pcsx2/plugins/LilyPad/DirectInput.cpp

429 lines
12 KiB
C++

#define DIRECTINPUT_VERSION 0x0800
#include "Global.h"
#include "VKey.h"
#include "DirectInput.h"
#include <dinput.h>
#include "InputManager.h"
#include "DeviceEnumerator.h"
#include "PS2Etypes.h"
#include <stdio.h>
inline static u16 flipShort(u16 s) {
return (s>>8) | (s<<8);
}
inline static u32 flipLong(u32 l) {
return (((u32)flipShort((u16)l))<<16) | flipShort((u16)(l>>16));
}
static void GUIDtoString(wchar_t *data, const GUID *pg) {
wsprintfW(data, L"%08X-%04X-%04X-%04X-%04X%08X",
pg->Data1, (u32)pg->Data2, (u32)pg->Data3,
flipShort(((u16*)pg->Data4)[0]),
flipShort(((u16*)pg->Data4)[1]),
flipLong(((u32*)pg->Data4)[1]));
}
static int StringToGUID(GUID *pg, wchar_t *dataw) {
char data[100];
if (wcslen(dataw) > 50) return 0;
int w = 0;
while (dataw[w]) {
data[w] = (char) dataw[w];
w++;
}
data[w] = 0;
u32 temp[5];
sscanf(data, "%08X-%04X-%04X-%04X-%04X%08X",
&pg->Data1, temp, temp+1,
temp+2, temp+3, temp+4);
pg->Data2 = (u16) temp[0];
pg->Data3 = (u16) temp[1];
((u16*)pg->Data4)[0] = flipShort((u16)temp[2]);
((u16*)pg->Data4)[1] = flipShort((u16)temp[3]);
((u32*)pg->Data4)[1] = flipLong(temp[4]);
return 1;
}
struct DI8Effect {
IDirectInputEffect *die;
int scale;
};
BOOL CALLBACK EnumDeviceObjectsCallback (LPCDIDEVICEOBJECTINSTANCE lpddoi, LPVOID pvRef);
BOOL CALLBACK EnumEffectsCallback(LPCDIEFFECTINFOW pdei, LPVOID pvRef);
class DirectInputDevice : public Device {
public:
DI8Effect *diEffects;
IDirectInputDevice8 *did;
DirectInputDevice(DeviceType type, IDirectInputDevice8* did, wchar_t *displayName, wchar_t *instanceID, wchar_t *productID) : Device(DI, type, displayName, instanceID, productID) {
int i;
diEffects = 0;
this->did = did;
did->EnumEffects(EnumEffectsCallback, this, DIEFT_ALL);
did->EnumObjects(EnumDeviceObjectsCallback, this, DIDFT_ALL);
DIOBJECTDATAFORMAT *formats = (DIOBJECTDATAFORMAT*)malloc(sizeof(DIOBJECTDATAFORMAT) * numPhysicalControls);
for (i=0; i<numPhysicalControls; i++) {
formats[i].pguid = 0;
formats[i].dwType = physicalControls[i].type | DIDFT_MAKEINSTANCE(physicalControls[i].id);
formats[i].dwOfs = 4*i;
formats[i].dwFlags = 0;
}
DIDATAFORMAT format;
format.dwSize = sizeof(format);
format.dwDataSize = 4 * numPhysicalControls;
format.dwObjSize = sizeof(DIOBJECTDATAFORMAT);
format.dwFlags = 0;
format.dwNumObjs = numPhysicalControls;
format.rgodf = formats;
int res = did->SetDataFormat(&format);
for (i=0; i<numPhysicalControls; i++) {
if (physicalControls[i].type == ABSAXIS) {
DIPROPRANGE prop;
prop.diph.dwHeaderSize = sizeof(DIPROPHEADER);
prop.diph.dwSize = sizeof(DIPROPRANGE);
prop.diph.dwObj = formats[i].dwType;
prop.diph.dwHow = DIPH_BYID;
prop.lMin = -FULLY_DOWN;
prop.lMax = FULLY_DOWN;
did->SetProperty(DIPROP_RANGE, &prop.diph);
// May do something like this again, if there's any need.
/*
if (FAILED(DI->did->SetProperty(DIPROP_RANGE, &prop.diph))) {
if (FAILED(DI->did->GetProperty(DIPROP_RANGE, &prop.diph))) {
// ????
DI->objects[i].min = prop.lMin;
DI->objects[i].max = prop.lMax;
continue;
}
}
DI->objects[i].min = prop.lMin;
DI->objects[i].max = prop.lMax;
//*/
}
}
free(formats);
}
void SetEffect(ForceFeedbackBinding *binding, unsigned char force) {
unsigned int index = binding - pads[0].ffBindings;
if (index >= (unsigned int)pads[0].numFFBindings) {
index = pads[0].numFFBindings + (binding - pads[1].ffBindings);
}
IDirectInputEffect *die = diEffects[index].die;
if (die) {
DIEFFECT dieffect;
memset(&dieffect, 0, sizeof(dieffect));
union {
DIPERIODIC periodic;
DIRAMPFORCE ramp;
DICONSTANTFORCE constant;
};
dieffect.dwSize = sizeof(dieffect);
dieffect.lpvTypeSpecificParams = &periodic;
int magnitude = abs((int)((force*10000*(__int64)diEffects[index].scale)/BASE_SENSITIVITY/255));
if (magnitude > 10000) magnitude = 10000;
int type = ffEffectTypes[binding->effectIndex].type;
if (type == EFFECT_CONSTANT) {
dieffect.cbTypeSpecificParams = sizeof(DICONSTANTFORCE);
constant.lMagnitude = magnitude;
}
else if (type == EFFECT_PERIODIC) {
dieffect.cbTypeSpecificParams = sizeof(DIPERIODIC);
periodic.dwMagnitude = 0;
periodic.lOffset = magnitude;
periodic.dwPhase = 0;
periodic.dwPeriod = 2000000;
}
else if (type == EFFECT_RAMP) {
dieffect.cbTypeSpecificParams = sizeof(DIRAMPFORCE);
ramp.lEnd = ramp.lStart = magnitude;
}
dieffect.dwFlags = DIEFF_CARTESIAN | DIEFF_OBJECTIDS;
dieffect.dwDuration = 2000000;
die->SetParameters(&dieffect, DIEP_TYPESPECIFICPARAMS | DIEP_START);
}
}
int Activate(void *d) {
int i, j;
if (active) Deactivate();
InitInfo *info = (InitInfo*)d;
// Note: Have to use hWndTop to properly hide cursor for mouse device.
if (type == OTHER) {
did->SetCooperativeLevel(info->hWndTop, DISCL_BACKGROUND | DISCL_EXCLUSIVE);
}
else if (type == KEYBOARD) {
did->SetCooperativeLevel(info->hWndTop, DISCL_FOREGROUND);
}
else {
did->SetCooperativeLevel(info->hWndTop, DISCL_FOREGROUND | DISCL_EXCLUSIVE);
}
if (did->Acquire() != DI_OK) {
return 0;
}
AllocState();
diEffects = (DI8Effect*) calloc(pads[0].numFFBindings + pads[1].numFFBindings, sizeof(DI8Effect));
for (i=0; i<pads[0].numFFBindings + pads[1].numFFBindings; i++) {
ForceFeedbackBinding *b = 0;
if (i >= pads[0].numFFBindings) {
b = &pads[1].ffBindings[i-pads[0].numFFBindings];
}
else
b = &pads[0].ffBindings[i];
ForceFeedbackEffectType *eff = ffEffectTypes + b->effectIndex;
GUID guid;
if (!StringToGUID(&guid, eff->effectID)) continue;
DIEFFECT dieffect;
memset(&dieffect, 0, sizeof(dieffect));
dieffect.dwSize = sizeof(dieffect);
dieffect.dwFlags = DIEFF_CARTESIAN | DIEFF_OBJECTIDS;
dieffect.dwDuration = 2000000;
dieffect.dwGain = 10000;
dieffect.dwTriggerButton = DIEB_NOTRIGGER;
union {
DIPERIODIC pediodic;
DIRAMPFORCE ramp;
DICONSTANTFORCE constant;
} stuff = {0,0,0,0};
if (eff->type == EFFECT_CONSTANT) {
dieffect.cbTypeSpecificParams = sizeof(DICONSTANTFORCE);
}
else if (eff->type == EFFECT_PERIODIC) {
dieffect.cbTypeSpecificParams = sizeof(DIPERIODIC);
}
else if (eff->type == EFFECT_RAMP) {
dieffect.cbTypeSpecificParams = sizeof(DIRAMPFORCE);
}
dieffect.lpvTypeSpecificParams = &stuff;
int maxForce = 0;
int numAxes = 0;
int *axes = (int*) malloc(sizeof(int) * 3 * numFFAxes);
DWORD *axisIDs = (DWORD*)(axes + numFFAxes);
LONG *dirList = (LONG*)(axisIDs + numFFAxes);
dieffect.rgdwAxes = axisIDs;
dieffect.rglDirection = dirList;
for (j=0; j<numFFAxes; j++) {
if (b->axes[j].force) {
int force = abs(b->axes[j].force);
if (force > maxForce) {
maxForce = force;
}
axes[numAxes] = j;
axisIDs[numAxes] = ffAxes[j].id;
dirList[numAxes] = b->axes[j].force;
numAxes++;
}
}
if (!numAxes) {
free(axes);
continue;
}
dieffect.cAxes = numAxes;
diEffects[i].scale = maxForce;
if (!SUCCEEDED(did->CreateEffect(guid, &dieffect, &diEffects[i].die, 0))) {
diEffects[i].die = 0;
diEffects[i].scale = 0;
}
free(axes);
axes = 0;
}
active = 1;
return 1;
}
int Update() {
if (!active) return 0;
if (numPhysicalControls) {
HRESULT res = did->Poll();
// ??
if ((res != DI_OK && res != DI_NOEFFECT) ||
DI_OK != did->GetDeviceState(4*numPhysicalControls, physicalControlState)) {
Deactivate();
return 0;
}
for (int i=0; i<numPhysicalControls; i++) {
if (physicalControls[i].type & RELAXIS) {
physicalControlState[i] *= (FULLY_DOWN/3);
}
else if (physicalControls[i].type & BUTTON) {
physicalControlState[i] = (physicalControlState[i]&0x80) * FULLY_DOWN / 128;
}
}
}
return 1;
}
void Deactivate() {
FreeState();
if (diEffects) {
for (int i=0; i<pads[0].numFFBindings + pads[1].numFFBindings; i++) {
if (diEffects[i].die) {
diEffects[i].die->Stop();
diEffects[i].die->Release();
diEffects[i].die = 0;
}
}
free(diEffects);
diEffects = 0;
}
if (active) {
did->Unacquire();
active = 0;
}
}
~DirectInputDevice() {
did->Release();
}
};
BOOL CALLBACK EnumEffectsCallback(LPCDIEFFECTINFOW pdei, LPVOID pvRef) {
DirectInputDevice * did = (DirectInputDevice*) pvRef;
EffectType type;
int diType = DIEFT_GETTYPE(pdei->dwEffType);
if (diType == DIEFT_CONSTANTFORCE) {
type = EFFECT_CONSTANT;
}
else if (diType == DIEFT_RAMPFORCE) {
type = EFFECT_RAMP;
}
else if (diType == DIEFT_PERIODIC) {
type = EFFECT_PERIODIC;
}
else {
return DIENUM_CONTINUE;
}
wchar_t guidString[50];
GUIDtoString(guidString, &pdei->guid);
did->AddFFEffectType(pdei->tszName, guidString, type);
return DIENUM_CONTINUE;
}
BOOL CALLBACK EnumDeviceObjectsCallback (LPCDIDEVICEOBJECTINSTANCE lpddoi, LPVOID pvRef) {
DirectInputDevice * did = (DirectInputDevice*) pvRef;
if (lpddoi->dwType & DIDFT_FFACTUATOR) {
did->AddFFAxis(lpddoi->tszName, lpddoi->dwType);
}
ControlType type;
if (lpddoi->dwType & DIDFT_POV)
type = POV;
else if (lpddoi->dwType & DIDFT_ABSAXIS)
type = ABSAXIS;
else if (lpddoi->dwType & DIDFT_RELAXIS)
type = RELAXIS;
else if (lpddoi->dwType & DIDFT_PSHBUTTON)
type = PSHBTN;
else if (lpddoi->dwType & DIDFT_TGLBUTTON)
type = TGLBTN;
else
return DIENUM_CONTINUE;
// If too many objects, ignore extra buttons.
if ((did->numPhysicalControls > 255 && DIDFT_GETINSTANCE(lpddoi->dwType) > 255) && (type & (DIDFT_PSHBUTTON | DIDFT_TGLBUTTON))) {
int i;
for (i = did->numPhysicalControls-1; i>did->numPhysicalControls-4; i--) {
if (!lpddoi->tszName[0]) break;
const wchar_t *s1 = lpddoi->tszName;
const wchar_t *s2 = did->physicalControls[i].name;
while (*s1 && *s1 == *s2) {
s1++;
s2++;
}
// If perfect match with one of last 4 names, break.
if (!*s1 && !*s2) break;
while (s1 != lpddoi->tszName && (s1[-1] >= '0' && s1[-1] <= '9')) s1--;
int check = 0;
while (*s1 >= '0' && *s1 <= '9') {
check = check*10 + *s1 - '0';
s1++;
}
while (*s2 >= '0' && *s2 <= '9') {
s2++;
}
// If perfect match other than final number > 30, then break.
// takes care of "button xx" case without causing issues with F keys.
if (!*s1 && !*s2 && check > 30) break;
}
if (i != did->numPhysicalControls-4) {
return DIENUM_CONTINUE;
}
}
int vkey = 0;
if (lpddoi->tszName[0] && did->type == KEYBOARD) {
for (u32 i = 0; i<256; i++) {
wchar_t *t = GetVKStringW((u8)i);
if (!wcsicmp(lpddoi->tszName, t)) {
vkey = i;
break;
}
}
}
did->AddPhysicalControl(type, DIDFT_GETINSTANCE(lpddoi->dwType), vkey, lpddoi->tszName);
return DIENUM_CONTINUE;
}
struct CreationInfo {
LPDIRECTINPUT8 lpDI8;
int count;
};
BOOL CALLBACK EnumCallback (LPCDIDEVICEINSTANCE lpddi, LPVOID pvRef) {
CreationInfo *ci = (CreationInfo*) pvRef;
int *count = (int*) pvRef;
const wchar_t *name;
wchar_t temp[40];
if (lpddi->tszInstanceName[0]) {
name = lpddi->tszInstanceName;
}
else if (lpddi->tszProductName[0]) {
name = lpddi->tszProductName;
}
else {
wsprintfW (temp, L"Device %i", ci->count);
name = temp;
}
ci->count++;
wchar_t *fullName = (wchar_t *) malloc((wcslen(name) + 4) * sizeof(wchar_t));
wsprintf(fullName, L"DX %s", name);
wchar_t instanceID[100];
wchar_t productID[100];
GUIDtoString(instanceID, &lpddi->guidInstance);
GUIDtoString(productID, &lpddi->guidProduct);
DeviceType type = OTHER;
if ((lpddi->dwDevType & 0xFF) == DI8DEVTYPE_KEYBOARD) {
type = KEYBOARD;
}
else if ((lpddi->dwDevType & 0xFF) == DI8DEVTYPE_MOUSE) {
type = MOUSE;
}
IDirectInputDevice8 *did;
if (DI_OK == ci->lpDI8->CreateDevice(lpddi->guidInstance, &did, 0)) {
dm->AddDevice(new DirectInputDevice(type, did, fullName, instanceID, productID));
}
free(fullName);
return DIENUM_CONTINUE;
}
void EnumDirectInputDevices() {
CreationInfo ci = {0,0};
if (FAILED(DirectInput8Create(hInst, 0x800, IID_IDirectInput8, (void**) &ci.lpDI8, 0))) return;
ci.lpDI8->EnumDevices(DI8DEVCLASS_ALL, EnumCallback, &ci, DIEDFL_ATTACHEDONLY);
ci.lpDI8->Release();
}