From: Michel Dänzer Date: Fri, 10 Apr 2020 14:01:17 +0000 (+0200) Subject: amd/addrlib: Use enum instead of sparse chars to identify dimensions X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=e3e704c7e7e46dfda820ea2e96fa4a32d63ef796;p=mesa.git amd/addrlib: Use enum instead of sparse chars to identify dimensions The enum values can be used directly as indices into arrays, simplifying the code. This significantly cuts down the number of CPU cycles spent inside * Addr::V2::Gfx9Lib::HwlComputeDccAddrFromCoord: +------------------------------------------------------------------------+ |+ +++ + x x xx| | |_____AM____| |_A__|| +------------------------------------------------------------------------+ N Min Max Median Avg Stddev x 5 14.89 15.44 15.14 15.156 0.24704251 + 5 8.26 9.96 9.37 9.282 0.6262747 Difference at 95.0% confidence -5.874 +/- 0.694294 -38.7569% +/- 4.58098% (Student's t, pooled s = 0.476051) * Addr::V2::CoordEq::solve: +------------------------------------------------------------------------+ | + x | | + + + + x x x x| ||__MA____| |______A__M____|| +------------------------------------------------------------------------+ N Min Max Median Avg Stddev x 5 8.11 9.59 9.21 9.02 0.55605755 + 5 4.28 5.05 4.48 4.564 0.32867917 Difference at 95.0% confidence -4.456 +/- 0.666135 -49.4013% +/- 7.38509% (Student's t, pooled s = 0.456744) (The measured numbers are the percentages of samples inside the respective function and its calles for `perf record --call-graph=fp kitty -e false`, measured on a Lenovo Thinkpad E595 (Picasso)) v2: * Add missed 'coords[dim] |= bit << ord;' (Pierre-Eric Pelloux-Prayer) * Put 'ADDR_ASSERT(dim < DIM_S);' where the code previous had 'ADDR_ASSERT_ALWAYS()' for the s/m dimensions. * Use 1u for BitsValid (since it's 32-bit unsigned values). * Use parens in 'BitsValid[dim] & (1u << ord)' for clarity. Acked-by: Marek Olšák # v1 Reviewed-by: Pierre-Eric Pelloux-Prayer Part-of: --- diff --git a/src/amd/addrlib/src/core/coord.cpp b/src/amd/addrlib/src/core/coord.cpp index 5aa3795798f..b46149e7f83 100644 --- a/src/amd/addrlib/src/core/coord.cpp +++ b/src/amd/addrlib/src/core/coord.cpp @@ -36,38 +36,29 @@ namespace V2 Coordinate::Coordinate() { - dim = 'x'; + dim = DIM_X; ord = 0; } -Coordinate::Coordinate(INT_8 c, INT_32 n) +Coordinate::Coordinate(enum Dim dim, INT_32 n) { - set(c, n); + set(dim, n); } -VOID Coordinate::set(INT_8 c, INT_32 n) +VOID Coordinate::set(enum Dim d, INT_32 n) { - dim = c; + dim = d; ord = static_cast(n); } -UINT_32 Coordinate::ison(UINT_32 x, UINT_32 y, UINT_32 z, UINT_32 s, UINT_32 m) const +UINT_32 Coordinate::ison(const UINT_32 *coords) const { UINT_32 bit = static_cast(1ull << static_cast(ord)); - UINT_32 out = 0; - switch (dim) - { - case 'm': out = m & bit; break; - case 's': out = s & bit; break; - case 'x': out = x & bit; break; - case 'y': out = y & bit; break; - case 'z': out = z & bit; break; - } - return (out != 0) ? 1 : 0; + return (coords[dim] & bit) ? 1 : 0; } -INT_8 Coordinate::getdim() +enum Dim Coordinate::getdim() { return dim; } @@ -240,12 +231,12 @@ UINT_32 CoordTerm::getsize() return num_coords; } -UINT_32 CoordTerm::getxor(UINT_32 x, UINT_32 y, UINT_32 z, UINT_32 s, UINT_32 m) const +UINT_32 CoordTerm::getxor(const UINT_32 *coords) const { UINT_32 out = 0; for (UINT_32 i = 0; i < num_coords; i++) { - out = out ^ m_coord[i].ison(x, y, z, s, m); + out = out ^ m_coord[i].ison(coords); } return out; } @@ -255,14 +246,14 @@ VOID CoordTerm::getsmallest(Coordinate& co) co = m_coord[0]; } -UINT_32 CoordTerm::Filter(INT_8 f, Coordinate& co, UINT_32 start, INT_8 axis) +UINT_32 CoordTerm::Filter(INT_8 f, Coordinate& co, UINT_32 start, enum Dim axis) { for (UINT_32 i = start; i < num_coords;) { if (((f == '<' && m_coord[i] < co) || (f == '>' && m_coord[i] > co) || (f == '=' && m_coord[i] == co)) && - (axis == '\0' || axis == m_coord[i].getdim())) + (axis == NUM_DIMS || axis == m_coord[i].getdim())) { for (UINT_32 j = i; j < num_coords - 1; j++) { @@ -311,37 +302,12 @@ BOOL_32 CoordTerm::operator!=(const CoordTerm& b) return !(*this == b); } -BOOL_32 CoordTerm::exceedRange(UINT_32 xRange, UINT_32 yRange, UINT_32 zRange, UINT_32 sRange) +BOOL_32 CoordTerm::exceedRange(const UINT_32 *ranges) { BOOL_32 exceed = FALSE; for (UINT_32 i = 0; (i < num_coords) && (exceed == FALSE); i++) { - UINT_32 subject; - switch (m_coord[i].getdim()) - { - case 'x': - subject = xRange; - break; - case 'y': - subject = yRange; - break; - case 'z': - subject = zRange; - break; - case 's': - subject = sRange; - break; - case 'm': - subject = 0; - break; - default: - // Invalid input! - ADDR_ASSERT_ALWAYS(); - subject = 0; - break; - } - - exceed = ((1u << m_coord[i].getord()) <= subject); + exceed = ((1u << m_coord[i].getord()) <= ranges[m_coord[i].getdim()]); } return exceed; @@ -392,32 +358,25 @@ UINT_32 CoordEq::getsize() return m_numBits; } -UINT_64 CoordEq::solve(UINT_32 x, UINT_32 y, UINT_32 z, UINT_32 s, UINT_32 m) const +UINT_64 CoordEq::solve(const UINT_32 *coords) const { UINT_64 out = 0; for (UINT_32 i = 0; i < m_numBits; i++) { - if (m_eq[i].getxor(x, y, z, s, m) != 0) - { - out |= (1ULL << i); - } + out |= static_cast(m_eq[i].getxor(coords)) << i; } return out; } VOID CoordEq::solveAddr( UINT_64 addr, UINT_32 sliceInM, - UINT_32& x, UINT_32& y, UINT_32& z, UINT_32& s, UINT_32& m) const + UINT_32 *coords) const { - UINT_32 xBitsValid = 0; - UINT_32 yBitsValid = 0; - UINT_32 zBitsValid = 0; - UINT_32 sBitsValid = 0; - UINT_32 mBitsValid = 0; + UINT_32 BitsValid[NUM_DIMS] = {0}; CoordEq temp = *this; - x = y = z = s = m = 0; + memset(coords, 0, NUM_DIMS * sizeof(coords[0])); UINT_32 bitsLeft = 0; @@ -428,36 +387,13 @@ VOID CoordEq::solveAddr( if (termSize == 1) { INT_8 bit = (addr >> i) & 1; - INT_8 dim = temp.m_eq[i][0].getdim(); + enum Dim dim = temp.m_eq[i][0].getdim(); INT_8 ord = temp.m_eq[i][0].getord(); ADDR_ASSERT((ord < 32) || (bit == 0)); - switch (dim) - { - case 'x': - xBitsValid |= (1 << ord); - x |= (bit << ord); - break; - case 'y': - yBitsValid |= (1 << ord); - y |= (bit << ord); - break; - case 'z': - zBitsValid |= (1 << ord); - z |= (bit << ord); - break; - case 's': - sBitsValid |= (1 << ord); - s |= (bit << ord); - break; - case 'm': - mBitsValid |= (1 << ord); - m |= (bit << ord); - break; - default: - break; - } + BitsValid[dim] |= 1u << ord; + coords[dim] |= bit << ord; temp.m_eq[i].Clear(); } @@ -471,8 +407,8 @@ VOID CoordEq::solveAddr( { if (sliceInM != 0) { - z = m / sliceInM; - zBitsValid = 0xffffffff; + coords[DIM_Z] = coords[DIM_M] / sliceInM; + BitsValid[DIM_Z] = 0xffffffff; } do @@ -486,34 +422,14 @@ VOID CoordEq::solveAddr( if (termSize == 1) { INT_8 bit = (addr >> i) & 1; - INT_8 dim = temp.m_eq[i][0].getdim(); + enum Dim dim = temp.m_eq[i][0].getdim(); INT_8 ord = temp.m_eq[i][0].getord(); ADDR_ASSERT((ord < 32) || (bit == 0)); + ADDR_ASSERT(dim < DIM_S); - switch (dim) - { - case 'x': - xBitsValid |= (1 << ord); - x |= (bit << ord); - break; - case 'y': - yBitsValid |= (1 << ord); - y |= (bit << ord); - break; - case 'z': - zBitsValid |= (1 << ord); - z |= (bit << ord); - break; - case 's': - ADDR_ASSERT_ALWAYS(); - break; - case 'm': - ADDR_ASSERT_ALWAYS(); - break; - default: - break; - } + BitsValid[dim] |= 1u << ord; + coords[dim] |= bit << ord; temp.m_eq[i].Clear(); } @@ -523,43 +439,16 @@ VOID CoordEq::solveAddr( for (UINT_32 j = 0; j < termSize; j++) { - INT_8 dim = temp.m_eq[i][j].getdim(); + enum Dim dim = temp.m_eq[i][j].getdim(); INT_8 ord = temp.m_eq[i][j].getord(); - switch (dim) + ADDR_ASSERT(dim < DIM_S); + + if (BitsValid[dim] & (1u << ord)) { - case 'x': - if (xBitsValid & (1 << ord)) - { - UINT_32 v = (((x >> ord) & 1) << i); - addr ^= static_cast(v); - tmpTerm.remove(temp.m_eq[i][j]); - } - break; - case 'y': - if (yBitsValid & (1 << ord)) - { - UINT_32 v = (((y >> ord) & 1) << i); - addr ^= static_cast(v); - tmpTerm.remove(temp.m_eq[i][j]); - } - break; - case 'z': - if (zBitsValid & (1 << ord)) - { - UINT_32 v = (((z >> ord) & 1) << i); - addr ^= static_cast(v); - tmpTerm.remove(temp.m_eq[i][j]); - } - break; - case 's': - ADDR_ASSERT_ALWAYS(); - break; - case 'm': - ADDR_ASSERT_ALWAYS(); - break; - default: - break; + UINT_32 v = (((coords[dim] >> ord) & 1) << i); + addr ^= static_cast(v); + tmpTerm.remove(temp.m_eq[i][j]); } } @@ -603,7 +492,7 @@ VOID CoordEq::xorin(CoordEq& x, UINT_32 start) } } -UINT_32 CoordEq::Filter(INT_8 f, Coordinate& co, UINT_32 start, INT_8 axis) +UINT_32 CoordEq::Filter(INT_8 f, Coordinate& co, UINT_32 start, enum Dim axis) { for (UINT_32 i = start; i < m_numBits;) { diff --git a/src/amd/addrlib/src/core/coord.h b/src/amd/addrlib/src/core/coord.h index 72e93e0a187..c14bf7b0d47 100644 --- a/src/amd/addrlib/src/core/coord.h +++ b/src/amd/addrlib/src/core/coord.h @@ -34,15 +34,25 @@ namespace Addr namespace V2 { +enum Dim +{ + DIM_X, + DIM_Y, + DIM_Z, + DIM_S, + DIM_M, + NUM_DIMS +}; + class Coordinate { public: Coordinate(); - Coordinate(INT_8 c, INT_32 n); + Coordinate(enum Dim dim, INT_32 n); - VOID set(INT_8 c, INT_32 n); - UINT_32 ison(UINT_32 x, UINT_32 y, UINT_32 z = 0, UINT_32 s = 0, UINT_32 m = 0) const; - INT_8 getdim(); + VOID set(enum Dim dim, INT_32 n); + UINT_32 ison(const UINT_32 *coords) const; + enum Dim getdim(); INT_8 getord(); BOOL_32 operator==(const Coordinate& b); @@ -54,7 +64,7 @@ public: Coordinate& operator++(INT_32); private: - INT_8 dim; + enum Dim dim; INT_8 ord; }; @@ -69,14 +79,14 @@ public: BOOL_32 Exists(Coordinate& co); VOID copyto(CoordTerm& cl); UINT_32 getsize(); - UINT_32 getxor(UINT_32 x, UINT_32 y, UINT_32 z = 0, UINT_32 s = 0, UINT_32 m = 0) const; + UINT_32 getxor(const UINT_32 *coords) const; VOID getsmallest(Coordinate& co); - UINT_32 Filter(INT_8 f, Coordinate& co, UINT_32 start = 0, INT_8 axis = '\0'); + UINT_32 Filter(INT_8 f, Coordinate& co, UINT_32 start = 0, enum Dim axis = NUM_DIMS); Coordinate& operator[](UINT_32 i); BOOL_32 operator==(const CoordTerm& b); BOOL_32 operator!=(const CoordTerm& b); - BOOL_32 exceedRange(UINT_32 xRange, UINT_32 yRange = 0, UINT_32 zRange = 0, UINT_32 sRange = 0); + BOOL_32 exceedRange(const UINT_32 *ranges); private: static const UINT_32 MaxCoords = 8; @@ -92,14 +102,14 @@ public: BOOL_32 Exists(Coordinate& co); VOID resize(UINT_32 n); UINT_32 getsize(); - virtual UINT_64 solve(UINT_32 x, UINT_32 y, UINT_32 z = 0, UINT_32 s = 0, UINT_32 m = 0) const; + virtual UINT_64 solve(const UINT_32 *coords) const; virtual VOID solveAddr(UINT_64 addr, UINT_32 sliceInM, - UINT_32& x, UINT_32& y, UINT_32& z, UINT_32& s, UINT_32& m) const; + UINT_32 *coords) const; VOID copy(CoordEq& o, UINT_32 start = 0, UINT_32 num = 0xFFFFFFFF); VOID reverse(UINT_32 start = 0, UINT_32 num = 0xFFFFFFFF); VOID xorin(CoordEq& x, UINT_32 start = 0); - UINT_32 Filter(INT_8 f, Coordinate& co, UINT_32 start = 0, INT_8 axis = '\0'); + UINT_32 Filter(INT_8 f, Coordinate& co, UINT_32 start = 0, enum Dim axis = NUM_DIMS); VOID shift(INT_32 amount, INT_32 start = 0); virtual CoordTerm& operator[](UINT_32 i); VOID mort2d(Coordinate& c0, Coordinate& c1, UINT_32 start = 0, UINT_32 end = 0); diff --git a/src/amd/addrlib/src/gfx9/gfx9addrlib.cpp b/src/amd/addrlib/src/gfx9/gfx9addrlib.cpp index 8d2b5700c4d..ece83592fc9 100644 --- a/src/amd/addrlib/src/gfx9/gfx9addrlib.cpp +++ b/src/amd/addrlib/src/gfx9/gfx9addrlib.cpp @@ -799,7 +799,8 @@ ADDR_E_RETURNCODE Gfx9Lib::HwlComputeCmaskAddrFromCoord( UINT_32 sliceSizeInBlock = (output.height / output.metaBlkHeight) * pitchInBlock; UINT_32 blockIndex = zb * sliceSizeInBlock + yb * pitchInBlock + xb; - UINT_64 address = pMetaEq->solve(pIn->x, pIn->y, pIn->slice, 0, blockIndex); + UINT_32 coords[] = { pIn->x, pIn->y, pIn->slice, 0, blockIndex }; + UINT_64 address = pMetaEq->solve(coords); pOut->addr = address >> 1; pOut->bitPosition = static_cast((address & 1) << 2); @@ -874,7 +875,8 @@ ADDR_E_RETURNCODE Gfx9Lib::HwlComputeHtileAddrFromCoord( UINT_32 sliceSizeInBlock = (output.height / output.metaBlkHeight) * pitchInBlock; UINT_32 blockIndex = zb * sliceSizeInBlock + yb * pitchInBlock + xb; - UINT_64 address = pMetaEq->solve(pIn->x, pIn->y, pIn->slice, 0, blockIndex); + UINT_32 coords[] = { pIn->x, pIn->y, pIn->slice, 0, blockIndex }; + UINT_64 address = pMetaEq->solve(coords); pOut->addr = address >> 1; @@ -950,12 +952,12 @@ ADDR_E_RETURNCODE Gfx9Lib::HwlComputeHtileCoordFromAddr( UINT_32 pitchInBlock = output.pitch / output.metaBlkWidth; UINT_32 sliceSizeInBlock = (output.height / output.metaBlkHeight) * pitchInBlock; - UINT_32 x, y, z, s, m; - pMetaEq->solveAddr(nibbleAddress, sliceSizeInBlock, x, y, z, s, m); + UINT_32 coords[NUM_DIMS]; + pMetaEq->solveAddr(nibbleAddress, sliceSizeInBlock, coords); - pOut->slice = m / sliceSizeInBlock; - pOut->y = ((m % sliceSizeInBlock) / pitchInBlock) * output.metaBlkHeight + y; - pOut->x = (m % pitchInBlock) * output.metaBlkWidth + x; + pOut->slice = coords[DIM_M] / sliceSizeInBlock; + pOut->y = ((coords[DIM_M] % sliceSizeInBlock) / pitchInBlock) * output.metaBlkHeight + coords[DIM_Y]; + pOut->x = (coords[DIM_M] % pitchInBlock) * output.metaBlkWidth + coords[DIM_X]; } } @@ -1029,7 +1031,8 @@ ADDR_E_RETURNCODE Gfx9Lib::HwlComputeDccAddrFromCoord( UINT_32 sliceSizeInBlock = (output.height / output.metaBlkHeight) * pitchInBlock; UINT_32 blockIndex = zb * sliceSizeInBlock + yb * pitchInBlock + xb; - UINT_64 address = pMetaEq->solve(pIn->x, pIn->y, pIn->slice, pIn->sample, blockIndex); + UINT_32 coords[] = { pIn->x, pIn->y, pIn->slice, pIn->sample, blockIndex }; + UINT_64 address = pMetaEq->solve(coords); pOut->addr = address >> 1; @@ -1343,8 +1346,8 @@ VOID Gfx9Lib::GetRbEquation( { // RB's are distributed on 16x16, except when we have 1 rb per se, in which case its 32x32 UINT_32 rbRegion = (numRbPerSeLog2 == 0) ? 5 : 4; - Coordinate cx('x', rbRegion); - Coordinate cy('y', rbRegion); + Coordinate cx(DIM_X, rbRegion); + Coordinate cy(DIM_Y, rbRegion); UINT_32 start = 0; UINT_32 numRbTotalLog2 = numRbPerSeLog2 + numSeLog2; @@ -1409,10 +1412,10 @@ VOID Gfx9Lib::GetDataEquation( UINT_32 numSamplesLog2) ///< [in] data surface sample count const { - Coordinate cx('x', 0); - Coordinate cy('y', 0); - Coordinate cz('z', 0); - Coordinate cs('s', 0); + Coordinate cx(DIM_X, 0); + Coordinate cy(DIM_Y, 0); + Coordinate cz(DIM_Z, 0); + Coordinate cs(DIM_S, 0); // Clear the equation pDataEq->resize(0); @@ -1422,7 +1425,7 @@ VOID Gfx9Lib::GetDataEquation( { if (IsLinear(swizzleMode)) { - Coordinate cm('m', 0); + Coordinate cm(DIM_M, 0); pDataEq->resize(49); @@ -1548,7 +1551,7 @@ VOID Gfx9Lib::GetDataEquation( // Fill in sample bits for (i = 0; i < numSamplesLog2; i++) { - cs.set('s', i); + cs.set(DIM_S, i); (*pDataEq)[tileSplitStart + i].add(cs); } // Fill in x/y bits above sample split @@ -1575,7 +1578,7 @@ VOID Gfx9Lib::GetDataEquation( for (UINT_32 s = 0; s < numSamplesLog2; s++) { - cs.set('s', s); + cs.set(DIM_S, s); (*pDataEq)[sampleStart + s].add(cs); } @@ -1627,7 +1630,7 @@ VOID Gfx9Lib::GetPipeEquation( if (dataSurfaceType != Gfx9DataColor) { - Coordinate tileMin('x', 3); + Coordinate tileMin(DIM_X, 3); while (dataEq[pipeInterleaveLog2 + pipeStart][0] < tileMin) { @@ -1687,7 +1690,7 @@ VOID Gfx9Lib::GetPipeEquation( xorMask2.resize(numPipeLog2); for (UINT_32 pipeIdx = 0; pipeIdx < numPipeLog2; pipeIdx++) { - co.set('z', numPipeLog2 - 1 - pipeIdx); + co.set(DIM_Z, numPipeLog2 - 1 - pipeIdx); xorMask2[pipeIdx].add(co); } @@ -1847,9 +1850,9 @@ VOID Gfx9Lib::GenMetaEquation( if (IsThick(resourceType, swizzleMode)) { - Coordinate cx('x', 0); - Coordinate cy('y', 0); - Coordinate cz('z', 0); + Coordinate cx(DIM_X, 0); + Coordinate cy(DIM_Y, 0); + Coordinate cz(DIM_Z, 0); if (maxMip > 0) { @@ -1862,8 +1865,8 @@ VOID Gfx9Lib::GenMetaEquation( } else { - Coordinate cx('x', 0); - Coordinate cy('y', 0); + Coordinate cx(DIM_X, 0); + Coordinate cy(DIM_Y, 0); Coordinate cs; if (maxMip > 0) @@ -1881,7 +1884,7 @@ VOID Gfx9Lib::GenMetaEquation( //------------------------------------------------------------------------------------------------------------------------ for (UINT_32 s = 0; s < compFragLog2; s++) { - cs.set('s', s); + cs.set(DIM_S, s); (*pMetaEq)[s].add(cs); } } @@ -1892,35 +1895,35 @@ VOID Gfx9Lib::GenMetaEquation( Coordinate co; // filter out everything under the compressed block size - co.set('x', compBlkWidthLog2); - pMetaEq->Filter('<', co, 0, 'x'); - co.set('y', compBlkHeightLog2); - pMetaEq->Filter('<', co, 0, 'y'); - co.set('z', compBlkDepthLog2); - pMetaEq->Filter('<', co, 0, 'z'); + co.set(DIM_X, compBlkWidthLog2); + pMetaEq->Filter('<', co, 0, DIM_X); + co.set(DIM_Y, compBlkHeightLog2); + pMetaEq->Filter('<', co, 0, DIM_Y); + co.set(DIM_Z, compBlkDepthLog2); + pMetaEq->Filter('<', co, 0, DIM_Z); // For non-color, filter out sample bits if (dataSurfaceType != Gfx9DataColor) { - co.set('x', 0); - pMetaEq->Filter('<', co, 0, 's'); + co.set(DIM_X, 0); + pMetaEq->Filter('<', co, 0, DIM_S); } // filter out everything above the metablock size - co.set('x', metaBlkWidthLog2 - 1); - pMetaEq->Filter('>', co, 0, 'x'); - co.set('y', metaBlkHeightLog2 - 1); - pMetaEq->Filter('>', co, 0, 'y'); - co.set('z', metaBlkDepthLog2 - 1); - pMetaEq->Filter('>', co, 0, 'z'); + co.set(DIM_X, metaBlkWidthLog2 - 1); + pMetaEq->Filter('>', co, 0, DIM_X); + co.set(DIM_Y, metaBlkHeightLog2 - 1); + pMetaEq->Filter('>', co, 0, DIM_Y); + co.set(DIM_Z, metaBlkDepthLog2 - 1); + pMetaEq->Filter('>', co, 0, DIM_Z); // filter out everything above the metablock size for the channel bits - co.set('x', metaBlkWidthLog2 - 1); - pipeEquation.Filter('>', co, 0, 'x'); - co.set('y', metaBlkHeightLog2 - 1); - pipeEquation.Filter('>', co, 0, 'y'); - co.set('z', metaBlkDepthLog2 - 1); - pipeEquation.Filter('>', co, 0, 'z'); + co.set(DIM_X, metaBlkWidthLog2 - 1); + pipeEquation.Filter('>', co, 0, DIM_X); + co.set(DIM_Y, metaBlkHeightLog2 - 1); + pipeEquation.Filter('>', co, 0, DIM_Y); + co.set(DIM_Z, metaBlkDepthLog2 - 1); + pipeEquation.Filter('>', co, 0, DIM_Z); // Make sure we still have the same number of channel bits if (pipeEquation.getsize() != numPipeTotalLog2) @@ -1963,7 +1966,7 @@ VOID Gfx9Lib::GenMetaEquation( if (m_settings.applyAliasFix) { - co.set('z', -1); + co.set(DIM_Z, -1); } // Loop through each rb id bit; if it is equal to any of the filtered channel bits, clear it @@ -1978,7 +1981,7 @@ VOID Gfx9Lib::GenMetaEquation( CoordTerm filteredPipeEq; filteredPipeEq = pipeEquation[j]; - filteredPipeEq.Filter('>', co, 0, 'z'); + filteredPipeEq.Filter('>', co, 0, DIM_Z); isRbEquationInPipeEquation = (rbEquation[i] == filteredPipeEq); } @@ -2081,7 +2084,7 @@ VOID Gfx9Lib::GenMetaEquation( // Concatenate the macro address above the current address for (UINT_32 i = metaSize, j = 0; i < 49; i++, j++) { - co.set('m', j); + co.set(DIM_M, j); (*pMetaEq)[i].add(co); } @@ -2136,7 +2139,7 @@ VOID Gfx9Lib::GenMetaEquation( //------------------------------------------------------------------------------------------ for (UINT_32 i = 0; i < uncompFragLog2; i++) { - co.set('s', compFragLog2 + i); + co.set(DIM_S, compFragLog2 + i); (*pMetaEq)[pipeInterleaveLog2 + 1 + numPipeTotalLog2 + rbBitsLeft + i].add(co); } }