DEBUG模式下, 内存中的变量地址分析

时间：2016-02-12 22:08:41 阅读：285 评论：0 收藏：0 [点我收藏+]

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测试函数的模板实现

[cpp] view plain copy

/// @file my_template.h
/// @brief 测试数据类型用的模板实现
#ifndef MY_TEMPLATE_H_2016_0123_1226
#define MY_TEMPLATE_H_2016_0123_1226
template<int iArySize>
void fnTestDataType() {
char szBuf[iArySize] = {‘\0‘};
unsigned short wTmp = 0;
int iTmp = 0;
long lTmp = 0;
float f = .0f;
double dbl = .0;
char szBuf1[iArySize] = {‘\0‘};
unsigned short wTmp1 = 0;
int iTmp1 = 0;
long lTmp1 = 0;
float f1 = .0f;
double dbl1 = .0;
printf("============================================================\n");
printf("char array size = %d\n", iArySize);
printf("------------------------------------------------------------\n");
printf("&szBuf[0] = \t0x%p\n", &szBuf[0]);
printf("&szBuf[%d] = \t0x%p\n", iArySize - 1, &szBuf[iArySize - 1]);
printf("&wTmp = \t0x%p\n", &wTmp);
printf("&iTmp = \t0x%p\n", &iTmp);
printf("&lTmp = \t0x%p\n", &lTmp);
printf("&f = \t\t0x%p\n", &f);
printf("&dbl = \t\t0x%p\n", &dbl);
printf("&szBuf1[0] = \t0x%p\n", &szBuf1[0]);
printf("&szBuf1[%d] = \t0x%p\n", iArySize - 1, &szBuf1[iArySize - 1]);
printf("&wTmp1 = \t0x%p\n", &wTmp1);
printf("&iTmp1 = \t0x%p\n", &iTmp1);
printf("&lTmp1 = \t0x%p\n", &lTmp1);
printf("&f1 = \t\t0x%p\n", &f1);
printf("&dbl1 = \t0x%p\n\n", &dbl1);
};
#endif // #ifndef MY_TEMPLATE_H_2016_0123_1226

测试代码和实验结论

[cpp] view plain copy

/// @file main.cpp
/// @brief DEBUG模式下, 内存中的变量地址分析
#include <iostream>
using namespace std;
#include "my_template.h"
/** 试验结论 - <<DEBUG模式下, 内存中的变量地址分析>>
如果定义多个变量
DEBUG模式下, 内存中的变量地址和定义的顺序相同
变量开始地址都是模式地址
先定义的变量在内存高地址
后定义的变量在内存低地址
Release模式下, 经过优化, 变量的内存地址和变量定义的顺序不相同!
如果变量有越界访问的情况, Release模式下的越界访问情况未知.
好像有一些规律, 依赖于编译器的优化选项
依赖变量越界访问达成变量的存取, 在Release模式下会和Debug模式下的运行效果不相同.
运行结果肯定不对了. 是否报错，要看运气了. 如果不报错, 发布后会死的很惨
*/
int main(int argc, char* argv[]) {
/// 将函数模板特化的数组大小, 从1填到9来测试
/// 不能直接在一个作用域内写多个函数模板的实例, 会全被替换成最后一个函数模板的实例
fnTestDataType<9>();
printf(""); //< bp
/** IDE debug 变量内存地址分析
============================================================
char array size = 9
------------------------------------------------------------
&szBuf[0] = 0x0018FEE8
&szBuf[8] = 0x0018FEF0
&wTmp = 0x0018FEE4
&iTmp = 0x0018FEE0
&lTmp = 0x0018FEDC
&f = 0x0018FED8
&dbl = 0x0018FED0
&szBuf1[0] = 0x0018FEC4
&szBuf1[8] = 0x0018FECC
&wTmp1 = 0x0018FEC0
&iTmp1 = 0x0018FEBC
&lTmp1 = 0x0018FEB8
&f1 = 0x0018FEB4
&dbl1 = 0x0018FEAC
============================================================
char array size = 8
------------------------------------------------------------
&szBuf[0] = 0x0018FEEC
&szBuf[7] = 0x0018FEF3
&wTmp = 0x0018FEE8
&iTmp = 0x0018FEE4
&lTmp = 0x0018FEE0
&f = 0x0018FEDC
&dbl = 0x0018FED4
&szBuf1[0] = 0x0018FECC
&szBuf1[7] = 0x0018FED3
&wTmp1 = 0x0018FEC8
&iTmp1 = 0x0018FEC4
&lTmp1 = 0x0018FEC0
&f1 = 0x0018FEBC
&dbl1 = 0x0018FEB4
============================================================
char array size = 7
------------------------------------------------------------
&szBuf[0] = 0x0018FEEC
&szBuf[6] = 0x0018FEF2
&wTmp = 0x0018FEE8
&iTmp = 0x0018FEE4
&lTmp = 0x0018FEE0
&f = 0x0018FEDC
&dbl = 0x0018FED4
&szBuf1[0] = 0x0018FECC
&szBuf1[6] = 0x0018FED2
&wTmp1 = 0x0018FEC8
&iTmp1 = 0x0018FEC4
&lTmp1 = 0x0018FEC0
&f1 = 0x0018FEBC
&dbl1 = 0x0018FEB4
============================================================
char array size = 6
------------------------------------------------------------
&szBuf[0] = 0x0018FEEC
&szBuf[5] = 0x0018FEF1
&wTmp = 0x0018FEE8
&iTmp = 0x0018FEE4
&lTmp = 0x0018FEE0
&f = 0x0018FEDC
&dbl = 0x0018FED4
&szBuf1[0] = 0x0018FECC
&szBuf1[5] = 0x0018FED1
&wTmp1 = 0x0018FEC8
&iTmp1 = 0x0018FEC4
&lTmp1 = 0x0018FEC0
&f1 = 0x0018FEBC
&dbl1 = 0x0018FEB4
============================================================
char array size = 5
------------------------------------------------------------
&szBuf[0] = 0x0018FEEC
&szBuf[4] = 0x0018FEF0
&wTmp = 0x0018FEE8
&iTmp = 0x0018FEE4
&lTmp = 0x0018FEE0
&f = 0x0018FEDC
&dbl = 0x0018FED4
&szBuf1[0] = 0x0018FECC
&szBuf1[4] = 0x0018FED0
&wTmp1 = 0x0018FEC8
&iTmp1 = 0x0018FEC4
&lTmp1 = 0x0018FEC0
&f1 = 0x0018FEBC
&dbl1 = 0x0018FEB4
============================================================
char array size = 4
------------------------------------------------------------
&szBuf[0] = 0x0018FEF0
&szBuf[3] = 0x0018FEF3
&wTmp = 0x0018FEEC
&iTmp = 0x0018FEE8
&lTmp = 0x0018FEE4
&f = 0x0018FEE0
&dbl = 0x0018FED8
&szBuf1[0] = 0x0018FED4
&szBuf1[3] = 0x0018FED7
&wTmp1 = 0x0018FED0
&iTmp1 = 0x0018FECC
&lTmp1 = 0x0018FEC8
&f1 = 0x0018FEC4
&dbl1 = 0x0018FEBC
============================================================
char array size = 3
------------------------------------------------------------
&szBuf[0] = 0x0018FEF0
&szBuf[2] = 0x0018FEF2
&wTmp = 0x0018FEEC
&iTmp = 0x0018FEE8
&lTmp = 0x0018FEE4
&f = 0x0018FEE0
&dbl = 0x0018FED8
&szBuf1[0] = 0x0018FED4
&szBuf1[2] = 0x0018FED6
&wTmp1 = 0x0018FED0
&iTmp1 = 0x0018FECC
&lTmp1 = 0x0018FEC8
&f1 = 0x0018FEC4
&dbl1 = 0x0018FEBC
============================================================
char array size = 2
------------------------------------------------------------
&szBuf[0] = 0x0018FEF0
&szBuf[1] = 0x0018FEF1
&wTmp = 0x0018FEEC
&iTmp = 0x0018FEE8
&lTmp = 0x0018FEE4
&f = 0x0018FEE0
&dbl = 0x0018FED8
&szBuf1[0] = 0x0018FED4
&szBuf1[1] = 0x0018FED5
&wTmp1 = 0x0018FED0
&iTmp1 = 0x0018FECC
&lTmp1 = 0x0018FEC8
&f1 = 0x0018FEC4
&dbl1 = 0x0018FEBC
============================================================
char array size = 1
------------------------------------------------------------
&szBuf[0] = 0x0018FEF0
&szBuf[0] = 0x0018FEF0
&wTmp = 0x0018FEEC
&iTmp = 0x0018FEE8
&lTmp = 0x0018FEE4
&f = 0x0018FEE0
&dbl = 0x0018FED8
&szBuf1[0] = 0x0018FED4
&szBuf1[0] = 0x0018FED4
&wTmp1 = 0x0018FED0
&iTmp1 = 0x0018FECC
&lTmp1 = 0x0018FEC8
&f1 = 0x0018FEC4
&dbl1 = 0x0018FEBC
*/
printf("END, press any key to quit\n");
return 0;
}

http://blog.csdn.net/lostspeed/article/details/50569619

DEBUG模式下, 内存中的变量地址分析

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原文地址：http://www.cnblogs.com/findumars/p/5187267.html

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