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¶
assocentity
Package assocentity is a social science tool to analyze the relative distance from tokens to entities. The motiviation is to make conclusions based on the distance from interesting tokens to a certain entity and its synonyms.
Features
- Provide your own tokenizer
- Provides a default NLP tokenizer (by Google)
- Define aliases for entities
- Provides a multi-OS, language-agnostic CLI version
Installation
$ go get github.com/ndabAP/assocentity/v13
Prerequisites
If you want to analyze human readable texts you can use the provided Natural
Language tokenizer (powered by Google). To do so, sign-up for a Cloud Natural
Language API service account key and download the generated JSON file. This
equals the credentialsFile at the example below. You should never commit that
file.
A possible offline tokenizer would be a white space tokenizer. You also might use a parser depending on your purposes.
Example
We would like to find out which adjectives are how close in average to a certain public person. Let's take George W. Bush and 1,000 NBC news articles as an example. "George Bush" is the entity and synonyms are "George Walker Bush" and "Bush" and so on. The text is each of the 1,000 NBC news articles.
Defining a text source and to set the entity would be first step. Next, we need
to instantiate our tokenizer. In this case, we use the provided Google NLP
tokenizer. Finally, we can calculate our mean distances. We can use
assocentity.Distances, which accepts multiple texts. Notice
how we pass tokenize.ADJ to only include adjectives as part of speech.
Finally, we can take the mean by passing the result to assocentity.Mean.
// Define texts source and entity
texts := []string{
"Former Presidents Barack Obama, Bill Clinton and ...", // Truncated
"At the pentagon on the afternoon of 9/11, ...",
"Tony Blair moved swiftly to place his relationship with ...",
}
entities := []string{
"Goerge Walker Bush",
"Goerge Bush",
"Bush",
}
source := assocentity.NewSource(entities, texts)
// Instantiate the NLP tokenizer (powered by Google)
nlpTok := nlp.NewNLPTokenizer(credentialsFile, nlp.AutoLang)
// Get the distances to adjectives
ctx := context.TODO()
dists, err := assocentity.Distances(ctx, nlpTok, tokenize.ADJ, source)
if err != nil {
// Handle error
}
// Get the mean from the distances
mean := assocentity.Mean(dists)
Tokenization
If you provide your own tokenizer you must implement the interface with the
method Tokenize and the following signature:
type Tokenizer interface {
Tokenize(ctx context.Context, text string) ([]Token, error)
}
Token is of type:
type Token struct {
PoS PoS // Part of speech
Text string // Text
}
// Part of speech
type PoS int
For example, given the text:
text := "Punchinello was burning to get me"
The result from Tokenize would be:
[]Token{
{
Text: "Punchinello",
PoS: tokenize.NOUN,
},
{
Text: "was",
PoS: tokenize.VERB,
},
{
Text: "burning",
PoS: tokenize.VERB,
},
{
Text: "to",
PoS: tokenize.PRT,
},
{
Text: "get",
PoS: tokenize.VERB,
},
{
Text: "me",
PoS: tokenize.PRON,
},
}
CLI
There is also a language-agnostic terminal version available for either Windows, Mac (Darwin) or Linux (only with 64-bit support) if you don't have Go available. The application expects the text from "stdin" and accepts the following flags:
| Flag | Description | Type | Default |
|---|---|---|---|
entities |
Define entities to be searched within input, example: -entities="Max Payne,Payne" |
string |
|
gog-svc-loc |
Google Clouds NLP JSON service account file, example: -gog-svc-loc="/home/max/gog-svc-loc.json" |
string |
|
op |
Operation to excute: -op="mean" |
string |
mean |
pos |
Defines part of speeches to keep, example: -pos=noun,verb,pron |
string |
any |
Example:
echo "Relax, Max. You're a nice guy." | ./bin/assocentity_linux_amd64_v13.0.0-0-g948274a-dirty -gog-svc-loc=/home/max/.config/assocentity/google-service.json -entities="Max Payne,Payne,Max"
The output is written to "stdout" in appropoiate formats.
Projects using assocentity
- entityscrape - Distance between word types (default: adjectives) in news articles and persons
Author
Julian Claus and contributors.
License
MIT
Documentation
¶
Index ¶
- func Distances(ctx context.Context, tokenizer tokenize.Tokenizer, poS tokenize.PoS, ...) (map[tokenize.Token][]float64, error)
- func Mean(dists map[tokenize.Token][]float64) map[tokenize.Token]float64
- func NewSource(entities, texts []string) source
- func Normalize(dists map[tokenize.Token][]float64, norm Normalizer)
- func Threshold(dists map[tokenize.Token][]float64, threshold float64)
- type Normalizer
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
func Distances ¶
func Distances( ctx context.Context, tokenizer tokenize.Tokenizer, poS tokenize.PoS, source source, ) (map[tokenize.Token][]float64, error)
Distances returns the distances from entities to a list of texts
func NewSource ¶
func NewSource(entities, texts []string) source
NewSource returns a new source consisting of entities and texts
Types ¶
type Normalizer ¶ added in v13.0.1
Normalizer normalizes tokens like lower casing them
var HumandReadableNormalizer Normalizer = func(tok tokenize.Token) tokenize.Token { t := tokenize.Token{ PoS: tok.PoS, Text: strings.ToLower(tok.Text), } switch tok.Text { case "&": t.Text = "and" } return t }
HumandReadableNormalizer normalizes tokens through lower casing them and replacing them with their synonyms
Source Files
Directories