Yucom/vrclient_x64/vrinput_manual.c

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#include "vrclient_private.h"
WINE_DEFAULT_DEBUG_CHANNEL(vrclient);
#ifndef __x86_64__
static uint32_t ivrinput_get_digital_action_data( uint64_t action_handle, void *action_data, uint32_t action_data_size,
uint64_t restrict_to_device, unsigned int version )
{
/* Digital action state change fixup hack. */
w_InputDigitalActionData_t *data = action_data;
LARGE_INTEGER qpf;
unsigned int i;
TRACE( "handle %s, data %p, data_size %u, restrict %s, origin %s, state %#x, changed %#x, active %#x.\n",
wine_dbgstr_longlong( action_handle ), action_data, action_data_size,
wine_dbgstr_longlong( restrict_to_device ), wine_dbgstr_longlong( data->activeOrigin ),
data->bState, data->bChanged, data->bActive );
if (action_data_size != sizeof(*data))
{
WARN( "Unexpected action_data_size %u.\n", action_data_size );
return 0;
}
if (!data->bActive) return 0;
if (!compositor_data.qpf_freq.QuadPart) QueryPerformanceFrequency( &compositor_data.qpf_freq );
QueryPerformanceCounter( &qpf );
for (i = 0; i < compositor_data.digital_action_count; ++i)
{
if (compositor_data.digital_actions_state[i].action == action_handle &&
compositor_data.digital_actions_state[i].origin == data->activeOrigin)
{
if ((data->bChanged = (!compositor_data.digital_actions_state[i].previous_state != !data->bState)))
{
TRACE( "action %s (%s) changed to %#x, data->fUpdateTime %f.\n",
wine_dbgstr_longlong( action_handle ),
wine_dbgstr_longlong( restrict_to_device ), data->bState, data->fUpdateTime );
compositor_data.digital_actions_state[i].update_qpf_time = qpf;
compositor_data.digital_actions_state[i].previous_state = data->bState;
}
if (compositor_data.digital_actions_state[i].update_qpf_time.QuadPart)
data->fUpdateTime = -(float)(qpf.QuadPart - compositor_data.digital_actions_state[i].update_qpf_time.QuadPart) / compositor_data.qpf_freq.QuadPart;
return 0;
}
}
if (i == ARRAY_SIZE(compositor_data.digital_actions_state))
{
static unsigned int once;
if (!once++) WARN( "Too many actions.\n" );
return 0;
}
compositor_data.digital_actions_state[i].action = action_handle;
compositor_data.digital_actions_state[i].origin = data->activeOrigin;
compositor_data.digital_actions_state[i].previous_state = data->bState;
compositor_data.digital_actions_state[i].update_qpf_time = qpf;
++compositor_data.digital_action_count;
return 0;
}
#endif
uint32_t __thiscall winIVRInput_IVRInput_004_GetDigitalActionData( struct w_steam_iface *_this, uint64_t action,
w_InputDigitalActionData_t *pActionData,
uint32_t unActionDataSize, uint64_t ulRestrictToDevice )
{
w_InputDigitalActionData_t w_pActionData;
struct IVRInput_IVRInput_004_GetDigitalActionData_params params =
{
.linux_side = _this->u_iface,
.action = action,
.pActionData = pActionData ? &w_pActionData : NULL,
.unActionDataSize = unActionDataSize,
.ulRestrictToDevice = ulRestrictToDevice,
};
TRACE( "%p\n", _this );
unActionDataSize = min( unActionDataSize, sizeof(w_pActionData) );
if (pActionData) memcpy( &w_pActionData, pActionData, unActionDataSize );
VRCLIENT_CALL( IVRInput_IVRInput_004_GetDigitalActionData, &params );
if (pActionData) memcpy( pActionData, &w_pActionData, unActionDataSize );
#ifdef __x86_64__
return params._ret;
#else
if (params._ret) return params._ret;
return ivrinput_get_digital_action_data( action, pActionData, unActionDataSize, ulRestrictToDevice, 4 );
#endif
}
uint32_t __thiscall winIVRInput_IVRInput_005_GetDigitalActionData( struct w_steam_iface *_this, uint64_t action,
w_InputDigitalActionData_t *pActionData,
uint32_t unActionDataSize, uint64_t ulRestrictToDevice )
{
w_InputDigitalActionData_t w_pActionData;
struct IVRInput_IVRInput_005_GetDigitalActionData_params params =
{
.linux_side = _this->u_iface,
.action = action,
.pActionData = pActionData ? &w_pActionData : NULL,
.unActionDataSize = unActionDataSize,
.ulRestrictToDevice = ulRestrictToDevice,
};
TRACE( "%p\n", _this );
unActionDataSize = min( unActionDataSize, sizeof(w_pActionData) );
if (pActionData) memcpy( &w_pActionData, pActionData, unActionDataSize );
VRCLIENT_CALL( IVRInput_IVRInput_005_GetDigitalActionData, &params );
if (pActionData) memcpy( pActionData, &w_pActionData, unActionDataSize );
#ifdef __x86_64__
return params._ret;
#else
if (params._ret) return params._ret;
return ivrinput_get_digital_action_data( action, pActionData, unActionDataSize, ulRestrictToDevice, 5 );
#endif
}
uint32_t __thiscall winIVRInput_IVRInput_006_GetDigitalActionData( struct w_steam_iface *_this, uint64_t action,
w_InputDigitalActionData_t *pActionData,
uint32_t unActionDataSize, uint64_t ulRestrictToDevice )
{
w_InputDigitalActionData_t w_pActionData;
struct IVRInput_IVRInput_006_GetDigitalActionData_params params =
{
.linux_side = _this->u_iface,
.action = action,
.pActionData = pActionData ? &w_pActionData : NULL,
.unActionDataSize = unActionDataSize,
.ulRestrictToDevice = ulRestrictToDevice,
};
TRACE( "%p\n", _this );
unActionDataSize = min( unActionDataSize, sizeof(w_pActionData) );
if (pActionData) memcpy( &w_pActionData, pActionData, unActionDataSize );
VRCLIENT_CALL( IVRInput_IVRInput_006_GetDigitalActionData, &params );
if (pActionData) memcpy( pActionData, &w_pActionData, unActionDataSize );
#ifdef __x86_64__
return params._ret;
#else
if (params._ret) return params._ret;
return ivrinput_get_digital_action_data( action, pActionData, unActionDataSize, ulRestrictToDevice, 6 );
#endif
}
uint32_t __thiscall winIVRInput_IVRInput_007_GetDigitalActionData( struct w_steam_iface *_this, uint64_t action,
w_InputDigitalActionData_t *pActionData,
uint32_t unActionDataSize, uint64_t ulRestrictToDevice )
{
w_InputDigitalActionData_t w_pActionData;
struct IVRInput_IVRInput_007_GetDigitalActionData_params params =
{
.linux_side = _this->u_iface,
.action = action,
.pActionData = pActionData ? &w_pActionData : NULL,
.unActionDataSize = unActionDataSize,
.ulRestrictToDevice = ulRestrictToDevice,
};
TRACE( "%p\n", _this );
unActionDataSize = min( unActionDataSize, sizeof(w_pActionData) );
if (pActionData) memcpy( &w_pActionData, pActionData, unActionDataSize );
VRCLIENT_CALL( IVRInput_IVRInput_007_GetDigitalActionData, &params );
if (pActionData) memcpy( pActionData, &w_pActionData, unActionDataSize );
#ifdef __x86_64__
return params._ret;
#else
if (params._ret) return params._ret;
return ivrinput_get_digital_action_data( action, pActionData, unActionDataSize, ulRestrictToDevice, 7 );
#endif
}
uint32_t __thiscall winIVRInput_IVRInput_010_GetDigitalActionData( struct w_steam_iface *_this, uint64_t action,
w_InputDigitalActionData_t *pActionData,
uint32_t unActionDataSize, uint64_t ulRestrictToDevice )
{
w_InputDigitalActionData_t w_pActionData;
struct IVRInput_IVRInput_010_GetDigitalActionData_params params =
{
.linux_side = _this->u_iface,
.action = action,
.pActionData = pActionData ? &w_pActionData : NULL,
.unActionDataSize = unActionDataSize,
.ulRestrictToDevice = ulRestrictToDevice,
};
TRACE( "%p\n", _this );
unActionDataSize = min( unActionDataSize, sizeof(w_pActionData) );
if (pActionData) memcpy( &w_pActionData, pActionData, unActionDataSize );
VRCLIENT_CALL( IVRInput_IVRInput_010_GetDigitalActionData, &params );
if (pActionData) memcpy( pActionData, &w_pActionData, unActionDataSize );
#ifdef __x86_64__
return params._ret;
#else
if (params._ret) return params._ret;
return ivrinput_get_digital_action_data( action, pActionData, unActionDataSize, ulRestrictToDevice, 10 );
#endif
}