| /dports/games/libretro-mame2003/mame2003-libretro-4358db4/src/vidhrdw/ |
| H A D | othunder_vidhrdw.c | 290 rawy = othunder_ram[0x284a/2]; in VIDEO_UPDATE()
292 if (rawy <= centrey) in VIDEO_UPDATE()
294 rawy = centrey - rawy; in VIDEO_UPDATE()
295 screeny = rawy * othunder_ram[0xa052/2] + (((rawy * othunder_ram[0xa054/2]) & 0xffff0000) >> 16); in VIDEO_UPDATE()
301 if (rawy > othunder_ram[0xa030/2]) rawy = othunder_ram[0xa030/2]; in VIDEO_UPDATE()
302 rawy -= centrey; in VIDEO_UPDATE()
333 rawy = othunder_ram[0x284e/2]; in VIDEO_UPDATE()
335 if (rawy <= centrey) in VIDEO_UPDATE()
337 rawy = centrey - rawy; in VIDEO_UPDATE()
344 if (rawy > othunder_ram[0xa040/2]) rawy = othunder_ram[0xa040/2]; in VIDEO_UPDATE()
[all …]
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| H A D | taito_z_vidhrdw.c | 1012 rawy = taitoz_sharedram[0xd96/2]; in VIDEO_UPDATE()
1014 if (rawy <= centrey) in VIDEO_UPDATE()
1016 rawy = centrey - rawy; in VIDEO_UPDATE()
1017 screeny = rawy * taitoz_sharedram[0x32/2] + in VIDEO_UPDATE()
1024 if (rawy > taitoz_sharedram[0x10/2]) rawy = taitoz_sharedram[0x10/2]; in VIDEO_UPDATE()
1025 rawy -= centrey; in VIDEO_UPDATE()
1059 rawy = taitoz_sharedram[0xd9a/2]; in VIDEO_UPDATE()
1061 if (rawy <= centrey) in VIDEO_UPDATE()
1063 rawy = centrey - rawy; in VIDEO_UPDATE()
1071 if (rawy > taitoz_sharedram[0x20/2]) rawy = taitoz_sharedram[0x20/2]; in VIDEO_UPDATE()
[all …]
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| /dports/games/libretro-mame2003_plus/mame2003-plus-libretro-17e9889/src/vidhrdw/ |
| H A D | othunder_vidhrdw.c | 290 rawy = othunder_ram[0x284a/2]; in VIDEO_UPDATE()
292 if (rawy <= centrey) in VIDEO_UPDATE()
294 rawy = centrey - rawy; in VIDEO_UPDATE()
295 screeny = rawy * othunder_ram[0xa052/2] + (((rawy * othunder_ram[0xa054/2]) & 0xffff0000) >> 16); in VIDEO_UPDATE()
301 if (rawy > othunder_ram[0xa030/2]) rawy = othunder_ram[0xa030/2]; in VIDEO_UPDATE()
302 rawy -= centrey; in VIDEO_UPDATE()
333 rawy = othunder_ram[0x284e/2]; in VIDEO_UPDATE()
335 if (rawy <= centrey) in VIDEO_UPDATE()
337 rawy = centrey - rawy; in VIDEO_UPDATE()
344 if (rawy > othunder_ram[0xa040/2]) rawy = othunder_ram[0xa040/2]; in VIDEO_UPDATE()
[all …]
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| H A D | taito_z_vidhrdw.c | 1012 rawy = taitoz_sharedram[0xd96/2]; in VIDEO_UPDATE()
1014 if (rawy <= centrey) in VIDEO_UPDATE()
1016 rawy = centrey - rawy; in VIDEO_UPDATE()
1017 screeny = rawy * taitoz_sharedram[0x32/2] + in VIDEO_UPDATE()
1024 if (rawy > taitoz_sharedram[0x10/2]) rawy = taitoz_sharedram[0x10/2]; in VIDEO_UPDATE()
1025 rawy -= centrey; in VIDEO_UPDATE()
1059 rawy = taitoz_sharedram[0xd9a/2]; in VIDEO_UPDATE()
1061 if (rawy <= centrey) in VIDEO_UPDATE()
1063 rawy = centrey - rawy; in VIDEO_UPDATE()
1071 if (rawy > taitoz_sharedram[0x20/2]) rawy = taitoz_sharedram[0x20/2]; in VIDEO_UPDATE()
[all …]
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| /dports/math/giacxcas/CoCoALib-0.99700/src/AlgebraicCore/ |
| H A D | RingFp.C | 273 RingElemRawPtr RingFpImpl::myNew(ConstRawPtr rawy) const in myNew() argument
276 new(ans) value_t(import(rawy)); in myNew()
288 void RingFpImpl::mySwap(RawPtr rawx, RawPtr rawy) const in mySwap() argument
290 std::swap(import(rawx), import(rawy)); in mySwap()
332 import(rawlhs) = myImpl.myAdd(import(rawx), import(rawy)); in myAdd()
338 import(rawlhs) = myImpl.mySub(import(rawx), import(rawy)); in mySub()
344 import(rawlhs) = myImpl.myMul(import(rawx), import(rawy)); in myMul()
350 CoCoA_ASSERT(!myIsZero(rawy)); in myDiv()
357 if (IsZero(import(rawy))) return false; in myIsDivisible()
371 myGcdInField(rawlhs, rawx, rawy); in myGcd()
[all …]
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| H A D | RingFpDouble.C | 104 virtual void mySwap(RawPtr rawx, RawPtr rawy) const;
280 *ans = import(rawy); in myNew()
293 std::swap(import(rawx), import(rawy)); in mySwap()
335 import(rawlhs) = myImpl.myAdd(import(rawx), import(rawy)); in myAdd()
341 import(rawlhs) = myImpl.mySub(import(rawx), import(rawy)); in mySub()
347 import(rawlhs) = myImpl.myMul(import(rawx), import(rawy)); in myMul()
353 CoCoA_ASSERT(!myIsZero(rawy)); in myDiv()
360 if (myIsZero(rawy)) return false; in myIsDivisible()
361 myDiv(rawlhs, rawx, rawy); in myIsDivisible()
374 myGcdInField(rawlhs, rawx, rawy); in myGcd()
[all …]
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| H A D | RingFpLog.C | 268 RingElemRawPtr RingFpLogImpl::myNew(ConstRawPtr rawy) const in myNew() argument
271 *ans = import(rawy); in myNew()
282 void RingFpLogImpl::mySwap(RawPtr rawx, RawPtr rawy) const in mySwap() argument
284 std::swap(import(rawx), import(rawy)); in mySwap()
326 import(rawlhs) = myImpl.myAdd(import(rawx), import(rawy)); in myAdd()
332 import(rawlhs) = myImpl.mySub(import(rawx), import(rawy)); in mySub()
344 CoCoA_ASSERT(!myIsZero(rawy)); in myDiv()
351 if (myIsZero(rawy)) return false; in myIsDivisible()
352 myDiv(rawlhs, rawx, rawy); in myIsDivisible()
365 myGcdInField(rawlhs, rawx, rawy); in myGcd()
[all …]
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| H A D | RingQQ.C | 247 mpq_swap(import(rawx), import(rawy)); in mySwap()
297 mpq_add(import(rawlhs), import(rawx), import(rawy)); in myAdd()
303 mpq_sub(import(rawlhs), import(rawx), import(rawy)); in mySub()
309 mpq_mul(import(rawlhs), import(rawx), import(rawy)); in myMul()
315 CoCoA_ASSERT(!myIsZero(rawy)); in myDiv()
316 mpq_div(import(rawlhs), import(rawx), import(rawy)); in myDiv()
322 if (myIsZero(rawy)) return false; in myIsDivisible()
323 mpq_div(import(rawlhs), import(rawx), import(rawy)); in myIsDivisible()
336 myGcdInField(rawlhs, rawx, rawy); in myGcd()
459 return mpq_cmp(import(rawx), import(rawy)) == 0; in myIsEqual()
[all …]
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| H A D | RingFqLog.C | 272 RingElemRawPtr RingFqLogImpl::myNew(ConstRawPtr rawy) const in myNew() argument
275 *ans = import(rawy); in myNew()
286 void RingFqLogImpl::mySwap(RawPtr rawx, RawPtr rawy) const in mySwap() argument
288 std::swap(import(rawx), import(rawy)); in mySwap()
330 import(rawlhs) = myImpl.myAdd(import(rawx), import(rawy)); in myAdd()
336 import(rawlhs) = myImpl.mySub(import(rawx), import(rawy)); in mySub()
342 import(rawlhs) = myImpl.myMul(import(rawx), import(rawy)); in myMul()
348 CoCoA_ASSERT(!myIsZero(rawy)); in myDiv()
355 if (myIsZero(rawy)) return false; in myIsDivisible()
369 myGcdInField(rawlhs, rawx, rawy); in myGcd()
[all …]
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| H A D | FractionField.C | 402 void FractionFieldImpl::mySwap(RawPtr rawx, RawPtr rawy) const in mySwap() argument
404 myBaseRingValue->mySwap(RefNum(rawx), RefNum(rawy)); in mySwap()
405 myBaseRingValue->mySwap(RefDen(rawx), RefDen(rawy)); in mySwap()
455 myBaseRingValue->myIsOne(RefDen(rawy))) in myAdd()
475 myBaseRingValue->myIsOne(RefDen(rawy))) in mySub()
512 CoCoA_ASSERT(!myBaseRingValue->myIsZero(RefNum(rawy))); in myDiv()
532 if (myBaseRingValue->myIsZero(RefNum(rawy))) return false; in myIsDivisible()
533 myDiv(rawlhs, rawx, rawy); in myIsDivisible()
546 myGcdInField(rawlhs, rawx, rawy); in myGcd()
722 if (myBaseRingValue->myIsEqual(RefNum(rawx), RefNum(rawy)) && in myIsEqual()
[all …]
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| H A D | RingFqVec.C | 278 RingElemRawPtr RingFqVecImpl::myNew(ConstRawPtr rawy) const in myNew() argument
292 void RingFqVecImpl::mySwap(RawPtr rawx, RawPtr rawy) const in mySwap() argument
295 std::swap(import(rawx)[i], import(rawy)[i]); in mySwap()
344 myImpl.myAdd(import(rawlhs), import(rawx), import(rawy)); in myAdd()
350 myImpl.mySub(import(rawlhs), import(rawx), import(rawy)); in mySub()
356 myImpl.myMul(import(rawlhs), import(rawx), import(rawy)); in myMul()
362 CoCoA_ASSERT(!myIsZero(rawy)); in myDiv()
363 myImpl.myDiv(import(rawlhs), import(rawx), import(rawy)); in myDiv()
369 if (import(rawy) == 0) return false; in myIsDivisible()
383 myGcdInField(rawlhs, rawx, rawy); in myGcd()
[all …]
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| H A D | RingZZ.C | 326 void RingZZImpl::mySwap(RawPtr rawx, RawPtr rawy) const in mySwap() argument
328 mpz_swap(import(rawx), import(rawy)); in mySwap()
372 mpz_add(import(rawlhs), import(rawx), import(rawy)); in myAdd()
378 mpz_sub(import(rawlhs), import(rawx), import(rawy)); in mySub()
384 mpz_mul(import(rawlhs), import(rawx), import(rawy)); in myMul()
390 CoCoA_ASSERT(!myIsZero(rawy)); in myDiv()
397 if (myIsZero(rawy)) return false; in myIsDivisible()
420 mpz_gcd(import(rawlhs), import(rawx), import(rawy)); in myGcd()
546 return mpz_cmp(import(rawx), import(rawy)) == 0; in myIsEqual()
552 return sign(mpz_cmp(import(rawx), import(rawy))); in myCmp()
[all …]
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| H A D | RingTwinFloat.C | 427 MultipleFloat_t rhs(import(rawy)); in mySwap()
507 if (myIsZero(rawx)) { myAssign(rawlhs, rawy); return; } in myAdd()
511 ConstMultipleFloat_t c(import(rawy)); in myAdd()
541 ConstMultipleFloat_t c(import(rawy)); in mySub()
572 ConstMultipleFloat_t c(import(rawy)); in myMul()
582 CoCoA_ASSERT(!myIsZero(rawy)); in myDiv()
587 ConstMultipleFloat_t c(import(rawy)); in myDiv()
597 if (myIsZero(rawy)) return false; in myIsDivisible()
1008 ConstMultipleFloat_t b(import(rawy)); in myCmp()
1172 CoCoA_ASSERT(!myIsZero(rawx) && !myIsZero(rawy)); in myIsEqualNZIgnoreSign()
[all …]
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| H A D | QuotientRing.C | 365 void GeneralQuotientRingImpl::mySwap(RawPtr rawx, RawPtr rawy) const in mySwap() argument
367 myReprRing->mySwap(rawx, rawy); in mySwap()
413 myReprRing->myAdd(rawlhs, rawx, rawy); in myAdd()
420 myReprRing->mySub(rawlhs, rawx, rawy); in mySub()
427 myReprRing->myMul(rawlhs, rawx, rawy); in myMul()
435 RingElem Y = myCanonicalRepr(rawy); in myDiv()
445 if (myIsOne(rawy)) { myAssign(rawlhs, rawx); return true; } in myIsDivisible()
447 const RingElem Y = myCanonicalRepr(rawy); in myIsDivisible()
483 if (IamField()) { myGcdInField(rawlhs, rawx, rawy); return; } in myGcd()
616 bool GeneralQuotientRingImpl::myIsEqual(ConstRawPtr rawx, ConstRawPtr rawy) const in myIsEqual() argument
[all …]
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| /dports/math/cocoalib/CoCoALib-0.99712/src/AlgebraicCore/ |
| H A D | RingFp.C | 273 RingElemRawPtr RingFpImpl::myNew(ConstRawPtr rawy) const in myNew() argument
276 new(ans) value_t(import(rawy)); in myNew()
288 void RingFpImpl::mySwap(RawPtr rawx, RawPtr rawy) const in mySwap() argument
290 std::swap(import(rawx), import(rawy)); in mySwap()
332 import(rawlhs) = myImpl.myAdd(import(rawx), import(rawy)); in myAdd()
338 import(rawlhs) = myImpl.mySub(import(rawx), import(rawy)); in mySub()
344 import(rawlhs) = myImpl.myMul(import(rawx), import(rawy)); in myMul()
350 CoCoA_ASSERT(!myIsZero(rawy)); in myDiv()
357 if (IsZero(import(rawy))) return false; in myIsDivisible()
371 myGcdInField(rawlhs, rawx, rawy); in myGcd()
[all …]
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| H A D | RingFpDouble.C | 104 virtual void mySwap(RawPtr rawx, RawPtr rawy) const;
280 *ans = import(rawy); in myNew()
293 std::swap(import(rawx), import(rawy)); in mySwap()
335 import(rawlhs) = myImpl.myAdd(import(rawx), import(rawy)); in myAdd()
341 import(rawlhs) = myImpl.mySub(import(rawx), import(rawy)); in mySub()
347 import(rawlhs) = myImpl.myMul(import(rawx), import(rawy)); in myMul()
353 CoCoA_ASSERT(!myIsZero(rawy)); in myDiv()
360 if (myIsZero(rawy)) return false; in myIsDivisible()
361 myDiv(rawlhs, rawx, rawy); in myIsDivisible()
374 myGcdInField(rawlhs, rawx, rawy); in myGcd()
[all …]
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| H A D | RingFpLog.C | 268 RingElemRawPtr RingFpLogImpl::myNew(ConstRawPtr rawy) const in myNew() argument
271 *ans = import(rawy); in myNew()
282 void RingFpLogImpl::mySwap(RawPtr rawx, RawPtr rawy) const in mySwap() argument
284 std::swap(import(rawx), import(rawy)); in mySwap()
326 import(rawlhs) = myImpl.myAdd(import(rawx), import(rawy)); in myAdd()
332 import(rawlhs) = myImpl.mySub(import(rawx), import(rawy)); in mySub()
344 CoCoA_ASSERT(!myIsZero(rawy)); in myDiv()
351 if (myIsZero(rawy)) return false; in myIsDivisible()
352 myDiv(rawlhs, rawx, rawy); in myIsDivisible()
365 myGcdInField(rawlhs, rawx, rawy); in myGcd()
[all …]
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| H A D | RingQQ.C | 247 mpq_swap(import(rawx), import(rawy)); in mySwap()
297 mpq_add(import(rawlhs), import(rawx), import(rawy)); in myAdd()
303 mpq_sub(import(rawlhs), import(rawx), import(rawy)); in mySub()
309 mpq_mul(import(rawlhs), import(rawx), import(rawy)); in myMul()
315 CoCoA_ASSERT(!myIsZero(rawy)); in myDiv()
316 mpq_div(import(rawlhs), import(rawx), import(rawy)); in myDiv()
322 if (myIsZero(rawy)) return false; in myIsDivisible()
323 mpq_div(import(rawlhs), import(rawx), import(rawy)); in myIsDivisible()
336 myGcdInField(rawlhs, rawx, rawy); in myGcd()
459 return mpq_cmp(import(rawx), import(rawy)) == 0; in myIsEqual()
[all …]
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| H A D | RingFqLog.C | 272 RingElemRawPtr RingFqLogImpl::myNew(ConstRawPtr rawy) const in myNew() argument
275 *ans = import(rawy); in myNew()
286 void RingFqLogImpl::mySwap(RawPtr rawx, RawPtr rawy) const in mySwap() argument
288 std::swap(import(rawx), import(rawy)); in mySwap()
330 import(rawlhs) = myImpl.myAdd(import(rawx), import(rawy)); in myAdd()
336 import(rawlhs) = myImpl.mySub(import(rawx), import(rawy)); in mySub()
342 import(rawlhs) = myImpl.myMul(import(rawx), import(rawy)); in myMul()
348 CoCoA_ASSERT(!myIsZero(rawy)); in myDiv()
355 if (myIsZero(rawy)) return false; in myIsDivisible()
369 myGcdInField(rawlhs, rawx, rawy); in myGcd()
[all …]
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| H A D | FractionField.C | 402 void FractionFieldImpl::mySwap(RawPtr rawx, RawPtr rawy) const in mySwap() argument
404 myBaseRingValue->mySwap(RefNum(rawx), RefNum(rawy)); in mySwap()
405 myBaseRingValue->mySwap(RefDen(rawx), RefDen(rawy)); in mySwap()
455 myBaseRingValue->myIsOne(RefDen(rawy))) in myAdd()
475 myBaseRingValue->myIsOne(RefDen(rawy))) in mySub()
512 CoCoA_ASSERT(!myBaseRingValue->myIsZero(RefNum(rawy))); in myDiv()
532 if (myBaseRingValue->myIsZero(RefNum(rawy))) return false; in myIsDivisible()
533 myDiv(rawlhs, rawx, rawy); in myIsDivisible()
546 myGcdInField(rawlhs, rawx, rawy); in myGcd()
722 if (myBaseRingValue->myIsEqual(RefNum(rawx), RefNum(rawy)) && in myIsEqual()
[all …]
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| H A D | RingFqVec.C | 278 RingElemRawPtr RingFqVecImpl::myNew(ConstRawPtr rawy) const in myNew() argument
292 void RingFqVecImpl::mySwap(RawPtr rawx, RawPtr rawy) const in mySwap() argument
295 std::swap(import(rawx)[i], import(rawy)[i]); in mySwap()
344 myImpl.myAdd(import(rawlhs), import(rawx), import(rawy)); in myAdd()
350 myImpl.mySub(import(rawlhs), import(rawx), import(rawy)); in mySub()
356 myImpl.myMul(import(rawlhs), import(rawx), import(rawy)); in myMul()
362 CoCoA_ASSERT(!myIsZero(rawy)); in myDiv()
363 myImpl.myDiv(import(rawlhs), import(rawx), import(rawy)); in myDiv()
369 if (import(rawy) == 0) return false; in myIsDivisible()
383 myGcdInField(rawlhs, rawx, rawy); in myGcd()
[all …]
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| H A D | RingZZ.C | 326 void RingZZImpl::mySwap(RawPtr rawx, RawPtr rawy) const in mySwap() argument
328 mpz_swap(import(rawx), import(rawy)); in mySwap()
372 mpz_add(import(rawlhs), import(rawx), import(rawy)); in myAdd()
378 mpz_sub(import(rawlhs), import(rawx), import(rawy)); in mySub()
384 mpz_mul(import(rawlhs), import(rawx), import(rawy)); in myMul()
390 CoCoA_ASSERT(!myIsZero(rawy)); in myDiv()
397 if (myIsZero(rawy)) return false; in myIsDivisible()
420 mpz_gcd(import(rawlhs), import(rawx), import(rawy)); in myGcd()
546 return mpz_cmp(import(rawx), import(rawy)) == 0; in myIsEqual()
552 return sign(mpz_cmp(import(rawx), import(rawy))); in myCmp()
[all …]
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| H A D | RingTwinFloat.C | 427 MultipleFloat_t rhs(import(rawy)); in mySwap()
507 if (myIsZero(rawx)) { myAssign(rawlhs, rawy); return; } in myAdd()
511 ConstMultipleFloat_t c(import(rawy)); in myAdd()
541 ConstMultipleFloat_t c(import(rawy)); in mySub()
572 ConstMultipleFloat_t c(import(rawy)); in myMul()
582 CoCoA_ASSERT(!myIsZero(rawy)); in myDiv()
587 ConstMultipleFloat_t c(import(rawy)); in myDiv()
597 if (myIsZero(rawy)) return false; in myIsDivisible()
1008 ConstMultipleFloat_t b(import(rawy)); in myCmp()
1172 CoCoA_ASSERT(!myIsZero(rawx) && !myIsZero(rawy)); in myIsEqualNZIgnoreSign()
[all …]
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| H A D | QuotientRing.C | 365 void GeneralQuotientRingImpl::mySwap(RawPtr rawx, RawPtr rawy) const in mySwap() argument
367 myReprRing->mySwap(rawx, rawy); in mySwap()
413 myReprRing->myAdd(rawlhs, rawx, rawy); in myAdd()
420 myReprRing->mySub(rawlhs, rawx, rawy); in mySub()
427 myReprRing->myMul(rawlhs, rawx, rawy); in myMul()
435 RingElem Y = myCanonicalRepr(rawy); in myDiv()
445 if (myIsOne(rawy)) { myAssign(rawlhs, rawx); return true; } in myIsDivisible()
447 const RingElem Y = myCanonicalRepr(rawy); in myIsDivisible()
483 if (IamField()) { myGcdInField(rawlhs, rawx, rawy); return; } in myGcd()
616 bool GeneralQuotientRingImpl::myIsEqual(ConstRawPtr rawx, ConstRawPtr rawy) const in myIsEqual() argument
[all …]
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| /dports/misc/rump/buildrump.sh-b914579/src/sys/dev/wscons/ |
| H A D | tpcalib.c | 73 tpcalib_trans(struct tpcalib_softc *sc, int rawx, int rawy, int *x, int *y) in tpcalib_trans() argument
78 *y = rawy; in tpcalib_trans()
80 *x = (sc->sc_ax * rawx + sc->sc_bx * rawy) / SCALE + sc->sc_cx; in tpcalib_trans()
81 *y = (sc->sc_ay * rawx + sc->sc_by * rawy) / SCALE + sc->sc_cy; in tpcalib_trans()
107 &d->samples[0].rawy, s, in tpcalib_ioctl()
112 &d->samples[0].rawy, s, in tpcalib_ioctl()
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