

mediapipe/calculators/core/immediate_mux_calculator.cc

@@ -43,16 +43,16 @@ class ImmediateMuxCalculator : public CalculatorBase {
  public:
   // This calculator combines any set of input streams into a single
   // output stream.  All input stream types must match the output stream type.
-  static mediapipe::Status GetContract(CalculatorContract* cc);
+  static absl::Status GetContract(CalculatorContract* cc);
 
   // Passes any input packet to the output stream immediately, unless the
   // packet timestamp is lower than a previously passed packet.
-  mediapipe::Status Process(CalculatorContext* cc) override;
-  mediapipe::Status Open(CalculatorContext* cc) override;
+  absl::Status Process(CalculatorContext* cc) override;
+  absl::Status Open(CalculatorContext* cc) override;
 };
 REGISTER_CALCULATOR(ImmediateMuxCalculator);
 
-mediapipe::Status ImmediateMuxCalculator::GetContract(CalculatorContract* cc) {
+absl::Status ImmediateMuxCalculator::GetContract(CalculatorContract* cc) {
   RET_CHECK(cc->Outputs().NumEntries() >= 1 && cc->Outputs().NumEntries() <= 2)
       << "This calculator produces only one or two output streams.";
   cc->Outputs().Index(0).SetAny();
@@ -62,15 +62,15 @@ mediapipe::Status ImmediateMuxCalculator::GetContract(CalculatorContract* cc) {
   for (int i = 0; i < cc->Inputs().NumEntries(); ++i) {
     cc->Inputs().Index(i).SetSameAs(&cc->Outputs().Index(0));
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status ImmediateMuxCalculator::Open(CalculatorContext* cc) {
+absl::Status ImmediateMuxCalculator::Open(CalculatorContext* cc) {
   cc->SetOffset(TimestampDiff(0));
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status ImmediateMuxCalculator::Process(CalculatorContext* cc) {
+absl::Status ImmediateMuxCalculator::Process(CalculatorContext* cc) {
   // Pass along the first packet, unless it has been superseded.
   for (int i = 0; i < cc->Inputs().NumEntries(); ++i) {
     const Packet& packet = cc->Inputs().Index(i).Value();
@@ -88,7 +88,7 @@ mediapipe::Status ImmediateMuxCalculator::Process(CalculatorContext* cc) {
       }
     }
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 }  // namespace mediapipe

mediapipe/calculators/core/immediate_mux_calculator_test.cc

@@ -289,19 +289,19 @@ TEST_F(ImmediateMuxCalculatorTest, SimultaneousTimestamps) {
 }
 
 // A Calculator::Process callback function.
-typedef std::function<mediapipe::Status(const InputStreamShardSet&,
-                                        OutputStreamShardSet*)>
+typedef std::function<absl::Status(const InputStreamShardSet&,
+                                   OutputStreamShardSet*)>
     ProcessFunction;
 
 // A testing callback function that passes through all packets.
-mediapipe::Status PassThrough(const InputStreamShardSet& inputs,
-                              OutputStreamShardSet* outputs) {
+absl::Status PassThrough(const InputStreamShardSet& inputs,
+                         OutputStreamShardSet* outputs) {
   for (int i = 0; i < inputs.NumEntries(); ++i) {
     if (!inputs.Index(i).Value().IsEmpty()) {
       outputs->Index(i).AddPacket(inputs.Index(i).Value());
     }
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 TEST_F(ImmediateMuxCalculatorTest, Demux) {
@@ -325,7 +325,7 @@ TEST_F(ImmediateMuxCalculatorTest, Demux) {
   auto out_cb = [&](const Packet& p) {
     absl::MutexLock lock(&out_mutex);
     out_packets.push_back(p);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   };
   auto wait_for = [&](std::function<bool()> cond) {
     absl::MutexLock lock(&out_mutex);

mediapipe/calculators/core/make_pair_calculator.cc

@@ -41,14 +41,14 @@ class MakePairCalculator : public Node {
 
   MEDIAPIPE_NODE_CONTRACT(kIn, kPair);
 
-  static mediapipe::Status UpdateContract(CalculatorContract* cc) {
+  static absl::Status UpdateContract(CalculatorContract* cc) {
     RET_CHECK_EQ(kIn(cc).Count(), 2);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
+  absl::Status Process(CalculatorContext* cc) override {
     kPair(cc).Send({kIn(cc)[0].packet(), kIn(cc)[1].packet()});
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 };
 

mediapipe/calculators/core/matrix_multiply_calculator.cc

@@ -38,13 +38,13 @@ class MatrixMultiplyCalculator : public Node {
 
   MEDIAPIPE_NODE_CONTRACT(kIn, kOut, kSide);
 
-  mediapipe::Status Process(CalculatorContext* cc) override;
+  absl::Status Process(CalculatorContext* cc) override;
 };
 MEDIAPIPE_REGISTER_NODE(MatrixMultiplyCalculator);
 
-mediapipe::Status MatrixMultiplyCalculator::Process(CalculatorContext* cc) {
+absl::Status MatrixMultiplyCalculator::Process(CalculatorContext* cc) {
   kOut(cc).Send(*kSide(cc) * *kIn(cc));
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 }  // namespace api2

mediapipe/calculators/core/matrix_subtract_calculator.cc

@@ -50,32 +50,31 @@ class MatrixSubtractCalculator : public Node {
   static constexpr Output<Matrix> kOut{""};
 
   MEDIAPIPE_NODE_CONTRACT(kMinuend, kSubtrahend, kOut);
-  static mediapipe::Status UpdateContract(CalculatorContract* cc);
+  static absl::Status UpdateContract(CalculatorContract* cc);
 
-  mediapipe::Status Process(CalculatorContext* cc) override;
+  absl::Status Process(CalculatorContext* cc) override;
 };
 MEDIAPIPE_REGISTER_NODE(MatrixSubtractCalculator);
 
 // static
-mediapipe::Status MatrixSubtractCalculator::UpdateContract(
-    CalculatorContract* cc) {
+absl::Status MatrixSubtractCalculator::UpdateContract(CalculatorContract* cc) {
   // TODO: the next restriction could be relaxed.
   RET_CHECK(kMinuend(cc).IsStream() ^ kSubtrahend(cc).IsStream())
       << "MatrixSubtractCalculator only accepts exactly one input stream and "
          "one input side packet";
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status MatrixSubtractCalculator::Process(CalculatorContext* cc) {
+absl::Status MatrixSubtractCalculator::Process(CalculatorContext* cc) {
   const Matrix& minuend = *kMinuend(cc);
   const Matrix& subtrahend = *kSubtrahend(cc);
   if (minuend.rows() != subtrahend.rows() ||
       minuend.cols() != subtrahend.cols()) {
-    return mediapipe::InvalidArgumentError(
+    return absl::InvalidArgumentError(
         "Minuend and subtrahend must have the same dimensions.");
   }
   kOut(cc).Send(minuend - subtrahend);
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 }  // namespace api2

mediapipe/calculators/core/matrix_to_vector_calculator.cc

@@ -49,12 +49,19 @@ class MatrixToVectorCalculator : public Node {
 
   MEDIAPIPE_NODE_CONTRACT(kIn, kOut);
 
+  absl::Status Open(CalculatorContext* cc) override;
+
   // Outputs a packet containing a vector for each input packet.
-  mediapipe::Status Process(CalculatorContext* cc) override;
+  absl::Status Process(CalculatorContext* cc) override;
 };
 MEDIAPIPE_REGISTER_NODE(MatrixToVectorCalculator);
 
-mediapipe::Status MatrixToVectorCalculator::Process(CalculatorContext* cc) {
+absl::Status MatrixToVectorCalculator::Open(CalculatorContext* cc) {
+  cc->SetOffset(0);
+  return mediapipe::OkStatus();
+}
+
+absl::Status MatrixToVectorCalculator::Process(CalculatorContext* cc) {
   const Matrix& input = *kIn(cc);
   auto output = absl::make_unique<std::vector<float>>();
 
@@ -66,7 +73,7 @@ mediapipe::Status MatrixToVectorCalculator::Process(CalculatorContext* cc) {
   output_as_matrix = input;
 
   kOut(cc).Send(std::move(output));
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 }  // namespace api2

mediapipe/calculators/core/merge_calculator.cc

@@ -50,7 +50,7 @@ class MergeCalculator : public Node {
 
   MEDIAPIPE_NODE_CONTRACT(kIn, kOut);
 
-  static mediapipe::Status UpdateContract(CalculatorContract* cc) {
+  static absl::Status UpdateContract(CalculatorContract* cc) {
     RET_CHECK_GT(kIn(cc).Count(), 0) << "Needs at least one input stream";
     if (kIn(cc).Count() == 1) {
       LOG(WARNING)
@@ -59,23 +59,23 @@ class MergeCalculator : public Node {
              "correctly or consider removing this calculator to reduce "
              "unnecessary overhead.";
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     // Output the packet from the first input stream with a packet ready at this
     // timestamp.
-    for (int i = 0; i < kIn(cc).Count(); ++i) {
-      if (!kIn(cc)[i].IsEmpty()) {
-        kOut(cc).Send(kIn(cc)[i].packet());
-        return mediapipe::OkStatus();
+    for (const auto& input : kIn(cc)) {
+      if (!input.IsEmpty()) {
+        kOut(cc).Send(input.packet());
+        return absl::OkStatus();
       }
     }
 
     LOG(WARNING) << "Empty input packets at timestamp "
                  << cc->InputTimestamp().Value();
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 };
 

mediapipe/calculators/core/mux_calculator.cc

@@ -40,13 +40,13 @@ class MuxCalculator : public Node {
   MEDIAPIPE_NODE_CONTRACT(kSelect, kIn, kOut,
                           StreamHandler("MuxInputStreamHandler"));
 
-  mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     int select = *kSelect(cc);
     RET_CHECK(0 <= select && select < kIn(cc).Count());
     if (!kIn(cc)[select].IsEmpty()) {
       kOut(cc).Send(kIn(cc)[select].packet());
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 };
 

mediapipe/calculators/core/mux_calculator_test.cc

@@ -134,7 +134,7 @@ void RunGraph(const std::string& graph_config_proto,
               const std::string& input_stream_name, int num_input_packets,
               std::function<Packet(int)> input_fn,
               const std::string& output_stream_name,
-              std::function<mediapipe::Status(const Packet&)> output_fn) {
+              std::function<absl::Status(const Packet&)> output_fn) {
   CalculatorGraphConfig config =
       mediapipe::ParseTextProtoOrDie<CalculatorGraphConfig>(graph_config_proto);
   CalculatorGraph graph;
@@ -165,9 +165,9 @@ TEST(MuxCalculatorTest, InputStreamSelector_DefaultInputStreamHandler) {
   // Output and handling.
   std::vector<int> output;
   // This function collects the output from the packet.
-  auto output_fn = [&output](const Packet& p) -> mediapipe::Status {
+  auto output_fn = [&output](const Packet& p) -> absl::Status {
     output.push_back(p.Get<int>());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   };
 
   RunGraph(kTestGraphConfig1, {}, kInputName, input_packets.size(), input_fn,
@@ -191,9 +191,9 @@ TEST(MuxCalculatorTest, InputSidePacketSelector_DefaultInputStreamHandler) {
   // Output and handling.
   std::vector<int> output;
   // This function collects the output from the packet.
-  auto output_fn = [&output](const Packet& p) -> mediapipe::Status {
+  auto output_fn = [&output](const Packet& p) -> absl::Status {
     output.push_back(p.Get<int>());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   };
 
   RunGraph(kTestGraphConfig2, {{kInputSelector, MakePacket<int>(0)}},
@@ -225,9 +225,9 @@ TEST(MuxCalculatorTest, InputStreamSelector_MuxInputStreamHandler) {
   // Output and handling.
   std::vector<int> output;
   // This function collects the output from the packet.
-  auto output_fn = [&output](const Packet& p) -> mediapipe::Status {
+  auto output_fn = [&output](const Packet& p) -> absl::Status {
     output.push_back(p.Get<int>());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   };
 
   RunGraph(kTestGraphConfig3, {}, kInputName, input_packets.size(), input_fn,
@@ -260,7 +260,7 @@ TEST(MuxCalculatorTest, DiscardSkippedInputs_MuxInputStreamHandler) {
   MP_ASSERT_OK(
       graph.ObserveOutputStream("test_output", [&output](const Packet& p) {
         output = p.Get<std::shared_ptr<int>>();
-        return mediapipe::OkStatus();
+        return absl::OkStatus();
       }));
 
   MP_ASSERT_OK(graph.StartRun({}));

mediapipe/calculators/core/packet_cloner_calculator.cc

@@ -45,17 +45,17 @@ namespace mediapipe {
 //   packet_inner_join_calculator.cc: Don't output unless all inputs are new.
 class PacketClonerCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     const int tick_signal_index = cc->Inputs().NumEntries() - 1;
     for (int i = 0; i < tick_signal_index; ++i) {
       cc->Inputs().Index(i).SetAny();
       cc->Outputs().Index(i).SetSameAs(&cc->Inputs().Index(i));
     }
     cc->Inputs().Index(tick_signal_index).SetAny();
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) final {
+  absl::Status Open(CalculatorContext* cc) final {
     // Load options.
     const auto calculator_options =
         cc->Options<mediapipe::PacketClonerCalculatorOptions>();
@@ -71,10 +71,10 @@ class PacketClonerCalculator : public CalculatorBase {
         cc->Outputs().Index(i).SetHeader(cc->Inputs().Index(i).Header());
       }
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     // Store input signals.
     for (int i = 0; i < tick_signal_index_; ++i) {
       if (!cc->Inputs().Index(i).Value().IsEmpty()) {
@@ -88,7 +88,7 @@ class PacketClonerCalculator : public CalculatorBase {
         // Return if one of the input is null.
         for (int i = 0; i < tick_signal_index_; ++i) {
           if (current_[i].IsEmpty()) {
-            return mediapipe::OkStatus();
+            return absl::OkStatus();
           }
         }
       }
@@ -103,7 +103,7 @@ class PacketClonerCalculator : public CalculatorBase {
         }
       }
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:

mediapipe/calculators/core/packet_inner_join_calculator.cc

@@ -34,10 +34,10 @@ namespace mediapipe {
 //   packet_cloner_calculator.cc: Repeats last-seen packets from empty inputs.
 class PacketInnerJoinCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc);
+  static absl::Status GetContract(CalculatorContract* cc);
 
-  mediapipe::Status Open(CalculatorContext* cc) override;
-  mediapipe::Status Process(CalculatorContext* cc) override;
+  absl::Status Open(CalculatorContext* cc) override;
+  absl::Status Process(CalculatorContext* cc) override;
 
  private:
   int num_streams_;
@@ -45,8 +45,7 @@ class PacketInnerJoinCalculator : public CalculatorBase {
 
 REGISTER_CALCULATOR(PacketInnerJoinCalculator);
 
-mediapipe::Status PacketInnerJoinCalculator::GetContract(
-    CalculatorContract* cc) {
+absl::Status PacketInnerJoinCalculator::GetContract(CalculatorContract* cc) {
   RET_CHECK(cc->Inputs().NumEntries() == cc->Outputs().NumEntries())
       << "The number of input and output streams must match.";
   const int num_streams = cc->Inputs().NumEntries();
@@ -54,25 +53,25 @@ mediapipe::Status PacketInnerJoinCalculator::GetContract(
     cc->Inputs().Index(i).SetAny();
     cc->Outputs().Index(i).SetSameAs(&cc->Inputs().Index(i));
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status PacketInnerJoinCalculator::Open(CalculatorContext* cc) {
+absl::Status PacketInnerJoinCalculator::Open(CalculatorContext* cc) {
   num_streams_ = cc->Inputs().NumEntries();
   cc->SetOffset(TimestampDiff(0));
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status PacketInnerJoinCalculator::Process(CalculatorContext* cc) {
+absl::Status PacketInnerJoinCalculator::Process(CalculatorContext* cc) {
   for (int i = 0; i < num_streams_; ++i) {
     if (cc->Inputs().Index(i).Value().IsEmpty()) {
-      return mediapipe::OkStatus();
+      return absl::OkStatus();
     }
   }
   for (int i = 0; i < num_streams_; ++i) {
     cc->Outputs().Index(i).AddPacket(cc->Inputs().Index(i).Value());
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 }  // namespace mediapipe

mediapipe/calculators/core/packet_presence_calculator.cc

@@ -57,26 +57,26 @@ namespace mediapipe {
 // }
 class PacketPresenceCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->Inputs().Tag("PACKET").SetAny();
     cc->Outputs().Tag("PRESENCE").Set<bool>();
     // Process() function is invoked in response to input stream timestamp
     // bound updates.
     cc->SetProcessTimestampBounds(true);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) override {
+  absl::Status Open(CalculatorContext* cc) override {
     cc->SetOffset(TimestampDiff(0));
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     cc->Outputs()
         .Tag("PRESENCE")
         .AddPacket(MakePacket<bool>(!cc->Inputs().Tag("PACKET").IsEmpty())
                        .At(cc->InputTimestamp()));
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 };
 REGISTER_CALCULATOR(PacketPresenceCalculator);

mediapipe/calculators/core/packet_resampler_calculator.cc

@@ -47,8 +47,7 @@ TimestampDiff TimestampDiffFromSeconds(double seconds) {
 }
 }  // namespace
 
-mediapipe::Status PacketResamplerCalculator::GetContract(
-    CalculatorContract* cc) {
+absl::Status PacketResamplerCalculator::GetContract(CalculatorContract* cc) {
   const auto& resampler_options =
       cc->Options<PacketResamplerCalculatorOptions>();
   if (cc->InputSidePackets().HasTag("OPTIONS")) {
@@ -78,10 +77,10 @@ mediapipe::Status PacketResamplerCalculator::GetContract(
     RET_CHECK(cc->InputSidePackets().HasTag("SEED"));
     cc->InputSidePackets().Tag("SEED").Set<std::string>();
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status PacketResamplerCalculator::Open(CalculatorContext* cc) {
+absl::Status PacketResamplerCalculator::Open(CalculatorContext* cc) {
   const auto resampler_options =
       tool::RetrieveOptions(cc->Options<PacketResamplerCalculatorOptions>(),
                             cc->InputSidePackets(), "OPTIONS");
@@ -156,8 +155,8 @@ mediapipe::Status PacketResamplerCalculator::Open(CalculatorContext* cc) {
     const auto& seed = cc->InputSidePackets().Tag("SEED").Get<std::string>();
     random_ = CreateSecureRandom(seed);
     if (random_ == nullptr) {
-      return mediapipe::Status(
-          mediapipe::StatusCode::kInvalidArgument,
+      return absl::Status(
+          absl::StatusCode::kInvalidArgument,
           "SecureRandom is not available.  With \"jitter\" specified, "
           "PacketResamplerCalculator processing cannot proceed.");
     }
@@ -165,17 +164,17 @@ mediapipe::Status PacketResamplerCalculator::Open(CalculatorContext* cc) {
   }
   packet_reservoir_ =
       std::make_unique<PacketReservoir>(packet_reservoir_random_.get());
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status PacketResamplerCalculator::Process(CalculatorContext* cc) {
+absl::Status PacketResamplerCalculator::Process(CalculatorContext* cc) {
   if (cc->InputTimestamp() == Timestamp::PreStream() &&
       cc->Inputs().UsesTags() && cc->Inputs().HasTag("VIDEO_HEADER") &&
       !cc->Inputs().Tag("VIDEO_HEADER").IsEmpty()) {
     video_header_ = cc->Inputs().Tag("VIDEO_HEADER").Get<VideoHeader>();
     video_header_.frame_rate = frame_rate_;
     if (cc->Inputs().Get(input_data_id_).IsEmpty()) {
-      return mediapipe::OkStatus();
+      return absl::OkStatus();
     }
   }
   if (jitter_ != 0.0 && random_ != nullptr) {
@@ -192,7 +191,7 @@ mediapipe::Status PacketResamplerCalculator::Process(CalculatorContext* cc) {
     MP_RETURN_IF_ERROR(ProcessWithoutJitter(cc));
   }
   last_packet_ = cc->Inputs().Get(input_data_id_).Value();
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 void PacketResamplerCalculator::InitializeNextOutputTimestampWithJitter() {
@@ -229,7 +228,7 @@ void PacketResamplerCalculator::UpdateNextOutputTimestampWithJitter() {
       ((1.0 - jitter_) + 2.0 * jitter_ * random_->RandFloat());
 }
 
-mediapipe::Status PacketResamplerCalculator::ProcessWithJitter(
+absl::Status PacketResamplerCalculator::ProcessWithJitter(
     CalculatorContext* cc) {
   RET_CHECK_GT(cc->InputTimestamp(), Timestamp::PreStream());
   RET_CHECK_NE(jitter_, 0.0);
@@ -243,7 +242,7 @@ mediapipe::Status PacketResamplerCalculator::ProcessWithJitter(
           cc->Inputs().Get(input_data_id_).Value().At(next_output_timestamp_));
       UpdateNextOutputTimestampWithJitter();
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   if (frame_time_usec_ <
@@ -266,11 +265,21 @@ mediapipe::Status PacketResamplerCalculator::ProcessWithJitter(
                                 : cc->Inputs().Get(input_data_id_).Value())
                                .At(next_output_timestamp_));
     UpdateNextOutputTimestampWithJitter();
+    // From now on every time a packet is emitted the timestamp of the next
+    // packet becomes known; that timestamp is stored in next_output_timestamp_.
+    // The only exception to this rule is the packet emitted from Close() which
+    // can only happen when jitter_with_reflection is enabled but in this case
+    // next_output_timestamp_min_ is a non-decreasing lower bound of any
+    // subsequent packet.
+    const Timestamp timestamp_bound = jitter_with_reflection_
+                                          ? next_output_timestamp_min_
+                                          : next_output_timestamp_;
+    cc->Outputs().Get(output_data_id_).SetNextTimestampBound(timestamp_bound);
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status PacketResamplerCalculator::ProcessWithoutJitter(
+absl::Status PacketResamplerCalculator::ProcessWithoutJitter(
     CalculatorContext* cc) {
   RET_CHECK_GT(cc->InputTimestamp(), Timestamp::PreStream());
   RET_CHECK_EQ(jitter_, 0.0);
@@ -333,12 +342,12 @@ mediapipe::Status PacketResamplerCalculator::ProcessWithoutJitter(
         .Get(output_data_id_)
         .SetNextTimestampBound(PeriodIndexToTimestamp(period_count_));
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status PacketResamplerCalculator::Close(CalculatorContext* cc) {
+absl::Status PacketResamplerCalculator::Close(CalculatorContext* cc) {
   if (!cc->GraphStatus().ok()) {
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
   // Emit the last packet received if we have at least one packet, but
   // haven't sent anything for its period.
@@ -350,7 +359,7 @@ mediapipe::Status PacketResamplerCalculator::Close(CalculatorContext* cc) {
   if (!packet_reservoir_->IsEmpty()) {
     OutputWithinLimits(cc, packet_reservoir_->GetSample());
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 Timestamp PacketResamplerCalculator::PeriodIndexToTimestamp(int64 index) const {

mediapipe/calculators/core/packet_resampler_calculator.h

@@ -99,11 +99,11 @@ class PacketReservoir {
 //   packet_downsampler_calculator.cc: skips packets regardless of timestamps.
 class PacketResamplerCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc);
+  static absl::Status GetContract(CalculatorContract* cc);
 
-  mediapipe::Status Open(CalculatorContext* cc) override;
-  mediapipe::Status Close(CalculatorContext* cc) override;
-  mediapipe::Status Process(CalculatorContext* cc) override;
+  absl::Status Open(CalculatorContext* cc) override;
+  absl::Status Close(CalculatorContext* cc) override;
+  absl::Status Process(CalculatorContext* cc) override;
 
  private:
   // Calculates the first sampled timestamp that incorporates a jittering
@@ -113,10 +113,10 @@ class PacketResamplerCalculator : public CalculatorBase {
   void UpdateNextOutputTimestampWithJitter();
 
   // Logic for Process() when jitter_ != 0.0.
-  mediapipe::Status ProcessWithJitter(CalculatorContext* cc);
+  absl::Status ProcessWithJitter(CalculatorContext* cc);
 
   // Logic for Process() when jitter_ == 0.0.
-  mediapipe::Status ProcessWithoutJitter(CalculatorContext* cc);
+  absl::Status ProcessWithoutJitter(CalculatorContext* cc);
 
   // Given the current count of periods that have passed, this returns
   // the next valid timestamp of the middle point of the next period:

mediapipe/calculators/core/packet_thinner_calculator.cc

@@ -90,7 +90,7 @@ class PacketThinnerCalculator : public CalculatorBase {
   PacketThinnerCalculator() {}
   ~PacketThinnerCalculator() override {}
 
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     if (cc->InputSidePackets().HasTag(kOptionsTag)) {
       cc->InputSidePackets().Tag(kOptionsTag).Set<CalculatorOptions>();
     }
@@ -99,21 +99,21 @@ class PacketThinnerCalculator : public CalculatorBase {
     if (cc->InputSidePackets().HasTag(kPeriodTag)) {
       cc->InputSidePackets().Tag(kPeriodTag).Set<int64>();
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) override;
-  mediapipe::Status Close(CalculatorContext* cc) override;
-  mediapipe::Status Process(CalculatorContext* cc) override {
+  absl::Status Open(CalculatorContext* cc) override;
+  absl::Status Close(CalculatorContext* cc) override;
+  absl::Status Process(CalculatorContext* cc) override {
     if (cc->InputTimestamp() < start_time_) {
-      return mediapipe::OkStatus();  // Drop packets before start_time_.
+      return absl::OkStatus();  // Drop packets before start_time_.
     } else if (cc->InputTimestamp() >= end_time_) {
       if (!cc->Outputs().Index(0).IsClosed()) {
         cc->Outputs()
             .Index(0)
             .Close();  // No more Packets will be output after end_time_.
       }
-      return mediapipe::OkStatus();
+      return absl::OkStatus();
     } else {
       return thinner_type_ == PacketThinnerCalculatorOptions::ASYNC
                  ? AsyncThinnerProcess(cc)
@@ -123,8 +123,8 @@ class PacketThinnerCalculator : public CalculatorBase {
 
  private:
   // Implementation of ASYNC and SYNC versions of thinner algorithm.
-  mediapipe::Status AsyncThinnerProcess(CalculatorContext* cc);
-  mediapipe::Status SyncThinnerProcess(CalculatorContext* cc);
+  absl::Status AsyncThinnerProcess(CalculatorContext* cc);
+  absl::Status SyncThinnerProcess(CalculatorContext* cc);
 
   // Cached option.
   PacketThinnerCalculatorOptions::ThinnerType thinner_type_;
@@ -153,7 +153,7 @@ namespace {
 TimestampDiff abs(TimestampDiff t) { return t < 0 ? -t : t; }
 }  // namespace
 
-mediapipe::Status PacketThinnerCalculator::Open(CalculatorContext* cc) {
+absl::Status PacketThinnerCalculator::Open(CalculatorContext* cc) {
   PacketThinnerCalculatorOptions options = mediapipe::tool::RetrieveOptions(
       cc->Options<PacketThinnerCalculatorOptions>(), cc->InputSidePackets(),
       kOptionsTag);
@@ -224,10 +224,10 @@ mediapipe::Status PacketThinnerCalculator::Open(CalculatorContext* cc) {
     }
   }
 
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status PacketThinnerCalculator::Close(CalculatorContext* cc) {
+absl::Status PacketThinnerCalculator::Close(CalculatorContext* cc) {
   // Emit any saved packets before quitting.
   if (!saved_packet_.IsEmpty()) {
     // Only sync thinner should have saved packets.
@@ -239,10 +239,10 @@ mediapipe::Status PacketThinnerCalculator::Close(CalculatorContext* cc) {
       cc->Outputs().Index(0).AddPacket(saved_packet_);
     }
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status PacketThinnerCalculator::AsyncThinnerProcess(
+absl::Status PacketThinnerCalculator::AsyncThinnerProcess(
     CalculatorContext* cc) {
   if (cc->InputTimestamp() >= next_valid_timestamp_) {
     cc->Outputs().Index(0).AddPacket(
@@ -251,10 +251,10 @@ mediapipe::Status PacketThinnerCalculator::AsyncThinnerProcess(
     // Guaranteed not to emit packets seen during refractory period.
     cc->Outputs().Index(0).SetNextTimestampBound(next_valid_timestamp_);
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status PacketThinnerCalculator::SyncThinnerProcess(
+absl::Status PacketThinnerCalculator::SyncThinnerProcess(
     CalculatorContext* cc) {
   if (saved_packet_.IsEmpty()) {
     // If no packet has been saved, store the current packet.
@@ -290,7 +290,7 @@ mediapipe::Status PacketThinnerCalculator::SyncThinnerProcess(
       saved_packet_ = cc->Inputs().Index(0).Value();
     }
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 Timestamp PacketThinnerCalculator::NearestSyncTimestamp(Timestamp now) const {

mediapipe/calculators/core/pass_through_calculator.cc

@@ -28,9 +28,9 @@ namespace mediapipe {
 // ignored.
 class PassThroughCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     if (!cc->Inputs().TagMap()->SameAs(*cc->Outputs().TagMap())) {
-      return mediapipe::InvalidArgumentError(
+      return absl::InvalidArgumentError(
           "Input and output streams to PassThroughCalculator must use "
           "matching tags and indexes.");
     }
@@ -46,7 +46,7 @@ class PassThroughCalculator : public CalculatorBase {
     if (cc->OutputSidePackets().NumEntries() != 0) {
       if (!cc->InputSidePackets().TagMap()->SameAs(
               *cc->OutputSidePackets().TagMap())) {
-        return mediapipe::InvalidArgumentError(
+        return absl::InvalidArgumentError(
             "Input and output side packets to PassThroughCalculator must use "
             "matching tags and indexes.");
       }
@@ -56,10 +56,10 @@ class PassThroughCalculator : public CalculatorBase {
             &cc->InputSidePackets().Get(id));
       }
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) final {
+  absl::Status Open(CalculatorContext* cc) final {
     for (CollectionItemId id = cc->Inputs().BeginId();
          id < cc->Inputs().EndId(); ++id) {
       if (!cc->Inputs().Get(id).Header().IsEmpty()) {
@@ -73,10 +73,10 @@ class PassThroughCalculator : public CalculatorBase {
       }
     }
     cc->SetOffset(TimestampDiff(0));
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     cc->GetCounter("PassThrough")->Increment();
     if (cc->Inputs().NumEntries() == 0) {
       return tool::StatusStop();
@@ -90,7 +90,7 @@ class PassThroughCalculator : public CalculatorBase {
         cc->Outputs().Get(id).AddPacket(cc->Inputs().Get(id).Value());
       }
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 };
 REGISTER_CALCULATOR(PassThroughCalculator);

mediapipe/calculators/core/previous_loopback_calculator.cc

@@ -65,19 +65,19 @@ class PreviousLoopbackCalculator : public Node {
                           StreamHandler("ImmediateInputStreamHandler"),
                           TimestampChange::Arbitrary());
 
-  static mediapipe::Status UpdateContract(CalculatorContract* cc) {
+  static absl::Status UpdateContract(CalculatorContract* cc) {
     // Process() function is invoked in response to MAIN/LOOP stream timestamp
     // bound updates.
     cc->SetProcessTimestampBounds(true);
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) final {
+  absl::Status Open(CalculatorContext* cc) final {
     kPrevLoop(cc).SetHeader(kLoop(cc).Header());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     // Non-empty packets and empty packets indicating timestamp bound updates
     // are guaranteed to have timestamps greater than timestamps of previous
     // packets within the same stream. Calculator tracks and operates on such
@@ -106,7 +106,7 @@ class PreviousLoopbackCalculator : public Node {
 
     while (!main_packet_specs_.empty() && !loop_packets_.empty()) {
       // The earliest MAIN packet.
-      const MainPacketSpec& main_spec = main_packet_specs_.front();
+      MainPacketSpec main_spec = main_packet_specs_.front();
       // The earliest LOOP packet.
       const PacketBase& loop_candidate = loop_packets_.front();
       // Match LOOP and MAIN packets.
@@ -139,7 +139,7 @@ class PreviousLoopbackCalculator : public Node {
       }
     }
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:

mediapipe/calculators/core/previous_loopback_calculator_test.cc

@@ -136,27 +136,27 @@ TEST(PreviousLoopbackCalculator, CorrectTimestamps) {
 // A Calculator that outputs a summary packet in CalculatorBase::Close().
 class PacketOnCloseCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->Inputs().Index(0).Set<int>();
     cc->Outputs().Index(0).Set<int>();
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) final {
+  absl::Status Open(CalculatorContext* cc) final {
     cc->SetOffset(TimestampDiff(0));
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     sum_ += cc->Inputs().Index(0).Value().Get<int>();
     cc->Outputs().Index(0).AddPacket(cc->Inputs().Index(0).Value());
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Close(CalculatorContext* cc) final {
+  absl::Status Close(CalculatorContext* cc) final {
     cc->Outputs().Index(0).AddPacket(
         MakePacket<int>(sum_).At(Timestamp::Max()));
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:
@@ -700,19 +700,19 @@ TEST_F(PreviousLoopbackCalculatorProcessingTimestampsTest,
 // Similar to GateCalculator, but it doesn't propagate timestamp bound updates.
 class DroppingGateCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->Inputs().Index(0).SetAny();
     cc->Inputs().Tag("DISALLOW").Set<bool>();
     cc->Outputs().Index(0).SetSameAs(&cc->Inputs().Index(0));
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     if (!cc->Inputs().Index(0).IsEmpty() &&
         !cc->Inputs().Tag("DISALLOW").Get<bool>()) {
       cc->Outputs().Index(0).AddPacket(cc->Inputs().Index(0).Value());
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 };
 REGISTER_CALCULATOR(DroppingGateCalculator);

mediapipe/calculators/core/quantize_float_vector_calculator.cc

@@ -43,32 +43,32 @@ namespace mediapipe {
 
 class QuantizeFloatVectorCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->Inputs().Tag("FLOAT_VECTOR").Set<std::vector<float>>();
     cc->Outputs().Tag("ENCODED").Set<std::string>();
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) final {
+  absl::Status Open(CalculatorContext* cc) final {
     const auto options =
         cc->Options<::mediapipe::QuantizeFloatVectorCalculatorOptions>();
     if (!options.has_max_quantized_value() ||
         !options.has_min_quantized_value()) {
-      return mediapipe::InvalidArgumentError(
+      return absl::InvalidArgumentError(
           "Both max_quantized_value and min_quantized_value must be provided "
           "in QuantizeFloatVectorCalculatorOptions.");
     }
     max_quantized_value_ = options.max_quantized_value();
     min_quantized_value_ = options.min_quantized_value();
     if (max_quantized_value_ < min_quantized_value_ + FLT_EPSILON) {
-      return mediapipe::InvalidArgumentError(
+      return absl::InvalidArgumentError(
           "max_quantized_value must be greater than min_quantized_value.");
     }
     range_ = max_quantized_value_ - min_quantized_value_;
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     const std::vector<float>& float_vector =
         cc->Inputs().Tag("FLOAT_VECTOR").Value().Get<std::vector<float>>();
     int feature_size = float_vector.size();
@@ -88,7 +88,7 @@ class QuantizeFloatVectorCalculator : public CalculatorBase {
     }
     cc->Outputs().Tag("ENCODED").AddPacket(
         MakePacket<std::string>(encoded_features).At(cc->InputTimestamp()));
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:

mediapipe/calculators/core/real_time_flow_limiter_calculator.cc

@@ -75,7 +75,7 @@ namespace mediapipe {
 // }
 class RealTimeFlowLimiterCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     int num_data_streams = cc->Inputs().NumEntries("");
     RET_CHECK_GE(num_data_streams, 1);
     RET_CHECK_EQ(cc->Outputs().NumEntries(""), num_data_streams)
@@ -95,10 +95,10 @@ class RealTimeFlowLimiterCalculator : public CalculatorBase {
 
     cc->SetInputStreamHandler("ImmediateInputStreamHandler");
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) final {
+  absl::Status Open(CalculatorContext* cc) final {
     finished_id_ = cc->Inputs().GetId("FINISHED", 0);
     max_in_flight_ = 1;
     if (cc->InputSidePackets().HasTag("MAX_IN_FLIGHT")) {
@@ -113,12 +113,12 @@ class RealTimeFlowLimiterCalculator : public CalculatorBase {
     num_data_streams_ = cc->Inputs().NumEntries("");
     data_stream_bound_ts_.resize(num_data_streams_);
     RET_CHECK_OK(CopyInputHeadersToOutputs(cc->Inputs(), &(cc->Outputs())));
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   bool Allow() { return num_in_flight_ < max_in_flight_; }
 
-  mediapipe::Status Process(CalculatorContext* cc) final {
+  absl::Status Process(CalculatorContext* cc) final {
     bool old_allow = Allow();
     Timestamp lowest_incomplete_ts = Timestamp::Done();
 
@@ -180,7 +180,7 @@ class RealTimeFlowLimiterCalculator : public CalculatorBase {
           .Get(allowed_id_)
           .AddPacket(MakePacket<bool>(Allow()).At(++allow_ctr_ts_));
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:

mediapipe/calculators/core/real_time_flow_limiter_calculator_test.cc

@@ -127,25 +127,25 @@ TEST(RealTimeFlowLimiterCalculator, BasicTest) {
 }
 
 // A Calculator::Process callback function.
-typedef std::function<mediapipe::Status(const InputStreamShardSet&,
-                                        OutputStreamShardSet*)>
+typedef std::function<absl::Status(const InputStreamShardSet&,
+                                   OutputStreamShardSet*)>
     ProcessFunction;
 
 // A testing callback function that passes through all packets.
-mediapipe::Status PassthroughFunction(const InputStreamShardSet& inputs,
-                                      OutputStreamShardSet* outputs) {
+absl::Status PassthroughFunction(const InputStreamShardSet& inputs,
+                                 OutputStreamShardSet* outputs) {
   for (int i = 0; i < inputs.NumEntries(); ++i) {
     if (!inputs.Index(i).Value().IsEmpty()) {
       outputs->Index(i).AddPacket(inputs.Index(i).Value());
     }
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 // A Calculator that runs a testing callback function in Close.
 class CloseCallbackCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     for (CollectionItemId id = cc->Inputs().BeginId();
          id < cc->Inputs().EndId(); ++id) {
       cc->Inputs().Get(id).SetAny();
@@ -154,18 +154,17 @@ class CloseCallbackCalculator : public CalculatorBase {
          id < cc->Outputs().EndId(); ++id) {
       cc->Outputs().Get(id).SetAny();
     }
-    cc->InputSidePackets().Index(0).Set<std::function<mediapipe::Status()>>();
-    return mediapipe::OkStatus();
+    cc->InputSidePackets().Index(0).Set<std::function<absl::Status()>>();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
+  absl::Status Process(CalculatorContext* cc) override {
     return PassthroughFunction(cc->Inputs(), &(cc->Outputs()));
   }
 
-  mediapipe::Status Close(CalculatorContext* cc) override {
-    const auto& callback = cc->InputSidePackets()
-                               .Index(0)
-                               .Get<std::function<mediapipe::Status()>>();
+  absl::Status Close(CalculatorContext* cc) override {
+    const auto& callback =
+        cc->InputSidePackets().Index(0).Get<std::function<absl::Status()>>();
     return callback();
   }
 };
@@ -196,9 +195,9 @@ class RealTimeFlowLimiterCalculatorTest : public testing::Test {
       exit_semaphore_.Acquire(1);
       return PassthroughFunction(inputs, outputs);
     };
-    std::function<mediapipe::Status()> close_func = [this]() {
+    std::function<absl::Status()> close_func = [this]() {
       close_count_++;
-      return mediapipe::OkStatus();
+      return absl::OkStatus();
     };
     MP_ASSERT_OK(graph_.Initialize(
         graph_config_, {

mediapipe/calculators/core/round_robin_demux_calculator.cc

@@ -12,10 +12,12 @@
 // See the License for the specific language governing permissions and
 // limitations under the License.
 
+#include "mediapipe/framework/api2/node.h"
 #include "mediapipe/framework/calculator_framework.h"
 #include "mediapipe/framework/port/ret_check.h"
 
 namespace mediapipe {
+namespace api2 {
 
 // Forwards the input packet to one of the n output streams "OUTPUT:0",
 // "OUTPUT:1", ..., in round robin fashion.  The index of the selected output
@@ -71,50 +73,34 @@ namespace mediapipe {
 // output with MakePairCalculator, MakeVectorCalculator, or a similar variant to
 // use it with MuxCalculator and later unpack, or can create new variants of
 // MuxCalculator/MuxInputStreamHandler.
-class RoundRobinDemuxCalculator : public CalculatorBase {
+class RoundRobinDemuxCalculator : public Node {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
-    RET_CHECK_EQ(cc->Inputs().NumEntries(), 1);
-    cc->Inputs().Index(0).SetAny();
-    if (cc->Outputs().HasTag("SELECT")) {
-      cc->Outputs().Tag("SELECT").Set<int>();
-    }
-    for (CollectionItemId id = cc->Outputs().BeginId("OUTPUT");
-         id < cc->Outputs().EndId("OUTPUT"); ++id) {
-      cc->Outputs().Get(id).SetSameAs(&cc->Inputs().Index(0));
-    }
-    return mediapipe::OkStatus();
-  }
+  static constexpr Input<AnyType> kIn{""};
+  static constexpr Output<int>::Optional kSelect{"SELECT"};
+  static constexpr Output<SameType<kIn>>::Multiple kOut{"OUTPUT"};
 
-  mediapipe::Status Open(CalculatorContext* cc) override {
-    select_output_ = cc->Outputs().GetId("SELECT", 0);
+  MEDIAPIPE_NODE_CONTRACT(kIn, kSelect, kOut);
+
+  absl::Status Open(CalculatorContext* cc) override {
     output_data_stream_index_ = 0;
-    output_data_stream_base_ = cc->Outputs().GetId("OUTPUT", 0);
-    num_output_data_streams_ = cc->Outputs().NumEntries("OUTPUT");
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
-    cc->Outputs()
-        .Get(output_data_stream_base_ + output_data_stream_index_)
-        .AddPacket(cc->Inputs().Index(0).Value());
-    if (select_output_.IsValid()) {
-      cc->Outputs()
-          .Get(select_output_)
-          .Add(new int(output_data_stream_index_), cc->InputTimestamp());
+  absl::Status Process(CalculatorContext* cc) override {
+    kOut(cc)[output_data_stream_index_].Send(kIn(cc).packet());
+    if (kSelect(cc).IsConnected()) {
+      kSelect(cc).Send(output_data_stream_index_);
     }
     output_data_stream_index_ =
-        (output_data_stream_index_ + 1) % num_output_data_streams_;
-    return mediapipe::OkStatus();
+        (output_data_stream_index_ + 1) % kOut(cc).Count();
+    return absl::OkStatus();
   }
 
  private:
-  CollectionItemId select_output_;
-  CollectionItemId output_data_stream_base_;
-  int num_output_data_streams_;
   int output_data_stream_index_;
 };
 
-REGISTER_CALCULATOR(RoundRobinDemuxCalculator);
+MEDIAPIPE_REGISTER_NODE(RoundRobinDemuxCalculator);
 
+}  // namespace api2
 }  // namespace mediapipe

mediapipe/calculators/core/sequence_shift_calculator.cc

@@ -39,8 +39,8 @@ class SequenceShiftCalculator : public Node {
   MEDIAPIPE_NODE_CONTRACT(kIn, kOffset, kOut, TimestampChange::Arbitrary());
 
   // Reads from options to set cache_size_ and packet_offset_.
-  mediapipe::Status Open(CalculatorContext* cc) override;
-  mediapipe::Status Process(CalculatorContext* cc) override;
+  absl::Status Open(CalculatorContext* cc) override;
+  absl::Status Process(CalculatorContext* cc) override;
 
  private:
   // A positive offset means we want a packet to be output with the timestamp of
@@ -69,7 +69,7 @@ class SequenceShiftCalculator : public Node {
 };
 MEDIAPIPE_REGISTER_NODE(SequenceShiftCalculator);
 
-mediapipe::Status SequenceShiftCalculator::Open(CalculatorContext* cc) {
+absl::Status SequenceShiftCalculator::Open(CalculatorContext* cc) {
   packet_offset_ = kOffset(cc).GetOr(
       cc->Options<mediapipe::SequenceShiftCalculatorOptions>().packet_offset());
   cache_size_ = abs(packet_offset_);
@@ -77,10 +77,10 @@ mediapipe::Status SequenceShiftCalculator::Open(CalculatorContext* cc) {
   if (packet_offset_ == 0) {
     cc->Outputs().Index(0).SetOffset(0);
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status SequenceShiftCalculator::Process(CalculatorContext* cc) {
+absl::Status SequenceShiftCalculator::Process(CalculatorContext* cc) {
   if (packet_offset_ > 0) {
     ProcessPositiveOffset(cc);
   } else if (packet_offset_ < 0) {
@@ -88,7 +88,7 @@ mediapipe::Status SequenceShiftCalculator::Process(CalculatorContext* cc) {
   } else {
     kOut(cc).Send(kIn(cc).packet());
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 void SequenceShiftCalculator::ProcessPositiveOffset(CalculatorContext* cc) {

mediapipe/calculators/core/side_packet_to_stream_calculator.cc

@@ -89,10 +89,10 @@ class SidePacketToStreamCalculator : public CalculatorBase {
   SidePacketToStreamCalculator() = default;
   ~SidePacketToStreamCalculator() override = default;
 
-  static mediapipe::Status GetContract(CalculatorContract* cc);
-  mediapipe::Status Open(CalculatorContext* cc) override;
-  mediapipe::Status Process(CalculatorContext* cc) override;
-  mediapipe::Status Close(CalculatorContext* cc) override;
+  static absl::Status GetContract(CalculatorContract* cc);
+  absl::Status Open(CalculatorContext* cc) override;
+  absl::Status Process(CalculatorContext* cc) override;
+  absl::Status Close(CalculatorContext* cc) override;
 
  private:
   bool is_tick_processing_ = false;
@@ -100,8 +100,7 @@ class SidePacketToStreamCalculator : public CalculatorBase {
 };
 REGISTER_CALCULATOR(SidePacketToStreamCalculator);
 
-mediapipe::Status SidePacketToStreamCalculator::GetContract(
-    CalculatorContract* cc) {
+absl::Status SidePacketToStreamCalculator::GetContract(CalculatorContract* cc) {
   const auto& tags = cc->Outputs().GetTags();
   RET_CHECK(tags.size() == 1 && kTimestampMap->count(*tags.begin()) == 1)
       << "Only one of AT_PRESTREAM, AT_POSTSTREAM, AT_ZERO, AT_TICK and "
@@ -138,10 +137,10 @@ mediapipe::Status SidePacketToStreamCalculator::GetContract(
     cc->Inputs().Tag(kTagTick).SetAny();
   }
 
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status SidePacketToStreamCalculator::Open(CalculatorContext* cc) {
+absl::Status SidePacketToStreamCalculator::Open(CalculatorContext* cc) {
   output_tag_ = GetOutputTag(*cc);
   if (cc->Inputs().HasTag(kTagTick)) {
     is_tick_processing_ = true;
@@ -149,10 +148,10 @@ mediapipe::Status SidePacketToStreamCalculator::Open(CalculatorContext* cc) {
     // timestamp bound update.
     cc->SetOffset(TimestampDiff(0));
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
-mediapipe::Status SidePacketToStreamCalculator::Process(CalculatorContext* cc) {
+absl::Status SidePacketToStreamCalculator::Process(CalculatorContext* cc) {
   if (is_tick_processing_) {
     // TICK input is guaranteed to be non-empty, as it's the only input stream
     // for this calculator.
@@ -163,13 +162,13 @@ mediapipe::Status SidePacketToStreamCalculator::Process(CalculatorContext* cc) {
           .AddPacket(cc->InputSidePackets().Index(i).At(timestamp));
     }
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   return mediapipe::tool::StatusStop();
 }
 
-mediapipe::Status SidePacketToStreamCalculator::Close(CalculatorContext* cc) {
+absl::Status SidePacketToStreamCalculator::Close(CalculatorContext* cc) {
   if (!cc->Outputs().HasTag(kTagAtTick) &&
       !cc->Outputs().HasTag(kTagAtTimestamp)) {
     const auto& timestamp = kTimestampMap->at(output_tag_);
@@ -187,7 +186,7 @@ mediapipe::Status SidePacketToStreamCalculator::Close(CalculatorContext* cc) {
           .AddPacket(cc->InputSidePackets().Index(i).At(Timestamp(timestamp)));
     }
   }
-  return mediapipe::OkStatus();
+  return absl::OkStatus();
 }
 
 }  // namespace mediapipe

mediapipe/calculators/core/side_packet_to_stream_calculator_test.cc

@@ -189,7 +189,7 @@ void DoTestNonAtTickOutputTag(absl::string_view tag,
   MP_ASSERT_OK(graph.ObserveOutputStream(
       "packet", [&output_packets](const Packet& packet) {
         output_packets.push_back(packet);
-        return mediapipe::OkStatus();
+        return absl::OkStatus();
       }));
   MP_ASSERT_OK(
       graph.StartRun({{"side_packet", MakePacket<int>(expected_value)}}));

mediapipe/calculators/core/split_normalized_landmark_list_calculator.cc

@@ -35,7 +35,7 @@ namespace mediapipe {
 // NormalizedLandmarkList.
 class SplitNormalizedLandmarkListCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     RET_CHECK(cc->Inputs().NumEntries() == 1);
     RET_CHECK(cc->Outputs().NumEntries() != 0);
 
@@ -55,7 +55,7 @@ class SplitNormalizedLandmarkListCalculator : public CalculatorBase {
                range_0.begin() < range_1.end()) ||
               (range_1.begin() >= range_0.begin() &&
                range_1.begin() < range_0.end())) {
-            return mediapipe::InvalidArgumentError(
+            return absl::InvalidArgumentError(
                 "Ranges must be non-overlapping when using combine_outputs "
                 "option.");
           }
@@ -63,7 +63,7 @@ class SplitNormalizedLandmarkListCalculator : public CalculatorBase {
       }
     } else {
       if (cc->Outputs().NumEntries() != options.ranges_size()) {
-        return mediapipe::InvalidArgumentError(
+        return absl::InvalidArgumentError(
             "The number of output streams should match the number of ranges "
             "specified in the CalculatorOptions.");
       }
@@ -72,13 +72,13 @@ class SplitNormalizedLandmarkListCalculator : public CalculatorBase {
       for (int i = 0; i < cc->Outputs().NumEntries(); ++i) {
         if (options.ranges(i).begin() < 0 || options.ranges(i).end() < 0 ||
             options.ranges(i).begin() >= options.ranges(i).end()) {
-          return mediapipe::InvalidArgumentError(
+          return absl::InvalidArgumentError(
               "Indices should be non-negative and begin index should be less "
               "than the end index.");
         }
         if (options.element_only()) {
           if (options.ranges(i).end() - options.ranges(i).begin() != 1) {
-            return mediapipe::InvalidArgumentError(
+            return absl::InvalidArgumentError(
                 "Since element_only is true, all ranges should be of size 1.");
           }
           cc->Outputs().Index(i).Set<NormalizedLandmark>();
@@ -88,10 +88,10 @@ class SplitNormalizedLandmarkListCalculator : public CalculatorBase {
       }
     }
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) override {
+  absl::Status Open(CalculatorContext* cc) override {
     cc->SetOffset(TimestampDiff(0));
 
     const auto& options =
@@ -106,10 +106,10 @@ class SplitNormalizedLandmarkListCalculator : public CalculatorBase {
       total_elements_ += range.end() - range.begin();
     }
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
+  absl::Status Process(CalculatorContext* cc) override {
     const NormalizedLandmarkList& input =
         cc->Inputs().Index(0).Get<NormalizedLandmarkList>();
     RET_CHECK_GE(input.landmark_size(), max_range_end_)
@@ -148,7 +148,7 @@ class SplitNormalizedLandmarkListCalculator : public CalculatorBase {
       }
     }
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
  private:

mediapipe/calculators/core/split_vector_calculator.cc

@@ -26,7 +26,7 @@
 
 #if !defined(MEDIAPIPE_DISABLE_GL_COMPUTE)
 #include "tensorflow/lite/delegates/gpu/gl/gl_buffer.h"
-#endif  //  !MEDIAPIPE_DISABLE_GPU
+#endif  // !defined(MEDIAPIPE_DISABLE_GL_COMPUTE)
 
 namespace mediapipe {
 

mediapipe/calculators/core/split_vector_calculator.h

@@ -58,7 +58,7 @@ using IsNotMovable =
 template <typename T, bool move_elements>
 class SplitVectorCalculator : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     RET_CHECK(cc->Inputs().NumEntries() == 1);
     RET_CHECK(cc->Outputs().NumEntries() != 0);
 
@@ -79,7 +79,7 @@ class SplitVectorCalculator : public CalculatorBase {
       RET_CHECK_OK(checkRangesDontOverlap(options));
     } else {
       if (cc->Outputs().NumEntries() != options.ranges_size()) {
-        return mediapipe::InvalidArgumentError(
+        return absl::InvalidArgumentError(
             "The number of output streams should match the number of ranges "
             "specified in the CalculatorOptions.");
       }
@@ -88,13 +88,13 @@ class SplitVectorCalculator : public CalculatorBase {
       for (int i = 0; i < cc->Outputs().NumEntries(); ++i) {
         if (options.ranges(i).begin() < 0 || options.ranges(i).end() < 0 ||
             options.ranges(i).begin() >= options.ranges(i).end()) {
-          return mediapipe::InvalidArgumentError(
+          return absl::InvalidArgumentError(
               "Indices should be non-negative and begin index should be less "
               "than the end index.");
         }
         if (options.element_only()) {
           if (options.ranges(i).end() - options.ranges(i).begin() != 1) {
-            return mediapipe::InvalidArgumentError(
+            return absl::InvalidArgumentError(
                 "Since element_only is true, all ranges should be of size 1.");
           }
           cc->Outputs().Index(i).Set<T>();
@@ -104,10 +104,10 @@ class SplitVectorCalculator : public CalculatorBase {
       }
     }
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) override {
+  absl::Status Open(CalculatorContext* cc) override {
     cc->SetOffset(TimestampDiff(0));
 
     const auto& options =
@@ -122,11 +122,11 @@ class SplitVectorCalculator : public CalculatorBase {
       total_elements_ += range.end() - range.begin();
     }
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
-    if (cc->Inputs().Index(0).IsEmpty()) return mediapipe::OkStatus();
+  absl::Status Process(CalculatorContext* cc) override {
+    if (cc->Inputs().Index(0).IsEmpty()) return absl::OkStatus();
 
     if (move_elements) {
       return ProcessMovableElements<T>(cc);
@@ -136,7 +136,7 @@ class SplitVectorCalculator : public CalculatorBase {
   }
 
   template <typename U, IsCopyable<U> = true>
-  mediapipe::Status ProcessCopyableElements(CalculatorContext* cc) {
+  absl::Status ProcessCopyableElements(CalculatorContext* cc) {
     // static_assert(std::is_copy_constructible<U>::value,
     //              "Cannot copy non-copyable elements");
     const auto& input = cc->Inputs().Index(0).Get<std::vector<U>>();
@@ -167,21 +167,21 @@ class SplitVectorCalculator : public CalculatorBase {
       }
     }
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   template <typename U, IsNotCopyable<U> = true>
-  mediapipe::Status ProcessCopyableElements(CalculatorContext* cc) {
-    return mediapipe::InternalError("Cannot copy non-copyable elements.");
+  absl::Status ProcessCopyableElements(CalculatorContext* cc) {
+    return absl::InternalError("Cannot copy non-copyable elements.");
   }
 
   template <typename U, IsMovable<U> = true>
-  mediapipe::Status ProcessMovableElements(CalculatorContext* cc) {
-    mediapipe::StatusOr<std::unique_ptr<std::vector<U>>> input_status =
+  absl::Status ProcessMovableElements(CalculatorContext* cc) {
+    absl::StatusOr<std::unique_ptr<std::vector<U>>> input_status =
         cc->Inputs().Index(0).Value().Consume<std::vector<U>>();
     if (!input_status.ok()) return input_status.status();
     std::unique_ptr<std::vector<U>> input_vector =
-        std::move(input_status).ValueOrDie();
+        std::move(input_status).value();
     RET_CHECK_GE(input_vector->size(), max_range_end_);
 
     if (combine_outputs_) {
@@ -214,16 +214,16 @@ class SplitVectorCalculator : public CalculatorBase {
       }
     }
 
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   template <typename U, IsNotMovable<U> = true>
-  mediapipe::Status ProcessMovableElements(CalculatorContext* cc) {
-    return mediapipe::InternalError("Cannot move non-movable elements.");
+  absl::Status ProcessMovableElements(CalculatorContext* cc) {
+    return absl::InternalError("Cannot move non-movable elements.");
   }
 
  private:
-  static mediapipe::Status checkRangesDontOverlap(
+  static absl::Status checkRangesDontOverlap(
       const ::mediapipe::SplitVectorCalculatorOptions& options) {
     for (int i = 0; i < options.ranges_size() - 1; ++i) {
       for (int j = i + 1; j < options.ranges_size(); ++j) {
@@ -233,13 +233,13 @@ class SplitVectorCalculator : public CalculatorBase {
              range_0.begin() < range_1.end()) ||
             (range_1.begin() >= range_0.begin() &&
              range_1.begin() < range_0.end())) {
-          return mediapipe::InvalidArgumentError(
+          return absl::InvalidArgumentError(
               "Ranges must be non-overlapping when using combine_outputs "
               "option.");
         }
       }
     }
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
   std::vector<std::pair<int32, int32>> ranges_;

mediapipe/calculators/core/stream_to_side_packet_calculator.cc

@@ -30,17 +30,17 @@ namespace mediapipe {
 // }
 class StreamToSidePacketCalculator : public mediapipe::CalculatorBase {
  public:
-  static mediapipe::Status GetContract(mediapipe::CalculatorContract* cc) {
+  static absl::Status GetContract(mediapipe::CalculatorContract* cc) {
     cc->Inputs().Index(0).SetAny();
     cc->OutputSidePackets().Index(0).SetAny();
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(mediapipe::CalculatorContext* cc) override {
+  absl::Status Process(mediapipe::CalculatorContext* cc) override {
     mediapipe::Packet& packet = cc->Inputs().Index(0).Value();
     cc->OutputSidePackets().Index(0).Set(
         packet.At(mediapipe::Timestamp::Unset()));
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 };
 REGISTER_CALCULATOR(StreamToSidePacketCalculator);

mediapipe/calculators/core/stream_to_side_packet_calculator_test.cc

@@ -44,7 +44,7 @@ class StreamToSidePacketCalculatorTest : public Test {
 
 TEST_F(StreamToSidePacketCalculatorTest,
        StreamToSidePacketCalculatorWithEmptyStreamFails) {
-  EXPECT_EQ(runner_->Run().code(), mediapipe::StatusCode::kUnavailable);
+  EXPECT_EQ(runner_->Run().code(), absl::StatusCode::kUnavailable);
 }
 
 TEST_F(StreamToSidePacketCalculatorTest,
@@ -61,7 +61,7 @@ TEST_F(StreamToSidePacketCalculatorTest,
       Adopt(new std::string("test1")).At(Timestamp(1)));
   runner_->MutableInputs()->Index(0).packets.push_back(
       Adopt(new std::string("test2")).At(Timestamp(2)));
-  EXPECT_EQ(runner_->Run().code(), mediapipe::StatusCode::kAlreadyExists);
+  EXPECT_EQ(runner_->Run().code(), absl::StatusCode::kAlreadyExists);
 }
 
 }  // namespace mediapipe

mediapipe/calculators/core/string_to_int_calculator.cc

@@ -36,25 +36,25 @@ namespace mediapipe {
 template <typename IntType>
 class StringToIntCalculatorTemplate : public CalculatorBase {
  public:
-  static mediapipe::Status GetContract(CalculatorContract* cc) {
+  static absl::Status GetContract(CalculatorContract* cc) {
     cc->InputSidePackets().Index(0).Set<std::string>();
     cc->OutputSidePackets().Index(0).Set<IntType>();
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Open(CalculatorContext* cc) override {
+  absl::Status Open(CalculatorContext* cc) override {
     IntType number;
     if (!absl::SimpleAtoi(cc->InputSidePackets().Index(0).Get<std::string>(),
                           &number)) {
-      return mediapipe::InvalidArgumentError(
+      return absl::InvalidArgumentError(
           "The std::string could not be parsed as an integer.");
     }
     cc->OutputSidePackets().Index(0).Set(MakePacket<IntType>(number));
-    return mediapipe::OkStatus();
+    return absl::OkStatus();
   }
 
-  mediapipe::Status Process(CalculatorContext* cc) override {
-    return mediapipe::OkStatus();
+  absl::Status Process(CalculatorContext* cc) override {
+    return absl::OkStatus();
   }
 };
 

mediapipe/calculators/image/BUILD

@@ -21,9 +21,7 @@ package(default_visibility = ["//visibility:private"])
 mediapipe_proto_library(
     name = "opencv_image_encoder_calculator_proto",
     srcs = ["opencv_image_encoder_calculator.proto"],
-    visibility = [
-        "//visibility:public",
-    ],
+    visibility = ["//visibility:public"],
     deps = [
         "//mediapipe/framework:calculator_options_proto",
         "//mediapipe/framework:calculator_proto",
@@ -64,9 +62,7 @@ mediapipe_proto_library(
 mediapipe_proto_library(
     name = "bilateral_filter_calculator_proto",
     srcs = ["bilateral_filter_calculator.proto"],
-    visibility = [
-        "//visibility:public",
-    ],
+    visibility = ["//visibility:public"],
     deps = [
         "//mediapipe/framework:calculator_options_proto",
         "//mediapipe/framework:calculator_proto",
@@ -87,9 +83,7 @@ mediapipe_proto_library(
 cc_library(
     name = "color_convert_calculator",
     srcs = ["color_convert_calculator.cc"],
-    visibility = [
-        "//visibility:public",
-    ],
+    visibility = ["//visibility:public"],
     deps = [
         "//mediapipe/framework:calculator_framework",
         "//mediapipe/framework:timestamp",
@@ -123,9 +117,7 @@ cc_library(
 cc_library(
     name = "opencv_image_encoder_calculator",
     srcs = ["opencv_image_encoder_calculator.cc"],
-    visibility = [
-        "//visibility:public",
-    ],
+    visibility = ["//visibility:public"],
     deps = [
         ":opencv_image_encoder_calculator_cc_proto",
         "//mediapipe/framework:calculator_framework",
@@ -181,9 +173,7 @@ cc_library(
 cc_library(
     name = "bilateral_filter_calculator",
     srcs = ["bilateral_filter_calculator.cc"],
-    visibility = [
-        "//visibility:public",
-    ],
+    visibility = ["//visibility:public"],
     deps = [
         ":bilateral_filter_calculator_cc_proto",
         "//mediapipe/framework:calculator_options_cc_proto",
@@ -448,7 +438,6 @@ cc_test(
         "//mediapipe/framework/port:opencv_imgcodecs",
         "//mediapipe/framework/port:opencv_imgproc",
         "//mediapipe/framework/port:parse_text_proto",
-        "//mediapipe/framework/port:status",
     ],
 )
 
@@ -467,7 +456,6 @@ cc_test(
         "//mediapipe/framework/port:opencv_imgcodecs",
         "//mediapipe/framework/port:opencv_imgproc",
         "//mediapipe/framework/port:parse_text_proto",
-        "//mediapipe/framework/port:status",
     ],
 )
 
@@ -503,6 +491,7 @@ mediapipe_proto_library(
 mediapipe_proto_library(
     name = "feature_detector_calculator_proto",
     srcs = ["feature_detector_calculator.proto"],
+    visibility = ["//visibility:public"],
     deps = [
         "//mediapipe/framework:calculator_options_proto",
         "//mediapipe/framework:calculator_proto",
@@ -528,7 +517,7 @@ cc_library(
 cc_library(
     name = "feature_detector_calculator",
     srcs = ["feature_detector_calculator.cc"],
-    visibility = ["//mediapipe:__subpackages__"],
+    visibility = ["//visibility:public"],
     deps = [
         ":feature_detector_calculator_cc_proto",
         "//mediapipe/framework:calculator_framework",
@@ -579,6 +568,5 @@ cc_test(
         "//mediapipe/framework/port:file_helpers",
         "//mediapipe/framework/port:gtest_main",
         "//mediapipe/framework/port:parse_text_proto",
-        "//mediapipe/framework/port:status",
     ],
 )