diff -rNu xorg-server-1.4.2-backup/dix/devices.c xorg-server-1.4.2/dix/devices.c --- xorg-server-1.4.2-backup/dix/devices.c 2008-06-10 19:57:18.000000000 +0200 +++ xorg-server-1.4.2/dix/devices.c 2008-07-17 00:30:24.000000000 +0200 @@ -62,6 +62,7 @@ #include "scrnintstr.h" #include "cursorstr.h" #include "dixstruct.h" +#include "ptrveloc.h" #include "site.h" #ifndef XKB_IN_SERVER #define XKB_IN_SERVER @@ -536,6 +537,12 @@ } if (dev->valuator) { + if(dev->valuator->accelData && + dev->valuator->AccelScheme == acceleratePointer){ + /* if more schemes are added this would need to be factored out */ + FreeVelocityData(dev->valuator->accelData); + xfree(dev->valuator->accelData); + } /* Counterpart to 'biggest hack ever' in init. */ if (dev->valuator->motion && dev->valuator->GetMotionProc == GetMotionHistory) @@ -944,6 +951,8 @@ valc->lasty = 0; valc->dxremaind = 0; valc->dyremaind = 0; + valc->AccelScheme = acceleratePointerPlain; + valc->accelData = NULL; dev->valuator = valc; /* biggest hack ever. */ diff -rNu xorg-server-1.4.2-backup/dix/getevents.c xorg-server-1.4.2/dix/getevents.c --- xorg-server-1.4.2-backup/dix/getevents.c 2008-06-11 16:26:22.000000000 +0200 +++ xorg-server-1.4.2/dix/getevents.c 2008-07-17 00:31:45.000000000 +0200 @@ -62,6 +62,7 @@ #include "exglobals.h" #include "extnsionst.h" +#include /* Maximum number of valuators, divided by six, rounded up, to get number * of events. */ @@ -223,80 +224,6 @@ } -/* Originally a part of xf86PostMotionEvent; modifies valuators - * in-place. */ -static void -acceleratePointer(DeviceIntPtr pDev, int first_valuator, int num_valuators, - int *valuators) -{ - float mult = 0.0; - int dx = 0, dy = 0; - int *px = NULL, *py = NULL; - - if (!num_valuators || !valuators) - return; - - if (first_valuator == 0) { - dx = valuators[0]; - px = &valuators[0]; - } - if (first_valuator <= 1 && num_valuators >= (2 - first_valuator)) { - dy = valuators[1 - first_valuator]; - py = &valuators[1 - first_valuator]; - } - - if (!dx && !dy) - return; - - if (pDev->ptrfeed && pDev->ptrfeed->ctrl.num) { - /* modeled from xf86Events.c */ - if (pDev->ptrfeed->ctrl.threshold) { - if ((abs(dx) + abs(dy)) >= pDev->ptrfeed->ctrl.threshold) { - pDev->valuator->dxremaind = ((float)dx * - (float)(pDev->ptrfeed->ctrl.num)) / - (float)(pDev->ptrfeed->ctrl.den) + - pDev->valuator->dxremaind; - if (px) { - *px = (int)pDev->valuator->dxremaind; - pDev->valuator->dxremaind = pDev->valuator->dxremaind - - (float)(*px); - } - - pDev->valuator->dyremaind = ((float)dy * - (float)(pDev->ptrfeed->ctrl.num)) / - (float)(pDev->ptrfeed->ctrl.den) + - pDev->valuator->dyremaind; - if (py) { - *py = (int)pDev->valuator->dyremaind; - pDev->valuator->dyremaind = pDev->valuator->dyremaind - - (float)(*py); - } - } - } - else { - mult = pow((float)dx * (float)dx + (float)dy * (float)dy, - ((float)(pDev->ptrfeed->ctrl.num) / - (float)(pDev->ptrfeed->ctrl.den) - 1.0) / - 2.0) / 2.0; - if (dx) { - pDev->valuator->dxremaind = mult * (float)dx + - pDev->valuator->dxremaind; - *px = (int)pDev->valuator->dxremaind; - pDev->valuator->dxremaind = pDev->valuator->dxremaind - - (float)(*px); - } - if (dy) { - pDev->valuator->dyremaind = mult * (float)dy + - pDev->valuator->dyremaind; - *py = (int)pDev->valuator->dyremaind; - pDev->valuator->dyremaind = pDev->valuator->dyremaind - - (float)(*py); - } - } - } -} - - /** * Clip an axis to its bounds, which are declared in the call to * InitValuatorAxisClassStruct. @@ -613,9 +540,13 @@ clipAxis(pDev, 1, &y); } else { - if (flags & POINTER_ACCELERATE) - acceleratePointer(pDev, first_valuator, num_valuators, - valuators); + if ((flags & POINTER_ACCELERATE) && pDev->valuator->AccelScheme){ + pDev->valuator->AccelScheme(pDev, + first_valuator, + num_valuators, + valuators, + ms); + } if (pDev->coreEvents) { /* Get and convert the core pointer coordinate space into diff -rNu xorg-server-1.4.2-backup/dix/Makefile.am xorg-server-1.4.2/dix/Makefile.am --- xorg-server-1.4.2-backup/dix/Makefile.am 2008-06-10 19:57:18.000000000 +0200 +++ xorg-server-1.4.2/dix/Makefile.am 2008-07-17 00:30:24.000000000 +0200 @@ -26,6 +26,7 @@ pixmap.c \ privates.c \ property.c \ + ptrveloc.c \ resource.c \ swaprep.c \ swapreq.c \ diff -rNu xorg-server-1.4.2-backup/dix/ptrveloc.c xorg-server-1.4.2/dix/ptrveloc.c --- xorg-server-1.4.2-backup/dix/ptrveloc.c 1970-01-01 01:00:00.000000000 +0100 +++ xorg-server-1.4.2/dix/ptrveloc.c 2008-07-17 00:30:24.000000000 +0200 @@ -0,0 +1,587 @@ + +#ifdef HAVE_DIX_CONFIG_H +#include +#endif + +#include +#include +#include +#include + + +/***************************************************************************** + * Pointer ballistics 2006/2007 by Simon Thum (simon [dot] thum [at] gmx de) + * + * Serves 3 complementary functions: + * 1) provide a sophisticated ballistic velocity estimate to improve + * the relation between velocity (of the device) and acceleration + * 2) slightly soften mouse data when acceleration is applied + * 3) decelerate by two means (constant and adaptive) if enabled + * + * Important concepts are the + * + * - Scheme + * which selects the basic algorithm (old/new (new is the stuff herein)) + * - Profile + * which selects or excutes the + * - Function, + * which returns an acceleration for any given velocity. + * + * The Profile is an intermediary intended to cleanly perform old-style + * function selection (threshold =/!= 0) + * However, custom functions should be implemented as a profile. + * A function as such can be identical with a profile, see below. + ****************************************************************************/ + + + + +/******************************** + * Init/Uninit etc + *******************************/ + +/* +Init struct so it should match the average case +*/ +void +InitVelocityData(DeviceVelocityPtr s, float rdecay) +{ + s->lrm_time = 0; + s->velocity = 0; + s->corr_mul = 10.0; /* dots per 10 milisecond should be usable */ + s->const_acceleration = 1.0; /* no acceleration/deceleration */ + s->reset_time = 300; + s->last_dx = 0; + s->last_dy = 0; + s->use_softening = 1; + s->min_acceleration = 1.0; /* don't decelerate */ + s->use_coupling = 1; + s->coupling = 0.2; + s->fading_lut_size = 0; + s->fading_lut = NULL; + s->profile_private = NULL; + SetAccelerationProfile(s, 0); + InitFadingLookup(s, rdecay, 40); +} + +/* +Clean up +param is a void* since the ptr in ValuatorClassRec is not typed either +*/ +void +FreeVelocityData(void* p){ + DeviceVelocityPtr s = (DeviceVelocityPtr)p; + s->fading_lut_size = 0; + xfree(s->fading_lut); + s->fading_lut = NULL; + xfree(s->profile_private); + s->profile_private = NULL; +} + +/* +Adjust weighting decay and lut in sync +*/ +void +InitFadingLookup(DeviceVelocityPtr s, float rdecay, int lutsize) +{ + int x; + float *newlut; + float *oldlut; + + if(lutsize > 0){ + newlut = xalloc (sizeof(float)* lutsize); + if(!newlut) + return; + for(x = 0; x < lutsize; x++) + newlut[x] = pow(0.5, ((float)x) * rdecay); + }else{ + newlut = NULL; + } + oldlut = s->fading_lut; + s->fading_lut = newlut; + s->rdecay = rdecay; + s->fading_lut_size = lutsize; + if(oldlut != NULL) + xfree(oldlut); +} + + + +/******************************** + * general Velocity and + * acceleration computation + *******************************/ + +/** +return the axis if mickey is insignificant and axis-aligned +or -1 otherwise +1 for hz +2 for vt +*/ +static inline short +GetAxis(int dx, int dy){ + if(dx == 0 || dy == 0){ + if(dx == 1 || dx == -1) + return 1; + if(dy == 1 || dy == -1) + return 2; + return -1; + }else{ + return -1; + } +} + +/* Perform velocity approximation + return true if non-visible state reset is suggested */ +short +ProcessVelocityData(DeviceVelocityPtr s, int dx, int dy, int time) +{ + int diff = time - s->lrm_time; + int cur_ax = GetAxis(dx, dy); + int last_ax = GetAxis(s->last_dx, s->last_dy); + float cvelocity, fade, div; + short reset = (diff >= s->reset_time); + if(cur_ax != last_ax && cur_ax != -1 && last_ax != -1 && !reset){ + /*DebugF("(dix) ProcessVelocityData diagonal correction %i %i", + cur_ax, last_ax);*/ + /* correct for the error induced when diagonal movements are + reported as alternating axis mickeys */ + dx += s->last_dx; + dy += s->last_dy; + diff += s->last_diff; + s->last_diff = time - s->lrm_time; /* prevent continuous add-up */ + }else{ + s->last_diff = diff; + } + + /* cvelocity is not a real velocity yet, more a motion delta. contant + acceleration is multiplied here to make the velocity an on-screen velocity + (px/t as opposed to some device velocity). This is intended to make + multiple devices with widely varying ConstantDecelerations + behave more similar */ + cvelocity = (float)sqrt(dx*dx + dy*dy) * s->const_acceleration; + + s->lrm_time = time; + + if (s->reset_time < 0 || diff < 0) { /* disabled or timer overrun? */ + /* simply set velocity from current movement, no reset. */ + s->velocity = cvelocity; + return 0; + } + + if (reset) { + /* no movement for some time, suggest to reset nonvisible state */ + diff = s->reset_time; + reset = TRUE; + } + + if (diff == 0) + diff = 1; /* prevent div-by-zero, though it shouldn't happen anyway*/ + + /* translate velocity to dots/ms (somewhat untractable in integers, + so we multiply by some per-device adjustable factor) */ + cvelocity = cvelocity * s->corr_mul / (float)diff; + + /* short-circuit: when nv-reset the rest can be skipped */ + if(reset == TRUE){ + s->velocity = cvelocity; + return TRUE; + } + + /* fading factor; crucial it matches definition in InitFadingLookup */ + if(diff < s->fading_lut_size) + fade = s->fading_lut[diff]; + else + fade = pow(0.5, ((float)diff) * s->rdecay); + + s->velocity *= fade; /* fade out old velocity info */ + s->velocity += cvelocity * (1.0f - fade); /* and add up current */ + + /* perform coupling */ + if(s->use_coupling && cvelocity > 0 && fabs(s->velocity-cvelocity) > 1.0){ + div = fabs(cvelocity - s->velocity) / (s->velocity + cvelocity); + if(div > s->coupling){ /* if divergence is too high... */ + /* set current velocity as weighted to catch up quickly */ + s->velocity = cvelocity; + } + } + /*DebugF("ProcessVelocityData acceleration guessing: vel=%.3f + diff=%d curw=%.4f, fade=%.4f\n", s->velocity, diff, (1.0- fade), fade);*/ + return reset; +} + + +/* this flattens significant ( > 1) mickeys a little bit for more steady + constant-velocity response +*/ +static inline float +ApplySimpleSoftening(int od, int d) +{ + float res = d; + if (d <= 1 && d >= -1) + return res; + if (d > od) + res -= 0.5; + else if (d < od) + res += 0.5; + return res; +} + + +static void +ApplySofteningAndConstantDeceleration( + DeviceVelocityPtr s, + int dx, + int dy, + float* fdx, + float* fdy, + short do_soften) +{ + if (do_soften && s->use_softening) { + *fdx = ApplySimpleSoftening(s->last_dx, dx); + *fdy = ApplySimpleSoftening(s->last_dy, dy); + } + else { + *fdx = dx; + *fdy = dy; + } + + *fdx *= s->const_acceleration; + *fdy *= s->const_acceleration; +} + + + + +/***************************************** + * Acceleration functions and profiles + ****************************************/ + +/* acceleration function similar to classic accelerated/unaccelerated, + introducing some transition range +*/ +static float +SimpleAccelerationFunc(float velocity, float threshold, float acc) +{ + if(velocity < 1.0) + return velocity; + if (velocity <= threshold) + return 1; + velocity /= threshold; + if (velocity >= acc) + return acc; + else + return velocity; + +} + +/* Polynomial function similar previous one, but with f(1) = 1 */ +static float +PolynomialAccelerationFunc(float velocity, float ignored, float acc) +{ + return pow(velocity, (acc - 1.0) * 0.5); +} + +/** +returns acceleration for velocity. +This profile selects the two functions like the old scheme did +*/ +static float +ClassicProfile( + DeviceVelocityPtr pVel, + float threshold, + float acc) +{ + + if (threshold) { + return SimpleAccelerationFunc (pVel->velocity, + threshold, + acc); + } + else { + return PolynomialAccelerationFunc(pVel->velocity, + 0, + acc); + } +} + +/** +Power profile +This has a completely smooth transition curve, i.e. no jumps in the +derivatives. + +This comes at the expense of overall response dependency on min-acceleration. +In effect, min_acceleration mimics const_acceleration in this profile. +*/ +static float +PowerProfile( + DeviceVelocityPtr pVel, + float threshold, + float acc) +{ + float vel_dist; + + acc /= 10.f; //without this, acc of 2 is unuseable + + if (pVel->velocity <= threshold) + return pVel->min_acceleration; + vel_dist = pVel->velocity - threshold; + return (pow(acc, vel_dist)) * pVel->min_acceleration; +} + + +//just a smooth function in [0..1] -> [0..1] +//has to be point-symmetric at 0.5 +static float +CalcNaturalGradient(float x){ + x *= 2.0f; + x -= 1.0f; + return 0.5f + (x * sqrt(1.0f - x*x) + asin(x))/M_PI; +} + +/** + acceleration function similar to classic accelerated/unaccelerated, + but with smooth transition in between (and towards zero for adaptive dec.). +*/ +static float +SimpleSmoothProfile( + DeviceVelocityPtr pVel, + float threshold, + float acc) +{ + float velocity = pVel->velocity; + if(velocity < 1.0f) + return CalcNaturalGradient(0.5 + velocity*0.5) * 2.0f - 1.0f; + if(threshold < 1.0f) + threshold = 1.0f; + if (velocity <= threshold) + return 1; + velocity /= threshold; + if (velocity >= acc) + return acc; + else + return 1.0f + (CalcNaturalGradient(velocity/acc) * (acc - 1.0f)); +} + +/** + This profile uses the first half of the narural gradient as a start + and then scales linearly. might not bear f(1) = 1 +*/ +static float +SmoothLinearProfile( + DeviceVelocityPtr pVel, + float threshold, + float acc) +{ + if(acc > 1.0f) + acc -= 1.0f; /*this is so acc = 1 is no acceleration */ + else + return 1.0f; /* originally X just went stupid, here we disable */ + + float nv = (pVel->velocity - threshold) * acc * 0.5f; + float res; + if(nv < 0){ + res = 0; + }else if(nv < 2){ + res = CalcNaturalGradient(nv*0.25f)*2.0f; + }else{ + nv -= 2.0f; + res = nv * 2.0f / M_PI /* steepness of gradient at 0.5 */ + + 1.0f; /* gradient leaves at 2|1 */ + } + res += pVel->min_acceleration; + return res; +} + +/** + Set the profile by number. + Intended to make profiles exchangeable at runtime. + If you created a profile, give it a number here to make it selectable. + In case some profile-specific init is needed, here would be a good place. + returns FALSE (0) if profile number is unknown (nondestructive, of course). +*/ +int +SetAccelerationProfile( + DeviceVelocityPtr s, + int profile_num) +{ + PointerAccelerationProfileFunc profile; + switch(profile_num){ + default: + return FALSE; + case 0: + profile = ClassicProfile; + break; + case 1: + profile = SmoothLinearProfile; + break; + case 2: + profile = SimpleSmoothProfile; + break; + case 3: + profile = PowerProfile; + break; + } + if(s->profile_private != NULL){ + /*Here one could clean old profile data*/ + xfree(s->profile_private); + s->profile_private = NULL; + } + /*Here one could init profile-private data*/ + s->Profile = profile; + return TRUE; +} + + + + +/******************************** + * acceleration schemes + *******************************/ + +/* +Modifies valuators in-place. +This version employs a velocity approximation algorithm to +enable fine-grained acceleration profiles. +*/ +void +acceleratePointer(DeviceIntPtr pDev, int first_valuator, int num_valuators, + int *valuators, int evtime) +{ + float mult = 0.0; + int dx = 0, dy = 0; + int *px = NULL, *py = NULL; + DeviceVelocityPtr velocitydata = (DeviceVelocityPtr) pDev->valuator->accelData; + float fdx, fdy; /* no need to init */ + + if (!num_valuators || !valuators || !velocitydata) + return; + + if (first_valuator == 0) { + dx = valuators[0]; + px = &valuators[0]; + } + if (first_valuator <= 1 && num_valuators >= (2 - first_valuator)) { + dy = valuators[1 - first_valuator]; + py = &valuators[1 - first_valuator]; + } + + if (dx || dy){ + /* reset nonvisible state? */ + if (ProcessVelocityData(velocitydata, dx , dy, evtime)) { + /* set to center of pixel */ + pDev->valuator->dxremaind = pDev->valuator->dyremaind = 0.5f; + /* prevent softening (somewhat quirky solution, + as it depends on the algorithm) */ + velocitydata->last_dx = dx; + velocitydata->last_dy = dy; + } + + if (pDev->ptrfeed && pDev->ptrfeed->ctrl.num) { + /* invoke acceleration profile to determine acceleration */ + mult = velocitydata->Profile(velocitydata, + pDev->ptrfeed->ctrl.threshold, + (float)(pDev->ptrfeed->ctrl.num) / + (float)(pDev->ptrfeed->ctrl.den)); + + /* enforce min_acceleration */ + if (mult < velocitydata->min_acceleration) + mult = velocitydata->min_acceleration; + + if(mult != 1.0 || velocitydata->const_acceleration != 1.0) { + ApplySofteningAndConstantDeceleration( velocitydata, + dx, dy, + &fdx, &fdy, + mult > 1.0); + if (dx) { + pDev->valuator->dxremaind = mult * fdx + pDev->valuator->dxremaind; + *px = (int)pDev->valuator->dxremaind; + pDev->valuator->dxremaind = pDev->valuator->dxremaind - (float)*px; + } + if (dy) { + pDev->valuator->dyremaind = mult * fdy + pDev->valuator->dyremaind; + *py = (int)pDev->valuator->dyremaind; + pDev->valuator->dyremaind = pDev->valuator->dyremaind - (float)*py; + } + } + } + } + /* remember last motion delta (for softening/slow movement treatment) */ + velocitydata->last_dx = dx; + velocitydata->last_dy = dy; +} + + + +/* Originally a part of xf86PostMotionEvent; modifies valuators + * in-place. */ +void +acceleratePointerPlain(DeviceIntPtr pDev, int first_valuator, int num_valuators, + int *valuators, int ignore) +{ + float mult = 0.0; + int dx = 0, dy = 0; + int *px = NULL, *py = NULL; + + if (!num_valuators || !valuators) + return; + + if (first_valuator == 0) { + dx = valuators[0]; + px = &valuators[0]; + } + if (first_valuator <= 1 && num_valuators >= (2 - first_valuator)) { + dy = valuators[1 - first_valuator]; + py = &valuators[1 - first_valuator]; + } + + if (!dx && !dy) + return; + + if (pDev->ptrfeed && pDev->ptrfeed->ctrl.num) { + /* modeled from xf86Events.c */ + if (pDev->ptrfeed->ctrl.threshold) { + if ((abs(dx) + abs(dy)) >= pDev->ptrfeed->ctrl.threshold) { + pDev->valuator->dxremaind = ((float)dx * + (float)(pDev->ptrfeed->ctrl.num)) / + (float)(pDev->ptrfeed->ctrl.den) + + pDev->valuator->dxremaind; + if (px) { + *px = (int)pDev->valuator->dxremaind; + pDev->valuator->dxremaind = pDev->valuator->dxremaind - + (float)(*px); + } + + pDev->valuator->dyremaind = ((float)dy * + (float)(pDev->ptrfeed->ctrl.num)) / + (float)(pDev->ptrfeed->ctrl.den) + + pDev->valuator->dyremaind; + if (py) { + *py = (int)pDev->valuator->dyremaind; + pDev->valuator->dyremaind = pDev->valuator->dyremaind - + (float)(*py); + } + } + } + else { + mult = pow((float)(dx * dx + dy * dy), + ((float)(pDev->ptrfeed->ctrl.num) / + (float)(pDev->ptrfeed->ctrl.den) - 1.0) / + 2.0) / 2.0; + if (dx) { + pDev->valuator->dxremaind = mult * (float)dx + + pDev->valuator->dxremaind; + *px = (int)pDev->valuator->dxremaind; + pDev->valuator->dxremaind = pDev->valuator->dxremaind - + (float)(*px); + } + if (dy) { + pDev->valuator->dyremaind = mult * (float)dy + + pDev->valuator->dyremaind; + *py = (int)pDev->valuator->dyremaind; + pDev->valuator->dyremaind = pDev->valuator->dyremaind - + (float)(*py); + } + } + } +} diff -rNu xorg-server-1.4.2-backup/hw/xfree86/common/xf86Xinput.c xorg-server-1.4.2/hw/xfree86/common/xf86Xinput.c --- xorg-server-1.4.2-backup/hw/xfree86/common/xf86Xinput.c 2008-06-10 19:57:19.000000000 +0200 +++ xorg-server-1.4.2/hw/xfree86/common/xf86Xinput.c 2008-07-17 00:30:24.000000000 +0200 @@ -87,12 +87,126 @@ #include "mi.h" +#include /* dix pointer acceleration */ + + #ifdef XFreeXDGA #include "dgaproc.h" #endif xEvent *xf86Events = NULL; + +/* + * Eval config and init MouseVelocityData accordingly + */ +static DeviceVelocityPtr +ProcessVelocityConfiguration(char* devname, pointer list){ + int tempi; + float tempf; + DeviceVelocityPtr s = xalloc(sizeof(DeviceVelocityData)); + + if(!s) + return NULL; + + /* TODO These settings should be reachable by API/xset */ + tempf = xf86SetRealOption(list, "WeightingDecay", 15); + xf86Msg(X_CONFIG, "%s: weighting decay %.1f ms\n", devname, tempf); + if(tempf > 0) + tempf = 1.0 / tempf; /* set reciprocal if possible */ + else + tempf = 10000; /* else set fairly high */ + + InitVelocityData(s, tempf); + + tempf = xf86SetIntOption(list, "ConstantDeceleration", 1); + if(tempf > 1.0){ + xf86Msg(X_CONFIG, "%s: constant deceleration by %.1f\n", devname, + tempf); + s->const_acceleration = 1.0 / tempf; /* set reciprocal deceleration + alias acceleration */ + } + + tempf = xf86SetIntOption(list, "AdaptiveDeceleration", 1); + if(tempf > 1.0){ + xf86Msg(X_CONFIG, "%s: adaptive deceleration by %.1f\n", devname, + tempf); + s->min_acceleration = 1.0 / tempf; /* set minimum acceleration */ + } + + tempf = xf86SetRealOption(list, "VelocityCoupling", 0.2); + if(tempf > 0.0){ + xf86Msg(X_CONFIG, "%s: velocity coupling is %.1f%%\n", devname, + tempf*100.0); + s->coupling = tempf; + s->use_coupling = 1; + }else{ + s->use_coupling = 0; + xf86Msg(X_CONFIG, "%s: disabled velocity coupling\n", devname); + } + + /* Configure softening. If const deceleration is used, this is expected + * to provide better subpixel information so we enable + * softening by default only if ConstantDeceleration is not used + */ + s->use_softening = xf86SetBoolOption(list, "Softening", + s->const_acceleration == 1.0); + + s->reset_time = xf86SetIntOption(list, "VelocityReset", 300); + + tempf = xf86SetRealOption(list, "ExpectedRate", 0); + if(tempf > 0){ + s->corr_mul = 1000.0 / tempf; + }else{ + s->corr_mul = xf86SetRealOption(list, "VelocityScale", 10); + } + + if (xf86SetBoolOption(list, "EstimateVelocity", 1) == 0) { + s->reset_time = -1; /* Disable */ + s->use_softening = 0; + xf86Msg(X_CONFIG, "%s: Disabled velocity estimation\n", devname); + } + + //select profile by number; hope there won't be too many + tempi= xf86SetIntOption(list, "AccelerationProfile", 0); + SetAccelerationProfile(s, tempi); + xf86Msg(X_CONFIG, "%s: Set acceleration profile %i\n", devname, tempi); + + return s; +} + +/* + * evalute local device options and move to dix valuator + * Should be executed during init when valuator exists + */ +static void +ApplyExtendedValuatorSettings(LocalDevicePtr local){ + int scheme; + void* schemedata; + /* Apply improved acceleration; Better be a device-class final init proc + * or whatever... + */ + if(local && local->dev && local->dev->valuator){ + scheme = xf86SetIntOption(local->options, "AccelerationScheme", 1); + switch(scheme){ + case 0: + local->dev->valuator->AccelScheme = NULL; + break; + case 1: + schemedata = ProcessVelocityConfiguration(local->name, + local->options); + if(schemedata){ + local->dev->valuator->accelData = schemedata; + local->dev->valuator->AccelScheme = acceleratePointer; + } + break; + case 2: + local->dev->valuator->AccelScheme = acceleratePointerPlain; + break; + } + } +} + static Bool xf86SendDragEvents(DeviceIntPtr device) { @@ -773,6 +887,10 @@ InitValuatorAxisStruct(dev, axnum, minval, maxval, resolution, min_res, max_res); + /* could as well be arguments to InitValuatorAxisStruct */ + if(axnum == 0) + ApplyExtendedValuatorSettings(dev->public.devicePrivate); + } /* diff -rNu xorg-server-1.4.2-backup/include/input.h xorg-server-1.4.2/include/input.h --- xorg-server-1.4.2-backup/include/input.h 2008-06-10 19:57:20.000000000 +0200 +++ xorg-server-1.4.2/include/input.h 2008-07-17 00:30:24.000000000 +0200 @@ -455,4 +455,12 @@ int pitch, int duration); +/* pointer acceleration handling */ +typedef void (*PtrAccelSchemeProcPtr)( + DeviceIntPtr /*pDev*/, + int /*first_valuator*/, + int /*num_valuators*/, + int* /*valuators*/, + int /*evtime*/); + #endif /* INPUT_H */ diff -rNu xorg-server-1.4.2-backup/include/inputstr.h xorg-server-1.4.2/include/inputstr.h --- xorg-server-1.4.2-backup/include/inputstr.h 2008-06-10 19:57:20.000000000 +0200 +++ xorg-server-1.4.2/include/inputstr.h 2008-07-17 00:30:24.000000000 +0200 @@ -159,7 +159,9 @@ int *axisVal; int lastx, lasty; /* last event recorded, not posted to * client; see dix/devices.c */ - int dxremaind, dyremaind; /* for acceleration */ + float dxremaind, dyremaind; /* for acceleration */ + PtrAccelSchemeProcPtr AccelScheme; + void *accelData; /* at disposal of AccelScheme */ CARD8 mode; } ValuatorClassRec, *ValuatorClassPtr; diff -rNu xorg-server-1.4.2-backup/include/ptrveloc.h xorg-server-1.4.2/include/ptrveloc.h --- xorg-server-1.4.2-backup/include/ptrveloc.h 1970-01-01 01:00:00.000000000 +0100 +++ xorg-server-1.4.2/include/ptrveloc.h 2008-07-17 00:30:24.000000000 +0200 @@ -0,0 +1,92 @@ +/* +* 2006/2007 by Simon Thum +*/ + +#ifndef POINTERVELOCITY_H +#define POINTERVELOCITY_H + +#include /*only needed for scheme decls */ + +struct _DeviceVelocityData; + +/* return acceleration for velocity/threshold (profile) */ +typedef float (*PointerAccelerationProfileFunc) + (struct _DeviceVelocityData* /*pVel*/, + float /*threshold*/, float /*acc*/); + +/* Contains all Data needed to implement mouse ballistics */ + +typedef struct _DeviceVelocityData { + /* time the last motion event was processed */ + int lrm_time; + /* velocity as guessed by algo (read: weighted) */ + float velocity; + /* last motion delta and time-diff */ + int last_dx, last_dy, last_diff; + /* lookup for fadeout values; 40 saves 99% of cases, bigger won't help + * much, maximum sane size is reset_time+1, yielding 100% hit rate */ + float* fading_lut; + int fading_lut_size; + /* config: multiply this into velocity; can be used to adujust behaviour, + * about 2 to 25 is sensible */ + float corr_mul; + /* config: reciprocal decay ms are between full and half weight */ + float rdecay; + /* config: USED FOR CONSTANT DECELERATION ! but stored reciprocal + for fmul is usually faster */ + float const_acceleration; + /* config: minimum acceleration; normally 1, set lower to enable subpixel + precision */ + float min_acceleration; + /* config: reset non-visible state after this number of miliseconds + * inactivity, -1 means disable velocity guessing */ + short reset_time; + /* config: use softening of mouse values */ + short use_softening; + /* config: use coupling of weighted and current velocity */ + short use_coupling; + /* config: maximum divergence to allow weighted velocity to be taken */ + float coupling; + /* selected acceleration profile */ + PointerAccelerationProfileFunc Profile; + /* extended data for profile impl, currently unused + has to be allocated w/xalloc for correct cleanup */ + void* profile_private; +} DeviceVelocityData, *DeviceVelocityPtr; + + +extern void +InitVelocityData(DeviceVelocityPtr s, float rdecay); + +extern void +FreeVelocityData(void* s); + +extern void +InitFadingLookup(DeviceVelocityPtr s, float rdecay, int lutsize); + +extern short +ProcessVelocityData(DeviceVelocityPtr s, int dx, int dy, int time); + +extern int +SetAccelerationProfile(DeviceVelocityPtr s, int profile_num); + + +/* we don't strictly need to export those two, but otherwise +there would need to be some framework for init/uninit of schemes. Overkill. +*/ +extern void acceleratePointer( + DeviceIntPtr pDev, + int first_valuator, + int num_valuators, + int *valuators, + int evtime); + +extern void acceleratePointerPlain( + DeviceIntPtr pDev, + int first_valuator, + int num_valuators, + int *valuators, + int ignore); + + +#endif /* POINTERVELOCITY_H */