mouse_m908/include/setters.cpp
2020-05-13 19:28:09 +02:00

482 lines
14 KiB
C++

/*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
* MA 02110-1301, USA.
*
*/
#include "mouse_m908.h"
//setter functions
int mouse_m908::set_profile( m908_profile profile ){
_profile = profile;
return 0;
}
int mouse_m908::set_scrollspeed( m908_profile profile, uint8_t speed ){
//check if bounds exceeded
if( speed < _scrollspeed_min || speed > _scrollspeed_max ){
return 1;
}
_scrollspeeds[profile] = speed;
return 0;
}
int mouse_m908::set_lightmode( m908_profile profile, m908_lightmode lightmode ){
_lightmodes[profile] = lightmode;
return 0;
}
int mouse_m908::set_color( m908_profile profile, std::array<uint8_t, 3> color ){
_colors[profile] = color;
return 0;
}
int mouse_m908::set_brightness( m908_profile profile, uint8_t brightness ){
//check bounds
if( brightness < _brightness_min || brightness > _brightness_max ){
return 1;
}
_brightness_levels[profile] = brightness;
return 0;
}
int mouse_m908::set_speed( m908_profile profile, uint8_t speed ){
//check bounds
if( speed < _speed_min || speed > _speed_max ){
return 1;
}
_speed_levels[profile] = speed;
return 0;
}
int mouse_m908::set_dpi_enable( m908_profile profile, int level, bool enabled ){
//check bounds
if( level < _level_min || level > _level_max ){
return 1;
}
_dpi_enabled[profile][level] = enabled;
// check if at least one level enabled
int sum = 0;
for( int i = _level_min; i <= _level_max; i++ ){
if( _dpi_enabled[profile][i] ){
sum++;
}
}
// if no level enabled: reenable specified level
if( sum == 0 ){
_dpi_enabled[profile][level] = true;
return 1;
}
return 0;
}
int mouse_m908::set_dpi( m908_profile profile, int level, uint8_t dpi ){
//check bounds
if( dpi < _dpi_min || dpi > _dpi_max ){
return 1;
}
_dpi_levels[profile][level] = dpi;
return 0;
}
int mouse_m908::set_key_mapping( m908_profile profile, int key, std::array<uint8_t, 4> mapping ){
_keymap_data[profile][key][0] = mapping[0];
_keymap_data[profile][key][1] = mapping[1];
_keymap_data[profile][key][2] = mapping[2];
_keymap_data[profile][key][3] = mapping[3];
return 0;
}
int mouse_m908::set_key_mapping( m908_profile profile, int key, std::string mapping ){
// is string in _keycodes? mousebuttons/special functions and media controls
if( _keycodes.find(mapping) != _keycodes.end() ){
_keymap_data[profile][key][0] = _keycodes[mapping][0];
_keymap_data[profile][key][1] = _keycodes[mapping][1];
_keymap_data[profile][key][2] = _keycodes[mapping][2];
_keymap_data[profile][key][3] = 0x00;
} else if( mapping.find("fire") == 0 ){
// fire button (multiple keypresses)
std::stringstream mapping_stream(mapping);
std::string value1 = "", value2 = "", value3 = "";
uint8_t keycode, repeats = 1, delay = 0;
// the repeated value1 line is not a mistake, it skips the "fire:"
std::getline( mapping_stream, value1, ':' );
std::getline( mapping_stream, value1, ':' );
std::getline( mapping_stream, value2, ':' );
std::getline( mapping_stream, value3, ':' );
if( value1 == "mouse_left" ){
keycode = 0x81;
} else if( value1 == "mouse_right" ){
keycode = 0x82;
} else if( value1 == "mouse_middle" ){
keycode = 0x84;
} else if( _keyboard_key_values.find(value1) != _keyboard_key_values.end() ){
keycode = _keyboard_key_values[value1];
} else{
return 1;
}
repeats = (uint8_t)stoi(value2);
delay = (uint8_t)stoi(value3);
// store values
_keymap_data[profile][key][0] = 0x99;
_keymap_data[profile][key][1] = keycode;
_keymap_data[profile][key][2] = repeats;
_keymap_data[profile][key][3] = delay;
} else{
// string is not a key in _keycodes: keyboard key?
// search for modifiers and change values accordingly: ctrl, shift ...
uint8_t first_value = 0x90;
uint8_t modifier_value = 0x00;
for( auto i : _keyboard_modifier_values ){
if( mapping.find( i.first ) != std::string::npos ){
modifier_value += i.second;
first_value = 0x8f;
}
}
// get key value and store everything
try{
std::regex modifier_regex ("[a-z_]*\\+");
// store values
_keymap_data[profile][key][0] = first_value;
_keymap_data[profile][key][1] = modifier_value;
_keymap_data[profile][key][2] = _keyboard_key_values[std::regex_replace( mapping, modifier_regex, "" )];
_keymap_data[profile][key][3] = 0x00;
//std::cout << std::regex_replace( mapping, modifier_regex, "" ) << "\n";
} catch( std::exception& f ){
return 1;
}
}
return 0;
}
int mouse_m908::set_report_rate( m908_profile profile, m908_report_rate report_rate ){
_report_rates[profile] = report_rate;
return 0;
}
int mouse_m908::set_macro( int macro_number, std::string file ){
//check if macro_number is valid
if( macro_number < 1 || macro_number > 15 ){
return 1;
}
//open file
std::ifstream config_in( file );
if( !config_in.is_open() ){
return 1;
}
//process file
std::string value1 = "";
std::string value2 = "";
std::size_t position = 0;
int data_offset = 8;
for( std::string line; std::getline(config_in, line); ){
//process individual line
if( line.length() != 0 ){
position = 0;
position = line.find("\t", position);
value1 = line.substr(0, position);
value2 = line.substr(position+1);
if( value1 == "down" && _keyboard_key_values.find(value2) != _keyboard_key_values.end() ){
// keyboard key down
//std::cout << "down\n";
_macro_data[macro_number-1][data_offset] = 0x84;
_macro_data[macro_number-1][data_offset+1] = _keyboard_key_values[value2];
data_offset += 3;
} else if( value1 == "up" && _keyboard_key_values.find(value2) != _keyboard_key_values.end() ){
// keyboard key up
//std::cout << "up\n";
_macro_data[macro_number-1][data_offset] = 0x04;
_macro_data[macro_number-1][data_offset+1] = _keyboard_key_values[value2];
data_offset += 3;
} else if( value1 == "down" && _keyboard_key_values.find(value2) == _keyboard_key_values.end() ){
// mouse button down
//std::cout << "mouse down\n";
if( value2 == "mouse_left" ){
_macro_data[macro_number-1][data_offset] = 0x81;
_macro_data[macro_number-1][data_offset+1] = 0x01;
data_offset += 3;
} else if( value2 == "mouse_right" ){
_macro_data[macro_number-1][data_offset] = 0x81;
_macro_data[macro_number-1][data_offset+1] = 0x02;
data_offset += 3;
} else if( value2 == "mouse_middle" ){
_macro_data[macro_number-1][data_offset] = 0x81;
_macro_data[macro_number-1][data_offset+1] = 0x04;
data_offset += 3;
}
} else if( value1 == "up" && _keyboard_key_values.find(value2) == _keyboard_key_values.end() ){
// mouse button up
//std::cout << "mouse up\n";
if( value2 == "mouse_left" ){
_macro_data[macro_number-1][data_offset] = 0x01;
_macro_data[macro_number-1][data_offset+1] = 0x01;
data_offset += 3;
} else if( value2 == "mouse_right" ){
_macro_data[macro_number-1][data_offset] = 0x01;
_macro_data[macro_number-1][data_offset+1] = 0x02;
data_offset += 3;
} else if( value2 == "mouse_middle" ){
_macro_data[macro_number-1][data_offset] = 0x01;
_macro_data[macro_number-1][data_offset+1] = 0x04;
data_offset += 3;
}
} else if( value1 == "delay" ){
// delay
//std::cout << "delay\n";
int duration = (uint8_t)stoi( value2, 0, 10);
if( duration >= 1 && duration <= 255 ){
_macro_data[macro_number-1][data_offset] = 0x06;
_macro_data[macro_number-1][data_offset+1] = duration;
data_offset += 3;
}
}
if(data_offset > 212){
return 0;
}
}
}
return 0;
}
int mouse_m908::set_macro_repeat( int macro_number, uint8_t repeat ){
//check if macro_number is valid
if( macro_number < 1 || macro_number > 15 ){
return 1;
}
_macro_repeat[macro_number] = repeat;
return 0;
}
int mouse_m908::set_detach_kernel_driver( bool detach_kernel_driver ){
_detach_kernel_driver = detach_kernel_driver;
return 0;
}
int mouse_m908::set_all_macros( std::string file ){
//open file
std::ifstream config_in( file );
if( !config_in.is_open() ){
return 1;
}
//process file
std::string value1 = "";
std::string value2 = "";
std::size_t position = 0;
int data_offset = 8;
int macro_number = 0; // initially invalid
for( std::string line; std::getline(config_in, line); ){
// empty line → skip
if( line.length() == 0 )
continue;
// macro header → set macro_number, reset data_offset
if( std::regex_match( line, std::regex(";## macro[0-9]*") ) ){
macro_number = stoi( std::regex_replace( line, std::regex(";## macro"), "" ), 0, 10 );
data_offset = 8;
}
// macro action
if( std::regex_match( line, std::regex(";# .*") ) ){
// valid macronumber ?
if( macro_number < 1 || macro_number > 15 )
continue;
// maximum size reached
if(data_offset > 212)
continue;
// get action string
std::string action = std::regex_replace( line, std::regex(";# "), "" );
// get value substrings
position = 0;
position = action.find("\t", position);
value1 = action.substr(0, position);
value2 = action.substr(position+1);
// encode values
if( value1 == "down" && _keyboard_key_values.find(value2) != _keyboard_key_values.end() ){
// keyboard key down
//std::cout << "down\n";
_macro_data[macro_number-1][data_offset] = 0x84;
_macro_data[macro_number-1][data_offset+1] = _keyboard_key_values[value2];
data_offset += 3;
} else if( value1 == "up" && _keyboard_key_values.find(value2) != _keyboard_key_values.end() ){
// keyboard key up
//std::cout << "up\n";
_macro_data[macro_number-1][data_offset] = 0x04;
_macro_data[macro_number-1][data_offset+1] = _keyboard_key_values[value2];
data_offset += 3;
} else if( value1 == "down" && _keyboard_key_values.find(value2) == _keyboard_key_values.end() ){
// mouse button down
//std::cout << "mouse down\n";
if( value2 == "mouse_left" ){
_macro_data[macro_number-1][data_offset] = 0x81;
_macro_data[macro_number-1][data_offset+1] = 0x01;
data_offset += 3;
} else if( value2 == "mouse_right" ){
_macro_data[macro_number-1][data_offset] = 0x81;
_macro_data[macro_number-1][data_offset+1] = 0x02;
data_offset += 3;
} else if( value2 == "mouse_middle" ){
_macro_data[macro_number-1][data_offset] = 0x81;
_macro_data[macro_number-1][data_offset+1] = 0x04;
data_offset += 3;
}
} else if( value1 == "up" && _keyboard_key_values.find(value2) == _keyboard_key_values.end() ){
// mouse button up
//std::cout << "mouse up\n";
if( value2 == "mouse_left" ){
_macro_data[macro_number-1][data_offset] = 0x01;
_macro_data[macro_number-1][data_offset+1] = 0x01;
data_offset += 3;
} else if( value2 == "mouse_right" ){
_macro_data[macro_number-1][data_offset] = 0x01;
_macro_data[macro_number-1][data_offset+1] = 0x02;
data_offset += 3;
} else if( value2 == "mouse_middle" ){
_macro_data[macro_number-1][data_offset] = 0x01;
_macro_data[macro_number-1][data_offset+1] = 0x04;
data_offset += 3;
}
} else if( value1 == "delay" ){
// delay
//std::cout << "delay\n";
int duration = (uint8_t)stoi( value2, 0, 10);
if( duration >= 1 && duration <= 255 ){
_macro_data[macro_number-1][data_offset] = 0x06;
_macro_data[macro_number-1][data_offset+1] = duration;
data_offset += 3;
}
}
}
//process individual line
/*if( line.length() != 0 ){
position = 0;
position = line.find("\t", position);
value1 = line.substr(0, position);
value2 = line.substr(position+1);
if( value1 == "down" && _keyboard_key_values.find(value2) != _keyboard_key_values.end() ){
// keyboard key down
//std::cout << "down\n";
_macro_data[macro_number-1][data_offset] = 0x84;
_macro_data[macro_number-1][data_offset+1] = _keyboard_key_values[value2];
data_offset += 3;
} else if( value1 == "up" && _keyboard_key_values.find(value2) != _keyboard_key_values.end() ){
// keyboard key up
//std::cout << "up\n";
_macro_data[macro_number-1][data_offset] = 0x04;
_macro_data[macro_number-1][data_offset+1] = _keyboard_key_values[value2];
data_offset += 3;
} else if( value1 == "down" && _keyboard_key_values.find(value2) == _keyboard_key_values.end() ){
// mouse button down
//std::cout << "mouse down\n";
if( value2 == "mouse_left" ){
_macro_data[macro_number-1][data_offset] = 0x81;
_macro_data[macro_number-1][data_offset+1] = 0x01;
data_offset += 3;
} else if( value2 == "mouse_right" ){
_macro_data[macro_number-1][data_offset] = 0x81;
_macro_data[macro_number-1][data_offset+1] = 0x02;
data_offset += 3;
} else if( value2 == "mouse_middle" ){
_macro_data[macro_number-1][data_offset] = 0x81;
_macro_data[macro_number-1][data_offset+1] = 0x04;
data_offset += 3;
}
} else if( value1 == "up" && _keyboard_key_values.find(value2) == _keyboard_key_values.end() ){
// mouse button up
//std::cout << "mouse up\n";
if( value2 == "mouse_left" ){
_macro_data[macro_number-1][data_offset] = 0x01;
_macro_data[macro_number-1][data_offset+1] = 0x01;
data_offset += 3;
} else if( value2 == "mouse_right" ){
_macro_data[macro_number-1][data_offset] = 0x01;
_macro_data[macro_number-1][data_offset+1] = 0x02;
data_offset += 3;
} else if( value2 == "mouse_middle" ){
_macro_data[macro_number-1][data_offset] = 0x01;
_macro_data[macro_number-1][data_offset+1] = 0x04;
data_offset += 3;
}
} else if( value1 == "delay" ){
// delay
//std::cout << "delay\n";
int duration = (uint8_t)stoi( value2, 0, 10);
if( duration >= 1 && duration <= 255 ){
_macro_data[macro_number-1][data_offset] = 0x06;
_macro_data[macro_number-1][data_offset+1] = duration;
data_offset += 3;
}
}
if(data_offset > 212){
return 0;
}
*/
//}
}
return 0;
}