Merge pull request #5756 from ethereum/docs-split-libraries

[DOCS] Split libraries into new doc

1 files changed, 1 insertions, 230 deletions

diff --git a/docs/contracts.rst b/docs/contracts.rst
index 8d6e2fe4..2a713ec3 100644
--- a/docs/contracts.rst
+++ b/docs/contracts.rst
@@ -536,235 +536,6 @@ converted to ``uint8``.
 .. include:: contracts/abstract-contracts.rst
 .. include:: contracts/interfaces.rst
 
-.. index:: ! library, callcode, delegatecall
-
-.. _libraries:
-
-*********
-Libraries
-*********
-
-Libraries are similar to contracts, but their purpose is that they are deployed
-only once at a specific address and their code is reused using the ``DELEGATECALL``
-(``CALLCODE`` until Homestead)
-feature of the EVM. This means that if library functions are called, their code
-is executed in the context of the calling contract, i.e. ``this`` points to the
-calling contract, and especially the storage from the calling contract can be
-accessed. As a library is an isolated piece of source code, it can only access
-state variables of the calling contract if they are explicitly supplied (it
-would have no way to name them, otherwise). Library functions can only be
-called directly (i.e. without the use of ``DELEGATECALL``) if they do not modify
-the state (i.e. if they are ``view`` or ``pure`` functions),
-because libraries are assumed to be stateless. In particular, it is
-not possible to destroy a library.
-
-.. note::
-    Until version 0.4.20, it was possible to destroy libraries by
-    circumventing Solidity's type system. Starting from that version,
-    libraries contain a :ref:`mechanism<call-protection>` that
-    disallows state-modifying functions
-    to be called directly (i.e. without ``DELEGATECALL``).
-
-Libraries can be seen as implicit base contracts of the contracts that use them.
-They will not be explicitly visible in the inheritance hierarchy, but calls
-to library functions look just like calls to functions of explicit base
-contracts (``L.f()`` if ``L`` is the name of the library). Furthermore,
-``internal`` functions of libraries are visible in all contracts, just as
-if the library were a base contract. Of course, calls to internal functions
-use the internal calling convention, which means that all internal types
-can be passed and types :ref:`stored in memory <data-location>` will be passed by reference and not copied.
-To realize this in the EVM, code of internal library functions
-and all functions called from therein will at compile time be pulled into the calling
-contract, and a regular ``JUMP`` call will be used instead of a ``DELEGATECALL``.
-
-.. index:: using for, set
-
-The following example illustrates how to use libraries (but manual method
-be sure to check out :ref:`using for <using-for>` for a
-more advanced example to implement a set).
-
-::
-
-    pragma solidity >=0.4.22 <0.6.0;
-
-    library Set {
-      // We define a new struct datatype that will be used to
-      // hold its data in the calling contract.
-      struct Data { mapping(uint => bool) flags; }
-
-      // Note that the first parameter is of type "storage
-      // reference" and thus only its storage address and not
-      // its contents is passed as part of the call.  This is a
-      // special feature of library functions.  It is idiomatic
-      // to call the first parameter `self`, if the function can
-      // be seen as a method of that object.
-      function insert(Data storage self, uint value)
-          public
-          returns (bool)
-      {
-          if (self.flags[value])
-              return false; // already there
-          self.flags[value] = true;
-          return true;
-      }
-
-      function remove(Data storage self, uint value)
-          public
-          returns (bool)
-      {
-          if (!self.flags[value])
-              return false; // not there
-          self.flags[value] = false;
-          return true;
-      }
-
-      function contains(Data storage self, uint value)
-          public
-          view
-          returns (bool)
-      {
-          return self.flags[value];
-      }
-    }
-
-    contract C {
-        Set.Data knownValues;
-
-        function register(uint value) public {
-            // The library functions can be called without a
-            // specific instance of the library, since the
-            // "instance" will be the current contract.
-            require(Set.insert(knownValues, value));
-        }
-        // In this contract, we can also directly access knownValues.flags, if we want.
-    }
-
-Of course, you do not have to follow this way to use
-libraries: they can also be used without defining struct
-data types. Functions also work without any storage
-reference parameters, and they can have multiple storage reference
-parameters and in any position.
-
-The calls to ``Set.contains``, ``Set.insert`` and ``Set.remove``
-are all compiled as calls (``DELEGATECALL``) to an external
-contract/library. If you use libraries, be aware that an
-actual external function call is performed.
-``msg.sender``, ``msg.value`` and ``this`` will retain their values
-in this call, though (prior to Homestead, because of the use of ``CALLCODE``, ``msg.sender`` and
-``msg.value`` changed, though).
-
-The following example shows how to use :ref:`types stored in memory <data-location>` and
-internal functions in libraries in order to implement
-custom types without the overhead of external function calls:
-
-::
-
-    pragma solidity >=0.4.16 <0.6.0;
-
-    library BigInt {
-        struct bigint {
-            uint[] limbs;
-        }
-
-        function fromUint(uint x) internal pure returns (bigint memory r) {
-            r.limbs = new uint[](1);
-            r.limbs[0] = x;
-        }
-
-        function add(bigint memory _a, bigint memory _b) internal pure returns (bigint memory r) {
-            r.limbs = new uint[](max(_a.limbs.length, _b.limbs.length));
-            uint carry = 0;
-            for (uint i = 0; i < r.limbs.length; ++i) {
-                uint a = limb(_a, i);
-                uint b = limb(_b, i);
-                r.limbs[i] = a + b + carry;
-                if (a + b < a || (a + b == uint(-1) && carry > 0))
-                    carry = 1;
-                else
-                    carry = 0;
-            }
-            if (carry > 0) {
-                // too bad, we have to add a limb
-                uint[] memory newLimbs = new uint[](r.limbs.length + 1);
-                uint i;
-                for (i = 0; i < r.limbs.length; ++i)
-                    newLimbs[i] = r.limbs[i];
-                newLimbs[i] = carry;
-                r.limbs = newLimbs;
-            }
-        }
-
-        function limb(bigint memory _a, uint _limb) internal pure returns (uint) {
-            return _limb < _a.limbs.length ? _a.limbs[_limb] : 0;
-        }
-
-        function max(uint a, uint b) private pure returns (uint) {
-            return a > b ? a : b;
-        }
-    }
-
-    contract C {
-        using BigInt for BigInt.bigint;
-
-        function f() public pure {
-            BigInt.bigint memory x = BigInt.fromUint(7);
-            BigInt.bigint memory y = BigInt.fromUint(uint(-1));
-            BigInt.bigint memory z = x.add(y);
-            assert(z.limb(1) > 0);
-        }
-    }
-
-As the compiler cannot know where the library will be
-deployed at, these addresses have to be filled into the
-final bytecode by a linker
-(see :ref:`commandline-compiler` for how to use the
-commandline compiler for linking). If the addresses are not
-given as arguments to the compiler, the compiled hex code
-will contain placeholders of the form ``__Set______`` (where
-``Set`` is the name of the library). The address can be filled
-manually by replacing all those 40 symbols by the hex
-encoding of the address of the library contract.
-
-.. note::
-    Manually linking libraries on the generated bytecode is discouraged, because
-    it is restricted to 36 characters.
-    You should ask the compiler to link the libraries at the time
-    a contract is compiled by either using
-    the ``--libraries`` option of ``solc`` or the ``libraries`` key if you use
-    the standard-JSON interface to the compiler.
-
-Restrictions for libraries in comparison to contracts:
-
-- No state variables
-- Cannot inherit nor be inherited
-- Cannot receive Ether
-
-(These might be lifted at a later point.)
-
-.. _call-protection:
-
-Call Protection For Libraries
-=============================
-
-As mentioned in the introduction, if a library's code is executed
-using a ``CALL`` instead of a ``DELEGATECALL`` or ``CALLCODE``,
-it will revert unless a ``view`` or ``pure`` function is called.
-
-The EVM does not provide a direct way for a contract to detect
-whether it was called using ``CALL`` or not, but a contract
-can use the ``ADDRESS`` opcode to find out "where" it is
-currently running. The generated code compares this address
-to the address used at construction time to determine the mode
-of calling.
-
-More specifically, the runtime code of a library always starts
-with a push instruction, which is a zero of 20 bytes at
-compilation time. When the deploy code runs, this constant
-is replaced in memory by the current address and this
-modified code is stored in the contract. At runtime,
-this causes the deploy time address to be the first
-constant to be pushed onto the stack and the dispatcher
-code compares the current address against this constant
-for any non-view and non-pure function.
+.. include:: contracts/libraries.rst
 
 .. include:: contracts/using-for.rst
\ No newline at end of file