Conditions are forces applied in response to current sensor values within the device. In other words, conditions require information about device motion, such as position or velocity of a joystick handle. In general, conditions are not associated with individual events during a game or other application. They represent ambient phenomena, such as the stiffness or looseness of a flight stick, or the tendency of a steering wheel to return to a straight-ahead position. A condition does not have a predefined magnitude. The magnitude is scaled in proportion to the movement or position of the input object.
DirectInput defines the following types of condition effects:
Most hardware devices do not support the application of envelopes to conditions. Conditions have the following type-specific parameters:
Offset | The offset from the zero reading of the appropriate sensor value at which the condition begins to be applied. For a spring effect, the neutral point - that is, the point along the axis at which the spring would be considered at rest - would be defined by the offset for the condition. For a damper, the offset would define the greatest velocity value for which damping force is zero. Offset is not normally used for inertia or friction effects. |
Coefficient | A multiplier that scales the effect. For some devices, you can set separate coefficients for the positive and negative direction along the axis associated with the condition. For example, a flight stick controlling a damaged aircraft might move more easily to the right than to the left. |
Saturation | In force feedback, saturation is an expression of the maximum possible force for an effect. For example, suppose a flight stick has a spring condition on the x-axis. The offset is 0 and the coefficient is 10,000, so the maximum force is normally exerted when the stick is furthest from the center. But if you define a positive and negative saturation of 5,000, the force does not increase after the stick has been moved halfway to the right or left. Not all devices support saturation. |
Deadband | The deadband is a zone around the offset of an axis at which the condition is not active. In the case of a spring that is at rest in the middle of an axis, the deadband enlarges this area of rest. Not all devices support deadband. |
Conditions can have duration, although in most cases you would probably want to set the duration to infinite ( - 1) and stop the effect only in response to some event in the application.
To create a condition, pass one of the following values in the rguid parameter of the IDirectInputDevice8::CreateEffect method:
You can also pass any other globally unique identifier (GUID) obtained by the IDirectInputDevice8::EnumEffects method, provided the low byte of the dwEffType member of the DIEffectInfo structure is equal to DIEFT_CONDITION. In this way, you can use hardware-specific conditions designed by the manufacturer.
The type-specific structure for conditions is DICONDITION. For multiple-axis conditions, you can provide an array of such structures, one for each axis, or a single structure that defines the condition in the specified direction. In either case, you must set the cbTypeSpecificParams member of the DIEFFECT structure to the number of bytes used; that is, to sizeof(DICONDITION) * n, where n is the number of structures provided.
An application should call the IDirectInputDevice8::GetEffectInfo method or the IDirectInputDevice8::EnumEffects method and examine the dwEffType member of the DIEffectInfo structure to determine whether both a positive and a negative coefficient and saturation for the effect are supported on the device. If the effect does not return the DIEFT_POSNEGCOEFFICIENTS flag, it ignores the value in the lNegativeCoefficient member, and the value in lPositiveCoefficient is applied to the entire axis. Likewise, if the effect does not return the DIEFT_POSNEGSATURATION flag, it ignores the value in dwNegativeSaturation, and the value in dwPositiveSaturation is used as the negative saturation level. Finally, if the effect does not return the DIEFT_SATURATION flag, it ignores both the dwPositiveSaturationdwNegativeSaturation values, and no saturation is applied.
You should also check DIEffectInfo. dwEffType for the DIEFT_DEADBAND flag, to see if deadband is supported for the condition. If it is not supported, the value in the lDeadBand member of the DICONDITION structure will be ignored.
You can set a coefficient to a negative value, and this has the effect of generating the force in the opposite direction. For example, for a spring effect, it would cause the spring to push away from the offset point rather than pulling toward it.