14159 - Code Search

tests/test_tutorial/test_request_files/test_tutorial003.py

                ("files", ("test.txt", file)),
                ("files", ("test2.txt", file2)),
            ),
        )
    assert response.status_code == 200, response.text
    assert response.json() == {"file_sizes": [14, 15]}


def test_post_upload_file(tmp_path, app: FastAPI):
    path = tmp_path / "test.txt"
    path.write_bytes(b"<file content>")
    path2 = tmp_path / "test2.txt"
    path2.write_bytes(b"<file content2>")

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github.com/tiangolo/fastapi

tests/test_tutorial/test_request_files/test_tutorial002.py

                ("files", ("test.txt", file)),
                ("files", ("test2.txt", file2)),
            ),
        )
    assert response.status_code == 200, response.text
    assert response.json() == {"file_sizes": [14, 15]}


def test_post_upload_file(tmp_path, app: FastAPI):
    path = tmp_path / "test.txt"
    path.write_bytes(b"<file content>")
    path2 = tmp_path / "test2.txt"
    path2.write_bytes(b"<file content2>")

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github.com/tiangolo/fastapi

docs/en/docs/advanced/events.md

### Lifespan function { #lifespan-function }

The first thing to notice, is that we are defining an async function with `yield`. This is very similar to Dependencies with `yield`.

{* ../../docs_src/events/tutorial003_py39.py hl[14:19] *}

The first part of the function, before the `yield`, will be executed **before** the application starts.

And the part after the `yield` will be executed **after** the application has finished.

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github.com/tiangolo/fastapi

docs/pt/docs/advanced/events.md

### Função lifespan { #lifespan-function }

A primeira coisa a notar é que estamos definindo uma função assíncrona com `yield`. Isso é muito semelhante a Dependências com `yield`.

{* ../../docs_src/events/tutorial003_py39.py hl[14:19] *}

A primeira parte da função, antes do `yield`, será executada **antes** de a aplicação iniciar.

E a parte posterior ao `yield` será executada **depois** de a aplicação ter terminado.

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github.com/tiangolo/fastapi

docs/ru/docs/advanced/events.md

### Функция lifespan { #lifespan-function }

Первое, на что стоит обратить внимание, — мы определяем асинхронную функцию с `yield`. Это очень похоже на Зависимости с `yield`.

{* ../../docs_src/events/tutorial003_py39.py hl[14:19] *}

Первая часть функции, до `yield`, будет выполнена до запуска приложения.

А часть после `yield` будет выполнена после завершения работы приложения.

### Асинхронный менеджер контекста { #async-context-manager }

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github.com/google/guava

android/guava-tests/test/com/google/common/math/MathTesting.java

        if (x != Math.round(x)) {
          fractionalBuilder.add(x);
        }
      }
    }
    INTEGRAL_DOUBLE_CANDIDATES = integralBuilder.build();
    fractionalBuilder.add(1.414).add(1.415).add(Math.sqrt(2));
    fractionalBuilder.add(5.656).add(5.657).add(4 * Math.sqrt(2));
    for (double d : INTEGRAL_DOUBLE_CANDIDATES) {
      double x = 1 / d;
      if (x != Math.rint(x)) {

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github.com/tiangolo/fastapi

docs/es/docs/advanced/events.md

Lo primero que hay que notar es que estamos definiendo una función asíncrona con `yield`. Esto es muy similar a las Dependencias con `yield`.

{* ../../docs_src/events/tutorial003_py39.py hl[14:19] *}

La primera parte de la función, antes del `yield`, será ejecutada **antes** de que la aplicación comience.

Y la parte después del `yield` será ejecutada **después** de que la aplicación haya terminado.

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github.com/tiangolo/fastapi

docs/de/docs/advanced/events.md

Das Erste, was auffällt, ist, dass wir eine asynchrone Funktion mit `yield` definieren. Das ist sehr ähnlich zu Abhängigkeiten mit `yield`.

{* ../../docs_src/events/tutorial003_py39.py hl[14:19] *}

Der erste Teil der Funktion, vor dem `yield`, wird ausgeführt **bevor** die Anwendung startet.

Und der Teil nach `yield` wird ausgeführt, **nachdem** die Anwendung beendet ist.

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github.com/codelibs/fess-suggest

src/test/java/org/codelibs/fess/suggest/analysis/SuggestAnalyzerTest.java

        assertEquals("fine", tokens.get(7).getTerm());
    }

    @Test
    public void testAnalyzeWithNumbers() {
        // Test analyze with numbers
        String text = "123 456.789 0xFF 3.14159";
        String field = "content";
        String lang = "en";

        List<AnalyzeToken> tokens = analyzer.analyze(text, field, lang);

        assertNotNull(tokens);

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github.com/codelibs/jcifs

src/main/java/jcifs/smb1/util/MD4.java

        C = HH(C, D, A, B, X[4], 11);
        B = HH(B, C, D, A, X[12], 15);
        A = HH(A, B, C, D, X[2], 3);
        D = HH(D, A, B, C, X[10], 9);
        C = HH(C, D, A, B, X[6], 11);
        B = HH(B, C, D, A, X[14], 15);
        A = HH(A, B, C, D, X[1], 3);
        D = HH(D, A, B, C, X[9], 9);
        C = HH(C, D, A, B, X[5], 11);
        B = HH(B, C, D, A, X[13], 15);
        A = HH(A, B, C, D, X[3], 3);

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