[PATCH v2 14/28] Input: Widen pointer acceleration types to double

Daniel Stone daniel at fooishbar.org
Thu Jun 9 10:17:22 PDT 2011


This widens almost all of the float-using code in ptrveloc.[ch] to
doubles, other than values coming from properties which are specified to
be floats by the property API.

Bumps input API to v14 as this changes the AccelScheme signature, as
used by xf86-input-synaptics.

Signed-off-by: Daniel Stone <daniel at fooishbar.org>
---
 dix/ptrveloc.c                 |  214 +++++++++++++++++++--------------------
 hw/xfree86/common/xf86Module.h |    2 +-
 include/ptrveloc.h             |   32 +++---
 3 files changed, 121 insertions(+), 127 deletions(-)

v2: Be a little more discriminating about what we widen, per Simon's feedback;
    left velocity estimation alone and only widened what was already float to
    double.  Bumped the input major ABI since this changes the AccelScheme
    signature.

diff --git a/dix/ptrveloc.c b/dix/ptrveloc.c
index c506791..55056e6 100644
--- a/dix/ptrveloc.c
+++ b/dix/ptrveloc.c
@@ -63,9 +63,9 @@
 /* fwds */
 int
 SetAccelerationProfile(DeviceVelocityPtr vel, int profile_num);
-static float
-SimpleSmoothProfile(DeviceIntPtr dev, DeviceVelocityPtr vel, float velocity,
-                    float threshold, float acc);
+static double
+SimpleSmoothProfile(DeviceIntPtr dev, DeviceVelocityPtr vel, double velocity,
+                    double threshold, double acc);
 static PointerAccelerationProfileFunc
 GetAccelerationProfile(DeviceVelocityPtr vel, int profile_num);
 static BOOL
@@ -478,14 +478,10 @@ DoGetDirection(int dx, int dy){
         else
             dir = UNDEFINED; /* shouldn't happen */
     } else { /* compute angle and set appropriate flags */
-        float r;
+        double r;
         int i1, i2;
 
-#ifdef _ISOC99_SOURCE
-        r = atan2f(dy, dx);
-#else
         r = atan2(dy, dx);
-#endif
         /* find direction.
          *
          * Add 360° to avoid r become negative since C has no well-defined
@@ -524,8 +520,7 @@ static int
 GetDirection(int dx, int dy){
     static int cache[DIRECTION_CACHE_SIZE][DIRECTION_CACHE_SIZE];
     int dir;
-    if (abs(dx) <= DIRECTION_CACHE_RANGE &&
-	abs(dy) <= DIRECTION_CACHE_RANGE) {
+    if (abs(dx) <= DIRECTION_CACHE_RANGE && abs(dy) <= DIRECTION_CACHE_RANGE) {
 	/* cacheable */
 	dir = cache[DIRECTION_CACHE_RANGE+dx][DIRECTION_CACHE_RANGE+dy];
 	if(dir == 0) {
@@ -553,7 +548,7 @@ GetDirection(int dx, int dy){
  * 0/0 and set it as the current one.
  */
 static inline void
-FeedTrackers(DeviceVelocityPtr vel, int dx, int dy, int cur_t)
+FeedTrackers(DeviceVelocityPtr vel, double dx, double dy, int cur_t)
 {
     int n;
     for(n = 0; n < vel->num_tracker; n++){
@@ -561,8 +556,8 @@ FeedTrackers(DeviceVelocityPtr vel, int dx, int dy, int cur_t)
 	vel->tracker[n].dy += dy;
     }
     n = (vel->cur_tracker + 1) % vel->num_tracker;
-    vel->tracker[n].dx = 0;
-    vel->tracker[n].dy = 0;
+    vel->tracker[n].dx = 0.0;
+    vel->tracker[n].dy = 0.0;
     vel->tracker[n].time = cur_t;
     vel->tracker[n].dir = GetDirection(dx, dy);
     DebugAccelF("(dix prtacc) motion [dx: %i dy: %i dir:%i diff: %i]\n",
@@ -576,9 +571,9 @@ FeedTrackers(DeviceVelocityPtr vel, int dx, int dy, int cur_t)
  * velocity scaling.
  * This assumes linear motion.
  */
-static float
+static double
 CalcTracker(const MotionTracker *tracker, int cur_t){
-    float dist = sqrt(tracker->dx * tracker->dx + tracker->dy * tracker->dy);
+    double dist = sqrt(tracker->dx * tracker->dx + tracker->dy * tracker->dy);
     int dtime = cur_t - tracker->time;
     if(dtime > 0)
 	return dist / dtime;
@@ -593,16 +588,16 @@ CalcTracker(const MotionTracker *tracker, int cur_t){
  *
  * @return The tracker's velocity or 0 if the above conditions are unmet
  */
-static float
+static double
 QueryTrackers(DeviceVelocityPtr vel, int cur_t){
     int offset, dir = UNDEFINED, used_offset = -1, age_ms;
     /* initial velocity: a low-offset, valid velocity */
-    float initial_velocity = 0, result = 0, velocity_diff;
-    float velocity_factor =  vel->corr_mul * vel->const_acceleration; /* premultiply */
+    double initial_velocity = 0, result = 0, velocity_diff;
+    double velocity_factor =  vel->corr_mul * vel->const_acceleration; /* premultiply */
     /* loop from current to older data */
     for(offset = 1; offset < vel->num_tracker; offset++){
 	MotionTracker *tracker = TRACKER(vel, offset);
-	float tracker_velocity;
+	double tracker_velocity;
 
 	age_ms = cur_t - tracker->time;
 
@@ -674,11 +669,11 @@ QueryTrackers(DeviceVelocityPtr vel, int cur_t){
 BOOL
 ProcessVelocityData2D(
     DeviceVelocityPtr vel,
-    int dx,
-    int dy,
+    double dx,
+    double dy,
     int time)
 {
-    float velocity;
+    double velocity;
 
     vel->last_velocity = vel->velocity;
 
@@ -694,12 +689,12 @@ ProcessVelocityData2D(
  * this flattens significant ( > 1) mickeys a little bit for more steady
  * constant-velocity response
  */
-static inline float
-ApplySimpleSoftening(int prev_delta, int delta)
+static inline double
+ApplySimpleSoftening(double prev_delta, double delta)
 {
-    float result = delta;
+    double result = delta;
 
-    if (delta < -1 || delta > 1) {
+    if (delta < -1.0 || delta > 1.0) {
 	if (delta > prev_delta)
 	    result -= 0.5;
 	else if (delta < prev_delta)
@@ -718,8 +713,8 @@ ApplySimpleSoftening(int prev_delta, int delta)
 static void
 ApplySoftening(
         DeviceVelocityPtr vel,
-        float* fdx,
-        float* fdy)
+        double* fdx,
+        double* fdy)
 {
     if (vel->use_softening) {
         *fdx = ApplySimpleSoftening(vel->last_dx, *fdx);
@@ -728,7 +723,7 @@ ApplySoftening(
 }
 
 static void
-ApplyConstantDeceleration(DeviceVelocityPtr vel, float *fdx, float *fdy)
+ApplyConstantDeceleration(DeviceVelocityPtr vel, double *fdx, double *fdy)
 {
     *fdx *= vel->const_acceleration;
     *fdy *= vel->const_acceleration;
@@ -737,15 +732,15 @@ ApplyConstantDeceleration(DeviceVelocityPtr vel, float *fdx, float *fdy)
 /*
  * compute the acceleration for given velocity and enforce min_acceleartion
  */
-float
+double
 BasicComputeAcceleration(
     DeviceIntPtr dev,
     DeviceVelocityPtr vel,
-    float velocity,
-    float threshold,
-    float acc){
+    double velocity,
+    double threshold,
+    double acc){
 
-    float result;
+    double result;
     result = vel->Profile(dev, vel, velocity, threshold, acc);
 
     /* enforce min_acceleration */
@@ -759,13 +754,13 @@ BasicComputeAcceleration(
  * If the velocity has changed, an average is taken of 6 velocity factors:
  * current velocity, last velocity and 4 times the average between the two.
  */
-static float
+static double
 ComputeAcceleration(
     DeviceIntPtr dev,
     DeviceVelocityPtr vel,
-    float threshold,
-    float acc){
-    float result;
+    double threshold,
+    double acc){
+    double result;
 
     if(vel->velocity <= 0){
 	DebugAccelF("(dix ptracc) profile skipped\n");
@@ -808,13 +803,13 @@ ComputeAcceleration(
 /**
  * Polynomial function similar previous one, but with f(1) = 1
  */
-static float
+static double
 PolynomialAccelerationProfile(
     DeviceIntPtr dev,
     DeviceVelocityPtr vel,
-    float velocity,
-    float ignored,
-    float acc)
+    double velocity,
+    double ignored,
+    double acc)
 {
    return pow(velocity, (acc - 1.0) * 0.5);
 }
@@ -824,13 +819,13 @@ PolynomialAccelerationProfile(
  * returns acceleration for velocity.
  * This profile selects the two functions like the old scheme did
  */
-static float
+static double
 ClassicProfile(
     DeviceIntPtr dev,
     DeviceVelocityPtr vel,
-    float velocity,
-    float threshold,
-    float acc)
+    double velocity,
+    double threshold,
+    double acc)
 {
     if (threshold > 0) {
 	return SimpleSmoothProfile (dev,
@@ -856,15 +851,15 @@ ClassicProfile(
  * This has the expense of overall response dependency on min-acceleration.
  * In effect, min_acceleration mimics const_acceleration in this profile.
  */
-static float
+static double
 PowerProfile(
     DeviceIntPtr dev,
     DeviceVelocityPtr vel,
-    float velocity,
-    float threshold,
-    float acc)
+    double velocity,
+    double threshold,
+    double acc)
 {
-    float vel_dist;
+    double vel_dist;
 
     acc = (acc-1.0) * 0.1f + 1.0; /* without this, acc of 2 is unuseable */
 
@@ -882,11 +877,11 @@ PowerProfile(
  *  - starts faster than a sinoid
  *  - smoothness C1 (Cinf if you dare to ignore endpoints)
  */
-static inline float
-CalcPenumbralGradient(float x){
+static inline double
+CalcPenumbralGradient(double x){
     x *= 2.0f;
     x -= 1.0f;
-    return 0.5f + (x * sqrt(1.0f - x*x) + asin(x))/M_PI;
+    return 0.5f + (x * sqrt(1.0 - x*x) + asin(x))/M_PI;
 }
 
 
@@ -894,13 +889,13 @@ CalcPenumbralGradient(float x){
  * acceleration function similar to classic accelerated/unaccelerated,
  * but with smooth transition in between (and towards zero for adaptive dec.).
  */
-static float
+static double
 SimpleSmoothProfile(
     DeviceIntPtr dev,
     DeviceVelocityPtr vel,
-    float velocity,
-    float threshold,
-    float acc)
+    double velocity,
+    double threshold,
+    double acc)
 {
     if(velocity < 1.0f)
         return CalcPenumbralGradient(0.5 + velocity*0.5) * 2.0f - 1.0f;
@@ -920,15 +915,15 @@ SimpleSmoothProfile(
  * This profile uses the first half of the penumbral gradient as a start
  * and then scales linearly.
  */
-static float
+static double
 SmoothLinearProfile(
     DeviceIntPtr dev,
     DeviceVelocityPtr vel,
-    float velocity,
-    float threshold,
-    float acc)
+    double velocity,
+    double threshold,
+    double acc)
 {
-    float res, nv;
+    double res, nv;
 
     if(acc > 1.0f)
         acc -= 1.0f; /*this is so acc = 1 is no acceleration */
@@ -955,15 +950,15 @@ SmoothLinearProfile(
  * From 0 to threshold, the response graduates smoothly from min_accel to
  * acceleration. Beyond threshold it is exactly the specified acceleration.
  */
-static float
+static double
 SmoothLimitedProfile(
     DeviceIntPtr dev,
     DeviceVelocityPtr vel,
-    float velocity,
-    float threshold,
-    float acc)
+    double velocity,
+    double threshold,
+    double acc)
 {
-    float res;
+    double res;
 
     if(velocity >= threshold || threshold == 0.0f)
 	return acc;
@@ -976,24 +971,24 @@ SmoothLimitedProfile(
 }
 
 
-static float
+static double
 LinearProfile(
     DeviceIntPtr dev,
     DeviceVelocityPtr vel,
-    float velocity,
-    float threshold,
-    float acc)
+    double velocity,
+    double threshold,
+    double acc)
 {
     return acc * velocity;
 }
 
-static float
+static double
 NoProfile(
     DeviceIntPtr dev,
     DeviceVelocityPtr vel,
-    float velocity,
-    float threshold,
-    float acc)
+    double velocity,
+    double threshold,
+    double acc)
 {
     return 1.0f;
 }
@@ -1119,7 +1114,8 @@ acceleratePointerPredictable(
     ValuatorMask* val,
     CARD32 evtime)
 {
-    int dx = 0, dy = 0, tmpi;
+    double dx = 0, dy = 0;
+    int tmpi;
     DeviceVelocityPtr velocitydata = GetDevicePredictableAccelData(dev);
     Bool soften = TRUE;
 
@@ -1146,40 +1142,37 @@ acceleratePointerPredictable(
         }
 
         if (dev->ptrfeed && dev->ptrfeed->ctrl.num) {
-            float mult;
+            double mult;
 
             /* invoke acceleration profile to determine acceleration */
             mult = ComputeAcceleration (dev, velocitydata,
-                                        dev->ptrfeed->ctrl.threshold,
-                                        (float)dev->ptrfeed->ctrl.num /
-                                            (float)dev->ptrfeed->ctrl.den);
+					dev->ptrfeed->ctrl.threshold,
+					(double)dev->ptrfeed->ctrl.num /
+					(double)dev->ptrfeed->ctrl.den);
 
             if(mult != 1.0f || velocitydata->const_acceleration != 1.0f) {
-                float fdx = dx,
-                      fdy = dy;
-
                 if (mult > 1.0f && soften)
-                    ApplySoftening(velocitydata, &fdx, &fdy);
-                ApplyConstantDeceleration(velocitydata, &fdx, &fdy);
+                    ApplySoftening(velocitydata, &dx, &dy);
+                ApplyConstantDeceleration(velocitydata, &dx, &dy);
 
                 /* Calculate the new delta (with accel) and drop it back
                  * into the valuator masks */
                 if (dx) {
-                    float tmp;
-                    tmp = mult * fdx + dev->last.remainder[0];
+                    double tmp;
+                    tmp = mult * dx + dev->last.remainder[0];
                     tmpi = trunc(tmp);
                     valuator_mask_set(val, 0, tmpi);
-                    dev->last.remainder[0] = tmp - (float)tmpi;
+                    dev->last.remainder[0] = tmp - (double)tmpi;
                 }
                 if (dy) {
-                    float tmp;
-                    tmp = mult * fdy + dev->last.remainder[1];
+                    double tmp;
+                    tmp = mult * dy + dev->last.remainder[1];
                     tmpi = trunc(tmp);
                     valuator_mask_set(val, 1, tmpi);
-                    dev->last.remainder[1] = tmp - (float)tmpi;
+                    dev->last.remainder[1] = tmp - (double)tmpi;
                 }
                 DebugAccelF("pos (%i | %i) remainders x: %.3f y: %.3f delta x:%.3f y:%.3f\n",
-                            *px, *py, dev->last.remainder[0], dev->last.remainder[1], fdx, fdy);
+                            *px, *py, dev->last.remainder[0], dev->last.remainder[1], dx, dy);
             }
         }
     }
@@ -1200,8 +1193,9 @@ acceleratePointerLightweight(
     ValuatorMask* val,
     CARD32 ignored)
 {
-    float mult = 0.0, tmpf;
-    int dx = 0, dy = 0, tmpi;
+    double mult = 0.0, tmpf;
+    double dx = 0.0, dy = 0.0;
+    int tmpi;
 
     if (valuator_mask_isset(val, 0)) {
         dx = valuator_mask_get(val, 0);
@@ -1218,45 +1212,45 @@ acceleratePointerLightweight(
         /* modeled from xf86Events.c */
         if (dev->ptrfeed->ctrl.threshold) {
             if ((abs(dx) + abs(dy)) >= dev->ptrfeed->ctrl.threshold) {
-                tmpf = ((float)dx *
-                        (float)(dev->ptrfeed->ctrl.num)) /
-                       (float)(dev->ptrfeed->ctrl.den) +
+                tmpf = ((double)dx *
+                        (double)(dev->ptrfeed->ctrl.num)) /
+                       (double)(dev->ptrfeed->ctrl.den) +
                        dev->last.remainder[0];
                 if (dx) {
                     tmpi = (int) tmpf;
                     valuator_mask_set(val, 0, tmpi);
-                    dev->last.remainder[0] = tmpf - (float)tmpi;
+                    dev->last.remainder[0] = tmpf - (double)tmpi;
                 }
 
-                tmpf = ((float)dy *
-                        (float)(dev->ptrfeed->ctrl.num)) /
-                       (float)(dev->ptrfeed->ctrl.den) +
+                tmpf = ((double)dy *
+                        (double)(dev->ptrfeed->ctrl.num)) /
+                       (double)(dev->ptrfeed->ctrl.den) +
                        dev->last.remainder[1];
                 if (dy) {
                     tmpi = (int) tmpf;
                     valuator_mask_set(val, 1, tmpi);
-                    dev->last.remainder[1] = tmpf - (float)tmpi;
+                    dev->last.remainder[1] = tmpf - (double)tmpi;
                 }
             }
         }
         else {
-            mult = pow((float)dx * (float)dx + (float)dy * (float)dy,
-                       ((float)(dev->ptrfeed->ctrl.num) /
-                        (float)(dev->ptrfeed->ctrl.den) - 1.0) /
+	    mult = pow((double)dx * (double)dx + (double)dy * (double)dy,
+                       ((double)(dev->ptrfeed->ctrl.num) /
+                        (double)(dev->ptrfeed->ctrl.den) - 1.0) /
                        2.0) / 2.0;
             if (dx) {
-                tmpf = mult * (float)dx +
+                tmpf = mult * (double)dx +
                        dev->last.remainder[0];
                 tmpi = (int) tmpf;
                 valuator_mask_set(val, 0, tmpi);
-                dev->last.remainder[0] = tmpf - (float)tmpi;
+                dev->last.remainder[0] = tmpf - (double)tmpi;
             }
             if (dy) {
-                tmpf = mult * (float)dy +
+                tmpf = mult * (double)dy +
                        dev->last.remainder[1];
                 tmpi = (int)tmpf;
                 valuator_mask_set(val, 1, tmpi);
-                dev->last.remainder[1] = tmpf - (float)tmpi;
+                dev->last.remainder[1] = tmpf - (double)tmpi;
             }
         }
     }
diff --git a/hw/xfree86/common/xf86Module.h b/hw/xfree86/common/xf86Module.h
index 2a5c805..3308e0a 100644
--- a/hw/xfree86/common/xf86Module.h
+++ b/hw/xfree86/common/xf86Module.h
@@ -83,7 +83,7 @@ typedef enum {
  */
 #define ABI_ANSIC_VERSION	SET_ABI_VERSION(0, 4)
 #define ABI_VIDEODRV_VERSION	SET_ABI_VERSION(11, 0)
-#define ABI_XINPUT_VERSION	SET_ABI_VERSION(13, 0)
+#define ABI_XINPUT_VERSION	SET_ABI_VERSION(14, 0)
 #define ABI_EXTENSION_VERSION	SET_ABI_VERSION(5, 0)
 #define ABI_FONT_VERSION	SET_ABI_VERSION(0, 6)
 
diff --git a/include/ptrveloc.h b/include/ptrveloc.h
index 6ca309c..4f76b00 100644
--- a/include/ptrveloc.h
+++ b/include/ptrveloc.h
@@ -47,9 +47,9 @@ struct _DeviceVelocityRec;
  * profile
  * returns actual acceleration depending on velocity, acceleration control,...
  */
-typedef float (*PointerAccelerationProfileFunc)
+typedef double (*PointerAccelerationProfileFunc)
               (DeviceIntPtr dev, struct _DeviceVelocityRec* vel,
-               float velocity, float threshold, float accelCoeff);
+               double velocity, double threshold, double accelCoeff);
 
 /**
  * a motion history, with just enough information to
@@ -57,8 +57,8 @@ typedef float (*PointerAccelerationProfileFunc)
  * a more or less straight line
  */
 typedef struct _MotionTracker {
-    int dx, dy;     /* accumulated delta for each axis */
-    int time;         /* time of creation */
+    double dx, dy;  /* accumulated delta for each axis */
+    int time;       /* time of creation */
     int dir;        /* initial direction bitfield */
 } MotionTracker, *MotionTrackerPtr;
 
@@ -69,17 +69,17 @@ typedef struct _DeviceVelocityRec {
     MotionTrackerPtr tracker;
     int num_tracker;
     int cur_tracker;        /* current index */
-    float   velocity;       /* velocity as guessed by algorithm */
-    float   last_velocity;  /* previous velocity estimate */
-    int     last_dx;      /* last time-difference */
-    int     last_dy ;     /* phase of last/current estimate */
-    float   corr_mul;       /* config: multiply this into velocity */
-    float   const_acceleration;  /* config: (recipr.) const deceleration */
-    float   min_acceleration;    /* config: minimum acceleration */
+    double  velocity;       /* velocity as guessed by algorithm */
+    double  last_velocity;  /* previous velocity estimate */
+    double  last_dx;        /* last time-difference */
+    double  last_dy;        /* phase of last/current estimate */
+    double  corr_mul;       /* config: multiply this into velocity */
+    double  const_acceleration;  /* config: (recipr.) const deceleration */
+    double  min_acceleration;    /* config: minimum acceleration */
     short   reset_time;     /* config: reset non-visible state after # ms */
     short   use_softening;  /* config: use softening of mouse values */
-    float   max_rel_diff;   /* config: max. relative difference */
-    float   max_diff;       /* config: max. difference */
+    double  max_rel_diff;   /* config: max. relative difference */
+    double  max_diff;       /* config: max. difference */
     int     initial_range;  /* config: max. offset used as initial velocity */
     Bool    average_accel;  /* config: average acceleration over velocity */
     PointerAccelerationProfileFunc Profile;
@@ -107,11 +107,11 @@ extern _X_EXPORT void
 InitTrackers(DeviceVelocityPtr vel, int ntracker);
 
 extern _X_EXPORT BOOL
-ProcessVelocityData2D(DeviceVelocityPtr vel, int dx, int dy, int time);
+ProcessVelocityData2D(DeviceVelocityPtr vel, double dx, double dy, int time);
 
-extern _X_EXPORT float
+extern _X_EXPORT double
 BasicComputeAcceleration(DeviceIntPtr dev, DeviceVelocityPtr vel,
-    float velocity, float threshold, float acc);
+    double velocity, double threshold, double acc);
 
 extern _X_EXPORT void
 FreeVelocityData(DeviceVelocityPtr vel);
-- 
1.7.5.3



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