Como: Calcular os valores de coluna em um arquivo de texto CSV (LINQ)
Este exemplo mostra como executar as computações agregadas como soma, média, Min e Max nas colunas de um arquivo. csv. Os princípios de exemplo são mostrados aqui podem ser aplicados a outros tipos de texto estruturado.
Para criar o arquivo de origem
Copie as seguintes linhas em um arquivo chamado scores.csv e salve-o na sua pasta de solução. Suponha que a primeira coluna representa uma identificação do aluno, e próximas colunas representam a pontuação de quatro exames.
111, 97, 92, 81, 60 112, 75, 84, 91, 39 113, 88, 94, 65, 91 114, 97, 89, 85, 82 115, 35, 72, 91, 70 116, 99, 86, 90, 94 117, 93, 92, 80, 87 118, 92, 90, 83, 78 119, 68, 79, 88, 92 120, 99, 82, 81, 79 121, 96, 85, 91, 60 122, 94, 92, 91, 91
Exemplo
Class SumColumns
Public Shared Sub Main()
Dim lines As String() = System.IO.File.ReadAllLines("../../../scores.csv")
' Specifies the column to compute
' This value could be passed in at runtime.
Dim exam = 3
' Spreadsheet format:
' Student ID Exam#1 Exam#2 Exam#3 Exam#4
' 111, 97, 92, 81, 60
' one is added to skip over the first column
' which holds the student ID.
SumColumn(lines, exam + 1)
Console.WriteLine()
MultiColumns(lines)
' Keep the console window open in debug mode.
Console.WriteLine("Press any key to exit...")
Console.ReadKey()
End Sub
Shared Sub SumColumn(ByVal lines As IEnumerable(Of String), ByVal col As Integer)
' This query performs two steps:
' split the string into a string array
' convert the specified element to
' integer and select it.
Dim columnQuery = From line In lines
Let x = line.Split(",")
Select Convert.ToInt32(x(col))
' Execute and cache the results for performance.
' Only needed with very large files.
Dim results = columnQuery.ToList()
' Perform aggregate calculations
' on the column specified by col.
Dim avgScore = Aggregate score In results Into Average(score)
Dim minScore = Aggregate score In results Into Min(score)
Dim maxScore = Aggregate score In results Into Max(score)
Console.WriteLine("Single Column Query:")
Console.WriteLine("Exam #{0}: Average:{1:##.##} High Score:{2} Low Score:{3}",
col, avgScore, maxScore, minScore)
End Sub
Shared Sub MultiColumns(ByVal lines As IEnumerable(Of String))
Console.WriteLine("Multi Column Query:")
' Create the query. It will produce nested sequences.
' multiColQuery performs these steps:
' 1) convert the string to a string array
' 2) skip over the "Student ID" column and take the rest
' 3) convert each field to an int and select that
' entire sequence as one row in the results.
Dim multiColQuery = From line In lines
Let fields = line.Split(",")
Select From str In fields Skip 1
Select Convert.ToInt32(str)
Dim results = multiColQuery.ToList()
' Find out how many columns we have.
Dim columnCount = results(0).Count()
' Perform aggregate calculations on each column.
' One loop for each score column in scores.
' We can use a for loop because we have already
' executed the multiColQuery in the call to ToList.
For j As Integer = 0 To columnCount - 1
Dim column = j
Dim res2 = From row In results
Select row.ElementAt(column)
' Perform aggregate calculations
' on the column specified by col.
Dim avgScore = Aggregate score In res2 Into Average(score)
Dim minScore = Aggregate score In res2 Into Min(score)
Dim maxScore = Aggregate score In res2 Into Max(score)
' Add 1 to column numbers because exams in this course start with #1
Console.WriteLine("Exam #{0} Average: {1:##.##} High Score: {2} Low Score: {3}",
column + 1, avgScore, maxScore, minScore)
Next
End Sub
End Class
' Output:
' Single Column Query:
' Exam #4: Average:76.92 High Score:94 Low Score:39
' Multi Column Query:
' Exam #1 Average: 86.08 High Score: 99 Low Score: 35
' Exam #2 Average: 86.42 High Score: 94 Low Score: 72
' Exam #3 Average: 84.75 High Score: 91 Low Score: 65
' Exam #4 Average: 76.92 High Score: 94 Low Score: 39
class SumColumns
{
static void Main(string[] args)
{
string[] lines = System.IO.File.ReadAllLines(@"../../../scores.csv");
// Specifies the column to compute
int exam = 3;
// Spreadsheet format:
// Student ID Exam#1 Exam#2 Exam#3 Exam#4
// 111, 97, 92, 81, 60
// one is added to skip over the first column
// which holds the student ID.
SingleColumn(lines, exam + 1);
Console.WriteLine();
MultiColumns(lines);
Console.WriteLine("Press any key to exit");
Console.ReadKey();
}
static void SingleColumn(IEnumerable<string> strs, int examNum)
{
Console.WriteLine("Single Column Query:");
// examNum specifies the column to run the
// calculations on. This could also be
// passed in dynamically at runtime.
// columnQuery is a IEnumerable<int>
// This query performs two steps:
// 1) split the string into a string[]
// 2) convert the specified element to
// int and select it.
var columnQuery =
from line in strs
let x = line.Split(',')
select Convert.ToInt32(x[examNum]);
// Execute and cache the results for performance.
// Only needed with very large files.
var results = columnQuery.ToList();
// Perform aggregate calculations
// on the column specified by examNum.
double average = results.Average();
int max = results.Max();
int min = results.Min();
Console.WriteLine("Exam #{0}: Average:{1:##.##} High Score:{2} Low Score:{3}",
examNum, average, max, min);
}
static void MultiColumns(IEnumerable<string> strs)
{
Console.WriteLine("Multi Column Query:");
// Create the columnQuery. Explicit typing is used
// to make clear that the columnQuery will produce
// nested sequences. You can also just use 'var'.
// The columnQuery performs these steps:
// 1) convert the string to a string[]
// 2) skip over the "Student ID" column and take the rest
// 3) convert each string to an int and select that
// entire sequence as one row in the results.
IEnumerable<IEnumerable<int>> query =
from line in strs
let x = line.Split(',')
let y = x.Skip(1)
select (from str in y
select Convert.ToInt32(str));
// Execute and cache the results for performance.
// ToArray could also be used here.
var results = query.ToList();
// Find out how many columns we have.
int columnCount = results[0].Count();
// Perform aggregate calculations on each column.
// One loop for each score column in scores.
// We can use a for loop because we have already
// executed the columnQuery in the call to ToList.
for (int column = 0; column < columnCount; column++)
{
var res2 = from row in results
select row.ElementAt(column);
double average = res2.Average();
int max = res2.Max();
int min = res2.Min();
// 1 is added to column because Exam numbers
// begin with 1
Console.WriteLine("Exam #{0} Average: {1:##.##} High Score: {2} Low Score: {3}",
column + 1, average, max, min);
}
}
}
/* Output:
Single Column Query:
Exam #4: Average:76.92 High Score:94 Low Score:39
Multi Column Query:
Exam #1 Average: 86.08 High Score: 99 Low Score: 35
Exam #2 Average: 86.42 High Score: 94 Low Score: 72
Exam #3 Average: 84.75 High Score: 91 Low Score: 65
Exam #4 Average: 76.92 High Score: 94 Low Score: 39
*/
A consulta funciona usando o Split método para converter cada linha de texto em uma matriz. Cada elemento da matriz representa uma coluna. Finalmente, o texto em cada coluna é convertido em sua representação numérica. Se o arquivo for um arquivo separado por tabulação, basta atualizar o argumento na Split método para \t.
Compilando o código
Criar um Visual Studio o projeto que se destina a .NET Framework versão 3.5. Por padrão, o projeto tem uma referência a System.Core.dll e um using diretiva (C#) ou Imports instrução (Visual Basic) para o namespace System. LINQ.
Copie este código em seu projeto.
Pressione F5 para compilar e executar o programa.
Pressione qualquer tecla para sair da janela do console.