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    Searched refs:exposed (Results 1 - 22 of 22) sorted by relevancy

  /xsrc/external/mit/xorg-server/dist/mi/
mivalidate.h 46 RegionRec exposed; /* exposed regions, absolute pos */ member in struct:_Validate::AfterValidate
mivaltree.c 183 * Recompute the clipList, borderClip, exposed and borderExposed
191 * clipList, borderClip, exposed and borderExposed are altered.
199 RegionPtr universe, VTKind kind, RegionPtr exposed)
312 RegionNull(&pChild->valdata->after.exposed);
336 * We translate the old clipList because that will be exposed or copied
351 RegionNull(&pParent->valdata->after.exposed);
358 * the area that used to be exposed from the new.
359 * This leaves a region of pieces that weren't exposed before.
369 RegionSubtract(exposed, universe, borderVisible);
373 RegionSubtract(exposed, universe, &pParent->borderClip)
563 RegionRec exposed; \/* For intermediate calculations *\/ local
    [all...]
mioverlay.c 22 RegionRec exposed; member in struct:__anon10270
454 RegionPtr universe, VTKind kind, RegionPtr exposed)
540 RegionNull(&tChild->valdata->exposed);
570 RegionNull(&tParent->valdata->exposed);
574 RegionSubtract(exposed, universe, borderVisible);
578 RegionSubtract(exposed, universe, &tParent->borderClip);
585 exposed, &pParent->winSize);
610 kind, exposed);
624 RegionCopy(&tParent->valdata->exposed, universe);
628 RegionSubtract(&tParent->valdata->exposed,
726 RegionRec totalClip, childClip, exposed; local
    [all...]
miexpose.c 127 RegionRec rgnExposed; /* exposed region, calculated source-
246 * exposed region will undo all our work!
260 /* make the exposed area screen-relative */
292 RegionPtr exposed = RegionCreate(NullBox, 0); local
294 *exposed = rgnExposed;
295 return exposed;
miwindow.c 208 * and then send any regions still exposed to the client
226 (*WindowExposures) (pChild, &val->after.exposed);
227 RegionUninit(&val->after.exposed);
307 * successfully copied -- recomputed exposed regions for affected windows
320 * exposed areas here.
326 * compute exposed regions of this window
328 RegionSubtract(&pWin->valdata->after.exposed, &pWin->clipList, pValid);
330 * compute exposed regions of the border
472 RegionCopy(&pWin->valdata->after.exposed, &pWin->clipList);
582 * recompute exposed regions of child window
    [all...]
  /xsrc/external/mit/xorg-server.old/dist/mi/
mivalidate.h 46 RegionRec exposed; /* exposed regions, absolute pos */ member in struct:_Validate::AfterValidate
mivaltree.c 196 * Recompute the clipList, borderClip, exposed and borderExposed
204 * clipList, borderClip, exposed and borderExposed are altered.
215 RegionPtr exposed ) /* for intermediate calculations */
341 RegionNull(&pChild->valdata->after.exposed);
367 * We translate the old clipList because that will be exposed or copied
383 RegionNull(&pParent->valdata->after.exposed);
390 * the area that used to be exposed from the new.
391 * This leaves a region of pieces that weren't exposed before.
403 RegionSubtract(exposed, universe, borderVisible);
408 RegionSubtract(exposed, universe, &pParent->borderClip)
606 RegionRec exposed; \/* For intermediate calculations *\/ local
    [all...]
mioverlay.c 23 RegionRec exposed; member in struct:__anon10861
456 RegionPtr exposed
542 RegionNull(&tChild->valdata->exposed);
572 RegionNull(&tParent->valdata->exposed);
576 RegionSubtract(exposed, universe, borderVisible);
579 RegionSubtract(exposed, universe, &tParent->borderClip);
586 exposed, &pParent->winSize);
614 kind, exposed);
630 RegionCopy(&tParent->valdata->exposed, universe);
635 RegionSubtract(&tParent->valdata->exposed,
735 RegionRec totalClip, childClip, exposed; local
    [all...]
miwindow.c 218 * and then send any regions still exposed to the client
236 (*WindowExposures)(pChild, &val->after.exposed, NullRegion);
237 RegionUninit(&val->after.exposed);
323 * successfully copied -- recomputed exposed regions for affected windows
339 * exposed areas here.
345 * compute exposed regions of this window
347 RegionSubtract(&pWin->valdata->after.exposed,
350 * compute exposed regions of the border
510 RegionCopy(&pWin->valdata->after.exposed, &pWin->clipList);
630 * recompute exposed regions of child window
    [all...]
miexpose.c 139 RegionRec rgnExposed; /* exposed region, calculated source-
274 * exposed region will undo all our work!
290 /* make the exposed area screen-relative */
330 RegionPtr exposed = RegionCreate(NullBox, 0); local
331 *exposed = rgnExposed;
332 return exposed;
  /xsrc/external/mit/xorg-server/dist/miext/rootless/
rootlessValTree.c 116 * Recompute the clipList, borderClip, exposed and borderExposed
124 * clipList, borderClip, exposed and borderExposed are altered.
131 RegionPtr universe, VTKind kind, RegionPtr exposed)
232 RegionNull(&pChild->valdata->after.exposed);
256 * We translate the old clipList because that will be exposed or copied
271 RegionNull(&pParent->valdata->after.exposed);
278 * the area that used to be exposed from the new.
279 * This leaves a region of pieces that weren't exposed before.
289 RegionSubtract(exposed, universe, borderVisible);
293 RegionSubtract(exposed, universe, &pParent->borderClip)
476 RegionRec exposed; \/* For intermediate calculations *\/ local
    [all...]
  /xsrc/external/mit/MesaLib/dist/src/freedreno/drm-shim/
README.md 9 By default, a630 is exposed. The chip can be selected an enviornment
  /xsrc/external/mit/xorg-server.old/dist/miext/rootless/
rootlessValTree.c 177 * Recompute the clipList, borderClip, exposed and borderExposed
185 * clipList, borderClip, exposed and borderExposed are altered.
192 RegionPtr universe, VTKind kind, RegionPtr exposed)
303 RegionNull(&pChild->valdata->after.exposed);
329 * We translate the old clipList because that will be exposed or copied
345 RegionNull(&pParent->valdata->after.exposed);
352 * the area that used to be exposed from the new.
353 * This leaves a region of pieces that weren't exposed before.
365 RegionSubtract(exposed, universe, borderVisible);
370 RegionSubtract(exposed, universe, &pParent->borderClip)
567 RegionRec exposed; \/* For intermediate calculations *\/ local
    [all...]
  /xsrc/external/mit/MesaLib/dist/src/nouveau/drm-shim/
README.md 9 By default, GK110 is exposed. The chip can be selected with an environment
  /xsrc/external/mit/xorg-server/dist/composite/
compwindow.c 111 RegionRec exposed; local
113 RegionNull(&exposed);
114 RegionSubtract(&exposed, &pWindow->borderClip, &pWindow->winSize);
115 pWindow->drawable.pScreen->PaintWindow(pWindow, &exposed, PW_BORDER);
116 RegionUninit(&exposed);
  /xsrc/external/mit/xorg-server.old/dist/composite/
compwindow.c 103 RegionRec exposed; local
105 RegionNull(&exposed);
106 RegionSubtract(&exposed, &pWindow->borderClip, &pWindow->winSize);
107 miPaintWindow(pWindow, &exposed, PW_BORDER);
108 RegionUninit(&exposed);
  /xsrc/external/mit/MesaLib/dist/docs/_extra/specs/
MESA_query_renderer.spec 203 1) How should the difference between on-card and GART memory be exposed?
208 systems be exposed?
MESA_texture_array.spec 768 (5) How are array textures exposed in GLSL?
772 (6) Should a 1D array texture also be exposed?
  /xsrc/external/mit/MesaLib.old/dist/docs/specs/
MESA_query_renderer.spec 203 1) How should the difference between on-card and GART memory be exposed?
208 systems be exposed?
MESA_texture_array.spec 768 (5) How are array textures exposed in GLSL?
772 (6) Should a 1D array texture also be exposed?
  /xsrc/external/mit/xorg-server/dist/dix/
window.c 1583 RegionRec exposed; local
1585 RegionNull(&exposed);
1586 RegionSubtract(&exposed, &pWin->borderClip, &pWin->winSize);
1587 pWin->drawable.pScreen->PaintWindow(pWin, &exposed, PW_BORDER);
1588 RegionUninit(&exposed);
  /xsrc/external/mit/xorg-server.old/dist/dix/
window.c 1453 RegionRec exposed; local
1455 RegionNull(&exposed);
1456 RegionSubtract(&exposed, &pWin->borderClip, &pWin->winSize);
1457 miPaintWindow(pWin, &exposed, PW_BORDER);
1458 RegionUninit(&exposed);

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