update remote for stm32netradio

git-svn-id: https://rt-thread.googlecode.com/svn/trunk@365 bbd45198-f89e-11dd-88c7-29a3b14d5316
This commit is contained in:
wuyangyong 2010-02-02 07:10:13 +00:00
parent d117e5a4fe
commit d71ec9b0bd
2 changed files with 103 additions and 78 deletions

View File

@ -5,11 +5,11 @@
#include <rtgui/rtgui_server.h>
/*
key_enter PA0
key_down PA1
key_up PA2
key_right PC2
key_left PC3
key_enter PF11
key_down PG15
key_up PG11
key_right PG14
key_left PG13
*/
#define key_enter_GETVALUE() GPIO_ReadInputDataBit(GPIOF,GPIO_Pin_11)
#define key_down_GETVALUE() GPIO_ReadInputDataBit(GPIOG,GPIO_Pin_15)
@ -23,10 +23,8 @@ extern void rem_encoder(struct rtgui_event_kbd * p);
extern unsigned int rem_mode;
/* from remote.c */
static void key_thread_entry(void *parameter)
static void GPIO_Configuration(void)
{
rt_time_t next_delay;
struct rtgui_event_kbd kbd_event;
GPIO_InitTypeDef GPIO_InitStructure;
/* init gpio configuration */
@ -45,7 +43,15 @@ static void key_thread_entry(void *parameter)
GPIO_InitStructure.GPIO_Mode = GPIO_Mode_Out_PP;
GPIO_Init(GPIOE,&GPIO_InitStructure);
GPIO_SetBits(GPIOE,GPIO_Pin_2);
}
static void key_thread_entry(void *parameter)
{
rt_time_t next_delay;
struct rtgui_event_kbd kbd_event;
GPIO_Configuration();
/* start remote */
rem_start();
/* init keyboard event */
@ -123,11 +129,11 @@ static void key_thread_entry(void *parameter)
}
}
static rt_thread_t key_tid;
void rt_hw_key_init(void)
{
rt_thread_t key_tid;
key_tid = rt_thread_create("key",
key_thread_entry, RT_NULL,
512, 30, 5);
768, 30, 5);
if (key_tid != RT_NULL) rt_thread_startup(key_tid);
}

View File

@ -13,16 +13,22 @@
#include <dfs_posix.h>
#include <stm32f10x.h>
unsigned int rem_mode = 0;//红外模式 0:没启动,1:自学习,2:正常解码
/* 设置允许偏差,单位0.01ms */
#define remote_deviation 15
#define remote_code_len_max 100
/* 红外模式 0:没启动,1:自学习,2:正常解码 */
unsigned int rem_mode = 0;
static unsigned int first_tick = 0;
static unsigned int rx_count = 0;
static unsigned short rm_code[100];
static unsigned short rm_code[remote_code_len_max];
struct rem_codes_typedef
{
unsigned int len;
unsigned short rem_code[100];
unsigned short rem_code[remote_code_len_max];
};
struct rem_codes_typedef * p_rem_code_src = RT_NULL;
@ -33,7 +39,6 @@ static const char str4[]="KEY_RIGHT"; /*
static const char str5[]="KEY_ENTER"; /* 确认 */
static const char str6[]="KEY_RETURN"; /* 返回 */
static const char * desc_key[6]= {str1,str2,str3,str4,str5,str6};
#define wucha 15
/* tim5 configure */
@ -132,12 +137,13 @@ void rem_start(void)
NVIC_Configuration();
TIM5_Configuration();
p_rem_code_src = rt_malloc( 1500 );
p_rem_code_src = rt_malloc( sizeof(struct rem_codes_typedef)*6 );
rt_memset(p_rem_code_src,0, sizeof(struct rem_codes_typedef)*6 );
/* 解读红外信息 */
{
int fd,size;
char buf[6];//文件读取临时缓存
char buf[7];/* 文件读取临时缓存 #####\r\n */
unsigned int i;
unsigned short tmp;
unsigned int read_index = 0;
@ -150,29 +156,32 @@ void rem_start(void)
rt_kprintf("\r/resource/remote.txt打开成功");
while( EOF_flag )
{
//读取长度
size = read(fd,buf,6);
if( (size == 6) && (buf[4]=='\r') && buf[5]=='\n' )
/* 读取长度 */
size = read(fd,buf,7);
if( (size == 7) && (buf[5]=='\r') && buf[6]=='\n' )
{
//转换得到样本数据长度
tmp = (buf[0]-'0')*1000
+ (buf[1]-'0')*100
+ (buf[2]-'0')*10
+ (buf[3]-'0');
/* 转换得到样本数据长度 */
tmp = (buf[0]-'0')*10000
+ (buf[1]-'0')*1000
+ (buf[2]-'0')*100
+ (buf[3]-'0')*10
+ (buf[4]-'0');
if( tmp<100 )
{
unsigned int code_len = tmp;
p_rem_code_src[read_index].len = code_len;
//如果样本长度符合
/* 如果样本长度符合 就开始从文件读取编码数据 */
for(i=0; i<code_len; i++)
{
size = read(fd,buf,6);
if( (size == 6) && (buf[4]=='\r') && buf[5]=='\n' )
size = read(fd,buf,7);
if( (size == 7) && (buf[5]=='\r') && buf[6]=='\n' )
{
tmp = (buf[0]-'0')*1000
+ (buf[1]-'0')*100
+ (buf[2]-'0')*10
+ (buf[3]-'0');
/* 转换得到样本数据 */
tmp = (buf[0]-'0')*10000
+ (buf[1]-'0')*1000
+ (buf[2]-'0')*100
+ (buf[3]-'0')*10
+ (buf[4]-'0');
p_rem_code_src[read_index].rem_code[i] = tmp;
}
}
@ -184,9 +193,20 @@ void rem_start(void)
EOF_flag = 0;
}
}//while( EOF_flag )
//设置工作模式为正常识别模式
rem_mode = 2;
rt_kprintf("\r红外遥控编码文件解读完成,已打开红外遥控功能\r\n");
/* 判断是否正确解读编码数据文件 */
if ( p_rem_code_src[0].len > 0 && p_rem_code_src[0].len < remote_code_len_max )
{
/* 设置工作模式为正常识别模式 */
rem_mode = 2;
rt_kprintf("\r红外遥控编码文件解读完成,已打开红外遥控功能\r\n");
}
else
{
/* 设置工作模式为正常识别模式 */
rem_mode = 0;
rt_kprintf("\r\n红外遥控编码文件解读失败,已关闭红外遥控功能\r\n");
}
}
else
{
@ -200,29 +220,21 @@ void rem_start(void)
void rem_encoder(struct rtgui_event_kbd * p)
{
struct rtgui_event_kbd * p_kbd_event = p;
/* 红外遥控匹配 */
/* 检查是否有数据被捕获 */
if( (rem_mode==2) && (rt_tick_get()>first_tick+10) && (rx_count > 0) )
{
/* 手动清零第一个捕获结果 */
rm_code[0] = 0;
rx_count = 0;
#if 0
{
unsigned int iii;
for(iii=0; iii<100; iii++)
{
rt_kprintf("\r\n%d",rm_code[iii]);
}
}
#endif
#if 1
/* 匹配捕获的数据 */
{
unsigned int tmp;
unsigned int fflag = 0;
unsigned int err_flag = 0;
unsigned int rem_cmp_n = 6;
//循环匹配所有KEY
/* 循环匹配所有KEY */
while( rem_cmp_n )
{
unsigned int tmp2 = p_rem_code_src[ 6-rem_cmp_n ].len;
@ -232,22 +244,23 @@ void rem_encoder(struct rtgui_event_kbd * p)
for(tmp=0; tmp<tmp2; tmp++)
{
if( !( (rm_code[tmp] < p_rem_code_src[6-rem_cmp_n].rem_code[tmp]+wucha) && (rm_code[tmp] > p_rem_code_src[6-rem_cmp_n].rem_code[tmp]-wucha)) )
/* 判断捕获结果是否在偏差允许范围内 */
if( !( (rm_code[tmp] < p_rem_code_src[6-rem_cmp_n].rem_code[tmp]+remote_deviation)
&& (rm_code[tmp] > p_rem_code_src[6-rem_cmp_n].rem_code[tmp]-remote_deviation)) )
{
fflag = 1;
//rt_kprintf("\r\nerr %d: rm_code[%d] p_rem_code_src[%d].rem_code[%d]",tmp,rm_code[tmp],6-rem_cmp_n,p_rem_code_src[ 6-rem_cmp_n].rem_code[tmp]);
err_flag = 1;
}
}
}
else
{
fflag = 1;
err_flag = 1;
rt_kprintf("\r\n解码失败");
}
if(fflag==0)
if( err_flag==0 )
{
//成功
/* 对比全部数据符合 */
rt_kprintf("\r\n识别到遥控按键 %s",desc_key[6-rem_cmp_n]);
switch( rem_cmp_n )
{
@ -276,14 +289,13 @@ void rem_encoder(struct rtgui_event_kbd * p)
}
else
{
//不成功
fflag = 0;
/* 对比不符合,清零错误标致,以进行下一次对比 */
err_flag = 0;
rem_cmp_n --;
}
}
}
#endif
}//红外遥控匹配
}
@ -307,7 +319,7 @@ void remote_isr(void)
rx_count = 0;
clr_flag = 1;
}
if( rx_count<100 )
if( rx_count < remote_code_len_max )
{
rm_code[rx_count++] = TIM_GetCapture3(TIM5);
}
@ -318,7 +330,7 @@ void remote_isr(void)
rx_count = 0;
clr_flag = 1;
}
if(rx_count<100 )
if(rx_count < remote_code_len_max )
{
rm_code[rx_count++] = TIM_GetCapture3(TIM5);
}
@ -338,13 +350,13 @@ void remote_isr(void)
case 0://未启动
break;
case 1://自学习
if( rx_count<100 )
if( rx_count < remote_code_len_max )
{
rm_code[rx_count++] = TIM_GetCapture4(TIM5);
}
break;
case 2://正常解码
if( rx_count<100 )
if( rx_count < remote_code_len_max )
{
rm_code[rx_count++] = TIM_GetCapture4(TIM5);
}
@ -374,7 +386,7 @@ int rem_study(void)
unsigned int i;
int fd,size;
unsigned char tmp_buf[606];
unsigned char tmp_buf[ (remote_code_len_max+1)*7 ];
rem_mode = 1;
rx_count = 0;
@ -390,7 +402,7 @@ int rem_study(void)
return -1;
}
//学习6个键盘
/* 学习6个键盘 */
for( i=0; i<6; i++)
{
unsigned int is_ok = 1;
@ -413,36 +425,43 @@ int rem_study(void)
TIM_ITConfig(TIM5, TIM_IT_CC3, DISABLE);
TIM_ITConfig(TIM5, TIM_IT_CC4, DISABLE);
p[0] = rx_count / 1000 +'0';
p[0] = rx_count / 10000 +'0';
rx_count = rx_count % 10000;
p[1] = rx_count / 1000 +'0';
rx_count = rx_count % 1000;
p[1] = rx_count / 100 +'0';
p[2] = rx_count / 100 +'0';
rx_count = rx_count % 100;
p[2] = rx_count / 10 +'0';
p[3] = rx_count / 10 +'0';
rx_count = rx_count % 10;
p[3] = rx_count +'0';
p[4] = rx_count +'0';
rx_count = 0;
p[4] = '\r';
p[5] = '\n';
p += 6;
p[5] = '\r';
p[6] = '\n';
p += 7;
rm_code[0] = 0;
for( a=0; a<b; a++)
{
/* 把当前数据直接写进样品数据 */
p_rem_code_src[i].rem_code[a] = rm_code[a];
p[0] = rm_code[a] / 1000 +'0';
/* 然后转换成文本格式 #####\r\n */
p[0] = rm_code[a] / 10000 +'0';
rm_code[a] = rm_code[a] % 10000;
p[1] = rm_code[a] / 1000 +'0';
rm_code[a] = rm_code[a] % 1000;
p[1] = rm_code[a] / 100 +'0';
p[2] = rm_code[a] / 100 +'0';
rm_code[a] = rm_code[a] % 100;
p[2] = rm_code[a] / 10 +'0';
p[3] = rm_code[a] / 10 +'0';
rm_code[a] = rm_code[a] % 10;
p[3] = rm_code[a] +'0';
p[4] = '\r';
p[5] = '\n';
p += 6;
p[4] = rm_code[a] +'0';
p[5] = '\r';
p[6] = '\n';
p += 7;
}
size = write(fd,(char*)tmp_buf,(b+1)*6 );
if( size==((b+1)*6) )
size = write(fd,(char*)tmp_buf,(b+1)*7 );
if( size==((b+1)*7) )
{
rt_kprintf("文件写入成功");
is_ok++;