Coverage Report

Created: 2026-07-09 12:42

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
be/src/exec/common/int_exp.h
Line
Count
Source
1
// Licensed to the Apache Software Foundation (ASF) under one
2
// or more contributor license agreements.  See the NOTICE file
3
// distributed with this work for additional information
4
// regarding copyright ownership.  The ASF licenses this file
5
// to you under the Apache License, Version 2.0 (the
6
// "License"); you may not use this file except in compliance
7
// with the License.  You may obtain a copy of the License at
8
//
9
//   http://www.apache.org/licenses/LICENSE-2.0
10
//
11
// Unless required by applicable law or agreed to in writing,
12
// software distributed under the License is distributed on an
13
// "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
14
// KIND, either express or implied.  See the License for the
15
// specific language governing permissions and limitations
16
// under the License.
17
// This file is copied from
18
// https://github.com/ClickHouse/ClickHouse/blob/master/src/Common/IntExp.h
19
// and modified by Doris
20
21
#pragma once
22
23
#include <cstdint>
24
#include <limits>
25
#include <utility>
26
27
#include "core/extended_types.h"
28
29
namespace exp_details {
30
31
// compile-time exp(v, n) by linear recursion
32
template <typename T, T v, std::size_t n>
33
constexpr inline const T exp = T(v) * exp<T, v, n - 1>;
34
35
template <typename T, T v>
36
constexpr inline const T exp<T, v, 0> = 1;
37
38
// compile-time exponentiation table { exp(v, I) ... }
39
template <typename T, T v, std::size_t... I>
40
constexpr inline const T exp_table[] = {exp<T, v, I>...};
41
42
// get value from compile-time exponentiation table by a (maybe) runtime offset
43
template <typename T, T v, std::size_t... I>
44
11.3M
constexpr T get_exp_helper(std::size_t x, std::index_sequence<I...>) {
45
11.3M
    return exp_table<T, v, I...>[x];
46
11.3M
}
47
48
// get_exp_helper with table { exp(v, 0), exp(v, 1) ... exp(v, N - 1) }
49
template <typename T, T v, std::size_t N>
50
11.3M
constexpr T get_exp(std::size_t x) {
51
11.3M
    return get_exp_helper<T, v>(x, std::make_index_sequence<N> {});
52
11.3M
}
53
54
} // namespace exp_details
55
56
11.3M
inline uint64_t int_exp10(int x) {
57
11.3M
    if (x < 0) {
58
0
        return 0;
59
0
    }
60
11.3M
    if (x > 19) {
61
2
        return std::numeric_limits<uint64_t>::max();
62
2
    }
63
64
11.3M
    return exp_details::get_exp<uint64_t, 10, 20>(x);
65
11.3M
}
66
67
namespace common {
68
69
17.4M
constexpr inline int exp10_i32(int x) {
70
17.4M
    if (x < 0) {
71
218
        return 0;
72
218
    }
73
17.4M
    if (x > 9) {
74
838
        return std::numeric_limits<int>::max();
75
838
    }
76
77
17.4M
    constexpr int values[] = {1,      10,      100,      1000,      10000,
78
17.4M
                              100000, 1000000, 10000000, 100000000, 1000000000};
79
17.4M
    return values[x];
80
17.4M
}
81
82
1.18G
constexpr inline int64_t exp10_i64(int x) {
83
1.18G
    if (x < 0) {
84
212
        return 0;
85
212
    }
86
1.18G
    if (x > 18) {
87
142
        return std::numeric_limits<int64_t>::max();
88
142
    }
89
90
1.18G
    constexpr int64_t values[] = {1LL,
91
1.18G
                                  10LL,
92
1.18G
                                  100LL,
93
1.18G
                                  1000LL,
94
1.18G
                                  10000LL,
95
1.18G
                                  100000LL,
96
1.18G
                                  1000000LL,
97
1.18G
                                  10000000LL,
98
1.18G
                                  100000000LL,
99
1.18G
                                  1000000000LL,
100
1.18G
                                  10000000000LL,
101
1.18G
                                  100000000000LL,
102
1.18G
                                  1000000000000LL,
103
1.18G
                                  10000000000000LL,
104
1.18G
                                  100000000000000LL,
105
1.18G
                                  1000000000000000LL,
106
1.18G
                                  10000000000000000LL,
107
1.18G
                                  100000000000000000LL,
108
1.18G
                                  1000000000000000000LL};
109
1.18G
    return values[x];
110
1.18G
}
111
112
11.1M
constexpr inline __int128 exp10_i128(int x) {
113
11.1M
    if (x < 0) {
114
288
        return 0;
115
288
    }
116
11.1M
    if (x > 38) {
117
77
        return std::numeric_limits<__int128>::max();
118
77
    }
119
120
11.1M
    constexpr __int128 values[] = {
121
11.1M
            static_cast<__int128>(1LL),
122
11.1M
            static_cast<__int128>(10LL),
123
11.1M
            static_cast<__int128>(100LL),
124
11.1M
            static_cast<__int128>(1000LL),
125
11.1M
            static_cast<__int128>(10000LL),
126
11.1M
            static_cast<__int128>(100000LL),
127
11.1M
            static_cast<__int128>(1000000LL),
128
11.1M
            static_cast<__int128>(10000000LL),
129
11.1M
            static_cast<__int128>(100000000LL),
130
11.1M
            static_cast<__int128>(1000000000LL),
131
11.1M
            static_cast<__int128>(10000000000LL),
132
11.1M
            static_cast<__int128>(100000000000LL),
133
11.1M
            static_cast<__int128>(1000000000000LL),
134
11.1M
            static_cast<__int128>(10000000000000LL),
135
11.1M
            static_cast<__int128>(100000000000000LL),
136
11.1M
            static_cast<__int128>(1000000000000000LL),
137
11.1M
            static_cast<__int128>(10000000000000000LL),
138
11.1M
            static_cast<__int128>(100000000000000000LL),
139
11.1M
            static_cast<__int128>(1000000000000000000LL),
140
11.1M
            static_cast<__int128>(1000000000000000000LL) * 10LL,
141
11.1M
            static_cast<__int128>(1000000000000000000LL) * 100LL,
142
11.1M
            static_cast<__int128>(1000000000000000000LL) * 1000LL,
143
11.1M
            static_cast<__int128>(1000000000000000000LL) * 10000LL,
144
11.1M
            static_cast<__int128>(1000000000000000000LL) * 100000LL,
145
11.1M
            static_cast<__int128>(1000000000000000000LL) * 1000000LL,
146
11.1M
            static_cast<__int128>(1000000000000000000LL) * 10000000LL,
147
11.1M
            static_cast<__int128>(1000000000000000000LL) * 100000000LL,
148
11.1M
            static_cast<__int128>(1000000000000000000LL) * 1000000000LL,
149
11.1M
            static_cast<__int128>(1000000000000000000LL) * 10000000000LL,
150
11.1M
            static_cast<__int128>(1000000000000000000LL) * 100000000000LL,
151
11.1M
            static_cast<__int128>(1000000000000000000LL) * 1000000000000LL,
152
11.1M
            static_cast<__int128>(1000000000000000000LL) * 10000000000000LL,
153
11.1M
            static_cast<__int128>(1000000000000000000LL) * 100000000000000LL,
154
11.1M
            static_cast<__int128>(1000000000000000000LL) * 1000000000000000LL,
155
11.1M
            static_cast<__int128>(1000000000000000000LL) * 10000000000000000LL,
156
11.1M
            static_cast<__int128>(1000000000000000000LL) * 100000000000000000LL,
157
11.1M
            static_cast<__int128>(1000000000000000000LL) * 100000000000000000LL * 10LL,
158
11.1M
            static_cast<__int128>(1000000000000000000LL) * 100000000000000000LL * 100LL,
159
11.1M
            static_cast<__int128>(1000000000000000000LL) * 100000000000000000LL * 1000LL};
160
11.1M
    return values[x];
161
11.1M
}
162
163
637k
constexpr inline wide::Int256 exp10_i256(int x) {
164
637k
    if (x < 0) {
165
212
        return 0;
166
212
    }
167
637k
    if (x > 76) {
168
126
        return std::numeric_limits<wide::Int256>::max();
169
126
    }
170
171
637k
    constexpr wide::Int256 i10e18 {1000000000000000000LL};
172
637k
    constexpr wide::Int256 values[] = {
173
637k
            static_cast<wide::Int256>(1LL),
174
637k
            static_cast<wide::Int256>(10LL),
175
637k
            static_cast<wide::Int256>(100LL),
176
637k
            static_cast<wide::Int256>(1000LL),
177
637k
            static_cast<wide::Int256>(10000LL),
178
637k
            static_cast<wide::Int256>(100000LL),
179
637k
            static_cast<wide::Int256>(1000000LL),
180
637k
            static_cast<wide::Int256>(10000000LL),
181
637k
            static_cast<wide::Int256>(100000000LL),
182
637k
            static_cast<wide::Int256>(1000000000LL),
183
637k
            static_cast<wide::Int256>(10000000000LL),
184
637k
            static_cast<wide::Int256>(100000000000LL),
185
637k
            static_cast<wide::Int256>(1000000000000LL),
186
637k
            static_cast<wide::Int256>(10000000000000LL),
187
637k
            static_cast<wide::Int256>(100000000000000LL),
188
637k
            static_cast<wide::Int256>(1000000000000000LL),
189
637k
            static_cast<wide::Int256>(10000000000000000LL),
190
637k
            static_cast<wide::Int256>(100000000000000000LL),
191
637k
            i10e18,
192
637k
            i10e18 * 10LL,
193
637k
            i10e18 * 100LL,
194
637k
            i10e18 * 1000LL,
195
637k
            i10e18 * 10000LL,
196
637k
            i10e18 * 100000LL,
197
637k
            i10e18 * 1000000LL,
198
637k
            i10e18 * 10000000LL,
199
637k
            i10e18 * 100000000LL,
200
637k
            i10e18 * 1000000000LL,
201
637k
            i10e18 * 10000000000LL,
202
637k
            i10e18 * 100000000000LL,
203
637k
            i10e18 * 1000000000000LL,
204
637k
            i10e18 * 10000000000000LL,
205
637k
            i10e18 * 100000000000000LL,
206
637k
            i10e18 * 1000000000000000LL,
207
637k
            i10e18 * 10000000000000000LL,
208
637k
            i10e18 * 100000000000000000LL,
209
637k
            i10e18 * 100000000000000000LL * 10LL,
210
637k
            i10e18 * 100000000000000000LL * 100LL,
211
637k
            i10e18 * 100000000000000000LL * 1000LL,
212
637k
            i10e18 * 100000000000000000LL * 10000LL,
213
637k
            i10e18 * 100000000000000000LL * 100000LL,
214
637k
            i10e18 * 100000000000000000LL * 1000000LL,
215
637k
            i10e18 * 100000000000000000LL * 10000000LL,
216
637k
            i10e18 * 100000000000000000LL * 100000000LL,
217
637k
            i10e18 * 100000000000000000LL * 1000000000LL,
218
637k
            i10e18 * 100000000000000000LL * 10000000000LL,
219
637k
            i10e18 * 100000000000000000LL * 100000000000LL,
220
637k
            i10e18 * 100000000000000000LL * 1000000000000LL,
221
637k
            i10e18 * 100000000000000000LL * 10000000000000LL,
222
637k
            i10e18 * 100000000000000000LL * 100000000000000LL,
223
637k
            i10e18 * 100000000000000000LL * 1000000000000000LL,
224
637k
            i10e18 * 100000000000000000LL * 10000000000000000LL,
225
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL,
226
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 10LL,
227
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100LL,
228
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 1000LL,
229
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 10000LL,
230
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000LL,
231
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 1000000LL,
232
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 10000000LL,
233
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000LL,
234
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 1000000000LL,
235
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 10000000000LL,
236
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000LL,
237
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 1000000000000LL,
238
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 10000000000000LL,
239
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000LL,
240
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 1000000000000000LL,
241
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 10000000000000000LL,
242
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL,
243
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 10LL,
244
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 100LL,
245
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 1000LL,
246
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 10000LL,
247
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 100000LL,
248
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 1000000LL,
249
637k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL *
250
637k
                    10000000LL,
251
637k
    };
252
637k
    return values[x];
253
637k
}
254
255
5.44k
constexpr inline int max_i32(int digit_count) {
256
5.44k
    if (digit_count < 0) {
257
0
        return 0;
258
0
    }
259
5.44k
    if (digit_count > 9) {
260
0
        return std::numeric_limits<int>::max();
261
0
    }
262
5.44k
    constexpr int values[] = {0, 9, 99, 999, 9999, 99999, 999999, 9999999, 99999999, 999999999};
263
5.44k
    return values[digit_count];
264
5.44k
}
265
266
33.3k
constexpr inline int64_t max_i64(int digit_count) {
267
33.3k
    if (digit_count < 0) {
268
0
        return 0;
269
0
    }
270
33.3k
    if (digit_count > 18) {
271
0
        return std::numeric_limits<int64_t>::max();
272
0
    }
273
274
33.3k
    constexpr int64_t values[] = {1LL,
275
33.3k
                                  9LL,
276
33.3k
                                  99LL,
277
33.3k
                                  999LL,
278
33.3k
                                  9999LL,
279
33.3k
                                  99999LL,
280
33.3k
                                  999999LL,
281
33.3k
                                  9999999LL,
282
33.3k
                                  99999999LL,
283
33.3k
                                  999999999LL,
284
33.3k
                                  9999999999LL,
285
33.3k
                                  99999999999LL,
286
33.3k
                                  999999999999LL,
287
33.3k
                                  9999999999999LL,
288
33.3k
                                  99999999999999LL,
289
33.3k
                                  999999999999999LL,
290
33.3k
                                  9999999999999999LL,
291
33.3k
                                  99999999999999999LL,
292
33.3k
                                  999999999999999999LL};
293
33.3k
    return values[digit_count];
294
33.3k
}
295
296
399
constexpr inline int count_digits_fast(int64_t n) {
297
399
    uint64_t abs_n = (n < 0 ? uint64_t(-n) : uint64_t(n));
298
399
    if (abs_n == 0) [[unlikely]] {
299
35
        return 1;
300
35
    }
301
302
364
    int bits = 64 - __builtin_clzll(abs_n);
303
364
    int d = (bits * 1233) >> 12;
304
305
364
    if (abs_n < int_exp10(d)) {
306
40
        --d;
307
324
    } else if (abs_n >= int_exp10(d + 1)) {
308
0
        ++d;
309
0
    }
310
311
364
    return d + 1;
312
399
}
313
314
34.1k
constexpr inline __int128 max_i128(int digit_count) {
315
34.1k
    DCHECK(digit_count > 0);
316
34.1k
    constexpr __int128 values[] = {
317
34.1k
            static_cast<__int128>(0LL),
318
34.1k
            static_cast<__int128>(9LL),
319
34.1k
            static_cast<__int128>(99LL),
320
34.1k
            static_cast<__int128>(999LL),
321
34.1k
            static_cast<__int128>(9999LL),
322
34.1k
            static_cast<__int128>(99999LL),
323
34.1k
            static_cast<__int128>(999999LL),
324
34.1k
            static_cast<__int128>(9999999LL),
325
34.1k
            static_cast<__int128>(99999999LL),
326
34.1k
            static_cast<__int128>(999999999LL),
327
34.1k
            static_cast<__int128>(9999999999LL),
328
34.1k
            static_cast<__int128>(99999999999LL),
329
34.1k
            static_cast<__int128>(999999999999LL),
330
34.1k
            static_cast<__int128>(9999999999999LL),
331
34.1k
            static_cast<__int128>(99999999999999LL),
332
34.1k
            static_cast<__int128>(999999999999999LL),
333
34.1k
            static_cast<__int128>(9999999999999999LL),
334
34.1k
            static_cast<__int128>(99999999999999999LL),
335
34.1k
            static_cast<__int128>(999999999999999999LL),
336
34.1k
            static_cast<__int128>(1000000000000000000LL) * 10LL - 1,
337
34.1k
            static_cast<__int128>(1000000000000000000LL) * 100LL - 1,
338
34.1k
            static_cast<__int128>(1000000000000000000LL) * 1000LL - 1,
339
34.1k
            static_cast<__int128>(1000000000000000000LL) * 10000LL - 1,
340
34.1k
            static_cast<__int128>(1000000000000000000LL) * 100000LL - 1,
341
34.1k
            static_cast<__int128>(1000000000000000000LL) * 1000000LL - 1,
342
34.1k
            static_cast<__int128>(1000000000000000000LL) * 10000000LL - 1,
343
34.1k
            static_cast<__int128>(1000000000000000000LL) * 100000000LL - 1,
344
34.1k
            static_cast<__int128>(1000000000000000000LL) * 1000000000LL - 1,
345
34.1k
            static_cast<__int128>(1000000000000000000LL) * 10000000000LL - 1,
346
34.1k
            static_cast<__int128>(1000000000000000000LL) * 100000000000LL - 1,
347
34.1k
            static_cast<__int128>(1000000000000000000LL) * 1000000000000LL - 1,
348
34.1k
            static_cast<__int128>(1000000000000000000LL) * 10000000000000LL - 1,
349
34.1k
            static_cast<__int128>(1000000000000000000LL) * 100000000000000LL - 1,
350
34.1k
            static_cast<__int128>(1000000000000000000LL) * 1000000000000000LL - 1,
351
34.1k
            static_cast<__int128>(1000000000000000000LL) * 10000000000000000LL - 1,
352
34.1k
            static_cast<__int128>(1000000000000000000LL) * 100000000000000000LL - 1,
353
34.1k
            static_cast<__int128>(1000000000000000000LL) * 100000000000000000LL * 10LL - 1,
354
34.1k
            static_cast<__int128>(1000000000000000000LL) * 100000000000000000LL * 100LL - 1,
355
34.1k
            static_cast<__int128>(1000000000000000000LL) * 100000000000000000LL * 1000LL - 1};
356
34.1k
    return values[digit_count];
357
34.1k
}
358
359
5.57k
constexpr inline wide::Int256 max_i256(int digit_count) {
360
5.57k
    if (digit_count < 0) {
361
0
        return 0;
362
0
    }
363
5.57k
    if (digit_count > 76) {
364
0
        return std::numeric_limits<wide::Int256>::max();
365
0
    }
366
367
5.57k
    constexpr wide::Int256 i10e18 {1000000000000000000LL};
368
5.57k
    constexpr wide::Int256 values[] = {
369
5.57k
            static_cast<wide::Int256>(0LL),
370
5.57k
            static_cast<wide::Int256>(9LL),
371
5.57k
            static_cast<wide::Int256>(99LL),
372
5.57k
            static_cast<wide::Int256>(999LL),
373
5.57k
            static_cast<wide::Int256>(9999LL),
374
5.57k
            static_cast<wide::Int256>(99999LL),
375
5.57k
            static_cast<wide::Int256>(999999LL),
376
5.57k
            static_cast<wide::Int256>(9999999LL),
377
5.57k
            static_cast<wide::Int256>(99999999LL),
378
5.57k
            static_cast<wide::Int256>(999999999LL),
379
5.57k
            static_cast<wide::Int256>(9999999999LL),
380
5.57k
            static_cast<wide::Int256>(99999999999LL),
381
5.57k
            static_cast<wide::Int256>(999999999999LL),
382
5.57k
            static_cast<wide::Int256>(9999999999999LL),
383
5.57k
            static_cast<wide::Int256>(99999999999999LL),
384
5.57k
            static_cast<wide::Int256>(999999999999999LL),
385
5.57k
            static_cast<wide::Int256>(9999999999999999LL),
386
5.57k
            static_cast<wide::Int256>(99999999999999999LL),
387
5.57k
            i10e18 - 1,
388
5.57k
            i10e18 * 10LL - 1,
389
5.57k
            i10e18 * 100LL - 1,
390
5.57k
            i10e18 * 1000LL - 1,
391
5.57k
            i10e18 * 10000LL - 1,
392
5.57k
            i10e18 * 100000LL - 1,
393
5.57k
            i10e18 * 1000000LL - 1,
394
5.57k
            i10e18 * 10000000LL - 1,
395
5.57k
            i10e18 * 100000000LL - 1,
396
5.57k
            i10e18 * 1000000000LL - 1,
397
5.57k
            i10e18 * 10000000000LL - 1,
398
5.57k
            i10e18 * 100000000000LL - 1,
399
5.57k
            i10e18 * 1000000000000LL - 1,
400
5.57k
            i10e18 * 10000000000000LL - 1,
401
5.57k
            i10e18 * 100000000000000LL - 1,
402
5.57k
            i10e18 * 1000000000000000LL - 1,
403
5.57k
            i10e18 * 10000000000000000LL - 1,
404
5.57k
            i10e18 * 100000000000000000LL - 1,
405
5.57k
            i10e18 * 100000000000000000LL * 10LL - 1,
406
5.57k
            i10e18 * 100000000000000000LL * 100LL - 1,
407
5.57k
            i10e18 * 100000000000000000LL * 1000LL - 1,
408
5.57k
            i10e18 * 100000000000000000LL * 10000LL - 1,
409
5.57k
            i10e18 * 100000000000000000LL * 100000LL - 1,
410
5.57k
            i10e18 * 100000000000000000LL * 1000000LL - 1,
411
5.57k
            i10e18 * 100000000000000000LL * 10000000LL - 1,
412
5.57k
            i10e18 * 100000000000000000LL * 100000000LL - 1,
413
5.57k
            i10e18 * 100000000000000000LL * 1000000000LL - 1,
414
5.57k
            i10e18 * 100000000000000000LL * 10000000000LL - 1,
415
5.57k
            i10e18 * 100000000000000000LL * 100000000000LL - 1,
416
5.57k
            i10e18 * 100000000000000000LL * 1000000000000LL - 1,
417
5.57k
            i10e18 * 100000000000000000LL * 10000000000000LL - 1,
418
5.57k
            i10e18 * 100000000000000000LL * 100000000000000LL - 1,
419
5.57k
            i10e18 * 100000000000000000LL * 1000000000000000LL - 1,
420
5.57k
            i10e18 * 100000000000000000LL * 10000000000000000LL - 1,
421
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL - 1,
422
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 10LL - 1,
423
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100LL - 1,
424
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 1000LL - 1,
425
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 10000LL - 1,
426
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000LL - 1,
427
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 1000000LL - 1,
428
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 10000000LL - 1,
429
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000LL - 1,
430
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 1000000000LL - 1,
431
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 10000000000LL - 1,
432
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000LL - 1,
433
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 1000000000000LL - 1,
434
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 10000000000000LL - 1,
435
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000LL - 1,
436
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 1000000000000000LL - 1,
437
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 10000000000000000LL - 1,
438
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL - 1,
439
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 10LL - 1,
440
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 100LL - 1,
441
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 1000LL -
442
5.57k
                    1,
443
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 10000LL -
444
5.57k
                    1,
445
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 100000LL -
446
5.57k
                    1,
447
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL *
448
5.57k
                            1000000LL -
449
5.57k
                    1,
450
5.57k
            i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL *
451
5.57k
                            10000000LL -
452
5.57k
                    1,
453
5.57k
    };
454
5.57k
    return values[digit_count];
455
5.57k
}
456
} // namespace common