[WIP] Trying to implement motion controls and you the touch pad for emulating a mouse

2024-11-21 19:49:16 +01:00 · 2017-10-10 21:08:24 +02:00 · 2017-10-10 21:08:24 +02:00 · 22775dcbbb
commit 22775dcbbb
parent 3bf07857be
7 changed files with 385 additions and 54 deletions
--- a/ControllerPatcher.cpp
+++ b/ControllerPatcher.cpp
@ -402,6 +402,14 @@ void ControllerPatcher::ResetConfig(){
    ControllerPatcherUtils::setConfigValue((u8*)&config_controller[ds4_slot][CONTRPS_VPAD_BUTTON_HOME],              HID_DS4_BUTTON_GUIDE[0],               HID_DS4_BUTTON_GUIDE[1]);
    ControllerPatcherUtils::setConfigValue((u8*)&config_controller[ds4_slot][CONTRPS_PAD_COUNT],                     CONTROLLER_PATCHER_VALUE_SET,          HID_DS4_PAD_COUNT);
    ControllerPatcherUtils::setConfigValue((u8*)&config_controller[ds4_slot][CONTRPS_VPAD_ACC_X],                    HID_DS4_ACC[ACC_CONF_X_1BYTE],         HID_DS4_ACC[ACC_CONF_X_2BYTE]);
    ControllerPatcherUtils::setConfigValue((u8*)&config_controller[ds4_slot][CONTRPS_VPAD_ACC_Y],                    HID_DS4_ACC[ACC_CONF_Y_1BYTE],         HID_DS4_ACC[ACC_CONF_Y_2BYTE]);
    ControllerPatcherUtils::setConfigValue((u8*)&config_controller[ds4_slot][CONTRPS_VPAD_ACC_Z],                    HID_DS4_ACC[ACC_CONF_Z_1BYTE],         HID_DS4_ACC[ACC_CONF_Z_2BYTE]);
    ControllerPatcherUtils::setConfigValue((u8*)&config_controller[ds4_slot][CONTRPS_VPAD_GYRO_X],                   HID_DS4_GYRO[GYRO_CONF_X_1BYTE],       HID_DS4_GYRO[GYRO_CONF_X_2BYTE]);
    ControllerPatcherUtils::setConfigValue((u8*)&config_controller[ds4_slot][CONTRPS_VPAD_GYRO_Y],                   HID_DS4_GYRO[GYRO_CONF_Y_1BYTE],       HID_DS4_GYRO[GYRO_CONF_Y_2BYTE]);
    ControllerPatcherUtils::setConfigValue((u8*)&config_controller[ds4_slot][CONTRPS_VPAD_GYRO_Z],                   HID_DS4_GYRO[GYRO_CONF_Z_1BYTE],       HID_DS4_GYRO[GYRO_CONF_Z_2BYTE]);
    ControllerPatcherUtils::setConfigValue((u8*)&config_controller[ds4_slot][CONTRPS_VPAD_BUTTON_L_STICK_X],          HID_DS4_STICK_L_X[STICK_CONF_BYTE],   HID_DS4_STICK_L_X[STICK_CONF_DEFAULT]);
    ControllerPatcherUtils::setConfigValue((u8*)&config_controller[ds4_slot][CONTRPS_VPAD_BUTTON_L_STICK_X_DEADZONE], CONTROLLER_PATCHER_VALUE_SET,         HID_DS4_STICK_L_X[STICK_CONF_DEADZONE]);
    ControllerPatcherUtils::setConfigValue((u8*)&config_controller[ds4_slot][CONTRPS_VPAD_BUTTON_L_STICK_X_MINMAX],   HID_DS4_STICK_L_X[STICK_CONF_MIN],    HID_DS4_STICK_L_X[STICK_CONF_MAX]);
@ -735,18 +743,36 @@ HID_Mouse_Data * ControllerPatcher::getMouseData(){
        return NULL;
    }
    HID_Mouse_Data * result = NULL;
    for(s32 i;i<HID_MAX_DEVICES_PER_SLOT;i++){
        ControllerMappingPADInfo * padinfo = &(CMPAD->pad_infos[i]);
-        if(!padinfo->active){
+
-            break;
+        if(!padinfo->active){ //?!?!?!
            continue;
        }
-        if(padinfo->type == CM_Type_Mouse){
+
-            result = &(gHID_Devices[gMouseSlot].pad_data[padinfo->pad].data_union.mouse.cur_mouse_data);
+        if(padinfo->type == CM_Type_Mouse || (padinfo->vidpid.vid ==  0x054c && padinfo->vidpid.pid == 0x09CC)){
            DeviceInfo device_info;
            memset(&device_info,0,sizeof(device_info));
            device_info.vidpid = padinfo->vidpid;
            if(ControllerPatcherUtils::getDeviceInfoFromVidPid(&device_info) < 0){
                continue;
            }
            HID_Data * data = &gHID_Devices[device_info.slotdata.deviceslot].pad_data[padinfo->pad];
            if(!data->mouse.isValid){ //is valid
                continue;
            }
            if(data->mouse.ticksSinceChange < 60*5){ //Was moved in the last 5 seconds
                data->mouse.ticksSinceChange++;
                HID_Mouse_Data * mouse = &(data->mouse.cur_mouse_data);
                return mouse;
            }
        }
    }
-    return result;
+    return (HID_Mouse_Data *) 0x01;
 }
 CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcher::setRumble(UController_Type type,u32 status){
--- a/patcher/ControllerPatcherDefs.h
+++ b/patcher/ControllerPatcherDefs.h
@ -36,7 +36,8 @@
 #define HID_SDCARD_READ     2
 #define gHIDMaxDevices 32
-#define HID_MAX_DATA_LENGTH_PER_PAD             16
+#define HID_MAX_DATA_LENGTH_PER_PAD             40
 #define HID_EXTRA_DATA_LENGTH                   0x10
 #define HID_MAX_PADS_COUNT                      5
 #define HID_MAX_DEVICES_PER_SLOT                2
@ -92,7 +93,33 @@ enum Controller_Stick_Defines
    STICK_CONF_ENUM_MAXVALUE    /**< Maxmimum enum value for iteration*/
 };
-#define STICK_CONF_MAGIC_VALUE 0xF0 // When you change the enum above, Dont forget to change the magic version!!!!
+enum Controller_Acc_Defines
 {
    ACC_CONF_MAGIC_VERSION,   /**< Version of the acc configuration. Changes with every format*/
    ACC_CONF_X_1BYTE,            /**< first Byte where the X is stored*/
    ACC_CONF_X_2BYTE,            /**< second Byte where the X is stored*/
    ACC_CONF_Y_1BYTE,            /**< first Byte where the Y is stored*/
    ACC_CONF_Y_2BYTE,            /**< second Byte where the Y is stored*/
    ACC_CONF_Z_1BYTE,            /**< first Byte where the Z is stored*/
    ACC_CONF_Z_2BYTE,            /**< second Byte where the Z is stored*/
    ACC_CONF_ENUM_MAXVALUE    /**< Maxmimum enum value for iteration*/
 };
 enum Controller_Gyro_Defines
 {
    GYRO_CONF_MAGIC_VERSION,   /**< Version of the acc configuration. Changes with every format*/
    GYRO_CONF_X_1BYTE,            /**< first Byte where the X is stored*/
    GYRO_CONF_X_2BYTE,            /**< second Byte where the X is stored*/
    GYRO_CONF_Y_1BYTE,            /**< first Byte where the Y is stored*/
    GYRO_CONF_Y_2BYTE,            /**< second Byte where the Y is stored*/
    GYRO_CONF_Z_1BYTE,            /**< first Byte where the Z is stored*/
    GYRO_CONF_Z_2BYTE,            /**< second Byte where the Z is stored*/
    GYRO_CONF_ENUM_MAXVALUE    /**< Maxmimum enum value for iteration*/
 };
 #define ACC_CONF_MAGIC_VALUE    0xF0 // When you change the enum above, Dont forget to change the magic version!!!!
 #define GYRO_CONF_MAGIC_VALUE   0xF0 // When you change the enum above, Dont forget to change the magic version!!!!
 #define STICK_CONF_MAGIC_VALUE  0xF0 // When you change the enum above, Dont forget to change the magic version!!!!
 //! most data has the format: byte,value (byte starting at 0)
 enum Controller_Patcher_Settings
@ -164,6 +191,14 @@ enum Controller_Patcher_Settings
    CONTRPS_VPAD_BUTTON_R_STICK_Y_DEADZONE, //! Deadzone
    CONTRPS_VPAD_BUTTON_R_STICK_Y_MINMAX,   //! min,max
    CONTRPS_VPAD_ACC_X,
    CONTRPS_VPAD_ACC_Y,
    CONTRPS_VPAD_ACC_Z,
    CONTRPS_VPAD_GYRO_X,
    CONTRPS_VPAD_GYRO_Y,
    CONTRPS_VPAD_GYRO_Z,
    CONTRPS_VPAD_BUTTON_L_STICK_UP,
    CONTRPS_VPAD_BUTTON_L_STICK_DOWN,
    CONTRPS_VPAD_BUTTON_L_STICK_LEFT,
@ -266,16 +301,17 @@ typedef struct _HID_Data {
    u32 handle;         /**< The HID-handle this device is using */
    u8 rumbleActive;    /**< 1 when rumble is active */
    u32 last_buttons;   /**< The last pressed buttons, based on VPAD_BUTTON_XXX data */
-    union{
+    struct{
-        struct{
+        u8 cur_hid_data[HID_MAX_DATA_LENGTH_PER_PAD];   /**< Array where the current controller data is stored */
-            u8 cur_hid_data[HID_MAX_DATA_LENGTH_PER_PAD];   /**< Array where the current controller data is stored */
+        u8 last_hid_data[HID_MAX_DATA_LENGTH_PER_PAD];  /**< Array where the last  controller data is stored */
-            u8 last_hid_data[HID_MAX_DATA_LENGTH_PER_PAD];  /**< Array where the last  controller data is stored */
+    } controller; /**< Used when the device in a controller. Using u8 array where the raw data of the controller is placed. */
-        } controller; /**< Used when the device in a controller. Using u8 array where the raw data of the controller is placed. */
+    struct{
        struct{
            HID_Mouse_Data cur_mouse_data;  /**< Struct where the current mouse data is stored */
            HID_Mouse_Data last_mouse_data; /**< Struct where the last mouse data is stored */
-        } mouse; /**< Used when the device in a mouse. Using a new struct to store the data. */
+            u16 ticksSinceChange;
-    }data_union; /**< The data union where the current and last data is stored.*/
+            u8 isValid;
    } mouse;
    u8 extraData[0x10];  /**< The device type*/
    DEVICE_TYPE type;  /**< The device type*/
    HIDSlotData slotdata;  /**< Information about the deviceslot and his mask*/
    my_cb_user * user_data; /**< Pointer to the user data the read callback is using*/
@ -395,11 +431,17 @@ enum UController_Type{
 #define HID_DS3_VID                           0x054c
 #define HID_DS3_PID                           0x0268
 //#define HID_DS4_VID                           0x054c
 //#define HID_DS4_PID                           0x05c4
 //#define HID_NEW_DS4_VID                       0x054c
 //#define HID_NEW_DS4_PID                       0x09CC
 #define HID_DS4_VID                           0x054c
-#define HID_DS4_PID                           0x05c4
+#define HID_DS4_PID                           0x09CC
 #define HID_NEW_DS4_VID                       0x054c
-#define HID_NEW_DS4_PID                       0x09CC
+#define HID_NEW_DS4_PID                       0x09CD
 #define HID_XINPUT_VID                        0x7331
 #define HID_XINPUT_PID                        0x1337
--- a/patcher/ControllerPatcherHID.cpp
+++ b/patcher/ControllerPatcherHID.cpp
@ -57,7 +57,9 @@ void ControllerPatcherHID::myHIDMouseReadCallback(u32 handle, s32 error, unsigne
        }
        HID_Data * data_ptr = &(gHID_Devices[usr->slotdata.deviceslot].pad_data[slot]);
-        HID_Mouse_Data * cur_mouse_data = &data_ptr->data_union.mouse.cur_mouse_data;
+        HID_Mouse_Data * cur_mouse_data = &data_ptr->mouse.cur_mouse_data;
        u16 * ticksSinceChangePointer = &data_ptr->mouse.ticksSinceChange;
        data_ptr->type = DEVICE_TYPE_MOUSE;
        //log_printf("%02X %02X %02X %02X %02X bytes_transfered: %d\n",buf[0],buf[1],buf[2],buf[3],buf[4],bytes_transfered);
@ -88,6 +90,7 @@ void ControllerPatcherHID::myHIDMouseReadCallback(u32 handle, s32 error, unsigne
        if(cur_mouse_data->Y > 720) cur_mouse_data->Y = 720;
        cur_mouse_data->valuedChanged = 1;
        *ticksSinceChangePointer = 0;
        //log_printf("%02X %02X %02X %02X %02X %02X %02X %02X %d = X: %d Y: %d \n",buf[0],buf[1],buf[2],buf[3],buf[4],buf[5],buf[6],buf[7],bytes_transfered,x_value,y_value);
@ -348,8 +351,8 @@ void ControllerPatcherHID::HIDReadCallback(u32 handle, unsigned char *buf, u32 b
        //Copy the data for all 4 pads
        for(s32 i = 0;i<4;i++){
            data_ptr = &(gHID_Devices[gHID_SLOT_GC].pad_data[i]);
-            memcpy(&(data_ptr->data_union.controller.last_hid_data[0]),&(data_ptr->data_union.controller.cur_hid_data[0]),10); //save last data.
+            memcpy(&(data_ptr->controller.last_hid_data[0]),&(data_ptr->controller.cur_hid_data[0]),10); //save last data.
-            memcpy(&(data_ptr->data_union.controller.cur_hid_data[0]),&buf[(i*9)+1],9);                  //save new data.
+            memcpy(&(data_ptr->controller.cur_hid_data[0]),&buf[(i*9)+1],9);                  //save new data.
        }
@ -466,8 +469,12 @@ void ControllerPatcherHID::HIDReadCallback(u32 handle, unsigned char *buf, u32 b
            HID_Data * data_ptr = &(gHID_Devices[usr->slotdata.deviceslot].pad_data[slot]);
-            memcpy(&(data_ptr->data_union.controller.last_hid_data[0]),&(data_ptr->data_union.controller.cur_hid_data[0]),dsize);    // save the last data.
+            //s32 i = 0;
-            memcpy(&(data_ptr->data_union.controller.cur_hid_data[0]),&buf[0],dsize);                                                // save the new data.
+            //log_printf("data %08X: %02X %02X %02X %02X %02X %02X %02X %02X %02X ",       buf[i*9+0],buf[i*9+1],buf[i*9+2],buf[i*9+3],buf[i*9+4],buf[i*9+5],buf[i*9+6],buf[i*9+7],buf[i*9+8]);i++;
            //log_printf("%02X %02X %02X %02X %02X %02X %02X %02X %02X\n",       buf[i*9+0],buf[i*9+1],buf[i*9+2],buf[i*9+3],buf[i*9+4],buf[i*9+5],buf[i*9+6],buf[i*9+7],buf[i*9+8]);i++;
            memcpy(&(data_ptr->controller.last_hid_data[0]),&(data_ptr->controller.cur_hid_data[0]),dsize);    // save the last data.
            memcpy(&(data_ptr->controller.cur_hid_data[0]),&buf[0],dsize);                                                // save the new data.
            DCFlushRange(&gHID_Devices[usr->slotdata.deviceslot].pad_data[slot],sizeof(HID_Data));
@ -491,7 +498,7 @@ CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherHID::setVPADControllerData(V
        data_cur = data[i];
        if(data_cur->slotdata.hidmask & gHID_LIST_MOUSE){  //Reset the input when we have no new inputs
-            HID_Mouse_Data * mouse_data = &data_cur->data_union.mouse.cur_mouse_data;
+            HID_Mouse_Data * mouse_data = &data_cur->mouse.cur_mouse_data;
            if(mouse_data->valuedChanged == 1){ //Fix for the mouse cursor
                mouse_data->valuedChanged = 0;
            }else{
@ -532,6 +539,8 @@ CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherHID::setVPADControllerData(V
        ControllerPatcherUtils::convertAnalogSticks(data_cur,buffer);
        ControllerPatcherUtils::convertGyroAndAcc(data_cur,buffer);
        ControllerPatcherUtils::setEmulatedSticks(buffer,&last_emulate_stick);
        ControllerPatcherUtils::checkAndSetMouseMode(data_cur);
--- a/patcher/ControllerPatcherUtils.cpp
+++ b/patcher/ControllerPatcherUtils.cpp
@ -15,6 +15,8 @@
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.
 ****************************************************************************/
 #include "ControllerPatcherUtils.hpp"
 #include <stdio.h>
 #include <math.h>
 #include <math.h>
 #include <string.h>
@ -45,7 +47,7 @@ CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::getButtonPressed(HID_
    do{
        if(data->type == DEVICE_TYPE_MOUSE){
-            HID_Mouse_Data *  ms_data = &data->data_union.mouse.cur_mouse_data;
+            HID_Mouse_Data *  ms_data = &data->mouse.cur_mouse_data;
            if(ms_data == NULL) return CONTROLLER_PATCHER_ERROR_NULL_POINTER;
            if(gHID_Mouse_Mode == HID_MOUSE_MODE_TOUCH){
                if(VPADButton == VPAD_BUTTON_TOUCH){
@ -71,7 +73,7 @@ CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::getButtonPressed(HID_
            }
            result = 0; break;
        }
-        u8 * cur_data = &data->data_union.controller.cur_hid_data[0];
+        u8 * cur_data = &data->controller.cur_hid_data[0];
        if(cur_data == NULL) return CONTROLLER_PATCHER_ERROR_NULL_POINTER;
        s32 cur_config = 0;
@ -224,7 +226,7 @@ CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::getButtonPressed(HID_
 CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::isValueSet(HID_Data * data,s32 cur_config){
    if(data == NULL) return CONTROLLER_PATCHER_ERROR_NULL_POINTER;
-    u8 * cur_data = &data->data_union.controller.cur_hid_data[0];
+    u8 * cur_data = &data->controller.cur_hid_data[0];
    if(cur_data == NULL) return CONTROLLER_PATCHER_ERROR_NULL_POINTER;
    u32 hidmask = data->slotdata.hidmask;
@ -293,7 +295,7 @@ CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::setButtonData(VPADDat
 CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::checkActivePad(u32 hidmask,s32 pad){
    if(hidmask & gHID_LIST_GC && pad >= 0 && pad <= 3){
-        if (!(((gHID_Devices[gHID_SLOT_GC].pad_data[pad].data_union.controller.cur_hid_data[0] & 0x10) == 0) && ((gHID_Devices[gHID_SLOT_GC].pad_data[pad].data_union.controller.cur_hid_data[0] & 0x22) != 0x22))) return 1;
+        if (!(((gHID_Devices[gHID_SLOT_GC].pad_data[pad].controller.cur_hid_data[0] & 0x10) == 0) && ((gHID_Devices[gHID_SLOT_GC].pad_data[pad].controller.cur_hid_data[0] & 0x22) != 0x22))) return 1;
        return CONTROLLER_PATCHER_ERROR_NO_PAD_CONNECTED;
    }else{
        s32 deviceslot = getDeviceSlot(hidmask);
@ -310,10 +312,10 @@ CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::checkActivePad(u32 hi
 /*
 CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::getActivePad(u32 hidmask){
     if(hidmask & gHID_LIST_GC){
-        if (!(((gHID_Devices[gHID_SLOT_GC].pad_data[0].data_union.controller.cur_hid_data[0] & 0x10) == 0) && ((gHID_Devices[gHID_SLOT_GC].pad_data[0].data_union.controller.cur_hid_data[0] & 0x22) != 0x22))) return 0;
+        if (!(((gHID_Devices[gHID_SLOT_GC].pad_data[0].controller.cur_hid_data[0] & 0x10) == 0) && ((gHID_Devices[gHID_SLOT_GC].pad_data[0].controller.cur_hid_data[0] & 0x22) != 0x22))) return 0;
-        if (!(((gHID_Devices[gHID_SLOT_GC].pad_data[1].data_union.controller.cur_hid_data[0] & 0x10) == 0) && ((gHID_Devices[gHID_SLOT_GC].pad_data[1].data_union.controller.cur_hid_data[0] & 0x22) != 0x22))) return 1;
+        if (!(((gHID_Devices[gHID_SLOT_GC].pad_data[1].controller.cur_hid_data[0] & 0x10) == 0) && ((gHID_Devices[gHID_SLOT_GC].pad_data[1].controller.cur_hid_data[0] & 0x22) != 0x22))) return 1;
-        if (!(((gHID_Devices[gHID_SLOT_GC].pad_data[2].data_union.controller.cur_hid_data[0] & 0x10) == 0) && ((gHID_Devices[gHID_SLOT_GC].pad_data[2].data_union.controller.cur_hid_data[0] & 0x22) != 0x22))) return 2;
+        if (!(((gHID_Devices[gHID_SLOT_GC].pad_data[2].controller.cur_hid_data[0] & 0x10) == 0) && ((gHID_Devices[gHID_SLOT_GC].pad_data[2].controller.cur_hid_data[0] & 0x22) != 0x22))) return 2;
-        if (!(((gHID_Devices[gHID_SLOT_GC].pad_data[3].data_union.controller.cur_hid_data[0] & 0x10) == 0) && ((gHID_Devices[gHID_SLOT_GC].pad_data[3].data_union.controller.cur_hid_data[0] & 0x22) != 0x22))) return 3;
+        if (!(((gHID_Devices[gHID_SLOT_GC].pad_data[3].controller.cur_hid_data[0] & 0x10) == 0) && ((gHID_Devices[gHID_SLOT_GC].pad_data[3].controller.cur_hid_data[0] & 0x22) != 0x22))) return 3;
        return CONTROLLER_PATCHER_ERROR_NO_PAD_CONNECTED;
     }
@ -420,7 +422,7 @@ CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::convertAnalogSticks(H
    if (data->type == DEVICE_TYPE_MOUSE){
        if(gHID_Mouse_Mode == HID_MOUSE_MODE_AIM){ // TODO: tweak values
-            HID_Mouse_Data * ms_data = &data->data_union.mouse.cur_mouse_data;
+            HID_Mouse_Data * ms_data = &data->mouse.cur_mouse_data;
            if(ms_data == NULL) return CONTROLLER_PATCHER_ERROR_NULL_POINTER;
            f32 x_value = ms_data->deltaX/10.0f;
@ -438,7 +440,7 @@ CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::convertAnalogSticks(H
            buffer->rstick.y += y_value;
        }
    }else{
-        u8 * cur_data = &data->data_union.controller.cur_hid_data[0];
+        u8 * cur_data = &data->controller.cur_hid_data[0];
        if(cur_data == NULL) return CONTROLLER_PATCHER_ERROR_NULL_POINTER;
        s32 deadzone = 0;
@ -531,6 +533,164 @@ CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::convertAnalogSticks(H
    return CONTROLLER_PATCHER_ERROR_NONE;
 }
 #define PI 3.14159265
 Vec3D smoothedAcc;
 Vec3D smoothedAccNorm;
 Vec3D smoothedGyro;
 Vec3D smoothedGyroNorm;
 float Vec3Ddot(Vec3D v1, Vec3D v2) {
    return v1.x * v2.x + v1.y * v2.y + v1.z * v2.z;
 }
 float Vec3Dlength(Vec3D p) {
    return (float) sqrt(Vec3Ddot(p,p));
 }
 Vec3D Vec3Dsub(Vec3D v1, Vec3D v2) {
    v1.x -= v2.x;
    v1.y -= v2.y;
    v1.z -= v2.z;
    return v1;
 }
 Vec3D applyPitch(Vec3D in,float val){
    Vec3D out = in;
    out.y = (float) (in.y * cos(val) - in.z * sin(val));
    out.z = (float) (in.z * cos(val) + in.y * sin(val));
    return out;
 }
 Vec3D applyRoll(Vec3D in,double val){
    Vec3D out = in;
    out.x = (float) (in.x * cos(val) - in.y * sin(val));
    out.y = (float) (in.y * cos(val) + in.x * sin(val));
    return out;
 }
 Vec3D lastAcc = {0,0,0};
 CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::convertGyroAndAcc(HID_Data * data, VPADData * buffer){
    if(buffer == NULL || data == NULL) return CONTROLLER_PATCHER_ERROR_NULL_POINTER;
    s32 deviceslot = data->slotdata.deviceslot;
    u8 * cur_data = &data->controller.cur_hid_data[0];
    if(cur_data == NULL) return CONTROLLER_PATCHER_ERROR_NULL_POINTER;
    short accX,accY,accZ = 0;
    short gyroX,gyroY,gyroZ = 0;
    buffer->acc.x = smoothedAccNorm.x;
    if((config_controller[deviceslot][CONTRPS_VPAD_ACC_X][0] != CONTROLLER_PATCHER_INVALIDVALUE) &&
       (config_controller[deviceslot][CONTRPS_VPAD_ACC_X][1] != CONTROLLER_PATCHER_INVALIDVALUE)){
        accX = (cur_data[config_controller[deviceslot][CONTRPS_VPAD_ACC_X][0]] *0x100 ) + cur_data[config_controller[deviceslot][CONTRPS_VPAD_ACC_X][1]];
        smoothedAcc.x = (accX + smoothedAcc.x * 2.0f) / 3.0f; // smooth out
        smoothedAccNorm.x = ((smoothedAcc.x/8192.0f));
        buffer->dir.X.x = 1.0f;
        buffer->dir.X.y = 0.0f;
        buffer->dir.X.z = 0.0f;
        buffer->dir.Y.x = 0.0f;
        buffer->dir.Y.y = 1.0f;
        buffer->dir.Y.z = 0.0f;
        buffer->dir.Z.x = 0.0f;
        buffer->dir.Z.y = 0.0f;
        buffer->dir.Z.z = 1.0f;
        //buffer->dir.X.y = smoothedAccNorm.x * -1.0f;
    }
    if((config_controller[deviceslot][CONTRPS_VPAD_ACC_Y][0] != CONTROLLER_PATCHER_INVALIDVALUE) &&
       (config_controller[deviceslot][CONTRPS_VPAD_ACC_Y][1] != CONTROLLER_PATCHER_INVALIDVALUE)){
        accY = (cur_data[config_controller[deviceslot][CONTRPS_VPAD_ACC_Y][0]] *0x100 ) + cur_data[config_controller[deviceslot][CONTRPS_VPAD_ACC_Y][1]];
        smoothedAcc.y = (accY + smoothedAcc.y * 2.0f) / 3.0f; // smooth out
        smoothedAccNorm.y = ((smoothedAcc.y/8192.0f));
        buffer->acc.y = smoothedAccNorm.y * -1.0f;
        if(smoothedAccNorm.y < 0.0f){
            buffer->acc_vertical.x = smoothedAccNorm.y * -1.0f;
        }else{
            buffer->acc_vertical.x = smoothedAccNorm.y;
        }
    }
    if((config_controller[deviceslot][CONTRPS_VPAD_ACC_Z][0] != CONTROLLER_PATCHER_INVALIDVALUE) &&
       (config_controller[deviceslot][CONTRPS_VPAD_ACC_Z][1] != CONTROLLER_PATCHER_INVALIDVALUE)){
        accZ = (cur_data[config_controller[deviceslot][CONTRPS_VPAD_ACC_Z][0]] *0x100 ) + cur_data[config_controller[deviceslot][CONTRPS_VPAD_ACC_Z][1]];
        smoothedAcc.z = (accZ + smoothedAcc.z * 2.0f) / 3.0f; // smooth out
        smoothedAccNorm.z = ((smoothedAcc.z/8192.0f));
        buffer->acc.z = smoothedAccNorm.z;
        buffer->acc_vertical.y = smoothedAccNorm.z * -1.0f;
    }
    if((config_controller[deviceslot][CONTRPS_VPAD_GYRO_X][0] != CONTROLLER_PATCHER_INVALIDVALUE) &&
       (config_controller[deviceslot][CONTRPS_VPAD_GYRO_X][1] != CONTROLLER_PATCHER_INVALIDVALUE)){
        gyroX = (cur_data[config_controller[deviceslot][CONTRPS_VPAD_GYRO_X][0]] *0x100 ) + cur_data[config_controller[deviceslot][CONTRPS_VPAD_GYRO_X][1]];
        smoothedGyro.x = (gyroX + smoothedGyro.x * 2.0f) / 3.0f; // smooth out
        //if(smoothedGyro.x > 256.0f  || smoothedGyro.x < - 256.0f){
            buffer->gyro.x = (smoothedGyro.x/4096.0f * -1.0f);
        //}else{
        //    buffer->gyro.x = 0.0f;
        //}
    }
    if((config_controller[deviceslot][CONTRPS_VPAD_GYRO_Y][0] != CONTROLLER_PATCHER_INVALIDVALUE) &&
       (config_controller[deviceslot][CONTRPS_VPAD_GYRO_Y][1] != CONTROLLER_PATCHER_INVALIDVALUE)){
        gyroY = (cur_data[config_controller[deviceslot][CONTRPS_VPAD_GYRO_Y][0]] *0x100 ) + cur_data[config_controller[deviceslot][CONTRPS_VPAD_GYRO_Y][1]];
        smoothedGyro.y = (gyroY + smoothedGyro.y * 2.0f) / 3.0f; // smooth out
        if(smoothedGyro.y < -260.0f  || smoothedGyro.y > -230.0f){
            buffer->gyro.y = (smoothedGyro.y/4096.0f);
        }else{
            buffer->gyro.y = 0.0f;
        }
    }
    if((config_controller[deviceslot][CONTRPS_VPAD_GYRO_Z][0] != CONTROLLER_PATCHER_INVALIDVALUE) &&
       (config_controller[deviceslot][CONTRPS_VPAD_GYRO_Z][1] != CONTROLLER_PATCHER_INVALIDVALUE)){
        gyroZ = (cur_data[config_controller[deviceslot][CONTRPS_VPAD_GYRO_Z][0]] *0x100 ) + cur_data[config_controller[deviceslot][CONTRPS_VPAD_GYRO_Z][1]];
        smoothedGyro.z = (gyroZ + smoothedGyro.z * 2.0f) / 3.0f; // smooth out
        if(smoothedGyro.z > 256.0f  || smoothedGyro.z < - 256.0f){
            buffer->gyro.z = (smoothedGyro.z/4096.0f);
        }else{
            buffer->gyro.z = 0.0f;
        }
    }
    float roll  = atan2(-smoothedAcc.y, smoothedAcc.z) + PI/2.0f;
    float pitch = atan2(smoothedAcc.x, sqrt(smoothedAcc.y*smoothedAcc.y + smoothedAcc.z*smoothedAcc.z));
    if(roll >  PI){
        roll -= 2.0f*PI;
    }
    pitch = pitch * -1.0f;
    //buffer->dir.X = applyRoll(buffer->dir.X,pitch);
    //buffer->dir.Y = applyPitch(applyRoll(buffer->dir.Y,pitch),roll);
    buffer->dir.Y = applyPitch(buffer->dir.Y,roll);
    buffer->dir.Z = applyPitch(buffer->dir.Z,roll);
    /*
    buffer->dir.Y.y = buffer->acc.y * -1.0f;
    buffer->dir.Y.z = buffer->acc.z;
    buffer->dir.Z.y = buffer->acc.z * -1.0f;
    buffer->dir.Z.z = buffer->acc.y * -1.0f;*/
    buffer->acc_magnitude = Vec3Dlength(smoothedAccNorm);
    Vec3D tmp = Vec3Dsub(smoothedAccNorm,lastAcc);
    buffer->acc_variation = Vec3Dlength(tmp);
    lastAcc = smoothedAccNorm;
    return CONTROLLER_PATCHER_ERROR_NONE;
 }
 CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::setEmulatedSticks(VPADData * buffer, u32 * last_emulatedSticks){
    if(buffer == NULL || last_emulatedSticks == NULL) return CONTROLLER_PATCHER_ERROR_NULL_POINTER;
@ -583,36 +743,107 @@ CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::setEmulatedSticks(VPA
 CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::setTouch(HID_Data * data,VPADData * buffer){
    if(buffer == NULL || data == NULL) return CONTROLLER_PATCHER_ERROR_NULL_POINTER;
    u32 hidmask = data->slotdata.hidmask;
    if(data->type == DEVICE_TYPE_MOUSE && gHID_Mouse_Mode == HID_MOUSE_MODE_TOUCH){
        data->mouse.isValid = 1;
        s32 buttons_hold;
        if(getButtonPressed(data,&buttons_hold,VPAD_BUTTON_TOUCH)){
-           HID_Mouse_Data *  ms_data = &data->data_union.mouse.cur_mouse_data;
+            HID_Mouse_Data *  ms_data = &data->mouse.cur_mouse_data;
-           if(ms_data == NULL) return CONTROLLER_PATCHER_ERROR_NULL_POINTER;
+            if(ms_data == NULL) return CONTROLLER_PATCHER_ERROR_NULL_POINTER;
-           s32 x_mouse = 80 + ((int)(((ms_data->X)*1.0f/1280.0)*3890.0f));
+            clickTouchScreen(buffer,ms_data->X,ms_data->Y);
-           s32 y_mouse = 3910 - ((int)(((ms_data->Y)*1.0f/720.0)*3760.0f));
+        }
-           buffer->tpdata.x = x_mouse;
+    }else if(hidmask & gHID_LIST_DS4){
-           buffer->tpdata.y = y_mouse;
+        HID_Mouse_Data *  cur_ms_data = &data->mouse.cur_mouse_data;
-           buffer->tpdata.touched = 1;
+        u8 * extra_data = &data->extraData[0];
-           buffer->tpdata.invalid = 0;
+        u8 * last_data = &data->controller.last_hid_data[0];
-           buffer->tpdata1.x = x_mouse;
+        u8 * cur_data = &data->controller.cur_hid_data[0];
-           buffer->tpdata1.y = y_mouse;
+        u8 id = cur_data[34] & 0x7f;
-           buffer->tpdata1.touched = 1;
+        u8 isActiveDrag =  (cur_data[38] >> 7) == 0;
-           buffer->tpdata1.invalid = 0;
+        u8 isActive =  (cur_data[34] >> 7) == 0;
-           buffer->tpdata2.x = x_mouse;
+        u8 lastActive =  (last_data[34] >> 7) == 0;
-           buffer->tpdata2.y = y_mouse;
+        u8 click = 0;
-           buffer->tpdata2.touched = 1;
+
-           buffer->tpdata2.invalid = 0;
+        if(isActive){
            data->mouse.ticksSinceChange = 0;
            data->mouse.isValid = 1;
        }else{
            data->mouse.ticksSinceChange++;
            extra_data[1] = 0;
            extra_data[2] = 0;
        }
        if(isActive && lastActive){
            extra_data[0]++;
            short xValue = ((cur_data[36] & 0x0f) << 8) | cur_data[35];
            short yValue =  cur_data[37] << 4 | ((cur_data[36] & 0xf0) >> 4);
            short lastXValue = ((last_data[36] & 0x0f) << 8) | last_data[35];
            short lastYValue =  last_data[37] << 4 | ((last_data[36] & 0xf0) >> 4);
            s16 deltaX = xValue - lastXValue;
            s16 deltaY = yValue - lastYValue;
            if((deltaX > -2 && deltaX < 2) &&
               (deltaX > -2 && deltaX < 2)){
                    extra_data[1]++;
               }
            cur_ms_data->X += (deltaX / 1.5f);
            cur_ms_data->Y += (deltaY / 1.5f);
            if(cur_ms_data->X < 0) cur_ms_data->X = 0;
            if(cur_ms_data->X > 1280) cur_ms_data->X = 1280;
            if(cur_ms_data->Y < 0) cur_ms_data->Y = 0;
            if(cur_ms_data->Y > 720) cur_ms_data->Y = 720;
            DCFlushRange(cur_ms_data,sizeof(cur_ms_data));
            DCInvalidateRange(cur_ms_data,sizeof(cur_ms_data));
        }else if(!isActive){
            if(lastActive && extra_data[0] <=5){
                //log_printf("click\n");
                clickTouchScreen(buffer,cur_ms_data->X,cur_ms_data->Y);
            }
            extra_data[0] = 0;
        }
        if(extra_data[1] > 30 && extra_data[2] == 0){
            //log_printf("drag started\n");
            extra_data[2] = 1;
        }
        if((isActive && isActiveDrag) || extra_data[2]){
            clickTouchScreen(buffer,cur_ms_data->X,cur_ms_data->Y);
        }
    }
    return CONTROLLER_PATCHER_ERROR_NONE;
 }
 CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::clickTouchScreen(VPADData * buffer, short X, short Y){
    if(buffer == NULL) return CONTROLLER_PATCHER_ERROR_NULL_POINTER;
    s32 x_mouse = 80 + ((int)(((X)*1.0f/1280.0)*3890.0f));
    s32 y_mouse = 3910 - ((int)(((Y)*1.0f/720.0)*3760.0f));
    buffer->tpdata.x = x_mouse;
    buffer->tpdata.y = y_mouse;
    buffer->tpdata.touched = 1;
    buffer->tpdata.invalid = 0;
    buffer->tpdata1.x = x_mouse;
    buffer->tpdata1.y = y_mouse;
    buffer->tpdata1.touched = 1;
    buffer->tpdata1.invalid = 0;
    buffer->tpdata2.x = x_mouse;
    buffer->tpdata2.y = y_mouse;
    buffer->tpdata2.touched = 1;
    buffer->tpdata2.invalid = 0;
    return CONTROLLER_PATCHER_ERROR_NONE;
 }
 CONTROLLER_PATCHER_RESULT_OR_ERROR ControllerPatcherUtils::checkAndSetMouseMode(HID_Data * data){
    u32 hidmask = data->slotdata.hidmask;
    if(hidmask & gHID_LIST_KEYBOARD){
-        u8 * cur_data = &data->data_union.controller.cur_hid_data[0];
+        u8 * cur_data = &data->controller.cur_hid_data[0];
-        u8 * last_data = &data->data_union.controller.last_hid_data[0];
+        u8 * last_data = &data->controller.last_hid_data[0];
        if((isInKeyboardData(cur_data,HID_KEYBOARD_BUTTON_F1) > 0) && ((isInKeyboardData(cur_data,HID_KEYBOARD_BUTTON_F1) > 0) != (isInKeyboardData(last_data,HID_KEYBOARD_BUTTON_F1) > 0))){
            if(gHID_Mouse_Mode == HID_MOUSE_MODE_AIM){
                gHID_Mouse_Mode = HID_MOUSE_MODE_TOUCH;
--- a/patcher/ControllerPatcherUtils.hpp
+++ b/patcher/ControllerPatcherUtils.hpp
@ -210,6 +210,8 @@ class ControllerPatcherUtils{
        **/
        static CONTROLLER_PATCHER_RESULT_OR_ERROR convertAnalogSticks(HID_Data * data,VPADData * buffer);
        static CONTROLLER_PATCHER_RESULT_OR_ERROR convertGyroAndAcc(HID_Data * data,VPADData * buffer);
    /*----------------------------------------------------------------------------------------------------------------------------------------------------------------------------
     * Mouse functions
     *---------------------------------------------------------------------------------------------------------------------------------------------------------------------------*/
@ -224,6 +226,9 @@ class ControllerPatcherUtils{
        **/
        static CONTROLLER_PATCHER_RESULT_OR_ERROR setTouch(HID_Data * data,VPADData * buffer);
        static CONTROLLER_PATCHER_RESULT_OR_ERROR clickTouchScreen(VPADData * buffer, short X, short Y);
        /** \brief  Checks if the mouse mode needs to be changed. Sets it to the new mode if necessary.
         *         Currently the incoming data needs to be from a keyboard.
         *
--- a/utils/PadConst.cpp
+++ b/utils/PadConst.cpp
@ -167,7 +167,6 @@ const u8 HID_DS4_BUTTON_R3[]        = { 0x06,HID_DS4_BUTTON_R3_VALUE};
 const u8 HID_DS4_BUTTON_SHARE[]     = { 0x06,HID_DS4_BUTTON_SHARE_VALUE};
 const u8 HID_DS4_BUTTON_OPTIONS[]   = { 0x06,HID_DS4_BUTTON_OPTIONS_VALUE};
 const u8 HID_DS4_BUTTON_DPAD_TYPE[]     = { CONTRPDM_Hat,HID_DS4_BUTTON_DPAD_MASK_VALUE};
 const u8 HID_DS4_BUTTON_DPAD_N[]        = { 0x05,HID_DS4_BUTTON_DPAD_N_VALUE};
 const u8 HID_DS4_BUTTON_DPAD_NE[]       = { 0x05,HID_DS4_BUTTON_DPAD_NE_VALUE};
@ -182,6 +181,23 @@ const u8 HID_DS4_BUTTON_DPAD_NEUTRAL[]  = { 0x05,HID_DS4_BUTTON_DPAD_NEUTRAL_VAL
 const u8 HID_DS4_BUTTON_GUIDE[]          = { 0x07,HID_DS4_BUTTON_GUIDE_VALUE};
 const u8 HID_DS4_BUTTON_T_PAD_CLICK[]    = { 0x07,HID_DS4_BUTTON_T_PAD_CLICK_VALUE};
 const u8 HID_DS4_ACC[ACC_CONF_ENUM_MAXVALUE] =  {   ACC_CONF_MAGIC_VALUE, //ACC_CONF_MAGIC_VERSION
                                                            0x13, //ACC_CONF_X_1BYTE,
                                                            0x14, //ACC_CONF_X_2BYTE,
                                                            0x15, //ACC_CONF_Y_1BYTE,
                                                            0x16, //ACC_CONF_Y_2BYTE,
                                                            0x17, //ACC_CONF_Z_1BYTE,
                                                            0x18};//ACC_CONF_Z_2BYTE,
 const u8 HID_DS4_GYRO[GYRO_CONF_ENUM_MAXVALUE] =  {   GYRO_CONF_MAGIC_VALUE, //GYRO_CONF_MAGIC_VERSION
                                                            0x0D, //GYRO_CONF_X_1BYTE,
                                                            0x0E, //GYRO_CONF_X_2BYTE,
                                                            0x0F, //GYRO_CONF_Y_1BYTE,
                                                            0x10, //GYRO_CONF_Y_2BYTE,
                                                            0x11, //GYRO_CONF_Z_1BYTE,
                                                            0x12};//GYRO_CONF_Z_2BYTE,
 const u8 HID_DS4_STICK_L_X[STICK_CONF_ENUM_MAXVALUE] =  {   STICK_CONF_MAGIC_VALUE, //STICK_CONF_MAGIC_VERSION
                                                            0x01, //STICK_CONF_BYTE,
                                                            0x80, //STICK_CONF_DEFAULT,
--- a/utils/PadConst.hpp
+++ b/utils/PadConst.hpp
@ -133,6 +133,8 @@ extern const u8 HID_DS4_BUTTON_DPAD_NEUTRAL[];
 extern const u8 HID_DS4_BUTTON_GUIDE[];
 extern const u8 HID_DS4_BUTTON_T_PAD_CLICK[];
 extern const u8 HID_DS4_ACC[ACC_CONF_ENUM_MAXVALUE];
 extern const u8 HID_DS4_GYRO[GYRO_CONF_ENUM_MAXVALUE];
 extern const u8 HID_DS4_STICK_L_X[STICK_CONF_ENUM_MAXVALUE];
 extern const u8 HID_DS4_STICK_L_Y[STICK_CONF_ENUM_MAXVALUE];
 extern const u8 HID_DS4_STICK_R_X[STICK_CONF_ENUM_MAXVALUE];