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分享C 语言自增 运算
在C语言的面试题目中 经常会考到自增和自减的运算符,而且还是在同一行对同一个变量进行操作。
在Ubuntu下 用gcc 命令编译的结果:
i=5
x=3 y=4
z=1
z=1
为什么 i =5 y=4 第一个z是1 呢?
#include<stdio.h>
int main(){
int i=1;
i=i++ + ++i;
printf("i=%d\n",i);
int x=1;
int y=0;
y=x++ + ++x;
printf("x=%d y=%d\n",x,y);
int z=0;
z=z++;
printf("z=%d\n",z);
z=0;
z=++z;
printf("z=%d\n",z);
}
在Ubuntu下 用gcc 命令编译的结果:
i=5
x=3 y=4
z=1
z=1
为什么 i =5 y=4 第一个z是1 呢?
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max_min_ 2013-08-05
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int main(){
int i=1;
i=i++ + ++i; //i ++ 执行后再++ ; ++i ++后再执行
printf("i=%d\n",i); //i = 5
int x=1;
int y=0; //x ++ 执行后再++ ; ++ x ++后再执行
y=x++ + ++x; //同理 x = 3 ;y =4;
printf("x=%d y=%d\n",x,y);
int z=0;
z=z++;
printf("z=%d\n",z); // z = 1
z=0;
z=++z;
printf("z=%d\n",z); // z= 1
cfvmario 2013-08-05
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序列点啊,别搞这种未定义行为,编译器可以自己决定怎么实现,符合标准就行。。
赵4老师 2013-08-05
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自己写代码搞不清楚算符优先级请多加括号。
看别人代码搞不清楚算符优先级能调试的话请单步调试对应汇编。
看别人代码搞不清楚算符优先级不能调试的话想办法照写一小段孤立的可调试的代码然后单步调试对应汇编。
看别人代码搞不清楚算符优先级不能调试的话且没有办法照写一小段孤立的可调试的代码然后单步调试对应汇编的话只能参考算符优先级表猜了(提醒:并不能100%猜对)。
//C++ Operators
// Operators specify an evaluation to be performed on one of the following:
// One operand (unary operator)
// Two operands (binary operator)
// Three operands (ternary operator)
// The C++ language includes all C operators and adds several new operators.
// Table 1.1 lists the operators available in Microsoft C++.
// Operators follow a strict precedence which defines the evaluation order of
//expressions containing these operators. Operators associate with either the
//expression on their left or the expression on their right; this is called
//“associativity.” Operators in the same group have equal precedence and are
//evaluated left to right in an expression unless explicitly forced by a pair of
//parentheses, ( ).
// Table 1.1 shows the precedence and associativity of C++ operators
// (from highest to lowest precedence).
//
//Table 1.1 C++ Operator Precedence and Associativity
// The highest precedence level is at the top of the table.
//+------------------+-----------------------------------------+---------------+
//| Operator | Name or Meaning | Associativity |
//+------------------+-----------------------------------------+---------------+
//| :: | Scope resolution | None |
//| :: | Global | None |
//| [ ] | Array subscript | Left to right |
//| ( ) | Function call | Left to right |
//| ( ) | Conversion | None |
//| . | Member selection (object) | Left to right |
//| -> | Member selection (pointer) | Left to right |
//| ++ | Postfix increment | None |
//| -- | Postfix decrement | None |
//| new | Allocate object | None |
//| delete | Deallocate object | None |
//| delete[ ] | Deallocate object | None |
//| ++ | Prefix increment | None |
//| -- | Prefix decrement | None |
//| * | Dereference | None |
//| & | Address-of | None |
//| + | Unary plus | None |
//| - | Arithmetic negation (unary) | None |
//| ! | Logical NOT | None |
//| ~ | Bitwise complement | None |
//| sizeof | Size of object | None |
//| sizeof ( ) | Size of type | None |
//| typeid( ) | type name | None |
//| (type) | Type cast (conversion) | Right to left |
//| const_cast | Type cast (conversion) | None |
//| dynamic_cast | Type cast (conversion) | None |
//| reinterpret_cast | Type cast (conversion) | None |
//| static_cast | Type cast (conversion) | None |
//| .* | Apply pointer to class member (objects) | Left to right |
//| ->* | Dereference pointer to class member | Left to right |
//| * | Multiplication | Left to right |
//| / | Division | Left to right |
//| % | Remainder (modulus) | Left to right |
//| + | Addition | Left to right |
//| - | Subtraction | Left to right |
//| << | Left shift | Left to right |
//| >> | Right shift | Left to right |
//| < | Less than | Left to right |
//| > | Greater than | Left to right |
//| <= | Less than or equal to | Left to right |
//| >= | Greater than or equal to | Left to right |
//| == | Equality | Left to right |
//| != | Inequality | Left to right |
//| & | Bitwise AND | Left to right |
//| ^ | Bitwise exclusive OR | Left to right |
//| | | Bitwise OR | Left to right |
//| && | Logical AND | Left to right |
//| || | Logical OR | Left to right |
//| e1?e2:e3 | Conditional | Right to left |
//| = | Assignment | Right to left |
//| *= | Multiplication assignment | Right to left |
//| /= | Division assignment | Right to left |
//| %= | Modulus assignment | Right to left |
//| += | Addition assignment | Right to left |
//| -= | Subtraction assignment | Right to left |
//| <<= | Left-shift assignment | Right to left |
//| >>= | Right-shift assignment | Right to left |
//| &= | Bitwise AND assignment | Right to left |
//| |= | Bitwise inclusive OR assignment | Right to left |
//| ^= | Bitwise exclusive OR assignment | Right to left |
//| , | Comma | Left to right |
//+------------------+-----------------------------------------+---------------+
