How to convert a 6byte float into a double

I am connecting to a Pervasive SQL database which splits some data over two fields. DOUBLE fields are actually split into fieldName_1 and fieldName_2 where _1 is a 2 byte int and _2 is a 4 byte int.

I want to take these values and convert them using PHP into a usable value. I have some example code to do the conversion, but it is written in Delphi which I do not understand:

``````{ Reconstitutes a SmallInt and LongInt that form }
{ a Real into a double.                          }
Function EntConvertInts (Const Int2 : SmallInt;
Const Int4 : LongInt) : Double; StdCall;
Var
TheRealArray : Array [1..6] Of Char;
TheReal      : Real;
Begin
Move (Int2, TheRealArray[1], 2);
Move (Int4, TheRealArray[3], 4);
Move (TheRealArray[1], TheReal, 6);

Result := TheReal;
End;
``````

Some data [fieldName_1,fieldName_2]

[132, 805306368] -> this should be 11

[132, 1073741824] -> this should be 12

I don't understand the logic enough to be able to port this into PHP. Any help would be most appreciated. Thanks

EDIT. This is the C code that they provided, showing sign/exponent:

``````double real_to_double (real r)
/* takes Pascal real, return C double */
{
union doublearray da;
unsigned x;

x = r[0] & 0x00FF;  /* Real biased exponent in x */
/* when exponent is 0, value is 0.0 */
if (x == 0)
da.d = 0.0;
else {
da.a[3] = ((x + 894) << 4) |  /* adjust exponent bias */
(r[2] & 0x8000) |  /* sign bit */
((r[2] & 0x7800) >> 11);  /* begin significand */
da.a[2] = (r[2] << 5) |  /* continue shifting significand */
(r[1] >> 11);
da.a[1] = (r[1] << 5) |
(r[0] >> 11);
da.a[0] = (r[0] & 0xFF00) << 5; /* mask real's exponent */
}
return da.d;
}
``````
-
I would say it is not Delphi code. It is old Turbo Pascal code. Okay, maybe 16-bit Delphi 1, which really was TP on steroids. I'd put more details in pseudo-answer, with links, syntax highlighting and such. –  Arioch 'The Sep 19 '12 at 6:26

Adding this as another answer because I've finally figured this out. Here is PHP code which will convert the values. It has to be manually calculated because PHP does not know how to unpack a Real48 (non standard). Explanation in comments below.

``````function BiIntToReal48(\$f1, \$f2){
//full Real48 binary string
\$real48 = \$y . \$x;

//Real48 format is V = (-1)^s * 1.f * 2^(exp-129)
// rightmost eight bits are the exponent  (bits 40-->47)
// subtract 129 to get the final value
\$exp = (bindec(substr(\$real48, -8)) - 129);

//Sign bit is leftmost bit (bit[0])
\$sign =\$real48[0];

//Now work through the significand - bits are fractional binary
//(1/2s place, 1/4s place, 1/8ths place, etc)
// bits 1-->39
\$sgf = "1.0";

for (\$i = 1; \$i <= 39; \$i++){
if (\$real48[\$i] == 1){
\$sgf = \$sgf + pow(2,-\$i);
}
}
//final calculation
\$final = pow(-1, \$sign) * \$sgf * pow(2,\$exp);
return(\$final);
}
\$field_1 = 132;
\$field_2 = 805306368;
\$ConvVal = BiIntToReal48(\$field_1, \$field_2);
// ^ gives \$ConvVal = 11, qed
``````
-
+1, good work ! –  LU RD Feb 4 '12 at 8:42
Thanks. I actually haven't touched PHP in many years - it took me a moment to remember how it all works. I'd forgotten how much of a monster implicit typecaster it is! –  J... Feb 4 '12 at 11:11
I'm happy not to be forced to program in PHP. –  LU RD Feb 4 '12 at 11:41
J - this is Brilliant. Thank you so much for sticking this out, I really appreciate your effort on this. I'll test it in anger on Monday and see how a full run through the database turns out. Thank you again, very much. –  Alex Holsgrove Feb 4 '12 at 23:57
Hope it works for you! –  J... Feb 6 '12 at 13:58

I've been working on this issue for about a week now trying to get it sorted out for our organisation.

Our Finance dept use IRIS Exchequer and we need to get costs out. Using the above PHP code, I managed to get it working in Excel VBA with the following code (includes dependent functions). If not properly attributed below, I got all the long dec to bin functions from www.sulprobil.com. If you copy and paste the following code block into a Module you can reference my ExchequerDouble function from a cell.

Before I continue, I have to point out one error in the C/PHP code above. If you look at the Significand loops:

``````C/PHP: Significand = Significand + 2 ^ (-i)
VBA:   Significand = Significand + 2 ^ (1 - i)
``````

I noticed during testing that the answers were very close but often incorrect. Drilling further down I narrowed it down to the Significand. It might be a problem with translating the code from one language/methodology to another, or may have simply been a typo, but adding that (1 - i) made all the difference.

``````Function ExchequerDouble(Val1 As Integer, Val2 As Long) As Double
Dim Int2 As String
Dim Int4 As String
Dim Real48 As String
Dim Exponent As String
Dim Sign As String
Dim Significand As String

'Convert each value to binary
Int2 = LongDec2Bin(Val1, 16, True)
Int4 = LongDec2Bin(Val2, 32, True)

'Concatenate the binary strings to produce a 48 bit "Real"
Real48 = Int4 & Int2

'Calculate the exponent
Exponent = LongBin2Dec(Right(Real48, 8)) - 129

'Calculate the sign
Sign = Left(Real48, 1)

'Begin calculation of Significand
Significand = "1.0"

For i = 2 To 40
If Mid(Real48, i, 1) = "1" Then
Significand = Significand + 2 ^ (1 - i)
End If
Next i

ExchequerDouble = CDbl(((-1) ^ Sign) * Significand * (2 ^ Exponent))
End Function

Function LongDec2Bin(ByVal sDecimal As String, Optional lBits As Long = 32, Optional blZeroize As Boolean = False) As String
'Transforms decimal number into binary number.
'Reverse("moc.LiborPlus.www") V0.3 P3 16-Jan-2011

Dim sDec As String
Dim sFrac As String
Dim sD As String 'Internal temp variable to represent decimal
Dim sB As String
Dim blNeg As Boolean
Dim i As Long
Dim lPosDec As Long
Dim lLenBinInt As Long

lPosDec = InStr(sDecimal, Application.DecimalSeparator)

If lPosDec > 0 Then
If Left(sDecimal, 1) = "-" Then 'negative fractions later..
LongDec2Bin = CVErr(xlErrValue)
Exit Function
End If

sDec = Left(sDecimal, lPosDec - 1)
sFrac = Right(sDecimal, Len(sDecimal) - lPosDec)
lPosDec = Len(sFrac)
Else
sDec = sDecimal
sFrac = ""
End If

sB = ""

If Left(sDec, 1) = "-" Then
blNeg = True
sD = Right(sDec, Len(sDec) - 1)
Else
blNeg = False
sD = sDec
End If

Do While Len(sD) > 0
Select Case Right(sD, 1)
Case "0", "2", "4", "6", "8"
sB = "0" & sB
Case "1", "3", "5", "7", "9"
sB = "1" & sB
Case Else
LongDec2Bin = CVErr(xlErrValue)
Exit Function
End Select

sD = sbDivBy2(sD, True)

If sD = "0" Then
Exit Do
End If
Loop

If blNeg And sB <> "1" & String(lBits - 1, "0") Then
sB = sbBinNeg(sB, lBits)
End If

'Test whether string representation is in range and correct
'If not, the user has to increase lbits

lLenBinInt = Len(sB)

If lLenBinInt > lBits Then
LongDec2Bin = CVErr(x1ErrNum)
Exit Function
Else
If (Len(sB) = lBits) And (Left(sB, 1) <> -blNeg & "") Then
LongDec2Bin = CVErr(xlErrNum)
Exit Function
End If
End If

If blZeroize Then sB = Right(String(lBits, "0") & sB, lBits)

If lPosDec > 0 And lLenBinInt + 1 < lBits Then
sB = sB & Application.DecimalSeparator
i = 1

Do While i + lLenBinInt < lBits
sFrac = sbDecAdd(sFrac, sFrac) 'Double fractional part

If Len(sFrac) > lPosDec Then
sB = sB & "1"
sFrac = Right(sFrac, lPosDec)

If sFrac = String(lPosDec, "0") Then
Exit Do
End If
Else
sB = sB & "0"
End If

i = i + 1
Loop

LongDec2Bin = sB
Else
LongDec2Bin = sB
End If
End Function

Function LongBin2Dec(sBinary As String, Optional lBits As Long = 32) As String
'Transforms binary number into decimal number.
'Reverse("moc.LiborPlus.www") V0.3 PB 16-Jan-2011

Dim sBin As String
Dim sB As String
Dim sFrac As String
Dim sD As String
Dim sR As String
Dim blNeg As Boolean
Dim i As Long
Dim lPosDec As Long

lPosDec = InStr(sBinary, Application.DecimalSeparator)

If lPosDec > 0 Then
If (Left(sBinary, 1) = "1") And Len(sBin) >= lBits Then 'negative fractions later..
LongBin2Dec = CVErr(xlErrVa1ue)
Exit Function
End If

sBin = Left(sBinary, lPosDec - 1)
sFrac = Right(sBinary, Len(sBinary) - lPosDec)
lPosDec = Len(sFrac)
Else
sBin = sBinary
sFrac = ""
End If

Select Case Sgn(Len(sBin) - lBits)
Case 1
LongBin2Dec = CVErr(x1ErrNum)
Exit Function
Case 0
If Left(sBin, 1) = "1" Then
sB = sbBinNeg(sBin, lBits)
blNeg = True
Else
sB = sBin
blNeg = False
End If
Case -1
sB = sBin
blNeg = False
End Select

sD = "1"
sR = "0"

For i = Len(sB) To 1 Step -1
Select Case Mid(sB, i, 1)
Case "1"
Case "0"
'Do Nothing
Case Else
LongBin2Dec = CVErr(xlErrNum)
Exit Function
End Select

sD = sbDecAdd(sD, sD) 'Double sd
Next i

If lPosDec > 0 Then 'now the fraction
sD = "0.5"

For i = 1 To lPosDec
If Mid(sFrac, i, 1) = "1" Then
End If

sD = sbDivBy2(sD, False)
Next i
End If

If blNeg Then
LongBin2Dec = "-" & sR
Else
LongBin2Dec = sR
End If
End Function

Function sbDivBy2(sDecimal As String, blInt As Boolean) As String
'Divide sDecimal by two, blInt = TRUE returns integer only
'Reverse("moc.LiborPlus.www") V0.3 PB 16-Jan-2011

Dim i As Long
Dim lPosDec As Long
Dim sDec As String
Dim sD As String
Dim lCarry As Long

If Not blInt Then
lPosDec = InStr(sDecimal, Application.DecimalSeparator)

If lPosDec > 0 Then
'Without decimal point lPosDec already defines location of decimal point
sDec = Left(sDecimal, lPosDec - 1) & Right(sDecimal, Len(sDecimal) - lPosDec)
Else
sDec = sDecimal
lPosDec = Len(sDec) + 1 'Location of decimal point
End If

If ((1 * Right(sDec, 1)) Mod 2) = 1 Then
sDec = sDec & "0" 'Append zero so that integer algorithm calculates division exactly
End If
Else
sDec = sDecimal
End If

lCarry = 0

For i = 1 To Len(sDec)
sD = sD & Int((lCarry * 10 + Mid(sDec, i, 1)) / 2)
lCarry = (lCarry * 10 + Mid(sDec, i, 1)) Mod 2
Next i

If Not blInt Then
If Right(sD, Len(sD) - lPosDec + 1) <> String(Len(sD) - lPosDec + 1, "0") Then
'frac part Is non - zero
i = Len(sD)

Do While Mid(sD, i, 1) = "0"
i = i - 1 'Skip trailing zeros
Loop

'Insert decimal point again
sD = Left(sD, lPosDec - 1) _
& Application.DecimalSeparator & Mid(sD, lPosDec, i - lPosDec + 1)
End If
End If

i = 1

Do While i < Len(sD)
If Mid(sD, i, 1) = "0" Then
i = i + 1
Else
Exit Do
End If
Loop

If Mid(sD, i, 1) = Application.DecimalSeparator Then
i = i - 1
End If

sbDivBy2 = Right(sD, Len(sD) - i + 1)
End Function

Function sbBinNeg(sBin As String, Optional lBits As Long = 32) As String
'Negate sBin: take the 2's-complement, then add one
'Reverse("moc.LiborPlus.www") V0.3 PB 16-Jan-2011

Dim i As Long
Dim sB As String

If Len(sBin) > lBits Or sBin = "1" & String(lBits - 1, "0") Then
sbBinNeg = CVErr(xlErrValue)
Exit Function
End If

'Calculate 2 's-complement
For i = Len(sBin) To 1 Step -1
Select Case Mid(sBin, i, 1)
Case "1"
sB = "0" & sB
Case "0"
sB = "1" & sB
Case Else
sbBinNeg = CVErr(xlErrValue)
Exit Function
End Select
Next i

sB = String(lBits - Len(sBin), "1") & sB

i = lBits

Do While i > 0
If Mid(sB, i, 1) = "1" Then
Mid(sB, i, 1) = "0"
i = i - 1
Else
Mid(sB, i, 1) = "1"
i = 0
End If
Loop

i = InStr(sB, "1")

If i = 0 Then
sbBinNeg = "0"
Else
sbBinNeg = Right(sB, Len(sB) - i + 1)
End If
End Function

Function sbDecAdd(sOne As String, sTwo As String) As String
'Sum up two string decimals.
'Reverse("moc.LiborPlus.www") V0.3 PB 16-Jan-2011
Dim lStrLen As Long
Dim s1 As String
Dim s2 As String
Dim sA As String
Dim sB As String
Dim sR As String
Dim d As Long
Dim lCarry As Long
Dim lPosDec1 As Long
Dim lPosDec2 As Long
Dim sF1 As String
Dim sF2 As String

lPosDec1 = InStr(sOne, Application.DecimalSeparator)

If lPosDec1 > 0 Then
s1 = Left(sOne, lPosDec1 - 1)
sF1 = Right(sOne, Len(sOne) - lPosDec1)
lPosDec1 = Len(sF1)
Else
s1 = sOne
sF1 = ""
End If

lPosDec2 = InStr(sTwo, Application.DecimalSeparator)

If lPosDec2 > 0 Then
s2 = Left(sTwo, lPosDec2 - 1)
sF2 = Right(sTwo, Len(sTwo) - lPosDec2)
lPosDec2 = Len(sF2)
Else
s2 = sTwo
sF2 = ""
End If

If lPosDec1 + lPosDec2 > 0 Then
If lPosDecl > lPosDec2 Then
sF2 = sF2 & String(lPosDec1 - lPosDec2, "0")
Else
sF1 = sFl & String(lPosDec2 - lPosDec1, "0")
lPosDec1 = lPosDec2
End If

If Len(sF1) > lPosDecl Then
lCarry = 1
sF1 = Right(sF1, lPosDec1)
Else
lCarry = 0
End If

Do While lPosDec1 > 0
If Mid(sF1, lPosDec1, 1) <> "0" Then
Exit Do
End If

lPosDec1 = lPosDec1 - 1
Loop

sF1 = Left(sF1, lPosDec1)
Else
lCarry = 0
End If

lStrLen = Len(sl)

If lStrLen < Len(s2) Then
lStrLen = Len(s2)
sA = String(lStrLen - Len(s1), "0") & s1
sB = s2
Else
sA = s1
sB = String(lStrLen - Len(s2), "0") & s2
End If

Do While lStrLen > 0
d = 0 + Mid(sA, lStrLen, 1) + Mid(sB, lStrLen, 1) + lCarry

If d > 9 Then
sR = (d - 10) & sR
lCarry = 1
Else
sR = d & sR
lCarry = 0
End If

lStrLen = lStrLen - 1
Loop

If lCarry > 0 Then
sR = lCarry & sR
End If

If lPosDec1 > 0 Then
sbDecAdd = sR & Application.DecimalSeparator & sF1
Else
End If
End Function
``````

This code works, but sometimes (around 1% of my test data) you end up a couple pennies out compared to Iris' EntDouble function from the Excel Addin. I'll attribute this to precision, unless someone can figure it out.

Ultimately getting this working in VBA was my proof of concept to check everything worked. The intended platform for this functionality was SQL Server. If you have your Exchequer DB linked to a SQL Server you should be able to run this function directly against the data from the Pervasive DB. In my case, we are going to dump out the last 2.5 years worth of transaction data into a static table on SQL Server, but we're only working with this data once a year so it's not an issue. The following two functions should sort you out. In terms of precision, they are equivalent to the VBA code above with some being out by a couple pennies sometimes, but it seems 99% of the time it's exactly the same. We use SQL Server 2000 so there are some things that can probably be optimised (Varchar(MAX) for one) for newer versions but ultimately this should work fine as far as I know.

``````CREATE FUNCTION dbo.FUNCTION_Exchequer_Double
(
@Val1 AS SmallInt,
@Val2 AS BigInt
)
RETURNS Decimal(38, 10)
AS
BEGIN
-- Declare and set decoy variables
DECLARE @Val1_Decoy AS SmallInt
DECLARE @Val2_Decoy AS BigInt

SELECT  @Val1_Decoy = @Val1,
@Val2_Decoy = @Val2

-- Declare other variables
DECLARE @Val1_Binary AS Varchar(16)
DECLARE @Val2_Binary AS Varchar(32)
DECLARE @Real48_Binary AS Varchar(48)
DECLARE @Real48_Decimal AS BigInt
DECLARE @Exponent AS Int
DECLARE @Sign AS Bit
DECLARE @Significand AS Decimal(19, 10)
DECLARE @BitCounter AS Int
DECLARE @Two As Decimal(38, 10) -- Saves us casting inline in the code
DECLARE @Output AS Decimal(38, 10)

-- Convert values into two binary strings of the correct length (Val1 = 16 bits, Val2 = 32 bits)
SELECT  @Val1_Binary = Replicate(0, 16 - Len(dbo.FUNCTION_Convert_To_Base(Cast(@Val1_Decoy AS Binary(2)), 2)))
+ dbo.FUNCTION_Convert_To_Base(Cast(@Val1_Decoy AS Binary(2)), 2),
@Val2_Binary = Replicate(0, 32 - Len(dbo.FUNCTION_Convert_To_Base(Cast(@Val2_Decoy AS Binary(4)), 2)))
+ dbo.FUNCTION_Convert_To_Base(Cast(@Val2_Decoy AS Binary(4)), 2)

-- Find the decimal value of the new 48 bit number and its binary value
SELECT  @Real48_Decimal = @Val2_Decoy * Power(2, 16) + @Val1_Decoy
SELECT  @Real48_Binary = @Val2_Binary + @Val1_Binary

-- Determine the Exponent (takes the first 8 bits and subtracts 129)
SELECT  @Exponent = Cast(@Real48_Decimal AS Binary(1)) - 129

-- Determine the Sign
SELECT  @Sign = Left(@Real48_Binary, 1)

-- A bit of setup for determining the Significand
SELECT  @Significand = 1,
@Two = 2,
@BitCounter = 2

-- Determine the Significand
WHILE   @BitCounter <= 40
BEGIN
IF Substring(@Real48_Binary, @BitCounter, 1) Like '1'
BEGIN
SELECT @Significand = @Significand + Power(@Two, 1 - @BitCounter)
END

SELECT @BitCounter = @BitCounter + 1
END

SELECT  @Output = Power(-1, @Sign) * @Significand * Power(@Two, @Exponent)

-- Return the output
RETURN  @Output
END

CREATE FUNCTION dbo.FUNCTION_Convert_To_Base
(
@value AS BigInt,
@base AS Int
)
RETURNS Varchar(8000)
AS
BEGIN

-- some variables
DECLARE @characters Char(36)
DECLARE @result Varchar(8000)

-- the encoding string and the default result
SELECT  @characters = '0123456789abcdefghijklmnopqrstuvwxyz',
@result = ''

-- make sure it's something we can encode.  you can't have
-- base 1, but if we extended the length of our @character
-- string, we could have greater than base 36
IF      @value < 0 Or @base < 2 Or @base > 36
RETURN Null

-- until the value is completely converted, get the modulus
-- of the value and prepend it to the result string.  then
-- devide the value by the base and truncate the remainder
WHILE   @value > 0
SELECT  @result = Substring(@characters, @value % @base + 1, 1) + @result,
@value = @value / @base

-- return our results
RETURN  @result

END
``````

Feel free to use either my VBA or SQL code. The truly hard work was done by whoever converted it to PHP above. If anyone finds any way of improving anything please do let me know so we can make this code as perfect as possible.

Thanks!

-
the `1-i` you need is because you are counting from 2->40 whereas I was counting from 1->39. This due to the fact that VBA arrays count the first element as `1` whereas many other languages (like PHP) count the first array value as `0` (so your i values shift up one when talking about the bit index). –  J... Sep 22 '12 at 19:50
Yeah I realised that the following morning (sleeping on a problem definitely works!) but I forgot to post again. Thanks for clarifying that for others though! –  ubercam Sep 26 '12 at 8:56

Delphi's `Move` command is used for moving blocks of memory from one place to another. This looks like old Delphi code - the `Real` type is obsolete, replaced with `Double` (edit `Real48` replaces 6-byte `Real`), and the `Byte` type is probably a better one to use than `Char`. Both are bytes, but Char is more meant for single byte characters (ascii). What this code is doing is:

1) Declare an array of Char(could use `Byte` here) which is six bytes in length. Also declare a `Real` (edit now `Real48` type) to store the converted value.

``````TheRealArray : Array [1..6] Of Char;
TheReal      : Real;
``````

2) Move the two-byte Int value TO TheRealArray - start at index1 and move 2 bytes of data (ie: all of Int2, a SmallInt (16-bits)). Do the same with Int4 and start it at index [3], 4 bytes long.

``````Move (Int2, TheRealArray[1], 2);
Move (Int4, TheRealArray[3], 4);
``````

if you started with (picture, not code)

``````Int2 = [2_byte0][2_byte1]
Int4 = [4_byte0][4_byte1][4_byte2][4_byte3]
``````

you would have:

``````TheRealArray = [2_byte0][2_byte1][4_byte0][4_byte1][4_byte2][4_byte3]
``````

The final move command copies this array to the memory location of `TheReal`, which is a real (6-byte float) type. It starts at index1 of the array, copies it to `TheReal`, and copies a total of six bytes (ie:the whole thing).

`````` Move (TheRealArray[1], TheReal, 6);
``````

Assuming that the data stored in Int2 and Int4, when concatenated like this, produce a properly formatted Real48 then you end up with TheReal holding the data in the proper format.

in PHP strings are fundamentally byte arrays (like Array[1..6] of Char in Delphi) so you could do the something similar using unpack() to convert to float.

-
As there are six bytes involved the floating point type should probably be the six byte type `Real48` (formerly known as `Real`) and not the 8 byte type `Double`. –  Uli Gerhardt Feb 1 '12 at 14:12
Fair point, and that would make sense for the formating. I've edited my answer. –  J... Feb 1 '12 at 15:22
J, thanks for your reply. If I take some example data, a stock field (stock_1, stock_2) has values of 141 and 1163395072 (using php's decbin() gives 10001101 and 1000101010110000000000000000000) so I need to shift the field_2 over to the right by 2 bytes (16 bits) and stick field_1 over the top? As you can probably tell, I've not done a whole lot of bitwise operations! –  Alex Holsgrove Feb 1 '12 at 15:40
I don't know, I've been trying out variations of this code and I have no idea what it should look like. It would be helpful to know more about the storage formats - I'm guessing at conversion rules here. Is the routine above provided by the same person who devised the two-int SQL storage encoding? Does the field_1 only use half of its 16 bits (ie: store the 8-bit mantissa of the Real48). It would help even knowing what actual number the field pair should correspond to. That would help in figuring out how the values are stored. –  J... Feb 1 '12 at 17:31
Using "Byte" instead of "Char" this gives 6315, using "Byte" and "Real" gives an exp(263) magnitude number... it seems like there are also endian swaps going on when using "Move" -> ie : [f1b1][f1b2][f2b3][f2b4][f2b1][f2b2] is the order in the array. What is needed is really a document explaining the format stored the DB. Without that it is difficult to build a robust converter. Using Move is probably not a good idea since endianness will not always be guaranteed. –  J... Feb 1 '12 at 17:46

Just spinning on J...'s answer. Utilizing a variant record the code is somewhat simplified :

``````Function EntConvertInts (Const Int2 : SmallInt;
Const Int4 : LongInt) : Double; StdCall;
Type
TReal48PlaceHolder = record
case boolean of
true : (theRealArray : array [1..6] of byte);
false : (r48 : Real48);
end;

Var
R48Rec : TReal48PlaceHolder;
Begin
Move (Int2, R48Rec.theRealArray[1], 2);
Move (Int4, R48Rec.theRealArray[3], 4);

Result := R48Rec.r48;
End;

var
r : Double;
begin
r:= EntConvertInts(132,805306368);
WriteLn(r); // Should be 11
r:= EntConvertInts(141,1163395072);
WriteLn(r); // Should be 6315

end.
``````
-
Thanks for this. I am just trying to work out how to get it into PHP as this will be handling the data taken from the stock database. –  Alex Holsgrove Feb 2 '12 at 9:28
I get this too - using Real48 and Byte types seems to be 'correct'. I'm still puzzled at how this works. Real48 is stored as (sign bit)(39bit mantissa)(8bit exponent). The equation works like (-1)^s * (1.m) * 2^(exp-129). For a value of 6315 the exponent should be 12 (+129 = 141) to give 4096 times 1.541748046875 with a zero sign bit but it doesn't work out that way. Same with 11 -> it should have 132 exponent (to give 2^(3) = 8) times 1.375 so the mantissa should be 375 -> 101110111, but it's not - 805306368 is 30000000 hex - there are only two (1)s to shift about. Missing something... –  J... Feb 2 '12 at 19:20
sorry, mantissa should be 37500000000... but it's not –  J... Feb 3 '12 at 9:56
I'm a dunce - I've been working with .NET decimals and they store mantissa as clear binary rather than fractional... this all makes sense now. New answer below. –  J... Feb 3 '12 at 21:45

That is nor answer in "PHP code" sense. I just wanted to warn any person who maybe would find this code by Delphi tag.

THAT WAS NOT DELPHI !!!

It is old Turbo Pascal code. Okay, maybe 16-bit Delphi 1, which really was TP on steroids.

Don't try this code on 32-bit Delphi, at least not before replacing Char and Real types that changed. Both those types are changed from Turbo Pascal times, especially 6-byte Real which never was hardware FPU-compatible!

Probably FreePascal can bear vanilla TurboPascal code if settled to proper mode, but better still use Delphi mode and updated code.

One should also ensure that SmallInt type is 16-bit integer (int16) and LongInt is 32-bit(int32). This seemes to hold for 16-bit, 32-bit and 64-bit Delphi compilers, yet probably may change in other Pascal implementations.

Below i try to modify code compatible with modern Delphi. I was not able to test it though.

Hopefully that might help someone someday covert some similat old type-casting TurboPascal code to newer flavours.

This code is directly following original one, yet more compatible, concise and fast.

``````{ Reconstitutes a SmallInt and LongInt that form }
{ a Real into a double.                          }
Function EntConvertInts (Const Int2 : SmallInt;
Const Int4 : LongInt) : Double;
(* StdCall; - only needed for non-Pascal DLLs  *)
Var
TheRealArray : Packed Array [1..6] Of Byte; //AnsiChar  may suffice too

TheReal      : Real48   absolute TheRealArray;
TheInt2      : SmallInt absolute TheRealArray[1];
TheInt4      : LongInt  absolute TheRealArray[3];
Begin
Assert(SizeOf(TheInt2) = 2);
Assert(SizeOf(TheInt4) = 2);
Assert(SizeOf(TheReal) = 6);

TheInt2 := Int2; (* Move (Int2, TheRealArray[1], 2); *)
TheInt4 := Int4; (* Move (Int4, TheRealArray[3], 4); *)
(* Move (TheRealArray[1], TheReal, 6); *)

Result := TheReal;
End;
``````

This code is directly using native Turbo Pascal features tagless variant record

``````{ Reconstitutes a SmallInt and LongInt that form }
{ a Real into a double.                          }
Function EntConvertInts (Const Int2 : SmallInt;
Const Int4 : LongInt) : Double;
(* StdCall; - only needed for non-Pascal DLLs  *)
Var
Value : Packed Record
Case Byte of
0: (TheReal: Real48);
1: (Packed Record TheInt2: SmallInt;
TheInt4: LongInt; end; );
end;
Begin
Assert(SizeOf(Value.TheInt2) = 2);
Assert(SizeOf(Value.TheInt4) = 2);
Assert(SizeOf(Value.TheReal) = 6);

Value.TheInt2 := Int2; (* Move (Int2, TheRealArray[1], 2); *)
Value.TheInt4 := Int4; (* Move (Int4, TheRealArray[3], 4); *)
(* Move (TheRealArray[1], TheReal, 6); *)

Result := Value.TheReal;
End;
``````
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