Expressões de consulta (F#)

Artigo
03/22/2013

Expressões de consulta permite consultar uma fonte de dados e para colocar os dados em um formulário desejado.Expressões de consulta oferecem suporte para LINQ em F#.

query { expression }

Comentários

Expressões de consulta são um tipo da expressão de computação semelhante para expressões de sequência.Assim como você especifica uma sequência fornecendo código em uma expressão de sequência, você especifica um dataset fornecendo código em uma expressão de consulta.Em uma expressão de sequência, a palavra-chave de yield identifica os dados a serem retornados como parte da sequência resultante.Em expressões de consulta, a palavra-chave de select executa a mesma função.Além da palavra-chave de select , F# também oferece suporte a um número de operadores de consulta que são bem como as partes de uma instrução SQL SELECT.Aqui está um exemplo simples de uma expressão de consulta, juntamente com o código que se conecta ao Northwind OData a fonte.

// Use the OData type provider to create types that can be used to access the Northwind database.
// Add References to FSharp.Data.TypeProviders and System.Data.Services.Client
open Microsoft.FSharp.Data.TypeProviders

type Northwind = ODataService<"http://services.odata.org/Northwind/Northwind.svc">
let db = Northwind.GetDataContext()

// A query expression.
let query1 = query { for customer in db.Customers do
                     select customer }

query1
|> Seq.iter (fun customer -> printfn "Company: %s Contact: %s" customer.CompanyName customer.ContactName)

No exemplo de código anterior, a expressão de consulta está em chaves encaracolado.O significado de código na expressão é, retorna cada cliente na tabela clientes no banco de dados nos resultados da consulta.Expressões de consulta retorna um tipo que implementa IQueryable<T> e IEnumerable<T>, e assim que podem ser iterados usando Módulo segs. como o exemplo mostra.

Cada tipo da expressão de computação é compilado de uma classe de construtor.A classe do construtor para a expressão de computação de consulta é QueryBuilder.Para obter mais informações, consulte Expressões de computação (F#) e Classe LINQ.QueryBuilder (F#).

Operadores de Consulta

Operadores de consulta permite que você especifique os detalhes de consulta, como para colocar nos critérios registros a serem retornados, ou para especificar a ordem de classificação de resultados.A fonte da consulta deve suportar o operador de consulta.Se você tentar usar um operador sem suporte de consulta, NotSupportedException será apresentada.

Apenas expressões que podem ser traduzidas para SQL são permitidas em expressões de consulta.Por exemplo, nenhuma chamada de função está autorizada em expressões quando você usa o operador de consulta de where .

Operadores disponíveis de consulta mostra a tabela 1.Além disso, consulte Table2, que compara consultas SQL e expressões de consulta equivalentes de F# posteriormente neste tópico.Alguns operadores de consulta não são suportados por alguns provedores de tipo.Em particular, o provedor do tipo de OData é limitado nos operadores de consulta que oferece suporte devido às restrições em OData.Para obter mais informações, consulte Provedor do tipo de ODataService (F#).

Esta tabela a seguir pressupõe um banco de dados no formulário a seguir:

Diagrama de banco de dados de exemplo

Diagrama de banco de dados de curso do aluno

O código nas tabelas que seguem também pressupõe o seguinte código de conexão de banco de dados.Os projetos deverá adicionar referências a assemblies, System.Data de System.Data.Linq, e de FSharp.Data.TypeProviders.O código que cria esse banco de dados está incluído no final deste tópico.

open System
open Microsoft.FSharp.Data.TypeProviders
open System.Data.Linq.SqlClient
open System.Linq
open Microsoft.FSharp.Linq



type schema = SqlDataConnection<"Data Source=SERVER\INSTANCE;Initial Catalog=MyDatabase;Integrated Security=SSPI;">

let db = schema.GetDataContext()

// Needed for some query operator examples:
let data = [ 1; 5; 7; 11; 18; 21]

Tabela 1.Operadores de Consulta

Operator	Descrição
contains	Determina se os elementos selecionados incluem um elemento especificado. `let isStudent11 = query { for student in db.Student do select student.Age.Value contains 11 }`
count	Retorna o número de elementos selecionados. `let countOfStudents = query { for student in db.Student do select student count }`
last	Seleciona o último elemento de aqueles selecionados até o momento. `let number = query { for number in data do last }`
lastOrDefault	Seleciona o último elemento de aqueles selecionados até agora, ou um valor padrão se nenhum elemento for encontrado. `let number = query { for number in data do where (number < 0) lastOrDefault }`
exactlyOne	Seleciona o único elemento específico, selecionado até o momento.Se vários elementos estiverem presentes, uma exceção é lançada. `let student = query { for student in db.Student do where (student.StudentID = 1) select student exactlyOne }`
exactlyOneOrDefault	Seleciona, o único elemento específico de aqueles selecionados até agora, ou um valor padrão se esse elemento não for encontrado. `let student = query { for student in db.Student do where (student.StudentID = 1) select student exactlyOneOrDefault }`
headOrDefault	Seleciona o primeiro elemento de aqueles selecionados até agora, ou um valor padrão se a sequência não contém elementos. `let student = query { for student in db.Student do select student headOrDefault }`
select	Projetos cada um dos elementos selecionados até o momento. `query { for student in db.Student do select student }`
where	Selecionar elementos com base em um predicado especificado. `query { for student in db.Student do where (student.StudentID > 4) select student }`
minBy	Seleciona um valor para cada elemento selecionado até agora e retorna o valor resultante mínimo. `let student = query { for student in db.Student do minBy student.StudentID }`
maxBy	Seleciona um valor para cada elemento selecionado até agora e retorna o valor resultante máximo. `let student = query { for student in db.Student do maxBy student.StudentID }`
groupBy	Agrupa elementos selecionados até o momento de acordo com um seletor de chave especificado. `query { for student in db.Student do groupBy student.Age into g select (g.Key, g.Count()) }`
sortBy	Classifica os elementos até agora selecionados na ordem crescente por chave determinada de classificação. `query { for student in db.Student do sortBy student.Name select student }`
sortByDescending	Classifica os elementos até agora selecionados em ordem decrescente determinada pela chave de classificação. `query { for student in db.Student do sortByDescending student.Name select student }`
thenBy	Executa subsequente ordem dos elementos até agora selecionados na ordem crescente por chave determinada de classificação.O operador pode ser usado somente após sortBy, sortByDescending, thenBy, ou thenByDescending. `query { for student in db.Student do where student.Age.HasValue sortBy student.Age.Value thenBy student.Name select student }`
thenByDescending	Executa subsequente ordem dos elementos até agora selecionados em ordem decrescente determinada pela chave de classificação.O operador pode ser usado somente após sortBy, sortByDescending, thenBy, ou thenByDescending. `query { for student in db.Student do where student.Age.HasValue sortBy student.Age.Value thenByDescending student.Name select student }`
groupValBy	Seleciona um valor para cada elemento selecionado até agora e agrupa elementos pela chave determinada. `query { for student in db.Student do groupValBy student.Name student.Age into g select (g, g.Key, g.Count()) }`
join	Se correlaciona dois conjuntos de valores selecionados baseados em chaves correspondentes.Observe que a ordem das chaves ao redor de = conecta uma expressão de associação é significativo.Em qualquer adição, se a linha é dividida após o símbolo de -> , o recuo deve ser pelo menos recuado palavra-chave until for. `query { for student in db.Student do join selection in db.CourseSelection on (student.StudentID = selection.StudentID) select (student, selection) }`
groupJoin	Se correlaciona dois conjuntos de valores selecionados baseados em chaves e em grupos os resultados.Observe que a ordem das chaves ao redor de = conecta uma expressão de associação é significativo. `query { for student in db.Student do groupJoin courseSelection in db.CourseSelection on (student.StudentID = courseSelection.StudentID) into g for courseSelection in g do join course in db.Course on (courseSelection.CourseID = course.CourseID) select (student.Name, course.CourseName) }`
leftOuterJoin	Se correlaciona dois conjuntos de valores selecionados baseados em chaves e em grupos os resultados.Se nenhum grupo está vazia, um grupo com um único valor padrão é usado em vez disso.Observe que a ordem das chaves ao redor de = conecta uma expressão de associação é significativo. `query { for student in db.Student do leftOuterJoin selection in db.CourseSelection on (student.StudentID = selection.StudentID) into result for selection in result.DefaultIfEmpty() do select (student, selection) }`
sumByNullable	Seleciona um valor anulável para cada elemento selecionado até agora e retorna a soma desses valores.Se anulável não tem um valor, ele será ignorado. `query { for student in db.Student do sumByNullable student.Age }`
minByNullable	Seleciona um valor anulável para cada elemento selecionado até agora e retorna o mínimo desses valores.Se anulável não tem um valor, ele será ignorado. `query { for student in db.Student do minByNullable student.Age }`
maxByNullable	Seleciona um valor anulável para cada elemento selecionado até agora e retorna o máximo desses valores.Se anulável não tem um valor, ele será ignorado. `query { for student in db.Student do maxByNullable student.Age }`
averageByNullable	Seleciona um valor anulável para cada elemento selecionado até agora e retorna a média desses valores.Se anulável não tem um valor, ele será ignorado. `query { for student in db.Student do averageByNullable (Nullable.float student.Age) }`
averageBy	Seleciona um valor para cada elemento selecionado até agora e retorna a média desses valores. `query { for student in db.Student do averageBy (float student.StudentID) }`
distinct	Selecionar os elementos distintos de elementos selecionados até o momento. `query { for student in db.Student do join selection in db.CourseSelection on (student.StudentID = selection.StudentID) distinct }`
exists	Determina se qualquer elemento selecionado até agora satisfazem uma condição. `query { for student in db.Student do where (query { for courseSelection in db.CourseSelection do exists (courseSelection.StudentID = student.StudentID) }) select student }`
find	Seleciona o primeiro elemento selecionado até agora que satisfazem uma condição especificada. `query { for student in db.Student do find (student.Name = "Abercrombie, Kim") }`
all	Determina se todos os elementos selecionados até agora satisfazem uma condição. `query { for student in db.Student do all (SqlMethods.Like(student.Name, "%,%")) }`
head	Seleciona o primeiro elemento de aqueles selecionados até o momento. `query { for student in db.Student do head }`
nth	Selecione o elemento em um índice especificado entre aqueles selecionados até o momento. `query { for numbers in data do nth 3 }`
skip	Desvia-se de um número especificado de elementos até agora selecionados e selecione os elementos restantes. `query { for student in db.Student do skip 1 }`
skipWhile	Ignora elementos em uma sequência como uma condição especificada for verdadeira e selecione os elementos restantes. `query { for number in data do skipWhile (number < 3) select student }`
sumBy	Seleciona um valor para cada elemento selecionado até agora e retorna a soma desses valores. `query { for student in db.Student do sumBy student.StudentID }`
take	Seleciona um número especificado de elementos contíguos de aqueles selecionados até o momento. `query { for student in db.Student do select student take 2 }`
takeWhile	Selecionar os elementos de uma sequência como uma condição especificada for verdadeira, e ignora os elementos restantes. `query { for number in data do takeWhile (number < 10) }`
sortByNullable	Classifica os elementos até agora selecionados na ordem crescente por chave anulável determinada de classificação. `query { for student in db.Student do sortByNullable student.Age select student }`
sortByNullableDescending	Classifica os elementos até agora selecionados em ordem decrescente por chave anulável determinada de classificação. `query { for student in db.Student do sortByNullableDescending student.Age select student }`
thenByNullable	Executa subsequente ordem dos elementos até agora selecionados na ordem crescente por chave anulável determinada de classificação.O operador pode ser usado somente imediatamente depois de sortBy, sortByDescending, thenBy, ou thenByDescending, ou suas variantes anulável. `query { for student in db.Student do sortBy student.Name thenByNullable student.Age select student }`
thenByNullableDescending	Executa subsequente ordem dos elementos até agora selecionados em ordem decrescente por chave anulável determinada de classificação.O operador pode ser usado somente imediatamente depois de sortBy, sortByDescending, thenBy, ou thenByDescending, ou suas variantes anulável. `query { for student in db.Student do sortBy student.Name thenByNullableDescending student.Age select student }`

Comparação de expressões de consulta de transact-sql e de F#

A tabela a seguir mostra algumas de consultas transact-sql comuns e seus equivalentes em F#.O código nesta tabela também pressupõe o mesmo banco de dados da tabela anterior e o mesmo código inicial para configurar o provedor do tipo.

Tabela 2.Expressões de consulta de transact-sql e de F#

Transact-sql (não diferencia maiúsculas de minúsculas)	Expressão de consulta de F# (diferencia maiúsculas de minúsculas)
Selecione todos os campos de tabela. `SELECT * FROM Student`	`// All students. query { for student in db.Student do select student }`
Conta todas registros na tabela. `SELECT COUNT(*) FROM Student`	`// Count of students. query { for student in db.Student do count }`
EXISTS `SELECT * FROM Student WHERE EXISTS (SELECT * FROM CourseSelection WHERE CourseSelection.StudentID = Student.StudentID)`	`// Find students who have signed up at least one course. query { for student in db.Student do where (query { for courseSelection in db.CourseSelection do exists (courseSelection.StudentID = student.StudentID) }) select student }`
Agrupamento `SELECT Student.Age, COUNT(*) FROM Student GROUP BY Student.Age`	`// Group by age and count. query { for n in db.Student do groupBy n.Age into g select (g.Key, g.Count()) } // OR query { for n in db.Student do groupValBy n.Age n.Age into g select (g.Key, g.Count()) }`
Agrupamento com condição. `SELECT Student.Age, COUNT(*) FROM Student GROUP BY Student.Age HAVING student.Age > 10`	`// Group students by age where age > 10. query { for student in db.Student do groupBy student.Age into g where (g.Key.HasValue && g.Key.Value > 10) select (g.Key, g.Count()) }`
Agrupamento com condição de contagem. `SELECT Student.Age, COUNT() FROM Student GROUP BY Student.Age HAVING COUNT() > 1`	`// Group students by age and count number of students // at each age with more than 1 student. query { for student in db.Student do groupBy student.Age into group where (group.Count() > 1) select (group.Key, group.Count()) }`
Agrupamento, e contar, soma. `SELECT Student.Age, COUNT(*), SUM(Student.Age) as total FROM Student GROUP BY Student.Age`	`// Group students by age and sum ages. query { for student in db.Student do groupBy student.Age into g let total = query { for student in g do sumByNullable student.Age } select (g.Key, g.Count(), total) }`
Agrupamento, contagem e ordenação, pela contagem. `SELECT Student.Age, COUNT() as myCount FROM Student GROUP BY Student.Age HAVING COUNT() > 1 ORDER BY COUNT(*) DESC`	`// Group students by age, count number of students // at each age, and display all with count > 1 // in descending order of count. query { for student in db.Student do groupBy student.Age into g where (g.Count() > 1) sortByDescending (g.Count()) select (g.Key, g.Count()) }`
IN um conjunto de valores especificados `SELECT * FROM Student WHERE Student.StudentID IN (1, 2, 5, 10)`	`// Select students where studentID is one of a given list. let idQuery = query { for id in [1; 2; 5; 10] do select id } query { for student in db.Student do where (idQuery.Contains(student.StudentID)) select student }`
LIKE e TOP. `-- '_e%' matches strings where the second character is 'e' SELECT TOP 2 * FROM Student WHERE Student.Name LIKE '_e%'`	`// Look for students with Name match _e% pattern and take first two. query { for student in db.Student do where (SqlMethods.Like( student.Name, "_e%") ) select student take 2 }`
LIKE com conjunto de correspondência de padrão. `-- '[abc]%' matches strings where the first character is -- 'a', 'b', 'c', 'A', 'B', or 'C' SELECT * FROM Student WHERE Student.Name LIKE '[abc]%'`	`open System.Data.Linq.SqlClient; printfn "\nLook for students with Name matching [abc]%% pattern." query { for student in db.Student do where (SqlMethods.Like( student.Name, "[abc]%") ) select student }`
LIKE com padrão set de exclusão. `-- '[^abc]%' matches strings where the first character is -- not 'a', 'b', 'c', 'A', 'B', or 'C' SELECT * FROM Student WHERE Student.Name LIKE '[^abc]%'`	`// Look for students with name matching [^abc]%% pattern. query { for student in db.Student do where (SqlMethods.Like( student.Name, "[^abc]%") ) select student }`
LIKE em um campo, mas seleciona um campo diferente. `SELECT StudentID AS ID FROM Student WHERE Student.Name LIKE '[^abc]%'`	`open System.Data.Linq.SqlClient; printfn "\nLook for students with name matching [^abc]%% pattern and select ID." query { for n in db.Student do where (SqlMethods.Like( n.Name, "[^abc]%") ) select n.StudentID } \|> Seq.iter (fun id -> printfn "%d" id)`
LIKE, a pesquisa da subcadeia de caracteres. `SELECT * FROM Student WHERE Student.Name like '%A%'`	`// Using Contains as a query filter. query { for student in db.Student do where (student.Name.Contains("a")) select student }`
JOIN simples com duas tabelas. `SELECT * FROM Student JOIN CourseSelection ON Student.StudentID = CourseSelection.StudentID`	`// Join Student and CourseSelection tables. query { for student in db.Student do join selection in db.CourseSelection on (student.StudentID = selection.StudentID) select (student, selection) }`
LEFT JOIN com duas tabelas. `SELECT * FROM Student LEFT JOIN CourseSelection ON Student.StudentID = CourseSelection.StudentID`	`//Left Join Student and CourseSelection tables. query { for student in db.Student do leftOuterJoin selection in db.CourseSelection on (student.StudentID = selection.StudentID) into result for selection in result.DefaultIfEmpty() do select (student, selection) }`
JOIN com COUNT `SELECT COUNT(*) FROM Student JOIN CourseSelection ON Student.StudentID = CourseSelection.StudentID`	`// Join with count. query { for n in db.Student do join e in db.CourseSelection on (n.StudentID = e.StudentID) count }`
DISTINCT `SELECT DISTINCT StudentID FROM CourseSelection`	`// Join with distinct. query { for student in db.Student do join selection in db.CourseSelection on (student.StudentID = selection.StudentID) distinct }`
Contagem distinta. `SELECT DISTINCT COUNT(StudentID) FROM CourseSelection`	`// Join with distinct and count. query { for n in db.Student do join e in db.CourseSelection on n.StudentID = e.StudentID) distinct count }`
BETWEEN `SELECT * FROM Student WHERE Student.Age BETWEEN 10 AND 15`	`// Selecting students with ages between 10 and 15. query { for student in db.Student do where (student.Age ?>= 10 && student.Age ?< 15) select student }`
OR `SELECT * FROM Student WHERE Student.Age =11 OR Student.Age = 12`	`// Selecting students with age that's either 11 or 12. query { for student in db.Student do where (student.Age.Value = 11 \|\| student.Age.Value = 12) select student }`
OR com pedido `SELECT * FROM Student WHERE Student.Age =12 OR Student.Age = 13 ORDER BY Student.Age DESC`	`// Selecting students in a certain age range and sorting. query { for n in db.Student do where (n.Age.Value = 12 \|\| n.Age.Value = 13) sortByNullableDescending n.Age select n }`
TOP, OR, e ordenação. `SELECT TOP 2 student.Name FROM Student WHERE Student.Age = 11 OR Student.Age = 12 ORDER BY Student.Name DESC`	`// Selecting students with certain ages, // taking account of the possibility of nulls. query { for student in db.Student do where ((student.Age.HasValue && student.Age.Value = 11) \|\| (student.Age.HasValue && student.Age.Value = 12)) sortByDescending student.Name select student.Name take 2 }`
UNION das duas consultas. `SELECT * FROM Student UNION SELECT * FROM lastStudent`	`// Union of two queries. module Queries = let query1 = query { for n in db.Student do select (n.Name, n.Age) } let query2 = query { for n in db.LastStudent do select (n.Name, n.Age) } query2.Union (query1)`
Interseção das duas consultas. `SELECT * FROM Student INTERSECT SELECT * FROM LastStudent`	`// Intersect of two queries. module Queries2 = let query1 = query { for n in db.Student do select (n.Name, n.Age) } let query2 = query { for n in db.LastStudent do select (n.Name, n.Age) } query1.Intersect(query2)`
condição deCASE . `SELECT student.StudentID, CASE Student.Age WHEN -1 THEN 100 ELSE Student.Age END, Student.Age from Student`	`// Using if statement to alter results for special value. query { for student in db.Student do select (if student.Age.HasValue && student.Age.Value = -1 then (student.StudentID, System.Nullable<int>(100), student.Age) else (student.StudentID, student.Age, student.Age)) }`
Vários casos. `SELECT Student.StudentID, CASE Student.Age WHEN -1 THEN 100 WHEN 0 THEN 1000 ELSE Student.Age END, Student.Age FROM Student`	// Using if statement to alter results for special values. query { for student in db.Student do select (if student.Age.HasValue && student.Age.Value = -1 then (student.StudentID, System.Nullable<int>(100), student.Age) elif student.Age.HasValue && student.Age.Value = 0 then (student.StudentID, System.Nullable<int>(1000), student.Age) else (student.StudentID, student.Age, student.Age)) }
Várias tabelas. `SELECT * FROM Student, Course`	`// Multiple table select. query { for student in db.Student do for course in db.Course do select (student, course) }`
Várias condições. `SELECT Student.Name, Course.CourseName FROM Student JOIN CourseSelection ON CourseSelection.StudentID = Student.StudentID JOIN Course ON Course.CourseID = CourseSelection.CourseID`	`// Multiple joins. query { for student in db.Student do join courseSelection in db.CourseSelection on (student.StudentID = courseSelection.StudentID) join course in db.Course on (courseSelection.CourseID = course.CourseID) select (student.Name, course.CourseName) }`
Vários left outer join. `SELECT Student.Name, Course.CourseName FROM Student LEFT OUTER JOIN CourseSelection ON CourseSelection.StudentID = Student.StudentID LEFT OUTER JOIN Course ON Course.CourseID = CourseSelection.CourseID`	`// Using leftOuterJoin with multiple joins. query { for student in db.Student do leftOuterJoin courseSelection in db.CourseSelection on (student.StudentID = courseSelection.StudentID) into g1 for courseSelection in g1.DefaultIfEmpty() do leftOuterJoin course in db.Course on (courseSelection.CourseID = course.CourseID) into g2 for course in g2.DefaultIfEmpty() do select (student.Name, course.CourseName) }`

O código a seguir pode ser usado para criar o banco de dados de exemplo para esses exemplos.

SET ANSI_NULLS ON
GO
SET QUOTED_IDENTIFIER ON
GO

USE [master];
GO

IF EXISTS (SELECT * FROM sys.databases WHERE name = 'MyDatabase')
                DROP DATABASE MyDatabase;
GO

-- Create the MyDatabase database.
CREATE DATABASE MyDatabase COLLATE SQL_Latin1_General_CP1_CI_AS;
GO

-- Specify a simple recovery model 
-- to keep the log growth to a minimum.
ALTER DATABASE MyDatabase
                SET RECOVERY SIMPLE;
GO

USE MyDatabase;
GO

CREATE TABLE [dbo].[Course] (
    [CourseID]   INT           NOT NULL,
    [CourseName] NVARCHAR (50) NOT NULL,
    PRIMARY KEY CLUSTERED ([CourseID] ASC)
);

CREATE TABLE [dbo].[Student] (
    [StudentID] INT           NOT NULL,
    [Name]      NVARCHAR (50) NOT NULL,
    [Age]       INT           NULL,
    PRIMARY KEY CLUSTERED ([StudentID] ASC)
);

CREATE TABLE [dbo].[CourseSelection] (
    [ID]        INT NOT NULL,
    [StudentID] INT NOT NULL,
    [CourseID]  INT NOT NULL,
    PRIMARY KEY CLUSTERED ([ID] ASC),
    CONSTRAINT [FK_CourseSelection_ToTable] FOREIGN KEY ([StudentID]) REFERENCES [dbo].[Student] ([StudentID]) ON DELETE NO ACTION ON UPDATE NO ACTION,
    CONSTRAINT [FK_CourseSelection_Course_1] FOREIGN KEY ([CourseID]) REFERENCES [dbo].[Course] ([CourseID]) ON DELETE NO ACTION ON UPDATE NO ACTION
);

CREATE TABLE [dbo].[LastStudent] (
    [StudentID] INT           NOT NULL,
    [Name]      NVARCHAR (50) NOT NULL,
    [Age]       INT           NULL,
    PRIMARY KEY CLUSTERED ([StudentID] ASC)
);

-- Insert data into the tables.
USE MyDatabase
INSERT INTO Course (CourseID, CourseName)
VALUES(1, 'Algebra I');
INSERT INTO Course (CourseID, CourseName)
VALUES(2, 'Trigonometry');
INSERT INTO Course (CourseID, CourseName)
VALUES(3, 'Algebra II');
INSERT INTO Course (CourseID, CourseName)
VALUES(4, 'History');
INSERT INTO Course (CourseID, CourseName)
VALUES(5, 'English');
INSERT INTO Course (CourseID, CourseName)
VALUES(6, 'French');
INSERT INTO Course (CourseID, CourseName)
VALUES(7, 'Chinese');

INSERT INTO Student (StudentID, Name, Age)
VALUES(1, 'Abercrombie, Kim', 10);
INSERT INTO Student (StudentID, Name, Age)
VALUES(2, 'Abolrous, Hazen', 14);
INSERT INTO Student (StudentID, Name, Age)
VALUES(3, 'Hance, Jim', 12);
INSERT INTO Student (StudentID, Name, Age)
VALUES(4, 'Adams, Terry', 12);
INSERT INTO Student (StudentID, Name, Age)
VALUES(5, 'Hansen, Claus', 11);
INSERT INTO Student (StudentID, Name, Age)
VALUES(6, 'Penor, Lori', 13);
INSERT INTO Student (StudentID, Name, Age)
VALUES(7, 'Perham, Tom', 12);
INSERT INTO Student (StudentID, Name, Age)
VALUES(8, 'Peng, Yun-Feng', NULL);

INSERT INTO CourseSelection (ID, StudentID, CourseID)
VALUES(1, 1, 2);
INSERT INTO CourseSelection (ID, StudentID, CourseID)
VALUES(2, 1, 3);
INSERT INTO CourseSelection (ID, StudentID, CourseID)
VALUES(3, 1, 5);
INSERT INTO CourseSelection (ID, StudentID, CourseID)
VALUES(4, 2, 2);
INSERT INTO CourseSelection (ID, StudentID, CourseID)
VALUES(5, 2, 5);
INSERT INTO CourseSelection (ID, StudentID, CourseID)
VALUES(6, 2, 6);
INSERT INTO CourseSelection (ID, StudentID, CourseID)
VALUES(7, 2, 3);
INSERT INTO CourseSelection (ID, StudentID, CourseID)
VALUES(8, 3, 2);
INSERT INTO CourseSelection (ID, StudentID, CourseID)
VALUES(9, 3, 1);
INSERT INTO CourseSelection (ID, StudentID, CourseID)
VALUES(10, 4, 2);
INSERT INTO CourseSelection (ID, StudentID, CourseID)
VALUES(11, 4, 5);
INSERT INTO CourseSelection (ID, StudentID, CourseID)
VALUES(12, 4, 2);
INSERT INTO CourseSelection (ID, StudentID, CourseID)
VALUES(13, 5, 3);
INSERT INTO CourseSelection (ID, StudentID, CourseID)
VALUES(14, 5, 2);
INSERT INTO CourseSelection (ID, StudentID, CourseID)
VALUES(15, 7, 3);

O código a seguir contém código de exemplo que aparece neste tópico.

#if INTERACTIVE
#r "FSharp.Data.TypeProviders.dll"
#r "System.Data.dll"
#r "System.Data.Linq.dll"
#endif
open System
open Microsoft.FSharp.Data.TypeProviders
open System.Data.Linq.SqlClient
open System.Linq

[<Generate>]
type schema = SqlDataConnection<"Data Source=SERVER\INSTANCE;Initial Catalog=MyDatabase;Integrated Security=SSPI;">

let db = schema.GetDataContext()

let student = db.Student

let data = [1; 5; 7; 11; 18; 21]

open System
type Nullable<'T when 'T : ( new : unit -> 'T) and 'T : struct and 'T :> ValueType > with
    member this.Print() =
        if (this.HasValue) then this.Value.ToString()
        else "NULL"

printfn "\ncontains query operator"
query {
    for student in db.Student do
    select student.Age.Value
    contains 11
    }
|> printfn "Is at least one student age 11? %b" 

printfn "\ncount query operator"
query {
    for student in db.Student do
    select student
    count
    }
|> printfn "Number of students: %d" 


printfn "\nlast query operator." 
let num =
    query {
        for number in data do
        sortBy number
        last
        }
printfn "Last number: %d" num


open Microsoft.FSharp.Linq

printfn "\nlastOrDefault query operator." 
query {
        for number in data do
        sortBy number
        lastOrDefault
        }
|> printfn "lastOrDefault: %d"

printfn "\nexactlyOne query operator."
let student2 =
    query {
        for student in db.Student do
        where (student.StudentID = 1)
        select student
        exactlyOne
        }
printfn "Student with StudentID = 1 is %s" student2.Name

printfn "\nexactlyOneOrDefault query operator."
let student3 =
    query {
        for student in db.Student do
        where (student.StudentID = 1)
        select student
        exactlyOneOrDefault
        }
printfn "Student with StudentID = 1 is %s" student3.Name

printfn "\nheadOrDefault query operator."
let student4 =
    query {
        for student in db.Student do
        select student
        headOrDefault
        }
printfn "head student is %s" student4.Name

printfn "\nselect query operator."
query {
    for student in db.Student do
    select student
    }
|> Seq.iter (fun student -> printfn "StudentID, Name: %d %s" student.StudentID student.Name)

printfn "\nwhere query operator."
query {
    for student in db.Student do
    where (student.StudentID > 4)
    select student
    }
|> Seq.iter (fun student -> printfn "StudentID, Name: %d %s" student.StudentID student.Name)

printfn "\nminBy query operator."
let student5 =
    query {
        for student in db.Student do
        minBy student.StudentID
    }

printfn "\nmaxBy query operator."
let student6 =
    query {
        for student in db.Student do
        maxBy student.StudentID
    }

printfn "\ngroupBy query operator."
query {
    for student in db.Student do
    groupBy student.Age into g
    select (g.Key, g.Count())
    }
|> Seq.iter (fun (age, count) -> printfn "Age: %s Count at that age: %d" (age.Print()) count)

printfn "\nsortBy query operator."
query {
    for student in db.Student do
    sortBy student.Name
    select student
}
|> Seq.iter (fun student -> printfn "StudentID, Name: %d %s" student.StudentID student.Name)

printfn "\nsortByDescending query operator."
query {
    for student in db.Student do
    sortByDescending student.Name
    select student
}
|> Seq.iter (fun student -> printfn "StudentID, Name: %d %s" student.StudentID student.Name)

printfn "\nthenBy query operator."
query {
    for student in db.Student do
    where student.Age.HasValue
    sortBy student.Age.Value
    thenBy student.Name
    select student
}
|> Seq.iter (fun student -> printfn "StudentID, Name: %d %s" student.Age.Value student.Name)

printfn "\nthenByDescending query operator."
query {
    for student in db.Student do
    where student.Age.HasValue
    sortBy student.Age.Value
    thenByDescending student.Name
    select student
}
|> Seq.iter (fun student -> printfn "StudentID, Name: %d %s" student.Age.Value student.Name)

printfn "\ngroupValBy query operator."
query {
    for student in db.Student do
    groupValBy student.Name student.Age into g
    select (g, g.Key, g.Count())
    }
|> Seq.iter (fun (group, age, count) ->
    printfn "Age: %s Count at that age: %d" (age.Print()) count
    group |> Seq.iter (fun name -> printfn "Name: %s" name))

printfn "\n sumByNullable query operator"
query {
    for student in db.Student do
    sumByNullable student.Age
    }
|> (fun sum -> printfn "Sum of ages: %s" (sum.Print()))

printfn "\n minByNullable"
query {
    for student in db.Student do
    minByNullable student.Age
    }
|> (fun age -> printfn "Minimum age: %s" (age.Print()))

printfn "\n maxByNullable"
query {
    for student in db.Student do
    maxByNullable student.Age
    }
|> (fun age -> printfn "Maximum age: %s" (age.Print()))

printfn "\n averageBy"
query {
    for student in db.Student do
    averageBy (float student.StudentID)
    }
|> printfn "Average student ID: %f"

printfn "\n averageByNullable"
query {
    for student in db.Student do
    averageByNullable (Nullable.float student.Age)
    }
|> (fun avg -> printfn "Average age: %s" (avg.Print()))

printfn "\n find query operator"
query {
    for student in db.Student do
    find (student.Name = "Abercrombie, Kim")
}
|> (fun student -> printfn "Found a match with StudentID = %d" student.StudentID)

printfn "\n all query operator"
query {
    for student in db.Student do
    all (SqlMethods.Like(student.Name, "%,%"))
}
|> printfn "Do all students have a comma in the name? %b"

printfn "\n head query operator"
query {
    for student in db.Student do
    head
    }
|> (fun student -> printfn "Found the head student with StudentID = %d" student.StudentID)

printfn "\n nth query operator"
query {
    for numbers in data do
    nth 3
    }
|> printfn "Third number is %d"

printfn "\n skip query operator"
query {
    for student in db.Student do
    skip 1
    }
|> Seq.iter (fun student -> printfn "StudentID = %d" student.StudentID)

printfn "\n skipWhile query operator"
query {
    for number in data do
    skipWhile (number < 3)
    select number
    }
|> Seq.iter (fun number -> printfn "Number = %d" number)


printfn "\n sumBy query operator"
query {
   for student in db.Student do
   sumBy student.StudentID
   }
|> printfn "Sum of student IDs: %d" 

printfn "\n take query operator"
query {
   for student in db.Student do
   select student
   take 2
   }
|> Seq.iter (fun student -> printfn "StudentID = %d" student.StudentID)

printfn "\n takeWhile query operator"
query {
    for number in data do
    takeWhile (number < 10)
    }
|> Seq.iter (fun number -> printfn "Number = %d" number)

printfn "\n sortByNullable query operator"
query {
    for student in db.Student do
    sortByNullable student.Age
    select student
}
|> Seq.iter (fun student ->
    printfn "StudentID, Name, Age: %d %s %s" student.StudentID student.Name (student.Age.Print()))

printfn "\n sortByNullableDescending query operator"
query {
    for student in db.Student do
    sortByNullableDescending student.Age
    select student
}
|> Seq.iter (fun student ->
    printfn "StudentID, Name, Age: %d %s %s" student.StudentID student.Name (student.Age.Print()))

printfn "\n thenByNullable query operator"
query {
    for student in db.Student do
    sortBy student.Name
    thenByNullable student.Age
    select student
}
|> Seq.iter (fun student ->
    printfn "StudentID, Name, Age: %d %s %s" student.StudentID student.Name (student.Age.Print()))

printfn "\n thenByNullableDescending query operator"
query {
    for student in db.Student do
    sortBy student.Name
    thenByNullableDescending student.Age
    select student
}
|> Seq.iter (fun student ->
    printfn "StudentID, Name, Age: %d %s %s" student.StudentID student.Name (student.Age.Print()))

printfn "All students: "
query {
        for student in db.Student do
        select student
    }
    |> Seq.iter (fun student -> printfn "%s %d %s" student.Name student.StudentID (student.Age.Print()))

printfn "\nCount of students: "
query {
        for student in db.Student do        
        count
    }
|>  (fun count -> printfn "Student count: %d" count)

printfn "\nExists."
query {
        for student in db.Student do
        where (query { for courseSelection in db.CourseSelection do
                       exists (courseSelection.StudentID = student.StudentID) })
        select student }
|> Seq.iter (fun student -> printfn "%A" student.Name)

printfn "\n Group by age and count"
query {
        for n in db.Student do
        groupBy n.Age into g
        select (g.Key, g.Count())
}
|> Seq.iter (fun (age, count) -> printfn "%s %d" (age.Print()) count)

printfn "\n Group value by age."
query {
        for n in db.Student do
        groupValBy n.Age n.Age into g
        select (g.Key, g.Count())
    }
|> Seq.iter (fun (age, count) -> printfn "%s %d" (age.Print()) count)


printfn "\nGroup students by age where age > 10."
query {
        for student in db.Student do
        groupBy student.Age into g
       where (g.Key.HasValue && g.Key.Value > 10)
        select (g, g.Key)
}
|> Seq.iter (fun (students, age) ->
    printfn "Age: %s" (age.Value.ToString())
    students
    |> Seq.iter (fun student -> printfn "%s" student.Name))

printfn "\nGroup students by age and print counts of number of students at each age with more than 1 student."
query {
        for student in db.Student do
        groupBy student.Age into group
        where (group.Count() > 1)
        select (group.Key, group.Count())
}
|> Seq.iter (fun (age, ageCount) ->
     printfn "Age: %s Count: %d" (age.Print()) ageCount)

printfn "\nGroup students by age and sum ages."
query {
        for student in db.Student do
        groupBy student.Age into g        
        let total = query { for student in g do sumByNullable student.Age }
        select (g.Key, g.Count(), total)
}
|> Seq.iter (fun (age, count, total) ->
    printfn "Age: %d" (age.GetValueOrDefault())
    printfn "Count: %d" count
    printfn "Total years: %s" (total.ToString()))

printfn "\nGroup students by age and count number of students at each age, and display all with count > 1 in descending order of count."
query {
        for student in db.Student do
        groupBy student.Age into g
        where (g.Count() > 1)        
        sortByDescending (g.Count())
        select (g.Key, g.Count())
}
|> Seq.iter (fun (age, myCount) ->
    printfn "Age: %s" (age.Print())
    printfn "Count: %d" myCount)

printfn "\n Select students from a set of IDs"
let idList = [1; 2; 5; 10]
let idQuery = query { for id in idList do
                      select id }
query {
        for student in db.Student do
        where (idQuery.Contains(student.StudentID))
        select student
        }
|> Seq.iter (fun student ->
    printfn "Name: %s" student.Name)

printfn "\nLook for students with Name match _e%% pattern and take first two."
query {
    for student in db.Student do
    where (SqlMethods.Like( student.Name, "_e%") )
    select student
    take 2   
    }
|> Seq.iter (fun student -> printfn "%s" student.Name)

printfn "\nLook for students with Name matching [abc]%% pattern."
query {
    for student in db.Student do
    where (SqlMethods.Like( student.Name, "[abc]%") )
    select student  
    }
|> Seq.iter (fun student -> printfn "%s" student.Name)

printfn "\nLook for students with name matching [^abc]%% pattern."
query {
    for student in db.Student do
    where (SqlMethods.Like( student.Name, "[^abc]%") )
    select student  
    }
|> Seq.iter (fun student -> printfn "%s" student.Name)

printfn "\nLook for students with name matching [^abc]%% pattern and select ID."
query {
    for n in db.Student do
    where (SqlMethods.Like( n.Name, "[^abc]%") )
    select n.StudentID    
    }
|> Seq.iter (fun id -> printfn "%d" id)

printfn "\n Using Contains as a query filter."
query {
        for student in db.Student do
        where (student.Name.Contains("a"))
        select student
    }
|> Seq.iter (fun student -> printfn "%s" student.Name)

printfn "\nSearching for names from a list."
let names = [|"a";"b";"c"|]
query {
    for student in db.Student do
    if names.Contains (student.Name) then select student }
|> Seq.iter (fun student -> printfn "%s" student.Name)

printfn "\nJoin Student and CourseSelection tables."
query {
        for student in db.Student do 
        join (for selection in db.CourseSelection ->
              student.StudentID = selection.StudentID)
        select (student, selection)
    }
|> Seq.iter (fun (student, selection) -> printfn "%d %s %d" student.StudentID student.Name selection.CourseID)


printfn "\nLeft Join Student and CourseSelection tables."
query {
    for student in db.Student do
    leftOuterJoin (for selection in db.CourseSelection ->
                   student.StudentID = selection.StudentID) into result
    for selection in result.DefaultIfEmpty() do
    select (student, selection)
    }
|> Seq.iter (fun (student, selection) ->
    let selectionID, studentID, courseID =
        match selection with
        | null -> "NULL", "NULL", "NULL"
        | sel -> (sel.ID.ToString(), sel.StudentID.ToString(), sel.CourseID.ToString())
    printfn "%d %s %d %s %s %s" student.StudentID student.Name (student.Age.GetValueOrDefault()) selectionID studentID courseID)


printfn "\nJoin with count"
query {
        for n in db.Student do 
        join (for e in db.CourseSelection -> n.StudentID = e.StudentID)
        count        
    }
|>  printfn "%d"

printfn "\n Join with distinct."
query {
        for student in db.Student do 
        join (for selection in db.CourseSelection ->
              student.StudentID = selection.StudentID)
        distinct        
    }
|> Seq.iter (fun (student, selection) -> printfn "%s %d" student.Name selection.CourseID)

printfn "\n Join with distinct and count."
query {
        for n in db.Student do 
        join (for e in db.CourseSelection -> n.StudentID = e.StudentID)
        distinct
        count       
    }
|> printfn "%d"


printfn "\n Selecting students with age between 10 and 15."
query {
        for student in db.Student do
        where (student.Age.Value >= 10 && student.Age.Value < 15)
        select student
    }
|> Seq.iter (fun student -> printfn "%s" student.Name)

printfn "\n Selecting students with age either 11 or 12."
query {
        for student in db.Student do
        where (student.Age.Value = 11 || student.Age.Value = 12)
        select student
    }
|> Seq.iter (fun student -> printfn "%s" student.Name)

printfn "\n Selecting students in a certain age range and sorting."
query {
        for n in db.Student do
        where (n.Age.Value = 12 || n.Age.Value = 13)
        sortByNullableDescending n.Age
        select n
    }
|> Seq.iter (fun student -> printfn "%s %s" student.Name (student.Age.Print()))

printfn "\n Selecting students with certain ages, taking account of possibility of nulls."
query {
        for student in db.Student do
        where ((student.Age.HasValue && student.Age.Value = 11) ||
               (student.Age.HasValue && student.Age.Value = 12))
        sortByDescending student.Name 
        select student.Name
        take 2
    }
|> Seq.iter (fun name -> printfn "%s" name)

printfn "\n Union of two queries."
module Queries =
    let query1 = query {
            for n in db.Student do
            select (n.Name, n.Age)
        }

    let query2 = query {
            for n in db.LastStudent do
            select (n.Name, n.Age)
            }

    query2.Union (query1)
    |> Seq.iter (fun (name, age) -> printfn "%s %s" name (age.Print()))

printfn "\n Intersect of two queries."
module Queries2 =
    let query1 = query {
           for n in db.Student do
           select (n.Name, n.Age)
        }

    let query2 = query {
            for n in db.LastStudent do
            select (n.Name, n.Age)
            }

    query1.Intersect(query2)
    |> Seq.iter (fun (name, age) -> printfn "%s %s" name (age.Print()))

printfn "\n Using if statement to alter results for special value."
query {
        for student in db.Student do
        select (if student.Age.HasValue && student.Age.Value = -1 then
                   (student.StudentID, System.Nullable<int>(100), student.Age)
                else (student.StudentID, student.Age, student.Age))
    }
|> Seq.iter (fun (id, value, age) -> printfn "%d %s %s" id (value.Print()) (age.Print()))

printfn "\n Using if statement to alter results special values."
query {
        for student in db.Student do
        select (if student.Age.HasValue && student.Age.Value = -1 then
                   (student.StudentID, System.Nullable<int>(100), student.Age)
                elif student.Age.HasValue && student.Age.Value = 0 then
                    (student.StudentID, System.Nullable<int>(100), student.Age)
                else (student.StudentID, student.Age, student.Age))
    }
|> Seq.iter (fun (id, value, age) -> printfn "%d %s %s" id (value.Print()) (age.Print()))

printfn "\n Multiple table select."
query {
        for student in db.Student do
        for course in db.Course do
        select (student, course)
}
|> Seq.iteri (fun index (student, course) ->
    if (index = 0) then printfn "StudentID Name Age CourseID CourseName"
    printfn "%d %s %s %d %s" student.StudentID student.Name (student.Age.Print()) course.CourseID course.CourseName)

printfn "\nMultiple Joins"
query {
    for student in db.Student do
    join courseSelection in db.CourseSelection on
        (student.StudentID = courseSelection.StudentID)
    join course in db.Course on
          (courseSelection.CourseID = course.CourseID)
    select (student.Name, course.CourseName)
    }










|> Seq.iter (fun (studentName, courseName) -> printfn "%s %s" studentName courseName)

printfn "\nMultiple Left Outer Joins"
query {
   for student in db.Student do
    leftOuterJoin (for courseSelection in db.CourseSelection ->
                   student.StudentID = courseSelection.StudentID) into g1
    for courseSelection in g1.DefaultIfEmpty() do
    leftOuterJoin (for course in db.Course ->
                   courseSelection.CourseID = course.CourseID) into g2
    for course in g2.DefaultIfEmpty() do
    select (student.Name, course.CourseName)
    }
|> Seq.iter (fun (studentName, courseName) -> printfn "%s %s" studentName courseName)

A saída e aqui estão completas quando esse código é executado em F# interativa.

Consulte também

Referência

Classe LINQ.QueryBuilder (F#)

Outros recursos

Referência de linguagem do F#

Expressões de computação (F#)

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