mirror of
https://github.com/CalcProgrammer1/OpenRGB.git
synced 2026-01-02 12:17:51 -05:00
443 lines
18 KiB
C++
443 lines
18 KiB
C++
/*-----------------------------------------*\
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| RGBController_Polychrome.cpp |
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| Generic RGB Interface for OpenRGB |
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| ASRock ASR LED and Polychrome RGB Driver |
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| Adam Honse (CalcProgrammer1) 12/15/2019 |
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\*-----------------------------------------*/
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#include "RGBController_Polychrome.h"
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#define ASROCK_MAX_ZONES 4
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#define ASROCK_MAX_LEDS 22
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static const char* polychrome_v2_zone_names[] =
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{
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"RGB LED 0 Header",
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"RGB LED 1 Header",
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"Audio",
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"PCH",
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"IO Cover",
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"Addressable Header"
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};
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RGBController_Polychrome::RGBController_Polychrome(PolychromeController* polychrome_ptr)
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{
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polychrome = polychrome_ptr;
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name = polychrome->GetDeviceName();
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version = polychrome->GetFirmwareVersion();
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type = DEVICE_TYPE_MOTHERBOARD;
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description = "ASRock ASR LED/Polychrome Device";
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switch(polychrome->GetASRockType())
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{
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case ASROCK_TYPE_ASRLED:
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{
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mode Off;
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Off.name = "Off";
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Off.value = ASRLED_MODE_OFF;
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Off.flags = 0;
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Off.color_mode = MODE_COLORS_NONE;
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modes.push_back(Off);
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mode Static;
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Static.name = "Static";
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Static.value = ASRLED_MODE_STATIC;
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Static.flags = MODE_FLAG_HAS_PER_LED_COLOR;
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Static.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(Static);
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mode Breathing;
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Breathing.name = "Breathing";
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Breathing.value = ASRLED_MODE_BREATHING;
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Breathing.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_PER_LED_COLOR;
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Breathing.speed_min = ASRLED_SPEED_MIN;
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Breathing.speed_max = ASRLED_SPEED_MAX;
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Breathing.speed = ASRLED_SPEED_DEFAULT;
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Breathing.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(Breathing);
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mode Strobe;
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Strobe.name = "Strobe";
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Strobe.value = ASRLED_MODE_FLASHING;
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Strobe.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_PER_LED_COLOR;
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Strobe.speed_min = ASRLED_SPEED_MIN;
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Strobe.speed_max = ASRLED_SPEED_MAX;
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Strobe.speed = ASRLED_SPEED_DEFAULT;
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Strobe.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(Strobe);
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mode SpectrumCycle;
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SpectrumCycle.name = "Spectrum Cycle";
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SpectrumCycle.value = ASRLED_MODE_SPECTRUM_CYCLE;
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SpectrumCycle.flags = MODE_FLAG_HAS_SPEED;
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SpectrumCycle.speed_min = ASRLED_SPEED_MIN;
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SpectrumCycle.speed_max = ASRLED_SPEED_MAX;
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SpectrumCycle.speed = ASRLED_SPEED_DEFAULT;
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SpectrumCycle.color_mode = MODE_COLORS_NONE;
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modes.push_back(SpectrumCycle);
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mode Random;
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Random.name = "Random";
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Random.value = ASRLED_MODE_RANDOM;
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Random.flags = MODE_FLAG_HAS_SPEED;
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Random.speed_min = ASRLED_SPEED_MIN;
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Random.speed_max = ASRLED_SPEED_MAX;
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Random.speed = ASRLED_SPEED_DEFAULT;
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Random.color_mode = MODE_COLORS_NONE;
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modes.push_back(Random);
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mode Music;
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Music.name = "Music";
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Music.value = ASRLED_MODE_MUSIC;
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Music.flags = MODE_FLAG_HAS_PER_LED_COLOR;
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Music.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(Music);
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mode Wave;
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Wave.name = "Wave";
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Wave.value = ASRLED_MODE_WAVE;
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Wave.flags = MODE_FLAG_HAS_SPEED;
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Wave.speed_min = ASRLED_SPEED_MIN;
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Wave.speed_max = ASRLED_SPEED_MAX;
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Wave.speed = ASRLED_SPEED_DEFAULT;
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Wave.color_mode = MODE_COLORS_NONE;
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modes.push_back(Wave);
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}
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break;
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case ASROCK_TYPE_POLYCHROME_V1:
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case ASROCK_TYPE_POLYCHROME_V2:
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{
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mode Off;
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Off.name = "Off";
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Off.value = POLYCHROME_MODE_OFF;
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Off.flags = 0;
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Off.color_mode = MODE_COLORS_NONE;
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modes.push_back(Off);
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mode Static;
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Static.name = "Static";
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Static.value = POLYCHROME_MODE_STATIC;
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Static.flags = MODE_FLAG_HAS_PER_LED_COLOR;
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Static.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(Static);
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mode Breathing;
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Breathing.name = "Breathing";
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Breathing.value = POLYCHROME_MODE_BREATHING;
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Breathing.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_PER_LED_COLOR;
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Breathing.speed_min = POLYCHROME_SPEED_MIN;
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Breathing.speed_max = POLYCHROME_SPEED_MAX;
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Breathing.speed = POLYCHROME_SPEED_DEFAULT;
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Breathing.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(Breathing);
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mode Strobe;
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Strobe.name = "Strobe";
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Strobe.value = POLYCHROME_MODE_FLASHING;
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Strobe.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_PER_LED_COLOR;
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Strobe.speed_min = POLYCHROME_SPEED_MIN;
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Strobe.speed_max = POLYCHROME_SPEED_MAX;
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Strobe.speed = POLYCHROME_SPEED_DEFAULT;
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Strobe.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(Strobe);
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mode SpectrumCycle;
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SpectrumCycle.name = "Spectrum Cycle";
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SpectrumCycle.value = POLYCHROME_MODE_SPECTRUM_CYCLE;
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SpectrumCycle.flags = MODE_FLAG_HAS_SPEED;
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SpectrumCycle.speed_min = POLYCHROME_SPEED_MIN;
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SpectrumCycle.speed_max = POLYCHROME_SPEED_MAX;
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SpectrumCycle.speed = POLYCHROME_SPEED_DEFAULT;
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SpectrumCycle.color_mode = MODE_COLORS_NONE;
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modes.push_back(SpectrumCycle);
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mode Random;
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Random.name = "Random";
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Random.value = POLYCHROME_MODE_RANDOM;
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Random.flags = MODE_FLAG_HAS_SPEED;
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Random.speed_min = POLYCHROME_SPEED_MIN;
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Random.speed_max = POLYCHROME_SPEED_MAX;
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Random.speed = POLYCHROME_SPEED_DEFAULT;
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Random.color_mode = MODE_COLORS_NONE;
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modes.push_back(Random);
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mode Wave;
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Wave.name = "Wave";
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Wave.value = POLYCHROME_MODE_WAVE;
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Wave.flags = MODE_FLAG_HAS_SPEED;
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Wave.speed_min = POLYCHROME_SPEED_MIN;
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Wave.speed_max = POLYCHROME_SPEED_MAX;
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Wave.speed = POLYCHROME_SPEED_DEFAULT;
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Wave.color_mode = MODE_COLORS_NONE;
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modes.push_back(Wave);
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mode Spring;
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Spring.name = "Spring";
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Spring.value = POLYCHROME_MODE_SPRING;
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Spring.flags = MODE_FLAG_HAS_SPEED;
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Spring.speed_min = POLYCHROME_SPEED_MIN;
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Spring.speed_max = POLYCHROME_SPEED_MAX;
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Spring.speed = POLYCHROME_SPEED_DEFAULT;
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Spring.color_mode = MODE_COLORS_NONE;
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modes.push_back(Spring);
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mode Stack;
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Stack.name = "Stack";
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Stack.value = POLYCHROME_MODE_STACK;
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Stack.flags = MODE_FLAG_HAS_SPEED;
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Stack.speed_min = POLYCHROME_SPEED_MIN;
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Stack.speed_max = POLYCHROME_SPEED_MAX;
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Stack.speed = POLYCHROME_SPEED_DEFAULT;
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Stack.color_mode = MODE_COLORS_NONE;
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modes.push_back(Stack);
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mode Cram;
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Cram.name = "Cram";
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Cram.value = POLYCHROME_MODE_CRAM;
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Cram.flags = MODE_FLAG_HAS_SPEED;
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Cram.speed_min = POLYCHROME_SPEED_MIN;
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Cram.speed_max = POLYCHROME_SPEED_MAX;
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Cram.speed = POLYCHROME_SPEED_DEFAULT;
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Cram.color_mode = MODE_COLORS_NONE;
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modes.push_back(Cram);
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mode Scan;
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Scan.name = "Scan";
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Scan.value = POLYCHROME_MODE_SCAN;
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Scan.flags = MODE_FLAG_HAS_SPEED;
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Scan.speed_min = POLYCHROME_SPEED_MIN;
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Scan.speed_max = POLYCHROME_SPEED_MAX;
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Scan.speed = POLYCHROME_SPEED_DEFAULT;
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Scan.color_mode = MODE_COLORS_NONE;
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modes.push_back(Scan);
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mode Neon;
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Neon.name = "Neon";
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Neon.value = POLYCHROME_MODE_NEON;
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Neon.flags = 0;
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Neon.color_mode = MODE_COLORS_NONE;
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modes.push_back(Neon);
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mode Water;
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Water.name = "Water";
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Water.value = POLYCHROME_MODE_WATER;
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Water.flags = MODE_FLAG_HAS_SPEED;
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Water.speed_min = POLYCHROME_SPEED_MIN;
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Water.speed_max = POLYCHROME_SPEED_MAX;
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Water.speed = POLYCHROME_SPEED_DEFAULT;
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Water.color_mode = MODE_COLORS_NONE;
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modes.push_back(Water);
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mode Rainbow;
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Rainbow.name = "Rainbow";
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Rainbow.value = POLYCHROME_MODE_RAINBOW;
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Rainbow.flags = MODE_FLAG_HAS_SPEED;
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Rainbow.speed_min = POLYCHROME_SPEED_MIN;
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Rainbow.speed_max = POLYCHROME_SPEED_MAX;
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Rainbow.speed = POLYCHROME_SPEED_DEFAULT;
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Rainbow.color_mode = MODE_COLORS_NONE;
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modes.push_back(Rainbow);
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}
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break;
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}
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SetupZones();
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}
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void RGBController_Polychrome::SetupZones()
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{
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switch(polychrome->GetASRockType())
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{
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/*---------------------------------------------------------*\
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| ASR LED motherboards only have a single zone/LED |
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\*---------------------------------------------------------*/
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case ASROCK_TYPE_ASRLED:
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{
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/*---------------------------------------------------------*\
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| Set up zones |
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\*---------------------------------------------------------*/
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zone* new_zone = new zone();
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/*---------------------------------------------------------*\
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| Set single zone name to "Motherboard" |
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\*---------------------------------------------------------*/
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new_zone->name = "Motherboard";
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new_zone->type = ZONE_TYPE_SINGLE;
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new_zone->leds_min = 1;
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new_zone->leds_max = 1;
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new_zone->leds_count = 1;
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new_zone->matrix_map = NULL;
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/*---------------------------------------------------------*\
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| Push new zone to zones vector |
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\*---------------------------------------------------------*/
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zones.push_back(*new_zone);
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/*---------------------------------------------------------*\
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| Set up LEDs |
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\*---------------------------------------------------------*/
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led* new_led = new led();
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/*---------------------------------------------------------*\
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| Set single LED name to "Motherboard" |
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\*---------------------------------------------------------*/
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new_led->name = "Motherboard";
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/*---------------------------------------------------------*\
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| Push new LED to LEDs vector |
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\*---------------------------------------------------------*/
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leds.push_back(*new_led);
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}
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break;
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/*---------------------------------------------------------*\
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| Polychrome motherboards should set up zones based on LED |
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| configuration register read from device |
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\*---------------------------------------------------------*/
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case ASROCK_TYPE_POLYCHROME_V1:
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case ASROCK_TYPE_POLYCHROME_V2:
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{
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/*---------------------------------------------------------*\
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| Set up zones |
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\*---------------------------------------------------------*/
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for(unsigned int zone_idx = 0; zone_idx < POLYCHROME_ZONE_COUNT; zone_idx++)
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{
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if(polychrome->zone_led_count[zone_idx] > 0)
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{
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zone* new_zone = new zone();
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/*---------------------------------------------------------*\
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| Set zone name to channel name |
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\*---------------------------------------------------------*/
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new_zone->name = polychrome_v2_zone_names[zone_idx];
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if(zone_idx == POLYCHROME_ZONE_ADDRESSABLE)
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{
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new_zone->leds_min = 1;
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new_zone->leds_max = 1;
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new_zone->leds_count = 1;
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}
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else
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{
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new_zone->leds_min = polychrome->zone_led_count[zone_idx];
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new_zone->leds_max = polychrome->zone_led_count[zone_idx];
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new_zone->leds_count = polychrome->zone_led_count[zone_idx];
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}
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if(new_zone->leds_count > 1)
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{
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new_zone->type = ZONE_TYPE_LINEAR;
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}
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else
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{
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new_zone->type = ZONE_TYPE_SINGLE;
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}
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new_zone->matrix_map = NULL;
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/*---------------------------------------------------------*\
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| Push new zone to zones vector |
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\*---------------------------------------------------------*/
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zones.push_back(*new_zone);
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}
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}
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unsigned int led_count = 0;
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/*---------------------------------------------------------*\
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| Set up LEDs |
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\*---------------------------------------------------------*/
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for(unsigned int zone_idx = 0; zone_idx < POLYCHROME_ZONE_COUNT; zone_idx++)
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{
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if(polychrome->zone_led_count[zone_idx] > 0)
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{
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for(unsigned int led_idx = 0; led_idx < polychrome->zone_led_count[zone_idx]; led_idx++)
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{
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/*---------------------------------------------------------*\
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| Each zone only has one LED |
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\*---------------------------------------------------------*/
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led* new_led = new led();
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new_led->name = polychrome_v2_zone_names[zone_idx];
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new_led->name.append(" " + std::to_string(led_idx + 1));
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new_led->value = 0;
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if(zone_idx == POLYCHROME_ZONE_ADDRESSABLE)
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{
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new_led->value = 1;
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}
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/*---------------------------------------------------------*\
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| Push new LED to LEDs vector |
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\*---------------------------------------------------------*/
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leds.push_back(*new_led);
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led_count++;
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if(zone_idx == POLYCHROME_ZONE_ADDRESSABLE)
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{
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break;
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}
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}
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}
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}
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}
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break;
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}
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SetupColors();
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}
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void RGBController_Polychrome::ResizeZone(int /*zone*/, int /*new_size*/)
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{
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/*---------------------------------------------------------*\
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| This device does not support resizing zones |
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\*---------------------------------------------------------*/
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}
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void RGBController_Polychrome::DeviceUpdateLEDs()
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{
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for (std::size_t led = 0; led < colors.size(); led++)
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{
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UpdateSingleLED(led);
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}
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}
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void RGBController_Polychrome::UpdateZoneLEDs(int /*zone*/)
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{
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DeviceUpdateLEDs();
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}
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void RGBController_Polychrome::UpdateSingleLED(int led)
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{
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unsigned char red = RGBGetRValue(colors[led]);
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unsigned char grn = RGBGetGValue(colors[led]);
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unsigned char blu = RGBGetBValue(colors[led]);
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/*---------------------------------------------------------*\
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| If the LED value is 1, it is the addressable LED and the |
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| address is 0x19 |
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\*---------------------------------------------------------*/
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if(leds[led].value == 1)
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{
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led = 0x19;
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}
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polychrome->SetColorsAndSpeed(led, red, grn, blu);
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}
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void RGBController_Polychrome::SetCustomMode()
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{
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active_mode = 1;
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}
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void RGBController_Polychrome::DeviceUpdateMode()
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{
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polychrome->SetMode(modes[active_mode].value, modes[active_mode].speed);
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DeviceUpdateLEDs();
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}
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