The DICONDITION structure contains type-specific information for effects that are marked as DIEFT_CONDITION.
A pointer to an array of DICONDITION structures for an effect is passed in the lpvTypeSpecificParams member of the DIEFFECT structure. The number of elements in the array must be either one, or equal to the number of axes associated with the effect.
typedef struct DICONDITION {
LONG lOffset;
LONG lPositiveCoefficient;
LONG lNegativeCoefficient;
DWORD dwPositiveSaturation;
DWORD dwNegativeSaturation;
LONG lDeadBand;
} DICONDITION, *LPDICONDITION;
typedef const DICONDITION *LPCDICONDITION;
Members
lOffset
The offset for the condition, in the range -10,000 to +10,000.
lPositiveCoefficient
The coefficient constant on the positive side of the offset, in the range -10,000 to +10,000.
lNegativeCoefficient
The coefficient constant on the negative side of the offset, in the range -10,000 to +10,000.
If the device does not support separate positive and negative coefficients, then the value of lNegativeCoefficient is ignored and the value of lPositiveCoefficient is used as both the positive and negative coefficients.
dwPositiveSaturation
The maximum force output on the positive side of the offset, in the range 0 to 10,000.
If the device does not support force saturations, then the value of this member is ignored.
lNegativeSaturation
The maximum force output on the negative side of the offset, in the range 0 to 10,000.
If the device does not support force saturations, then the value of this member is ignored.
If the device does not support separate positive and negative saturations, then the value of lNegativeSaturation is ignored and the value of lPositiveSaturation is used as both the positive and negative saturations.
lDeadBand
The region around lOffset where the condition is not active, in the range 0 to 10,000. In other words, the condition is not active between lOffset - lDeadBand and lOffset + lDeadBand.
Remarks
Different types of conditions will interpret the parameters differently, but the basic idea is that force resulting from a condition is equal to A(q - q0) where A is a scaling coefficient, q is some metric, and q0 is the neutral value for that metric.
The simplified formula give above must be adjusted if a nonzero dead band is provided. If the metric is less than lOffset - lDeadBand, then the resulting force is given by the following formula:
force = lNegativeCoefficient * (q - (lOffset - lDeadBand))
Similarly, if the metric is greater than lOffset + lDeadBand, then the resulting force is given by the following formula:
force = lPositiveCoefficient * (q - (lOffset + lDeadBand))
A spring condition uses axis position as the metric.
A damper condition uses axis velocity as the metric.
An inertia condition uses axis acceleration as the metric.
If the number of DICONDITION structures in the array is equal to the number of axes for the effect, then the first structure applies to the first axis, the second applies to the second axis,and so on. For example, a two-axis spring condition with lOffset set to zero in both DICONDITION structures would have the same effect as the joystick self-centering spring. When a condition is defined for each axis in this way, the effect must not be rotated.
If there is a single DICONDITION structure for an effect with more than one axis, then the direction along which the parameters of the DICONDITION structure are in effect is determined by the direction parameters passed in the rglDirection field of the DIEFFECT structure. For example, a friction condition rotated 45 degrees (in polar coordinates) would resist joystick motion in the northeast-southwest direction but would have no effect on joystick motion in the northwest-southeast direction.
QuickInfo
Windows NT: Use version 5.0 or later.
Windows: Use Windows 95 OSR2 or later. Available as a redistributable for Windows 95.
Windows CE: Unsupported.
Header: Declared in dinput.h.