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https://github.com/ethereum/solidity
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Ensure each code snippet in the docs can be extracted for tests
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@ -330,15 +330,15 @@ For example,
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::
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pragma solidity ^0.4.0;
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pragma solidity ^0.4.0;
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contract Test {
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function Test(){ b = 0x12345678901234567890123456789012; }
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event Event(uint indexed a, bytes32 b);
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event Event2(uint indexed a, bytes32 b);
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function foo(uint a) { Event(a, b); }
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bytes32 b;
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}
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contract Test {
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function Test(){ b = 0x12345678901234567890123456789012; }
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event Event(uint indexed a, bytes32 b);
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event Event2(uint indexed a, bytes32 b);
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function foo(uint a) { Event(a, b); }
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bytes32 b;
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}
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would result in the JSON:
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@ -377,11 +377,11 @@ As an example, the code
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::
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contract Test {
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struct S { uint a; uint[] b; T[] c; }
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struct T { uint x; uint y; }
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function f(S s, T t, uint a) { }
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}
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contract Test {
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struct S { uint a; uint[] b; T[] c; }
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struct T { uint x; uint y; }
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function f(S s, T t, uint a) { }
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}
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would result in the JSON:
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@ -198,7 +198,6 @@ In the following example, ``D``, can call ``c.getData()`` to retrieve the value
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function compute(uint a, uint b) internal returns (uint) { return a+b; }
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}
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contract D {
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function readData() {
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C c = new C();
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@ -209,7 +208,6 @@ In the following example, ``D``, can call ``c.getData()`` to retrieve the value
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}
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}
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contract E is C {
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function g() {
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C c = new C();
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@ -238,7 +236,6 @@ be done at declaration.
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uint public data = 42;
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}
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contract Caller {
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C c = new C();
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function f() {
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@ -321,7 +318,6 @@ inheritable properties of contracts and may be overridden by derived contracts.
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}
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}
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contract mortal is owned {
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// This contract inherits the "onlyOwner"-modifier from
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// "owned" and applies it to the "close"-function, which
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@ -332,7 +328,6 @@ inheritable properties of contracts and may be overridden by derived contracts.
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}
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}
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contract priced {
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// Modifiers can receive arguments:
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modifier costs(uint price) {
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@ -342,7 +337,6 @@ inheritable properties of contracts and may be overridden by derived contracts.
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}
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}
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contract Register is priced, owned {
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mapping (address => bool) registeredAddresses;
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uint price;
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@ -570,7 +564,6 @@ Please ensure you test your fallback function thoroughly to ensure the execution
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function() payable { }
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}
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contract Caller {
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function callTest(Test test) {
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test.call(0xabcdef01); // hash does not exist
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@ -687,12 +680,19 @@ as topics. The event call above can be performed in the same way as
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::
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log3(
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msg.value,
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0x50cb9fe53daa9737b786ab3646f04d0150dc50ef4e75f59509d83667ad5adb20,
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msg.sender,
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_id
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);
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pragma solidity ^0.4.10;
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contract C {
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function f() {
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bytes32 _id = 0x420042;
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log3(
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bytes32(msg.value),
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bytes32(0x50cb9fe53daa9737b786ab3646f04d0150dc50ef4e75f59509d83667ad5adb20),
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bytes32(msg.sender),
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_id
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);
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}
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}
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where the long hexadecimal number is equal to
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``keccak256("Deposit(address,hash256,uint256)")``, the signature of the event.
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@ -734,7 +734,6 @@ Details are given in the following example.
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address owner;
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}
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// Use "is" to derive from another contract. Derived
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// contracts can access all non-private members including
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// internal functions and state variables. These cannot be
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@ -745,7 +744,6 @@ Details are given in the following example.
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}
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}
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// These abstract contracts are only provided to make the
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// interface known to the compiler. Note the function
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// without body. If a contract does not implement all
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@ -754,13 +752,11 @@ Details are given in the following example.
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function lookup(uint id) returns (address adr);
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}
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contract NameReg {
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function register(bytes32 name);
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function unregister();
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}
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// Multiple inheritance is possible. Note that "owned" is
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// also a base class of "mortal", yet there is only a single
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// instance of "owned" (as for virtual inheritance in C++).
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@ -786,7 +782,6 @@ Details are given in the following example.
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}
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}
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// If a constructor takes an argument, it needs to be
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// provided in the header (or modifier-invocation-style at
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// the constructor of the derived contract (see below)).
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@ -821,12 +816,10 @@ seen in the following example::
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function kill() { /* do cleanup 1 */ mortal.kill(); }
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}
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contract Base2 is mortal {
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function kill() { /* do cleanup 2 */ mortal.kill(); }
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}
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contract Final is Base1, Base2 {
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}
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@ -848,7 +841,6 @@ derived override, but this function will bypass
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}
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}
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contract Base1 is mortal {
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function kill() { /* do cleanup 1 */ super.kill(); }
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}
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@ -858,7 +850,6 @@ derived override, but this function will bypass
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function kill() { /* do cleanup 2 */ super.kill(); }
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}
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contract Final is Base2, Base1 {
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}
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@ -888,7 +879,6 @@ the base constructors. This can be done in two ways::
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function Base(uint _x) { x = _x; }
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}
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contract Derived is Base(7) {
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function Derived(uint _y) Base(_y * _y) {
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}
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@ -1081,7 +1071,6 @@ more advanced example to implement a set).
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}
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}
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contract C {
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Set.Data knownValues;
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@ -1157,7 +1146,6 @@ custom types without the overhead of external function calls:
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}
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}
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contract C {
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using BigInt for BigInt.bigint;
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@ -1250,7 +1238,6 @@ Let us rewrite the set example from the
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}
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}
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contract C {
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using Set for Set.Data; // this is the crucial change
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Set.Data knownValues;
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@ -1276,7 +1263,6 @@ It is also possible to extend elementary types in that way::
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}
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}
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contract C {
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using Search for uint[];
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uint[] data;
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@ -363,15 +363,19 @@ As a result, the following code is illegal and cause the compiler to throw an er
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In addition to this, if a variable is declared, it will be initialized at the beginning of the function to its default value.
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As a result, the following code is legal, despite being poorly written::
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function foo() returns (uint) {
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// baz is implicitly initialized as 0
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uint bar = 5;
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if (true) {
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bar += baz;
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} else {
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uint baz = 10;// never executes
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pragma solidity ^0.4.0;
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contract C {
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function foo() returns (uint) {
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// baz is implicitly initialized as 0
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uint bar = 5;
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if (true) {
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bar += baz;
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} else {
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uint baz = 10;// never executes
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}
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return bar;// returns 5
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}
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return bar;// returns 5
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}
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.. index:: ! exception, ! throw, ! assert, ! require, ! revert
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@ -55,18 +55,18 @@ complete contract):
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::
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pragma solidity ^0.4.0;
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pragma solidity ^0.4.0;
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// THIS CONTRACT CONTAINS A BUG - DO NOT USE
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contract Fund {
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/// Mapping of ether shares of the contract.
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mapping(address => uint) shares;
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/// Withdraw your share.
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function withdraw() {
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if (msg.sender.send(shares[msg.sender]))
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shares[msg.sender] = 0;
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}
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}
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// THIS CONTRACT CONTAINS A BUG - DO NOT USE
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contract Fund {
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/// Mapping of ether shares of the contract.
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mapping(address => uint) shares;
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/// Withdraw your share.
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function withdraw() {
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if (msg.sender.send(shares[msg.sender]))
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shares[msg.sender] = 0;
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}
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}
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The problem is not too serious here because of the limited gas as part
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of ``send``, but it still exposes a weakness: Ether transfer always
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@ -79,18 +79,18 @@ outlined further below:
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::
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pragma solidity ^0.4.11;
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pragma solidity ^0.4.11;
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contract Fund {
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/// Mapping of ether shares of the contract.
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mapping(address => uint) shares;
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/// Withdraw your share.
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function withdraw() {
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var share = shares[msg.sender];
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shares[msg.sender] = 0;
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msg.sender.transfer(share);
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}
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}
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contract Fund {
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/// Mapping of ether shares of the contract.
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mapping(address => uint) shares;
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/// Withdraw your share.
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function withdraw() {
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var share = shares[msg.sender];
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shares[msg.sender] = 0;
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msg.sender.transfer(share);
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}
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}
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Note that re-entrancy is not only an effect of Ether transfer but of any
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function call on another contract. Furthermore, you also have to take
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@ -179,7 +179,9 @@ Never use tx.origin for authorization. Let's say you have a wallet contract like
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}
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}
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Now someone tricks you into sending ether to the address of this attack wallet::
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Now someone tricks you into sending ether to the address of this attack wallet:
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::
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pragma solidity ^0.4.11;
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@ -20,12 +20,12 @@ State variables are values which are permanently stored in contract storage.
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::
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pragma solidity ^0.4.0;
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pragma solidity ^0.4.0;
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contract SimpleStorage {
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uint storedData; // State variable
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// ...
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}
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contract SimpleStorage {
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uint storedData; // State variable
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// ...
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}
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See the :ref:`types` section for valid state variable types and
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:ref:`visibility-and-getters` for possible choices for
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@ -40,13 +40,13 @@ Functions are the executable units of code within a contract.
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::
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pragma solidity ^0.4.0;
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pragma solidity ^0.4.0;
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contract SimpleAuction {
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function bid() payable { // Function
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// ...
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}
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}
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contract SimpleAuction {
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function bid() payable { // Function
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// ...
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}
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}
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:ref:`function-calls` can happen internally or externally
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and have different levels of visibility (:ref:`visibility-and-getters`)
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@ -62,20 +62,20 @@ Function modifiers can be used to amend the semantics of functions in a declarat
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::
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pragma solidity ^0.4.11;
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pragma solidity ^0.4.11;
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contract Purchase {
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address public seller;
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contract Purchase {
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address public seller;
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modifier onlySeller() { // Modifier
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require(msg.sender == seller);
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_;
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}
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modifier onlySeller() { // Modifier
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require(msg.sender == seller);
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_;
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}
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function abort() onlySeller { // Modifier usage
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// ...
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}
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}
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function abort() onlySeller { // Modifier usage
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// ...
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}
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}
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.. _structure-events:
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@ -86,16 +86,16 @@ Events are convenience interfaces with the EVM logging facilities.
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::
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pragma solidity ^0.4.0;
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pragma solidity ^0.4.0;
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contract SimpleAuction {
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event HighestBidIncreased(address bidder, uint amount); // Event
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contract SimpleAuction {
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event HighestBidIncreased(address bidder, uint amount); // Event
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function bid() payable {
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// ...
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HighestBidIncreased(msg.sender, msg.value); // Triggering event
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}
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}
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function bid() payable {
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// ...
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HighestBidIncreased(msg.sender, msg.value); // Triggering event
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}
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}
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See :ref:`events` in contracts section for information on how events are declared
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and can be used from within a dapp.
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@ -110,16 +110,16 @@ Structs are custom defined types that can group several variables (see
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::
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pragma solidity ^0.4.0;
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pragma solidity ^0.4.0;
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contract Ballot {
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struct Voter { // Struct
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uint weight;
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bool voted;
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address delegate;
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uint vote;
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}
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}
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contract Ballot {
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struct Voter { // Struct
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uint weight;
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bool voted;
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address delegate;
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uint vote;
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}
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}
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.. _structure-enum-types:
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@ -131,8 +131,8 @@ Enums can be used to create custom types with a finite set of values (see
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::
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pragma solidity ^0.4.0;
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pragma solidity ^0.4.0;
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contract Purchase {
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enum State { Created, Locked, Inactive } // Enum
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}
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contract Purchase {
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enum State { Created, Locked, Inactive } // Enum
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}
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