labels.permissions=Autorisations
labels.virtual_hosts=Hôtes virtuels
labels.virtual_host=Hôte virtuel
labels.label_type=Étiquette
labels.file_crawling_button_create=Créer
labels.file_crawling_button_create_job=Créer une nouvelle tâche
labels.web_crawling_configuration=Exploration Web
labels.web_crawling_title_details=Configuration de l'exploration Web
labels.included_urls=URL incluses
labels.excluded_urls=URL exclues

							createTableSQL += sql + ","
							values = append(values, vars...)
						}
					}
				}
			}

			for _, uni := range stmt.Schema.ParseUniqueConstraints() {
				createTableSQL += "CONSTRAINT ? UNIQUE (?),"
				values = append(values, clause.Column{Name: uni.Name}, clause.Expr{SQL: stmt.Quote(uni.Field.DBName)})
			}

			for _, chk := range stmt.Schema.ParseCheckConstraints() {

	return ns.formatName("idx", table, ns.toDBName(column))
}

// UniqueName generate unique constraint name
func (ns NamingStrategy) UniqueName(table, column string) string {
	return ns.formatName("uni", table, ns.toDBName(column))
}

func (ns NamingStrategy) formatName(prefix, table, name string) string {
	formattedName := strings.ReplaceAll(strings.Join([]string{
		prefix, table, name,
	}, "_"), ".", "_")

     * @return the Unicode MD4 hash response
     */
    static public byte[] getNTLMResponse(final String password, final byte[] challenge) {
        byte[] uni = null;
        final byte[] p21 = new byte[21];
        final byte[] p24 = new byte[24];

        try {
            uni = password.getBytes(SmbConstants.UNI_ENCODING);
        } catch (final UnsupportedEncodingException uee) {
            if (LogStream.level > 0) {

¼x-minio-internal-inline-dataÄ true§MetaUsr‚¬content-type¸application/octet-stream¤etagÙ 9fe7a344ef4227d3e537¡vÎeçnÐΔº „ ‚Ù$73c9f651-f023-4566-b012-cc537fdb7ce2Ä’Òù º¢ŸDë ÚNÔI ›¾‘튺]/›h"4 £ !Ìvf00::0 ip6-mcastprefix ff02::1 ip6-allnodes ff02::2 ip6-allrouters 127.0.0.1 site1-nginx 127.0.0.1 site2-nginx Ù$1f163718-9bc5-4b01-bff7-5d8cf09caf10Ä’Òù º¢ŸDë ÚNÔI ›¾‘튺]/›h"4 £ !Ìvf00::0 ip6-mcastprefix ff02::1 ip6-allnodes ff02::2 ip6-allrouters 127.0.0.1 site1-nginx 127.0.0.1 site2-nginx...

Llamar a este programa genera:

```
John Doe
```

La función hace lo siguiente:

* Toma un `first_name` y `last_name`.
* Convierte la primera letra de cada uno a mayúsculas con `title()`.
* <abbr title="Los une, como uno. Con el contenido de uno después del otro.">Concatena</abbr> ambos con un espacio en el medio.

{* ../../docs_src/python_types/tutorial001_py39.py hl[2] *}

### Edítalo { #edit-it }

Es un programa muy simple.

///

## O principal `FastAPI` { #the-main-fastapi }

Agora, vamos ver o módulo em `app/main.py`.

Aqui é onde você importa e usa a classe `FastAPI`.

Este será o arquivo principal em seu aplicativo que une tudo.

E como a maior parte de sua lógica agora viverá em seu próprio módulo específico, o arquivo principal será bem simples.

### Importe o `FastAPI` { #import-fastapi }

LT",nextDay:"[Demain \xe0] LT",nextWeek:"dddd [\xe0] LT",lastDay:"[Hier \xe0] LT",lastWeek:"dddd [dernier \xe0] LT",sameElse:"L"},relativeTime:{future:"dans %s",past:"il y a %s",s:"quelques secondes",ss:"%d secondes",m:"une minute",mm:"%d minutes",h:"une heure",hh:"%d heures",d:"un jour",dd:"%d jours",w:"une semaine",ww:"%d semaines",M:"un mois",MM:"%d mois",y:"un an",yy:"%d ans"},dayOfMonthOrdinalParse:/\d{1,2}(er|)/,ordinal:function(e,a){switch(a){case"D":return e+(1===e?"er":"");default:case"M":case"Q":case...

t0.Multiply(v2, v)) uv7 := new(Element).Multiply(uv3, t0.Square(v2)) rr := new(Element).Multiply(uv3, t0.Pow22523(uv7)) check := new(Element).Multiply(v, t0.Square(rr)) // check = v * r^2 uNeg := new(Element).Negate(u) correctSignSqrt := check.Equal(u) flippedSignSqrt := check.Equal(uNeg) flippedSignSqrtI := check.Equal(t0.Multiply(uNeg, sqrtM1)) rPrime := new(Element).Multiply(rr, sqrtM1) // r_prime = SQRT_M1 * r // r = CT_SELECT(r_prime IF flipped_sign_sqrt | flipped_sign_sqrt_i ELSE r) rr.Select(rPrime, rr,...

t0.Multiply(v2, v)) uv7 := new(Element).Multiply(uv3, t0.Square(v2)) rr := new(Element).Multiply(uv3, t0.Pow22523(uv7)) check := new(Element).Multiply(v, t0.Square(rr)) // check = v * r^2 uNeg := new(Element).Negate(u) correctSignSqrt := check.Equal(u) flippedSignSqrt := check.Equal(uNeg) flippedSignSqrtI := check.Equal(t0.Multiply(uNeg, sqrtM1)) rPrime := new(Element).Multiply(rr, sqrtM1) // r_prime = SQRT_M1 * r // r = CT_SELECT(r_prime IF flipped_sign_sqrt | flipped_sign_sqrt_i ELSE r) rr.Select(rPrime, rr,...