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segatools
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idz, idac, swdc: added FFB centering spring feature

This commit is contained in:
Dniel97 2023-12-11 19:18:25 +01:00
parent 4ffcf25555
commit 72db08ac93
Signed by untrusted user: Dniel97
GPG Key ID: 6180B3C768FB2E08
18 changed files with 147 additions and 43 deletions
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7
dist/idac/segatools.ini vendored
View File

@ -29,7 +29,7 @@ enable=1
; If you disable netenv then you must set this to your LAN's IP subnet, and ; If you disable netenv then you must set this to your LAN's IP subnet, and
; that subnet must start with 192.168. Set it to your LAN's subnet if you ; that subnet must start with 192.168. Set it to your LAN's subnet if you
; want to play head-to-head using netenv=1. ; want to play head-to-head using netenv=1.
subnet=192.168.100.0 subnet=192.168.158.0
; Override the keychip's region code. Most games seem to pay attention to the ; Override the keychip's region code. Most games seem to pay attention to the
; DS EEPROM region code and not the keychip region code, and this seems to be ; DS EEPROM region code and not the keychip region code, and this seems to be
@ -174,3 +174,8 @@ gear6=18
; (Needed when using DirectInput for the Dualshock 4 for example) ; (Needed when using DirectInput for the Dualshock 4 for example)
reverseAccelAxis=0 reverseAccelAxis=0
reverseBrakeAxis=0 reverseBrakeAxis=0
; Force feedback settings.
; Strength of the force feedback spring effect in percent. Possible values
; are 0-100.
centerSpringStrength=30

5
dist/idz/segatools.ini vendored
View File

@ -173,3 +173,8 @@ gear6=18
; (Needed when using DirectInput for the Dualshock 4 for example) ; (Needed when using DirectInput for the Dualshock 4 for example)
reverseAccelAxis=0 reverseAccelAxis=0
reverseBrakeAxis=0 reverseBrakeAxis=0
; Force feedback settings.
; Strength of the force feedback spring effect in percent. Possible values
; are 0-100.
centerSpringStrength=30

5
dist/swdc/segatools.ini vendored
View File

@ -133,3 +133,8 @@ wheelGreen=10
; (Needed when using DirectInput for the Dualshock 4 for example) ; (Needed when using DirectInput for the Dualshock 4 for example)
reverseAccelAxis=0 reverseAccelAxis=0
reverseBrakeAxis=0 reverseBrakeAxis=0
; Force feedback settings.
; Strength of the force feedback spring effect in percent. Possible values
; are 0-100.
centerSpringStrength=30

8
idacio/config.c
View File

@ -79,6 +79,14 @@ void idac_di_config_load(struct idac_di_config *cfg, const wchar_t *filename)
cfg->gear[i] = GetPrivateProfileIntW(L"dinput", key, i + 1, filename); cfg->gear[i] = GetPrivateProfileIntW(L"dinput", key, i + 1, filename);
} }
// FFB configuration
cfg->center_spring_strength = GetPrivateProfileIntW(
L"dinput",
L"centerSpringStrength",
30,
filename);
} }
void idac_xi_config_load(struct idac_xi_config *cfg, const wchar_t *filename) void idac_xi_config_load(struct idac_xi_config *cfg, const wchar_t *filename)

3
idacio/config.h
View File

@ -23,6 +23,9 @@ struct idac_di_config {
uint8_t gear[6]; uint8_t gear[6];
bool reverse_brake_axis; bool reverse_brake_axis;
bool reverse_accel_axis; bool reverse_accel_axis;
// FFB configuration
uint16_t center_spring_strength;
}; };
struct idac_xi_config { struct idac_xi_config {

30
idacio/di-dev.c
View File

@ -44,7 +44,8 @@ HRESULT idac_di_dev_start(IDirectInputDevice8W *dev, HWND wnd)
return hr; return hr;
} }
void idac_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out) void idac_di_dev_start_fx(
IDirectInputDevice8W *dev, IDirectInputEffect **out, uint16_t strength)
{ {
/* Set up force-feedback on devices that support it. This is just a stub /* Set up force-feedback on devices that support it. This is just a stub
for the time being, since we don't yet know how the serial port force for the time being, since we don't yet know how the serial port force
@ -67,7 +68,7 @@ void idac_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out)
DWORD axis; DWORD axis;
LONG direction; LONG direction;
DIEFFECT fx; DIEFFECT fx;
DICONSTANTFORCE cf; DICONDITION cond;
HRESULT hr; HRESULT hr;
assert(dev != NULL); assert(dev != NULL);
@ -77,11 +78,17 @@ void idac_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out)
dprintf("DirectInput: Starting force feedback (may take a sec)\n"); dprintf("DirectInput: Starting force feedback (may take a sec)\n");
// Auto-centering effect
axis = DIJOFS_X; axis = DIJOFS_X;
direction = 0; direction = 0;
memset(&cf, 0, sizeof(cf)); memset(&cond, 0, sizeof(cond));
cf.lMagnitude = 0; cond.lOffset = 0;
cond.lPositiveCoefficient = strength;
cond.lNegativeCoefficient = strength;
cond.dwPositiveSaturation = strength; // For FG920?
cond.dwNegativeSaturation = strength; // For FG920?
cond.lDeadBand = 0;
memset(&fx, 0, sizeof(fx)); memset(&fx, 0, sizeof(fx));
fx.dwSize = sizeof(fx); fx.dwSize = sizeof(fx);
@ -93,20 +100,19 @@ void idac_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out)
fx.cAxes = 1; fx.cAxes = 1;
fx.rgdwAxes = &axis; fx.rgdwAxes = &axis;
fx.rglDirection = &direction; fx.rglDirection = &direction;
fx.cbTypeSpecificParams = sizeof(cf); fx.cbTypeSpecificParams = sizeof(cond);
fx.lpvTypeSpecificParams = &cf; fx.lpvTypeSpecificParams = &cond;
hr = IDirectInputDevice8_CreateEffect( hr = IDirectInputDevice8_CreateEffect(
dev, dev,
&GUID_ConstantForce, &GUID_Spring,
&fx, &fx,
&obj, &obj,
NULL); NULL);
if (FAILED(hr)) { if (FAILED(hr)) {
dprintf("DirectInput: DirectInput force feedback unavailable: %08x\n", dprintf("DirectInput: Centering spring force feedback unavailable: %08x\n",
(int) hr); (int) hr);
return; return;
} }
@ -114,15 +120,15 @@ void idac_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out)
if (FAILED(hr)) { if (FAILED(hr)) {
IDirectInputEffect_Release(obj); IDirectInputEffect_Release(obj);
dprintf("DirectInput: DirectInput force feedback start failed: %08x\n", dprintf("DirectInput: Centering spring force feedback start failed: %08x\n",
(int) hr); (int) hr);
return; return;
} }
*out = obj; *out = obj;
dprintf("DirectInput: Force feedback initialized and set to zero\n"); dprintf("DirectInput: Centering spring effects initialized with strength %d%%\n",
strength / 100);
} }
HRESULT idac_di_dev_poll( HRESULT idac_di_dev_poll(

2
idacio/di-dev.h
View File

@ -11,7 +11,7 @@ union idac_di_state {
}; };
HRESULT idac_di_dev_start(IDirectInputDevice8W *dev, HWND wnd); HRESULT idac_di_dev_start(IDirectInputDevice8W *dev, HWND wnd);
void idac_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out); void idac_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out, uint16_t strength);
HRESULT idac_di_dev_poll( HRESULT idac_di_dev_poll(
IDirectInputDevice8W *dev, IDirectInputDevice8W *dev,
HWND wnd, HWND wnd,

15
idacio/di.c
View File

@ -75,6 +75,7 @@ static uint8_t idac_di_gear[6];
static bool idac_di_use_pedals; static bool idac_di_use_pedals;
static bool idac_di_reverse_brake_axis; static bool idac_di_reverse_brake_axis;
static bool idac_di_reverse_accel_axis; static bool idac_di_reverse_accel_axis;
static uint16_t idac_di_center_spring_strength;
HRESULT idac_di_init( HRESULT idac_di_init(
const struct idac_di_config *cfg, const struct idac_di_config *cfg,
@ -173,7 +174,9 @@ HRESULT idac_di_init(
return hr; return hr;
} }
idac_di_dev_start_fx(idac_di_dev, &idac_di_fx); // Convert the strength from 0-100 to 0-10000 for DirectInput
idac_di_dev_start_fx(idac_di_dev, &idac_di_fx,
idac_di_center_spring_strength * 100);
if (cfg->pedals_name[0] != L'\0') { if (cfg->pedals_name[0] != L'\0') {
hr = IDirectInput8_EnumDevices( hr = IDirectInput8_EnumDevices(
@ -364,6 +367,16 @@ static HRESULT idac_di_config_apply(const struct idac_di_config *cfg)
idac_di_gear[i] = cfg->gear[i]; idac_di_gear[i] = cfg->gear[i];
} }
// FFB configuration
if (cfg->center_spring_strength < 0 || cfg->center_spring_strength > 100) {
dprintf("Wheel: Invalid center spring strength: %i\n", cfg->center_spring_strength);
return E_INVALIDARG;
}
idac_di_center_spring_strength = cfg->center_spring_strength;
return S_OK; return S_OK;
} }

7
idzio/config.c
View File

@ -76,7 +76,14 @@ void idz_di_config_load(struct idz_di_config *cfg, const wchar_t *filename)
swprintf_s(key, _countof(key), L"gear%i", i + 1); swprintf_s(key, _countof(key), L"gear%i", i + 1);
cfg->gear[i] = GetPrivateProfileIntW(L"dinput", key, i + 1, filename); cfg->gear[i] = GetPrivateProfileIntW(L"dinput", key, i + 1, filename);
} }
// FFB configuration
cfg->center_spring_strength = GetPrivateProfileIntW(
L"dinput",
L"centerSpringStrength",
30,
filename);
} }
void idz_xi_config_load(struct idz_xi_config *cfg, const wchar_t *filename) void idz_xi_config_load(struct idz_xi_config *cfg, const wchar_t *filename)

3
idzio/config.h
View File

@ -21,6 +21,9 @@ struct idz_di_config {
uint8_t gear[6]; uint8_t gear[6];
bool reverse_brake_axis; bool reverse_brake_axis;
bool reverse_accel_axis; bool reverse_accel_axis;
// FFB configuration
uint16_t center_spring_strength;
}; };
struct idz_xi_config { struct idz_xi_config {

30
idzio/di-dev.c
View File

@ -44,7 +44,8 @@ HRESULT idz_di_dev_start(IDirectInputDevice8W *dev, HWND wnd)
return hr; return hr;
} }
void idz_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out) void idz_di_dev_start_fx(
IDirectInputDevice8W *dev, IDirectInputEffect **out, uint16_t strength)
{ {
/* Set up force-feedback on devices that support it. This is just a stub /* Set up force-feedback on devices that support it. This is just a stub
for the time being, since we don't yet know how the serial port force for the time being, since we don't yet know how the serial port force
@ -67,7 +68,7 @@ void idz_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out)
DWORD axis; DWORD axis;
LONG direction; LONG direction;
DIEFFECT fx; DIEFFECT fx;
DICONSTANTFORCE cf; DICONDITION cond;
HRESULT hr; HRESULT hr;
assert(dev != NULL); assert(dev != NULL);
@ -77,11 +78,17 @@ void idz_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out)
dprintf("DirectInput: Starting force feedback (may take a sec)\n"); dprintf("DirectInput: Starting force feedback (may take a sec)\n");
// Auto-centering effect
axis = DIJOFS_X; axis = DIJOFS_X;
direction = 0; direction = 0;
memset(&cf, 0, sizeof(cf)); memset(&cond, 0, sizeof(cond));
cf.lMagnitude = 0; cond.lOffset = 0;
cond.lPositiveCoefficient = strength;
cond.lNegativeCoefficient = strength;
cond.dwPositiveSaturation = strength; // For FG920?
cond.dwNegativeSaturation = strength; // For FG920?
cond.lDeadBand = 0;
memset(&fx, 0, sizeof(fx)); memset(&fx, 0, sizeof(fx));
fx.dwSize = sizeof(fx); fx.dwSize = sizeof(fx);
@ -93,20 +100,19 @@ void idz_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out)
fx.cAxes = 1; fx.cAxes = 1;
fx.rgdwAxes = &axis; fx.rgdwAxes = &axis;
fx.rglDirection = &direction; fx.rglDirection = &direction;
fx.cbTypeSpecificParams = sizeof(cf); fx.cbTypeSpecificParams = sizeof(cond);
fx.lpvTypeSpecificParams = &cf; fx.lpvTypeSpecificParams = &cond;
hr = IDirectInputDevice8_CreateEffect( hr = IDirectInputDevice8_CreateEffect(
dev, dev,
&GUID_ConstantForce, &GUID_Spring,
&fx, &fx,
&obj, &obj,
NULL); NULL);
if (FAILED(hr)) { if (FAILED(hr)) {
dprintf("DirectInput: DirectInput force feedback unavailable: %08x\n", dprintf("DirectInput: Centering spring force feedback unavailable: %08x\n",
(int) hr); (int) hr);
return; return;
} }
@ -114,15 +120,15 @@ void idz_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out)
if (FAILED(hr)) { if (FAILED(hr)) {
IDirectInputEffect_Release(obj); IDirectInputEffect_Release(obj);
dprintf("DirectInput: DirectInput force feedback start failed: %08x\n", dprintf("DirectInput: Centering spring force feedback start failed: %08x\n",
(int) hr); (int) hr);
return; return;
} }
*out = obj; *out = obj;
dprintf("DirectInput: Force feedback initialized and set to zero\n"); dprintf("DirectInput: Centering spring effects initialized with strength %d%%\n",
strength / 100);
} }
HRESULT idz_di_dev_poll( HRESULT idz_di_dev_poll(

2
idzio/di-dev.h
View File

@ -11,7 +11,7 @@ union idz_di_state {
}; };
HRESULT idz_di_dev_start(IDirectInputDevice8W *dev, HWND wnd); HRESULT idz_di_dev_start(IDirectInputDevice8W *dev, HWND wnd);
void idz_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out); void idz_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out, uint16_t strength);
HRESULT idz_di_dev_poll( HRESULT idz_di_dev_poll(
IDirectInputDevice8W *dev, IDirectInputDevice8W *dev,
HWND wnd, HWND wnd,

15
idzio/di.c
View File

@ -73,6 +73,7 @@ static uint8_t idz_di_gear[6];
static bool idz_di_use_pedals; static bool idz_di_use_pedals;
static bool idz_di_reverse_brake_axis; static bool idz_di_reverse_brake_axis;
static bool idz_di_reverse_accel_axis; static bool idz_di_reverse_accel_axis;
static uint16_t idz_di_center_spring_strength;
HRESULT idz_di_init( HRESULT idz_di_init(
const struct idz_di_config *cfg, const struct idz_di_config *cfg,
@ -171,7 +172,9 @@ HRESULT idz_di_init(
return hr; return hr;
} }
idz_di_dev_start_fx(idz_di_dev, &idz_di_fx); // Convert the strength from 0-100 to 0-10000 for DirectInput
idz_di_dev_start_fx(idz_di_dev, &idz_di_fx,
idz_di_center_spring_strength * 100);
if (cfg->pedals_name[0] != L'\0') { if (cfg->pedals_name[0] != L'\0') {
hr = IDirectInput8_EnumDevices( hr = IDirectInput8_EnumDevices(
@ -346,6 +349,16 @@ static HRESULT idz_di_config_apply(const struct idz_di_config *cfg)
idz_di_gear[i] = cfg->gear[i]; idz_di_gear[i] = cfg->gear[i];
} }
// FFB configuration
if (cfg->center_spring_strength < 0 || cfg->center_spring_strength > 100) {
dprintf("Wheel: Invalid center spring strength: %i\n", cfg->center_spring_strength);
return E_INVALIDARG;
}
idz_di_center_spring_strength = cfg->center_spring_strength;
return S_OK; return S_OK;
} }

8
swdcio/config.c
View File

@ -67,6 +67,14 @@ void swdc_di_config_load(struct swdc_di_config *cfg, const wchar_t *filename)
L"reverseAccelAxis", L"reverseAccelAxis",
0, 0,
filename); filename);
// FFB configuration
cfg->center_spring_strength = GetPrivateProfileIntW(
L"dinput",
L"centerSpringStrength",
30,
filename);
} }
void swdc_xi_config_load(struct swdc_xi_config *cfg, const wchar_t *filename) void swdc_xi_config_load(struct swdc_xi_config *cfg, const wchar_t *filename)

3
swdcio/config.h
View File

@ -19,6 +19,9 @@ struct swdc_di_config {
uint8_t wheel_yellow; uint8_t wheel_yellow;
bool reverse_brake_axis; bool reverse_brake_axis;
bool reverse_accel_axis; bool reverse_accel_axis;
// FFB configuration
uint16_t center_spring_strength;
}; };
struct swdc_xi_config { struct swdc_xi_config {

30
swdcio/di-dev.c
View File

@ -44,7 +44,8 @@ HRESULT swdc_di_dev_start(IDirectInputDevice8W *dev, HWND wnd)
return hr; return hr;
} }
void swdc_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out) void swdc_di_dev_start_fx(
IDirectInputDevice8W *dev, IDirectInputEffect **out, uint16_t strength)
{ {
/* Set up force-feedback on devices that support it. This is just a stub /* Set up force-feedback on devices that support it. This is just a stub
for the time being, since we don't yet know how the serial port force for the time being, since we don't yet know how the serial port force
@ -67,7 +68,7 @@ void swdc_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out)
DWORD axis; DWORD axis;
LONG direction; LONG direction;
DIEFFECT fx; DIEFFECT fx;
DICONSTANTFORCE cf; DICONDITION cond;
HRESULT hr; HRESULT hr;
assert(dev != NULL); assert(dev != NULL);
@ -77,11 +78,17 @@ void swdc_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out)
dprintf("DirectInput: Starting force feedback (may take a sec)\n"); dprintf("DirectInput: Starting force feedback (may take a sec)\n");
// Auto-centering effect
axis = DIJOFS_X; axis = DIJOFS_X;
direction = 0; direction = 0;
memset(&cf, 0, sizeof(cf)); memset(&cond, 0, sizeof(cond));
cf.lMagnitude = 0; cond.lOffset = 0;
cond.lPositiveCoefficient = strength;
cond.lNegativeCoefficient = strength;
cond.dwPositiveSaturation = strength; // For FG920?
cond.dwNegativeSaturation = strength; // For FG920?
cond.lDeadBand = 0;
memset(&fx, 0, sizeof(fx)); memset(&fx, 0, sizeof(fx));
fx.dwSize = sizeof(fx); fx.dwSize = sizeof(fx);
@ -93,20 +100,19 @@ void swdc_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out)
fx.cAxes = 1; fx.cAxes = 1;
fx.rgdwAxes = &axis; fx.rgdwAxes = &axis;
fx.rglDirection = &direction; fx.rglDirection = &direction;
fx.cbTypeSpecificParams = sizeof(cf); fx.cbTypeSpecificParams = sizeof(cond);
fx.lpvTypeSpecificParams = &cf; fx.lpvTypeSpecificParams = &cond;
hr = IDirectInputDevice8_CreateEffect( hr = IDirectInputDevice8_CreateEffect(
dev, dev,
&GUID_ConstantForce, &GUID_Spring,
&fx, &fx,
&obj, &obj,
NULL); NULL);
if (FAILED(hr)) { if (FAILED(hr)) {
dprintf("DirectInput: DirectInput force feedback unavailable: %08x\n", dprintf("DirectInput: Centering spring force feedback unavailable: %08x\n",
(int) hr); (int) hr);
return; return;
} }
@ -114,15 +120,15 @@ void swdc_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out)
if (FAILED(hr)) { if (FAILED(hr)) {
IDirectInputEffect_Release(obj); IDirectInputEffect_Release(obj);
dprintf("DirectInput: DirectInput force feedback start failed: %08x\n", dprintf("DirectInput: Centering spring force feedback start failed: %08x\n",
(int) hr); (int) hr);
return; return;
} }
*out = obj; *out = obj;
dprintf("DirectInput: Force feedback initialized and set to zero\n"); dprintf("DirectInput: Centering spring effects initialized with strength %d%%\n",
strength / 100);
} }
HRESULT swdc_di_dev_poll( HRESULT swdc_di_dev_poll(

2
swdcio/di-dev.h
View File

@ -11,7 +11,7 @@ union swdc_di_state {
}; };
HRESULT swdc_di_dev_start(IDirectInputDevice8W *dev, HWND wnd); HRESULT swdc_di_dev_start(IDirectInputDevice8W *dev, HWND wnd);
void swdc_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out); void swdc_di_dev_start_fx(IDirectInputDevice8W *dev, IDirectInputEffect **out, uint16_t strength);
HRESULT swdc_di_dev_poll( HRESULT swdc_di_dev_poll(
IDirectInputDevice8W *dev, IDirectInputDevice8W *dev,
HWND wnd, HWND wnd,

15
swdcio/di.c
View File

@ -70,6 +70,7 @@ static uint8_t swdc_di_wheel_yellow;
static bool swdc_di_use_pedals; static bool swdc_di_use_pedals;
static bool swdc_di_reverse_brake_axis; static bool swdc_di_reverse_brake_axis;
static bool swdc_di_reverse_accel_axis; static bool swdc_di_reverse_accel_axis;
static uint16_t swdc_di_center_spring_strength;
HRESULT swdc_di_init( HRESULT swdc_di_init(
const struct swdc_di_config *cfg, const struct swdc_di_config *cfg,
@ -168,7 +169,9 @@ HRESULT swdc_di_init(
return hr; return hr;
} }
swdc_di_dev_start_fx(swdc_di_dev, &swdc_di_fx); // Convert the strength from 0-100 to 0-10000 for DirectInput
swdc_di_dev_start_fx(swdc_di_dev, &swdc_di_fx,
swdc_di_center_spring_strength * 100);
if (cfg->pedals_name[0] != L'\0') { if (cfg->pedals_name[0] != L'\0') {
hr = IDirectInput8_EnumDevices( hr = IDirectInput8_EnumDevices(
@ -320,6 +323,16 @@ static HRESULT swdc_di_config_apply(const struct swdc_di_config *cfg)
swdc_di_reverse_brake_axis = cfg->reverse_brake_axis; swdc_di_reverse_brake_axis = cfg->reverse_brake_axis;
swdc_di_reverse_accel_axis = cfg->reverse_accel_axis; swdc_di_reverse_accel_axis = cfg->reverse_accel_axis;
// FFB configuration
if (cfg->center_spring_strength < 0 || cfg->center_spring_strength > 100) {
dprintf("Wheel: Invalid center spring strength: %i\n", cfg->center_spring_strength);
return E_INVALIDARG;
}
swdc_di_center_spring_strength = cfg->center_spring_strength;
return S_OK; return S_OK;
} }