这3个函数其实都可以动态获取运行中收到的数据包中的数据,只要跟在要获取的收取数据包脚本后面即可。其中:lrs_save_searched_string和lrs_save_param如果buf_desc指明buf名称,则从我们录制的data.ws中获取数据,所以每次这个值都是固定值,不会改变的;比如订单提交的确认信息等;而如果:lrs_save_searched_string和lrs_save_param参数buf_desc设置为:NULL,则从脚本中每次返回的数据包中获取数据,这个数据也随着每次脚本的动态运行而变化,比如某个不断递增的ID号等。而:lrs_save_param_ex 的buf_desc有3个参数,其中static指的是从我们在脚本中定义的一个静态变量中取值,而received指的是从收到的数据包取值;而user指从data.ws文件中取值。这个一定要搞清楚。关于这个函数,这里再次提供下最原始的说明:
type The type of buffer data to save into the parameter. Possible values: user - save the user data,
static - save the static buffer that was originally recorded,
received - save the buffer(s) received by the last call to lrs_receive. buff Depends on the type of buffer data specified in the type parameter.
For user the pointer to the user buffer,
For static - the descriptor of the buffer in the data file,
For received the buff parameter is ignored.
user:实例:
char *ParamBuf = "(size=\x05)"
lrs_save_param_ex("socket0", "user", ParamBuf, 0, strlen(ParamBuf),"ascii", "size_param");
static实例:
lrs_save_param_ex("socket0", "user", "buf1", 0, 23,"ascii", "param");
received实例:
lrs_save_param_ex("socket0", NULL, "buf1", 0, 23,"ascii", "param");
---------------------------------------------------------------------------------------------------
//实例1:
lrs_save_searched_string("socke0","buf1","wtbh","LB/BIN=|","RB/BIN=|",2,0,-1);
//输出结果: "wtbh = 10000013" 。原始数据为:"0|普通指令下达成功|10000031|"。那就是在以左边界和右边界第2次出现的地方,
//获取左右边界里面的所有的值
//实例2:
lrs_save_searched_string("socke0","buf1","wtbh","LB/BIN=|","RB/BIN=|",1,0,-1);
//输出结果:"wtbh = 普通指令下达成功"原始数据为:"0|普通指令下达成功|10000031|"。那就是在以左边界和右边界第1次出现的地方,
//获取左右边界里面的所有的值
//实例3:
lrs_save_searched_string("socke0","buf1","wtbh","LB/BIN=|","RB/BIN=|",1,4,-1);
//输出结果:"wtbh = 指令下达成功"原始数据为:"0|普通指令下达成功|10000031|"。那就是在以左边界和右边界第1次出现的地方,
//获取左边界为起点的第4个字符后面的数据。
//实例4:
lrs_save_param("socket0","buf1","wtbh", 34, 8);
//从数据包中第34个字符开始连续取8个字符。
//实例5:
char * ReceivedBuffer;
int iLen = 0;
int iFor = 2;
lrs_get_last_received_buffer("socket0", &ReceivedBuffer, &iLen);
lrs_save_param_ex("socket0", "user", ReceivedBuffer, 0, 43, "ascii", "test_para");
lrs_free_buffer(ReceivedBuffer);
strZhwth = lr_eval_string("<test_para>");
strZhwth = (char *)strtok(strZhwth,"|");
while(iFor > 0)
{
iFor = iFor - 1;
strZhwth = (char *)strtok(NULL,"|");//获取下一个token
}
//通过上面的循环获取了第2个“|”后面的字符,并且保存到strZhwth中
lrs_save_param_ex("socket0", "user", strZhwth, 0, 8, "ascii", "Zhwth");
//在上面获取字符中从第1位开始连续获取8个字符。
//函数实例6:
函数:strtok
说明:Returns a token from a string delimited by specified characters.
定义:char *strtok ( char *string, const char *delimiters );
参数:string: The string to scan. delimiters: The string consisting of the character or characters that delimit tokens in the first string.
实例:
extern char * strtok(char * string, const char * delimiters ); // Explicit declaration
char path[] = "c:\\mercury\\lrun\\bin\\wlrun.exe";
char separators[] = ".\\";
char * token;
token = (char *)strtok(path, separators); // Get the first token
if (!token) {
lr_output_message ("No tokens found in string!");
return( -1 );
}
while (token != NULL ) { // While valid tokens are returned
lr_output_message ("%s", token );
token = (char *)strtok(NULL, separators); // Get the next token
}
Output:
Action.c(18): c:
Action.c(18): mercury
Action.c(18): lrun
Action.c(18): bin
Action.c(18): wlrun
Action.c(18): exe
//函数实例7:
函数:strstr
说明:Returns the first occurrence of one string in another.
定义:char *strstr ( const char *string1, const char *string2 );
参数:string1:The string that is searched. string2:The string that is searched for in the first string.
实例1:
lrs_save_param_ex("socket0", "user", ReceivedBuffer_cjhb, 0, iLenCj, "ascii", "cjhb");
lrs_free_buffer(ReceivedBuffer_cjhb);
if(strstr(lr_eval_string("<cjhb>"), "已成交") != NULL)
return 0;
实例2:
After strstr returns the address, position, the code then calculates the word's place in str by subtracting the address of the start of the string from position. This is the offset of the word "dog", in bytes.
int offset;
char * position;
char * str = "The quick brown dog jumps over the lazy fox";
char * search_str = "dog";
position = (char *)strstr(str, search_str);
// strstr has returned the address. Now calculate * the offset from the beginning of str
offset = (int)(position - str + 1);
lr_output_message ("The string \"%s\" was found at position %d", search_str, offset);
Output:
Action.c(14): The string "dog" was found at position 17
//函数实例8:
函数:strcmp
说明:Compares string1 and string2 to determine the alphabetic order.
定义:int ( const char *string1, const char *string2 );
参数:string1 The first string that is compared. string2 The second string that is compared.strcmp compares string1 and string2 to determine the alphabetic order.
实例1:
The following example compares two strings, string1 and string2, which are identical except for the word "quick" which is lowercase in string1 and uppercase in string2. strcmp, which is case-sensitive, returns an unequal comparison.
int result;
char tmp[20];
char string1[] = "The quick brown dog jumps over the lazy fox";
char string2[] = "The QUICK brown dog jumps over the lazy fox";
result = strcmp( string1, string2); // Case-sensitive comparison
if(result > 0)
strcpy(tmp, "greater than");
else if(result < 0)
strcpy(tmp, "less than");
else
strcpy(tmp, "equal to");
lr_output_message ("strcmp: String 1 is %s string 2", tmp);
result = stricmp(string1, string2 ); // Case-insensitive comparison
if( result > 0 )
strcpy( tmp, "greater than" );
else if( result < 0 )
strcpy( tmp, "less than" );
else
strcpy( tmp, "equal to" );
lr_output_message( "stricmp: String 1 is %s string 2", tmp );
Output:
Action.c(17): strcmp: String 1 is greater than string 2
Action.c(28): stricmp: String 1 is equal to string 2
单词:descriptor identifying :标识符描述