文章目录
【1】mplayer
1.将mplayer放到开发板的bin目录下
system(“mplayer 1.avi &”); // &为后台播放视频
播放音乐
system(“madplay -a -10 xxx.mp3”);//-a 音量控制 范围(-175~+18)
暂停播放
system(“killall -STOP madplay &”);
恢复播放
system(“killall -CONT madplay &”);
停止
system(“killall madplay”);
madplay终止
system(“killall -9 madplay”);
思路 :如何保证将电脑的音频或视频传输给开发板,保持数据完整
1.先发送文件大小
2.再发送数据内容
3.检测发送的数据与接收的数据大小是否一致
【2】科大讯飞离线语音包
链接:https://pan.baidu.com/s/1Dgo8HGs3_Bfw05M0dCbS4A?pwd=vxpz
提取码:vxpz
README文件
README for Linux_aitalk
bin:
|-- msc
|-- msc.cfg(作用:msc调试、生成msc日志)
|-- res
|-- asr(资源文件)
|-- wav
|-- ddhghlj.pcm
|-- ddhgdw.pcm
|-- call.bnf
doc:
|-- readme.txt
include:调用SDK所需头文件
libs:
|-- x86
|-- libmsc.so(32位动态库)
|-- x64
|-- libmsc.so(64位动态库)
samples:
|-- asr_sample
|-- asr_sample.c
|-- Makefile
|-- 32bit_make.sh
|-- 64bit_make.sh
|-- asr_record_sample
|-- formats.h
|-- linuxrec.h
|-- linuxrec.c
|-- speech_recognizer.h
|-- speech_recognizer.c
|-- asr_record_sample.c
|-- Makefile
|-- 32bit_make.sh
|-- 64bit_make.sh
asr_offline_sample.c
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <errno.h>
#include <unistd.h>
#include "../../include/qisr.h"
#include "../../include/msp_cmn.h"
#include "../../include/msp_errors.h"
#define SAMPLE_RATE_16K (16000)
#define SAMPLE_RATE_8K (8000)
#define MAX_GRAMMARID_LEN (32)
#define MAX_PARAMS_LEN (1024)
const char * ASR_RES_PATH = "fo|res/asr/common.jet"; //离线语法识别资源路径
const char * GRM_BUILD_PATH = "res/asr/GrmBuilld"; //构建离线语法识别网络生成数据保存路径
const char * GRM_FILE = "call.bnf"; //构建离线识别语法网络所用的语法文件
const char * LEX_NAME = "contact"; //更新离线识别语法的contact槽(语法文件为此示例中使用的call.bnf)
typedef struct _UserData {
int build_fini; //标识语法构建是否完成
int update_fini; //标识更新词典是否完成
int errcode; //记录语法构建或更新词典回调错误码
char grammar_id[MAX_GRAMMARID_LEN]; //保存语法构建返回的语法ID
}UserData;
const char *get_audio_file(void); //选择进行离线语法识别的语音文件
int build_grammar(UserData *udata); //构建离线识别语法网络
int update_lexicon(UserData *udata); //更新离线识别语法词典
int run_asr(UserData *udata); //进行离线语法识别
const char* get_audio_file(void)
{
char key = 0;
while(key != 27) //按Esc则退出
{
printf("请选择音频文件:\n");
printf("1.打电话给丁伟\n");
printf("2.打电话给黄辣椒\n");
key = getchar();
getchar();
switch(key)
{
case '1':
printf("\n1.打电话给丁伟\n");
return "wav/ddhgdw.pcm";
case '2':
printf("\n2.打电话给黄辣椒\n");
return "wav/ddhghlj.pcm";
default:
continue;
}
}
exit(0);
return NULL;
}
int build_grm_cb(int ecode, const char *info, void *udata)
{
UserData *grm_data = (UserData *)udata;
if (NULL != grm_data) {
grm_data->build_fini = 1;
grm_data->errcode = ecode;
}
if (MSP_SUCCESS == ecode && NULL != info) {
printf("构建语法成功! 语法ID:%s\n", info);
if (NULL != grm_data)
snprintf(grm_data->grammar_id, MAX_GRAMMARID_LEN - 1, info);
}
else
printf("构建语法失败!%d\n", ecode);
return 0;
}
int build_grammar(UserData *udata)
{
FILE *grm_file = NULL;
char *grm_content = NULL;
unsigned int grm_cnt_len = 0;
char grm_build_params[MAX_PARAMS_LEN] = {
NULL};
int ret = 0;
grm_file = fopen(GRM_FILE, "rb");
if(NULL == grm_file) {
printf("打开\"%s\"文件失败![%s]\n", GRM_FILE, strerror(errno));
return -1;
}
fseek(grm_file, 0, SEEK_END);
grm_cnt_len = ftell(grm_file);
fseek(grm_file, 0, SEEK_SET);
grm_content = (char *)malloc(grm_cnt_len + 1);
if (NULL == grm_content)
{
printf("内存分配失败!\n");
fclose(grm_file);
grm_file = NULL;
return -1;
}
fread((void*)grm_content, 1, grm_cnt_len, grm_file);
grm_content[grm_cnt_len] = '\0';
fclose(grm_file);
grm_file = NULL;
snprintf(grm_build_params, MAX_PARAMS_LEN - 1,
"engine_type = local, \
asr_res_path = %s, sample_rate = %d, \
grm_build_path = %s, ",
ASR_RES_PATH,
SAMPLE_RATE_16K,
GRM_BUILD_PATH
);
ret = QISRBuildGrammar("bnf", grm_content, grm_cnt_len, grm_build_params, build_grm_cb, udata);
free(grm_content);
grm_content = NULL;
return ret;
}
int update_lex_cb(int ecode, const char *info, void *udata)
{
UserData *lex_data = (UserData *)udata;
if (NULL != lex_data) {
lex_data->update_fini = 1;
lex_data->errcode = ecode;
}
if (MSP_SUCCESS == ecode)
printf("更新词典成功!\n");
else
printf("更新词典失败!%d\n", ecode);
return 0;
}
int update_lexicon(UserData *udata)
{
const char *lex_content = "丁伟\n黄辣椒";
unsigned int lex_cnt_len = strlen(lex_content);
char update_lex_params[MAX_PARAMS_LEN] = {
NULL};
snprintf(update_lex_params, MAX_PARAMS_LEN - 1,
"engine_type = local, text_encoding = UTF-8, \
asr_res_path = %s, sample_rate = %d, \
grm_build_path = %s, grammar_list = %s, ",
ASR_RES_PATH,
SAMPLE_RATE_16K,
GRM_BUILD_PATH,
udata->grammar_id);
return QISRUpdateLexicon(LEX_NAME, lex_content, lex_cnt_len, update_lex_params, update_lex_cb, udata);
}
int run_asr(UserData *udata)
{
char asr_params[MAX_PARAMS_LEN] = {
NULL};
const char *rec_rslt = NULL;
const char *session_id = NULL;
const char *asr_audiof = NULL;
FILE *f_pcm = NULL;
char *pcm_data = NULL;
long pcm_count = 0;
long pcm_size = 0;
int last_audio = 0;
int aud_stat = MSP_AUDIO_SAMPLE_CONTINUE;
int ep_status = MSP_EP_LOOKING_FOR_SPEECH;
int rec_status = MSP_REC_STATUS_INCOMPLETE;
int rss_status = MSP_REC_STATUS_INCOMPLETE;
int errcode = -1;
asr_audiof = get_audio_file();
f_pcm = fopen(asr_audiof, "rb");
if (NULL == f_pcm) {
printf("打开\"%s\"失败![%s]\n", f_pcm, strerror(errno));
goto run_error;
}
fseek(f_pcm, 0, SEEK_END);
pcm_size = ftell(f_pcm);
fseek(f_pcm, 0, SEEK_SET);
pcm_data = (char *)malloc(pcm_size);
if (NULL == pcm_data)
goto run_error;
fread((void *)pcm_data, pcm_size, 1, f_pcm);
fclose(f_pcm);
f_pcm = NULL;
//离线语法识别参数设置
snprintf(asr_params, MAX_PARAMS_LEN - 1,
"engine_type = local, \
asr_res_path = %s, sample_rate = %d, \
grm_build_path = %s, local_grammar = %s, \
result_type = xml, result_encoding = UTF-8, ",
ASR_RES_PATH,
SAMPLE_RATE_16K,
GRM_BUILD_PATH,
udata->grammar_id
);
session_id = QISRSessionBegin(NULL, asr_params, &errcode);
if (NULL == session_id)
goto run_error;
printf("开始识别...\n");
while (1) {
unsigned int len = 6400;
if (pcm_size < 12800) {
len = pcm_size;
last_audio = 1;
}
aud_stat = MSP_AUDIO_SAMPLE_CONTINUE;
if (0 == pcm_count)
aud_stat = MSP_AUDIO_SAMPLE_FIRST;
if (len <= 0)
break;
printf(">");
fflush(stdout);
errcode = QISRAudioWrite(session_id, (const void *)&pcm_data[pcm_count], len, aud_stat, &ep_status, &rec_status);
if (MSP_SUCCESS != errcode)
goto run_error;
pcm_count += (long)len;
pcm_size -= (long)len;
//检测到音频结束
if (MSP_EP_AFTER_SPEECH == ep_status)
break;
usleep(150 * 1000); //模拟人说话时间间隙
}
//主动点击音频结束
QISRAudioWrite(session_id, (const void *)NULL, 0, MSP_AUDIO_SAMPLE_LAST, &ep_status, &rec_status);
free(pcm_data);
pcm_data = NULL;
//获取识别结果
while (MSP_REC_STATUS_COMPLETE != rss_status && MSP_SUCCESS == errcode) {
rec_rslt = QISRGetResult(session_id, &rss_status, 0, &errcode);
usleep(150 * 1000);
}
printf("\n识别结束:\n");
printf("=============================================================\n");
if (NULL != rec_rslt)
printf("%s\n", rec_rslt);
else
printf("没有识别结果!\n");
printf("=============================================================\n");
goto run_exit;
run_error:
if (NULL != pcm_data) {
free(pcm_data);
pcm_data = NULL;
}
if (NULL != f_pcm) {
fclose(f_pcm);
f_pcm = NULL;
}
run_exit:
QISRSessionEnd(session_id, NULL);
return errcode;
}
int main(int argc, char* argv[])
{
const char *login_config = "appid = a54c3878"; //登录参数
UserData asr_data;
int ret = 0 ;
char c;
ret = MSPLogin(NULL, NULL, login_config); //第一个参数为用户名,第二个参数为密码,传NULL即可,第三个参数是登录参数
if (MSP_SUCCESS != ret) {
printf("登录失败:%d\n", ret);
goto exit;
}
memset(&asr_data, 0, sizeof(UserData));
printf("构建离线识别语法网络...\n");
ret = build_grammar(&asr_data); //第一次使用某语法进行识别,需要先构建语法网络,获取语法ID,之后使用此语法进行识别,无需再次构建
if (MSP_SUCCESS != ret) {
printf("构建语法调用失败!\n");
goto exit;
}
while (1 != asr_data.build_fini)
usleep(300 * 1000);
if (MSP_SUCCESS != asr_data.errcode)
goto exit;
printf("离线识别语法网络构建完成,开始识别...\n");
ret = run_asr(&asr_data);
if (MSP_SUCCESS != ret) {
printf("离线语法识别出错: %d \n", ret);
goto exit;
}
printf("更新离线语法词典...\n");
ret = update_lexicon(&asr_data); //当语法词典槽中的词条需要更新时,调用QISRUpdateLexicon接口完成更新
if (MSP_SUCCESS != ret) {
printf("更新词典调用失败!\n");
goto exit;
}
while (1 != asr_data.update_fini)
usleep(300 * 1000);
if (MSP_SUCCESS != asr_data.errcode)
goto exit;
printf("更新离线语法词典完成,开始识别...\n");
ret = run_asr(&asr_data);
if (MSP_SUCCESS != ret) {
printf("离线语法识别出错: %d \n", ret);
goto exit;
}
exit:
MSPLogout();
printf("请按任意键退出...\n");
getchar();
return 0;
}
Makefile
#common makefile header
DIR_INC = ../../include
DIR_BIN = ../../bin
DIR_LIB = ../../libs
TARGET = asr_offline_sample
BIN_TARGET = $(DIR_BIN)/$(TARGET)
CROSS_COMPILE =
CFLAGS = -g -Wall -I$(DIR_INC)
ifdef LINUX64
LDFLAGS := -L$(DIR_LIB)/x64
else
LDFLAGS := -L$(DIR_LIB)/x86
endif
LDFLAGS += -lmsc -lrt -ldl -lpthread -lstdc++
OBJECTS := $(patsubst %.c,%.o,$(wildcard *.c))
$(BIN_TARGET) : $(OBJECTS)
$(CROSS_COMPILE)gcc $(CFLAGS) $^ -o $@ $(LDFLAGS)
%.o : %.c
$(CROSS_COMPILE)gcc -c $(CFLAGS) $< -o $@
clean:
@rm -f *.o $(BIN_TARGET)
.PHONY:clean
#common makefile foot
call.bnf
#BNF+IAT 1.0 UTF-8;
!grammar call;
!slot <want>;
!slot <dialpre>;
!slot <dialsuf>;
!slot <contact>;
!start <callstart>;
<callstart>:[<want>]<dial>;
<want>:我想|我要|请|帮我|我想要|请帮我;
<dial>:<dialpre><contact>[<dialsuf>];
<dialpre>:打电话给!id(10001)|打给!id(10001)|拨打!id(10001)|拨打电话给!id(10001)|呼叫!id(10001)|
打一个电话给!id(10001)|打个电话给!id(10001)|给|拨通!id(10001)|
接通!id(10001)|呼叫!id(10001)|呼叫给!id(10001)|打!id(10001);
<dialsuf>:打电话!id(10001)|打个电话!id(10001)|打一个电话!id(10001)|
拨打电话!id(10001)|拨电话!id(10001)|拨个电话!id(10001)|呼个电话!id(10001)|
的电话!id(10001)|的号码!id(10001)|的手机!id(10001)|
的办公电话!id(10001)|的移动号码!id(10001)|的联通号码!id(10001)|
的电信号码!id(10001)|客服电话!id(10001);
<contact>:丁伟;