# why can't you assign a number with a decimal point to decimal type directly without using type suffix?

Why can't you assign a number with a decimal point to the decimal type directly without using type suffix? isn't this kind of number considered a number of type decimal?

``````decimal bankBalance = 3433.20; // ERROR!
``````
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Did we all miss the last part of the question or was that just added? –  Brian Rasmussen Jan 27 '09 at 21:09
Sorry it was added. –  prodev42 Jan 27 '09 at 21:16
The reason, as I and others said, is that there is no implicit type conversion done. If you enter 3433.20, that's a float by default. C# won't convert a float to a decimal. I don't know why they made this decision, but MSDN shows that this is the case. –  Eddie Jan 28 '09 at 6:33
My answer below has the link msdn.microsoft.com/en-us/library/364x0z75(VS.80).aspx to MSDN where they explain this. –  Eddie Jan 28 '09 at 6:34

Edit: I may have missed the last part of the question, so the overview below is hardly useful.

Anyway, the reason you can't do what you're trying to do is because there is no implicit conversion between floating point types and `decimal`. You can however assign it from an integer, as there is an implicit conversion from int to decimal.

You can, but you have to use this syntax (or do an explicit cast to decimal).

``````decimal bankBalance = 3433.20m;
``````

and for floats it is

``````float bankBalance = 3433.20f;
``````

default is double

``````double bankBalance = 3444.20;
``````
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Actually, you don't have to use this syntax; see my reply for the alternative (which is identical). –  Marc Gravell Jan 27 '09 at 23:31
Correct, but the explicit cast doesn't make it any easier to read imo, but you're right. –  Brian Rasmussen Jan 28 '09 at 6:28

Actually, hidden spec feature: you can ;-p

``````decimal bankBalance = (decimal)3433.20;
``````

This is genuinely parsed by the compiler as a decimal (not a float and a cast). See the IL to prove it. Note that the precision gets truncated, though (this has 1 decimal digit, not the 2 you get from the `M` version).

IL generated:

``````L_0001: ldc.i4 0x861c
L_0006: ldc.i4.0
L_0007: ldc.i4.0
L_0008: ldc.i4.0
L_0009: ldc.i4.1
L_000a: newobj instance void [mscorlib]System.Decimal::.ctor(int32, int32, int32, bool, uint8)
L_000f: stloc.0
``````

Compared to:

``````decimal bankBalance = 3433.20M;
``````

Which generates:

``````L_0001: ldc.i4 0x53d18
L_0006: ldc.i4.0
L_0007: ldc.i4.0
L_0008: ldc.i4.0
L_0009: ldc.i4.2
L_000a: newobj instance void [mscorlib]System.Decimal::.ctor(int32, int32, int32, bool, uint8)
L_000f: stloc.0
``````

The only difference is the decimal digits (1 vs 2, and a factor of 10, accordingly)

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Is really a literal decimal? Or is it just casting a double like it looks like? –  recursive Jan 27 '09 at 23:33
I'm not entirely sure (I haven't checked it), but I'm guessing this will generate a runtime cast from a double to a decimal. –  Tom Lokhorst Jan 27 '09 at 23:34
It is really a decimal. See the IL. –  Marc Gravell Jan 27 '09 at 23:36
I did just check the IL, and you're right. Although its weird that there's just one decimal digit... I did test it with the Mono C# compiler, so maybe it's part of the C# language spec. –  Tom Lokhorst Jan 27 '09 at 23:41

This

``````decimal bankBalance = 3433.20M;
``````

will work. The reason is that float and decimal are very different types. float will give you an extremely close approximation of the number you enter, but decimal will give you the exact number. 99% of the time you wont notice the difference, and should just use float.

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"Bank balances" and other monetary values being in that 1% of cases. –  Rob Jan 27 '09 at 23:45
Exactly, anything where there is zero margin for error –  Matt Briggs Jan 28 '09 at 2:57

See the MSDN page on decimal which explains that there is no implicit conversion between normal float types and decimal.

Try

`decimal bankBalance = 3433.20m;`

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1. All numerical literals with a decimal point are inferred to be of type `double` by the C# compiler, consequently, `3433.20` is a `double` by default.
2. `double` numbers do not implicitly convert to `decimal` because although `decimal` is more precise than `double` it covers a shorter range so overflow is possible during a cast from double to decimal.
`double`'s range: `±(~10^−324 to 10^308)` with 15 or 16 significant figures.
`decimal`'s range: `±(~10^-28 to 10^28)` with 28 or 29 significant figures.