I have a float column with numbers of different length and I'm trying to convert them to varchar.
Some values exceed bigint max size, so I can't do something like this
cast(cast(float_field as bigint) as varchar(100))
I've tried using decimal, but numbers aren't of the same size, so this doesn't help too
CONVERT(varchar(100), Cast(float_field as decimal(38, 0)))
Any help is appreciated.
UPDATE:
Sample value is 2.2000012095022E+26.
Try using the STR() function.
SELECT STR(float_field, 25, 5)
Another note: this pads on the left with spaces. If this is a problem combine with LTRIM:
SELECT LTRIM(STR(float_field, 25, 5))
Select LTRIM(Str(float_field, 38, 0)) work for your data?
Sep 15, 2010 at 9:16
Str function. The number of digits after the decimal point. Did you read the link i posted? Change the zero to 10. Select LTRIM(Str(float_field, 38, 10))
Sep 15, 2010 at 9:52
The only query bit I found that returns the EXACT same original number is
CONVERT (VARCHAR(50), float_field,128)
See http://www.connectsql.com/2011/04/normal-0-microsoftinternetexplorer4.html
The other solutions above will sometimes round or add digits at the end
UPDATE: As per comments below and what I can see in https://msdn.microsoft.com/en-us/library/ms187928.aspx:
CONVERT (VARCHAR(50), float_field,3)
Should be used in new SQL Server versions (Azure SQL Database, and starting in SQL Server 2016 RC3)
0 float value being converted as 0.0E0. I needed to convert the float field to varchar as I need to display NA when NULL and 0 as it is. I achieved this by adding CASE statement in the query as below; CASE WHEN float_field IS NULL THEN 'NA' WHEN float_field = 0 THEN '0' ELSE CONVERT(VARCHAR, float_field, 128) END AS float_As_VChar
CONVERT (VARCHAR(50), float_field,128) was not exact and introduced rounding error CONVERT (VARCHAR(50), float_field,3) did not
this is the solution I ended up using in sqlserver 2012 (since all the other suggestions had the drawback of truncating fractional part or some other drawback).
declare @float float = 1000000000.1234;
select format(@float, N'#.##############################');
output:
1000000000.1234
this has the further advantage (in my case) to make thousands separator and localization easy:
select format(@float, N'#,##0.##########', 'de-DE');
output:
1.000.000.000,1234
SELECT LTRIM(STR(float_field, 25, 0))
is the best way so you do not add .0000 and any digit at the end of the value.
Convert into an integer first and then into a string:
cast((convert(int,b.tax_id)) as varchar(20))
Useful topic thanks.
If you want like me remove leadings zero you can use that :
DECLARE @MyFloat [float];
SET @MyFloat = 1000109360.050;
SELECT REPLACE(RTRIM(REPLACE(REPLACE(RTRIM(LTRIM(REPLACE(STR(@MyFloat, 38, 16), '0', ' '))), ' ', '0'),'.',' ')),' ',',')
float only has a max. precision of 15 digits. Digits after the 15th position are therefore random, and conversion to bigint (max. 19 digits) or decimal does not help you.
This can help without rounding
declare @test float(25)
declare @test1 decimal(10,5)
select @test = 34.0387597207
select @test
set @test1 = convert (decimal(10,5), @test)
select cast((@test1) as varchar(12))
Select LEFT(cast((@test1) as varchar(12)),LEN(cast((@test1) as varchar(12)))-1)
Try this one, should work:
cast((convert(bigint,b.tax_id)) as varchar(20))
select replace(myFloat, '', '')
from REPLACE() documentation:
Returns nvarchar if one of the input arguments is of the nvarchar data type; otherwise, REPLACE returns varchar.
Returns NULL if any one of the arguments is NULL.
tests:
null ==> [NULL]
1.11 ==> 1.11
1.10 ==> 1.1
1.00 ==> 1
0.00 ==> 0
-1.10 ==> -1.1
0.00001 ==> 1e-005
0.000011 ==> 1.1e-005
If you use a CLR function, you can convert the float to a string that looks just like the float, without all the extra 0's at the end.
[Microsoft.SqlServer.Server.SqlFunction(DataAccess = DataAccessKind.Read)]
[return: SqlFacet(MaxSize = 50)]
public static SqlString float_to_str(double Value, int TruncAfter)
{
string rtn1 = Value.ToString("R");
string rtn2 = Value.ToString("0." + new string('0', TruncAfter));
if (rtn1.Length < rtn2.Length) { return rtn1; } else { return rtn2; }
}
.
create table #temp (value float)
insert into #temp values (0.73), (0), (0.63921), (-0.70945), (0.28), (0.72000002861023), (3.7), (-0.01), (0.86), (0.55489), (0.439999997615814)
select value,
dbo.float_to_str(value, 18) as converted,
case when value = cast(dbo.float_to_str(value, 18) as float) then 1 else 0 end as same
from #temp
drop table #temp
.
value converted same
---------------------- -------------------------- -----------
0.73 0.73 1
0 0 1
0.63921 0.63921 1
-0.70945 -0.70945 1
0.28 0.28 1
0.72000002861023 0.72000002861023 1
3.7 3.7 1
-0.01 -0.01 1
0.86 0.86 1
0.55489 0.55489 1
0.439999997615814 0.439999997615814 1
.
All converted strings are truncated at 18 decimal places, and there are no trailing zeros. 18 digits of precision is not a problem for us. And, 100% of our FP numbers (close to 100,000 values) look identical as string values as they do in the database as FP numbers.
Modified Axel's response a bit as it for certain cases will produce undesirable results.
DECLARE @MyFloat [float];
SET @MyFloat = 1000109360.050;
SELECT REPLACE(RTRIM(REPLACE(REPLACE(RTRIM((REPLACE(CAST(CAST(@MyFloat AS DECIMAL(38,18)) AS VARCHAR(max)), '0', ' '))), ' ', '0'),'.',' ')),' ','.')
Select
cast(replace(convert(decimal(15,2),acs_daily_debit), '.', ',') as varchar(20))
from acs_balance_details
Based on molecular's answer:
DECLARE @F FLOAT = 1000000000.1234;
SELECT @F AS Original, CAST(FORMAT(@F, N'#.##############################') AS VARCHAR) AS Formatted;
SET @F = 823399066925.049
SELECT @F AS Original, CAST(@F AS VARCHAR) AS Formatted
UNION ALL SELECT @F AS Original, CONVERT(VARCHAR(128), @F, 128) AS Formatted
UNION ALL SELECT @F AS Original, CAST(FORMAT(@F, N'G') AS VARCHAR) AS Formatted;
SET @F = 0.502184537571209
SELECT @F AS Original, CAST(@F AS VARCHAR) AS Formatted
UNION ALL SELECT @F AS Original, CONVERT(VARCHAR(128), @F, 128) AS Formatted
UNION ALL SELECT @F AS Original, CAST(FORMAT(@F, N'G') AS VARCHAR) AS Formatted;
I just came across a similar situation and was surprised at the rounding issues of 'very large numbers' presented within SSMS v17.9.1 / SQL 2017.
I am not suggesting I have a solution, however I have observed that FORMAT presents a number which appears correct. I can not imply this reduces further rounding issues or is useful within a complicated mathematical function.
T SQL Code supplied which should clearly demonstrate my observations while enabling others to test their code and ideas should the need arise.
WITH Units AS
(
SELECT 1.0 AS [RaisedPower] , 'Ten' As UnitDescription
UNION ALL
SELECT 2.0 AS [RaisedPower] , 'Hundred' As UnitDescription
UNION ALL
SELECT 3.0 AS [RaisedPower] , 'Thousand' As UnitDescription
UNION ALL
SELECT 6.0 AS [RaisedPower] , 'Million' As UnitDescription
UNION ALL
SELECT 9.0 AS [RaisedPower] , 'Billion' As UnitDescription
UNION ALL
SELECT 12.0 AS [RaisedPower] , 'Trillion' As UnitDescription
UNION ALL
SELECT 15.0 AS [RaisedPower] , 'Quadrillion' As UnitDescription
UNION ALL
SELECT 18.0 AS [RaisedPower] , 'Quintillion' As UnitDescription
UNION ALL
SELECT 21.0 AS [RaisedPower] , 'Sextillion' As UnitDescription
UNION ALL
SELECT 24.0 AS [RaisedPower] , 'Septillion' As UnitDescription
UNION ALL
SELECT 27.0 AS [RaisedPower] , 'Octillion' As UnitDescription
UNION ALL
SELECT 30.0 AS [RaisedPower] , 'Nonillion' As UnitDescription
UNION ALL
SELECT 33.0 AS [RaisedPower] , 'Decillion' As UnitDescription
)
SELECT UnitDescription
, POWER( CAST(10.0 AS FLOAT(53)) , [RaisedPower] ) AS ReturnsFloat
, CAST( POWER( CAST(10.0 AS FLOAT(53)) , [RaisedPower] ) AS NUMERIC (38,0) ) AS RoundingIssues
, STR( CAST( POWER( CAST(10.0 AS FLOAT(53)) , [RaisedPower] ) AS NUMERIC (38,0) ) , CAST([RaisedPower] AS INT) + 2, 0) AS LessRoundingIssues
, FORMAT( POWER( CAST(10.0 AS FLOAT(53)) , [RaisedPower] ) , '0') AS NicelyFormatted
FROM Units
ORDER BY [RaisedPower]
cast(float_field as varchar(max))otherwise I don't get the question