/* * 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_m709.h" //setter functions int mouse_m709::set_profile( rd_profile profile ){ _s_profile = profile; return 0; } int mouse_m709::set_scrollspeed( rd_profile profile, uint8_t speed ){ //check if bounds exceeded if( speed < _c_scrollspeed_min || speed > _c_scrollspeed_max ){ return 1; } _s_scrollspeeds[profile] = speed; return 0; } int mouse_m709::set_lightmode( rd_profile profile, rd_lightmode lightmode ){ _s_lightmodes[profile] = lightmode; return 0; } int mouse_m709::set_color( rd_profile profile, std::array color ){ _s_colors[profile] = color; return 0; } int mouse_m709::set_brightness( rd_profile profile, uint8_t brightness ){ //check bounds if( brightness < _c_brightness_min || brightness > _c_brightness_max ){ return 1; } _s_brightness_levels[profile] = brightness; return 0; } int mouse_m709::set_speed( rd_profile profile, uint8_t speed ){ //check bounds if( speed < _c_speed_min || speed > _c_speed_max ){ return 1; } _s_speed_levels[profile] = speed; return 0; } int mouse_m709::set_dpi_enable( rd_profile profile, int level, bool enabled ){ //check bounds if( level < _c_level_min || level > _c_level_max ){ return 1; } _s_dpi_enabled[profile][level] = enabled; // check if at least one level enabled int sum = 0; for( int i = _c_level_min; i <= _c_level_max; i++ ){ if( _s_dpi_enabled[profile][i] ){ sum++; } } // if no level enabled: reenable specified level if( sum == 0 ){ _s_dpi_enabled[profile][level] = true; return 1; } return 0; } int mouse_m709::set_dpi( rd_profile profile, int level, std::string dpi ){ // check DPI level bounds if( level < _c_level_min || level > _c_level_max ) return 1; // check format: 0xABCD (raw bytes) if( std::regex_match( dpi, std::regex("0x[[:xdigit:]]{4}") ) ){ uint8_t b0 = (uint8_t)stoi( dpi.substr(2,2), 0, 16 ); uint8_t b1 = (uint8_t)stoi( dpi.substr(4,2), 0, 16 ); //check bounds if( b0 < _c_dpi_min || b0 > _c_dpi_max || b1 < _c_dpi_2_min || b1 > _c_dpi_2_max ) return 1; _s_dpi_levels[profile][level][0] = b0; _s_dpi_levels[profile][level][1] = b1; return 0; } return 1; } int mouse_m709::set_dpi( rd_profile profile, int level, std::array dpi ){ // check DPI level bounds if( level < _c_level_min || level > _c_level_max ) return 1; //check bounds if( dpi[0] < _c_dpi_min || dpi[0] > _c_dpi_max || dpi[1] < _c_dpi_2_min || dpi[1] > _c_dpi_2_max ) return 1; _s_dpi_levels[profile][level][0] = dpi[0]; _s_dpi_levels[profile][level][1] = dpi[1]; return 0; } int mouse_m709::set_key_mapping( rd_profile profile, int key, std::array mapping ){ _s_keymap_data[profile][key][0] = mapping[0]; _s_keymap_data[profile][key][1] = mapping[1]; _s_keymap_data[profile][key][2] = mapping[2]; _s_keymap_data[profile][key][3] = mapping[3]; return 0; } int mouse_m709::set_key_mapping( rd_profile profile, int key, std::string mapping ){ // valid key ? if( _c_button_names[key] == "" ) return 1; std::array< uint8_t, 4 > bytes; int return_value = _i_encode_button_mapping( mapping, bytes ); if( return_value == 0 ){ _s_keymap_data[profile][key][0] = bytes[0]; _s_keymap_data[profile][key][1] = bytes[1]; _s_keymap_data[profile][key][2] = bytes[2]; _s_keymap_data[profile][key][3] = bytes[3]; } return return_value; } int mouse_m709::set_report_rate( rd_profile profile, rd_report_rate report_rate ){ _s_report_rates[profile] = report_rate; return 0; } int mouse_m709::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; } std::array< uint8_t, 256 > macro_bytes; _i_encode_macro( macro_bytes, config_in, 8 ); std::copy( macro_bytes.begin()+8, macro_bytes.end(), _s_macro_data[macro_number-1].begin()+8 ); config_in.close(); return 0; } int mouse_m709::set_all_macros( std::string file ){ //open file std::ifstream config_in( file ); if( !config_in.is_open() ){ return 1; } int macro_number = 0; // initially invalid std::array< std::stringstream, 15 > macro_streams; // get all macros from file for( std::string line; std::getline(config_in, line); ){ // empty line → skip if( line.length() == 0 ) continue; // macro header → set macro_number if( std::regex_match( line, std::regex(";## macro[0-9]*") ) ){ macro_number = stoi( std::regex_replace( line, std::regex(";## macro"), "" ), 0, 10 ); } // macro action if( std::regex_match( line, std::regex(";# .*") ) ){ // valid macronumber ? if( macro_number < 1 || macro_number > 15 ) continue; macro_streams.at( macro_number-1 ) << std::regex_replace( line, std::regex(";# "), "" ) << "\n"; } } // encode and store all macros for( int i = 0; i < 15; i++ ){ std::array< uint8_t, 256 > macro_bytes; _i_encode_macro( macro_bytes, macro_streams.at(i), 8 ); std::copy( macro_bytes.begin()+8, macro_bytes.end(), _s_macro_data.at(i).begin()+8 ); } return 0; }