bf51655a7b
Signed-off-by: Jacek J. Łakis <jacek.lakis@intel.com> Signed-off-by: Samuel Ortiz <sameo@linux.intel.com>
357 lines
11 KiB
Go
357 lines
11 KiB
Go
// Copyright 2016 Google Inc. All Rights Reserved.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package vision
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import (
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"image/color"
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"math"
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"cloud.google.com/go/internal/version"
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vkit "cloud.google.com/go/vision/apiv1"
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"golang.org/x/net/context"
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"google.golang.org/api/option"
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pb "google.golang.org/genproto/googleapis/cloud/vision/v1"
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cpb "google.golang.org/genproto/googleapis/type/color"
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)
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// Scope is the OAuth2 scope required by the Google Cloud Vision API.
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const Scope = "https://www.googleapis.com/auth/cloud-platform"
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// Client is a Google Cloud Vision API client.
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type Client struct {
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client *vkit.ImageAnnotatorClient
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}
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// NewClient creates a new vision client.
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func NewClient(ctx context.Context, opts ...option.ClientOption) (*Client, error) {
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c, err := vkit.NewImageAnnotatorClient(ctx, opts...)
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if err != nil {
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return nil, err
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}
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c.SetGoogleClientInfo("gccl", version.Repo)
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return &Client{client: c}, nil
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}
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// Close closes the client.
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func (c *Client) Close() error {
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return c.client.Close()
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}
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// Annotate annotates multiple images, each with a potentially differeent set
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// of features.
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func (c *Client) Annotate(ctx context.Context, requests ...*AnnotateRequest) ([]*Annotations, error) {
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var reqs []*pb.AnnotateImageRequest
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for _, r := range requests {
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reqs = append(reqs, r.toProto())
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}
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res, err := c.client.BatchAnnotateImages(ctx, &pb.BatchAnnotateImagesRequest{Requests: reqs})
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if err != nil {
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return nil, err
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}
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var results []*Annotations
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for _, res := range res.Responses {
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results = append(results, annotationsFromProto(res))
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}
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return results, nil
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}
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// An AnnotateRequest specifies an image to annotate and the features to look for in that image.
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type AnnotateRequest struct {
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// Image is the image to annotate.
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Image *Image
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// MaxFaces is the maximum number of faces to detect in the image.
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// Specifying a number greater than zero enables face detection.
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MaxFaces int
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// MaxLandmarks is the maximum number of landmarks to detect in the image.
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// Specifying a number greater than zero enables landmark detection.
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MaxLandmarks int
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// MaxLogos is the maximum number of logos to detect in the image.
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// Specifying a number greater than zero enables logo detection.
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MaxLogos int
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// MaxLabels is the maximum number of labels to detect in the image.
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// Specifying a number greater than zero enables labels detection.
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MaxLabels int
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// MaxTexts is the maximum number of separate pieces of text to detect in the
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// image. Specifying a number greater than zero enables text detection.
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MaxTexts int
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// DocumentText specifies whether a dense text document OCR should be run
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// on the image. When true, takes precedence over MaxTexts.
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DocumentText bool
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// SafeSearch specifies whether a safe-search detection should be run on the image.
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SafeSearch bool
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// ImageProps specifies whether image properties should be obtained for the image.
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ImageProps bool
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// Web specifies whether web annotations should be obtained for the image.
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Web bool
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// CropHints specifies whether crop hints should be computed for the image.
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CropHints *CropHintsParams
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}
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func (ar *AnnotateRequest) toProto() *pb.AnnotateImageRequest {
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img, ictx := ar.Image.toProtos()
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var features []*pb.Feature
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add := func(typ pb.Feature_Type, max int) {
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var mr int32
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if max > math.MaxInt32 {
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mr = math.MaxInt32
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} else {
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mr = int32(max)
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}
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features = append(features, &pb.Feature{Type: typ, MaxResults: mr})
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}
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if ar.MaxFaces > 0 {
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add(pb.Feature_FACE_DETECTION, ar.MaxFaces)
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}
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if ar.MaxLandmarks > 0 {
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add(pb.Feature_LANDMARK_DETECTION, ar.MaxLandmarks)
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}
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if ar.MaxLogos > 0 {
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add(pb.Feature_LOGO_DETECTION, ar.MaxLogos)
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}
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if ar.MaxLabels > 0 {
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add(pb.Feature_LABEL_DETECTION, ar.MaxLabels)
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}
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if ar.MaxTexts > 0 {
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add(pb.Feature_TEXT_DETECTION, ar.MaxTexts)
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}
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if ar.DocumentText {
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add(pb.Feature_DOCUMENT_TEXT_DETECTION, 0)
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}
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if ar.SafeSearch {
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add(pb.Feature_SAFE_SEARCH_DETECTION, 0)
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}
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if ar.ImageProps {
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add(pb.Feature_IMAGE_PROPERTIES, 0)
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}
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if ar.Web {
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add(pb.Feature_WEB_DETECTION, 0)
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}
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if ar.CropHints != nil {
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add(pb.Feature_CROP_HINTS, 0)
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if ictx == nil {
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ictx = &pb.ImageContext{}
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}
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ictx.CropHintsParams = &pb.CropHintsParams{
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AspectRatios: ar.CropHints.AspectRatios,
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}
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}
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return &pb.AnnotateImageRequest{
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Image: img,
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Features: features,
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ImageContext: ictx,
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}
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}
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// CropHintsParams are parameters for a request for crop hints.
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type CropHintsParams struct {
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// Aspect ratios for desired crop hints, representing the ratio of the
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// width to the height of the image. For example, if the desired aspect
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// ratio is 4:3, the corresponding float value should be 1.33333. If not
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// specified, the best possible crop is returned. The number of provided
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// aspect ratios is limited to a maximum of 16; any aspect ratios provided
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// after the 16th are ignored.
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AspectRatios []float32
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}
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// Called for a single image and a single feature.
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func (c *Client) annotateOne(ctx context.Context, req *AnnotateRequest) (*Annotations, error) {
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annsSlice, err := c.Annotate(ctx, req)
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if err != nil {
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return nil, err
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}
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anns := annsSlice[0]
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// When there is only one image and one feature, the Annotations.Error field is
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// unambiguously about that one detection, so we "promote" it to the error return value.
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if anns.Error != nil {
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return nil, anns.Error
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}
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return anns, nil
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}
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// TODO(jba): add examples for all single-feature functions (below).
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// DetectFaces performs face detection on the image.
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// At most maxResults results are returned.
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func (c *Client) DetectFaces(ctx context.Context, img *Image, maxResults int) ([]*FaceAnnotation, error) {
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anns, err := c.annotateOne(ctx, &AnnotateRequest{Image: img, MaxFaces: maxResults})
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if err != nil {
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return nil, err
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}
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return anns.Faces, nil
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}
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// DetectLandmarks performs landmark detection on the image.
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// At most maxResults results are returned.
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func (c *Client) DetectLandmarks(ctx context.Context, img *Image, maxResults int) ([]*EntityAnnotation, error) {
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anns, err := c.annotateOne(ctx, &AnnotateRequest{Image: img, MaxLandmarks: maxResults})
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if err != nil {
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return nil, err
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}
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return anns.Landmarks, nil
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}
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// DetectLogos performs logo detection on the image.
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// At most maxResults results are returned.
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func (c *Client) DetectLogos(ctx context.Context, img *Image, maxResults int) ([]*EntityAnnotation, error) {
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anns, err := c.annotateOne(ctx, &AnnotateRequest{Image: img, MaxLogos: maxResults})
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if err != nil {
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return nil, err
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}
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return anns.Logos, nil
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}
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// DetectLabels performs label detection on the image.
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// At most maxResults results are returned.
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func (c *Client) DetectLabels(ctx context.Context, img *Image, maxResults int) ([]*EntityAnnotation, error) {
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anns, err := c.annotateOne(ctx, &AnnotateRequest{Image: img, MaxLabels: maxResults})
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if err != nil {
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return nil, err
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}
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return anns.Labels, nil
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}
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// DetectTexts performs text detection on the image.
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// At most maxResults results are returned.
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func (c *Client) DetectTexts(ctx context.Context, img *Image, maxResults int) ([]*EntityAnnotation, error) {
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anns, err := c.annotateOne(ctx, &AnnotateRequest{Image: img, MaxTexts: maxResults})
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if err != nil {
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return nil, err
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}
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return anns.Texts, nil
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}
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// DetectDocumentText performs full text (OCR) detection on the image.
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func (c *Client) DetectDocumentText(ctx context.Context, img *Image) (*TextAnnotation, error) {
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anns, err := c.annotateOne(ctx, &AnnotateRequest{Image: img, DocumentText: true})
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if err != nil {
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return nil, err
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}
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return anns.FullText, nil
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}
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// DetectSafeSearch performs safe-search detection on the image.
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func (c *Client) DetectSafeSearch(ctx context.Context, img *Image) (*SafeSearchAnnotation, error) {
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anns, err := c.annotateOne(ctx, &AnnotateRequest{Image: img, SafeSearch: true})
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if err != nil {
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return nil, err
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}
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return anns.SafeSearch, nil
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}
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// DetectImageProps computes properties of the image.
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func (c *Client) DetectImageProps(ctx context.Context, img *Image) (*ImageProps, error) {
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anns, err := c.annotateOne(ctx, &AnnotateRequest{Image: img, ImageProps: true})
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if err != nil {
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return nil, err
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}
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return anns.ImageProps, nil
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}
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// DetectWeb computes a web annotation on the image.
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func (c *Client) DetectWeb(ctx context.Context, img *Image) (*WebDetection, error) {
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anns, err := c.annotateOne(ctx, &AnnotateRequest{Image: img, Web: true})
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if err != nil {
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return nil, err
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}
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return anns.Web, nil
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}
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// CropHints computes crop hints for the image.
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func (c *Client) CropHints(ctx context.Context, img *Image, params *CropHintsParams) ([]*CropHint, error) {
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// A nil AnnotateRequest.CropHints means do not perform CropHints. But
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// here the user is explicitly asking for CropHints, so treat nil as
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// an empty CropHintsParams.
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if params == nil {
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params = &CropHintsParams{}
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}
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anns, err := c.annotateOne(ctx, &AnnotateRequest{Image: img, CropHints: params})
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if err != nil {
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return nil, err
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}
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return anns.CropHints, nil
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}
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// A Likelihood is an approximate representation of a probability.
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type Likelihood int
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const (
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// LikelihoodUnknown means the likelihood is unknown.
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LikelihoodUnknown = Likelihood(pb.Likelihood_UNKNOWN)
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// VeryUnlikely means the image is very unlikely to belong to the feature specified.
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VeryUnlikely = Likelihood(pb.Likelihood_VERY_UNLIKELY)
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// Unlikely means the image is unlikely to belong to the feature specified.
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Unlikely = Likelihood(pb.Likelihood_UNLIKELY)
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// Possible means the image possibly belongs to the feature specified.
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Possible = Likelihood(pb.Likelihood_POSSIBLE)
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// Likely means the image is likely to belong to the feature specified.
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Likely = Likelihood(pb.Likelihood_LIKELY)
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// VeryLikely means the image is very likely to belong to the feature specified.
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VeryLikely = Likelihood(pb.Likelihood_VERY_LIKELY)
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)
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// A Property is an arbitrary name-value pair.
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type Property struct {
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Name string
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Value string
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}
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func propertyFromProto(p *pb.Property) Property {
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return Property{Name: p.Name, Value: p.Value}
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}
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// ColorInfo consists of RGB channels, score and fraction of
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// image the color occupies in the image.
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type ColorInfo struct {
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// RGB components of the color.
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Color color.NRGBA64
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// Score is the image-specific score for this color, in the range [0, 1].
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Score float32
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// PixelFraction is the fraction of pixels the color occupies in the image,
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// in the range [0, 1].
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PixelFraction float32
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}
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func colorInfoFromProto(ci *pb.ColorInfo) *ColorInfo {
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return &ColorInfo{
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Color: colorFromProto(ci.Color),
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Score: ci.Score,
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PixelFraction: ci.PixelFraction,
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}
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}
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// Should this go into protobuf/ptypes? The color proto is in google/types, so
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// not specific to this API.
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func colorFromProto(c *cpb.Color) color.NRGBA64 {
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// Convert a color component from [0.0, 1.0] to a uint16.
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cvt := func(f float32) uint16 { return uint16(f*math.MaxUint16 + 0.5) }
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var alpha float32 = 1
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if c.Alpha != nil {
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alpha = c.Alpha.Value
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}
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return color.NRGBA64{
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R: cvt(c.Red),
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G: cvt(c.Green),
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B: cvt(c.Blue),
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A: cvt(alpha),
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}
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}
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