程序在压缩包内
MATLAB源程序如下:
- function varargout = serial_communication(varargin)
- % 作者:罗
- % 功能;串口收发
- % 版本:20101103 V2.0
- gui_Singleton = 1;
- gui_State = struct('gui_Name', mfilename, ...
- 'gui_Singleton', gui_Singleton, ...
- 'gui_OpeningFcn', @serial_communication_OpeningFcn, ...
- 'gui_OutputFcn', @serial_communication_OutputFcn, ...
- 'gui_LayoutFcn', [] , ...
- 'gui_Callback', []);
- if nargin && ischar(varargin{1})
- gui_State.gui_Callback = str2func(varargin{1});
- end
- if nargout
- [varargout{1:nargout}] = gui_mainfcn(gui_State, varargin{:});
- else
- gui_mainfcn(gui_State, varargin{:});
- end
- function serial_communication_OpeningFcn(hObject, eventdata, handles, varargin)
- handles.output = hObject;
- warning off all;
- %% 改变窗口左上角的图标为icon.jpg
- javaFrame = get(hObject, 'JavaFrame');
- javaFrame.setFigureIcon(javax.swing.ImageIcon('icon.jpg'));
- %% 初始化参数
- hasData = false; %表征串口是否接收到数据
- isShow = false; %表征是否正在进行数据显示,即是否正在执行函数dataDisp
- isStopDisp = false; %表征是否按下了【停止显示】按钮
- isHexDisp = false; %表征是否勾选了【十六进制显示】
- isHexSend = false; %表征是否勾选了【十六进制发送】
- numRec = 0; %接收字符计数
- numSend = 0; %发送字符计数
- strRec = ''; %已接收的字符串
- %读取图片数据,只在第一次运行时读取
- pathstr = fileparts(which(mfilename));
- if exist([pathstr '\lamb.mat'], 'file') == 2
- load([pathstr '\lamb.mat']);
- else
- openData = imread('green.jpg');
- closedData = imread('red.jpg');
- save lamb.mat openData closedData;
- end
- %% 将上述参数作为应用数据,存入窗口对象内
- setappdata(hObject, 'hasData', hasData);
- setappdata(hObject, 'strRec', strRec);
- setappdata(hObject, 'numRec', numRec);
- setappdata(hObject, 'numSend', numSend);
- setappdata(hObject, 'isShow', isShow);
- setappdata(hObject, 'isStopDisp', isStopDisp);
- setappdata(hObject, 'isHexDisp', isHexDisp);
- setappdata(hObject, 'isHexSend', isHexSend);
- setappdata(hObject, 'openData', openData);
- setappdata(hObject, 'closedData', closedData);
- %初始化串口状态指示灯,串口灯默认为关闭状态
- set(handles.lamb, 'cdata', closedData);
- guidata(hObject, handles);
- function varargout = serial_communication_OutputFcn(hObject, eventdata, handles)
- varargout{1} = handles.output;
- function com_Callback(hObject, ~, handles)
- function com_CreateFcn(hObject, eventdata, handles)
- if ispc && isequal(get(hObject,'BackgroundColor'), get(0,'defaultUicontrolBackgroundColor'))
- set(hObject,'BackgroundColor','white');
- end
- function rate_Callback(hObject, eventdata, handles)
- function rate_CreateFcn(hObject, eventdata, handles)
- if ispc && isequal(get(hObject,'BackgroundColor'), get(0,'defaultUicontrolBackgroundColor'))
- set(hObject,'BackgroundColor','white');
- end
- function jiaoyan_Callback(hObject, eventdata, handles)
- function jiaoyan_CreateFcn(hObject, eventdata, handles)
- if ispc && isequal(get(hObject,'BackgroundColor'), get(0,'defaultUicontrolBackgroundColor'))
- set(hObject,'BackgroundColor','white');
- end
- function data_bits_Callback(hObject, eventdata, handles)
- function data_bits_CreateFcn(hObject, eventdata, handles)
- if ispc && isequal(get(hObject,'BackgroundColor'), get(0,'defaultUicontrolBackgroundColor'))
- set(hObject,'BackgroundColor','white');
- end
- function stop_bits_Callback(hObject, eventdata, handles)
- function stop_bits_CreateFcn(hObject, eventdata, handles)
- if ispc && isequal(get(hObject,'BackgroundColor'), get(0,'defaultUicontrolBackgroundColor'))
- set(hObject,'BackgroundColor','white');
- end
- function start_serial_Callback(hObject, eventdata, handles)
- % 【打开/关闭串口】按钮的回调函数
- % 打开串口,并初始化相关参数
- %% 若按下【打开串口】按钮,打开串口
- if get(hObject, 'value')
- %% 获取串口的端口名
- com_n = sprintf('com%d', get(handles.com, 'value'));
- %% 获取波特率
- rates = [300 600 1200 2400 4800 9600 19200 38400 43000 56000 57600 115200];
- baud_rate = rates(get(handles.rate, 'value'));
- %% 获取校验位设置
- switch get(handles.jiaoyan, 'value')
- case 1
- jiaoyan = 'none';
- case 2
- jiaoyan = 'odd';
- case 3
- jiaoyan = 'even';
- end
- %% 获取数据位个数
- data_bits = 5 + get(handles.data_bits, 'value');
- %% 获取停止位个数
- stop_bits = get(handles.stop_bits, 'value');
- %% 创建串口对象
- scom = serial(com_n);
- %% 配置串口属性,指定其回调函数
- set(scom, 'BaudRate', baud_rate, 'Parity', jiaoyan, 'DataBits',...
- data_bits, 'StopBits', stop_bits, 'BytesAvailableFcnCount', 10,...
- 'BytesAvailableFcnMode', 'byte', 'BytesAvailableFcn', {@bytes, handles},...
- 'TimerPeriod', 0.05, 'timerfcn', {@dataDisp, handles});
- %% 将串口对象的句柄作为用户数据,存入窗口对象
- set(handles.figure1, 'UserData', scom);
- %% 尝试打开串口
- try
- fopen(scom); %打开串口
- catch % 若串口打开失败,提示“串口不可获得!”
- msgbox('串口不可获得!');
- set(hObject, 'value', 0); %弹起本按钮
- return;
- end
- %% 打开串口后,允许串口发送数据,清空接收显示区,点亮串口状态指示灯,
- %% 并更改本按钮文本为“关闭串口”
- set(handles.period_send, 'Enable', 'on'); %启用【自动发送】按钮
- set(handles.manual_send, 'Enable', 'on'); %启用【手动发送】按钮
- set(handles.xianshi, 'string', ''); %清空接收显示区
- set(handles.lamb, 'cdata', getappdata('openData')); %点亮串口状态指示灯
- set(hObject, 'String', '关闭串口'); %设置本按钮文本为“关闭串口”
- else %若关闭串口
- %% 停止并删除定时器
- t = timerfind;
- if ~isempty(t)
- stop(t);
- delete(t);
- end
- %% 停止并删除串口对象
- scoms = instrfind;
- stopasync(scoms);
- fclose(scoms);
- delete(scoms);
- %% 禁用【自动发送】和【手动发送】按钮,熄灭串口状态指示灯
- set(handles.period_send, 'Enable', 'off', 'value', 0); %禁用【自动发送】按钮
- set(handles.manual_send, 'Enable', 'off'); %禁用【手动发送】按钮
- set(handles.lamb, 'cdata', getappdata('closedData')); %熄灭串口状态指示灯
- set(hObject, 'String', '打开串口'); %设置本按钮文本为“打开串口”
- end
- function dataDisp(obj, event, handles)
- % 串口的TimerFcn回调函数
- % 串口数据显示
- %% 获取参数
- hasData = getappdata(handles.figure1, 'hasData'); %串口是否收到数据
- strRec = getappdata(handles.figure1, 'strRec'); %串口数据的字符串形式,定时显示该数据
- numRec = getappdata(handles.figure1, 'numRec'); %串口接收到的数据个数
- %% 若串口没有接收到数据,先尝试接收串口数据
- if ~hasData
- bytes(obj, event, handles);
- end
- %% 若串口有数据,显示串口数据
- if hasData
- %% 给数据显示模块加互斥锁
- %% 在执行显示数据模块时,不接受串口数据,即不执行BytesAvailableFcn回调函数
- setappdata(handles.figure1, 'isShow', true);
- %% 若要显示的字符串长度超过10000,清空显示区
- if length(strRec) > 10000
- strRec = '';
- setappdata(handles.figure1, 'strRec', strRec);
- end
- %% 显示数据
- set(handles.xianshi, 'string', strRec);
- %% 更新接收计数
- set(handles.rec,'string', numRec);
- %% 更新hasData标志,表明串口数据已经显示
- setappdata(handles.figure1, 'hasData', false);
- %% 给数据显示模块解锁
- setappdata(handles.figure1, 'isShow', false);
- end
-
- function bytes(obj, ~, handles)
- % 串口的BytesAvailableFcn回调函数
- % 串口接收数据
- %% 获取参数
- strRec = getappdata(handles.figure1, 'strRec'); %获取串口要显示的数据
- numRec = getappdata(handles.figure1, 'numRec'); %获取串口已接收数据的个数
- isStopDisp = getappdata(handles.figure1, 'isStopDisp'); %是否按下了【停止显示】按钮
- isHexDisp = getappdata(handles.figure1, 'isHexDisp'); %是否十六进制显示
- isShow = getappdata(handles.figure1, 'isShow'); %是否正在执行显示数据操作
- %% 若正在执行数据显示操作,暂不接收串口数据
- if isShow
- return;
- end
- %% 获取串口可获取的数据个数
- n = get(obj, 'BytesAvailable');
- %% 若串口有数据,接收所有数据
- if n
- %% 更新hasData参数,表明串口有数据需要显示
- setappdata(handles.figure1, 'hasData', true);
- %% 读取串口数据
- a = fread(obj, n, 'uchar');
- %% 若没有停止显示,将接收到的数据解算出来,准备显示
- if ~isStopDisp
- %% 根据进制显示的状态,解析数据为要显示的字符串
- if ~isHexDisp
- c = char(a');
- else
- strHex = dec2hex(a')';
- strHex2 = [strHex; blanks(size(a, 1))];
- c = strHex2(:)';
- end
- %% 更新已接收的数据个数
- numRec = numRec + size(a, 1);
- %% 更新要显示的字符串
- strRec = [strRec c];
- end
- %% 更新参数
- setappdata(handles.figure1, 'numRec', numRec); %更新已接收的数据个数
- setappdata(handles.figure1, 'strRec', strRec); %更新要显示的字符串
- end
- function qingkong_Callback(hObject, eventdata, handles)
- %% 清空要显示的字符串
- setappdata(handles.figure1, 'strRec', '');
- %% 清空显示
- set(handles.xianshi, 'String', '');
- function stop_disp_Callback(hObject, eventdata, handles)
- %% 根据【停止显示】按钮的状态,更新isStopDisp参数
- if get(hObject, 'Value')
- isStopDisp = true;
- else
- isStopDisp = false;
- end
- setappdata(handles.figure1, 'isStopDisp', isStopDisp);
- function radiobutton1_Callback(hObject, eventdata, handles)
- function radiobutton2_Callback(hObject, eventdata, handles)
- function togglebutton4_Callback(hObject, eventdata, handles)
- function hex_disp_Callback(hObject, eventdata, handles)
- %% 根据【十六进制显示】复选框的状态,更新isHexDisp参数
- if get(hObject, 'Value')
- isHexDisp = true;
- else
- isHexDisp = false;
- end
- setappdata(handles.figure1, 'isHexDisp', isHexDisp);
- function manual_send_Callback(hObject, eventdata, handles)
- scom = get(handles.figure1, 'UserData');
- numSend = getappdata(handles.figure1, 'numSend');
- val = get(handles.sends, 'UserData');
- numSend = numSend + length(val);
- set(handles.trans, 'string', num2str(numSend));
- setappdata(handles.figure1, 'numSend', numSend);
- %% 若要发送的数据不为空,发送数据
- if ~isempty(val)
- %% 设置倒计数的初值
- n = 1000;
- while n
- %% 获取串口的传输状态,若串口没有正在写数据,写入数据
- str = get(scom, 'TransferStatus');
- if ~(strcmp(str, 'write') || strcmp(str, 'read&write'))
- fwrite(scom, val, 'uint8', 'async'); %数据写入串口
- break;
- end
- n = n - 1; %倒计数
- end
- end
- function clear_send_Callback(hObject, eventdata, handles)
- %% 清空发送区
- set(handles.sends, 'string', '')
- %% 更新要发送的数据
- set(handles.sends, 'UserData', []);
- function checkbox2_Callback(hObject, eventdata, handles)
- function period_send_Callback(hObject, eventdata, handles)
- % 【自动发送】按钮的Callback回调函数
- %% 若按下【自动发送】按钮,启动定时器;否则,停止并删除定时器
- if get(hObject, 'value')
- t1 = 0.001 * str2double(get(handles.period1, 'string'));%获取定时器周期
- t = timer('ExecutionMode','fixedrate', 'Period', t1, 'TimerFcn',...
- {@manual_send_Callback, handles}); %创建定时器
- set(handles.period1, 'Enable', 'off'); %禁用设置定时器周期的Edit Text对象
- set(handles.sends, 'Enable', 'inactive'); %禁用数据发送编辑区
- start(t); %启动定时器
- else
- set(handles.period1, 'Enable', 'on'); %启用设置定时器周期的Edit Text对象
- set(handles.sends, 'Enable', 'on'); %启用数据发送编辑区
- t = timerfind; %查找定时器
- stop(t); %停止定时器
- delete(t); %删除定时器
- end
- function period1_Callback(hObject, eventdata, handles)
- function period1_CreateFcn(hObject, eventdata, handles)
- if ispc && isequal(get(hObject,'BackgroundColor'), get(0,'defaultUicontrolBackgroundColor'))
- set(hObject,'BackgroundColor','white');
- end
- function clear_count_Callback(hObject, eventdata, handles)
- %% 计数清零,并更新参数numRec和numSend
- set([handles.rec, handles.trans], 'string', '0')
- setappdata(handles.figure1, 'numRec', 0);
- setappdata(handles.figure1, 'numSend', 0);
- function copy_data_Callback(hObject, eventdata, handles)
- %% 设置是否允许复制接收数据显示区内的数据
- if get(hObject,'value')
- set(handles.xianshi, 'enable', 'on');
- else
- set(handles.xianshi, 'enable', 'inactive');
- end
- function figure1_CloseRequestFcn(hObject, eventdata, handles)
- % 关闭窗口时,检查定时器和串口是否已关闭
- % 若没有关闭,则先关闭
- %% 查找定时器
- t = timerfind;
- %% 若存在定时器对象,停止并关闭
- if ~isempty(t)
- stop(t); %若定时器没有停止,则停止定时器
- delete(t);
- end
- %% 查找串口对象
- scoms = instrfind;
- %% 尝试停止、关闭删除串口对象
- try
- stopasync(scoms);
- fclose(scoms);
- delete(scoms);
- end
- %% 关闭窗口
- delete(hObject);
- function hex_send_Callback(hObject, eventdata, handles)
- %% 根据【十六进制发送】复选框的状态,更新isHexSend参数
- if get(hObject,'value')
- isHexSend = true;
- else
- isHexSend = false;
- end
- setappdata(handles.figure1, 'isHexSend', isHexSend);
- %% 更新要发送的数据
- sends_Callback(handles.sends, eventdata, handles);
- function sends_Callback(hObject, eventdata, handles)
- % 数据发送编辑区的Callback回调函数
- % 更新要发送的数据
- %% 获取数据发送编辑区的字符串
- str = get(hObject, 'string');
- %% 获取参数isHexSend的值
- isHexSend = getappdata(handles.figure1, 'isHexSend');
- if ~isHexSend %若为ASCII值形式发送,直接将字符串转化为对应的数值
- val = double(str);
- else %若为十六进制发送,获取要发送的数据
- n = find(str == ' '); %查找空格
- n =[0 n length(str)+1]; %空格的索引值
- %% 每两个相邻空格之间的字符串为数值的十六进制形式,将其转化为数值
- for i = 1 : length(n)-1
- temp = str(n(i)+1 : n(i+1)-1); %获得每段数据的长度,为数据转换为十进制做准备
- if ~rem(length(temp), 2)
- b{i} = reshape(temp, 2, [])'; %将每段十六进制字符串转化为单元数组
- else
- break;
- end
- end
- val = hex2dec(b)'; %将十六进制字符串转化为十进制数,等待写入串口
- end
- %% 更新要显示的数据
- set(hObject, 'UserData', val);
- function lamb_Callback(hObject, eventdata, handles)
所有资料51hei提供下载:
serial_communication.rar
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