functions/Import-DbaCsvToSql.ps1

function Import-DbaCsvToSql {
    <#
    .SYNOPSIS
        Efficiently imports very large (and small) CSV files into SQL Server using only the .NET Framework and PowerShell.
 
    .DESCRIPTION
        Import-DbaCsvToSql takes advantage of .NET's super fast SqlBulkCopy class to import CSV files into SQL Server at up to 90,000 rows a second.
 
        The entire import is contained within a transaction, so if a failure occurs or the script is aborted, no changes will persist.
 
        If the table specified does not exist, it will be automatically created using best guessed data types. In addition, the destination table can be truncated prior to import.
 
        The Query parameter will be used to import only the data returned from a SQL Query executed against the CSV file(s). This function supports a number of bulk copy options. Please see parameter list for details.
 
    .PARAMETER CSV
        Specifies path to the CSV file(s) to be imported. Multiple files may be imported if they are formatted similarly.
 
        If no file is specified, a dialog box will appear to select your file(s).
 
    .PARAMETER FirstRowColumns
        If this switch is enabled, the first row in the file will be used as column names for the data being imported.
 
        If the first row does not contain column names and -Query is specified, use field names "column1, column2, column3" and so on.
 
    .PARAMETER Delimiter
        Specifies the delimiter used in the imported file(s). If no delimiter is specified, comma is assumed.
 
        Valid delimiters are '`t`, '|', ';',' ' and ',' (tab, pipe, semicolon, space, and comma).
 
    .PARAMETER SingleColumn
        Specifies that the file contains a single column of data
 
    .PARAMETER SqlInstance
        The SQL Server Instance to import data into.
 
    .PARAMETER SqlCredential
        Login to the target instance using alternative credentials. Windows and SQL Authentication supported. Accepts credential objects (Get-Credential)
 
    .PARAMETER Database
        Specifies the name of the database the CSV will be imported into. Options for this this parameter are auto-populated from the server.
 
    .PARAMETER Schema
        Specifies the schema in which the SQL table or view where CSV will be imported into resides. Default is dbo
 
        If a schema name is not specified, and a CSV name with multiple dots is specified (ie; something.data.csv) then this will be interpreted as a request to import into a table [data] in the schema [something].
 
        If a schema does not currently exist, it will be created, after a prompt to confirm this. Authorization will be set to dbo by default
 
    .PARAMETER Table
        Specifies the SQL table or view where CSV will be imported into.
 
        If a table name is not specified, the table name will be automatically determined from the filename, and a prompt will appear to confirm the table name.
 
        If a table does not currently exist, it will created. SQL datatypes are determined from the first row of the CSV that contains data (skips first row if -FirstRowColumns is specified). Datatypes used are: bigint, numeric, datetime and varchar(MAX).
 
        If the automatically generated table datatypes do not work for you, please create the table prior to import.
 
    .PARAMETER Truncate
        If this switch is enabled, the destination table will be truncated prior to import.
 
    .PARAMETER Safe
        If this switch is enabled, OleDb is used to import the records. By default, Import-DbaCsvToSql uses StreamReader for imports. StreamReader is super fast, but may not properly parse some files.
 
        When using OleDb the import will be slower but more predictable when it comes to parsing CSV files. A schema.ini is automatically generated for best results. If schema.ini currently exists in the directory, it will be moved to a temporary location, then moved back.
 
        OleDB also enables the script to use the -Query parameter, which enables you to import specific subsets of data within a CSV file. OleDB imports at up to 21,000 rows/sec.
 
    .PARAMETER Turbo
        If this switch is enabled, a Table Lock will be created for the import to make the import run as fast as possible. Depending upon the number of columns and datatypes, this may be over 90,000 records per second.
 
        This switch cannot be used in conjunction with -Query.
 
        Remember the Turbo button? This one actually works. Turbo is mega fast, but may not handle some datatypes as well as other methods.
 
        If your CSV file is rather vanilla and doesn't have a ton of NULLs, Turbo may work well for you.
 
    .PARAMETER First
        Specifies the number of rows to import. If this parameter is omitted, the entire file is imported. Row counts start at the top of the file, but skip the first row if -FirstRowColumns is specified.
 
        Use -Query if you need advanced First (TOP) functionality.
 
    .PARAMETER Query
        Specifies a query to execute against the CSV data to select/modify the data being imported.
 
        To make command line queries easy, this module will convert the word "csv" to the actual CSV formatted table name. If the FirstRowColumns switch is not used, the query should use column1, column2, column3, etc.
 
        Cannot be used in conjunction with -Turbo or -First. When -Query is specified, the slower import method, OleDb, will be used.
 
    .PARAMETER NotifyAfter
        Specifies the import row count interval for reporting progress. A notification will be shown after each group of this many rows has been imported.
 
    .PARAMETER BatchSize
        Specifies the batch size for the import. Defaults to 50000.
 
    .PARAMETER TableLock
        If this switch is enabled, the SqlBulkCopy option to acquire a table lock will be used. This is automatically used if -Turbo is enabled.
 
        Per Microsoft "Obtain a bulk update lock for the duration of the bulk copy operation. When not
        specified, row locks are used."
 
    .PARAMETER CheckConstraints
        If this switch is enabled, the SqlBulkCopy option to check constraints will be used.
 
        Per Microsoft "Check constraints while data is being inserted. By default, constraints are not checked."
 
    .PARAMETER FireTriggers
        If this switch is enabled, the SqlBulkCopy option to allow insert triggers to be executed will be used.
 
        Per Microsoft "When specified, cause the server to fire the insert triggers for the rows being inserted into the database."
 
    .PARAMETER KeepIdentity
        If this switch is enabled, the SqlBulkCopy option to keep identity values from the source will be used.
 
        Per Microsoft "Preserve source identity values. When not specified, identity values are assigned by the destination."
 
    .PARAMETER KeepNulls
        If this switch is enabled, the SqlBulkCopy option to keep NULL values in the table will be used.
 
        Per Microsoft "Preserve null values in the destination table regardless of the settings for default values. When not specified, null values are replaced by default values where applicable."
 
    .NOTES
        Tags: Migration
        Author: Chrissy LeMaire (@cl), netnerds.net
 
        Website: https://dbatools.io
        Copyright: (c) 2018 by dbatools, licensed under MIT
        License: MIT https://opensource.org/licenses/MIT
 
    .LINK
        https://blog.netnerds.net/2015/09/Import-DbaCsvtosql-super-fast-csv-to-sql-server-import-powershell-module/
 
    .EXAMPLE
        PS C:\> Import-DbaCsvToSql -Csv C:\temp\housing.csv -SqlInstance sql001 -Database markets
 
        Imports the entire comma-delimited housing.csv to the SQL "markets" database on a SQL Server named sql001.
 
        Since a table name was not specified, the table name is automatically determined from filename as "housing" and a prompt will appear to confirm table name.
 
        The first row is not skipped, as it does not contain column names.
 
    .EXAMPLE
        PS C:\> Import-DbaCsvToSql -Csv .\housing.csv -SqlInstance sql001 -Database markets -Table housing -First 100000 -Safe -Delimiter "`t" -FirstRowColumns
 
        Imports the first 100,000 rows of the tab delimited housing.csv file to the "housing" table in the "markets" database on a SQL Server named sql001. Since -Safe was specified, the OleDB method will be used for the bulk import. The first row is skipped, as it contains column names.
 
    .EXAMPLE
        PS C:\> Import-DbaCsvToSql -csv C:\temp\huge.txt -SqlInstance sqlcluster -Database locations -Table latitudes -Delimiter "|" -Turbo
 
        Imports all records from the pipe delimited huge.txt file using the fastest method possible into the latitudes table within the locations database. Obtains a table lock for the duration of the bulk copy operation. This specific command has been used
        to import over 10.5 million rows in 2 minutes.
 
    .EXAMPLE
        PS C:\> Import-DbaCsvToSql -Csv C:\temp\housing.csv, .\housing2.csv -SqlInstance sql001 -Database markets -Table housing -Delimiter "`t" -query "select top 100000 column1, column3 from csv" -Truncate
 
        Truncates the "housing" table, then imports columns 1 and 3 of the first 100000 rows of the tab-delimited housing.csv in the C:\temp directory, and housing2.csv in the current directory. Since the query is executed against both files, a total of 200,000 rows will be imported.
 
    .EXAMPLE
        PS C:\> Import-DbaCsvToSql -Csv C:\temp\housing.csv -SqlInstance sql001 -Database markets -Table housing -query "select address, zip from csv where state = 'Louisiana'" -FirstRowColumns -Truncate -FireTriggers
 
        Uses the first line to determine CSV column names. Truncates the "housing" table on the SQL Server, then imports the address and zip columns from all records in the housing.csv where the state equals Louisiana.
 
        Triggers are fired for all rows. Note that this does slightly slow down the import.
 
    .EXAMPLE
        PS C:\> Import-DbaCsvToSql -Csv c:\temp\SingleColumn.csv -SqlInstance sql001 -Database markets -Table TempTable -SingleColumn
 
        Upload the single column Csv SingleColumn.csv to Temptable which has just one column
 
    .EXAMPLE
        PS C:\> Import-DbaCsvToSql -Csv "\\FileServer\To Import\housing.csv" -SqlInstance sql001 -Database markets
 
        Imports the entire comma-delimited housing.csv located in the share named "To Import" on FileServer to the SQL "markets" database on a SQL Server named sql001.
 
    .EXAMPLE
        PS C:\> Import-DbaCsvToSql -Csv '\\FileServer\R$\To Import\housing.csv' -SqlInstance sql001 -Database markets
 
        Imports the entire comma-delimited housing.csv located in the directory R:\To Import on FileServer using the administrative share to the SQL "markets" database on a SQL Server named sql001.
 
       #>

    [CmdletBinding(DefaultParameterSetName = "Default")]
    [Diagnostics.CodeAnalysis.SuppressMessageAttribute("PSUseSingularNouns", "", Justification = "Internal functions are ignored")]
    [Diagnostics.CodeAnalysis.SuppressMessageAttribute("PSAvoidUsingPlainTextForPassword", "", Justification = "For Parameters SQLCredential and SQLCredentialPath")]
    [Diagnostics.CodeAnalysis.SuppressMessageAttribute("PSUseDeclaredVarsMoreThanAssignments", "line", Justification = "Variable line is used, False Positive on line 330")]
    param (
        [string[]]$Csv,
        [Parameter(Mandatory)]
        [Alias("ServerInstance", "SqlServer")]
        [DbaInstanceParameter]$SqlInstance,
        [object]$SqlCredential,
        [string]$Table,
        [string]$Schema = "dbo",
        [switch]$Truncate,
        [ValidateSet("`t", "|", ";", " ", ",")]
        [string]$Delimiter = ",",
        [switch]$SingleColumn,
        [switch]$FirstRowColumns,
        [parameter(ParameterSetName = "reader")]
        [switch]$Turbo,
        [parameter(ParameterSetName = "ole")]
        [switch]$Safe,
        [int]$First = 0,
        [parameter(ParameterSetName = "ole")]
        [string]$Query = "select * from csv",
        [int]$BatchSize = 50000,
        [int]$NotifyAfter,
        [switch]$TableLock,
        [switch]$CheckConstraints,
        [switch]$FireTriggers,
        [switch]$KeepIdentity,
        [switch]$KeepNulls,
        #[Parameter(DontShow)]
        [switch]$shellswitch,
        #[Parameter(DontShow)]
        [string]$SqlCredentialPath
    )

    DynamicParam {

        if ($SqlInstance.length -gt 0) {
            # Auto populate database list from specified sqlserver
            $paramconn = New-Object System.Data.SqlClient.SqlConnection

            if ($SqlCredentialPath.length -gt 0) {
                $SqlCredential = Import-CliXml $SqlCredentialPath
            }

            if ($SqlCredential.count -eq 0 -or $null -eq $SqlCredential) {
                $paramconn.ConnectionString = "Data Source=$SqlInstance;Integrated Security=True;"
            } else {
                $paramconn.ConnectionString = "Data Source=$SqlInstance;User Id=$($SqlCredential.UserName); Password=$($SqlCredential.GetNetworkCredential().Password);"
            }

            try {
                $paramconn.Open()
                $sql = "select name from master.dbo.sysdatabases"
                $paramcmd = New-Object System.Data.SqlClient.SqlCommand($sql, $paramconn, $null)
                $paramdt = New-Object System.Data.DataTable
                $paramdt.Load($paramcmd.ExecuteReader())
                $databaselist = $paramdt.rows.name
                $null = $paramcmd.Dispose()
                $null = $paramconn.Close()
                $null = $paramconn.Dispose()
            } catch {
                # But if the routine fails, at least let them specify a database manually
                $databaselist = ""
            }

            # Reusable parameter setup
            $newparams = New-Object System.Management.Automation.RuntimeDefinedParameterDictionary
            $attributes = New-Object System.Management.Automation.ParameterAttribute
            $attributes.Mandatory = $false

            # Database list parameter setup
            $dbattributes = New-Object -Type System.Collections.ObjectModel.Collection[System.Attribute]
            $dbattributes.Add($attributes)
            # If a list of databases were returned, populate the parameter set
            if ($databaselist.length -gt 0) {
                $dbvalidationset = New-Object System.Management.Automation.ValidateSetAttribute -ArgumentList $databaselist
                $dbattributes.Add($dbvalidationset)
            }

            $Database = New-Object -Type System.Management.Automation.RuntimeDefinedParameter("Database", [String], $dbattributes)
            $newparams.Add("Database", $Database)
            return $newparams
        }
    }

    begin {
        function Get-Columns {
            <#
                .SYNOPSIS
                    TextFieldParser will be used instead of an OleDbConnection.
                    This is because the OleDbConnection driver may not exist on x64.
 
                .EXAMPLE
                    $columns = Get-Columns -Csv .\myfile.csv -Delimiter "," -FirstRowColumns $true
 
                .OUTPUTS
                    Array of column names
            #>


            param (
                [Parameter(Mandatory)]
                [string[]]$Csv,
                [Parameter(Mandatory)]
                [string]$Delimiter,
                [Parameter(Mandatory)]
                [bool]$FirstRowColumns
            )

            $columnparser = New-Object Microsoft.VisualBasic.FileIO.TextFieldParser($csv[0])
            $columnparser.TextFieldType = "Delimited"
            $columnparser.SetDelimiters($Delimiter)
            $rawcolumns = $columnparser.ReadFields()

            if ($FirstRowColumns -eq $true) {
                $columns = ($rawcolumns | ForEach-Object { $_ -Replace '"' } | Select-Object -Property @{ Name = "name"; Expression = { "[$_]" } }).name
            } else {
                $columns = @()
                foreach ($number in 1..$rawcolumns.count) {
                    $columns += "[column$number]"
                }
            }

            $columnparser.Close()
            $columnparser.Dispose()
            return $columns
        }

        function Get-ColumnText {
            <#
                .SYNOPSIS
                    Returns an array of data, which can later be parsed for potential datatypes.
 
                .EXAMPLE
                    $columns = Get-Columns -Csv .\myfile.csv -Delimiter ","
 
                .OUTPUTS
                    Array of column data
             #>

            param (
                [Parameter(Mandatory)]
                [string[]]$Csv,
                [Parameter(Mandatory)]
                [string]$Delimiter
            )
            $columnparser = New-Object Microsoft.VisualBasic.FileIO.TextFieldParser($csv[0])
            $columnparser.TextFieldType = "Delimited"
            $columnparser.SetDelimiters($Delimiter)
            $line = $columnparser.ReadLine()
            # Skip a line, in case first line are column names
            $line = $columnparser.ReadLine()
            $datatext = $columnparser.ReadFields()
            $columnparser.Close()
            $columnparser.Dispose()
            return $datatext
        }

        function Write-Schemaini {
            <#
                .SYNOPSIS
                    Unfortunately, passing delimiter within the OleDBConnection connection string is unreliable, so we'll use schema.ini instead. The default delimiter in Windows changes depending on country, so we'll do this for every delimiter, even commas.
 
                    Get OLE datatypes based on best guess of column data within the -Columns parameter.
 
                    Sometimes SQL will accept a datetime that OLE won't, so Text will be used for datetime.
 
                .EXAMPLE
                    $columns = Get-Columns -Csv C:\temp\myfile.csv -Delimiter ","
                    $movedschemainis = Write-Schemaini -Csv C:\temp\myfile.csv -Columns $columns -ColumnText $columntext -Delimiter "," -FirstRowColumns $true
 
                .OUTPUTS
                    Creates new schema files, that look something like this:
 
                    [housingdata.csv]
                    Format=Delimited(,)
                    ColNameHeader=True
                    Col1="House ID" Long
                    Col2="Description" Memo
                    Col3="Price" Double
 
                    Returns an array of existing schema files that have been moved, if any.
             #>

            param (
                [Parameter(Mandatory)]
                [string[]]$Csv,
                [Parameter(Mandatory)]
                [string[]]$Columns,
                [string[]]$ColumnText,
                [Parameter(Mandatory)]
                [string]$Delimiter,
                [Parameter(Mandatory)]
                [bool]$FirstRowColumns
            )

            $movedschemainis = @{ }
            foreach ($file in $csv) {
                $directory = Split-Path $file
                $schemaexists = Test-Path "$directory\schema.ini"
                if ($schemaexists -eq $true) {
                    $newschemaname = "$env:TEMP\$(Split-Path $file -leaf)-schema.ini"
                    $movedschemainis.Add($newschemaname, "$directory\schema.ini")
                    Move-Item "$directory\schema.ini" $newschemaname -Force
                }

                $filename = Split-Path $file -leaf; $directory = Split-Path $file
                Add-Content -Path "$directory\schema.ini" -Value "[$filename]"
                Add-Content -Path "$directory\schema.ini" -Value "Format=Delimited($InternalDelimiter)"
                Add-Content -Path "$directory\schema.ini" -Value "ColNameHeader=$FirstRowColumns"

                $index = 0
                $olecolumns = ($columns | ForEach-Object { $_ -Replace "\[|\]", '"' })

                foreach ($datatype in $columntext) {
                    $olecolumnname = $olecolumns[$index]
                    $index++

                    try {
                        [System.Guid]::Parse($datatype) | Out-Null; $isguid = $true
                    } catch {
                        $isguid = $false
                    }

                    if ($isguid -eq $true) {
                        $oledatatype = "Text"
                    } elseif ([int64]::TryParse($datatype, [ref]0) -eq $true) {
                        $oledatatype = "Long"
                    } elseif ([double]::TryParse($datatype, [ref]0) -eq $true) {
                        $oledatatype = "Double"
                    } elseif ([datetime]::TryParse($datatype, [ref]0) -eq $true) {
                        $oledatatype = "Text"
                    } else {
                        $oledatatype = "Memo"
                    }

                    Add-Content -Path "$directory\schema.ini" -Value "Col$($index)`=$olecolumnname $oledatatype"
                }
            }
            return $movedschemainis
        }

        function New-SqlTable {
            <#
                .SYNOPSIS
                    Creates new Table using existing SqlCommand.
 
                    SQL datatypes based on best guess of column data within the -ColumnText parameter.
                    Columns parameter determine column names.
 
                .EXAMPLE
                    New-SqlTable -Csv $Csv -Delimiter $InternalDelimiter -Columns $columns -ColumnText $columntext -SqlConn $sqlconn -Transaction $transaction
 
                .OUTPUTS
                    Creates new table
            #>

            [Diagnostics.CodeAnalysis.SuppressMessageAttribute("PSUseShouldProcessForStateChangingFunctions", "")]
            param (
                [Parameter(Mandatory)]
                [string[]]$Csv,
                [Parameter(Mandatory)]
                [string]$Delimiter,
                [string[]]$Columns,
                [string[]]$ColumnText,
                [System.Data.SqlClient.SqlConnection]$sqlconn,
                [System.Data.SqlClient.SqlTransaction]$transaction
            )
            # Get SQL datatypes by best guess on first data row
            $sqldatatypes = @(); $index = 0

            foreach ($column in $columntext) {
                $sqlcolumnname = $Columns[$index]
                $index++

                # bigint, float, and datetime are more accurate, but it didn't work
                # as often as it should have, so we'll just go for a smaller datatype
                if ([int64]::TryParse($column, [ref]0) -eq $true) {
                    $sqldatatype = "varchar(255)"
                } elseif ([double]::TryParse($column, [ref]0) -eq $true) {
                    $sqldatatype = "varchar(255)"
                } elseif ([datetime]::TryParse($column, [ref]0) -eq $true) {
                    $sqldatatype = "varchar(255)"
                } else {
                    $sqldatatype = "varchar(MAX)"
                }

                $sqldatatypes += "$sqlcolumnname $sqldatatype"
            }

            $sql = "BEGIN CREATE TABLE [$schema].[$table] ($($sqldatatypes -join ' NULL,')) END"
            $sqlcmd = New-Object System.Data.SqlClient.SqlCommand($sql, $sqlconn, $transaction)
            try {
                $null = $sqlcmd.ExecuteNonQuery()
            } catch {
                $errormessage = $_.Exception.Message.ToString()
                throw "Failed to execute $sql. `nDid you specify the proper delimiter? `n$errormessage"
            }

            Write-Output "[*] Successfully created table $schema.$table with the following column definitions:`n $($sqldatatypes -join "`n ")"
            # Write-Warning "All columns are created using a best guess, and use their maximum datatype."
            Write-Warning "This is inefficient but allows the script to import without issues."
            Write-Warning "Consider creating the table first using best practices if the data will be used in production."
        }


        if ($shellswitch -eq $false) { Write-Output "[*] Started at $(Get-Date)" }

        # Load the basics
        [void][Reflection.Assembly]::LoadWithPartialName("System.Data")
        [void][Reflection.Assembly]::LoadWithPartialName("Microsoft.VisualBasic")
        [void][Reflection.Assembly]::LoadWithPartialName("System.Windows.Forms")

        # Getting the total rows copied is a challenge. Use SqlBulkCopyExtension.
        # http://stackoverflow.com/questions/1188384/sqlbulkcopy-row-count-when-complete

        $source = 'namespace System.Data.SqlClient
        {
            using Reflection;
 
            public static class SqlBulkCopyExtension
            {
                const String _rowsCopiedFieldName = "_rowsCopied";
                static FieldInfo _rowsCopiedField = null;
 
                public static int RowsCopiedCount(this SqlBulkCopy bulkCopy)
                {
                    if (_rowsCopiedField == null) _rowsCopiedField = typeof(SqlBulkCopy).GetField(_rowsCopiedFieldName, BindingFlags.NonPublic | BindingFlags.GetField | BindingFlags.Instance);
                    return (int)_rowsCopiedField.GetValue(bulkCopy);
                }
            }
        }
    '

        Add-Type -ReferencedAssemblies 'System.Data.dll' -TypeDefinition $source -ErrorAction SilentlyContinue
    }

    process {
        # turbo mode requires a table lock, or it's just regular fast
        if ($turbo -eq $true) {
            $tablelock = $true
        }

        # Hack to get around the delimter parameter ValidateSet
        if ($SingleColumn -eq $true) {
            $InternalDelimiter = ''
        } else {
            $InternalDelimiter = $Delimiter
        }

        # The query parameter requires OleDB which is invoked by the "safe" variable
        # Actually, a select could be performed on the datatable used in StreamReader, too.
        # Maybe that will be done later.
        if ($query -ne "select * from csv") {
            $safe = $true
        }

        if ($first -gt 0 -and $query -ne "select * from csv") {
            throw "Cannot use both -Query and -First. If a query is necessary, use TOP $first within your SQL statement."
        }

        # In order to support -First in both Streamreader, and OleDb imports, the query must be modified slightly.
        if ($first -gt 0) {
            $query = "select top $first * from csv"
        }

        # If shell switch occured, and encrypted SQL credentials were written to disk, create $SqlCredential
        if ($SqlCredentialPath.length -gt 0) {
            $SqlCredential = Import-CliXml $SqlCredentialPath
        }

        # Get Database string from RuntimeDefinedParameter if required
        if ($database -isnot [string]) {
            $database = $PSBoundParameters.Database
        }
        if ($database.length -eq 0) {
            throw "You must specify a database."
        }

        # Check to ensure a Windows account wasn't used as a SQL Credential
        if ($SqlCredential.count -gt 0 -and $SqlCredential.UserName -like "*\*") {
            throw "Only SQL Logins can be used as a SqlCredential."
        }

        # If no CSV was specified, prompt the user to select one.
        if ($csv.length -eq 0) {
            $fd = New-Object System.Windows.Forms.OpenFileDialog
            $fd.InitialDirectory = [environment]::GetFolderPath("MyDocuments")
            $fd.Filter = "CSV Files (*.csv;*.tsv;*.txt)|*.csv;*.tsv;*.txt"
            $fd.Title = "Select one or more CSV files"
            $fd.MultiSelect = $true
            $null = $fd.showdialog()
            $csv = $fd.filenames
            if ($csv.length -eq 0) {
                throw "No CSV file selected."
            }
        } else {
            foreach ($file in $csv) {
                $exists = Test-Path $file
                if ($exists -eq $false) {
                    throw "$file does not exist"
                }
            }
        }

        # Resolve the full path of each CSV
        $resolvedcsv = @()
        foreach ($file in $csv) {
            $resolvedcsv += (Resolve-Path $file).ProviderPath
        }
        $csv = $resolvedcsv

        # UniqueIdentifier kills OLE DB / SqlBulkCopy imports. Check to see if destination table contains this datatype.
        if ($safe -eq $true) {
            $sqlcheckconn = New-Object System.Data.SqlClient.SqlConnection
            if ($SqlCredential.count -eq 0 -or $null -eq $SqlCredential) {
                $sqlcheckconn.ConnectionString = "Data Source=$SqlInstance;Integrated Security=True;Connection Timeout=3; Initial Catalog=master"
            } else {
                $username = ($SqlCredential.UserName).TrimStart("\")
                $sqlcheckconn.ConnectionString = "Data Source=$SqlInstance;User Id=$username; Password=$($SqlCredential.GetNetworkCredential().Password);Connection Timeout=3; Initial Catalog=master"
            }

            try {
                $sqlcheckconn.Open()
            } catch {
                throw $_.Exception
            }

            # Ensure database exists
            $sql = "select count(*) from master.dbo.sysdatabases where name = '$database'"
            $sqlcheckcmd = New-Object System.Data.SqlClient.SqlCommand($sql, $sqlcheckconn)
            $dbexists = $sqlcheckcmd.ExecuteScalar()
            if ($dbexists -eq $false) {
                throw "Database does not exist on $SqlInstance"
            }

            # Change database after the fact, because if db doesn't exist, the login would fail.
            $sqlcheckconn.ChangeDatabase($database)

            $sql = "SELECT t.name as datatype FROM sys.columns c
                JOIN sys.types t ON t.system_type_id = c.system_type_id
                WHERE c.object_id = object_id('$schema.$table') and t.name != 'sysname'"

            $sqlcheckcmd = New-Object System.Data.SqlClient.SqlCommand($sql, $sqlcheckconn)
            $sqlcolumns = New-Object System.Data.DataTable
            $sqlcolumns.load($sqlcheckcmd.ExecuteReader("CloseConnection"))
            $sqlcheckconn.Dispose()
            if ($sqlcolumns.datatype -contains "UniqueIdentifier") {
                throw "UniqueIdentifier not supported by OleDB/SqlBulkCopy. Query and Safe cannot be supported."
            }
        }

        if ($safe -eq $true) {
            # Check for drivers. First, ACE (Access) if file is smaller than 2GB, then JET
            # ACE doesn't handle files larger than 2gb. What gives?
            foreach ($file in $csv) {
                $filesize = (Get-ChildItem $file).Length / 1GB
                if ($filesize -gt 1.99) {
                    $jetonly = $true
                }
            }

            if ($jetonly -ne $true) {
                $provider = (New-Object System.Data.OleDb.OleDbEnumerator).GetElements() | Where-Object { $_.SOURCES_NAME -like "Microsoft.ACE.OLEDB.*" }
            }

            if ($null -eq $provider) {
                $provider = (New-Object System.Data.OleDb.OleDbEnumerator).GetElements() | Where-Object { $_.SOURCES_NAME -like "Microsoft.Jet.OLEDB.*" }
            }

            # If a suitable provider cannot be found (If x64 and Access hasn't been installed)
            # switch to x86, because it natively supports JET
            if ($null -ne $provider) {
                if ($provider -is [system.array]) {
                    $provider = $provider[$provider.GetUpperBound(0)].SOURCES_NAME
                } else {
                    $provider = $provider.SOURCES_NAME
                }
            }

            # If a provider doesn't exist, it is necessary to switch to x86 which natively supports JET.
            if ($null -eq $provider) {
                # While Install-Module takes care of installing modules to x86 and x64, Import-Module doesn't.
                # Because of this, the Module must be exported, written to file, and imported in the x86 shell.
                $definition = (Get-Command Import-DbaCsvToSql).Definition
                $function = "Function Import-DbaCsvToSql { $definition }"
                Set-Content "$env:TEMP\Import-DbaCsvToSql.psm1" $function

                # Encode the SQL string, since some characters may mess up after being passed a second time.
                $bytes = [System.Text.Encoding]::UTF8.GetBytes($query)
                $query = [System.Convert]::ToBase64String($bytes)

                # Put switches back into proper format
                $switches = @()
                $options = "TableLock", "CheckConstraints", "FireTriggers", "KeepIdentity", "KeepNulls", "Default", "Truncate", "FirstRowColumns", "Safe"
                foreach ($option in $options) {
                    $optionValue = Get-Variable $option -ValueOnly -ErrorAction SilentlyContinue
                    if ($optionValue -eq $true) {
                        $switches += "-$option"
                    }
                }

                # Perform the actual switch, which removes any registered Import-DbaCsvToSql modules
                # Then imports, and finally re-executes the command.
                $csvParam = ($csv | ForEach-Object { "'$($_ -replace "'", "''")'" }) -join ","
                $switches = $switches -join " "
                if ($SqlCredential.count -gt 0) {
                    $SqlCredentialPath = "$env:TEMP\sqlcredential.xml"
                    Export-CliXml -InputObject $SqlCredential $SqlCredentialPath
                }
                $command = "Import-DbaCsvToSql -Csv $csvParam -SqlInstance '$SqlInstance'-Database '$database' -Table '$table' -Delimiter '$InternalDelimiter' -First $First -Query '$query' -Batchsize $BatchSize -NotifyAfter $NotifyAfter $switches -shellswitch"

                if ($SqlCredentialPath.length -gt 0) {
                    $command += " -SqlCredentialPath $SqlCredentialPath"
                }
                Write-Verbose "Switching to x86 shell, then switching back."
                &"$env:windir\syswow64\windowspowershell\v1.0\powershell.exe" "$command"
                return
            }
        }

        # Do the first few lines contain the specified delimiter?
        foreach ($file in $csv) {
            try { $firstfewlines = Get-Content $file -First 3 -ErrorAction Stop }
            catch { throw "$file is in use." }
            if ($SingleColumn -ne $true ) {
                foreach ($line in $firstfewlines) {
                    if (($line -match $InternalDelimiter) -eq $false) {
                        throw "Delimiter $InternalDelimiter not found in first row of $file."
                    }
                }
            }
        }

        # If more than one csv specified, check to ensure number of columns match
        if ($csv -is [system.array]) {
            if ($SingleColumn -ne $true) {
                $numberofcolumns = ((Get-Content $csv[0] -First 1 -ErrorAction Stop) -Split $InternalDelimiter).Count

                foreach ($file in $csv) {
                    $firstline = Get-Content $file -First 1 -ErrorAction Stop
                    $newnumcolumns = ($firstline -Split $InternalDelimiter).Count
                    if ($newnumcolumns -ne $numberofcolumns) {
                        throw "Multiple csv file mismatch. Do both use the same delimiter and have the same number of columns?"
                    }
                }
            }
        }

        # Automatically generate Table name if not specified, then prompt user to confirm
        if ($table.length -eq 0) {
            $table = [IO.Path]::GetFileNameWithoutExtension($csv[0])

            #Count the dots in the file name.
            #1 dot, treat it as schema.table naming
            #2 or more dots, really should catch it as bad practice, but the rest of the script appears to let it pass
            if (($table.ToCharArray() | Where-Object {$_ -eq '.'} | Measure-Object).count -gt 0) {
                if (($schema -ne $table.Split('.')[0]) -and ($schema -ne 'dbo')) {
                    $title = "Conflicting schema names specified"
                    $message = "Please confirm which schema you want to use."
                    $schemaA = New-Object System.Management.Automation.Host.ChoiceDescription "&A - $schema", "Use schema name $schema for import."
                    $schemaB = New-Object System.Management.Automation.Host.ChoiceDescription "&B - $($table.Split('.')[0])", "Use schema name $($table.Split('.')[0]) for import."
                    $options = [System.Management.Automation.Host.ChoiceDescription[]]($schemaA, $schemaB)
                    $result = $host.ui.PromptForChoice($title, $message, $options, 0)
                    if ($result -eq 1) {
                        $schema = $table.Split('.')[0]
                        $tmparray = $table.split('.')
                        $table = $tmparray[1..$tmparray.Length] -join '.'
                    }
                }

            } else {
                $title = "Table name not specified."
                $message = "Would you like to use the automatically generated name: $table"
                $yes = New-Object System.Management.Automation.Host.ChoiceDescription "&Yes", "Uses table name $table for import."
                $no = New-Object System.Management.Automation.Host.ChoiceDescription "&No", "Allows you to specify an alternative table name."
                $options = [System.Management.Automation.Host.ChoiceDescription[]]($yes, $no)
                $result = $host.ui.PromptForChoice($title, $message, $options, 0)
                if ($result -eq 1) {
                    do {
                        $table = Read-Host "Please enter a table name"
                    }
                    while ($table.Length -eq 0)
                }

            }
        }

        # If the shell has switched, decode the $query string.
        if ($shellswitch -eq $true) {
            $bytes = [System.Convert]::FromBase64String($Query)
            $query = [System.Text.Encoding]::UTF8.GetString($bytes)
            $csv = $csv -Split ","
        }

        # Create columns based on first data row of first csv.
        if ($SingleColumn -ne $true) {
            Write-Output "[*] Calculating column names and datatypes"
            $columns = Get-Columns -Csv $Csv -Delimiter $InternalDelimiter -FirstRowColumns $FirstRowColumns
            if ($columns.count -gt 255 -and $safe -eq $true) {
                throw "CSV must contain fewer than 256 columns."
            }
        }

        if ($SingleColumn -ne $true) {
            $columntext = Get-ColumnText -Csv $Csv -Delimiter $InternalDelimiter
        }

        # OLEDB method requires extra checks
        if ($safe -eq $true) {
            # Advanced SQL queries may not work (SqlBulkCopy likes a 1 to 1 mapping), so warn the user.
            if ($Query -match "GROUP BY" -or $Query -match "COUNT") {
                Write-Warning "Script doesn't really support the specified query. This probably won't work, but will be attempted anyway."
            }

            # Check for proper SQL syntax, which for the purposes of this module must include the word "table"
            if ($query.ToLower() -notmatch "\bcsv\b") {
                throw "SQL statement must contain the word 'csv'. Please see this module's documentation for more details."
            }

            # In order to ensure consistent results, a schema.ini file must be created.
            # If a schema.ini already exists, it will be moved to TEMP temporarily.
            Write-Verbose "Creating schema.ini"
            $movedschemainis = Write-Schemaini -Csv $Csv -Columns $columns -Delimiter "$InternalDelimiter" -FirstRowColumns $FirstRowColumns -ColumnText $columntext
        }

        # Display SQL Server Login info
        if ($sqlcredential.count -gt 0) {
            $username = "SQL login $($SqlCredential.UserName)"
        } else {
            $username = "Windows login $(whoami)"
        }
        # Open Connection to SQL Server
        Write-Output "[*] Logging into $SqlInstance as $username"
        $sqlconn = New-Object System.Data.SqlClient.SqlConnection
        if ($SqlCredential.count -eq 0) {
            $sqlconn.ConnectionString = "Data Source=$SqlInstance;Integrated Security=True;Connection Timeout=3; Initial Catalog=master"
        } else {
            $sqlconn.ConnectionString = "Data Source=$SqlInstance;User Id=$($SqlCredential.UserName); Password=$($SqlCredential.GetNetworkCredential().Password);Connection Timeout=3; Initial Catalog=master"
        }

        try {
            $sqlconn.Open()
        } catch {
            throw "Could not open SQL Server connection. Is $SqlInstance online?"
        }

        # Everything will be contained within 1 transaction, even creating a new table if required
        # and truncating the table, if specified.
        $transaction = $sqlconn.BeginTransaction()

        # Ensure database exists
        $sql = "select count(*) from master.dbo.sysdatabases where name = '$database'"
        $sqlcmd = New-Object System.Data.SqlClient.SqlCommand($sql, $sqlconn, $transaction)
        $dbexists = $sqlcmd.ExecuteScalar()
        if ($dbexists -eq $false) {
            throw "Database does not exist on $SqlInstance"
        }
        Write-Output "[*] Database exists"

        $sqlconn.ChangeDatabase($database)

        # Enure Schema exists
        $sql = "select count(*) from $database.sys.schemas where name='$schema'"
        $sqlcmd = New-Object System.Data.SqlClient.SqlCommand($sql, $sqlconn, $transaction)
        $schemaexists = $sqlcmd.ExecuteScalar()

        # If Schema doesn't exist create it
        # Defaulting to dbo.
        if ($schemaexists -eq $false) {
            Write-Output "[*] Creating schema $schema"
            $sql = "CREATE SCHEMA [$schema] AUTHORIZATION dbo"
            $sqlcmd = New-Object System.Data.SqlClient.SqlCommand($sql, $sqlconn, $transaction)
            try {
                $null = $sqlcmd.ExecuteNonQuery()
            } catch {
                Write-Warning "Could not create $schema"
            }

        }

        # Ensure table exists
        $sql = "select count(*) from $database.sys.tables where name = '$table' and schema_id=schema_id('$schema')"
        $sqlcmd = New-Object System.Data.SqlClient.SqlCommand($sql, $sqlconn, $transaction)
        $tablexists = $sqlcmd.ExecuteScalar()

        # Create the table if required. Remember, this will occur within a transaction, so if the script fails, the
        # new table will no longer exist.
        if ($tablexists -eq $false) {
            Write-Output "[*] Table does not exist"
            Write-Output "[*] Creating table"
            New-SqlTable -Csv $Csv -Delimiter $InternalDelimiter -Columns $columns -ColumnText $columntext -SqlConn $sqlconn -Transaction $transaction
        } else {
            Write-Output "[*] Table exists"
        }

        # Truncate if specified. Remember, this will occur within a transaction, so if the script fails, the
        # truncate will not be committed.
        if ($truncate -eq $true) {
            Write-Output "[*] Truncating table"
            $sql = "TRUNCATE TABLE [$schema].[$table]"
            $sqlcmd = New-Object System.Data.SqlClient.SqlCommand($sql, $sqlconn, $transaction)
            try {
                $null = $sqlcmd.ExecuteNonQuery()
            } catch {
                Write-Warning "Could not truncate $schema.$table"
            }
        }

        # Get columns for column mapping
        if ($null -eq $columnMappings) {
            $olecolumns = ($columns | ForEach-Object { $_ -Replace "\[|\]" })
            $sql = "select name from sys.columns where object_id = object_id('$schema.$table') order by column_id"
            $sqlcmd = New-Object System.Data.SqlClient.SqlCommand($sql, $sqlconn, $transaction)
            $sqlcolumns = New-Object System.Data.DataTable
            $sqlcolumns.Load($sqlcmd.ExecuteReader())
        }

        # Time to import!
        $elapsed = [System.Diagnostics.Stopwatch]::StartNew()

        # Process each CSV file specified
        foreach ($file in $csv) {

            # Dynamically set NotifyAfter if it wasn't specified
            if ($notifyAfter -eq 0) {
                if ($resultcount -is [int]) {
                    $notifyafter = $resultcount / 10
                } else {
                    $notifyafter = 50000
                }
            }

            # Setup bulk copy
            Write-Output "[*] Starting bulk copy for $(Split-Path $file -Leaf)"

            # Setup bulk copy options
            $bulkCopyOptions = @()
            $options = "TableLock", "CheckConstraints", "FireTriggers", "KeepIdentity", "KeepNulls", "Default", "Truncate"
            foreach ($option in $options) {
                $optionValue = Get-Variable $option -ValueOnly -ErrorAction SilentlyContinue
                if ($optionValue -eq $true) {
                    $bulkCopyOptions += "$option"
                }
            }
            $bulkCopyOptions = $bulkCopyOptions -join " & "

            # Create SqlBulkCopy using default options, or options specified in command line.
            if ($bulkCopyOptions.count -gt 1) {
                $bulkcopy = New-Object Data.SqlClient.SqlBulkCopy($oleconnstring, $bulkCopyOptions, $transaction)
            } else {
                $bulkcopy = New-Object Data.SqlClient.SqlBulkCopy($sqlconn, "Default", $transaction)
            }

            $bulkcopy.DestinationTableName = "[$schema].[$table]"
            $bulkcopy.bulkcopyTimeout = 0
            $bulkCopy.BatchSize = $BatchSize
            $bulkCopy.NotifyAfter = $NotifyAfter

            if ($safe -eq $true) {
                # Setup bulkcopy mappings
                for ($columnid = 0; $columnid -lt $sqlcolumns.rows.count; $columnid++) {
                    $null = $bulkCopy.ColumnMappings.Add($olecolumns[$columnid], $sqlcolumns.rows[$columnid].ItemArray[0])
                }

                # Setup the connection string. Data Source is the directory that contains the csv.
                # The file name is also the table name, but with a "#" instead of a "."
                $datasource = Split-Path $file
                $tablename = (Split-Path $file -leaf).Replace(".", "#")
                $oleconnstring = "Provider=$provider;Data Source=$datasource;Extended Properties='text';"

                # To make command line queries easier, let the user just specify "csv" instead of the
                # OleDbconnection formatted name (file.csv -> file#csv)
                $sql = $Query -replace "\bcsv\b", " [$tablename]"

                # Setup the OleDbconnection
                $oleconn = New-Object System.Data.OleDb.OleDbconnection
                $oleconn.ConnectionString = $oleconnstring

                # Setup the OleDBCommand
                $olecmd = New-Object System.Data.OleDB.OleDBCommand
                $olecmd.Connection = $oleconn
                $olecmd.CommandText = $sql

                try {
                    $oleconn.Open()
                } catch {
                    throw "Could not open OLEDB connection."
                }

                # Attempt to get the number of results so that a nice progress bar can be displayed.
                # This takes extra time, and files over 100MB take too long, so just skip them.
                if ($sql -match "GROUP BY") {
                    Write-Warning -Message "Query contains GROUP BY clause. Skipping result count."
                } else {
                    Write-Output "[*] Determining total rows to be copied. This may take a few seconds."
                }

                if ($sql -match "\bselect top\b") {
                    try {
                        $split = $sql -split "\bselect top \b"
                        $resultcount = [int]($split[1].Trim().Split()[0])
                        Write-Output "[*] Attempting to fetch $resultcount rows"
                    } catch {
                        Write-Warning "Couldn't determine total rows to be copied."
                    }
                } elseif ($sql -notmatch "GROUP BY") {
                    $filesize = (Get-ChildItem $file).Length / 1MB
                    if ($filesize -lt 100) {
                        try {
                            $split = $sql -split "\bfrom\b"
                            $sqlcount = "select count(*) from $($split[1])"
                            # Setup the OleDBCommand
                            $olecmd = New-Object System.Data.OleDB.OleDBCommand
                            $olecmd.Connection = $oleconn
                            $olecmd.CommandText = $sqlcount
                            $resultcount = [int]($olecmd.ExecuteScalar())
                            Write-Output "[*] $resultcount rows will be copied"
                        } catch {
                            Write-Warning "Couldn't determine total rows to be copied"
                        }
                    } else {
                        Write-Output "[*] File is too large for efficient result count; progress bar will not be shown."
                    }
                }
            }

            # Write to server :D
            try {
                if ($safe -ne $true) {
                    # Check to ensure batchsize isn't equal to 0
                    if ($batchsize -eq 0) {
                        write-warning "Invalid batchsize for this operation. Increasing to 50k"
                        $batchsize = 50000
                    }

                    # Open the text file from disk
                    $reader = New-Object System.IO.StreamReader($file)
                    if ($FirstRowColumns -eq $true) {
                        $null = $reader.readLine()
                    }

                    # Create the reusable datatable. Columns will be genereated using info from SQL.
                    $datatable = New-Object System.Data.DataTable

                    # Get table column info from SQL Server
                    $sql = "SELECT c.name as colname, t.name as datatype, c.max_length, c.is_nullable FROM sys.columns c
                        JOIN sys.types t ON t.system_type_id = c.system_type_id
                        WHERE c.object_id = object_id('$schema.$table') and t.name != 'sysname'
                        order by c.column_id"

                    $sqlcmd = New-Object System.Data.SqlClient.SqlCommand($sql, $sqlconn, $transaction)
                    $sqlcolumns = New-Object System.Data.DataTable
                    $sqlcolumns.load($sqlcmd.ExecuteReader())

                    foreach ($sqlcolumn in $sqlcolumns) {
                        $datacolumn = $datatable.Columns.Add()
                        $colname = $sqlcolumn.colname
                        $datacolumn.AllowDBNull = $sqlcolumn.is_nullable
                        $datacolumn.ColumnName = $colname
                        $datacolumn.DefaultValue = [DBnull]::Value
                        $datacolumn.Datatype = [string]

                        # The following data types can sometimes cause issues when they are null
                        # so we will treat them differently
                        $convert = "bigint", "DateTimeOffset", "UniqueIdentifier", "smalldatetime", "datetime"
                        if ($convert -notcontains $sqlcolumn.datatype -and $turbo -ne $true) {
                            $null = $bulkCopy.ColumnMappings.Add($datacolumn.ColumnName, $sqlcolumn.colname)
                        }
                    }
                    # For the columns that cause trouble, we'll add an additional column to the datatable
                    # which will perform a conversion.
                    # Setting $column.datatype alone doesn't work as well as setting+converting.
                    if ($turbo -ne $true) {
                        $calcolumns = $sqlcolumns | Where-Object { $convert -contains $_.datatype }
                        foreach ($calcolumn in $calcolumns) {
                            $colname = $calcolumn.colname
                            $null = $newcolumn = $datatable.Columns.Add()
                            $null = $newcolumn.ColumnName = "computed$colname"
                            switch ($calcolumn.datatype) {
                                "bigint" {
                                    $netdatatype = "System.Int64";
                                    $newcolumn.Datatype = [int64]
                                }
                                "DateTimeOffset" {
                                    $netdatatype = "System.DateTimeOffset";
                                    $newcolumn.Datatype = [DateTimeOffset]
                                }
                                "UniqueIdentifier" {
                                    $netdatatype = "System.Guid";
                                    $newcolumn.Datatype = [Guid]
                                }
                                {"smalldatetime", "datetime" -contains $_ } {
                                    $netdatatype = "System.DateTime";
                                    $newcolumn.Datatype = [DateTime]
                                }
                            }
                            # Use a data column expression to facilitate actual conversion
                            $null = $newcolumn.Expression = "Convert($colname, $netdatatype)"
                            $null = $bulkCopy.ColumnMappings.Add($newcolumn.ColumnName, $calcolumn.colname)
                        }
                    }

                    # Check to see if file has quote identified data (i.e. "first","second","third")
                    $quoted = $false
                    $checkline = Get-Content $file -Last 1
                    $checkcolumns = $checkline.Split($InternalDelimiter)
                    foreach ($checkcolumn in $checkcolumns) {
                        if ($checkcolumn.StartsWith('"') -and $checkcolumn.EndsWith('"')) {
                            $quoted = $true
                        }
                    }

                    if ($quoted -eq $true) {
                        Write-Warning "The CSV file appears to use quoted identifiers. This may take a little longer."
                        # Thanks for this, Chris! http://www.schiffhauer.com/c-split-csv-values-with-a-regular-expression/
                        $pattern = "((?<=`")[^`"]*(?=`"($InternalDelimiter|$)+)|(?<=$InternalDelimiter|^)[^$InternalDelimiter`"]*(?=$InternalDelimiter|$))"
                    }
                    if ($turbo -eq $true -and $first -eq 0) {
                        while ($null -ne ($line = $reader.ReadLine())) {
                            $i++
                            if ($quoted -eq $true) {
                                $null = $datatable.Rows.Add(($line.TrimStart('"').TrimEnd('"')) -Split "`"$InternalDelimiter`"")
                            } else {
                                $row = $datatable.Rows.Add($line.Split($InternalDelimiter))
                            }

                            if (($i % $batchsize) -eq 0) {
                                $bulkcopy.WriteToServer($datatable)
                                Write-Output "[*] $i rows have been inserted in $([math]::Round($elapsed.Elapsed.TotalSeconds, 2)) seconds."
                                $datatable.Clear()
                            }
                        }
                    } else {
                        if ($turbo -eq $true -and $first -gt 0) { Write-Warning -Message "Using -First makes turbo a little slower." }
                        # Start import!
                        while ($null -ne ($line = $reader.ReadLine())) {
                            $i++
                            try {
                                if ($quoted -eq $true) {
                                    $row = $datatable.Rows.Add(($line.TrimStart('"').TrimEnd('"')) -Split $pattern)
                                } else {
                                    $row = $datatable.Rows.Add($line.Split($InternalDelimiter))
                                }
                            } catch {
                                $row = $datatable.NewRow()
                                try {
                                    $tempcolumn = $line.Split($InternalDelimiter)
                                    $colnum = 0
                                    foreach ($column in $tempcolumn) {
                                        if ($column.length -ne 0) {
                                            $row.item($colnum) = $column
                                        } else {
                                            $row.item($colnum) = [DBnull]::Value
                                        }
                                        $colnum++
                                    }
                                    #$newrow replaced with $null as it was identified as a unused variable
                                    $null = $datatable.Rows.Add($row)
                                } catch {
                                    Write-Warning "The following line ($i) is causing issues:"
                                    Write-Output $line.Replace($InternalDelimiter, "`n")

                                    if ($quoted -eq $true) {
                                        Write-Warning "The import has failed, likely because the quoted data was a little too inconsistent. Try using the -Safe parameter."
                                    }

                                    Write-Verbose "Column datatypes:"
                                    foreach ($c in $datatable.columns) {
                                        Write-Verbose "$($c.columnname) = $($c.datatype)"
                                    }
                                    Write-Error $_.Exception.Message
                                    break
                                }
                            }

                            if (($i % $batchsize) -eq 0 -or $i -eq $first) {
                                $bulkcopy.WriteToServer($datatable)
                                Write-Output "[*] $i rows have been inserted in $([math]::Round($elapsed.Elapsed.TotalSeconds, 2)) seconds."
                                $datatable.Clear()
                                if ($i -eq $first) {
                                    break
                                }
                            }
                        }
                    }
                    # Add in all the remaining rows since the last clear
                    if ($datatable.Rows.Count -gt 0) {
                        $bulkcopy.WriteToServer($datatable)
                        $datatable.Clear()
                    }
                } else {
                    # Add rowcount output
                    $bulkCopy.Add_SqlRowscopied( {
                            $script:totalrows = $args[1].RowsCopied
                            if ($resultcount -is [int]) {
                                $percent = [int](($script:totalrows / $resultcount) * 100)
                                $timetaken = [math]::Round($elapsed.Elapsed.TotalSeconds, 2)
                                Write-Progress -id 1 -activity "Inserting $resultcount rows" -percentcomplete $percent -status ([System.String]::Format("Progress: {0} rows ({1}%) in {2} seconds", $script:totalrows, $percent, $timetaken))
                            } else {
                                Write-Host "$($script:totalrows) rows copied in $([math]::Round($elapsed.Elapsed.TotalSeconds, 2)) seconds."
                            }
                        })

                    $bulkCopy.WriteToServer($olecmd.ExecuteReader("SequentialAccess"))
                    if ($resultcount -is [int]) {
                        Write-Progress -id 1 -activity "Inserting $resultcount rows" -status "Complete" -Completed
                    }

                }
                $completed = $true
            } catch {
                # If possible, give more information about common errors.
                if ($resultcount -is [int]) { Write-Progress -id 1 -activity "Inserting $resultcount rows" -status "Failed" -Completed }
                $errormessage = $_.Exception.Message.ToString()
                $completed = $false
                if ($errormessage -like "*for one or more required parameters*") {

                    Write-Error -Message "Looks like your SQL syntax may be invalid. `nCheck the documentation for more information or start with a simple -Query 'select top 10 * from csv'."
                    Write-Error -Message "Valid CSV columns are $columns."

                } elseif ($errormessage -match "invalid column length") {

                    # Get more information about malformed CSV input
                    $pattern = @("\d+")
                    $match = [regex]::matches($errormessage, @("\d+"))
                    $index = [int]($match.groups[1].Value) - 1
                    $sql = "select name, max_length from sys.columns where object_id = object_id('$table') and column_id = $index"
                    $sqlcmd = New-Object System.Data.SqlClient.SqlCommand($sql, $sqlconn, $transaction)
                    $datatable = New-Object System.Data.DataTable
                    $datatable.load($sqlcmd.ExecuteReader())
                    $column = $datatable.name
                    $length = $datatable.max_length

                    if ($safe -eq $true) {
                        Write-Warning "Column $index ($column) contains data with a length greater than $length."
                        Write-Warning "SqlBulkCopy makes it pretty much impossible to know which row caused the issue, but it's somewhere after row $($script:totalrows)."
                    }
                } elseif ($errormessage -match "does not allow DBNull" -or $errormessage -match "The given value of type") {

                    if ($tablexists -eq $false) {
                        Write-Error "Looks like the datatype prediction didn't work out. Please create the table manually with proper datatypes then rerun the import script."
                    } else {
                        $sql = "select name from sys.columns where object_id = object_id('$table') order by column_id"
                        $sqlcmd = New-Object System.Data.SqlClient.SqlCommand($sql, $sqlconn, $transaction)
                        $datatable = New-Object System.Data.DataTable
                        $datatable.Load($sqlcmd.ExecuteReader())
                        $olecolumns = ($columns | ForEach-Object { $_ -Replace "\[|\]" }) -join ', '
                        Write-Warning "Datatype mismatch."
                        Write-Output "[*] This is sometimes caused by null handling in SqlBulkCopy, quoted data, or the first row being column names and not data (-FirstRowColumns)."
                        Write-Output "[*] This could also be because the data types don't match or the order of the columns within the CSV/SQL statement "
                        Write-Output "[*] do not line up with the order of the table within the SQL Server.`n"
                        Write-Output "[*] CSV order: $olecolumns`n"
                        Write-Output "[*] SQL order: $($datatable.rows.name -join ', ')`n"
                        Write-Output "[*] If this is the case, you can reorder columns by using the -Query parameter or execute the import against a view.`n"
                        if ($safe -eq $false) {
                            Write-Output "[*] You can also try running this import using the -Safe parameter, which handles quoted text well.`n"
                        }
                        Write-Error "`n$errormessage"
                    }


                } elseif ($errormessage -match "Input string was not in a correct format" -or $errormessage -match "The given ColumnName") {
                    Write-Warning "CSV contents may be malformed."
                    Write-Error $errormessage
                } else { Write-Error $errormessage }
            }
        }

        if ($completed -eq $true) {
            # "Note: This count does not take into consideration the number of rows actually inserted when Ignore Duplicates is set to ON."
            $null = $transaction.Commit()

            if ($safe -eq $false) {
                Write-Output "[*] $i total rows copied"
            } else {
                $total = [System.Data.SqlClient.SqlBulkCopyExtension]::RowsCopiedCount($bulkcopy)
                Write-Output "[*] $total total rows copied"
            }
        } else {
            Write-Output "[*] Transaction rolled back."
            Write-Output "[*] (Was the proper parameter specified? Is the first row the column name?)."
        }

        # Script is finished. Show elapsed time.
        $totaltime = [math]::Round($elapsed.Elapsed.TotalSeconds, 2)
        Write-Output "[*] Total Elapsed Time for bulk insert: $totaltime seconds"
    }

    end {
        # Close everything just in case & ignore errors
        try {
            if ($oleconn.connection) {$null = $oleconn.close(); $null = $oleconn.dispose()}
            if ($olecmd.connection) {$null = $olecmd.close()}

            $null = $sqlconn.close(); $null = $sqlconn.Dispose();
            $null = $bulkCopy.close(); $bulkcopy.dispose();
            $null = $reader.close(); $null = $reader.dispose()
        } catch {
            #here to avoid an empty catch
            $null = 1
        }

        # Delete all the temp files
        if ($SqlCredentialPath.length -gt 0) {
            if ((Test-Path $SqlCredentialPath) -eq $true) {
                $null = cmd /c "del $SqlCredentialPath"
            }
        }

        if ($shellswitch -eq $false -and $safe -eq $true) {
            # Delete new schema files
            Write-Verbose "Removing automatically generated schema.ini."
            foreach ($file in $csv) {
                $directory = Split-Path $file
                $null = cmd /c "del $directory\schema.ini" | Out-Null
            }

            # If a shell switch occured, delete the temporary module file.
            if ((Test-Path "$env:TEMP\Import-DbaCsvToSql.psm1") -eq $true) {
                cmd /c "del $env:TEMP\Import-DbaCsvToSql.psm1" | Out-Null
            }

            # Move original schema.ini's back if they existed
            if ($movedschemainis.count -gt 0) {
                foreach ($item in $movedschemainis) {
                    Write-Verbose "Moving $($item.keys) back to $($item.values)."
                    $null = cmd /c "move $($item.keys) $($item.values)"
                }
            }
            Write-Output "[*] Finished at $(Get-Date)"
        }
        Test-DbaDeprecation -DeprecatedOn "1.0.0" -EnableException:$false -Alias Import-CsvToSql
    }
}