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mirror of https://github.com/MatMoul/g810-led.git synced 2024-12-23 01:06:11 +00:00

g815 basic support

This commit is contained in:
MatMoul 2020-04-26 18:36:18 +02:00
parent b6051dfe8a
commit 3cea57cf4b

View File

@ -19,6 +19,7 @@
#include <iostream>
#include <unistd.h>
#include <vector>
#include <map>
#if defined(hidapi)
#include <locale>
@ -402,172 +403,167 @@ bool LedKeyboard::setKeys(KeyValueArray keyValues) {
bool retval = true;
vector<vector<KeyValue>> SortedKeys = {
{}, // Logo AddressGroup
{}, // Indicators AddressGroup
{}, // Multimedia AddressGroup
{}, // GKeys AddressGroup
{} // Keys AddressGroup
};
for (uint8_t i = 0; i < keyValues.size(); i++) {
switch(static_cast<LedKeyboard::KeyAddressGroup>(static_cast<uint16_t>(keyValues[i].key) >> 8 )) {
case LedKeyboard::KeyAddressGroup::logo:
switch (currentDevice.model) {
case LedKeyboard::KeyboardModel::g610:
case LedKeyboard::KeyboardModel::g810:
case LedKeyboard::KeyboardModel::g815:
case LedKeyboard::KeyboardModel::gpro:
if (SortedKeys[0].size() <= 1 && keyValues[i].key == LedKeyboard::Key::logo)
SortedKeys[0].push_back(keyValues[i]);
break;
case LedKeyboard::KeyboardModel::g910:
if (SortedKeys[0].size() <= 2) SortedKeys[0].push_back(keyValues[i]);
break;
default:
break;
}
break;
case LedKeyboard::KeyAddressGroup::indicators:
if (SortedKeys[1].size() <= 5) SortedKeys[1].push_back(keyValues[i]);
break;
case LedKeyboard::KeyAddressGroup::multimedia:
switch (currentDevice.model) {
case LedKeyboard::KeyboardModel::g610:
case LedKeyboard::KeyboardModel::g810:
case LedKeyboard::KeyboardModel::gpro:
if (SortedKeys[2].size() <= 5) SortedKeys[2].push_back(keyValues[i]);
break;
case LedKeyboard::KeyboardModel::g815:
if (SortedKeys[2].size() <= 4) SortedKeys[2].push_back(keyValues[i]);
break;
default:
break;
}
break;
case LedKeyboard::KeyAddressGroup::gkeys:
switch (currentDevice.model) {
case LedKeyboard::KeyboardModel::g815:
if (SortedKeys[3].size() <= 4) SortedKeys[3].push_back(keyValues[i]);
break;
case LedKeyboard::KeyboardModel::g910:
if (SortedKeys[3].size() <= 9) SortedKeys[3].push_back(keyValues[i]);
break;
default:
break;
}
break;
case LedKeyboard::KeyAddressGroup::keys:
switch (currentDevice.model) {
case LedKeyboard::KeyboardModel::g513:
case LedKeyboard::KeyboardModel::g610:
case LedKeyboard::KeyboardModel::g810:
case LedKeyboard::KeyboardModel::g815:
case LedKeyboard::KeyboardModel::g910:
case LedKeyboard::KeyboardModel::gpro:
if (SortedKeys[4].size() <= 120) SortedKeys[4].push_back(keyValues[i]);
break;
case LedKeyboard::KeyboardModel::g410:
if (SortedKeys[4].size() <= 120)
if (keyValues[i].key < LedKeyboard::Key::num_lock ||
keyValues[i].key > LedKeyboard::Key::num_dot)
SortedKeys[4].push_back(keyValues[i]);
break;
default:
break;
}
break;
}
}
vector<vector<KeyValue>> SortedKeys;
map<int32_t, vector<KeyValue>> KeyByColors;
map<int32_t, vector<KeyValue>>::iterator KeyByColorsIterator;
const uint8_t maxKeyPerColor = 13;
switch (currentDevice.model) {
case KeyboardModel::g815:
for (uint8_t kag = 0; kag < 5; kag++) {
if (SortedKeys[kag].size() > 0) {
for (uint8_t i = 0; i < keyValues.size(); i++) {
uint32_t colorkey = static_cast<uint32_t>(keyValues[i].color.red | keyValues[i].color.green << 8 | keyValues[i].color.blue << 16 );
if (KeyByColors.count(colorkey) == 0) KeyByColors.insert(pair<uint32_t, vector<KeyValue>>(colorkey, {}));
KeyByColors[colorkey].push_back(keyValues[i]);
}
for (auto& x: KeyByColors) {
if (x.second.size() > 0) {
uint8_t gi = 0;
while (gi < SortedKeys[kag].size()) {
while (gi < x.second.size()) {
size_t data_size = 20;
byte_buffer_t data = {};
uint8_t keyaddoffset = 0; // Temporary solution
uint8_t keyremoveoffset = 0; // Temporary solution
switch (kag) {
case 0:
data = getKeyGroupAddress(LedKeyboard::KeyAddressGroup::logo);
keyaddoffset = 0xd1;
break;
case 1:
data = getKeyGroupAddress(LedKeyboard::KeyAddressGroup::indicators);
keyaddoffset = 0x98;
break;
case 2:
data = getKeyGroupAddress(LedKeyboard::KeyAddressGroup::multimedia);
break;
case 3:
data = getKeyGroupAddress(LedKeyboard::KeyAddressGroup::gkeys);
keyaddoffset = 0xb3;
break;
case 4:
data = getKeyGroupAddress(LedKeyboard::KeyAddressGroup::keys);
keyremoveoffset = 0x03;
break;
}
//const uint8_t maxKeyCount = (data_size - 8) / 4;
//const uint8_t maxKeyCount = 4;
const uint8_t maxKeyCount = 1; // Temporary solution
if (data.size() > 0) {
for (uint8_t i = 0; i < maxKeyCount; i++) {
if (gi + i < SortedKeys[kag].size()) {
switch (SortedKeys[kag][gi+i].key) { // Temporary solution
case Key::play:
data.push_back(0x9b);
break;
case Key::mute:
data.push_back(0x9c);
break;
case Key::next:
data.push_back(0x9d);
break;
case Key::prev:
data.push_back(0x9e);
break;
case Key::ctrl_left:
case Key::shift_left:
case Key::alt_left:
case Key::win_left:
case Key::ctrl_right:
case Key::shift_right:
case Key::alt_right:
case Key::win_right:
data.push_back(static_cast<uint8_t>(
static_cast<uint16_t>(SortedKeys[kag][gi+i].key) & 0x00ff) - 0x78);
break;
default:
data.push_back(static_cast<uint8_t>(
static_cast<uint16_t>(SortedKeys[kag][gi+i].key) & 0x00ff) + keyaddoffset - keyremoveoffset);
}
data.push_back(SortedKeys[kag][gi+i].color.red);
data.push_back(SortedKeys[kag][gi+i].color.green);
data.push_back(SortedKeys[kag][gi+i].color.blue);
byte_buffer_t data = { 0x11, 0xff, 0x10, 0x6c };
data.push_back(x.second[0].color.red);
data.push_back(x.second[0].color.green);
data.push_back(x.second[0].color.blue);
for (uint8_t i = 0; i < maxKeyPerColor; i++) {
if (gi + i < x.second.size()) {
switch (x.second[gi+i].key) {
case Key::logo2:
case Key::game:
case Key::caps:
case Key::scroll:
case Key::num:
case Key::stop:
case Key::g6:
case Key::g7:
case Key::g8:
case Key::g9:
break;
case Key::play:
data.push_back(0x9b);
break;
case Key::mute:
data.push_back(0x9c);
break;
case Key::next:
data.push_back(0x9d);
break;
case Key::prev:
data.push_back(0x9e);
break;
case Key::ctrl_left:
case Key::shift_left:
case Key::alt_left:
case Key::win_left:
case Key::ctrl_right:
case Key::shift_right:
case Key::alt_right:
case Key::win_right:
data.push_back((static_cast<uint8_t>(x.second[gi+i].key) & 0x00ff) - 0x78);
break;
default:
switch (static_cast<KeyAddressGroup>((static_cast<uint16_t>(x.second[gi+i].key) & 0xff00) / 0xff)) {
case KeyAddressGroup::logo:
data.push_back((static_cast<uint8_t>(x.second[gi+i].key) & 0x00ff) + 0xd1);
break;
case KeyAddressGroup::indicators:
data.push_back((static_cast<uint8_t>(x.second[gi+i].key) & 0x00ff) + 0x98);
break;
case KeyAddressGroup::gkeys:
data.push_back((static_cast<uint8_t>(x.second[gi+i].key) & 0x00ff) + 0xb3);
break;
case KeyAddressGroup::keys:
data.push_back((static_cast<uint8_t>(x.second[gi+i].key) & 0x00ff) - 0x03);
break;
default:
break;
}
}
}
if (data.size() < data_size) data.push_back(0xff);
data.resize(data_size, 0x00);
if (retval) retval = sendDataInternal(data);
else sendDataInternal(data);
}
gi = gi + maxKeyCount;
if (data.size() < data_size) data.push_back(0xff);
data.resize(data_size, 0x00);
if (retval) retval = sendDataInternal(data);
else sendDataInternal(data);
gi = gi + maxKeyPerColor;
}
}
}
break;
default:
SortedKeys = {
{}, // Logo AddressGroup
{}, // Indicators AddressGroup
{}, // Multimedia AddressGroup
{}, // GKeys AddressGroup
{} // Keys AddressGroup
};
for (uint8_t i = 0; i < keyValues.size(); i++) {
switch(static_cast<LedKeyboard::KeyAddressGroup>(static_cast<uint16_t>(keyValues[i].key) >> 8 )) {
case LedKeyboard::KeyAddressGroup::logo:
switch (currentDevice.model) {
case LedKeyboard::KeyboardModel::g610:
case LedKeyboard::KeyboardModel::g810:
case LedKeyboard::KeyboardModel::gpro:
if (SortedKeys[0].size() <= 1 && keyValues[i].key == LedKeyboard::Key::logo)
SortedKeys[0].push_back(keyValues[i]);
break;
case LedKeyboard::KeyboardModel::g910:
if (SortedKeys[0].size() <= 2) SortedKeys[0].push_back(keyValues[i]);
break;
default:
break;
}
break;
case LedKeyboard::KeyAddressGroup::indicators:
if (SortedKeys[1].size() <= 5) SortedKeys[1].push_back(keyValues[i]);
break;
case LedKeyboard::KeyAddressGroup::multimedia:
switch (currentDevice.model) {
case LedKeyboard::KeyboardModel::g610:
case LedKeyboard::KeyboardModel::g810:
case LedKeyboard::KeyboardModel::gpro:
if (SortedKeys[2].size() <= 5) SortedKeys[2].push_back(keyValues[i]);
break;
default:
break;
}
break;
case LedKeyboard::KeyAddressGroup::gkeys:
switch (currentDevice.model) {
case LedKeyboard::KeyboardModel::g910:
if (SortedKeys[3].size() <= 9) SortedKeys[3].push_back(keyValues[i]);
break;
default:
break;
}
break;
case LedKeyboard::KeyAddressGroup::keys:
switch (currentDevice.model) {
case LedKeyboard::KeyboardModel::g513:
case LedKeyboard::KeyboardModel::g610:
case LedKeyboard::KeyboardModel::g810:
case LedKeyboard::KeyboardModel::g910:
case LedKeyboard::KeyboardModel::gpro:
if (SortedKeys[4].size() <= 120) SortedKeys[4].push_back(keyValues[i]);
break;
case LedKeyboard::KeyboardModel::g410:
if (SortedKeys[4].size() <= 120)
if (keyValues[i].key < LedKeyboard::Key::num_lock ||
keyValues[i].key > LedKeyboard::Key::num_dot)
SortedKeys[4].push_back(keyValues[i]);
break;
default:
break;
}
break;
}
}
for (uint8_t kag = 0; kag < 5; kag++) {
if (SortedKeys[kag].size() > 0) {