/* * Copyright © 2005 Novell, Inc. * * Permission to use, copy, modify, distribute, and sell this software * and its documentation for any purpose is hereby granted without * fee, provided that the above copyright notice appear in all copies * and that both that copyright notice and this permission notice * appear in supporting documentation, and that the name of * Novell, Inc. not be used in advertising or publicity pertaining to * distribution of the software without specific, written prior permission. * Novell, Inc. makes no representations about the suitability of this * software for any purpose. It is provided "as is" without express or * implied warranty. * * NOVELL, INC. DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN * NO EVENT SHALL NOVELL, INC. BE LIABLE FOR ANY SPECIAL, INDIRECT OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS * OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, * NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION * WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * * Author: David Reveman */ #include #include #include #include #include static CompMetadata minMetadata; static int displayPrivateIndex; typedef struct _MinDisplay { int screenPrivateIndex; HandleEventProc handleEvent; Atom winChangeStateAtom; } MinDisplay; #define MIN_SCREEN_OPTION_SPEED 0 #define MIN_SCREEN_OPTION_TIMESTEP 1 #define MIN_SCREEN_OPTION_WINDOW_MATCH 2 #define MIN_SCREEN_OPTION_SHADE_RESISTANCE 3 #define MIN_SCREEN_OPTION_NUM 4 typedef struct _MinScreen { int windowPrivateIndex; CompOption opt[MIN_SCREEN_OPTION_NUM]; PreparePaintScreenProc preparePaintScreen; DonePaintScreenProc donePaintScreen; PaintOutputProc paintOutput; PaintWindowProc paintWindow; DamageWindowRectProc damageWindowRect; FocusWindowProc focusWindow; int shadeStep; int moreAdjust; } MinScreen; typedef struct _MinWindow { GLfloat xVelocity, yVelocity, xScaleVelocity, yScaleVelocity; GLfloat xScale, yScale; GLfloat tx, ty; Bool adjust; int state, newState; int shade; Region region; int unmapCnt; Bool ignoreDamage; } MinWindow; #define GET_MIN_DISPLAY(d) \ ((MinDisplay *) (d)->base.privates[displayPrivateIndex].ptr) #define MIN_DISPLAY(d) \ MinDisplay *md = GET_MIN_DISPLAY (d) #define GET_MIN_SCREEN(s, md) \ ((MinScreen *) (s)->base.privates[(md)->screenPrivateIndex].ptr) #define MIN_SCREEN(s) \ MinScreen *ms = GET_MIN_SCREEN (s, GET_MIN_DISPLAY (s->display)) #define GET_MIN_WINDOW(w, ms) \ ((MinWindow *) (w)->base.privates[(ms)->windowPrivateIndex].ptr) #define MIN_WINDOW(w) \ MinWindow *mw = GET_MIN_WINDOW (w, \ GET_MIN_SCREEN (w->screen, \ GET_MIN_DISPLAY (w->screen->display))) #define NUM_OPTIONS(s) (sizeof ((s)->opt) / sizeof (CompOption)) static CompOption * minGetScreenOptions (CompPlugin *plugin, CompScreen *screen, int *count) { MIN_SCREEN (screen); *count = NUM_OPTIONS (ms); return ms->opt; } static Bool minSetScreenOption (CompPlugin *plugin, CompScreen *screen, const char *name, CompOptionValue *value) { CompOption *o; int index; MIN_SCREEN (screen); o = compFindOption (ms->opt, NUM_OPTIONS (ms), name, &index); if (!o) return FALSE; switch (index) { case MIN_SCREEN_OPTION_SHADE_RESISTANCE: if (compSetIntOption (o, value)) { if (o->value.i) ms->shadeStep = o->rest.i.max - o->value.i + 1; else ms->shadeStep = 0; return TRUE; } break; default: if (compSetOption (o, value)) return TRUE; break; } return FALSE; } static void minSetShade (CompWindow *w, int shade) { REGION rect; int h = w->attrib.height + w->attrib.border_width * 2; MIN_WINDOW (w); EMPTY_REGION (w->region); rect.rects = &rect.extents; rect.numRects = rect.size = 1; w->height = shade; rect.extents.x1 = 0; rect.extents.y1 = h - shade; rect.extents.x2 = w->width; rect.extents.y2 = h; XIntersectRegion (mw->region, &rect, w->region); XOffsetRegion (w->region, w->attrib.x, w->attrib.y - (h - shade)); w->matrix = w->texture->matrix; w->matrix.x0 -= (w->attrib.x * w->matrix.xx); w->matrix.y0 -= ((w->attrib.y - (h - shade)) * w->matrix.yy); (*w->screen->windowResizeNotify) (w, 0, 0, 0, 0); } static int minGetWindowState (CompWindow *w) { Atom actual; int result, format; unsigned long n, left; unsigned char *data; int retval = WithdrawnState; result = XGetWindowProperty (w->screen->display->display, w->id, w->screen->display->wmStateAtom, 0L, 1L, FALSE, w->screen->display->wmStateAtom, &actual, &format, &n, &left, &data); if (result == Success && data) { if (n) memcpy (&retval, data, sizeof (int)); XFree ((void *) data); } return retval; } static int adjustMinVelocity (CompWindow *w) { float dx, dy, dxs, dys, adjust, amount; float x1, y1, xScale, yScale; MIN_WINDOW (w); if (mw->newState == IconicState) { x1 = w->iconGeometry.x; y1 = w->iconGeometry.y; xScale = (float) w->iconGeometry.width / w->width; yScale = (float) w->iconGeometry.height / w->height; } else { x1 = w->serverX; y1 = w->serverY; xScale = yScale = 1.0f; } dx = x1 - (w->attrib.x + mw->tx); adjust = dx * 0.15f; amount = fabs (dx) * 1.5f; if (amount < 0.5f) amount = 0.5f; else if (amount > 5.0f) amount = 5.0f; mw->xVelocity = (amount * mw->xVelocity + adjust) / (amount + 1.0f); dy = y1 - (w->attrib.y + mw->ty); adjust = dy * 0.15f; amount = fabs (dy) * 1.5f; if (amount < 0.5f) amount = 0.5f; else if (amount > 5.0f) amount = 5.0f; mw->yVelocity = (amount * mw->yVelocity + adjust) / (amount + 1.0f); dxs = xScale - mw->xScale; adjust = dxs * 0.15f; amount = fabs (dxs) * 10.0f; if (amount < 0.01f) amount = 0.01f; else if (amount > 0.15f) amount = 0.15f; mw->xScaleVelocity = (amount * mw->xScaleVelocity + adjust) / (amount + 1.0f); dys = yScale - mw->yScale; adjust = dys * 0.15f; amount = fabs (dys) * 10.0f; if (amount < 0.01f) amount = 0.01f; else if (amount > 0.15f) amount = 0.15f; mw->yScaleVelocity = (amount * mw->yScaleVelocity + adjust) / (amount + 1.0f); if (fabs (dx) < 0.1f && fabs (mw->xVelocity) < 0.2f && fabs (dy) < 0.1f && fabs (mw->yVelocity) < 0.2f && fabs (dxs) < 0.001f && fabs (mw->xScaleVelocity) < 0.002f && fabs (dys) < 0.001f && fabs (mw->yScaleVelocity) < 0.002f) { mw->xVelocity = mw->yVelocity = mw->xScaleVelocity = mw->yScaleVelocity = 0.0f; mw->tx = x1 - w->attrib.x; mw->ty = y1 - w->attrib.y; mw->xScale = xScale; mw->yScale = yScale; return 0; } return 1; } static void minPreparePaintScreen (CompScreen *s, int msSinceLastPaint) { MIN_SCREEN (s); if (ms->moreAdjust) { CompWindow *w; int steps, h; float amount, chunk; amount = msSinceLastPaint * 0.05f * ms->opt[MIN_SCREEN_OPTION_SPEED].value.f; steps = amount / (0.5f * ms->opt[MIN_SCREEN_OPTION_TIMESTEP].value.f); if (!steps) steps = 1; chunk = amount / (float) steps; while (steps--) { ms->moreAdjust = 0; for (w = s->windows; w; w = w->next) { MIN_WINDOW (w); if (mw->adjust) { mw->adjust = adjustMinVelocity (w); ms->moreAdjust |= mw->adjust; mw->tx += mw->xVelocity * chunk; mw->ty += mw->yVelocity * chunk; mw->xScale += mw->xScaleVelocity * chunk; mw->yScale += mw->yScaleVelocity * chunk; if (!mw->adjust) { mw->state = mw->newState; mw->ignoreDamage = TRUE; while (mw->unmapCnt) { unmapWindow (w); mw->unmapCnt--; } mw->ignoreDamage = FALSE; } } else if (mw->region && w->damaged) { if (w->shaded) { if (mw->shade > 0) { mw->shade -= (chunk * ms->shadeStep) + 1; if (mw->shade > 0) { ms->moreAdjust = TRUE; } else { mw->shade = 0; mw->ignoreDamage = TRUE; while (mw->unmapCnt) { unmapWindow (w); mw->unmapCnt--; } mw->ignoreDamage = FALSE; } } } else { h = w->attrib.height + w->attrib.border_width * 2; if (mw->shade < h) { mw->shade += (chunk * ms->shadeStep) + 1; if (mw->shade < h) { ms->moreAdjust = TRUE; } else { mw->shade = MAXSHORT; minSetShade (w, h); XDestroyRegion (mw->region); mw->region = NULL; addWindowDamage (w); } } } } } if (!ms->moreAdjust) break; } if (ms->moreAdjust) { for (w = s->windows; w; w = w->next) { MIN_WINDOW (w); if (mw->adjust) { addWindowDamage (w); } else if (mw->region && w->damaged) { h = w->attrib.height + w->attrib.border_width * 2; if (mw->shade && mw->shade < h) { minSetShade (w, mw->shade); addWindowDamage (w); } } } } } UNWRAP (ms, s, preparePaintScreen); (*s->preparePaintScreen) (s, msSinceLastPaint); WRAP (ms, s, preparePaintScreen, minPreparePaintScreen); } static void minDonePaintScreen (CompScreen *s) { MIN_SCREEN (s); if (ms->moreAdjust) { CompWindow *w; int h; for (w = s->windows; w; w = w->next) { MIN_WINDOW (w); if (mw->adjust) { addWindowDamage (w); } else if (mw->region) { h = w->attrib.height + w->attrib.border_width * 2; if (mw->shade && mw->shade < h) addWindowDamage (w); } } } UNWRAP (ms, s, donePaintScreen); (*s->donePaintScreen) (s); WRAP (ms, s, donePaintScreen, minDonePaintScreen); } static Bool minPaintOutput (CompScreen *s, const ScreenPaintAttrib *sAttrib, const CompTransform *transform, Region region, CompOutput *output, unsigned int mask) { Bool status; MIN_SCREEN (s); if (ms->moreAdjust) mask |= PAINT_SCREEN_WITH_TRANSFORMED_WINDOWS_MASK; UNWRAP (ms, s, paintOutput); status = (*s->paintOutput) (s, sAttrib, transform, region, output, mask); WRAP (ms, s, paintOutput, minPaintOutput); return status; } static Bool minPaintWindow (CompWindow *w, const WindowPaintAttrib *attrib, const CompTransform *transform, Region region, unsigned int mask) { CompScreen *s = w->screen; Bool status; MIN_SCREEN (s); MIN_WINDOW (w); if (mw->adjust) { FragmentAttrib fragment; CompTransform wTransform = *transform; if (mask & PAINT_WINDOW_OCCLUSION_DETECTION_MASK) return FALSE; UNWRAP (ms, s, paintWindow); status = (*s->paintWindow) (w, attrib, transform, region, mask | PAINT_WINDOW_NO_CORE_INSTANCE_MASK); WRAP (ms, s, paintWindow, minPaintWindow); initFragmentAttrib (&fragment, &w->lastPaint); if (w->alpha || fragment.opacity != OPAQUE) mask |= PAINT_WINDOW_TRANSLUCENT_MASK; matrixTranslate (&wTransform, w->attrib.x, w->attrib.y, 0.0f); matrixScale (&wTransform, mw->xScale, mw->yScale, 1.0f); matrixTranslate (&wTransform, mw->tx / mw->xScale - w->attrib.x, mw->ty / mw->yScale - w->attrib.y, 0.0f); glPushMatrix (); glLoadMatrixf (wTransform.m); (*s->drawWindow) (w, &wTransform, &fragment, region, mask | PAINT_WINDOW_TRANSFORMED_MASK); glPopMatrix (); } else { /* no core instance from windows that have been animated */ if (mw->state == IconicState) mask |= PAINT_WINDOW_NO_CORE_INSTANCE_MASK; UNWRAP (ms, s, paintWindow); status = (*s->paintWindow) (w, attrib, transform, region, mask); WRAP (ms, s, paintWindow, minPaintWindow); } return status; } static void minHandleEvent (CompDisplay *d, XEvent *event) { CompWindow *w; MIN_DISPLAY (d); switch (event->type) { case MapNotify: w = findWindowAtDisplay (d, event->xmap.window); if (w) { MIN_WINDOW (w); if (mw->adjust) mw->state = mw->newState; if (mw->region) w->height = 0; mw->ignoreDamage = TRUE; while (mw->unmapCnt) { unmapWindow (w); mw->unmapCnt--; } mw->ignoreDamage = FALSE; } break; case UnmapNotify: w = findWindowAtDisplay (d, event->xunmap.window); if (w) { MIN_SCREEN (w->screen); if (w->pendingUnmaps && onCurrentDesktop (w)) /* Normal -> Iconic */ { CompMatch *match = &ms->opt[MIN_SCREEN_OPTION_WINDOW_MATCH].value.match; MIN_WINDOW (w); if (w->shaded) { if (!mw->region) mw->region = XCreateRegion (); if (mw->region && ms->shadeStep) { XSubtractRegion (w->region, &emptyRegion, mw->region); XOffsetRegion (mw->region, -w->attrib.x, w->attrib.height + w->attrib.border_width * 2 - w->height - w->attrib.y); mw->shade = w->height; mw->adjust = FALSE; ms->moreAdjust = TRUE; mw->unmapCnt++; w->unmapRefCnt++; addWindowDamage (w); } } else if (!w->invisible && matchEval (match, w)) { if (w->iconGeometrySet) { mw->newState = IconicState; mw->xScale = w->paint.xScale; mw->yScale = w->paint.yScale; mw->tx = w->attrib.x - w->serverX; mw->ty = w->attrib.y - w->serverY; if (mw->region) { XDestroyRegion (mw->region); mw->region = NULL; } mw->shade = MAXSHORT; mw->adjust = TRUE; ms->moreAdjust = TRUE; mw->unmapCnt++; w->unmapRefCnt++; addWindowDamage (w); } } } else /* X -> Withdrawn */ { MIN_WINDOW (w); if (mw->adjust) { mw->adjust = FALSE; mw->xScale = mw->yScale = 1.0f; mw->tx = mw->ty = 0.0f; mw->xVelocity = mw->yVelocity = 0.0f; mw->xScaleVelocity = mw->yScaleVelocity = 1.0f; mw->shade = MAXSHORT; if (mw->region) { XDestroyRegion (mw->region); mw->region = NULL; } } mw->state = NormalState; } } default: break; } UNWRAP (md, d, handleEvent); (*d->handleEvent) (d, event); WRAP (md, d, handleEvent, minHandleEvent); } static Bool minDamageWindowRect (CompWindow *w, Bool initial, BoxPtr rect) { Bool status = FALSE; MIN_SCREEN (w->screen); MIN_WINDOW (w); if (mw->ignoreDamage) return TRUE; if (initial) { if (mw->state == IconicState) { CompMatch *match = &ms->opt[MIN_SCREEN_OPTION_WINDOW_MATCH].value.match; mw->state = NormalState; if (!w->invisible && w->iconGeometrySet && matchEval (match, w)) { if (!mw->adjust) { mw->adjust = TRUE; ms->moreAdjust = TRUE; mw->tx = w->iconGeometry.x - w->serverX; mw->ty = w->iconGeometry.y - w->serverY; mw->xScale = (float) w->iconGeometry.width / w->width; mw->yScale = (float) w->iconGeometry.height / w->height; addWindowDamage (w); } } } else if (mw->region && mw->shade < w->height) { if (ms->shadeStep && !w->invisible) { XSubtractRegion (w->region, &emptyRegion, mw->region); XOffsetRegion (mw->region, -w->attrib.x, -w->attrib.y); /* bind pixmap here so we have something to unshade with */ if (!w->texture->pixmap && !w->bindFailed) bindWindow (w); ms->moreAdjust = TRUE; } else { mw->shade = MAXSHORT; } } mw->newState = NormalState; } else if (mw->adjust) { damageTransformedWindowRect (w, mw->xScale, mw->yScale, mw->tx, mw->ty, rect); status = TRUE; } UNWRAP (ms, w->screen, damageWindowRect); status |= (*w->screen->damageWindowRect) (w, initial, rect); WRAP (ms, w->screen, damageWindowRect, minDamageWindowRect); return status; } static Bool minFocusWindow (CompWindow *w) { Bool status; MIN_SCREEN (w->screen); MIN_WINDOW (w); if (mw->unmapCnt) return FALSE; UNWRAP (ms, w->screen, focusWindow); status = (*w->screen->focusWindow) (w); WRAP (ms, w->screen, focusWindow, minFocusWindow); return status; } static Bool minInitDisplay (CompPlugin *p, CompDisplay *d) { MinDisplay *md; if (!checkPluginABI ("core", CORE_ABIVERSION)) return FALSE; md = malloc (sizeof (MinDisplay)); if (!md) return FALSE; md->screenPrivateIndex = allocateScreenPrivateIndex (d); if (md->screenPrivateIndex < 0) { free (md); return FALSE; } md->winChangeStateAtom = XInternAtom (d->display, "WM_CHANGE_STATE", 0); WRAP (md, d, handleEvent, minHandleEvent); d->base.privates[displayPrivateIndex].ptr = md; return TRUE; } static void minFiniDisplay (CompPlugin *p, CompDisplay *d) { MIN_DISPLAY (d); freeScreenPrivateIndex (d, md->screenPrivateIndex); UNWRAP (md, d, handleEvent); free (md); } static const CompMetadataOptionInfo minScreenOptionInfo[] = { { "speed", "float", "0.1", 0, 0 }, { "timestep", "float", "0.1", 0, 0 }, { "window_match", "match", 0, 0, 0 }, { "shade_resistance", "int", "0100", 0, 0 } }; static Bool minInitScreen (CompPlugin *p, CompScreen *s) { MinScreen *ms; MIN_DISPLAY (s->display); ms = malloc (sizeof (MinScreen)); if (!ms) return FALSE; if (!compInitScreenOptionsFromMetadata (s, &minMetadata, minScreenOptionInfo, ms->opt, MIN_SCREEN_OPTION_NUM)) { free (ms); return FALSE; } ms->windowPrivateIndex = allocateWindowPrivateIndex (s); if (ms->windowPrivateIndex < 0) { compFiniScreenOptions (s, ms->opt, MIN_SCREEN_OPTION_NUM); free (ms); return FALSE; } ms->moreAdjust = FALSE; ms->shadeStep = ms->opt[MIN_SCREEN_OPTION_SHADE_RESISTANCE].rest.i.max - ms->opt[MIN_SCREEN_OPTION_SHADE_RESISTANCE].value.i + 1; WRAP (ms, s, preparePaintScreen, minPreparePaintScreen); WRAP (ms, s, donePaintScreen, minDonePaintScreen); WRAP (ms, s, paintOutput, minPaintOutput); WRAP (ms, s, paintWindow, minPaintWindow); WRAP (ms, s, damageWindowRect, minDamageWindowRect); WRAP (ms, s, focusWindow, minFocusWindow); s->base.privates[md->screenPrivateIndex].ptr = ms; return TRUE; } static void minFiniScreen (CompPlugin *p, CompScreen *s) { MIN_SCREEN (s); freeWindowPrivateIndex (s, ms->windowPrivateIndex); UNWRAP (ms, s, preparePaintScreen); UNWRAP (ms, s, donePaintScreen); UNWRAP (ms, s, paintOutput); UNWRAP (ms, s, paintWindow); UNWRAP (ms, s, damageWindowRect); UNWRAP (ms, s, focusWindow); compFiniScreenOptions (s, ms->opt, MIN_SCREEN_OPTION_NUM); free (ms); } static Bool minInitWindow (CompPlugin *p, CompWindow *w) { MinWindow *mw; MIN_SCREEN (w->screen); mw = malloc (sizeof (MinWindow)); if (!mw) return FALSE; mw->xScale = mw->yScale = 1.0f; mw->tx = mw->ty = 0.0f; mw->adjust = FALSE; mw->xVelocity = mw->yVelocity = 0.0f; mw->xScaleVelocity = mw->yScaleVelocity = 1.0f; mw->unmapCnt = 0; mw->ignoreDamage = FALSE; if (w->state & CompWindowStateHiddenMask) { if (w->shaded) { mw->state = mw->newState = NormalState; mw->shade = 0; mw->region = XCreateRegion (); } else { mw->state = mw->newState = minGetWindowState (w); mw->shade = MAXSHORT; mw->region = NULL; } } else { mw->state = mw->newState = NormalState; mw->shade = MAXSHORT; mw->region = NULL; } w->base.privates[ms->windowPrivateIndex].ptr = mw; return TRUE; } static void minFiniWindow (CompPlugin *p, CompWindow *w) { MIN_WINDOW (w); mw->ignoreDamage = TRUE; while (mw->unmapCnt--) unmapWindow (w); mw->ignoreDamage = FALSE; if (mw->region) XDestroyRegion (mw->region); free (mw); } static CompBool minInitObject (CompPlugin *p, CompObject *o) { static InitPluginObjectProc dispTab[] = { (InitPluginObjectProc) 0, /* InitCore */ (InitPluginObjectProc) minInitDisplay, (InitPluginObjectProc) minInitScreen, (InitPluginObjectProc) minInitWindow }; RETURN_DISPATCH (o, dispTab, ARRAY_SIZE (dispTab), TRUE, (p, o)); } static void minFiniObject (CompPlugin *p, CompObject *o) { static FiniPluginObjectProc dispTab[] = { (FiniPluginObjectProc) 0, /* FiniCore */ (FiniPluginObjectProc) minFiniDisplay, (FiniPluginObjectProc) minFiniScreen, (FiniPluginObjectProc) minFiniWindow }; DISPATCH (o, dispTab, ARRAY_SIZE (dispTab), (p, o)); } static CompOption * minGetObjectOptions (CompPlugin *plugin, CompObject *object, int *count) { static GetPluginObjectOptionsProc dispTab[] = { (GetPluginObjectOptionsProc) 0, /* GetCoreOptions */ (GetPluginObjectOptionsProc) 0, /* GetDisplayOptions */ (GetPluginObjectOptionsProc) minGetScreenOptions }; *count = 0; RETURN_DISPATCH (object, dispTab, ARRAY_SIZE (dispTab), (void *) count, (plugin, object, count)); } static CompBool minSetObjectOption (CompPlugin *plugin, CompObject *object, const char *name, CompOptionValue *value) { static SetPluginObjectOptionProc dispTab[] = { (SetPluginObjectOptionProc) 0, /* SetCoreOption */ (SetPluginObjectOptionProc) 0, /* SetDisplayOption */ (SetPluginObjectOptionProc) minSetScreenOption }; RETURN_DISPATCH (object, dispTab, ARRAY_SIZE (dispTab), FALSE, (plugin, object, name, value)); } static Bool minInit (CompPlugin *p) { if (!compInitPluginMetadataFromInfo (&minMetadata, p->vTable->name, 0, 0, minScreenOptionInfo, MIN_SCREEN_OPTION_NUM)) return FALSE; displayPrivateIndex = allocateDisplayPrivateIndex (); if (displayPrivateIndex < 0) { compFiniMetadata (&minMetadata); return FALSE; } compAddMetadataFromFile (&minMetadata, p->vTable->name); return TRUE; } static void minFini (CompPlugin *p) { freeDisplayPrivateIndex (displayPrivateIndex); compFiniMetadata (&minMetadata); } static CompMetadata * minGetMetadata (CompPlugin *plugin) { return &minMetadata; } static CompPluginVTable minVTable = { "minimize", minGetMetadata, minInit, minFini, minInitObject, minFiniObject, minGetObjectOptions, minSetObjectOption }; CompPluginVTable * getCompPluginInfo20070830 (void) { return &minVTable; }