Package cloud.google.com/go/language/apiv1beta2/languagepb (v1.7.0)

var (
	EncodingType_name = map[int32]string{
		0: "NONE",
		1: "UTF8",
		2: "UTF16",
		3: "UTF32",
	}
	EncodingType_value = map[string]int32{
		"NONE":  0,
		"UTF8":  1,
		"UTF16": 2,
		"UTF32": 3,
	}
)

var (
	Document_Type_name = map[int32]string{
		0: "TYPE_UNSPECIFIED",
		1: "PLAIN_TEXT",
		2: "HTML",
	}
	Document_Type_value = map[string]int32{
		"TYPE_UNSPECIFIED": 0,
		"PLAIN_TEXT":       1,
		"HTML":             2,
	}
)

var (
	Document_BoilerplateHandling_name = map[int32]string{
		0: "BOILERPLATE_HANDLING_UNSPECIFIED",
		1: "SKIP_BOILERPLATE",
		2: "KEEP_BOILERPLATE",
	}
	Document_BoilerplateHandling_value = map[string]int32{
		"BOILERPLATE_HANDLING_UNSPECIFIED": 0,
		"SKIP_BOILERPLATE":                 1,
		"KEEP_BOILERPLATE":                 2,
	}
)

var (
	Entity_Type_name = map[int32]string{
		0:  "UNKNOWN",
		1:  "PERSON",
		2:  "LOCATION",
		3:  "ORGANIZATION",
		4:  "EVENT",
		5:  "WORK_OF_ART",
		6:  "CONSUMER_GOOD",
		7:  "OTHER",
		9:  "PHONE_NUMBER",
		10: "ADDRESS",
		11: "DATE",
		12: "NUMBER",
		13: "PRICE",
	}
	Entity_Type_value = map[string]int32{
		"UNKNOWN":       0,
		"PERSON":        1,
		"LOCATION":      2,
		"ORGANIZATION":  3,
		"EVENT":         4,
		"WORK_OF_ART":   5,
		"CONSUMER_GOOD": 6,
		"OTHER":         7,
		"PHONE_NUMBER":  9,
		"ADDRESS":       10,
		"DATE":          11,
		"NUMBER":        12,
		"PRICE":         13,
	}
)

var (
	PartOfSpeech_Tag_name = map[int32]string{
		0:  "UNKNOWN",
		1:  "ADJ",
		2:  "ADP",
		3:  "ADV",
		4:  "CONJ",
		5:  "DET",
		6:  "NOUN",
		7:  "NUM",
		8:  "PRON",
		9:  "PRT",
		10: "PUNCT",
		11: "VERB",
		12: "X",
		13: "AFFIX",
	}
	PartOfSpeech_Tag_value = map[string]int32{
		"UNKNOWN": 0,
		"ADJ":     1,
		"ADP":     2,
		"ADV":     3,
		"CONJ":    4,
		"DET":     5,
		"NOUN":    6,
		"NUM":     7,
		"PRON":    8,
		"PRT":     9,
		"PUNCT":   10,
		"VERB":    11,
		"X":       12,
		"AFFIX":   13,
	}
)

var (
	PartOfSpeech_Aspect_name = map[int32]string{
		0: "ASPECT_UNKNOWN",
		1: "PERFECTIVE",
		2: "IMPERFECTIVE",
		3: "PROGRESSIVE",
	}
	PartOfSpeech_Aspect_value = map[string]int32{
		"ASPECT_UNKNOWN": 0,
		"PERFECTIVE":     1,
		"IMPERFECTIVE":   2,
		"PROGRESSIVE":    3,
	}
)

var (
	PartOfSpeech_Case_name = map[int32]string{
		0:  "CASE_UNKNOWN",
		1:  "ACCUSATIVE",
		2:  "ADVERBIAL",
		3:  "COMPLEMENTIVE",
		4:  "DATIVE",
		5:  "GENITIVE",
		6:  "INSTRUMENTAL",
		7:  "LOCATIVE",
		8:  "NOMINATIVE",
		9:  "OBLIQUE",
		10: "PARTITIVE",
		11: "PREPOSITIONAL",
		12: "REFLEXIVE_CASE",
		13: "RELATIVE_CASE",
		14: "VOCATIVE",
	}
	PartOfSpeech_Case_value = map[string]int32{
		"CASE_UNKNOWN":   0,
		"ACCUSATIVE":     1,
		"ADVERBIAL":      2,
		"COMPLEMENTIVE":  3,
		"DATIVE":         4,
		"GENITIVE":       5,
		"INSTRUMENTAL":   6,
		"LOCATIVE":       7,
		"NOMINATIVE":     8,
		"OBLIQUE":        9,
		"PARTITIVE":      10,
		"PREPOSITIONAL":  11,
		"REFLEXIVE_CASE": 12,
		"RELATIVE_CASE":  13,
		"VOCATIVE":       14,
	}
)

var (
	PartOfSpeech_Form_name = map[int32]string{
		0:  "FORM_UNKNOWN",
		1:  "ADNOMIAL",
		2:  "AUXILIARY",
		3:  "COMPLEMENTIZER",
		4:  "FINAL_ENDING",
		5:  "GERUND",
		6:  "REALIS",
		7:  "IRREALIS",
		8:  "SHORT",
		9:  "LONG",
		10: "ORDER",
		11: "SPECIFIC",
	}
	PartOfSpeech_Form_value = map[string]int32{
		"FORM_UNKNOWN":   0,
		"ADNOMIAL":       1,
		"AUXILIARY":      2,
		"COMPLEMENTIZER": 3,
		"FINAL_ENDING":   4,
		"GERUND":         5,
		"REALIS":         6,
		"IRREALIS":       7,
		"SHORT":          8,
		"LONG":           9,
		"ORDER":          10,
		"SPECIFIC":       11,
	}
)

var (
	PartOfSpeech_Gender_name = map[int32]string{
		0: "GENDER_UNKNOWN",
		1: "FEMININE",
		2: "MASCULINE",
		3: "NEUTER",
	}
	PartOfSpeech_Gender_value = map[string]int32{
		"GENDER_UNKNOWN": 0,
		"FEMININE":       1,
		"MASCULINE":      2,
		"NEUTER":         3,
	}
)

var (
	PartOfSpeech_Mood_name = map[int32]string{
		0: "MOOD_UNKNOWN",
		1: "CONDITIONAL_MOOD",
		2: "IMPERATIVE",
		3: "INDICATIVE",
		4: "INTERROGATIVE",
		5: "JUSSIVE",
		6: "SUBJUNCTIVE",
	}
	PartOfSpeech_Mood_value = map[string]int32{
		"MOOD_UNKNOWN":     0,
		"CONDITIONAL_MOOD": 1,
		"IMPERATIVE":       2,
		"INDICATIVE":       3,
		"INTERROGATIVE":    4,
		"JUSSIVE":          5,
		"SUBJUNCTIVE":      6,
	}
)

var (
	PartOfSpeech_Number_name = map[int32]string{
		0: "NUMBER_UNKNOWN",
		1: "SINGULAR",
		2: "PLURAL",
		3: "DUAL",
	}
	PartOfSpeech_Number_value = map[string]int32{
		"NUMBER_UNKNOWN": 0,
		"SINGULAR":       1,
		"PLURAL":         2,
		"DUAL":           3,
	}
)

var (
	PartOfSpeech_Person_name = map[int32]string{
		0: "PERSON_UNKNOWN",
		1: "FIRST",
		2: "SECOND",
		3: "THIRD",
		4: "REFLEXIVE_PERSON",
	}
	PartOfSpeech_Person_value = map[string]int32{
		"PERSON_UNKNOWN":   0,
		"FIRST":            1,
		"SECOND":           2,
		"THIRD":            3,
		"REFLEXIVE_PERSON": 4,
	}
)

var (
	PartOfSpeech_Proper_name = map[int32]string{
		0: "PROPER_UNKNOWN",
		1: "PROPER",
		2: "NOT_PROPER",
	}
	PartOfSpeech_Proper_value = map[string]int32{
		"PROPER_UNKNOWN": 0,
		"PROPER":         1,
		"NOT_PROPER":     2,
	}
)

var (
	PartOfSpeech_Reciprocity_name = map[int32]string{
		0: "RECIPROCITY_UNKNOWN",
		1: "RECIPROCAL",
		2: "NON_RECIPROCAL",
	}
	PartOfSpeech_Reciprocity_value = map[string]int32{
		"RECIPROCITY_UNKNOWN": 0,
		"RECIPROCAL":          1,
		"NON_RECIPROCAL":      2,
	}
)

var (
	PartOfSpeech_Tense_name = map[int32]string{
		0: "TENSE_UNKNOWN",
		1: "CONDITIONAL_TENSE",
		2: "FUTURE",
		3: "PAST",
		4: "PRESENT",
		5: "IMPERFECT",
		6: "PLUPERFECT",
	}
	PartOfSpeech_Tense_value = map[string]int32{
		"TENSE_UNKNOWN":     0,
		"CONDITIONAL_TENSE": 1,
		"FUTURE":            2,
		"PAST":              3,
		"PRESENT":           4,
		"IMPERFECT":         5,
		"PLUPERFECT":        6,
	}
)

var (
	PartOfSpeech_Voice_name = map[int32]string{
		0: "VOICE_UNKNOWN",
		1: "ACTIVE",
		2: "CAUSATIVE",
		3: "PASSIVE",
	}
	PartOfSpeech_Voice_value = map[string]int32{
		"VOICE_UNKNOWN": 0,
		"ACTIVE":        1,
		"CAUSATIVE":     2,
		"PASSIVE":       3,
	}
)

var (
	DependencyEdge_Label_name = map[int32]string{
		0:  "UNKNOWN",
		1:  "ABBREV",
		2:  "ACOMP",
		3:  "ADVCL",
		4:  "ADVMOD",
		5:  "AMOD",
		6:  "APPOS",
		7:  "ATTR",
		8:  "AUX",
		9:  "AUXPASS",
		10: "CC",
		11: "CCOMP",
		12: "CONJ",
		13: "CSUBJ",
		14: "CSUBJPASS",
		15: "DEP",
		16: "DET",
		17: "DISCOURSE",
		18: "DOBJ",
		19: "EXPL",
		20: "GOESWITH",
		21: "IOBJ",
		22: "MARK",
		23: "MWE",
		24: "MWV",
		25: "NEG",
		26: "NN",
		27: "NPADVMOD",
		28: "NSUBJ",
		29: "NSUBJPASS",
		30: "NUM",
		31: "NUMBER",
		32: "P",
		33: "PARATAXIS",
		34: "PARTMOD",
		35: "PCOMP",
		36: "POBJ",
		37: "POSS",
		38: "POSTNEG",
		39: "PRECOMP",
		40: "PRECONJ",
		41: "PREDET",
		42: "PREF",
		43: "PREP",
		44: "PRONL",
		45: "PRT",
		46: "PS",
		47: "QUANTMOD",
		48: "RCMOD",
		49: "RCMODREL",
		50: "RDROP",
		51: "REF",
		52: "REMNANT",
		53: "REPARANDUM",
		54: "ROOT",
		55: "SNUM",
		56: "SUFF",
		57: "TMOD",
		58: "TOPIC",
		59: "VMOD",
		60: "VOCATIVE",
		61: "XCOMP",
		62: "SUFFIX",
		63: "TITLE",
		64: "ADVPHMOD",
		65: "AUXCAUS",
		66: "AUXVV",
		67: "DTMOD",
		68: "FOREIGN",
		69: "KW",
		70: "LIST",
		71: "NOMC",
		72: "NOMCSUBJ",
		73: "NOMCSUBJPASS",
		74: "NUMC",
		75: "COP",
		76: "DISLOCATED",
		77: "ASP",
		78: "GMOD",
		79: "GOBJ",
		80: "INFMOD",
		81: "MES",
		82: "NCOMP",
	}
	DependencyEdge_Label_value = map[string]int32{
		"UNKNOWN":      0,
		"ABBREV":       1,
		"ACOMP":        2,
		"ADVCL":        3,
		"ADVMOD":       4,
		"AMOD":         5,
		"APPOS":        6,
		"ATTR":         7,
		"AUX":          8,
		"AUXPASS":      9,
		"CC":           10,
		"CCOMP":        11,
		"CONJ":         12,
		"CSUBJ":        13,
		"CSUBJPASS":    14,
		"DEP":          15,
		"DET":          16,
		"DISCOURSE":    17,
		"DOBJ":         18,
		"EXPL":         19,
		"GOESWITH":     20,
		"IOBJ":         21,
		"MARK":         22,
		"MWE":          23,
		"MWV":          24,
		"NEG":          25,
		"NN":           26,
		"NPADVMOD":     27,
		"NSUBJ":        28,
		"NSUBJPASS":    29,
		"NUM":          30,
		"NUMBER":       31,
		"P":            32,
		"PARATAXIS":    33,
		"PARTMOD":      34,
		"PCOMP":        35,
		"POBJ":         36,
		"POSS":         37,
		"POSTNEG":      38,
		"PRECOMP":      39,
		"PRECONJ":      40,
		"PREDET":       41,
		"PREF":         42,
		"PREP":         43,
		"PRONL":        44,
		"PRT":          45,
		"PS":           46,
		"QUANTMOD":     47,
		"RCMOD":        48,
		"RCMODREL":     49,
		"RDROP":        50,
		"REF":          51,
		"REMNANT":      52,
		"REPARANDUM":   53,
		"ROOT":         54,
		"SNUM":         55,
		"SUFF":         56,
		"TMOD":         57,
		"TOPIC":        58,
		"VMOD":         59,
		"VOCATIVE":     60,
		"XCOMP":        61,
		"SUFFIX":       62,
		"TITLE":        63,
		"ADVPHMOD":     64,
		"AUXCAUS":      65,
		"AUXVV":        66,
		"DTMOD":        67,
		"FOREIGN":      68,
		"KW":           69,
		"LIST":         70,
		"NOMC":         71,
		"NOMCSUBJ":     72,
		"NOMCSUBJPASS": 73,
		"NUMC":         74,
		"COP":          75,
		"DISLOCATED":   76,
		"ASP":          77,
		"GMOD":         78,
		"GOBJ":         79,
		"INFMOD":       80,
		"MES":          81,
		"NCOMP":        82,
	}
)

var (
	EntityMention_Type_name = map[int32]string{
		0: "TYPE_UNKNOWN",
		1: "PROPER",
		2: "COMMON",
	}
	EntityMention_Type_value = map[string]int32{
		"TYPE_UNKNOWN": 0,
		"PROPER":       1,
		"COMMON":       2,
	}
)

var (
	ClassificationModelOptions_V2Model_ContentCategoriesVersion_name = map[int32]string{
		0: "CONTENT_CATEGORIES_VERSION_UNSPECIFIED",
		1: "V1",
		2: "V2",
	}
	ClassificationModelOptions_V2Model_ContentCategoriesVersion_value = map[string]int32{
		"CONTENT_CATEGORIES_VERSION_UNSPECIFIED": 0,
		"V1":                                     1,
		"V2":                                     2,
	}
)

var File_google_cloud_language_v1beta2_language_service_proto protoreflect.FileDescriptor

func RegisterLanguageServiceServer(s *grpc.Server, srv LanguageServiceServer)

type AnalyzeEntitiesRequest struct {
	Document *Document `protobuf:"bytes,1,opt,name=document,proto3" json:"document,omitempty"`

	EncodingType EncodingType "" /* 146 byte string literal not displayed */

}

func (*AnalyzeEntitiesRequest) Descriptor() ([]byte, []int)

func (x *AnalyzeEntitiesRequest) GetDocument() *Document

func (x *AnalyzeEntitiesRequest) GetEncodingType() EncodingType

func (*AnalyzeEntitiesRequest) ProtoMessage()

func (x *AnalyzeEntitiesRequest) ProtoReflect() protoreflect.Message

func (x *AnalyzeEntitiesRequest) Reset()

func (x *AnalyzeEntitiesRequest) String() string

type AnalyzeEntitiesResponse struct {

	// The recognized entities in the input document.
	Entities []*Entity `protobuf:"bytes,1,rep,name=entities,proto3" json:"entities,omitempty"`
	// The language of the text, which will be the same as the language specified
	// in the request or, if not specified, the automatically-detected language.
	// See [Document.language][google.cloud.language.v1beta2.Document.language] field for more details.
	Language string `protobuf:"bytes,2,opt,name=language,proto3" json:"language,omitempty"`
	// contains filtered or unexported fields
}

func (*AnalyzeEntitiesResponse) Descriptor() ([]byte, []int)

func (x *AnalyzeEntitiesResponse) GetEntities() []*Entity

func (x *AnalyzeEntitiesResponse) GetLanguage() string

func (*AnalyzeEntitiesResponse) ProtoMessage()

func (x *AnalyzeEntitiesResponse) ProtoReflect() protoreflect.Message

func (x *AnalyzeEntitiesResponse) Reset()

func (x *AnalyzeEntitiesResponse) String() string

type AnalyzeEntitySentimentRequest struct {
	Document *Document `protobuf:"bytes,1,opt,name=document,proto3" json:"document,omitempty"`

	EncodingType EncodingType "" /* 146 byte string literal not displayed */

}

func (*AnalyzeEntitySentimentRequest) Descriptor() ([]byte, []int)

func (x *AnalyzeEntitySentimentRequest) GetDocument() *Document

func (x *AnalyzeEntitySentimentRequest) GetEncodingType() EncodingType

func (*AnalyzeEntitySentimentRequest) ProtoMessage()

func (x *AnalyzeEntitySentimentRequest) ProtoReflect() protoreflect.Message

func (x *AnalyzeEntitySentimentRequest) Reset()

func (x *AnalyzeEntitySentimentRequest) String() string

type AnalyzeEntitySentimentResponse struct {

	// The recognized entities in the input document with associated sentiments.
	Entities []*Entity `protobuf:"bytes,1,rep,name=entities,proto3" json:"entities,omitempty"`
	// The language of the text, which will be the same as the language specified
	// in the request or, if not specified, the automatically-detected language.
	// See [Document.language][google.cloud.language.v1beta2.Document.language] field for more details.
	Language string `protobuf:"bytes,2,opt,name=language,proto3" json:"language,omitempty"`
	// contains filtered or unexported fields
}

func (*AnalyzeEntitySentimentResponse) Descriptor() ([]byte, []int)

func (x *AnalyzeEntitySentimentResponse) GetEntities() []*Entity

func (x *AnalyzeEntitySentimentResponse) GetLanguage() string

func (*AnalyzeEntitySentimentResponse) ProtoMessage()

func (x *AnalyzeEntitySentimentResponse) ProtoReflect() protoreflect.Message

func (x *AnalyzeEntitySentimentResponse) Reset()

func (x *AnalyzeEntitySentimentResponse) String() string

type AnalyzeSentimentRequest struct {
	Document *Document `protobuf:"bytes,1,opt,name=document,proto3" json:"document,omitempty"`

	EncodingType EncodingType "" /* 146 byte string literal not displayed */

}

func (*AnalyzeSentimentRequest) Descriptor() ([]byte, []int)

func (x *AnalyzeSentimentRequest) GetDocument() *Document

func (x *AnalyzeSentimentRequest) GetEncodingType() EncodingType

func (*AnalyzeSentimentRequest) ProtoMessage()

func (x *AnalyzeSentimentRequest) ProtoReflect() protoreflect.Message

func (x *AnalyzeSentimentRequest) Reset()

func (x *AnalyzeSentimentRequest) String() string

type AnalyzeSentimentResponse struct {

	// The overall sentiment of the input document.
	DocumentSentiment *Sentiment `protobuf:"bytes,1,opt,name=document_sentiment,json=documentSentiment,proto3" json:"document_sentiment,omitempty"`
	// The language of the text, which will be the same as the language specified
	// in the request or, if not specified, the automatically-detected language.
	// See [Document.language][google.cloud.language.v1beta2.Document.language] field for more details.
	Language string `protobuf:"bytes,2,opt,name=language,proto3" json:"language,omitempty"`
	// The sentiment for all the sentences in the document.
	Sentences []*Sentence `protobuf:"bytes,3,rep,name=sentences,proto3" json:"sentences,omitempty"`
	// contains filtered or unexported fields
}

func (*AnalyzeSentimentResponse) Descriptor() ([]byte, []int)

func (x *AnalyzeSentimentResponse) GetDocumentSentiment() *Sentiment

func (x *AnalyzeSentimentResponse) GetLanguage() string

func (x *AnalyzeSentimentResponse) GetSentences() []*Sentence

func (*AnalyzeSentimentResponse) ProtoMessage()

func (x *AnalyzeSentimentResponse) ProtoReflect() protoreflect.Message

func (x *AnalyzeSentimentResponse) Reset()

func (x *AnalyzeSentimentResponse) String() string

type AnalyzeSyntaxRequest struct {
	Document *Document `protobuf:"bytes,1,opt,name=document,proto3" json:"document,omitempty"`

	EncodingType EncodingType "" /* 146 byte string literal not displayed */

}

func (*AnalyzeSyntaxRequest) Descriptor() ([]byte, []int)

func (x *AnalyzeSyntaxRequest) GetDocument() *Document

func (x *AnalyzeSyntaxRequest) GetEncodingType() EncodingType

func (*AnalyzeSyntaxRequest) ProtoMessage()

func (x *AnalyzeSyntaxRequest) ProtoReflect() protoreflect.Message

func (x *AnalyzeSyntaxRequest) Reset()

func (x *AnalyzeSyntaxRequest) String() string

type AnalyzeSyntaxResponse struct {

	// Sentences in the input document.
	Sentences []*Sentence `protobuf:"bytes,1,rep,name=sentences,proto3" json:"sentences,omitempty"`
	// Tokens, along with their syntactic information, in the input document.
	Tokens []*Token `protobuf:"bytes,2,rep,name=tokens,proto3" json:"tokens,omitempty"`
	// The language of the text, which will be the same as the language specified
	// in the request or, if not specified, the automatically-detected language.
	// See [Document.language][google.cloud.language.v1beta2.Document.language] field for more details.
	Language string `protobuf:"bytes,3,opt,name=language,proto3" json:"language,omitempty"`
	// contains filtered or unexported fields
}

func (*AnalyzeSyntaxResponse) Descriptor() ([]byte, []int)

func (x *AnalyzeSyntaxResponse) GetLanguage() string

func (x *AnalyzeSyntaxResponse) GetSentences() []*Sentence

func (x *AnalyzeSyntaxResponse) GetTokens() []*Token

func (*AnalyzeSyntaxResponse) ProtoMessage()

func (x *AnalyzeSyntaxResponse) ProtoReflect() protoreflect.Message

func (x *AnalyzeSyntaxResponse) Reset()

func (x *AnalyzeSyntaxResponse) String() string

type AnnotateTextRequest struct {
	Document *Document `protobuf:"bytes,1,opt,name=document,proto3" json:"document,omitempty"`

	Features *AnnotateTextRequest_Features `protobuf:"bytes,2,opt,name=features,proto3" json:"features,omitempty"`

	EncodingType EncodingType "" /* 146 byte string literal not displayed */

}

func (*AnnotateTextRequest) Descriptor() ([]byte, []int)

func (x *AnnotateTextRequest) GetDocument() *Document

func (x *AnnotateTextRequest) GetEncodingType() EncodingType

func (x *AnnotateTextRequest) GetFeatures() *AnnotateTextRequest_Features

func (*AnnotateTextRequest) ProtoMessage()

func (x *AnnotateTextRequest) ProtoReflect() protoreflect.Message

func (x *AnnotateTextRequest) Reset()

func (x *AnnotateTextRequest) String() string

type AnnotateTextRequest_Features struct {
	ExtractSyntax bool `protobuf:"varint,1,opt,name=extract_syntax,json=extractSyntax,proto3" json:"extract_syntax,omitempty"`

	ExtractEntities bool `protobuf:"varint,2,opt,name=extract_entities,json=extractEntities,proto3" json:"extract_entities,omitempty"`

	ExtractDocumentSentiment bool "" /* 136 byte string literal not displayed */

	ExtractEntitySentiment bool "" /* 130 byte string literal not displayed */

	ClassifyText bool `protobuf:"varint,6,opt,name=classify_text,json=classifyText,proto3" json:"classify_text,omitempty"`

	ClassificationModelOptions *ClassificationModelOptions "" /* 142 byte string literal not displayed */

}

func (*AnnotateTextRequest_Features) Descriptor() ([]byte, []int)

func (x *AnnotateTextRequest_Features) GetClassificationModelOptions() *ClassificationModelOptions

func (x *AnnotateTextRequest_Features) GetClassifyText() bool

func (x *AnnotateTextRequest_Features) GetExtractDocumentSentiment() bool

func (x *AnnotateTextRequest_Features) GetExtractEntities() bool

func (x *AnnotateTextRequest_Features) GetExtractEntitySentiment() bool

func (x *AnnotateTextRequest_Features) GetExtractSyntax() bool

func (*AnnotateTextRequest_Features) ProtoMessage()

func (x *AnnotateTextRequest_Features) ProtoReflect() protoreflect.Message

func (x *AnnotateTextRequest_Features) Reset()

func (x *AnnotateTextRequest_Features) String() string

type AnnotateTextResponse struct {

	// Sentences in the input document. Populated if the user enables
	// [AnnotateTextRequest.Features.extract_syntax][google.cloud.language.v1beta2.AnnotateTextRequest.Features.extract_syntax].
	Sentences []*Sentence `protobuf:"bytes,1,rep,name=sentences,proto3" json:"sentences,omitempty"`
	// Tokens, along with their syntactic information, in the input document.
	// Populated if the user enables
	// [AnnotateTextRequest.Features.extract_syntax][google.cloud.language.v1beta2.AnnotateTextRequest.Features.extract_syntax].
	Tokens []*Token `protobuf:"bytes,2,rep,name=tokens,proto3" json:"tokens,omitempty"`
	// Entities, along with their semantic information, in the input document.
	// Populated if the user enables
	// [AnnotateTextRequest.Features.extract_entities][google.cloud.language.v1beta2.AnnotateTextRequest.Features.extract_entities].
	Entities []*Entity `protobuf:"bytes,3,rep,name=entities,proto3" json:"entities,omitempty"`
	// The overall sentiment for the document. Populated if the user enables
	// [AnnotateTextRequest.Features.extract_document_sentiment][google.cloud.language.v1beta2.AnnotateTextRequest.Features.extract_document_sentiment].
	DocumentSentiment *Sentiment `protobuf:"bytes,4,opt,name=document_sentiment,json=documentSentiment,proto3" json:"document_sentiment,omitempty"`
	// The language of the text, which will be the same as the language specified
	// in the request or, if not specified, the automatically-detected language.
	// See [Document.language][google.cloud.language.v1beta2.Document.language] field for more details.
	Language string `protobuf:"bytes,5,opt,name=language,proto3" json:"language,omitempty"`
	// Categories identified in the input document.
	Categories []*ClassificationCategory `protobuf:"bytes,6,rep,name=categories,proto3" json:"categories,omitempty"`
	// contains filtered or unexported fields
}

func (*AnnotateTextResponse) Descriptor() ([]byte, []int)

func (x *AnnotateTextResponse) GetCategories() []*ClassificationCategory

func (x *AnnotateTextResponse) GetDocumentSentiment() *Sentiment

func (x *AnnotateTextResponse) GetEntities() []*Entity

func (x *AnnotateTextResponse) GetLanguage() string

func (x *AnnotateTextResponse) GetSentences() []*Sentence

func (x *AnnotateTextResponse) GetTokens() []*Token

func (*AnnotateTextResponse) ProtoMessage()

func (x *AnnotateTextResponse) ProtoReflect() protoreflect.Message

func (x *AnnotateTextResponse) Reset()

func (x *AnnotateTextResponse) String() string

type ClassificationCategory struct {

	// The name of the category representing the document, from the [predefined
	// taxonomy](https://cloud.google.com/natural-language/docs/categories).
	Name string `protobuf:"bytes,1,opt,name=name,proto3" json:"name,omitempty"`
	// The classifier's confidence of the category. Number represents how certain
	// the classifier is that this category represents the given text.
	Confidence float32 `protobuf:"fixed32,2,opt,name=confidence,proto3" json:"confidence,omitempty"`
	// contains filtered or unexported fields
}

func (*ClassificationCategory) Descriptor() ([]byte, []int)

func (x *ClassificationCategory) GetConfidence() float32

func (x *ClassificationCategory) GetName() string

func (*ClassificationCategory) ProtoMessage()

func (x *ClassificationCategory) ProtoReflect() protoreflect.Message

func (x *ClassificationCategory) Reset()

func (x *ClassificationCategory) String() string

type ClassificationModelOptions struct {

	// If this field is not set, then the `v1_model` will be used by default.
	//
	// Types that are assignable to ModelType:
	//
	//	*ClassificationModelOptions_V1Model_
	//	*ClassificationModelOptions_V2Model_
	ModelType isClassificationModelOptions_ModelType `protobuf_oneof:"model_type"`
	// contains filtered or unexported fields
}

func (*ClassificationModelOptions) Descriptor() ([]byte, []int)

func (m *ClassificationModelOptions) GetModelType() isClassificationModelOptions_ModelType

func (x *ClassificationModelOptions) GetV1Model() *ClassificationModelOptions_V1Model

func (x *ClassificationModelOptions) GetV2Model() *ClassificationModelOptions_V2Model

func (*ClassificationModelOptions) ProtoMessage()

func (x *ClassificationModelOptions) ProtoReflect() protoreflect.Message

func (x *ClassificationModelOptions) Reset()

func (x *ClassificationModelOptions) String() string

type ClassificationModelOptions_V1Model struct {
	// contains filtered or unexported fields
}

func (*ClassificationModelOptions_V1Model) Descriptor() ([]byte, []int)

func (*ClassificationModelOptions_V1Model) ProtoMessage()

func (x *ClassificationModelOptions_V1Model) ProtoReflect() protoreflect.Message

func (x *ClassificationModelOptions_V1Model) Reset()

func (x *ClassificationModelOptions_V1Model) String() string

type ClassificationModelOptions_V1Model_ struct {
	// Setting this field will use the V1 model and V1 content categories
	// version. The V1 model is a legacy model; support for this will be
	// discontinued in the future.
	V1Model *ClassificationModelOptions_V1Model `protobuf:"bytes,1,opt,name=v1_model,json=v1Model,proto3,oneof"`
}

type ClassificationModelOptions_V2Model struct {
	ContentCategoriesVersion ClassificationModelOptions_V2Model_ContentCategoriesVersion "" /* 231 byte string literal not displayed */

}

func (*ClassificationModelOptions_V2Model) Descriptor() ([]byte, []int)

func (x *ClassificationModelOptions_V2Model) GetContentCategoriesVersion() ClassificationModelOptions_V2Model_ContentCategoriesVersion

func (*ClassificationModelOptions_V2Model) ProtoMessage()

func (x *ClassificationModelOptions_V2Model) ProtoReflect() protoreflect.Message

func (x *ClassificationModelOptions_V2Model) Reset()

func (x *ClassificationModelOptions_V2Model) String() string

type ClassificationModelOptions_V2Model_ struct {
	// Setting this field will use the V2 model with the appropriate content
	// categories version. The V2 model is a better performing model.
	V2Model *ClassificationModelOptions_V2Model `protobuf:"bytes,2,opt,name=v2_model,json=v2Model,proto3,oneof"`
}

type ClassificationModelOptions_V2Model_ContentCategoriesVersion int32

const (
	// If `ContentCategoriesVersion` is not specified, this option will
	// default to `V1`.
	ClassificationModelOptions_V2Model_CONTENT_CATEGORIES_VERSION_UNSPECIFIED ClassificationModelOptions_V2Model_ContentCategoriesVersion = 0
	// Legacy content categories of our initial launch in 2017.
	ClassificationModelOptions_V2Model_V1 ClassificationModelOptions_V2Model_ContentCategoriesVersion = 1
	// Updated content categories in 2022.
	ClassificationModelOptions_V2Model_V2 ClassificationModelOptions_V2Model_ContentCategoriesVersion = 2
)

func (ClassificationModelOptions_V2Model_ContentCategoriesVersion) Descriptor() protoreflect.EnumDescriptor

func (x ClassificationModelOptions_V2Model_ContentCategoriesVersion) Enum() *ClassificationModelOptions_V2Model_ContentCategoriesVersion

func (ClassificationModelOptions_V2Model_ContentCategoriesVersion) EnumDescriptor() ([]byte, []int)

func (x ClassificationModelOptions_V2Model_ContentCategoriesVersion) Number() protoreflect.EnumNumber

func (x ClassificationModelOptions_V2Model_ContentCategoriesVersion) String() string

func (ClassificationModelOptions_V2Model_ContentCategoriesVersion) Type() protoreflect.EnumType

type ClassifyTextRequest struct {
	Document *Document `protobuf:"bytes,1,opt,name=document,proto3" json:"document,omitempty"`

	ClassificationModelOptions *ClassificationModelOptions "" /* 141 byte string literal not displayed */

}

func (*ClassifyTextRequest) Descriptor() ([]byte, []int)

func (x *ClassifyTextRequest) GetClassificationModelOptions() *ClassificationModelOptions

func (x *ClassifyTextRequest) GetDocument() *Document

func (*ClassifyTextRequest) ProtoMessage()

func (x *ClassifyTextRequest) ProtoReflect() protoreflect.Message

func (x *ClassifyTextRequest) Reset()

func (x *ClassifyTextRequest) String() string

type ClassifyTextResponse struct {

	// Categories representing the input document.
	Categories []*ClassificationCategory `protobuf:"bytes,1,rep,name=categories,proto3" json:"categories,omitempty"`
	// contains filtered or unexported fields
}

func (*ClassifyTextResponse) Descriptor() ([]byte, []int)

func (x *ClassifyTextResponse) GetCategories() []*ClassificationCategory

func (*ClassifyTextResponse) ProtoMessage()

func (x *ClassifyTextResponse) ProtoReflect() protoreflect.Message

func (x *ClassifyTextResponse) Reset()

func (x *ClassifyTextResponse) String() string

type DependencyEdge struct {

	// Represents the head of this token in the dependency tree.
	// This is the index of the token which has an arc going to this token.
	// The index is the position of the token in the array of tokens returned
	// by the API method. If this token is a root token, then the
	// `head_token_index` is its own index.
	HeadTokenIndex int32 `protobuf:"varint,1,opt,name=head_token_index,json=headTokenIndex,proto3" json:"head_token_index,omitempty"`
	// The parse label for the token.
	Label DependencyEdge_Label `protobuf:"varint,2,opt,name=label,proto3,enum=google.cloud.language.v1beta2.DependencyEdge_Label" json:"label,omitempty"`
	// contains filtered or unexported fields
}

func (*DependencyEdge) Descriptor() ([]byte, []int)

func (x *DependencyEdge) GetHeadTokenIndex() int32

func (x *DependencyEdge) GetLabel() DependencyEdge_Label

func (*DependencyEdge) ProtoMessage()

func (x *DependencyEdge) ProtoReflect() protoreflect.Message

func (x *DependencyEdge) Reset()

func (x *DependencyEdge) String() string

type DependencyEdge_Label int32

const (
	// Unknown
	DependencyEdge_UNKNOWN DependencyEdge_Label = 0
	// Abbreviation modifier
	DependencyEdge_ABBREV DependencyEdge_Label = 1
	// Adjectival complement
	DependencyEdge_ACOMP DependencyEdge_Label = 2
	// Adverbial clause modifier
	DependencyEdge_ADVCL DependencyEdge_Label = 3
	// Adverbial modifier
	DependencyEdge_ADVMOD DependencyEdge_Label = 4
	// Adjectival modifier of an NP
	DependencyEdge_AMOD DependencyEdge_Label = 5
	// Appositional modifier of an NP
	DependencyEdge_APPOS DependencyEdge_Label = 6
	// Attribute dependent of a copular verb
	DependencyEdge_ATTR DependencyEdge_Label = 7
	// Auxiliary (non-main) verb
	DependencyEdge_AUX DependencyEdge_Label = 8
	// Passive auxiliary
	DependencyEdge_AUXPASS DependencyEdge_Label = 9
	// Coordinating conjunction
	DependencyEdge_CC DependencyEdge_Label = 10
	// Clausal complement of a verb or adjective
	DependencyEdge_CCOMP DependencyEdge_Label = 11
	// Conjunct
	DependencyEdge_CONJ DependencyEdge_Label = 12
	// Clausal subject
	DependencyEdge_CSUBJ DependencyEdge_Label = 13
	// Clausal passive subject
	DependencyEdge_CSUBJPASS DependencyEdge_Label = 14
	// Dependency (unable to determine)
	DependencyEdge_DEP DependencyEdge_Label = 15
	// Determiner
	DependencyEdge_DET DependencyEdge_Label = 16
	// Discourse
	DependencyEdge_DISCOURSE DependencyEdge_Label = 17
	// Direct object
	DependencyEdge_DOBJ DependencyEdge_Label = 18
	// Expletive
	DependencyEdge_EXPL DependencyEdge_Label = 19
	// Goes with (part of a word in a text not well edited)
	DependencyEdge_GOESWITH DependencyEdge_Label = 20
	// Indirect object
	DependencyEdge_IOBJ DependencyEdge_Label = 21
	// Marker (word introducing a subordinate clause)
	DependencyEdge_MARK DependencyEdge_Label = 22
	// Multi-word expression
	DependencyEdge_MWE DependencyEdge_Label = 23
	// Multi-word verbal expression
	DependencyEdge_MWV DependencyEdge_Label = 24
	// Negation modifier
	DependencyEdge_NEG DependencyEdge_Label = 25
	// Noun compound modifier
	DependencyEdge_NN DependencyEdge_Label = 26
	// Noun phrase used as an adverbial modifier
	DependencyEdge_NPADVMOD DependencyEdge_Label = 27
	// Nominal subject
	DependencyEdge_NSUBJ DependencyEdge_Label = 28
	// Passive nominal subject
	DependencyEdge_NSUBJPASS DependencyEdge_Label = 29
	// Numeric modifier of a noun
	DependencyEdge_NUM DependencyEdge_Label = 30
	// Element of compound number
	DependencyEdge_NUMBER DependencyEdge_Label = 31
	// Punctuation mark
	DependencyEdge_P DependencyEdge_Label = 32
	// Parataxis relation
	DependencyEdge_PARATAXIS DependencyEdge_Label = 33
	// Participial modifier
	DependencyEdge_PARTMOD DependencyEdge_Label = 34
	// The complement of a preposition is a clause
	DependencyEdge_PCOMP DependencyEdge_Label = 35
	// Object of a preposition
	DependencyEdge_POBJ DependencyEdge_Label = 36
	// Possession modifier
	DependencyEdge_POSS DependencyEdge_Label = 37
	// Postverbal negative particle
	DependencyEdge_POSTNEG DependencyEdge_Label = 38
	// Predicate complement
	DependencyEdge_PRECOMP DependencyEdge_Label = 39
	// Preconjunt
	DependencyEdge_PRECONJ DependencyEdge_Label = 40
	// Predeterminer
	DependencyEdge_PREDET DependencyEdge_Label = 41
	// Prefix
	DependencyEdge_PREF DependencyEdge_Label = 42
	// Prepositional modifier
	DependencyEdge_PREP DependencyEdge_Label = 43
	// The relationship between a verb and verbal morpheme
	DependencyEdge_PRONL DependencyEdge_Label = 44
	// Particle
	DependencyEdge_PRT DependencyEdge_Label = 45
	// Associative or possessive marker
	DependencyEdge_PS DependencyEdge_Label = 46
	// Quantifier phrase modifier
	DependencyEdge_QUANTMOD DependencyEdge_Label = 47
	// Relative clause modifier
	DependencyEdge_RCMOD DependencyEdge_Label = 48
	// Complementizer in relative clause
	DependencyEdge_RCMODREL DependencyEdge_Label = 49
	// Ellipsis without a preceding predicate
	DependencyEdge_RDROP DependencyEdge_Label = 50
	// Referent
	DependencyEdge_REF DependencyEdge_Label = 51
	// Remnant
	DependencyEdge_REMNANT DependencyEdge_Label = 52
	// Reparandum
	DependencyEdge_REPARANDUM DependencyEdge_Label = 53
	// Root
	DependencyEdge_ROOT DependencyEdge_Label = 54
	// Suffix specifying a unit of number
	DependencyEdge_SNUM DependencyEdge_Label = 55
	// Suffix
	DependencyEdge_SUFF DependencyEdge_Label = 56
	// Temporal modifier
	DependencyEdge_TMOD DependencyEdge_Label = 57
	// Topic marker
	DependencyEdge_TOPIC DependencyEdge_Label = 58
	// Clause headed by an infinite form of the verb that modifies a noun
	DependencyEdge_VMOD DependencyEdge_Label = 59
	// Vocative
	DependencyEdge_VOCATIVE DependencyEdge_Label = 60
	// Open clausal complement
	DependencyEdge_XCOMP DependencyEdge_Label = 61
	// Name suffix
	DependencyEdge_SUFFIX DependencyEdge_Label = 62
	// Name title
	DependencyEdge_TITLE DependencyEdge_Label = 63
	// Adverbial phrase modifier
	DependencyEdge_ADVPHMOD DependencyEdge_Label = 64
	// Causative auxiliary
	DependencyEdge_AUXCAUS DependencyEdge_Label = 65
	// Helper auxiliary
	DependencyEdge_AUXVV DependencyEdge_Label = 66
	// Rentaishi (Prenominal modifier)
	DependencyEdge_DTMOD DependencyEdge_Label = 67
	// Foreign words
	DependencyEdge_FOREIGN DependencyEdge_Label = 68
	// Keyword
	DependencyEdge_KW DependencyEdge_Label = 69
	// List for chains of comparable items
	DependencyEdge_LIST DependencyEdge_Label = 70
	// Nominalized clause
	DependencyEdge_NOMC DependencyEdge_Label = 71
	// Nominalized clausal subject
	DependencyEdge_NOMCSUBJ DependencyEdge_Label = 72
	// Nominalized clausal passive
	DependencyEdge_NOMCSUBJPASS DependencyEdge_Label = 73
	// Compound of numeric modifier
	DependencyEdge_NUMC DependencyEdge_Label = 74
	// Copula
	DependencyEdge_COP DependencyEdge_Label = 75
	// Dislocated relation (for fronted/topicalized elements)
	DependencyEdge_DISLOCATED DependencyEdge_Label = 76
	// Aspect marker
	DependencyEdge_ASP DependencyEdge_Label = 77
	// Genitive modifier
	DependencyEdge_GMOD DependencyEdge_Label = 78
	// Genitive object
	DependencyEdge_GOBJ DependencyEdge_Label = 79
	// Infinitival modifier
	DependencyEdge_INFMOD DependencyEdge_Label = 80
	// Measure
	DependencyEdge_MES DependencyEdge_Label = 81
	// Nominal complement of a noun
	DependencyEdge_NCOMP DependencyEdge_Label = 82
)

func (DependencyEdge_Label) Descriptor() protoreflect.EnumDescriptor

func (x DependencyEdge_Label) Enum() *DependencyEdge_Label

func (DependencyEdge_Label) EnumDescriptor() ([]byte, []int)

func (x DependencyEdge_Label) Number() protoreflect.EnumNumber

func (x DependencyEdge_Label) String() string

func (DependencyEdge_Label) Type() protoreflect.EnumType

type Document struct {
	Type Document_Type `protobuf:"varint,1,opt,name=type,proto3,enum=google.cloud.language.v1beta2.Document_Type" json:"type,omitempty"`

	Source isDocument_Source `protobuf_oneof:"source"`

	Language string `protobuf:"bytes,4,opt,name=language,proto3" json:"language,omitempty"`

	ReferenceWebUri string `protobuf:"bytes,5,opt,name=reference_web_uri,json=referenceWebUri,proto3" json:"reference_web_uri,omitempty"`

	BoilerplateHandling Document_BoilerplateHandling "" /* 183 byte string literal not displayed */

}

func (*Document) Descriptor() ([]byte, []int)

func (x *Document) GetBoilerplateHandling() Document_BoilerplateHandling

func (x *Document) GetContent() string

func (x *Document) GetGcsContentUri() string

func (x *Document) GetLanguage() string

func (x *Document) GetReferenceWebUri() string

func (m *Document) GetSource() isDocument_Source

func (x *Document) GetType() Document_Type

func (*Document) ProtoMessage()

func (x *Document) ProtoReflect() protoreflect.Message

func (x *Document) Reset()

func (x *Document) String() string

type Document_BoilerplateHandling int32

const (
	// The boilerplate handling is not specified.
	Document_BOILERPLATE_HANDLING_UNSPECIFIED Document_BoilerplateHandling = 0
	// Do not analyze detected boilerplate. Reference web URI is required for
	// detecting boilerplate.
	Document_SKIP_BOILERPLATE Document_BoilerplateHandling = 1
	// Treat boilerplate the same as content.
	Document_KEEP_BOILERPLATE Document_BoilerplateHandling = 2
)

func (Document_BoilerplateHandling) Descriptor() protoreflect.EnumDescriptor

func (x Document_BoilerplateHandling) Enum() *Document_BoilerplateHandling

func (Document_BoilerplateHandling) EnumDescriptor() ([]byte, []int)

func (x Document_BoilerplateHandling) Number() protoreflect.EnumNumber

func (x Document_BoilerplateHandling) String() string

func (Document_BoilerplateHandling) Type() protoreflect.EnumType

type Document_Content struct {
	// The content of the input in string format.
	// Cloud audit logging exempt since it is based on user data.
	Content string `protobuf:"bytes,2,opt,name=content,proto3,oneof"`
}

type Document_GcsContentUri struct {
	// The Google Cloud Storage URI where the file content is located.
	// This URI must be of the form: gs://bucket_name/object_name. For more
	// details, see https://cloud.google.com/storage/docs/reference-uris.
	// NOTE: Cloud Storage object versioning is not supported.
	GcsContentUri string `protobuf:"bytes,3,opt,name=gcs_content_uri,json=gcsContentUri,proto3,oneof"`
}

type Document_Type int32

const (
	// The content type is not specified.
	Document_TYPE_UNSPECIFIED Document_Type = 0
	// Plain text
	Document_PLAIN_TEXT Document_Type = 1
	// HTML
	Document_HTML Document_Type = 2
)

func (Document_Type) Descriptor() protoreflect.EnumDescriptor

func (x Document_Type) Enum() *Document_Type

func (Document_Type) EnumDescriptor() ([]byte, []int)

func (x Document_Type) Number() protoreflect.EnumNumber

func (x Document_Type) String() string

func (Document_Type) Type() protoreflect.EnumType

type EncodingType int32

const (
	// If `EncodingType` is not specified, encoding-dependent information (such as
	// `begin_offset`) will be set at `-1`.
	EncodingType_NONE EncodingType = 0
	// Encoding-dependent information (such as `begin_offset`) is calculated based
	// on the UTF-8 encoding of the input. C++ and Go are examples of languages
	// that use this encoding natively.
	EncodingType_UTF8 EncodingType = 1
	// Encoding-dependent information (such as `begin_offset`) is calculated based
	// on the UTF-16 encoding of the input. Java and JavaScript are examples of
	// languages that use this encoding natively.
	EncodingType_UTF16 EncodingType = 2
	// Encoding-dependent information (such as `begin_offset`) is calculated based
	// on the UTF-32 encoding of the input. Python is an example of a language
	// that uses this encoding natively.
	EncodingType_UTF32 EncodingType = 3
)

func (EncodingType) Descriptor() protoreflect.EnumDescriptor

func (x EncodingType) Enum() *EncodingType

func (EncodingType) EnumDescriptor() ([]byte, []int)

func (x EncodingType) Number() protoreflect.EnumNumber

func (x EncodingType) String() string

func (EncodingType) Type() protoreflect.EnumType

type Entity struct {
	Name string `protobuf:"bytes,1,opt,name=name,proto3" json:"name,omitempty"`

	Type Entity_Type `protobuf:"varint,2,opt,name=type,proto3,enum=google.cloud.language.v1beta2.Entity_Type" json:"type,omitempty"`

	Metadata map[string]string "" /* 157 byte string literal not displayed */

	Salience float32 `protobuf:"fixed32,4,opt,name=salience,proto3" json:"salience,omitempty"`

	Mentions []*EntityMention `protobuf:"bytes,5,rep,name=mentions,proto3" json:"mentions,omitempty"`

	Sentiment *Sentiment `protobuf:"bytes,6,opt,name=sentiment,proto3" json:"sentiment,omitempty"`

}

func (*Entity) Descriptor() ([]byte, []int)

func (x *Entity) GetMentions() []*EntityMention

func (x *Entity) GetMetadata() map[string]string

func (x *Entity) GetName() string

func (x *Entity) GetSalience() float32

func (x *Entity) GetSentiment() *Sentiment

func (x *Entity) GetType() Entity_Type

func (*Entity) ProtoMessage()

func (x *Entity) ProtoReflect() protoreflect.Message

func (x *Entity) Reset()

func (x *Entity) String() string

type EntityMention struct {

	// The mention text.
	Text *TextSpan `protobuf:"bytes,1,opt,name=text,proto3" json:"text,omitempty"`
	// The type of the entity mention.
	Type EntityMention_Type `protobuf:"varint,2,opt,name=type,proto3,enum=google.cloud.language.v1beta2.EntityMention_Type" json:"type,omitempty"`
	// For calls to [AnalyzeEntitySentiment][] or if
	// [AnnotateTextRequest.Features.extract_entity_sentiment][google.cloud.language.v1beta2.AnnotateTextRequest.Features.extract_entity_sentiment] is set to
	// true, this field will contain the sentiment expressed for this mention of
	// the entity in the provided document.
	Sentiment *Sentiment `protobuf:"bytes,3,opt,name=sentiment,proto3" json:"sentiment,omitempty"`
	// contains filtered or unexported fields
}

func (*EntityMention) Descriptor() ([]byte, []int)

func (x *EntityMention) GetSentiment() *Sentiment

func (x *EntityMention) GetText() *TextSpan

func (x *EntityMention) GetType() EntityMention_Type

func (*EntityMention) ProtoMessage()

func (x *EntityMention) ProtoReflect() protoreflect.Message

func (x *EntityMention) Reset()

func (x *EntityMention) String() string

type EntityMention_Type int32

const (
	// Unknown
	EntityMention_TYPE_UNKNOWN EntityMention_Type = 0
	// Proper name
	EntityMention_PROPER EntityMention_Type = 1
	// Common noun (or noun compound)
	EntityMention_COMMON EntityMention_Type = 2
)

func (EntityMention_Type) Descriptor() protoreflect.EnumDescriptor

func (x EntityMention_Type) Enum() *EntityMention_Type

func (EntityMention_Type) EnumDescriptor() ([]byte, []int)

func (x EntityMention_Type) Number() protoreflect.EnumNumber

func (x EntityMention_Type) String() string

func (EntityMention_Type) Type() protoreflect.EnumType

type Entity_Type int32

const (
	// Unknown
	Entity_UNKNOWN Entity_Type = 0
	// Person
	Entity_PERSON Entity_Type = 1
	// Location
	Entity_LOCATION Entity_Type = 2
	// Organization
	Entity_ORGANIZATION Entity_Type = 3
	// Event
	Entity_EVENT Entity_Type = 4
	// Artwork
	Entity_WORK_OF_ART Entity_Type = 5
	// Consumer product
	Entity_CONSUMER_GOOD Entity_Type = 6
	// Other types of entities
	Entity_OTHER Entity_Type = 7
	// Phone number
	//
	// The metadata lists the phone number, formatted according to local
	// convention, plus whichever additional elements appear in the text:
	//
	// * `number` - the actual number, broken down into sections as per local
	// convention
	// * `national_prefix` - country code, if detected
	// * `area_code` - region or area code, if detected
	// * `extension` - phone extension (to be dialed after connection), if
	// detected
	Entity_PHONE_NUMBER Entity_Type = 9
	// Address
	//
	// The metadata identifies the street number and locality plus whichever
	// additional elements appear in the text:
	//
	// * `street_number` - street number
	// * `locality` - city or town
	// * `street_name` - street/route name, if detected
	// * `postal_code` - postal code, if detected
	// * `country` - country, if detected< *="" `broad_region`="" -="" administrative="" area,="" such="" as="" the="" state,="" if="" detected="" *="" `narrow_region`="" -="" smaller="" administrative="" area,="" such="" as="" county,="" if="" detected="" *="" `sublocality`="" -="" used="" in="" asian="" addresses="" to="" demark="" a="" district="" within="" a="" city,="" if="" detected="" entity_address="">Entity_Type = 10
	// Date
	//
	// The metadata identifies the components of the date:
	//
	// * `year` - four digit year, if detected
	// * `month` - two digit month number, if detected
	// * `day` - two digit day number, if detected
	Entity_DATE Entity_Type = 11
	// Number
	//
	// The metadata is the number itself.
	Entity_NUMBER Entity_Type = 12
	// Price
	//
	// The metadata identifies the `value` and `currency`.
	Entity_PRICE Entity_Type = 13
)

func (Entity_Type) Descriptor() protoreflect.EnumDescriptor

func (x Entity_Type) Enum() *Entity_Type

func (Entity_Type) EnumDescriptor() ([]byte, []int)

func (x Entity_Type) Number() protoreflect.EnumNumber

func (x Entity_Type) String() string

func (Entity_Type) Type() protoreflect.EnumType

type LanguageServiceClient interface {
	// Analyzes the sentiment of the provided text.
	AnalyzeSentiment(ctx context.Context, in *AnalyzeSentimentRequest, opts ...grpc.CallOption) (*AnalyzeSentimentResponse, error)
	// Finds named entities (currently proper names and common nouns) in the text
	// along with entity types, salience, mentions for each entity, and
	// other properties.
	AnalyzeEntities(ctx context.Context, in *AnalyzeEntitiesRequest, opts ...grpc.CallOption) (*AnalyzeEntitiesResponse, error)
	// Finds entities, similar to [AnalyzeEntities][google.cloud.language.v1beta2.LanguageService.AnalyzeEntities] in the text and analyzes
	// sentiment associated with each entity and its mentions.
	AnalyzeEntitySentiment(ctx context.Context, in *AnalyzeEntitySentimentRequest, opts ...grpc.CallOption) (*AnalyzeEntitySentimentResponse, error)
	// Analyzes the syntax of the text and provides sentence boundaries and
	// tokenization along with part of speech tags, dependency trees, and other
	// properties.
	AnalyzeSyntax(ctx context.Context, in *AnalyzeSyntaxRequest, opts ...grpc.CallOption) (*AnalyzeSyntaxResponse, error)
	// Classifies a document into categories.
	ClassifyText(ctx context.Context, in *ClassifyTextRequest, opts ...grpc.CallOption) (*ClassifyTextResponse, error)
	// A convenience method that provides all syntax, sentiment, entity, and
	// classification features in one call.
	AnnotateText(ctx context.Context, in *AnnotateTextRequest, opts ...grpc.CallOption) (*AnnotateTextResponse, error)
}

func NewLanguageServiceClient(cc grpc.ClientConnInterface) LanguageServiceClient

type LanguageServiceServer interface {
	// Analyzes the sentiment of the provided text.
	AnalyzeSentiment(context.Context, *AnalyzeSentimentRequest) (*AnalyzeSentimentResponse, error)
	// Finds named entities (currently proper names and common nouns) in the text
	// along with entity types, salience, mentions for each entity, and
	// other properties.
	AnalyzeEntities(context.Context, *AnalyzeEntitiesRequest) (*AnalyzeEntitiesResponse, error)
	// Finds entities, similar to [AnalyzeEntities][google.cloud.language.v1beta2.LanguageService.AnalyzeEntities] in the text and analyzes
	// sentiment associated with each entity and its mentions.
	AnalyzeEntitySentiment(context.Context, *AnalyzeEntitySentimentRequest) (*AnalyzeEntitySentimentResponse, error)
	// Analyzes the syntax of the text and provides sentence boundaries and
	// tokenization along with part of speech tags, dependency trees, and other
	// properties.
	AnalyzeSyntax(context.Context, *AnalyzeSyntaxRequest) (*AnalyzeSyntaxResponse, error)
	// Classifies a document into categories.
	ClassifyText(context.Context, *ClassifyTextRequest) (*ClassifyTextResponse, error)
	// A convenience method that provides all syntax, sentiment, entity, and
	// classification features in one call.
	AnnotateText(context.Context, *AnnotateTextRequest) (*AnnotateTextResponse, error)
}

type PartOfSpeech struct {
	Tag PartOfSpeech_Tag `protobuf:"varint,1,opt,name=tag,proto3,enum=google.cloud.language.v1beta2.PartOfSpeech_Tag" json:"tag,omitempty"`

	Aspect PartOfSpeech_Aspect `protobuf:"varint,2,opt,name=aspect,proto3,enum=google.cloud.language.v1beta2.PartOfSpeech_Aspect" json:"aspect,omitempty"`

	Case PartOfSpeech_Case `protobuf:"varint,3,opt,name=case,proto3,enum=google.cloud.language.v1beta2.PartOfSpeech_Case" json:"case,omitempty"`

	Form PartOfSpeech_Form `protobuf:"varint,4,opt,name=form,proto3,enum=google.cloud.language.v1beta2.PartOfSpeech_Form" json:"form,omitempty"`

	Gender PartOfSpeech_Gender `protobuf:"varint,5,opt,name=gender,proto3,enum=google.cloud.language.v1beta2.PartOfSpeech_Gender" json:"gender,omitempty"`

	Mood PartOfSpeech_Mood `protobuf:"varint,6,opt,name=mood,proto3,enum=google.cloud.language.v1beta2.PartOfSpeech_Mood" json:"mood,omitempty"`

	Number PartOfSpeech_Number `protobuf:"varint,7,opt,name=number,proto3,enum=google.cloud.language.v1beta2.PartOfSpeech_Number" json:"number,omitempty"`

	Person PartOfSpeech_Person `protobuf:"varint,8,opt,name=person,proto3,enum=google.cloud.language.v1beta2.PartOfSpeech_Person" json:"person,omitempty"`

	Proper PartOfSpeech_Proper `protobuf:"varint,9,opt,name=proper,proto3,enum=google.cloud.language.v1beta2.PartOfSpeech_Proper" json:"proper,omitempty"`

	Reciprocity PartOfSpeech_Reciprocity "" /* 137 byte string literal not displayed */

	Tense PartOfSpeech_Tense `protobuf:"varint,11,opt,name=tense,proto3,enum=google.cloud.language.v1beta2.PartOfSpeech_Tense" json:"tense,omitempty"`

	Voice PartOfSpeech_Voice `protobuf:"varint,12,opt,name=voice,proto3,enum=google.cloud.language.v1beta2.PartOfSpeech_Voice" json:"voice,omitempty"`

}

func (*PartOfSpeech) Descriptor() ([]byte, []int)

func (x *PartOfSpeech) GetAspect() PartOfSpeech_Aspect

func (x *PartOfSpeech) GetCase() PartOfSpeech_Case

func (x *PartOfSpeech) GetForm() PartOfSpeech_Form

func (x *PartOfSpeech) GetGender() PartOfSpeech_Gender

func (x *PartOfSpeech) GetMood() PartOfSpeech_Mood

func (x *PartOfSpeech) GetNumber() PartOfSpeech_Number

func (x *PartOfSpeech) GetPerson() PartOfSpeech_Person

func (x *PartOfSpeech) GetProper() PartOfSpeech_Proper

func (x *PartOfSpeech) GetReciprocity() PartOfSpeech_Reciprocity

func (x *PartOfSpeech) GetTag() PartOfSpeech_Tag

func (x *PartOfSpeech) GetTense() PartOfSpeech_Tense

func (x *PartOfSpeech) GetVoice() PartOfSpeech_Voice

func (*PartOfSpeech) ProtoMessage()

func (x *PartOfSpeech) ProtoReflect() protoreflect.Message

func (x *PartOfSpeech) Reset()

func (x *PartOfSpeech) String() string

type PartOfSpeech_Aspect int32

const (
	// Aspect is not applicable in the analyzed language or is not predicted.
	PartOfSpeech_ASPECT_UNKNOWN PartOfSpeech_Aspect = 0
	// Perfective
	PartOfSpeech_PERFECTIVE PartOfSpeech_Aspect = 1
	// Imperfective
	PartOfSpeech_IMPERFECTIVE PartOfSpeech_Aspect = 2
	// Progressive
	PartOfSpeech_PROGRESSIVE PartOfSpeech_Aspect = 3
)

func (PartOfSpeech_Aspect) Descriptor() protoreflect.EnumDescriptor

func (x PartOfSpeech_Aspect) Enum() *PartOfSpeech_Aspect

func (PartOfSpeech_Aspect) EnumDescriptor() ([]byte, []int)

func (x PartOfSpeech_Aspect) Number() protoreflect.EnumNumber

func (x PartOfSpeech_Aspect) String() string

func (PartOfSpeech_Aspect) Type() protoreflect.EnumType

type PartOfSpeech_Case int32

const (
	// Case is not applicable in the analyzed language or is not predicted.
	PartOfSpeech_CASE_UNKNOWN PartOfSpeech_Case = 0
	// Accusative
	PartOfSpeech_ACCUSATIVE PartOfSpeech_Case = 1
	// Adverbial
	PartOfSpeech_ADVERBIAL PartOfSpeech_Case = 2
	// Complementive
	PartOfSpeech_COMPLEMENTIVE PartOfSpeech_Case = 3
	// Dative
	PartOfSpeech_DATIVE PartOfSpeech_Case = 4
	// Genitive
	PartOfSpeech_GENITIVE PartOfSpeech_Case = 5
	// Instrumental
	PartOfSpeech_INSTRUMENTAL PartOfSpeech_Case = 6
	// Locative
	PartOfSpeech_LOCATIVE PartOfSpeech_Case = 7
	// Nominative
	PartOfSpeech_NOMINATIVE PartOfSpeech_Case = 8
	// Oblique
	PartOfSpeech_OBLIQUE PartOfSpeech_Case = 9
	// Partitive
	PartOfSpeech_PARTITIVE PartOfSpeech_Case = 10
	// Prepositional
	PartOfSpeech_PREPOSITIONAL PartOfSpeech_Case = 11
	// Reflexive
	PartOfSpeech_REFLEXIVE_CASE PartOfSpeech_Case = 12
	// Relative
	PartOfSpeech_RELATIVE_CASE PartOfSpeech_Case = 13
	// Vocative
	PartOfSpeech_VOCATIVE PartOfSpeech_Case = 14
)

func (PartOfSpeech_Case) Descriptor() protoreflect.EnumDescriptor

func (x PartOfSpeech_Case) Enum() *PartOfSpeech_Case

func (PartOfSpeech_Case) EnumDescriptor() ([]byte, []int)

func (x PartOfSpeech_Case) Number() protoreflect.EnumNumber

func (x PartOfSpeech_Case) String() string

func (PartOfSpeech_Case) Type() protoreflect.EnumType

type PartOfSpeech_Form int32

const (
	// Form is not applicable in the analyzed language or is not predicted.
	PartOfSpeech_FORM_UNKNOWN PartOfSpeech_Form = 0
	// Adnomial
	PartOfSpeech_ADNOMIAL PartOfSpeech_Form = 1
	// Auxiliary
	PartOfSpeech_AUXILIARY PartOfSpeech_Form = 2
	// Complementizer
	PartOfSpeech_COMPLEMENTIZER PartOfSpeech_Form = 3
	// Final ending
	PartOfSpeech_FINAL_ENDING PartOfSpeech_Form = 4
	// Gerund
	PartOfSpeech_GERUND PartOfSpeech_Form = 5
	// Realis
	PartOfSpeech_REALIS PartOfSpeech_Form = 6
	// Irrealis
	PartOfSpeech_IRREALIS PartOfSpeech_Form = 7
	// Short form
	PartOfSpeech_SHORT PartOfSpeech_Form = 8
	// Long form
	PartOfSpeech_LONG PartOfSpeech_Form = 9
	// Order form
	PartOfSpeech_ORDER PartOfSpeech_Form = 10
	// Specific form
	PartOfSpeech_SPECIFIC PartOfSpeech_Form = 11
)

func (PartOfSpeech_Form) Descriptor() protoreflect.EnumDescriptor

func (x PartOfSpeech_Form) Enum() *PartOfSpeech_Form

func (PartOfSpeech_Form) EnumDescriptor() ([]byte, []int)

func (x PartOfSpeech_Form) Number() protoreflect.EnumNumber

func (x PartOfSpeech_Form) String() string

func (PartOfSpeech_Form) Type() protoreflect.EnumType

type PartOfSpeech_Gender int32

const (
	// Gender is not applicable in the analyzed language or is not predicted.
	PartOfSpeech_GENDER_UNKNOWN PartOfSpeech_Gender = 0
	// Feminine
	PartOfSpeech_FEMININE PartOfSpeech_Gender = 1
	// Masculine
	PartOfSpeech_MASCULINE PartOfSpeech_Gender = 2
	// Neuter
	PartOfSpeech_NEUTER PartOfSpeech_Gender = 3
)

func (PartOfSpeech_Gender) Descriptor() protoreflect.EnumDescriptor

func (x PartOfSpeech_Gender) Enum() *PartOfSpeech_Gender

func (PartOfSpeech_Gender) EnumDescriptor() ([]byte, []int)

func (x PartOfSpeech_Gender) Number() protoreflect.EnumNumber

func (x PartOfSpeech_Gender) String() string

func (PartOfSpeech_Gender) Type() protoreflect.EnumType

type PartOfSpeech_Mood int32

const (
	// Mood is not applicable in the analyzed language or is not predicted.
	PartOfSpeech_MOOD_UNKNOWN PartOfSpeech_Mood = 0
	// Conditional
	PartOfSpeech_CONDITIONAL_MOOD PartOfSpeech_Mood = 1
	// Imperative
	PartOfSpeech_IMPERATIVE PartOfSpeech_Mood = 2
	// Indicative
	PartOfSpeech_INDICATIVE PartOfSpeech_Mood = 3
	// Interrogative
	PartOfSpeech_INTERROGATIVE PartOfSpeech_Mood = 4
	// Jussive
	PartOfSpeech_JUSSIVE PartOfSpeech_Mood = 5
	// Subjunctive
	PartOfSpeech_SUBJUNCTIVE PartOfSpeech_Mood = 6
)

func (PartOfSpeech_Mood) Descriptor() protoreflect.EnumDescriptor

func (x PartOfSpeech_Mood) Enum() *PartOfSpeech_Mood

func (PartOfSpeech_Mood) EnumDescriptor() ([]byte, []int)

func (x PartOfSpeech_Mood) Number() protoreflect.EnumNumber

func (x PartOfSpeech_Mood) String() string

func (PartOfSpeech_Mood) Type() protoreflect.EnumType

type PartOfSpeech_Number int32

const (
	// Number is not applicable in the analyzed language or is not predicted.
	PartOfSpeech_NUMBER_UNKNOWN PartOfSpeech_Number = 0
	// Singular
	PartOfSpeech_SINGULAR PartOfSpeech_Number = 1
	// Plural
	PartOfSpeech_PLURAL PartOfSpeech_Number = 2
	// Dual
	PartOfSpeech_DUAL PartOfSpeech_Number = 3
)

func (PartOfSpeech_Number) Descriptor() protoreflect.EnumDescriptor

func (x PartOfSpeech_Number) Enum() *PartOfSpeech_Number

func (PartOfSpeech_Number) EnumDescriptor() ([]byte, []int)

func (x PartOfSpeech_Number) Number() protoreflect.EnumNumber

func (x PartOfSpeech_Number) String() string

func (PartOfSpeech_Number) Type() protoreflect.EnumType

type PartOfSpeech_Person int32

const (
	// Person is not applicable in the analyzed language or is not predicted.
	PartOfSpeech_PERSON_UNKNOWN PartOfSpeech_Person = 0
	// First
	PartOfSpeech_FIRST PartOfSpeech_Person = 1
	// Second
	PartOfSpeech_SECOND PartOfSpeech_Person = 2
	// Third
	PartOfSpeech_THIRD PartOfSpeech_Person = 3
	// Reflexive
	PartOfSpeech_REFLEXIVE_PERSON PartOfSpeech_Person = 4
)

func (PartOfSpeech_Person) Descriptor() protoreflect.EnumDescriptor

func (x PartOfSpeech_Person) Enum() *PartOfSpeech_Person

func (PartOfSpeech_Person) EnumDescriptor() ([]byte, []int)

func (x PartOfSpeech_Person) Number() protoreflect.EnumNumber

func (x PartOfSpeech_Person) String() string

func (PartOfSpeech_Person) Type() protoreflect.EnumType

type PartOfSpeech_Proper int32

const (
	// Proper is not applicable in the analyzed language or is not predicted.
	PartOfSpeech_PROPER_UNKNOWN PartOfSpeech_Proper = 0
	// Proper
	PartOfSpeech_PROPER PartOfSpeech_Proper = 1
	// Not proper
	PartOfSpeech_NOT_PROPER PartOfSpeech_Proper = 2
)

func (PartOfSpeech_Proper) Descriptor() protoreflect.EnumDescriptor

func (x PartOfSpeech_Proper) Enum() *PartOfSpeech_Proper

func (PartOfSpeech_Proper) EnumDescriptor() ([]byte, []int)

func (x PartOfSpeech_Proper) Number() protoreflect.EnumNumber

func (x PartOfSpeech_Proper) String() string

func (PartOfSpeech_Proper) Type() protoreflect.EnumType

type PartOfSpeech_Reciprocity int32

const (
	// Reciprocity is not applicable in the analyzed language or is not
	// predicted.
	PartOfSpeech_RECIPROCITY_UNKNOWN PartOfSpeech_Reciprocity = 0
	// Reciprocal
	PartOfSpeech_RECIPROCAL PartOfSpeech_Reciprocity = 1
	// Non-reciprocal
	PartOfSpeech_NON_RECIPROCAL PartOfSpeech_Reciprocity = 2
)

func (PartOfSpeech_Reciprocity) Descriptor() protoreflect.EnumDescriptor

func (x PartOfSpeech_Reciprocity) Enum() *PartOfSpeech_Reciprocity

func (PartOfSpeech_Reciprocity) EnumDescriptor() ([]byte, []int)

func (x PartOfSpeech_Reciprocity) Number() protoreflect.EnumNumber

func (x PartOfSpeech_Reciprocity) String() string

func (PartOfSpeech_Reciprocity) Type() protoreflect.EnumType

type PartOfSpeech_Tag int32

const (
	// Unknown
	PartOfSpeech_UNKNOWN PartOfSpeech_Tag = 0
	// Adjective
	PartOfSpeech_ADJ PartOfSpeech_Tag = 1
	// Adposition (preposition and postposition)
	PartOfSpeech_ADP PartOfSpeech_Tag = 2
	// Adverb
	PartOfSpeech_ADV PartOfSpeech_Tag = 3
	// Conjunction
	PartOfSpeech_CONJ PartOfSpeech_Tag = 4
	// Determiner
	PartOfSpeech_DET PartOfSpeech_Tag = 5
	// Noun (common and proper)
	PartOfSpeech_NOUN PartOfSpeech_Tag = 6
	// Cardinal number
	PartOfSpeech_NUM PartOfSpeech_Tag = 7
	// Pronoun
	PartOfSpeech_PRON PartOfSpeech_Tag = 8
	// Particle or other function word
	PartOfSpeech_PRT PartOfSpeech_Tag = 9
	// Punctuation
	PartOfSpeech_PUNCT PartOfSpeech_Tag = 10
	// Verb (all tenses and modes)
	PartOfSpeech_VERB PartOfSpeech_Tag = 11
	// Other: foreign words, typos, abbreviations
	PartOfSpeech_X PartOfSpeech_Tag = 12
	// Affix
	PartOfSpeech_AFFIX PartOfSpeech_Tag = 13
)

func (PartOfSpeech_Tag) Descriptor() protoreflect.EnumDescriptor

func (x PartOfSpeech_Tag) Enum() *PartOfSpeech_Tag

func (PartOfSpeech_Tag) EnumDescriptor() ([]byte, []int)

func (x PartOfSpeech_Tag) Number() protoreflect.EnumNumber

func (x PartOfSpeech_Tag) String() string

func (PartOfSpeech_Tag) Type() protoreflect.EnumType

type PartOfSpeech_Tense int32

const (
	// Tense is not applicable in the analyzed language or is not predicted.
	PartOfSpeech_TENSE_UNKNOWN PartOfSpeech_Tense = 0
	// Conditional
	PartOfSpeech_CONDITIONAL_TENSE PartOfSpeech_Tense = 1
	// Future
	PartOfSpeech_FUTURE PartOfSpeech_Tense = 2
	// Past
	PartOfSpeech_PAST PartOfSpeech_Tense = 3
	// Present
	PartOfSpeech_PRESENT PartOfSpeech_Tense = 4
	// Imperfect
	PartOfSpeech_IMPERFECT PartOfSpeech_Tense = 5
	// Pluperfect
	PartOfSpeech_PLUPERFECT PartOfSpeech_Tense = 6
)

func (PartOfSpeech_Tense) Descriptor() protoreflect.EnumDescriptor

func (x PartOfSpeech_Tense) Enum() *PartOfSpeech_Tense

func (PartOfSpeech_Tense) EnumDescriptor() ([]byte, []int)

func (x PartOfSpeech_Tense) Number() protoreflect.EnumNumber

func (x PartOfSpeech_Tense) String() string

func (PartOfSpeech_Tense) Type() protoreflect.EnumType

type PartOfSpeech_Voice int32

const (
	// Voice is not applicable in the analyzed language or is not predicted.
	PartOfSpeech_VOICE_UNKNOWN PartOfSpeech_Voice = 0
	// Active
	PartOfSpeech_ACTIVE PartOfSpeech_Voice = 1
	// Causative
	PartOfSpeech_CAUSATIVE PartOfSpeech_Voice = 2
	// Passive
	PartOfSpeech_PASSIVE PartOfSpeech_Voice = 3
)

func (PartOfSpeech_Voice) Descriptor() protoreflect.EnumDescriptor

func (x PartOfSpeech_Voice) Enum() *PartOfSpeech_Voice

func (PartOfSpeech_Voice) EnumDescriptor() ([]byte, []int)

func (x PartOfSpeech_Voice) Number() protoreflect.EnumNumber

func (x PartOfSpeech_Voice) String() string

func (PartOfSpeech_Voice) Type() protoreflect.EnumType

type Sentence struct {

	// The sentence text.
	Text *TextSpan `protobuf:"bytes,1,opt,name=text,proto3" json:"text,omitempty"`
	// For calls to [AnalyzeSentiment][] or if
	// [AnnotateTextRequest.Features.extract_document_sentiment][google.cloud.language.v1beta2.AnnotateTextRequest.Features.extract_document_sentiment] is set to
	// true, this field will contain the sentiment for the sentence.
	Sentiment *Sentiment `protobuf:"bytes,2,opt,name=sentiment,proto3" json:"sentiment,omitempty"`
	// contains filtered or unexported fields
}

func (*Sentence) Descriptor() ([]byte, []int)

func (x *Sentence) GetSentiment() *Sentiment

func (x *Sentence) GetText() *TextSpan

func (*Sentence) ProtoMessage()

func (x *Sentence) ProtoReflect() protoreflect.Message

func (x *Sentence) Reset()

func (x *Sentence) String() string

type Sentiment struct {

	// A non-negative number in the [0, +inf) range, which represents
	// the absolute magnitude of sentiment regardless of score (positive or
	// negative).
	Magnitude float32 `protobuf:"fixed32,2,opt,name=magnitude,proto3" json:"magnitude,omitempty"`
	// Sentiment score between -1.0 (negative sentiment) and 1.0
	// (positive sentiment).
	Score float32 `protobuf:"fixed32,3,opt,name=score,proto3" json:"score,omitempty"`
	// contains filtered or unexported fields
}

func (*Sentiment) Descriptor() ([]byte, []int)

func (x *Sentiment) GetMagnitude() float32

func (x *Sentiment) GetScore() float32

func (*Sentiment) ProtoMessage()

func (x *Sentiment) ProtoReflect() protoreflect.Message

func (x *Sentiment) Reset()

func (x *Sentiment) String() string

type TextSpan struct {

	// The content of the output text.
	Content string `protobuf:"bytes,1,opt,name=content,proto3" json:"content,omitempty"`
	// The API calculates the beginning offset of the content in the original
	// document according to the [EncodingType][google.cloud.language.v1beta2.EncodingType] specified in the API request.
	BeginOffset int32 `protobuf:"varint,2,opt,name=begin_offset,json=beginOffset,proto3" json:"begin_offset,omitempty"`
	// contains filtered or unexported fields
}

func (*TextSpan) Descriptor() ([]byte, []int)

func (x *TextSpan) GetBeginOffset() int32

func (x *TextSpan) GetContent() string

func (*TextSpan) ProtoMessage()

func (x *TextSpan) ProtoReflect() protoreflect.Message

func (x *TextSpan) Reset()

func (x *TextSpan) String() string

type Token struct {

	// The token text.
	Text *TextSpan `protobuf:"bytes,1,opt,name=text,proto3" json:"text,omitempty"`
	// Parts of speech tag for this token.
	PartOfSpeech *PartOfSpeech `protobuf:"bytes,2,opt,name=part_of_speech,json=partOfSpeech,proto3" json:"part_of_speech,omitempty"`
	// Dependency tree parse for this token.
	DependencyEdge *DependencyEdge `protobuf:"bytes,3,opt,name=dependency_edge,json=dependencyEdge,proto3" json:"dependency_edge,omitempty"`
	// [Lemma](https://en.wikipedia.org/wiki/Lemma_%28morphology%29) of the token.
	Lemma string `protobuf:"bytes,4,opt,name=lemma,proto3" json:"lemma,omitempty"`
	// contains filtered or unexported fields
}

func (*Token) Descriptor() ([]byte, []int)

func (x *Token) GetDependencyEdge() *DependencyEdge

func (x *Token) GetLemma() string

func (x *Token) GetPartOfSpeech() *PartOfSpeech

func (x *Token) GetText() *TextSpan

func (*Token) ProtoMessage()

func (x *Token) ProtoReflect() protoreflect.Message

func (x *Token) Reset()

func (x *Token) String() string

type UnimplementedLanguageServiceServer struct {
}

func (*UnimplementedLanguageServiceServer) AnalyzeEntities(context.Context, *AnalyzeEntitiesRequest) (*AnalyzeEntitiesResponse, error)

func (*UnimplementedLanguageServiceServer) AnalyzeEntitySentiment(context.Context, *AnalyzeEntitySentimentRequest) (*AnalyzeEntitySentimentResponse, error)

func (*UnimplementedLanguageServiceServer) AnalyzeSentiment(context.Context, *AnalyzeSentimentRequest) (*AnalyzeSentimentResponse, error)

func (*UnimplementedLanguageServiceServer) AnalyzeSyntax(context.Context, *AnalyzeSyntaxRequest) (*AnalyzeSyntaxResponse, error)

func (*UnimplementedLanguageServiceServer) AnnotateText(context.Context, *AnnotateTextRequest) (*AnnotateTextResponse, error)

func (*UnimplementedLanguageServiceServer) ClassifyText(context.Context, *ClassifyTextRequest) (*ClassifyTextResponse, error)