294 lines
12 KiB
Matlab
294 lines
12 KiB
Matlab
classdef iio_sys_obj_matlab
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% iio_sys_obj System Object block for IIO devices
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properties (Access = public)
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% Public, non-tunable properties.
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%ip_address IP address
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ip_address = '';
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%dev_name Device name
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dev_name = '';
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%in_ch_no Number of input data channels
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in_ch_no = 0;
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%in_ch_size Input data channel size [samples]
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in_ch_size = 8192;
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%out_ch_no Number of output data channels
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out_ch_no = 0;
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%out_ch_size Output data channel size [samples]
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out_ch_size = 8192;
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end
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properties (Access = public)
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% Protected class properties.
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%iio_dev_cfg Device configuration structure
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iio_dev_cfg = [];
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end
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properties (Access = private)
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% Private class properties.
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%libiio_data_in_dev libiio IIO interface object for the input data device
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libiio_data_in_dev = {};
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%libiio_data_out_dev libiio IIO interface object for the output data device
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libiio_data_out_dev = {};
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%libiio_ctrl_dev libiio IIO interface object for the control device
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libiio_ctrl_dev = {};
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%sys_obj_initialized Holds the initialization status of the system object
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sys_obj_initialized = 0;
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end
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properties (Access = private)
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% Discrete state properties.
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%num_cfg_in Numeric type input control channels data
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num_cfg_in;
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%str_cfg_in String type input control channels data
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str_cfg_in;
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end
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methods
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%% Constructor
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function obj = iio_sys_obj_matlab(varargin)
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% Construct the libiio interface objects
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obj.libiio_data_in_dev = libiio_if();
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obj.libiio_data_out_dev = libiio_if();
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obj.libiio_ctrl_dev = libiio_if();
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end
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end
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methods (Access = protected)
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%% Utility functions
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function config = getObjConfig(obj)
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% Read the selected device configuration
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% Open the configuration file
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fname = sprintf('%s.cfg', obj.dev_name);
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fp_cfg = fopen(fname);
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if(fp_cfg < 0)
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config = {};
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return;
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end
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% Build the object configuration structure
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config = struct('data_in_device', '',... % Pointer to the data input device
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'data_out_device', '',... % Pointer to the data output device
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'ctrl_device', '',... % Pointer to the control device
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'cfg_ch', [],... % Configuration channels list
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'mon_ch', [],... % Monitoring channels list
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'in_ch_names', [],... % Configuration channels names
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'out_ch_names', []); % Monitoring channels names
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config.in_ch_names = {};
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config.out_ch_names = {};
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% Build the configuration/monitoring channels structure
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ch_cfg = struct('port_name', '',... % Name of the port to be displayed on the object block
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'port_attr', '',... % Associated device attribute name
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'ctrl_dev_name', '',... % Control device name
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'ctrl_dev', 0); % Pointer to the control device object
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% Read the object's configuration
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while(~feof(fp_cfg))
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line = fgets(fp_cfg);
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if(strfind(line,'#'))
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continue;
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end
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if(~isempty(strfind(line, 'channel')))
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% Get the associated configuration/monitoring channels
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idx = strfind(line, '=');
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line = line(idx+1:end);
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line = strsplit(line, ',');
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ch_cfg.port_name = strtrim(line{1});
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ch_cfg.port_attr = strtrim(line{3});
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if(length(line) > 4)
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ch_cfg.ctrl_dev_name = strtrim(line{4});
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else
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ch_cfg.ctrl_dev_name = 'ctrl_device';
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end
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if(strcmp(strtrim(line{2}), 'IN'))
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config.cfg_ch = [config.cfg_ch ch_cfg];
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config.in_ch_names = [config.in_ch_names ch_cfg.port_name];
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elseif(strcmp(strtrim(line{2}), 'OUT'))
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config.mon_ch = [config.mon_ch ch_cfg];
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config.out_ch_names = [config.out_ch_names ch_cfg.port_name];
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end
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elseif(~isempty(strfind(line, 'data_in_device')))
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% Get the associated data input device
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idx = strfind(line, '=');
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tmp = line(idx+1:end);
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tmp = strtrim(tmp);
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config.data_in_device = tmp;
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elseif(~isempty(strfind(line, 'data_out_device')))
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% Get the associated data output device
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idx = strfind(line, '=');
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tmp = line(idx+1:end);
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tmp = strtrim(tmp);
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config.data_out_device = tmp;
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elseif(~isempty(strfind(line, 'ctrl_device')))
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% Get the associated control device
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idx = strfind(line, '=');
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tmp = line(idx+1:end);
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tmp = strtrim(tmp);
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config.ctrl_device = tmp;
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end
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end
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fclose(fp_cfg);
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end
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end
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methods (Access = public)
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%% Common functions
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function ret = setupImpl(obj)
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% Implement tasks that need to be performed only once.
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% Set the initialization status to fail
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obj.sys_obj_initialized = 0;
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% Read the object's configuration from the associated configuration file
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obj.iio_dev_cfg = getObjConfig(obj);
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if(isempty(obj.iio_dev_cfg))
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msgbox('Could not read device configuration!', 'Error','error');
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return;
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end
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% Initialize discrete-state properties.
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obj.num_cfg_in = zeros(1, length(obj.iio_dev_cfg.cfg_ch));
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obj.str_cfg_in = zeros(length(obj.iio_dev_cfg.cfg_ch), 64);
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% Initialize the libiio data input device
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if(obj.in_ch_no ~= 0)
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[ret, err_msg, msg_log] = init(obj.libiio_data_in_dev, obj.ip_address, ...
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obj.iio_dev_cfg.data_in_device, 'OUT', ...
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obj.in_ch_no, obj.in_ch_size);
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fprintf('%s', msg_log);
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if(ret < 0)
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msgbox(err_msg, 'Error','error');
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return;
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end
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end
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% Initialize the libiio data output device
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if(obj.out_ch_no ~= 0)
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[ret, err_msg, msg_log] = init(obj.libiio_data_out_dev, obj.ip_address, ...
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obj.iio_dev_cfg.data_out_device, 'IN', ...
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obj.out_ch_no, obj.out_ch_size);
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fprintf('%s', msg_log);
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if(ret < 0)
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msgbox(err_msg, 'Error','error');
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return;
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end
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end
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% Initialize the libiio control device
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if(~isempty(obj.iio_dev_cfg.ctrl_device))
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[ret, err_msg, msg_log] = init(obj.libiio_ctrl_dev, obj.ip_address, ...
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obj.iio_dev_cfg.ctrl_device, '', ...
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0, 0);
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fprintf('%s', msg_log);
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if(ret < 0)
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msgbox(err_msg, 'Error','error');
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return;
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end
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end
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% Assign the control device for each monitoring channel
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for i = 1 : length(obj.iio_dev_cfg.mon_ch)
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if(strcmp(obj.iio_dev_cfg.mon_ch(i).ctrl_dev_name, 'data_in_device'))
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obj.iio_dev_cfg.mon_ch(i).ctrl_dev = obj.libiio_data_in_dev;
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elseif(strcmp(obj.iio_dev_cfg.mon_ch(i).ctrl_dev_name, 'data_out_device'))
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obj.iio_dev_cfg.mon_ch(i).ctrl_dev = obj.libiio_data_out_dev;
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else
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obj.iio_dev_cfg.mon_ch(i).ctrl_dev = obj.libiio_ctrl_dev;
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end
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end
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% Assign the control device for each configuration channel
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for i = 1 : length(obj.iio_dev_cfg.cfg_ch)
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if(strcmp(obj.iio_dev_cfg.cfg_ch(i).ctrl_dev_name, 'data_in_device'))
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obj.iio_dev_cfg.cfg_ch(i).ctrl_dev = obj.libiio_data_in_dev;
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elseif(strcmp(obj.iio_dev_cfg.cfg_ch(i).ctrl_dev_name, 'data_out_device'))
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obj.iio_dev_cfg.cfg_ch(i).ctrl_dev = obj.libiio_data_out_dev;
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else
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obj.iio_dev_cfg.cfg_ch(i).ctrl_dev = obj.libiio_ctrl_dev;
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end
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end
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% Set the initialization status to success
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obj.sys_obj_initialized = 1;
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ret = obj;
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end
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function releaseImpl(obj)
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% Release any resources used by the system object.
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obj.iio_dev_cfg = {};
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delete(obj.libiio_data_in_dev);
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delete(obj.libiio_data_out_dev);
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delete(obj.libiio_ctrl_dev);
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end
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function ret = stepImpl(obj, varargin)
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% Implement the system object's processing flow.
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varargout = cell(1, obj.out_ch_no + length(obj.iio_dev_cfg.mon_ch));
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if(obj.sys_obj_initialized == 0)
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return;
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end
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% Implement the device configuration flow
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for i = 1 : length(obj.iio_dev_cfg.cfg_ch)
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if(~isempty(varargin{1}{i + obj.in_ch_no}))
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if(length(varargin{1}{i + obj.in_ch_no}) == 1)
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new_data = (varargin{1}{i + obj.in_ch_no} ~= obj.num_cfg_in(i));
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else
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new_data = ~strncmp(char(varargin{1}{i + obj.in_ch_no}'), char(obj.str_cfg_in(i,:)), length(varargin{1}{i + obj.in_ch_no}));
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end
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if(new_data == 1)
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if(length(varargin{1}{i + obj.in_ch_no}) == 1)
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obj.num_cfg_in(i) = varargin{1}{i + obj.in_ch_no};
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str = num2str(obj.num_cfg_in(i));
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else
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for j = 1:length(varargin{1}{i + obj.in_ch_no})
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obj.str_cfg_in(i,j) = varargin{1}{i + obj.in_ch_no}(j);
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end
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obj.str_cfg_in(i,j+1) = 0;
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str = char(obj.str_cfg_in(i,:));
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end
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writeAttributeString(obj.iio_dev_cfg.cfg_ch(i).ctrl_dev, obj.iio_dev_cfg.cfg_ch(i).port_attr, str);
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end
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end
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end
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% Implement the data transmit flow
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writeData(obj.libiio_data_in_dev, varargin{1});
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% Implement the data capture flow
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[~, data] = readData(obj.libiio_data_out_dev);
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for i = 1 : obj.out_ch_no
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varargout{i} = data{i};
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end
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% Implement the parameters monitoring flow
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for i = 1 : length(obj.iio_dev_cfg.mon_ch)
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[~, val] = readAttributeDouble(obj.iio_dev_cfg.mon_ch(i).ctrl_dev, obj.iio_dev_cfg.mon_ch(i).port_attr);
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varargout{obj.out_ch_no + i} = val;
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end
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ret=varargout;
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end
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function ret = writeFirData(obj, fir_data_file)
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fir_data_str = fileread(fir_data_file);
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ret = writeAttributeString(obj.libiio_ctrl_dev, 'filter_fir_config', fir_data_str);
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end
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end
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end |