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cli.cpp
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cli.cpp
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#include <vector>
#include <cstring>
#include <string>
#include <tuple>
#include <iostream>
#include "OpenRGB.h"
#include "ProfileManager.h"
#include "ResourceManager.h"
#include "RGBController.h"
#include "i2c_smbus.h"
#include "NetworkClient.h"
#include "NetworkServer.h"
/*-------------------------------------------------------------*\
| Quirk for MSVC; which doesn't support this case-insensitive |
| function |
\*-------------------------------------------------------------*/
#ifdef _WIN32
#define strcasecmp strcmpi
#endif
using namespace std::chrono_literals;
static std::string profile_save_filename = "";
enum
{
RET_FLAG_PRINT_HELP = 1,
RET_FLAG_START_GUI = 2,
RET_FLAG_I2C_TOOLS = 4,
RET_FLAG_START_MINIMIZED = 8,
RET_FLAG_NO_DETECT = 16,
RET_FLAG_CLI_POST_DETECTION = 32,
RET_FLAG_START_SERVER = 64,
};
struct DeviceOptions
{
int device;
std::vector<std::tuple<unsigned char, unsigned char, unsigned char>> colors;
std::string mode;
unsigned int size;
bool hasSize;
bool hasOption;
};
struct ServerOptions
{
bool start = false;
unsigned short port = OPENRGB_SDK_PORT;
};
struct Options
{
std::vector<DeviceOptions> devices;
/*---------------------------------------------------------*\
| If hasDevice is false, devices above is empty and |
| allDeviceOptions shall be applied to all available devices|
\*---------------------------------------------------------*/
bool hasDevice;
DeviceOptions allDeviceOptions;
ServerOptions servOpts;
};
/*---------------------------------------------------------------------------------------------------------*\
| Support a common subset of human colors; for easier typing: https://www.w3.org/TR/css-color-3/#svg-color |
\*---------------------------------------------------------------------------------------------------------*/
struct HumanColors { uint32_t rgb; const char* keyword; } static const human_colors[] =
{
{ 0x000000, "black" },
{ 0x000080, "navy" },
{ 0x00008b, "darkblue" },
{ 0x0000cd, "mediumblue" },
{ 0x0000ff, "blue" },
{ 0x006400, "darkgreen" },
{ 0x008000, "green" },
{ 0x008080, "teal" },
{ 0x008b8b, "darkcyan" },
{ 0x00bfff, "deepskyblue" },
{ 0x00ced1, "darkturquoise" },
{ 0x00fa9a, "mediumspringgreen" },
{ 0x00ff00, "lime" },
{ 0x00ff7f, "springgreen" },
{ 0x00ffff, "aqua" },
{ 0x00ffff, "cyan" },
{ 0x191970, "midnightblue" },
{ 0x1e90ff, "dodgerblue" },
{ 0x20b2aa, "lightseagreen" },
{ 0x228b22, "forestgreen" },
{ 0x2e8b57, "seagreen" },
{ 0x2f4f4f, "darkslategray" },
{ 0x2f4f4f, "darkslategrey" },
{ 0x32cd32, "limegreen" },
{ 0x3cb371, "mediumseagreen" },
{ 0x40e0d0, "turquoise" },
{ 0x4169e1, "royalblue" },
{ 0x4682b4, "steelblue" },
{ 0x483d8b, "darkslateblue" },
{ 0x48d1cc, "mediumturquoise" },
{ 0x4b0082, "indigo" },
{ 0x556b2f, "darkolivegreen" },
{ 0x5f9ea0, "cadetblue" },
{ 0x6495ed, "cornflowerblue" },
{ 0x66cdaa, "mediumaquamarine" },
{ 0x696969, "dimgray" },
{ 0x696969, "dimgrey" },
{ 0x6a5acd, "slateblue" },
{ 0x6b8e23, "olivedrab" },
{ 0x708090, "slategray" },
{ 0x708090, "slategrey" },
{ 0x778899, "lightslategray" },
{ 0x778899, "lightslategrey" },
{ 0x7b68ee, "mediumslateblue" },
{ 0x7cfc00, "lawngreen" },
{ 0x7fff00, "chartreuse" },
{ 0x7fffd4, "aquamarine" },
{ 0x800000, "maroon" },
{ 0x800080, "purple" },
{ 0x808000, "olive" },
{ 0x808080, "gray" },
{ 0x808080, "grey" },
{ 0x87ceeb, "skyblue" },
{ 0x87cefa, "lightskyblue" },
{ 0x8a2be2, "blueviolet" },
{ 0x8b0000, "darkred" },
{ 0x8b008b, "darkmagenta" },
{ 0x8b4513, "saddlebrown" },
{ 0x8fbc8f, "darkseagreen" },
{ 0x90ee90, "lightgreen" },
{ 0x9370db, "mediumpurple" },
{ 0x9400d3, "darkviolet" },
{ 0x98fb98, "palegreen" },
{ 0x9932cc, "darkorchid" },
{ 0x9acd32, "yellowgreen" },
{ 0xa0522d, "sienna" },
{ 0xa52a2a, "brown" },
{ 0xa9a9a9, "darkgray" },
{ 0xa9a9a9, "darkgrey" },
{ 0xadd8e6, "lightblue" },
{ 0xadff2f, "greenyellow" },
{ 0xafeeee, "paleturquoise" },
{ 0xb0c4de, "lightsteelblue" },
{ 0xb0e0e6, "powderblue" },
{ 0xb22222, "firebrick" },
{ 0xb8860b, "darkgoldenrod" },
{ 0xba55d3, "mediumorchid" },
{ 0xbc8f8f, "rosybrown" },
{ 0xbdb76b, "darkkhaki" },
{ 0xc0c0c0, "silver" },
{ 0xc71585, "mediumvioletred" },
{ 0xcd5c5c, "indianred" },
{ 0xcd853f, "peru" },
{ 0xd2691e, "chocolate" },
{ 0xd2b48c, "tan" },
{ 0xd3d3d3, "lightgray" },
{ 0xd3d3d3, "lightgrey" },
{ 0xd8bfd8, "thistle" },
{ 0xda70d6, "orchid" },
{ 0xdaa520, "goldenrod" },
{ 0xdb7093, "palevioletred" },
{ 0xdc143c, "crimson" },
{ 0xdcdcdc, "gainsboro" },
{ 0xdda0dd, "plum" },
{ 0xdeb887, "burlywood" },
{ 0xe0ffff, "lightcyan" },
{ 0xe6e6fa, "lavender" },
{ 0xe9967a, "darksalmon" },
{ 0xee82ee, "violet" },
{ 0xeee8aa, "palegoldenrod" },
{ 0xf08080, "lightcoral" },
{ 0xf0e68c, "khaki" },
{ 0xf0f8ff, "aliceblue" },
{ 0xf0fff0, "honeydew" },
{ 0xf0ffff, "azure" },
{ 0xf4a460, "sandybrown" },
{ 0xf5deb3, "wheat" },
{ 0xf5f5dc, "beige" },
{ 0xf5f5f5, "whitesmoke" },
{ 0xf5fffa, "mintcream" },
{ 0xf8f8ff, "ghostwhite" },
{ 0xfa8072, "salmon" },
{ 0xfaebd7, "antiquewhite" },
{ 0xfaf0e6, "linen" },
{ 0xfafad2, "lightgoldenrodyellow" },
{ 0xfdf5e6, "oldlace" },
{ 0xff0000, "red" },
{ 0xff00ff, "fuchsia" },
{ 0xff00ff, "magenta" },
{ 0xff1493, "deeppink" },
{ 0xff4500, "orangered" },
{ 0xff6347, "tomato" },
{ 0xff69b4, "hotpink" },
{ 0xff7f50, "coral" },
{ 0xff8c00, "darkorange" },
{ 0xffa07a, "lightsalmon" },
{ 0xffa500, "orange" },
{ 0xffb6c1, "lightpink" },
{ 0xffc0cb, "pink" },
{ 0xffd700, "gold" },
{ 0xffdab9, "peachpuff" },
{ 0xffdead, "navajowhite" },
{ 0xffe4b5, "moccasin" },
{ 0xffe4c4, "bisque" },
{ 0xffe4e1, "mistyrose" },
{ 0xffebcd, "blanchedalmond" },
{ 0xffefd5, "papayawhip" },
{ 0xfff0f5, "lavenderblush" },
{ 0xfff5ee, "seashell" },
{ 0xfff8dc, "cornsilk" },
{ 0xfffacd, "lemonchiffon" },
{ 0xfffaf0, "floralwhite" },
{ 0xfffafa, "snow" },
{ 0xffff00, "yellow" },
{ 0xffffe0, "lightyellow" },
{ 0xfffff0, "ivory" },
{ 0xffffff, "white" },
{ 0, NULL }
};
bool ParseColors(std::string colors_string, DeviceOptions *options)
{
while (colors_string.length() > 0)
{
size_t rgb_end = colors_string.find_first_of(',');
std::string color = colors_string.substr(0, rgb_end);
int32_t rgb = 0;
bool parsed = false;
if (color.length() <= 0)
break;
/* swy: (A) try interpreting it as text; as human keywords, otherwise strtoul() will pick up 'darkgreen' as 0xDA */
for (const struct HumanColors *hc = human_colors; hc->keyword != NULL; hc++)
{
if (strcasecmp(hc->keyword, color.c_str()) != 0)
continue;
rgb = hc->rgb; parsed = true;
break;
}
/* swy: (B) no luck, try interpreting it as an hexadecimal number instead */
if (!parsed)
{
const char *colorptr = color.c_str(); char *endptr = NULL;
rgb = strtoul(colorptr, &endptr, 16);
/* swy: check that strtoul() has advanced the read pointer until the end (NULL terminator);
that means it has read the whole thing */
if (colorptr != endptr && endptr && *endptr == '\0')
parsed = true;
}
/* swy: we got it, save the 32-bit integer as a tuple of three RGB bytes */
if (parsed)
{
options->colors.push_back(std::make_tuple(
(rgb >> (8 * 2)) & 0xFF, /* RR.... */
(rgb >> (8 * 1)) & 0xFF, /* ..GG.. */
(rgb >> (8 * 0)) & 0xFF /* ....BB */
));
}
else
{
std::cout << "Error: Unknown color: '" + color + "', skipping." << std::endl;
}
// If there are no more colors
if (rgb_end == std::string::npos)
break;
// Remove the current color and the next color's leading comma
colors_string = colors_string.substr(color.length() + 1);
}
return options->colors.size() > 0;
}
unsigned int ParseMode(DeviceOptions& options, std::vector<RGBController *> &rgb_controllers)
{
// no need to check if --mode wasn't passed
if (options.mode.size() == 0)
{
return false;
}
/*---------------------------------------------------------*\
| Search through all of the device modes and see if there is|
| a match. If no match is found, print an error message. |
\*---------------------------------------------------------*/
for(unsigned int mode_idx = 0; mode_idx < rgb_controllers[options.device]->modes.size(); mode_idx++)
{
if (strcasecmp(rgb_controllers[options.device]->modes[mode_idx].name.c_str(), options.mode.c_str()) == 0)
{
return mode_idx;
}
}
std::cout << "Error: Mode '" + options.mode + "' not available for device '" + rgb_controllers[options.device]->name + "'" << std::endl;
return false;
}
DeviceOptions* GetDeviceOptionsForDevID(Options *opts, int device)
{
if (device == -1)
{
return &opts->allDeviceOptions;
}
for (unsigned int i = 0; i < opts->devices.size(); i++)
{
if (opts->devices[i].device == device)
{
return &opts->devices[i];
}
}
// should never happen
std::cout << "Internal error: Tried setting an option on a device that wasn't specified" << std::endl;
abort();
}
std::string QuoteIfNecessary(std::string str)
{
if (str.find(' ') == std::string::npos)
{
return str;
}
else
{
return "'" + str + "'";
}
}
/*---------------------------------------------------------------------------------------------------------*\
| Option processing functions |
\*---------------------------------------------------------------------------------------------------------*/
void OptionHelp()
{
std::string help_text;
help_text += "OpenRGB ";
help_text += VERSION_STRING;
help_text += ", for controlling RGB lighting.\n";
help_text += "Usage: OpenRGB (--device [--mode] [--color])...\n";
help_text += "\n";
help_text += "Options:\n";
help_text += "--gui Shows the GUI. GUI also appears when not passing any parameters\n";
help_text += "--startminimized Starts the GUI minimized to tray. Implies --gui, even if not specified\n";
help_text += "--client [IP]:[Port] Starts an SDK client on the given IP:Port (assumes port 6742 if not specified)\n";
help_text += "--server Starts the SDK's server\n";
help_text += "--server-port Sets the SDK's server port. Default: 6742 (1024-65535)\n";
help_text += "-l, --list-devices Lists every compatible device with their number\n";
help_text += "-d, --device [0-9] Selects device to apply colors and/or effect to, or applies to all devices if omitted\n";
help_text += " Can be specified multiple times with different modes and colors\n";
help_text += "-z, --zone [0-9] Selects zone to apply colors and/or sizes to, or applies to all zones in device if omitted\n";
help_text += " Must be specified after specifying a device\n";
help_text += "-c, --color FFFFFF,00AAFF... Sets colors on each device directly if no effect is specified, and sets the effect color if an effect is specified\n";
help_text += " If there are more LEDs than colors given, the last color will be applied to the remaining LEDs\n";
help_text += "-m, --mode [breathing | static | ...] Sets the mode to be applied, check --list-devices to see which modes are supported on your device\n";
help_text += "-s, --size [0-N] Sets the new size of the specified device zone.\n";
help_text += " Must be specified after specifying a zone.\n";
help_text += " If the specified size is out of range, or the zone does not offer resizing capability, the size will not be changed\n";
help_text += "-v, --version Display version and software build information\n";
help_text += "-p, --profile filename.orp Load the profile from filename.orp\n";
help_text += "-sp, --save-profile filename.orp Save the given settings to profile filename.orp\n";
help_text += "--i2c-tools Shows the I2C/SMBus Tools page in the GUI. Implies --gui, even if not specified.\n";
help_text += " USE I2C TOOLS AT YOUR OWN RISK! Don't use this option if you don't know what you're doing!\n";
help_text += " There is a risk of bricking your motherboard, RGB controller, and RAM if you send invalid SMBus/I2C transactions.\n";
help_text += "--localconfig Use the current working directory instead of the global configuration directory.\n";
help_text += "--config path Use a custom path instead of the global configuration directory.\n";
help_text += "--nodetect Do not try to detect hardware or autoconnect to a local server at startup.\n";
std::cout << help_text << std::endl;
}
void OptionVersion()
{
std::string version_text;
version_text += "OpenRGB ";
version_text += VERSION_STRING;
version_text += ", for controlling RGB lighting.\n";
version_text += " Version:\t\t ";
version_text += VERSION_STRING;
version_text += "\n Build Date\t\t ";
version_text += BUILDDATE_STRING;
version_text += "\n Git Commit ID\t\t ";
version_text += GIT_COMMIT_ID;
version_text += "\n Git Commit Date\t ";
version_text += GIT_COMMIT_DATE;
version_text += "\n Git Branch\t\t ";
version_text += GIT_BRANCH;
version_text += "\n";
std::cout << version_text << std::endl;
}
void OptionListDevices(std::vector<RGBController *> &rgb_controllers)
{
ResourceManager::get()->WaitForDeviceDetection();
for(std::size_t controller_idx = 0; controller_idx < rgb_controllers.size(); controller_idx++)
{
RGBController *controller = rgb_controllers[controller_idx];
/*---------------------------------------------------------*\
| Print device name |
\*---------------------------------------------------------*/
std::cout << controller_idx << ": " << controller->name << std::endl;
/*---------------------------------------------------------*\
| Print device type |
\*---------------------------------------------------------*/
std::cout << " Type: " << device_type_to_str(controller->type) << std::endl;
/*---------------------------------------------------------*\
| Print device description |
\*---------------------------------------------------------*/
if(!controller->description.empty())
{
std::cout << " Description: " << controller->description << std::endl;
}
/*---------------------------------------------------------*\
| Print device version |
\*---------------------------------------------------------*/
if(!controller->version.empty())
{
std::cout << " Version: " << controller->version << std::endl;
}
/*---------------------------------------------------------*\
| Print device location |
\*---------------------------------------------------------*/
if(!controller->location.empty())
{
std::cout << " Location: " << controller->location << std::endl;
}
/*---------------------------------------------------------*\
| Print device serial |
\*---------------------------------------------------------*/
if(!controller->serial.empty())
{
std::cout << " Serial: " << controller->serial << std::endl;
}
/*---------------------------------------------------------*\
| Print device modes |
\*---------------------------------------------------------*/
if(!controller->modes.empty())
{
std::cout << " Modes:";
int current_mode = controller->GetMode();
for(std::size_t mode_idx = 0; mode_idx < controller->modes.size(); mode_idx++)
{
std::string modeStr = QuoteIfNecessary(controller->modes[mode_idx].name);
if(current_mode == (int)mode_idx)
{
modeStr = "[" + modeStr + "]";
}
std::cout << " " << modeStr;
}
std::cout << std::endl;
}
/*---------------------------------------------------------*\
| Print device zones |
\*---------------------------------------------------------*/
if(!controller->zones.empty())
{
std::cout << " Zones:";
for(std::size_t zone_idx = 0; zone_idx < controller->zones.size(); zone_idx++)
{
std::cout << " " << QuoteIfNecessary(controller->zones[zone_idx].name);
}
std::cout << std::endl;
}
/*---------------------------------------------------------*\
| Print device LEDs |
\*---------------------------------------------------------*/
if(!controller->leds.empty())
{
std::cout << " LEDs:";
for(std::size_t led_idx = 0; led_idx < controller->leds.size(); led_idx++)
{
std::cout << " " << QuoteIfNecessary(controller->leds[led_idx].name);
}
std::cout << std::endl;
}
std::cout << std::endl;
}
}
bool OptionDevice(int *current_device, std::string argument, Options *options, std::vector<RGBController *> &rgb_controllers)
{
ResourceManager::get()->WaitForDeviceDetection();
try
{
*current_device = std::stoi(argument);
if((*current_device >= static_cast<int>(rgb_controllers.size())) || (*current_device < 0))
{
throw nullptr;
}
DeviceOptions newDev;
newDev.device = *current_device;
if(!options->hasDevice)
{
options->hasDevice = true;
}
options->devices.push_back(newDev);
return true;
}
catch(...)
{
std::cout << "Error: Invalid device ID: " + argument << std::endl;
return false;
}
}
bool OptionZone(int *current_device, int *current_zone, std::string argument, Options */*options*/, std::vector<RGBController *> &rgb_controllers)
{
ResourceManager::get()->WaitForDeviceDetection();
try
{
*current_zone = std::stoi(argument);
if(*current_device >= static_cast<int>(rgb_controllers.size()))
{
if(*current_zone >= static_cast<int>(rgb_controllers[*current_device]->zones.size()))
{
throw nullptr;
}
}
return true;
}
catch(...)
{
std::cout << "Error: Invalid zone ID: " + argument << std::endl;
return false;
}
}
bool OptionColor(int *currentDev, int */*current_zone*/, std::string argument, Options *options)
{
DeviceOptions* currentDevOpts = GetDeviceOptionsForDevID(options, *currentDev);
if(ParseColors(argument, currentDevOpts))
{
currentDevOpts->hasOption = true;
return true;
}
else
{
std::cout << "Error: Invalid color value: " + argument << std::endl;
return false;
}
}
bool OptionMode(int *currentDev, std::string argument, Options *options)
{
if (argument.size() == 0)
{
std::cout << "Error: --mode passed with no argument" << std::endl;
return false;
}
DeviceOptions* currentDevOpts = GetDeviceOptionsForDevID(options, *currentDev);
currentDevOpts->mode = argument;
currentDevOpts->hasOption = true;
return true;
}
bool OptionSize(int *current_device, int *current_zone, std::string argument, Options */*options*/, std::vector<RGBController *> &rgb_controllers)
{
const unsigned int new_size = std::stoi(argument);
ResourceManager::get()->WaitForDeviceDetection();
/*---------------------------------------------------------*\
| Fail out if device, zone, or size are out of range |
\*---------------------------------------------------------*/
if((*current_device >= static_cast<int>(rgb_controllers.size())) || (*current_device < 0))
{
std::cout << "Error: Device is out of range" << std::endl;
return false;
}
else if((*current_zone >= static_cast<int>(rgb_controllers[*current_device]->zones.size())) || (*current_zone < 0))
{
std::cout << "Error: Zone is out of range" << std::endl;
return false;
}
else if((new_size < rgb_controllers[*current_device]->zones[*current_zone].leds_min) || (new_size > rgb_controllers[*current_device]->zones[*current_zone].leds_max))
{
std::cout << "Error: New size is out of range" << std::endl;
}
/*---------------------------------------------------------*\
| Resize the zone |
\*---------------------------------------------------------*/
rgb_controllers[*current_device]->ResizeZone(*current_zone, new_size);
/*---------------------------------------------------------*\
| Save the profile |
\*---------------------------------------------------------*/
ResourceManager::get()->GetProfileManager()->SaveProfile("sizes.ors");
return true;
}
bool OptionProfile(std::string argument, std::vector<RGBController *> &rgb_controllers)
{
ResourceManager::get()->WaitForDeviceDetection();
/*---------------------------------------------------------*\
| Attempt to load profile |
\*---------------------------------------------------------*/
if(ResourceManager::get()->GetProfileManager()->LoadProfile(argument))
{
/*-----------------------------------------------------*\
| Change device mode if profile loading was successful |
\*-----------------------------------------------------*/
for(std::size_t controller_idx = 0; controller_idx < rgb_controllers.size(); controller_idx++)
{
RGBController* device = rgb_controllers[controller_idx];
device->DeviceUpdateMode();
if(device->modes[device->active_mode].color_mode == MODE_COLORS_PER_LED)
{
device->DeviceUpdateLEDs();
}
}
std::cout << "Profile loaded successfully" << std::endl;
return true;
}
else
{
std::cout << "Profile failed to load" << std::endl;
return false;
}
}
bool OptionSaveProfile(std::string argument)
{
/*---------------------------------------------------------*\
| Set save profile filename |
\*---------------------------------------------------------*/
profile_save_filename = argument;
return(true);
}
int ProcessOptions(int argc, char *argv[], Options *options, std::vector<RGBController *> &rgb_controllers)
{
unsigned int ret_flags = 0;
int arg_index = 1;
int current_device = -1;
int current_zone = -1;
options->hasDevice = false;
while(arg_index < argc)
{
std::string option = argv[arg_index];
std::string argument = "";
/*---------------------------------------------------------*\
| Handle options that take an argument |
\*---------------------------------------------------------*/
if(arg_index + 1 < argc)
{
argument = argv[arg_index + 1];
}
/*---------------------------------------------------------*\
| -l / --list-devices (no arguments) |
\*---------------------------------------------------------*/
if(option == "--list-devices" || option == "-l")
{
OptionListDevices(rgb_controllers);
exit(0);
}
/*---------------------------------------------------------*\
| -d / --device |
\*---------------------------------------------------------*/
else if(option == "--device" || option == "-d")
{
if(!OptionDevice(¤t_device, argument, options, rgb_controllers))
{
return RET_FLAG_PRINT_HELP;
}
arg_index++;
}
/*---------------------------------------------------------*\
| -z / --zone |
\*---------------------------------------------------------*/
else if(option == "--zone" || option == "-z")
{
if(!OptionZone(¤t_device, ¤t_zone, argument, options, rgb_controllers))
{
return RET_FLAG_PRINT_HELP;
}
arg_index++;
}
/*---------------------------------------------------------*\
| -c / --color |
\*---------------------------------------------------------*/
else if(option == "--color" || option == "-c")
{
if(!OptionColor(¤t_device, ¤t_zone, argument, options))
{
return RET_FLAG_PRINT_HELP;
}
arg_index++;
}
/*---------------------------------------------------------*\
| -m / --mode |
\*---------------------------------------------------------*/
else if(option == "--mode" || option == "-m")
{
if(!OptionMode(¤t_device, argument, options))
{
return RET_FLAG_PRINT_HELP;
}
arg_index++;
}
/*---------------------------------------------------------*\
| -s / --size |
\*---------------------------------------------------------*/
else if(option == "--size" || option == "-s")
{
if(!OptionSize(¤t_device, ¤t_zone, argument, options, rgb_controllers))
{
return RET_FLAG_PRINT_HELP;
}
arg_index++;
}
/*---------------------------------------------------------*\
| -p / --profile |
\*---------------------------------------------------------*/
else if(option == "--profile" || option == "-p")
{
OptionProfile(argument, rgb_controllers);
arg_index++;
}
/*---------------------------------------------------------*\
| -sp / --save-profile |
\*---------------------------------------------------------*/
else if(option == "--save-profile" || option == "-sp")
{
OptionSaveProfile(argument);
arg_index++;
}
/*---------------------------------------------------------*\
| Invalid option |
\*---------------------------------------------------------*/
else
{
if((option == "--localconfig")
||(option == "--nodetect")
||(option == "--client")
||(option == "--server")
||(option == "--gui")
||(option == "--i2c-tools" || option == "--yolo")
||(option == "--startminimized")
||(option == "--help" || option == "-h")
||(option == "--version" || option == "-v"))
{
/*-------------------------------------------------*\
| Do nothing, these are pre-detection arguments |
| and this parser should ignore them |
\*-------------------------------------------------*/
}
else if((option == "--server-port")
||(option == "--config"))
{
/*-------------------------------------------------*\
| Increment index for pre-detection arguments with |
| parameter |
\*-------------------------------------------------*/
arg_index++;
}
else
{
/*-------------------------------------------------*\
| If the argument is not a pre-detection argument, |
| throw an error and print help |
\*-------------------------------------------------*/
std::cout << "Error: Invalid option: " + option << std::endl;
return RET_FLAG_PRINT_HELP;
}
}
arg_index++;
}
/*---------------------------------------------------------*\
| If a device was specified, check to verify that a |
| corresponding option was also specified |
\*---------------------------------------------------------*/
if(options->hasDevice)
{
for(std::size_t option_idx = 0; option_idx < options->devices.size(); option_idx++)
{
if(!options->devices[option_idx].hasOption)
{
std::cout << "Error: Device " + std::to_string(option_idx) + " specified, but neither mode nor color given" << std::endl;
return RET_FLAG_PRINT_HELP;
}
}
return 0;
}
else
{
return ret_flags;
}
}
void ApplyOptions(DeviceOptions& options, std::vector<RGBController *> &rgb_controllers)
{
RGBController *device = rgb_controllers[options.device];
/*---------------------------------------------------------*\
| Set mode first, in case it's 'direct' (which affects |
| SetLED below) |
\*---------------------------------------------------------*/
unsigned int mode = ParseMode(options, rgb_controllers);
/*---------------------------------------------------------*\
| Determine which color mode this mode uses and update |
| colors accordingly |
\*---------------------------------------------------------*/
switch(device->modes[mode].color_mode)
{
case MODE_COLORS_NONE:
break;
case MODE_COLORS_RANDOM:
break;
case MODE_COLORS_PER_LED:
if(options.colors.size() != 0)
{
std::size_t last_set_color;
for(std::size_t led_idx = 0; led_idx < device->leds.size(); led_idx++)
{
if(led_idx < options.colors.size())
{
last_set_color = led_idx;
}
device->colors[led_idx] = ToRGBColor(std::get<0>(options.colors[last_set_color]),
std::get<1>(options.colors[last_set_color]),
std::get<2>(options.colors[last_set_color]));
}
}
break;
case MODE_COLORS_MODE_SPECIFIC:
if(options.colors.size() >= device->modes[mode].colors_min && options.colors.size() <= device->modes[mode].colors_max)
{
device->modes[mode].colors.resize(options.colors.size());
for(std::size_t color_idx = 0; color_idx <= options.colors.size(); color_idx++)
{
device->modes[mode].colors[color_idx] = ToRGBColor(std::get<0>(options.colors[color_idx]),
std::get<1>(options.colors[color_idx]),
std::get<2>(options.colors[color_idx]));
}
}
else
{
std::cout << "Wrong number of colors specified for mode" << std::endl;
exit(0);
}
break;
}
/*---------------------------------------------------------*\
| Set device mode |
\*---------------------------------------------------------*/
device->active_mode = mode;
device->DeviceUpdateMode();
/*---------------------------------------------------------*\
| Set device per-LED colors if necessary |
\*---------------------------------------------------------*/
if(device->modes[mode].color_mode == MODE_COLORS_PER_LED)
{
device->DeviceUpdateLEDs();
}
}
void WaitWhileServerOnline(NetworkServer* srv)
{
while (srv->GetOnline())
{
std::this_thread::sleep_for(1s);
};
}
unsigned int cli_pre_detection(int argc, char *argv[])
{
/*---------------------------------------------------------*\
| Process only the arguments that should be performed prior |
| to detecting devices and/or starting clients |
\*---------------------------------------------------------*/
int arg_index = 1;
unsigned int ret_flags = 0;
unsigned short server_port = OPENRGB_SDK_PORT;
bool server_start = false;
bool print_help = false;
while(arg_index < argc)
{
std::string option = argv[arg_index];
std::string argument = "";
/*---------------------------------------------------------*\
| Handle options that take an argument |
\*---------------------------------------------------------*/
if(arg_index + 1 < argc)
{
argument = argv[arg_index + 1];
}
/*---------------------------------------------------------*\
| --localconfig |
\*---------------------------------------------------------*/
if(option == "--localconfig")
{
ResourceManager::get()->SetConfigurationDirectory("./");
}
/*---------------------------------------------------------*\
| --config |
\*---------------------------------------------------------*/
else if(option == "--config")
{
ResourceManager::get()->SetConfigurationDirectory(argument);
arg_index++;
}
/*---------------------------------------------------------*\
| --nodetect |
\*---------------------------------------------------------*/
else if(option == "--nodetect")
{
ret_flags |= RET_FLAG_NO_DETECT;
}
/*---------------------------------------------------------*\
| --client |
\*---------------------------------------------------------*/
else if(option == "--client")
{
NetworkClient * client = new NetworkClient(ResourceManager::get()->GetRGBControllers());
std::size_t pos = argument.find(":");
std::string ip = argument.substr(0, pos);
unsigned short port_val;
if(pos == argument.npos)