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	8.55M	constexpr T get_exp_helper(std::size_t x, std::index_sequence<I...>) {
45	8.55M	return exp_table<T, v, I...>[x];
46	8.55M	}
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	8.55M	constexpr T get_exp(std::size_t x) {
51	8.55M	return get_exp_helper<T, v>(x, std::make_index_sequence<N> {});
52	8.55M	}
53
54		} // namespace exp_details
55
56	8.55M	inline uint64_t int_exp10(int x) {
57	8.55M	if (x < 0) {
58	0	return 0;
59	0	}
60	8.55M	if (x > 19) {
61	2	return std::numeric_limits<uint64_t>::max();
62	2	}
63
64	8.55M	return exp_details::get_exp<uint64_t, 10, 20>(x);
65	8.55M	}
66
67		namespace common {
68
69	9.11M	constexpr inline int exp10_i32(int x) {
70	9.11M	if (x < 0) {
71	436	return 0;
72	436	}
73	9.11M	if (x > 9) {
74	1.65k	return std::numeric_limits<int>::max();
75	1.65k	}
76
77	9.10M	constexpr int values[] = {1, 10, 100, 1000, 10000,
78	9.10M	100000, 1000000, 10000000, 100000000, 1000000000};
79	9.10M	return values[x];
80	9.11M	}
81
82	42.0M	constexpr inline int64_t exp10_i64(int x) {
83	42.0M	if (x < 0) {
84	424	return 0;
85	424	}
86	42.0M	if (x > 18) {
87	268	return std::numeric_limits<int64_t>::max();
88	268	}
89
90	42.0M	constexpr int64_t values[] = {1LL,
91	42.0M	10LL,
92	42.0M	100LL,
93	42.0M	1000LL,
94	42.0M	10000LL,
95	42.0M	100000LL,
96	42.0M	1000000LL,
97	42.0M	10000000LL,
98	42.0M	100000000LL,
99	42.0M	1000000000LL,
100	42.0M	10000000000LL,
101	42.0M	100000000000LL,
102	42.0M	1000000000000LL,
103	42.0M	10000000000000LL,
104	42.0M	100000000000000LL,
105	42.0M	1000000000000000LL,
106	42.0M	10000000000000000LL,
107	42.0M	100000000000000000LL,
108	42.0M	1000000000000000000LL};
109	42.0M	return values[x];
110	42.0M	}
111
112	8.12M	constexpr inline __int128 exp10_i128(int x) {
113	8.12M	if (x < 0) {
114	576	return 0;
115	576	}
116	8.12M	if (x > 38) {
117	153	return std::numeric_limits<__int128>::max();
118	153	}
119
120	8.12M	constexpr __int128 values[] = {
121	8.12M	static_cast<__int128>(1LL),
122	8.12M	static_cast<__int128>(10LL),
123	8.12M	static_cast<__int128>(100LL),
124	8.12M	static_cast<__int128>(1000LL),
125	8.12M	static_cast<__int128>(10000LL),
126	8.12M	static_cast<__int128>(100000LL),
127	8.12M	static_cast<__int128>(1000000LL),
128	8.12M	static_cast<__int128>(10000000LL),
129	8.12M	static_cast<__int128>(100000000LL),
130	8.12M	static_cast<__int128>(1000000000LL),
131	8.12M	static_cast<__int128>(10000000000LL),
132	8.12M	static_cast<__int128>(100000000000LL),
133	8.12M	static_cast<__int128>(1000000000000LL),
134	8.12M	static_cast<__int128>(10000000000000LL),
135	8.12M	static_cast<__int128>(100000000000000LL),
136	8.12M	static_cast<__int128>(1000000000000000LL),
137	8.12M	static_cast<__int128>(10000000000000000LL),
138	8.12M	static_cast<__int128>(100000000000000000LL),
139	8.12M	static_cast<__int128>(1000000000000000000LL),
140	8.12M	static_cast<__int128>(1000000000000000000LL) * 10LL,
141	8.12M	static_cast<__int128>(1000000000000000000LL) * 100LL,
142	8.12M	static_cast<__int128>(1000000000000000000LL) * 1000LL,
143	8.12M	static_cast<__int128>(1000000000000000000LL) * 10000LL,
144	8.12M	static_cast<__int128>(1000000000000000000LL) * 100000LL,
145	8.12M	static_cast<__int128>(1000000000000000000LL) * 1000000LL,
146	8.12M	static_cast<__int128>(1000000000000000000LL) * 10000000LL,
147	8.12M	static_cast<__int128>(1000000000000000000LL) * 100000000LL,
148	8.12M	static_cast<__int128>(1000000000000000000LL) * 1000000000LL,
149	8.12M	static_cast<__int128>(1000000000000000000LL) * 10000000000LL,
150	8.12M	static_cast<__int128>(1000000000000000000LL) * 100000000000LL,
151	8.12M	static_cast<__int128>(1000000000000000000LL) * 1000000000000LL,
152	8.12M	static_cast<__int128>(1000000000000000000LL) * 10000000000000LL,
153	8.12M	static_cast<__int128>(1000000000000000000LL) * 100000000000000LL,
154	8.12M	static_cast<__int128>(1000000000000000000LL) * 1000000000000000LL,
155	8.12M	static_cast<__int128>(1000000000000000000LL) * 10000000000000000LL,
156	8.12M	static_cast<__int128>(1000000000000000000LL) * 100000000000000000LL,
157	8.12M	static_cast<__int128>(1000000000000000000LL) * 100000000000000000LL * 10LL,
158	8.12M	static_cast<__int128>(1000000000000000000LL) * 100000000000000000LL * 100LL,
159	8.12M	static_cast<__int128>(1000000000000000000LL) * 100000000000000000LL * 1000LL};
160	8.12M	return values[x];
161	8.12M	}
162
163	1.02M	constexpr inline wide::Int256 exp10_i256(int x) {
164	1.02M	if (x < 0) {
165	424	return 0;
166	424	}
167	1.02M	if (x > 76) {
168	236	return std::numeric_limits<wide::Int256>::max();
169	236	}
170
171	1.02M	constexpr wide::Int256 i10e18 {1000000000000000000LL};
172	1.02M	constexpr wide::Int256 values[] = {
173	1.02M	static_cast<wide::Int256>(1LL),
174	1.02M	static_cast<wide::Int256>(10LL),
175	1.02M	static_cast<wide::Int256>(100LL),
176	1.02M	static_cast<wide::Int256>(1000LL),
177	1.02M	static_cast<wide::Int256>(10000LL),
178	1.02M	static_cast<wide::Int256>(100000LL),
179	1.02M	static_cast<wide::Int256>(1000000LL),
180	1.02M	static_cast<wide::Int256>(10000000LL),
181	1.02M	static_cast<wide::Int256>(100000000LL),
182	1.02M	static_cast<wide::Int256>(1000000000LL),
183	1.02M	static_cast<wide::Int256>(10000000000LL),
184	1.02M	static_cast<wide::Int256>(100000000000LL),
185	1.02M	static_cast<wide::Int256>(1000000000000LL),
186	1.02M	static_cast<wide::Int256>(10000000000000LL),
187	1.02M	static_cast<wide::Int256>(100000000000000LL),
188	1.02M	static_cast<wide::Int256>(1000000000000000LL),
189	1.02M	static_cast<wide::Int256>(10000000000000000LL),
190	1.02M	static_cast<wide::Int256>(100000000000000000LL),
191	1.02M	i10e18,
192	1.02M	i10e18 * 10LL,
193	1.02M	i10e18 * 100LL,
194	1.02M	i10e18 * 1000LL,
195	1.02M	i10e18 * 10000LL,
196	1.02M	i10e18 * 100000LL,
197	1.02M	i10e18 * 1000000LL,
198	1.02M	i10e18 * 10000000LL,
199	1.02M	i10e18 * 100000000LL,
200	1.02M	i10e18 * 1000000000LL,
201	1.02M	i10e18 * 10000000000LL,
202	1.02M	i10e18 * 100000000000LL,
203	1.02M	i10e18 * 1000000000000LL,
204	1.02M	i10e18 * 10000000000000LL,
205	1.02M	i10e18 * 100000000000000LL,
206	1.02M	i10e18 * 1000000000000000LL,
207	1.02M	i10e18 * 10000000000000000LL,
208	1.02M	i10e18 * 100000000000000000LL,
209	1.02M	i10e18 * 100000000000000000LL * 10LL,
210	1.02M	i10e18 * 100000000000000000LL * 100LL,
211	1.02M	i10e18 * 100000000000000000LL * 1000LL,
212	1.02M	i10e18 * 100000000000000000LL * 10000LL,
213	1.02M	i10e18 * 100000000000000000LL * 100000LL,
214	1.02M	i10e18 * 100000000000000000LL * 1000000LL,
215	1.02M	i10e18 * 100000000000000000LL * 10000000LL,
216	1.02M	i10e18 * 100000000000000000LL * 100000000LL,
217	1.02M	i10e18 * 100000000000000000LL * 1000000000LL,
218	1.02M	i10e18 * 100000000000000000LL * 10000000000LL,
219	1.02M	i10e18 * 100000000000000000LL * 100000000000LL,
220	1.02M	i10e18 * 100000000000000000LL * 1000000000000LL,
221	1.02M	i10e18 * 100000000000000000LL * 10000000000000LL,
222	1.02M	i10e18 * 100000000000000000LL * 100000000000000LL,
223	1.02M	i10e18 * 100000000000000000LL * 1000000000000000LL,
224	1.02M	i10e18 * 100000000000000000LL * 10000000000000000LL,
225	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL,
226	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 10LL,
227	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 100LL,
228	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 1000LL,
229	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 10000LL,
230	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000LL,
231	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 1000000LL,
232	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 10000000LL,
233	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000LL,
234	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 1000000000LL,
235	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 10000000000LL,
236	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000LL,
237	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 1000000000000LL,
238	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 10000000000000LL,
239	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000LL,
240	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 1000000000000000LL,
241	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 10000000000000000LL,
242	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL,
243	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 10LL,
244	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 100LL,
245	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 1000LL,
246	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 10000LL,
247	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 100000LL,
248	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 1000000LL,
249	1.02M	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL *
250	1.02M	10000000LL,
251	1.02M	};
252	1.02M	return values[x];
253	1.02M	}
254
255	7.10k	constexpr inline int max_i32(int digit_count) {
256	7.10k	if (digit_count < 0) {
257	0	return 0;
258	0	}
259	7.10k	if (digit_count > 9) {
260	0	return std::numeric_limits<int>::max();
261	0	}
262	7.10k	constexpr int values[] = {0, 9, 99, 999, 9999, 99999, 999999, 9999999, 99999999, 999999999};
263	7.10k	return values[digit_count];
264	7.10k	}
265
266	31.2k	constexpr inline int64_t max_i64(int digit_count) {
267	31.2k	if (digit_count < 0) {
268	0	return 0;
269	0	}
270	31.2k	if (digit_count > 18) {
271	0	return std::numeric_limits<int64_t>::max();
272	0	}
273
274	31.2k	constexpr int64_t values[] = {1LL,
275	31.2k	9LL,
276	31.2k	99LL,
277	31.2k	999LL,
278	31.2k	9999LL,
279	31.2k	99999LL,
280	31.2k	999999LL,
281	31.2k	9999999LL,
282	31.2k	99999999LL,
283	31.2k	999999999LL,
284	31.2k	9999999999LL,
285	31.2k	99999999999LL,
286	31.2k	999999999999LL,
287	31.2k	9999999999999LL,
288	31.2k	99999999999999LL,
289	31.2k	999999999999999LL,
290	31.2k	9999999999999999LL,
291	31.2k	99999999999999999LL,
292	31.2k	999999999999999999LL};
293	31.2k	return values[digit_count];
294	31.2k	}
295
296	516	constexpr inline int count_digits_fast(int64_t n) {
297	516	uint64_t abs_n = (n < 0 ? uint64_t(-n) : uint64_t(n));
298	516	if (abs_n == 0) [[unlikely]] {
299	40	return 1;
300	40	}
301
302	476	int bits = 64 - __builtin_clzll(abs_n);
303	476	int d = (bits * 1233) >> 12;
304
305	476	if (abs_n < int_exp10(d)) {
306	59	--d;
307	417	} else if (abs_n >= int_exp10(d + 1)) {
308	0	++d;
309	0	}
310
311	476	return d + 1;
312	516	}
313
314	31.4k	constexpr inline __int128 max_i128(int digit_count) {
315	31.4k	DCHECK(digit_count > 0);
316	31.4k	constexpr __int128 values[] = {
317	31.4k	static_cast<__int128>(0LL),
318	31.4k	static_cast<__int128>(9LL),
319	31.4k	static_cast<__int128>(99LL),
320	31.4k	static_cast<__int128>(999LL),
321	31.4k	static_cast<__int128>(9999LL),
322	31.4k	static_cast<__int128>(99999LL),
323	31.4k	static_cast<__int128>(999999LL),
324	31.4k	static_cast<__int128>(9999999LL),
325	31.4k	static_cast<__int128>(99999999LL),
326	31.4k	static_cast<__int128>(999999999LL),
327	31.4k	static_cast<__int128>(9999999999LL),
328	31.4k	static_cast<__int128>(99999999999LL),
329	31.4k	static_cast<__int128>(999999999999LL),
330	31.4k	static_cast<__int128>(9999999999999LL),
331	31.4k	static_cast<__int128>(99999999999999LL),
332	31.4k	static_cast<__int128>(999999999999999LL),
333	31.4k	static_cast<__int128>(9999999999999999LL),
334	31.4k	static_cast<__int128>(99999999999999999LL),
335	31.4k	static_cast<__int128>(999999999999999999LL),
336	31.4k	static_cast<__int128>(1000000000000000000LL) * 10LL - 1,
337	31.4k	static_cast<__int128>(1000000000000000000LL) * 100LL - 1,
338	31.4k	static_cast<__int128>(1000000000000000000LL) * 1000LL - 1,
339	31.4k	static_cast<__int128>(1000000000000000000LL) * 10000LL - 1,
340	31.4k	static_cast<__int128>(1000000000000000000LL) * 100000LL - 1,
341	31.4k	static_cast<__int128>(1000000000000000000LL) * 1000000LL - 1,
342	31.4k	static_cast<__int128>(1000000000000000000LL) * 10000000LL - 1,
343	31.4k	static_cast<__int128>(1000000000000000000LL) * 100000000LL - 1,
344	31.4k	static_cast<__int128>(1000000000000000000LL) * 1000000000LL - 1,
345	31.4k	static_cast<__int128>(1000000000000000000LL) * 10000000000LL - 1,
346	31.4k	static_cast<__int128>(1000000000000000000LL) * 100000000000LL - 1,
347	31.4k	static_cast<__int128>(1000000000000000000LL) * 1000000000000LL - 1,
348	31.4k	static_cast<__int128>(1000000000000000000LL) * 10000000000000LL - 1,
349	31.4k	static_cast<__int128>(1000000000000000000LL) * 100000000000000LL - 1,
350	31.4k	static_cast<__int128>(1000000000000000000LL) * 1000000000000000LL - 1,
351	31.4k	static_cast<__int128>(1000000000000000000LL) * 10000000000000000LL - 1,
352	31.4k	static_cast<__int128>(1000000000000000000LL) * 100000000000000000LL - 1,
353	31.4k	static_cast<__int128>(1000000000000000000LL) * 100000000000000000LL * 10LL - 1,
354	31.4k	static_cast<__int128>(1000000000000000000LL) * 100000000000000000LL * 100LL - 1,
355	31.4k	static_cast<__int128>(1000000000000000000LL) * 100000000000000000LL * 1000LL - 1};
356	31.4k	return values[digit_count];
357	31.4k	}
358
359	7.08k	constexpr inline wide::Int256 max_i256(int digit_count) {
360	7.08k	if (digit_count < 0) {
361	0	return 0;
362	0	}
363	7.08k	if (digit_count > 76) {
364	0	return std::numeric_limits<wide::Int256>::max();
365	0	}
366
367	7.08k	constexpr wide::Int256 i10e18 {1000000000000000000LL};
368	7.08k	constexpr wide::Int256 values[] = {
369	7.08k	static_cast<wide::Int256>(0LL),
370	7.08k	static_cast<wide::Int256>(9LL),
371	7.08k	static_cast<wide::Int256>(99LL),
372	7.08k	static_cast<wide::Int256>(999LL),
373	7.08k	static_cast<wide::Int256>(9999LL),
374	7.08k	static_cast<wide::Int256>(99999LL),
375	7.08k	static_cast<wide::Int256>(999999LL),
376	7.08k	static_cast<wide::Int256>(9999999LL),
377	7.08k	static_cast<wide::Int256>(99999999LL),
378	7.08k	static_cast<wide::Int256>(999999999LL),
379	7.08k	static_cast<wide::Int256>(9999999999LL),
380	7.08k	static_cast<wide::Int256>(99999999999LL),
381	7.08k	static_cast<wide::Int256>(999999999999LL),
382	7.08k	static_cast<wide::Int256>(9999999999999LL),
383	7.08k	static_cast<wide::Int256>(99999999999999LL),
384	7.08k	static_cast<wide::Int256>(999999999999999LL),
385	7.08k	static_cast<wide::Int256>(9999999999999999LL),
386	7.08k	static_cast<wide::Int256>(99999999999999999LL),
387	7.08k	i10e18 - 1,
388	7.08k	i10e18 * 10LL - 1,
389	7.08k	i10e18 * 100LL - 1,
390	7.08k	i10e18 * 1000LL - 1,
391	7.08k	i10e18 * 10000LL - 1,
392	7.08k	i10e18 * 100000LL - 1,
393	7.08k	i10e18 * 1000000LL - 1,
394	7.08k	i10e18 * 10000000LL - 1,
395	7.08k	i10e18 * 100000000LL - 1,
396	7.08k	i10e18 * 1000000000LL - 1,
397	7.08k	i10e18 * 10000000000LL - 1,
398	7.08k	i10e18 * 100000000000LL - 1,
399	7.08k	i10e18 * 1000000000000LL - 1,
400	7.08k	i10e18 * 10000000000000LL - 1,
401	7.08k	i10e18 * 100000000000000LL - 1,
402	7.08k	i10e18 * 1000000000000000LL - 1,
403	7.08k	i10e18 * 10000000000000000LL - 1,
404	7.08k	i10e18 * 100000000000000000LL - 1,
405	7.08k	i10e18 * 100000000000000000LL * 10LL - 1,
406	7.08k	i10e18 * 100000000000000000LL * 100LL - 1,
407	7.08k	i10e18 * 100000000000000000LL * 1000LL - 1,
408	7.08k	i10e18 * 100000000000000000LL * 10000LL - 1,
409	7.08k	i10e18 * 100000000000000000LL * 100000LL - 1,
410	7.08k	i10e18 * 100000000000000000LL * 1000000LL - 1,
411	7.08k	i10e18 * 100000000000000000LL * 10000000LL - 1,
412	7.08k	i10e18 * 100000000000000000LL * 100000000LL - 1,
413	7.08k	i10e18 * 100000000000000000LL * 1000000000LL - 1,
414	7.08k	i10e18 * 100000000000000000LL * 10000000000LL - 1,
415	7.08k	i10e18 * 100000000000000000LL * 100000000000LL - 1,
416	7.08k	i10e18 * 100000000000000000LL * 1000000000000LL - 1,
417	7.08k	i10e18 * 100000000000000000LL * 10000000000000LL - 1,
418	7.08k	i10e18 * 100000000000000000LL * 100000000000000LL - 1,
419	7.08k	i10e18 * 100000000000000000LL * 1000000000000000LL - 1,
420	7.08k	i10e18 * 100000000000000000LL * 10000000000000000LL - 1,
421	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL - 1,
422	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 10LL - 1,
423	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 100LL - 1,
424	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 1000LL - 1,
425	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 10000LL - 1,
426	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000LL - 1,
427	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 1000000LL - 1,
428	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 10000000LL - 1,
429	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000LL - 1,
430	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 1000000000LL - 1,
431	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 10000000000LL - 1,
432	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000LL - 1,
433	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 1000000000000LL - 1,
434	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 10000000000000LL - 1,
435	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000LL - 1,
436	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 1000000000000000LL - 1,
437	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 10000000000000000LL - 1,
438	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL - 1,
439	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 10LL - 1,
440	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 100LL - 1,
441	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 1000LL -
442	7.08k	1,
443	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 10000LL -
444	7.08k	1,
445	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL * 100000LL -
446	7.08k	1,
447	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL *
448	7.08k	1000000LL -
449	7.08k	1,
450	7.08k	i10e18 * 100000000000000000LL * 100000000000000000LL * 100000000000000000LL *
451	7.08k	10000000LL -
452	7.08k	1,
453	7.08k	};
454	7.08k	return values[digit_count];
455	7.08k	}
456		} // namespace common

Coverage Report

Created: 2026-04-15 12:22