// Copyright 2023 gRPC authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // This file is autogenerated: see // tools/codegen/core/gen_huffman_decompressor.cc #ifndef GRPC_TEST_CPP_MICROBENCHMARKS_HUFFMAN_GEOMETRIES_DECODE_HUFF_10_10_10_H #define GRPC_TEST_CPP_MICROBENCHMARKS_HUFFMAN_GEOMETRIES_DECODE_HUFF_10_10_10_H #include #include #include namespace grpc_core { namespace geometry_10_10_10 { class HuffDecoderCommon { protected: static inline uint64_t GetOp2(size_t i) { return table2_0_ops_[i]; } static inline uint64_t GetEmit2(size_t, size_t emit) { return table2_0_emit_[emit]; } static inline uint64_t GetOp3(size_t i) { return table3_0_ops_[i]; } static inline uint64_t GetEmit3(size_t, size_t emit) { return table3_0_emit_[emit]; } static inline uint64_t GetOp4(size_t i) { return table4_ops_[i >> 6][i & 0x3f]; } static inline uint64_t GetEmit4(size_t i, size_t emit) { return table4_emit_[i >> 6][emit]; } static inline uint64_t GetOp5(size_t i) { return table5_ops_[i >> 7][i & 0x7f]; } static inline uint64_t GetEmit5(size_t i, size_t emit) { return table5_emit_[i >> 7][emit]; } static inline uint64_t GetOp6(size_t i) { return table6_ops_[i >> 5][i & 0x1f]; } static inline uint64_t GetEmit6(size_t i, size_t emit) { return table6_emit_[i >> 5][emit]; } static inline uint64_t GetOp1(size_t i) { return table1_inner_[i >> 6][table1_outer_[i >> 6][i & 0x3f]]; } static inline uint64_t GetEmit1(size_t i, size_t emit) { return table1_emit_[i >> 6][emit]; } static inline uint64_t GetOp7(size_t i) { return i ? 3 : 1; } static inline uint64_t GetEmit7(size_t, size_t emit) { return emit ? 43 : 39; } static inline uint64_t GetOp9(size_t i) { return table9_0_inner_[i]; } static inline uint64_t GetEmit9(size_t, size_t emit) { return table9_0_emit_[emit]; } static inline uint64_t GetOp10(size_t i) { return table10_0_inner_[table10_0_outer_[i]]; } static inline uint64_t GetEmit10(size_t, size_t emit) { return table10_0_emit_[emit]; } static inline uint64_t GetOp11(size_t i) { return table11_0_ops_[i]; } static inline uint64_t GetEmit11(size_t, size_t emit) { return table11_0_emit_[emit]; } static inline uint64_t GetOp12(size_t i) { return table12_0_ops_[i]; } static inline uint64_t GetEmit12(size_t, size_t emit) { return table11_0_emit_[emit]; } static inline uint64_t GetOp13(size_t i) { return table13_0_ops_[i]; } static inline uint64_t GetEmit13(size_t, size_t emit) { return table11_0_emit_[emit]; } static inline uint64_t GetOp14(size_t i) { return table14_ops_[i >> 6][i & 0x3f]; } static inline uint64_t GetEmit14(size_t i, size_t emit) { return table14_emit_[i >> 6][emit]; } static inline uint64_t GetOp15(size_t i) { return table15_ops_[i >> 6][i & 0x3f]; } static inline uint64_t GetEmit15(size_t i, size_t emit) { return table15_emit_[i >> 6][emit]; } static inline uint64_t GetOp8(size_t i) { return table8_ops_[i >> 6][i & 0x3f]; } static inline uint64_t GetEmit8(size_t i, size_t emit) { return table8_emit_[i >> 6][emit]; } static inline uint64_t GetOp16(size_t i) { return i ? 3 : 1; } static inline uint64_t GetEmit16(size_t, size_t emit) { return emit ? 161 : 153; } static inline uint64_t GetOp17(size_t i) { return i ? 3 : 1; } static inline uint64_t GetEmit17(size_t, size_t emit) { return emit ? 172 : 167; } static inline uint64_t GetOp18(size_t i) { return i ? 3 : 1; } static inline uint64_t GetEmit18(size_t, size_t emit) { return emit + 176; } static inline uint64_t GetOp19(size_t i) { return i ? 3 : 1; } static inline uint64_t GetEmit19(size_t, size_t emit) { return emit ? 209 : 179; } static inline uint64_t GetOp20(size_t i) { return i ? 3 : 1; } static inline uint64_t GetEmit20(size_t, size_t emit) { return emit + 216; } static inline uint64_t GetOp21(size_t i) { return i ? 3 : 1; } static inline uint64_t GetEmit21(size_t, size_t emit) { return emit ? 229 : 227; } static inline uint64_t GetOp22(size_t i) { return (i < 2 ? (i ? 6 : 2) : ((i - 2) ? 14 : 10)); } static inline uint64_t GetEmit22(size_t, size_t emit) { return (emit < 2 ? (emit + 133) : ((emit - 2) ? 146 : 136)); } static inline uint64_t GetOp23(size_t i) { return (i < 2 ? (i ? 6 : 2) : ((i - 2) ? 14 : 10)); } static inline uint64_t GetEmit23(size_t, size_t emit) { return (emit < 2 ? (emit ? 156 : 154) : ((emit - 2) ? 163 : 160)); } static inline uint64_t GetOp24(size_t i) { return (i < 2 ? (i ? 6 : 2) : ((i - 2) ? 14 : 10)); } static inline uint64_t GetEmit24(size_t, size_t emit) { return (emit < 2 ? (emit ? 169 : 164) : ((emit - 2) ? 173 : 170)); } static inline uint64_t GetOp25(size_t i) { return (i < 2 ? (i ? 6 : 2) : ((i - 2) ? 14 : 10)); } static inline uint64_t GetEmit25(size_t, size_t emit) { return (emit < 2 ? (emit ? 181 : 178) : ((emit - 2) + 185)); } static inline uint64_t GetOp26(size_t i) { return (i < 2 ? (i ? 6 : 2) : ((i - 2) ? 14 : 10)); } static inline uint64_t GetEmit26(size_t, size_t emit) { return (emit < 2 ? (emit ? 189 : 187) : ((emit - 2) ? 196 : 190)); } static inline uint64_t GetOp27(size_t i) { return (i < 2 ? (i ? 6 : 2) : ((i - 2) ? 14 : 10)); } static inline uint64_t GetEmit27(size_t, size_t emit) { return (emit < 2 ? (emit ? 228 : 198) : ((emit - 2) + 232)); } static inline uint64_t GetOp28(size_t i) { return table28_0_inner_[i]; } static inline uint64_t GetEmit28(size_t, size_t emit) { return table28_0_emit_[emit]; } static inline uint64_t GetOp29(size_t i) { return table28_0_inner_[i]; } static inline uint64_t GetEmit29(size_t, size_t emit) { return table29_0_emit_[emit]; } static inline uint64_t GetOp30(size_t i) { return table28_0_inner_[i]; } static inline uint64_t GetEmit30(size_t, size_t emit) { return table30_0_emit_[emit]; } static inline uint64_t GetOp32(size_t i) { return i; } static inline uint64_t GetEmit32(size_t, size_t emit) { return ((void)emit, 230); } static inline uint64_t GetOp31(size_t i) { return ((i < 1 ? (((void)i, 0)) : ((i - 1))) < 1 ? (((void)(i < 1 ? (((void)i, 0)) : ((i - 1))), 1)) : (((i < 1 ? (((void)i, 0)) : ((i - 1))) - 1) ? 10 : 6)); } static inline uint64_t GetEmit31(size_t, size_t emit) { return (emit < 1 ? (((void)emit, 230)) : ((emit - 1) ? 132 : 129)); } static inline uint64_t GetOp34(size_t i) { return table34_0_inner_[(i < 5 ? (i) : (((void)(i - 5), 5)))]; } static inline uint64_t GetEmit34(size_t, size_t emit) { return table34_0_emit_[emit]; } static inline uint64_t GetOp33(size_t i) { return table33_0_inner_[(i < 9 ? (i / 2 + 0) : ((i - 9) + 4))]; } static inline uint64_t GetEmit33(size_t, size_t emit) { return table33_0_emit_[emit]; } static inline uint64_t GetOp36(size_t i) { return table9_0_inner_[(i < 6 ? (i) : ((i - 6) / 9 + 6))]; } static inline uint64_t GetEmit36(size_t, size_t emit) { return table36_0_emit_[emit]; } static inline uint64_t GetOp37(size_t i) { return table37_0_ops_[i]; } static inline uint64_t GetEmit37(size_t, size_t emit) { return table37_0_emit_[emit]; } static inline uint64_t GetOp38(size_t i) { return table38_0_ops_[i]; } static inline uint64_t GetEmit38(size_t, size_t emit) { return table38_0_emit_[emit]; } static inline uint64_t GetOp39(size_t i) { return table39_0_ops_[i]; } static inline uint64_t GetEmit39(size_t, size_t emit) { return table39_0_emit_[emit]; } static inline uint64_t GetOp40(size_t i) { return table40_ops_[i >> 7][i & 0x7f]; } static inline uint64_t GetEmit40(size_t i, size_t emit) { return table40_emit_[i >> 7][emit]; } static inline uint64_t GetOp41(size_t i) { return table41_ops_[i >> 6][i & 0x3f]; } static inline uint64_t GetEmit41(size_t i, size_t emit) { return table41_emit_[i >> 6][emit]; } static inline uint64_t GetOp35(size_t i) { return table35_ops_[i >> 6][i & 0x3f]; } static inline uint64_t GetEmit35(size_t i, size_t emit) { return table35_emit_[i >> 6][emit]; } static inline uint64_t GetOp43(size_t i) { return i; } static inline uint64_t GetEmit43(size_t, size_t emit) { return ((void)emit, 124); } static inline uint64_t GetOp42(size_t i) { return ((i < 1 ? (((void)i, 0)) : ((i - 1))) < 1 ? (((void)(i < 1 ? (((void)i, 0)) : ((i - 1))), 1)) : (((i < 1 ? (((void)i, 0)) : ((i - 1))) - 1) ? 10 : 6)); } static inline uint64_t GetEmit42(size_t, size_t emit) { return (emit < 1 ? (((void)emit, 124)) : ((emit - 1) ? 62 : 35)); } private: static const uint8_t table2_0_emit_[10]; static const uint8_t table2_0_ops_[32]; static const uint8_t table3_0_emit_[36]; static const uint8_t table3_0_ops_[64]; static const uint8_t table4_0_emit_[22]; static const uint8_t table4_0_ops_[64]; static const uint8_t table4_1_emit_[46]; static const uint8_t table4_1_ops_[64]; static const uint8_t* const table4_emit_[2]; static const uint8_t* const table4_ops_[2]; static const uint8_t table5_0_ops_[128]; static const uint8_t table5_1_emit_[52]; static const uint8_t table5_1_ops_[128]; static const uint8_t* const table5_emit_[2]; static const uint8_t* const table5_ops_[2]; static const uint8_t table6_0_emit_[2]; static const uint8_t table6_0_ops_[32]; static const uint8_t table6_1_emit_[2]; static const uint8_t table6_2_emit_[2]; static const uint8_t table6_3_emit_[2]; static const uint8_t table6_4_emit_[2]; static const uint8_t table6_5_emit_[4]; static const uint8_t table6_5_ops_[32]; static const uint8_t table6_6_emit_[4]; static const uint8_t table6_7_emit_[4]; static const uint8_t table6_8_emit_[4]; static const uint8_t table6_9_emit_[4]; static const uint8_t table6_10_emit_[4]; static const uint8_t table6_11_emit_[6]; static const uint8_t table6_11_ops_[32]; static const uint8_t table6_12_emit_[8]; static const uint8_t table6_12_ops_[32]; static const uint8_t table6_13_emit_[8]; static const uint8_t table6_14_emit_[8]; static const uint8_t table6_15_emit_[10]; static const uint8_t table6_15_ops_[32]; static const uint8_t* const table6_emit_[16]; static const uint8_t* const table6_ops_[16]; static const uint8_t table1_0_emit_[36]; static const uint16_t table1_0_inner_[22]; static const uint8_t table1_0_outer_[64]; static const uint8_t table1_1_emit_[36]; static const uint16_t table1_1_inner_[22]; static const uint8_t table1_2_emit_[36]; static const uint16_t table1_2_inner_[22]; static const uint8_t table1_3_emit_[36]; static const uint16_t table1_3_inner_[22]; static const uint8_t table1_4_emit_[38]; static const uint16_t table1_4_inner_[22]; static const uint16_t table1_5_inner_[4]; static const uint8_t table1_5_outer_[64]; static const uint16_t table1_11_inner_[6]; static const uint8_t table1_11_outer_[64]; static const uint16_t table1_12_inner_[8]; static const uint8_t table1_12_outer_[64]; static const uint8_t table1_15_emit_[15]; static const uint16_t table1_15_inner_[18]; static const uint8_t table1_15_outer_[64]; static const uint8_t* const table1_emit_[16]; static const uint16_t* const table1_inner_[16]; static const uint8_t* const table1_outer_[16]; static const uint8_t table9_0_emit_[6]; static const uint8_t table9_0_inner_[8]; static const uint8_t table10_0_emit_[8]; static const uint8_t table10_0_inner_[10]; static const uint8_t table10_0_outer_[16]; static const uint8_t table11_0_emit_[11]; static const uint8_t table11_0_ops_[32]; static const uint8_t table12_0_ops_[64]; static const uint8_t table13_0_ops_[128]; static const uint8_t table14_0_emit_[40]; static const uint8_t table14_0_ops_[64]; static const uint8_t table14_1_emit_[40]; static const uint8_t table14_2_emit_[40]; static const uint8_t table14_3_emit_[5]; static const uint8_t table14_3_ops_[64]; static const uint8_t* const table14_emit_[4]; static const uint8_t* const table14_ops_[4]; static const uint8_t table15_0_emit_[72]; static const uint16_t table15_0_ops_[64]; static const uint8_t table15_1_emit_[72]; static const uint8_t table15_2_emit_[72]; static const uint8_t table15_3_emit_[72]; static const uint8_t table15_4_emit_[72]; static const uint8_t table15_5_emit_[72]; static const uint8_t table15_6_emit_[40]; static const uint16_t table15_6_ops_[64]; static const uint8_t table15_7_emit_[6]; static const uint16_t table15_7_ops_[64]; static const uint8_t* const table15_emit_[8]; static const uint16_t* const table15_ops_[8]; static const uint8_t table8_0_emit_[1]; static const uint16_t table8_0_ops_[64]; static const uint8_t table8_2_emit_[1]; static const uint8_t table8_4_emit_[1]; static const uint8_t table8_6_emit_[1]; static const uint8_t table8_8_emit_[1]; static const uint8_t table8_10_emit_[1]; static const uint8_t table8_12_emit_[1]; static const uint16_t table8_12_ops_[64]; static const uint8_t table8_13_emit_[1]; static const uint8_t table8_14_emit_[2]; static const uint16_t table8_14_ops_[64]; static const uint8_t table8_15_emit_[12]; static const uint16_t table8_15_ops_[64]; static const uint8_t* const table8_emit_[16]; static const uint16_t* const table8_ops_[16]; static const uint8_t table28_0_emit_[8]; static const uint8_t table28_0_inner_[8]; static const uint8_t table29_0_emit_[8]; static const uint8_t table30_0_emit_[8]; static const uint8_t table34_0_emit_[5]; static const uint8_t table34_0_inner_[6]; static const uint8_t table33_0_emit_[11]; static const uint8_t table33_0_inner_[11]; static const uint8_t table36_0_emit_[6]; static const uint8_t table37_0_emit_[10]; static const uint8_t table37_0_ops_[32]; static const uint8_t table38_0_emit_[25]; static const uint8_t table38_0_ops_[64]; static const uint8_t table39_0_emit_[44]; static const uint8_t table39_0_ops_[128]; static const uint8_t table40_0_ops_[128]; static const uint8_t table40_1_emit_[63]; static const uint8_t table40_1_ops_[128]; static const uint8_t* const table40_emit_[2]; static const uint8_t* const table40_ops_[2]; static const uint8_t table41_0_emit_[40]; static const uint8_t table41_1_emit_[40]; static const uint8_t table41_2_emit_[40]; static const uint8_t table41_3_emit_[4]; static const uint8_t table41_3_ops_[64]; static const uint8_t table41_4_emit_[8]; static const uint8_t table41_4_ops_[64]; static const uint8_t table41_5_emit_[9]; static const uint8_t table41_5_ops_[64]; static const uint8_t table41_6_emit_[16]; static const uint8_t table41_6_ops_[64]; static const uint8_t table41_7_emit_[30]; static const uint8_t table41_7_ops_[64]; static const uint8_t* const table41_emit_[8]; static const uint8_t* const table41_ops_[8]; static const uint8_t table35_0_emit_[1]; static const uint8_t table35_1_emit_[1]; static const uint8_t table35_2_emit_[1]; static const uint8_t table35_3_emit_[1]; static const uint8_t table35_4_emit_[1]; static const uint8_t table35_5_emit_[1]; static const uint8_t table35_6_emit_[2]; static const uint16_t table35_6_ops_[64]; static const uint8_t table35_7_emit_[2]; static const uint8_t table35_8_emit_[4]; static const uint16_t table35_8_ops_[64]; static const uint8_t table35_9_emit_[4]; static const uint8_t table35_10_emit_[4]; static const uint8_t table35_11_emit_[5]; static const uint16_t table35_11_ops_[64]; static const uint8_t table35_12_emit_[8]; static const uint16_t table35_12_ops_[64]; static const uint8_t table35_13_emit_[8]; static const uint8_t table35_14_emit_[15]; static const uint16_t table35_14_ops_[64]; static const uint8_t table35_15_emit_[18]; static const uint16_t table35_15_ops_[64]; static const uint8_t* const table35_emit_[16]; static const uint16_t* const table35_ops_[16]; }; template class HuffDecoder : public HuffDecoderCommon { public: HuffDecoder(F sink, const uint8_t* begin, const uint8_t* end) : sink_(sink), begin_(begin), end_(end) {} bool Run() { while (!done_) { if (!RefillTo10()) { Done0(); break; } const auto index = (buffer_ >> (buffer_len_ - 10)) & 0x3ff; const auto op = GetOp1(index); const int consumed = op & 15; buffer_len_ -= consumed; const auto emit_ofs = op >> 7; switch ((op >> 4) & 7) { case 0: { sink_(GetEmit1(index, emit_ofs + 0)); sink_(GetEmit1(index, emit_ofs + 1)); break; } case 1: { sink_(GetEmit1(index, emit_ofs + 0)); break; } case 2: { DecodeStep0(); break; } case 3: { DecodeStep20(); break; } case 4: { DecodeStep1(); break; } } } return ok_; } private: bool RefillTo10() { switch (buffer_len_) { case 0: { return Read2to8Bytes(); } case 1: { return Read2to7Bytes(); } case 2: case 3: case 4: case 5: case 6: case 7: case 8: { return Read1to7Bytes(); } case 9: { return Read1to6Bytes(); } } return true; } bool Read2to8Bytes() { switch (end_ - begin_) { case 0: case 1: { return false; } case 2: { Fill2(); return true; } case 3: { Fill3(); return true; } case 4: { Fill4(); return true; } case 5: { Fill5(); return true; } case 6: { Fill6(); return true; } case 7: { Fill7(); return true; } default: { Fill8(); return true; } } } void Fill2() { buffer_ = (buffer_ << 16) | (static_cast(begin_[0]) << 8) | (static_cast(begin_[1]) << 0); begin_ += 2; buffer_len_ += 16; } void Fill3() { buffer_ = (buffer_ << 24) | (static_cast(begin_[0]) << 16) | (static_cast(begin_[1]) << 8) | (static_cast(begin_[2]) << 0); begin_ += 3; buffer_len_ += 24; } void Fill4() { buffer_ = (buffer_ << 32) | (static_cast(begin_[0]) << 24) | (static_cast(begin_[1]) << 16) | (static_cast(begin_[2]) << 8) | (static_cast(begin_[3]) << 0); begin_ += 4; buffer_len_ += 32; } void Fill5() { buffer_ = (buffer_ << 40) | (static_cast(begin_[0]) << 32) | (static_cast(begin_[1]) << 24) | (static_cast(begin_[2]) << 16) | (static_cast(begin_[3]) << 8) | (static_cast(begin_[4]) << 0); begin_ += 5; buffer_len_ += 40; } void Fill6() { buffer_ = (buffer_ << 48) | (static_cast(begin_[0]) << 40) | (static_cast(begin_[1]) << 32) | (static_cast(begin_[2]) << 24) | (static_cast(begin_[3]) << 16) | (static_cast(begin_[4]) << 8) | (static_cast(begin_[5]) << 0); begin_ += 6; buffer_len_ += 48; } void Fill7() { buffer_ = (buffer_ << 56) | (static_cast(begin_[0]) << 48) | (static_cast(begin_[1]) << 40) | (static_cast(begin_[2]) << 32) | (static_cast(begin_[3]) << 24) | (static_cast(begin_[4]) << 16) | (static_cast(begin_[5]) << 8) | (static_cast(begin_[6]) << 0); begin_ += 7; buffer_len_ += 56; } void Fill8() { buffer_ = 0 | (static_cast(begin_[0]) << 56) | (static_cast(begin_[1]) << 48) | (static_cast(begin_[2]) << 40) | (static_cast(begin_[3]) << 32) | (static_cast(begin_[4]) << 24) | (static_cast(begin_[5]) << 16) | (static_cast(begin_[6]) << 8) | (static_cast(begin_[7]) << 0); begin_ += 8; buffer_len_ += 64; } bool Read2to7Bytes() { switch (end_ - begin_) { case 0: case 1: { return false; } case 2: { Fill2(); return true; } case 3: { Fill3(); return true; } case 4: { Fill4(); return true; } case 5: { Fill5(); return true; } case 6: { Fill6(); return true; } default: { Fill7(); return true; } } } bool Read1to7Bytes() { switch (end_ - begin_) { case 0: { return false; } case 1: { Fill1(); return true; } case 2: { Fill2(); return true; } case 3: { Fill3(); return true; } case 4: { Fill4(); return true; } case 5: { Fill5(); return true; } case 6: { Fill6(); return true; } default: { Fill7(); return true; } } } void Fill1() { buffer_ = (buffer_ << 8) | (static_cast(begin_[0]) << 0); begin_ += 1; buffer_len_ += 8; } bool Read1to6Bytes() { switch (end_ - begin_) { case 0: { return false; } case 1: { Fill1(); return true; } case 2: { Fill2(); return true; } case 3: { Fill3(); return true; } case 4: { Fill4(); return true; } case 5: { Fill5(); return true; } default: { Fill6(); return true; } } } void Done0() { done_ = true; switch (end_ - begin_) { case 1: { Fill1(); break; } } switch (buffer_len_) { case 1: case 2: case 3: case 4: { ok_ = (buffer_ & ((1 << buffer_len_) - 1)) == (1 << buffer_len_) - 1; return; } case 5: { const auto index = buffer_ & 31; const auto op = GetOp2(index); switch (op & 3) { case 0: { sink_(GetEmit2(index, (op >> 2) + 0)); break; } case 1: { ok_ = false; break; } } return; } case 6: { const auto index = buffer_ & 63; const auto op = GetOp3(index); switch (op & 3) { case 0: { ok_ = false; break; } case 1: { sink_(GetEmit3(index, (op >> 2) + 0)); break; } } return; } case 7: { const auto index = buffer_ & 127; const auto op = GetOp4(index); switch (op & 3) { case 0: { ok_ = false; break; } case 1: { sink_(GetEmit4(index, (op >> 2) + 0)); break; } } return; } case 8: { const auto index = buffer_ & 255; const auto op = GetOp5(index); switch (op & 3) { case 0: { ok_ = false; break; } case 1: { sink_(GetEmit5(index, (op >> 2) + 0)); break; } } return; } case 9: { const auto index = buffer_ & 511; const auto op = GetOp6(index); switch (op & 3) { case 0: { ok_ = false; break; } case 1: { sink_(GetEmit6(index, (op >> 2) + 0)); break; } } return; } case 0: { return; } } } void DecodeStep0() { if (!RefillTo1()) { Done1(); return; } const auto index = (buffer_ >> (buffer_len_ - 1)) & 0x1; const auto op = GetOp7(index); const int consumed = op & 1; buffer_len_ -= consumed; const auto emit_ofs = op >> 1; sink_(GetEmit7(index, emit_ofs + 0)); } bool RefillTo1() { switch (buffer_len_) { case 0: { return Read1to8Bytes(); } } return true; } bool Read1to8Bytes() { switch (end_ - begin_) { case 0: { return false; } case 1: { Fill1(); return true; } case 2: { Fill2(); return true; } case 3: { Fill3(); return true; } case 4: { Fill4(); return true; } case 5: { Fill5(); return true; } case 6: { Fill6(); return true; } case 7: { Fill7(); return true; } default: { Fill8(); return true; } } } void Done1() { done_ = true; ok_ = false; } void DecodeStep1() { if (!RefillTo10()) { Done2(); return; } const auto index = (buffer_ >> (buffer_len_ - 10)) & 0x3ff; const auto op = GetOp8(index); const int consumed = op & 15; buffer_len_ -= consumed; const auto emit_ofs = op >> 9; switch ((op >> 4) & 31) { case 0: { sink_(GetEmit8(index, emit_ofs + 0)); break; } case 1: { DecodeStep2(); break; } case 2: { DecodeStep3(); break; } case 3: { DecodeStep4(); break; } case 4: { DecodeStep5(); break; } case 5: { DecodeStep6(); break; } case 6: { DecodeStep7(); break; } case 7: { DecodeStep17(); break; } case 8: { DecodeStep8(); break; } case 9: { DecodeStep9(); break; } case 10: { DecodeStep10(); break; } case 11: { DecodeStep11(); break; } case 12: { DecodeStep12(); break; } case 13: { DecodeStep13(); break; } case 14: { DecodeStep14(); break; } case 15: { DecodeStep15(); break; } case 16: { DecodeStep16(); break; } case 17: { DecodeStep18(); break; } case 18: { DecodeStep19(); break; } } } void Done2() { done_ = true; switch (end_ - begin_) { case 1: { Fill1(); break; } } switch (buffer_len_) { case 1: case 2: { ok_ = (buffer_ & ((1 << buffer_len_) - 1)) == (1 << buffer_len_) - 1; return; } case 3: { const auto index = buffer_ & 7; const auto op = GetOp9(index); switch (op & 3) { case 0: { sink_(GetEmit9(index, (op >> 2) + 0)); break; } case 1: { ok_ = false; break; } } return; } case 4: { const auto index = buffer_ & 15; const auto op = GetOp10(index); switch (op & 3) { case 0: { ok_ = false; break; } case 1: { sink_(GetEmit10(index, (op >> 2) + 0)); break; } } return; } case 5: { const auto index = buffer_ & 31; const auto op = GetOp11(index); switch (op & 3) { case 0: { ok_ = false; break; } case 1: { sink_(GetEmit11(index, (op >> 2) + 0)); break; } } return; } case 6: { const auto index = buffer_ & 63; const auto op = GetOp12(index); switch (op & 3) { case 0: { ok_ = false; break; } case 1: { sink_(GetEmit12(index, (op >> 2) + 0)); break; } } return; } case 7: { const auto index = buffer_ & 127; const auto op = GetOp13(index); switch (op & 3) { case 0: { ok_ = false; break; } case 1: { sink_(GetEmit13(index, (op >> 2) + 0)); break; } } return; } case 8: { const auto index = buffer_ & 255; const auto op = GetOp14(index); switch (op & 3) { case 0: { sink_(GetEmit14(index, (op >> 2) + 0)); sink_(GetEmit14(index, (op >> 2) + 1)); break; } case 1: { ok_ = false; break; } case 2: { sink_(GetEmit14(index, (op >> 2) + 0)); break; } } return; } case 9: { const auto index = buffer_ & 511; const auto op = GetOp15(index); switch (op & 3) { case 0: { ok_ = false; break; } case 1: { sink_(GetEmit15(index, (op >> 2) + 0)); sink_(GetEmit15(index, (op >> 2) + 1)); break; } case 2: { sink_(GetEmit15(index, (op >> 2) + 0)); break; } } return; } case 0: { return; } } } void DecodeStep2() { if (!RefillTo1()) { Done3(); return; } const auto index = (buffer_ >> (buffer_len_ - 1)) & 0x1; const auto op = GetOp16(index); const int consumed = op & 1; buffer_len_ -= consumed; const auto emit_ofs = op >> 1; sink_(GetEmit16(index, emit_ofs + 0)); } void Done3() { done_ = true; ok_ = false; } void DecodeStep3() { if (!RefillTo1()) { Done4(); return; } const auto index = (buffer_ >> (buffer_len_ - 1)) & 0x1; const auto op = GetOp17(index); const int consumed = op & 1; buffer_len_ -= consumed; const auto emit_ofs = op >> 1; sink_(GetEmit17(index, emit_ofs + 0)); } void Done4() { done_ = true; ok_ = false; } void DecodeStep4() { if (!RefillTo1()) { Done5(); return; } const auto index = (buffer_ >> (buffer_len_ - 1)) & 0x1; const auto op = GetOp18(index); const int consumed = op & 1; buffer_len_ -= consumed; const auto emit_ofs = op >> 1; sink_(GetEmit18(index, emit_ofs + 0)); } void Done5() { done_ = true; ok_ = false; } void DecodeStep5() { if (!RefillTo1()) { Done6(); return; } const auto index = (buffer_ >> (buffer_len_ - 1)) & 0x1; const auto op = GetOp19(index); const int consumed = op & 1; buffer_len_ -= consumed; const auto emit_ofs = op >> 1; sink_(GetEmit19(index, emit_ofs + 0)); } void Done6() { done_ = true; ok_ = false; } void DecodeStep6() { if (!RefillTo1()) { Done7(); return; } const auto index = (buffer_ >> (buffer_len_ - 1)) & 0x1; const auto op = GetOp20(index); const int consumed = op & 1; buffer_len_ -= consumed; const auto emit_ofs = op >> 1; sink_(GetEmit20(index, emit_ofs + 0)); } void Done7() { done_ = true; ok_ = false; } void DecodeStep7() { if (!RefillTo1()) { Done8(); return; } const auto index = (buffer_ >> (buffer_len_ - 1)) & 0x1; const auto op = GetOp21(index); const int consumed = op & 1; buffer_len_ -= consumed; const auto emit_ofs = op >> 1; sink_(GetEmit21(index, emit_ofs + 0)); } void Done8() { done_ = true; ok_ = false; } void DecodeStep8() { if (!RefillTo2()) { Done9(); return; } const auto index = (buffer_ >> (buffer_len_ - 2)) & 0x3; const auto op = GetOp22(index); const int consumed = op & 3; buffer_len_ -= consumed; const auto emit_ofs = op >> 2; sink_(GetEmit22(index, emit_ofs + 0)); } bool RefillTo2() { switch (buffer_len_) { case 0: { return Read1to8Bytes(); } case 1: { return Read1to7Bytes(); } } return true; } void Done9() { done_ = true; switch (buffer_len_) { case 1: case 0: { ok_ = false; return; } } } void DecodeStep9() { if (!RefillTo2()) { Done10(); return; } const auto index = (buffer_ >> (buffer_len_ - 2)) & 0x3; const auto op = GetOp23(index); const int consumed = op & 3; buffer_len_ -= consumed; const auto emit_ofs = op >> 2; sink_(GetEmit23(index, emit_ofs + 0)); } void Done10() { done_ = true; switch (buffer_len_) { case 1: case 0: { ok_ = false; return; } } } void DecodeStep10() { if (!RefillTo2()) { Done11(); return; } const auto index = (buffer_ >> (buffer_len_ - 2)) & 0x3; const auto op = GetOp24(index); const int consumed = op & 3; buffer_len_ -= consumed; const auto emit_ofs = op >> 2; sink_(GetEmit24(index, emit_ofs + 0)); } void Done11() { done_ = true; switch (buffer_len_) { case 1: case 0: { ok_ = false; return; } } } void DecodeStep11() { if (!RefillTo2()) { Done12(); return; } const auto index = (buffer_ >> (buffer_len_ - 2)) & 0x3; const auto op = GetOp25(index); const int consumed = op & 3; buffer_len_ -= consumed; const auto emit_ofs = op >> 2; sink_(GetEmit25(index, emit_ofs + 0)); } void Done12() { done_ = true; switch (buffer_len_) { case 1: case 0: { ok_ = false; return; } } } void DecodeStep12() { if (!RefillTo2()) { Done13(); return; } const auto index = (buffer_ >> (buffer_len_ - 2)) & 0x3; const auto op = GetOp26(index); const int consumed = op & 3; buffer_len_ -= consumed; const auto emit_ofs = op >> 2; sink_(GetEmit26(index, emit_ofs + 0)); } void Done13() { done_ = true; switch (buffer_len_) { case 1: case 0: { ok_ = false; return; } } } void DecodeStep13() { if (!RefillTo2()) { Done14(); return; } const auto index = (buffer_ >> (buffer_len_ - 2)) & 0x3; const auto op = GetOp27(index); const int consumed = op & 3; buffer_len_ -= consumed; const auto emit_ofs = op >> 2; sink_(GetEmit27(index, emit_ofs + 0)); } void Done14() { done_ = true; switch (buffer_len_) { case 1: case 0: { ok_ = false; return; } } } void DecodeStep14() { if (!RefillTo3()) { Done15(); return; } const auto index = (buffer_ >> (buffer_len_ - 3)) & 0x7; const auto op = GetOp28(index); const int consumed = op & 3; buffer_len_ -= consumed; const auto emit_ofs = op >> 2; sink_(GetEmit28(index, emit_ofs + 0)); } bool RefillTo3() { switch (buffer_len_) { case 0: { return Read1to8Bytes(); } case 1: case 2: { return Read1to7Bytes(); } } return true; } void Done15() { done_ = true; switch (buffer_len_) { case 1: case 2: case 0: { ok_ = false; return; } } } void DecodeStep15() { if (!RefillTo3()) { Done16(); return; } const auto index = (buffer_ >> (buffer_len_ - 3)) & 0x7; const auto op = GetOp29(index); const int consumed = op & 3; buffer_len_ -= consumed; const auto emit_ofs = op >> 2; sink_(GetEmit29(index, emit_ofs + 0)); } void Done16() { done_ = true; switch (buffer_len_) { case 1: case 2: case 0: { ok_ = false; return; } } } void DecodeStep16() { if (!RefillTo3()) { Done17(); return; } const auto index = (buffer_ >> (buffer_len_ - 3)) & 0x7; const auto op = GetOp30(index); const int consumed = op & 3; buffer_len_ -= consumed; const auto emit_ofs = op >> 2; sink_(GetEmit30(index, emit_ofs + 0)); } void Done17() { done_ = true; switch (buffer_len_) { case 1: case 2: case 0: { ok_ = false; return; } } } void DecodeStep17() { if (!RefillTo2()) { Done18(); return; } const auto index = (buffer_ >> (buffer_len_ - 2)) & 0x3; const auto op = GetOp31(index); const int consumed = op & 3; buffer_len_ -= consumed; const auto emit_ofs = op >> 2; sink_(GetEmit31(index, emit_ofs + 0)); } void Done18() { done_ = true; switch (buffer_len_) { case 1: { const auto index = buffer_ & 1; const auto op = GetOp32(index); switch (op & 1) { case 0: { sink_(GetEmit32(index, (op >> 1) + 0)); break; } case 1: { ok_ = false; break; } } return; } case 0: { ok_ = false; return; } } } void DecodeStep18() { if (!RefillTo4()) { Done19(); return; } const auto index = (buffer_ >> (buffer_len_ - 4)) & 0xf; const auto op = GetOp33(index); const int consumed = op & 7; buffer_len_ -= consumed; const auto emit_ofs = op >> 3; sink_(GetEmit33(index, emit_ofs + 0)); } bool RefillTo4() { switch (buffer_len_) { case 0: { return Read1to8Bytes(); } case 1: case 2: case 3: { return Read1to7Bytes(); } } return true; } void Done19() { done_ = true; switch (buffer_len_) { case 1: case 2: case 0: { ok_ = false; return; } case 3: { const auto index = buffer_ & 7; const auto op = GetOp34(index); switch (op & 1) { case 0: { sink_(GetEmit34(index, (op >> 1) + 0)); break; } case 1: { ok_ = false; break; } } return; } } } void DecodeStep19() { if (!RefillTo10()) { Done20(); return; } const auto index = (buffer_ >> (buffer_len_ - 10)) & 0x3ff; const auto op = GetOp35(index); const int consumed = op & 15; buffer_len_ -= consumed; const auto emit_ofs = op >> 5; switch ((op >> 4) & 1) { case 0: { sink_(GetEmit35(index, emit_ofs + 0)); break; } case 1: { begin_ = end_; buffer_len_ = 0; break; } } } void Done20() { done_ = true; switch (end_ - begin_) { case 1: { Fill1(); break; } } switch (buffer_len_) { case 1: case 2: case 3: { ok_ = (buffer_ & ((1 << buffer_len_) - 1)) == (1 << buffer_len_) - 1; return; } case 4: { const auto index = buffer_ & 15; const auto op = GetOp36(index); switch (op & 3) { case 0: { sink_(GetEmit36(index, (op >> 2) + 0)); break; } case 1: { ok_ = false; break; } } return; } case 5: { const auto index = buffer_ & 31; const auto op = GetOp37(index); switch (op & 3) { case 0: { ok_ = false; break; } case 1: { sink_(GetEmit37(index, (op >> 2) + 0)); break; } } return; } case 6: { const auto index = buffer_ & 63; const auto op = GetOp38(index); switch (op & 3) { case 0: { ok_ = false; break; } case 1: { sink_(GetEmit38(index, (op >> 2) + 0)); break; } } return; } case 7: { const auto index = buffer_ & 127; const auto op = GetOp39(index); switch (op & 3) { case 0: { ok_ = false; break; } case 1: { sink_(GetEmit39(index, (op >> 2) + 0)); break; } } return; } case 8: { const auto index = buffer_ & 255; const auto op = GetOp40(index); switch (op & 3) { case 0: { ok_ = false; break; } case 1: { sink_(GetEmit40(index, (op >> 2) + 0)); break; } } return; } case 9: { const auto index = buffer_ & 511; const auto op = GetOp41(index); switch (op & 3) { case 0: { sink_(GetEmit41(index, (op >> 2) + 0)); sink_(GetEmit41(index, (op >> 2) + 1)); break; } case 1: { ok_ = false; break; } case 2: { sink_(GetEmit41(index, (op >> 2) + 0)); break; } } return; } case 0: { return; } } } void DecodeStep20() { if (!RefillTo2()) { Done21(); return; } const auto index = (buffer_ >> (buffer_len_ - 2)) & 0x3; const auto op = GetOp42(index); const int consumed = op & 3; buffer_len_ -= consumed; const auto emit_ofs = op >> 2; sink_(GetEmit42(index, emit_ofs + 0)); } void Done21() { done_ = true; switch (buffer_len_) { case 1: { const auto index = buffer_ & 1; const auto op = GetOp43(index); switch (op & 1) { case 0: { sink_(GetEmit43(index, (op >> 1) + 0)); break; } case 1: { ok_ = false; break; } } return; } case 0: { ok_ = false; return; } } } F sink_; const uint8_t* begin_; const uint8_t* const end_; uint64_t buffer_ = 0; int buffer_len_ = 0; bool ok_ = true; bool done_ = false; }; } // namespace geometry_10_10_10 } // namespace grpc_core #endif // GRPC_TEST_CPP_MICROBENCHMARKS_HUFFMAN_GEOMETRIES_DECODE_HUFF_10_10_10_H