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| author | Yoichi Hirai <i@yoichihirai.com> | 2016-11-23 22:18:46 +0800 |
|---|---|---|
| committer | Yoichi Hirai <i@yoichihirai.com> | 2016-11-25 17:47:09 +0800 |
| commit | 76dd85edfacb1909a7de5807d369e69c8558deac (patch) | |
| tree | 53732a560c0ad81de4907bcb4824508ee74c93a0 /docs/types.rst | |
| parent | 27ed2b70cc8872fbdcdbfbd6fba46230a924187a (diff) | |
| download | dexon-solidity-76dd85edfacb1909a7de5807d369e69c8558deac.tar.gz dexon-solidity-76dd85edfacb1909a7de5807d369e69c8558deac.tar.zst dexon-solidity-76dd85edfacb1909a7de5807d369e69c8558deac.zip | |
docs: a bit more about literals
Diffstat (limited to 'docs/types.rst')
| -rw-r--r-- | docs/types.rst | 16 |
1 files changed, 10 insertions, 6 deletions
diff --git a/docs/types.rst b/docs/types.rst index 21575cfb..85309f60 100644 --- a/docs/types.rst +++ b/docs/types.rst @@ -169,9 +169,13 @@ Fixed Point Numbers Rational and Integer Literals ----------------------------- -All number literals retain arbitrary precision until they are converted to a non-literal type (i.e. by -using them together with a non-literal type). This means that computations do not overflow but also -divisions do not truncate. +Integer literals and rational number literals belong to a special type. +The number literal type contains not just single literals +but all number literal expressions (i.e. the expressions that contain only number literals and operators). +Number literal expressions retain arbitrary precision until they are converted to a non-literal type (i.e. by +using them together with a non-literal expression). +This means that computations do not overflow and divisions do not truncate +in number literal expressions. For example, ``(2**800 + 1) - 2**800`` results in the constant ``1`` (of type ``uint8``) although intermediate results would not even fit the machine word size. Furthermore, ``.5 * 8`` results @@ -185,7 +189,7 @@ In ``var x = 1/4;``, ``x`` will receive the type ``ufixed0x8`` while in ``var x the type ``ufixed0x256`` because ``1/3`` is not finitely representable in binary and will thus be approximated. -Any operator that can be applied to integers can also be applied to literal expressions as +Any operator that can be applied to integers can also be applied to number literal expressions as long as the operands are integers. If any of the two is fractional, bit operations are disallowed and exponentiation is disallowed if the exponent is fractional (because that might result in a non-rational number). @@ -200,7 +204,7 @@ a non-rational number). Division on integer literals used to truncate in earlier versions, but it will now convert into a rational number, i.e. ``5 / 2`` is not equal to ``2``, but to ``2.5``. .. note:: - Literal expressions are converted to a permanent type as soon as they are used with other + Number literal expressions are converted into a non-literal type as soon as they are used with non-literal expressions. Even though we know that the value of the expression assigned to ``b`` in the following example evaluates to an integer, it still uses fixed point types (and not rational number literals) in between and so the code @@ -216,7 +220,7 @@ a non-rational number). String Literals --------------- -String literals are written with either double or single-quotes (``"foo"`` or ``'bar'``). As with integer literals, their type can vary, but they are implicitly convertible to ``bytes1``, ..., ``bytes32``, if they fit, to ``bytes`` and to ``string``. +String literals are written with either double or single-quotes (``"foo"`` or ``'bar'``). They do not imply trailing zeroes as in C; `"foo"`` represents three bytes not four. As with integer literals, their type can vary, but they are implicitly convertible to ``bytes1``, ..., ``bytes32``, if they fit, to ``bytes`` and to ``string``. String literals support escape characters, such as ``\n``, ``\xNN`` and ``\uNNNN``. ``\xNN`` takes a hex value and inserts the appropriate byte, while ``\uNNNN`` takes a Unicode codepoint and inserts an UTF-8 sequence. |