mirror of
https://github.com/octoleo/restic.git
synced 2024-12-02 01:48:30 +00:00
690 lines
22 KiB
Go
690 lines
22 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"
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"golang.org/x/text/language"
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pb "google.golang.org/genproto/googleapis/cloud/vision/v1"
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"google.golang.org/grpc"
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"google.golang.org/grpc/codes"
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)
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// Annotations contains all the annotations performed by the API on a single image.
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// A nil field indicates either that the corresponding feature was not requested,
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// or that annotation failed for that feature.
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type Annotations struct {
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// Faces holds the results of face detection.
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Faces []*FaceAnnotation
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// Landmarks holds the results of landmark detection.
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Landmarks []*EntityAnnotation
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// Logos holds the results of logo detection.
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Logos []*EntityAnnotation
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// Labels holds the results of label detection.
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Labels []*EntityAnnotation
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// Texts holds the results of text detection.
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Texts []*EntityAnnotation
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// FullText holds the results of full text (OCR) detection.
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FullText *TextAnnotation
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// SafeSearch holds the results of safe-search detection.
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SafeSearch *SafeSearchAnnotation
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// ImageProps contains properties of the annotated image.
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ImageProps *ImageProps
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// Web contains web annotations for the image.
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Web *WebDetection
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// CropHints contains crop hints for the image.
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CropHints []*CropHint
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// If non-nil, then one or more of the attempted annotations failed.
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// Non-nil annotations are guaranteed to be correct, even if Error is
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// non-nil.
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Error error
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}
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func annotationsFromProto(res *pb.AnnotateImageResponse) *Annotations {
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as := &Annotations{}
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for _, a := range res.FaceAnnotations {
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as.Faces = append(as.Faces, faceAnnotationFromProto(a))
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}
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for _, a := range res.LandmarkAnnotations {
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as.Landmarks = append(as.Landmarks, entityAnnotationFromProto(a))
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}
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for _, a := range res.LogoAnnotations {
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as.Logos = append(as.Logos, entityAnnotationFromProto(a))
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}
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for _, a := range res.LabelAnnotations {
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as.Labels = append(as.Labels, entityAnnotationFromProto(a))
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}
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for _, a := range res.TextAnnotations {
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as.Texts = append(as.Texts, entityAnnotationFromProto(a))
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}
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as.FullText = textAnnotationFromProto(res.FullTextAnnotation)
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as.SafeSearch = safeSearchAnnotationFromProto(res.SafeSearchAnnotation)
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as.ImageProps = imagePropertiesFromProto(res.ImagePropertiesAnnotation)
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as.Web = webDetectionFromProto(res.WebDetection)
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as.CropHints = cropHintsFromProto(res.CropHintsAnnotation)
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if res.Error != nil {
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// res.Error is a google.rpc.Status. Convert to a Go error. Use a gRPC
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// error because it preserves the code as a separate field.
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// TODO(jba): preserve the details field.
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as.Error = grpc.Errorf(codes.Code(res.Error.Code), "%s", res.Error.Message)
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}
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return as
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}
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// A FaceAnnotation describes the results of face detection on an image.
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type FaceAnnotation struct {
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// BoundingPoly is the bounding polygon around the face. The coordinates of
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// the bounding box are in the original image's scale, as returned in
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// ImageParams. The bounding box is computed to "frame" the face in
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// accordance with human expectations. It is based on the landmarker
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// results. Note that one or more x and/or y coordinates may not be
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// generated in the BoundingPoly (the polygon will be unbounded) if only a
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// partial face appears in the image to be annotated.
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BoundingPoly []image.Point
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// FDBoundingPoly is tighter than BoundingPoly, and
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// encloses only the skin part of the face. Typically, it is used to
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// eliminate the face from any image analysis that detects the "amount of
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// skin" visible in an image. It is not based on the landmarker results, only
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// on the initial face detection, hence the fd (face detection) prefix.
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FDBoundingPoly []image.Point
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// Landmarks are detected face landmarks.
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Face FaceLandmarks
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// RollAngle indicates the amount of clockwise/anti-clockwise rotation of
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// the face relative to the image vertical, about the axis perpendicular to
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// the face. Range [-180,180].
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RollAngle float32
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// PanAngle is the yaw angle: the leftward/rightward angle that the face is
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// pointing, relative to the vertical plane perpendicular to the image. Range
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// [-180,180].
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PanAngle float32
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// TiltAngle is the pitch angle: the upwards/downwards angle that the face is
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// pointing relative to the image's horizontal plane. Range [-180,180].
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TiltAngle float32
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// DetectionConfidence is the detection confidence. The range is [0, 1].
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DetectionConfidence float32
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// LandmarkingConfidence is the face landmarking confidence. The range is [0, 1].
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LandmarkingConfidence float32
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// Likelihoods expresses the likelihood of various aspects of the face.
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Likelihoods *FaceLikelihoods
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}
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func faceAnnotationFromProto(pfa *pb.FaceAnnotation) *FaceAnnotation {
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fa := &FaceAnnotation{
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BoundingPoly: boundingPolyFromProto(pfa.BoundingPoly),
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FDBoundingPoly: boundingPolyFromProto(pfa.FdBoundingPoly),
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RollAngle: pfa.RollAngle,
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PanAngle: pfa.PanAngle,
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TiltAngle: pfa.TiltAngle,
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DetectionConfidence: pfa.DetectionConfidence,
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LandmarkingConfidence: pfa.LandmarkingConfidence,
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Likelihoods: &FaceLikelihoods{
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Joy: Likelihood(pfa.JoyLikelihood),
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Sorrow: Likelihood(pfa.SorrowLikelihood),
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Anger: Likelihood(pfa.AngerLikelihood),
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Surprise: Likelihood(pfa.SurpriseLikelihood),
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UnderExposed: Likelihood(pfa.UnderExposedLikelihood),
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Blurred: Likelihood(pfa.BlurredLikelihood),
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Headwear: Likelihood(pfa.HeadwearLikelihood),
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},
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}
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populateFaceLandmarks(pfa.Landmarks, &fa.Face)
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return fa
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}
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// An EntityAnnotation describes the results of a landmark, label, logo or text
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// detection on an image.
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type EntityAnnotation struct {
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// ID is an opaque entity ID. Some IDs might be available in Knowledge Graph(KG).
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// For more details on KG please see:
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// https://developers.google.com/knowledge-graph/
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ID string
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// Locale is the language code for the locale in which the entity textual
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// description (next field) is expressed.
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Locale string
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// Description is the entity textual description, expressed in the language of Locale.
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Description string
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// Score is the overall score of the result. Range [0, 1].
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Score float32
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// Confidence is the accuracy of the entity detection in an image.
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// For example, for an image containing the Eiffel Tower, this field represents
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// the confidence that there is a tower in the query image. Range [0, 1].
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Confidence float32
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// Topicality is the relevancy of the ICA (Image Content Annotation) label to the
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// image. For example, the relevancy of 'tower' to an image containing
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// 'Eiffel Tower' is likely higher than an image containing a distant towering
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// building, though the confidence that there is a tower may be the same.
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// Range [0, 1].
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Topicality float32
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// BoundingPoly is the image region to which this entity belongs. Not filled currently
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// for label detection. For text detection, BoundingPolys
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// are produced for the entire text detected in an image region, followed by
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// BoundingPolys for each word within the detected text.
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BoundingPoly []image.Point
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// Locations contains the location information for the detected entity.
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// Multiple LatLng structs can be present since one location may indicate the
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// location of the scene in the query image, and another the location of the
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// place where the query image was taken. Location information is usually
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// present for landmarks.
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Locations []LatLng
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// Properties are additional optional Property fields.
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// For example a different kind of score or string that qualifies the entity.
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Properties []Property
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}
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func entityAnnotationFromProto(e *pb.EntityAnnotation) *EntityAnnotation {
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var locs []LatLng
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for _, li := range e.Locations {
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locs = append(locs, latLngFromProto(li.LatLng))
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}
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var props []Property
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for _, p := range e.Properties {
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props = append(props, propertyFromProto(p))
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}
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return &EntityAnnotation{
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ID: e.Mid,
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Locale: e.Locale,
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Description: e.Description,
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Score: e.Score,
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Confidence: e.Confidence,
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Topicality: e.Topicality,
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BoundingPoly: boundingPolyFromProto(e.BoundingPoly),
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Locations: locs,
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Properties: props,
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}
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}
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// TextAnnotation contains a structured representation of OCR extracted text.
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// The hierarchy of an OCR extracted text structure looks like:
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// TextAnnotation -> Page -> Block -> Paragraph -> Word -> Symbol
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// Each structural component, starting from Page, may further have its own
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// properties. Properties describe detected languages, breaks etc.
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type TextAnnotation struct {
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// List of pages detected by OCR.
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Pages []*Page
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// UTF-8 text detected on the pages.
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Text string
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}
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func textAnnotationFromProto(pta *pb.TextAnnotation) *TextAnnotation {
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if pta == nil {
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return nil
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}
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var pages []*Page
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for _, p := range pta.Pages {
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pages = append(pages, pageFromProto(p))
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}
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return &TextAnnotation{
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Pages: pages,
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Text: pta.Text,
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}
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}
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// A Page is a page of text detected from OCR.
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type Page struct {
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// Additional information detected on the page.
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Properties *TextProperties
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// Page width in pixels.
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Width int32
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// Page height in pixels.
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Height int32
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// List of blocks of text, images etc on this page.
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Blocks []*Block
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}
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func pageFromProto(p *pb.Page) *Page {
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if p == nil {
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return nil
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}
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var blocks []*Block
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for _, b := range p.Blocks {
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blocks = append(blocks, blockFromProto(b))
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}
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return &Page{
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Properties: textPropertiesFromProto(p.Property),
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Width: p.Width,
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Height: p.Height,
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Blocks: blocks,
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}
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}
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// A Block is a logical element on the page.
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type Block struct {
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// Additional information detected for the block.
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Properties *TextProperties
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// The bounding box for the block.
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// The vertices are in the order of top-left, top-right, bottom-right,
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// bottom-left. When a rotation of the bounding box is detected the rotation
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// is represented as around the top-left corner as defined when the text is
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// read in the 'natural' orientation.
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// For example:
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// * when the text is horizontal it might look like:
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// 0----1
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// | |
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// 3----2
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// * when it's rotated 180 degrees around the top-left corner it becomes:
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// 2----3
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// | |
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// 1----0
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// and the vertice order will still be (0, 1, 2, 3).
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BoundingBox []image.Point
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// List of paragraphs in this block (if this blocks is of type text).
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Paragraphs []*Paragraph
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// Detected block type (text, image etc) for this block.
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BlockType BlockType
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}
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// A BlockType represents the kind of Block (text, image, etc.)
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type BlockType int
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const (
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// Unknown block type.
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UnknownBlock BlockType = BlockType(pb.Block_UNKNOWN)
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// Regular text block.
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TextBlock BlockType = BlockType(pb.Block_TEXT)
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// Table block.
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TableBlock BlockType = BlockType(pb.Block_TABLE)
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// Image block.
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PictureBlock BlockType = BlockType(pb.Block_PICTURE)
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// Horizontal/vertical line box.
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RulerBlock BlockType = BlockType(pb.Block_RULER)
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// Barcode block.
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BarcodeBlock BlockType = BlockType(pb.Block_BARCODE)
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)
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func blockFromProto(p *pb.Block) *Block {
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if p == nil {
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return nil
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}
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var paras []*Paragraph
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for _, pa := range p.Paragraphs {
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paras = append(paras, paragraphFromProto(pa))
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}
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return &Block{
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Properties: textPropertiesFromProto(p.Property),
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BoundingBox: boundingPolyFromProto(p.BoundingBox),
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Paragraphs: paras,
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BlockType: BlockType(p.BlockType),
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}
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}
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// A Paragraph is a structural unit of text representing a number of words in
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// certain order.
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type Paragraph struct {
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// Additional information detected for the paragraph.
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Properties *TextProperties
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// The bounding box for the paragraph.
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// The vertices are in the order of top-left, top-right, bottom-right,
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// bottom-left. When a rotation of the bounding box is detected the rotation
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// is represented as around the top-left corner as defined when the text is
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// read in the 'natural' orientation.
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// For example:
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// * when the text is horizontal it might look like:
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// 0----1
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// | |
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// 3----2
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// * when it's rotated 180 degrees around the top-left corner it becomes:
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// 2----3
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// | |
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// 1----0
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// and the vertice order will still be (0, 1, 2, 3).
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BoundingBox []image.Point
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// List of words in this paragraph.
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Words []*Word
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}
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func paragraphFromProto(p *pb.Paragraph) *Paragraph {
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if p == nil {
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return nil
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}
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var words []*Word
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for _, w := range p.Words {
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words = append(words, wordFromProto(w))
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}
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return &Paragraph{
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Properties: textPropertiesFromProto(p.Property),
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BoundingBox: boundingPolyFromProto(p.BoundingBox),
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Words: words,
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}
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}
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// A Word is a word in a text document.
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type Word struct {
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// Additional information detected for the word.
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Properties *TextProperties
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// The bounding box for the word.
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// The vertices are in the order of top-left, top-right, bottom-right,
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// bottom-left. When a rotation of the bounding box is detected the rotation
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// is represented as around the top-left corner as defined when the text is
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// read in the 'natural' orientation.
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// For example:
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// * when the text is horizontal it might look like:
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// 0----1
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// | |
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// 3----2
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// * when it's rotated 180 degrees around the top-left corner it becomes:
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// 2----3
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// | |
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// 1----0
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// and the vertice order will still be (0, 1, 2, 3).
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BoundingBox []image.Point
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// List of symbols in the word.
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// The order of the symbols follows the natural reading order.
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Symbols []*Symbol
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}
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func wordFromProto(p *pb.Word) *Word {
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if p == nil {
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return nil
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}
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var syms []*Symbol
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for _, s := range p.Symbols {
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syms = append(syms, symbolFromProto(s))
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}
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return &Word{
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Properties: textPropertiesFromProto(p.Property),
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BoundingBox: boundingPolyFromProto(p.BoundingBox),
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Symbols: syms,
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}
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}
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// A Symbol is a symbol in a text document.
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type Symbol struct {
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// Additional information detected for the symbol.
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Properties *TextProperties
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// The bounding box for the symbol.
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// The vertices are in the order of top-left, top-right, bottom-right,
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// bottom-left. When a rotation of the bounding box is detected the rotation
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// is represented as around the top-left corner as defined when the text is
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// read in the 'natural' orientation.
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// For example:
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// * when the text is horizontal it might look like:
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// 0----1
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// | |
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// 3----2
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// * when it's rotated 180 degrees around the top-left corner it becomes:
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// 2----3
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// | |
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// 1----0
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// and the vertice order will still be (0, 1, 2, 3).
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BoundingBox []image.Point
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// The actual UTF-8 representation of the symbol.
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Text string
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}
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func symbolFromProto(p *pb.Symbol) *Symbol {
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if p == nil {
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return nil
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}
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return &Symbol{
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Properties: textPropertiesFromProto(p.Property),
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BoundingBox: boundingPolyFromProto(p.BoundingBox),
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Text: p.Text,
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}
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}
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// TextProperties contains additional information about an OCR structural component.
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type TextProperties struct {
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// A list of detected languages together with confidence.
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DetectedLanguages []*DetectedLanguage
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// Detected start or end of a text segment.
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DetectedBreak *DetectedBreak
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}
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// Detected language for a structural component.
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type DetectedLanguage struct {
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// The BCP-47 language code, such as "en-US" or "sr-Latn".
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Code language.Tag
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// The confidence of the detected language, in the range [0, 1].
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Confidence float32
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}
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// DetectedBreak is the detected start or end of a structural component.
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type DetectedBreak struct {
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// The type of break.
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Type DetectedBreakType
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// True if break prepends the element.
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IsPrefix bool
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}
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type DetectedBreakType int
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const (
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// Unknown break label type.
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UnknownBreak = DetectedBreakType(pb.TextAnnotation_DetectedBreak_UNKNOWN)
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// Regular space.
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SpaceBreak = DetectedBreakType(pb.TextAnnotation_DetectedBreak_SPACE)
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// Sure space (very wide).
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SureSpaceBreak = DetectedBreakType(pb.TextAnnotation_DetectedBreak_SURE_SPACE)
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// Line-wrapping break.
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EOLSureSpaceBreak = DetectedBreakType(pb.TextAnnotation_DetectedBreak_EOL_SURE_SPACE)
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// End-line hyphen that is not present in text; does not co-occur with SPACE, LEADER_SPACE, or LINE_BREAK.
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HyphenBreak = DetectedBreakType(pb.TextAnnotation_DetectedBreak_HYPHEN)
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// Line break that ends a paragraph.
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LineBreak = DetectedBreakType(pb.TextAnnotation_DetectedBreak_LINE_BREAK)
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)
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func textPropertiesFromProto(p *pb.TextAnnotation_TextProperty) *TextProperties {
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var dls []*DetectedLanguage
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for _, dl := range p.DetectedLanguages {
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tag, _ := language.Parse(dl.LanguageCode)
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// Ignore error. If err != nil the returned tag will not be garbage,
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// but a best-effort attempt at a parse. At worst it will be
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// language.Und, the documented "undefined" Tag.
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dls = append(dls, &DetectedLanguage{Code: tag, Confidence: dl.Confidence})
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}
|
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var db *DetectedBreak
|
|
if p.DetectedBreak != nil {
|
|
db = &DetectedBreak{
|
|
Type: DetectedBreakType(p.DetectedBreak.Type),
|
|
IsPrefix: p.DetectedBreak.IsPrefix,
|
|
}
|
|
}
|
|
return &TextProperties{
|
|
DetectedLanguages: dls,
|
|
DetectedBreak: db,
|
|
}
|
|
}
|
|
|
|
// SafeSearchAnnotation describes the results of a SafeSearch detection on an image.
|
|
type SafeSearchAnnotation struct {
|
|
// Adult is the likelihood that the image contains adult content.
|
|
Adult Likelihood
|
|
|
|
// Spoof is the likelihood that an obvious modification was made to the
|
|
// image's canonical version to make it appear funny or offensive.
|
|
Spoof Likelihood
|
|
|
|
// Medical is the likelihood that this is a medical image.
|
|
Medical Likelihood
|
|
|
|
// Violence is the likelihood that this image represents violence.
|
|
Violence Likelihood
|
|
}
|
|
|
|
func safeSearchAnnotationFromProto(s *pb.SafeSearchAnnotation) *SafeSearchAnnotation {
|
|
if s == nil {
|
|
return nil
|
|
}
|
|
return &SafeSearchAnnotation{
|
|
Adult: Likelihood(s.Adult),
|
|
Spoof: Likelihood(s.Spoof),
|
|
Medical: Likelihood(s.Medical),
|
|
Violence: Likelihood(s.Violence),
|
|
}
|
|
}
|
|
|
|
// ImageProps describes properties of the image itself, like the dominant colors.
|
|
type ImageProps struct {
|
|
// DominantColors describes the dominant colors of the image.
|
|
DominantColors []*ColorInfo
|
|
}
|
|
|
|
func imagePropertiesFromProto(ip *pb.ImageProperties) *ImageProps {
|
|
if ip == nil || ip.DominantColors == nil {
|
|
return nil
|
|
}
|
|
var cinfos []*ColorInfo
|
|
for _, ci := range ip.DominantColors.Colors {
|
|
cinfos = append(cinfos, colorInfoFromProto(ci))
|
|
}
|
|
return &ImageProps{DominantColors: cinfos}
|
|
}
|
|
|
|
// WebDetection contains relevant information for the image from the Internet.
|
|
type WebDetection struct {
|
|
// Deduced entities from similar images on the Internet.
|
|
WebEntities []*WebEntity
|
|
// Fully matching images from the Internet.
|
|
// They're definite neardups and most often a copy of the query image with
|
|
// merely a size change.
|
|
FullMatchingImages []*WebImage
|
|
// Partial matching images from the Internet.
|
|
// Those images are similar enough to share some key-point features. For
|
|
// example an original image will likely have partial matching for its crops.
|
|
PartialMatchingImages []*WebImage
|
|
// Web pages containing the matching images from the Internet.
|
|
PagesWithMatchingImages []*WebPage
|
|
}
|
|
|
|
func webDetectionFromProto(p *pb.WebDetection) *WebDetection {
|
|
if p == nil {
|
|
return nil
|
|
}
|
|
var (
|
|
wes []*WebEntity
|
|
fmis, pmis []*WebImage
|
|
wps []*WebPage
|
|
)
|
|
for _, e := range p.WebEntities {
|
|
wes = append(wes, webEntityFromProto(e))
|
|
}
|
|
for _, m := range p.FullMatchingImages {
|
|
fmis = append(fmis, webImageFromProto(m))
|
|
}
|
|
for _, m := range p.PartialMatchingImages {
|
|
pmis = append(fmis, webImageFromProto(m))
|
|
}
|
|
for _, g := range p.PagesWithMatchingImages {
|
|
wps = append(wps, webPageFromProto(g))
|
|
}
|
|
return &WebDetection{
|
|
WebEntities: wes,
|
|
FullMatchingImages: fmis,
|
|
PartialMatchingImages: pmis,
|
|
PagesWithMatchingImages: wps,
|
|
}
|
|
}
|
|
|
|
// A WebEntity is an entity deduced from similar images on the Internet.
|
|
type WebEntity struct {
|
|
// Opaque entity ID.
|
|
ID string
|
|
// Overall relevancy score for the entity.
|
|
// Not normalized and not comparable across different image queries.
|
|
Score float32
|
|
// Canonical description of the entity, in English.
|
|
Description string
|
|
}
|
|
|
|
func webEntityFromProto(p *pb.WebDetection_WebEntity) *WebEntity {
|
|
return &WebEntity{
|
|
ID: p.EntityId,
|
|
Score: p.Score,
|
|
Description: p.Description,
|
|
}
|
|
}
|
|
|
|
// WebImage contains metadata for online images.
|
|
type WebImage struct {
|
|
// The result image URL.
|
|
URL string
|
|
// Overall relevancy score for the image.
|
|
// Not normalized and not comparable across different image queries.
|
|
Score float32
|
|
}
|
|
|
|
func webImageFromProto(p *pb.WebDetection_WebImage) *WebImage {
|
|
return &WebImage{
|
|
URL: p.Url,
|
|
Score: p.Score,
|
|
}
|
|
}
|
|
|
|
// A WebPage contains metadata for web pages.
|
|
type WebPage struct {
|
|
// The result web page URL.
|
|
URL string
|
|
// Overall relevancy score for the web page.
|
|
// Not normalized and not comparable across different image queries.
|
|
Score float32
|
|
}
|
|
|
|
func webPageFromProto(p *pb.WebDetection_WebPage) *WebPage {
|
|
return &WebPage{
|
|
URL: p.Url,
|
|
Score: p.Score,
|
|
}
|
|
}
|
|
|
|
// CropHint is a single crop hint that is used to generate a new crop when
|
|
// serving an image.
|
|
type CropHint struct {
|
|
// The bounding polygon for the crop region. The coordinates of the bounding
|
|
// box are in the original image's scale, as returned in `ImageParams`.
|
|
BoundingPoly []image.Point
|
|
// Confidence of this being a salient region. Range [0, 1].
|
|
Confidence float32
|
|
// Fraction of importance of this salient region with respect to the original
|
|
// image.
|
|
ImportanceFraction float32
|
|
}
|
|
|
|
func cropHintsFromProto(p *pb.CropHintsAnnotation) []*CropHint {
|
|
if p == nil {
|
|
return nil
|
|
}
|
|
var chs []*CropHint
|
|
for _, pch := range p.CropHints {
|
|
chs = append(chs, cropHintFromProto(pch))
|
|
}
|
|
return chs
|
|
}
|
|
|
|
func cropHintFromProto(pch *pb.CropHint) *CropHint {
|
|
return &CropHint{
|
|
BoundingPoly: boundingPolyFromProto(pch.BoundingPoly),
|
|
Confidence: pch.Confidence,
|
|
ImportanceFraction: pch.ImportanceFraction,
|
|
}
|
|
}
|