chrome/common/string_ordinal.cc - Issue 8236002: Create StringOrdinal to allow placement of strings in sorted lists

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Issue 8236002: Create StringOrdinal to allow placement of strings in sorted lists (Closed) Base URL: http://git.chromium.org/git/chromium.git@trunk

Patch Set: Clearer comment for AddHalf failing and extra test for its loop Created 9 years, 1 month ago

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	1 // Copyright (c) 2011 The Chromium Authors. All rights reserved.

	2 // Use of this source code is governed by a BSD-style license that can be

	3 // found in the LICENSE file.

	4

	5 #include "chrome/common/string_ordinal.h"

	6

	7 #include <algorithm>

	8 #include <cstddef>

	9

	10 #include "base/basictypes.h"

	11 #include "base/logging.h"

	12

	13 namespace {

	14

	15 // Constants for StringOrdinal digits.

	16 const char kZeroDigit = 'a';

	17 const char kMinDigit = 'b';

	18 const char kMidDigit = 'n';

	19 const char kMaxDigit = 'z';

	20 const int kMidDigitValue = kMidDigit - kZeroDigit;

	21 const int kMaxDigitValue = kMaxDigit - kZeroDigit;

	22 const int kRadix = kMaxDigitValue + 1;

	23 COMPILE_ASSERT(kMidDigitValue == 13, kMidDigitValue_incorrect);

	24 COMPILE_ASSERT(kMaxDigitValue == 25, kMaxDigitValue_incorrect);

	25 COMPILE_ASSERT(kRadix == 26, kRadix_incorrect);

	26

	27 // Helper Functions

	28

	29 // Returns the length that string value.substr(0, length) would be with

	30 // trailing zeros removed.

	31 size_t GetLengthWithoutTrailingZeros(const std::string& value, size_t length) {

	32 DCHECK(!value.empty());

	33

	34 size_t end_position = value.find_last_not_of(kZeroDigit, length - 1);
	akalin 2011/10/26 18:36:42 if you want to consider the entire string, just om if you want to consider the entire string, just omit the 2nd argument csharp 2011/10/26 19:59:18 We don't want to always consider the entire string We don't want to always consider the entire string, because we might want to ignore the last section of the string. On 2011/10/26 18:36:42, akalin wrote: Show quoted text > if you want to consider the entire string, just omit the 2nd argument
	35

	36 // If no non kZeroDigit is found then the string is a string of all zeros

	37 // digits so we return 0 as the correct length.

	38 if (end_position == std::string::npos)

	39 return 0;

	40

	41 return end_position + 1;

	42 }

	43

	44 // Return the digit value at position i, padding with kZeroDigit if required.

	45 int GetPositionValue(const std::string& str, size_t i) {

	46 return (i < str.length()) ? (str[i] - kZeroDigit) : 0;

	47 }

	48

	49 // Add kMidDigitValue to the value at position index. This returns false if

	50 // adding the half results in an overflow past the first digit, otherwise it

	51 // returns true. This is used by ComputeMidpoint.

	52 bool AddHalf(size_t position, std::string& value) {

	53 DCHECK_GT(position, 0U);

	54 DCHECK_LT(position, value.length());

	55

	56 // We can't perform this operation directly on the string because

	57 // overflow can occur and mess up the values.

	58 int new_position_value = value[position] + kMidDigitValue;

	59

	60 if (new_position_value <= kMaxDigit) {

	61 value[position] = new_position_value;

	62 } else {

	63 value[position] = new_position_value - kRadix;

	64 ++value[position - 1];

	65

	66 for (size_t i = position - 1; value[i] > kMaxDigit; --i) {

	67 if (i == 0U)

	68 return false;

	69 value[i] -= kRadix;

	70 ++value[i - 1];

	71 }

	72 }

	73

	74 return true;

	75 }

	76

	77 // Drops off the last digit of value and then all trailing zeros iff that

	78 // doesn't change its ordering as greater than \|start\|.

	79 void DropUnneededDigits(const std::string& start, std::string* value) {

	80 CHECK_GT(*value, start);

	81

	82 size_t drop_length = GetLengthWithoutTrailingZeros(*value, value->length());

	83 // See if the value can have its last digit removed without affecting

	84 // the ordering.

	85 if (drop_length > 1) {

	86 // We must drop the trailing zeros before comparing \|shorter_value\| to

	87 // \|start\| because if we don't we may have \|shorter_value\|=\|start\|+\|a\|*

	88 // where \|shorter_value\| > \|start\| but not when it drops the trailing \|a\|s

	89 // to become a valid StringOrdinal value.

	90 int truncated_length = GetLengthWithoutTrailingZeros(*value,

	91 drop_length - 1);

	92

	93 if (truncated_length != 0 && value->compare(0, truncated_length, start) > 0)

	94 drop_length = truncated_length;

	95 }

	96

	97 value->resize(drop_length);

	98 }

	99

	100 // Compute the midpoint string that is between \|start\| and \|end\|.

	101 std::string ComputeMidpoint(const std::string& start,

	102 const std::string& end) {

	103 size_t max_size = std::max(start.length(), end.length()) + 1;

	104 std::string midpoint(max_size, kZeroDigit);

	105

	106 bool add_half = false;

	107 for (size_t i = 0; i < max_size; ++i) {

	108 int char_value = GetPositionValue(start, i);

	109 char_value += GetPositionValue(end, i);

	110

	111 midpoint[i] += (char_value / 2);

	112 if (add_half) {

	113 // AddHalf only returns false if (midpoint[0] > kMaxDigit) and it
	akalin 2011/10/26 18:36:42 Just say that AddHalf() returning false implies th Just say that AddHalf() returning false implies that the midpoint of two strings in [0, 1) is >= 1, which is a contradiction. csharp 2011/10/26 19:59:18 Done. Show quoted text On 2011/10/26 18:36:42, akalin wrote: > Just say that AddHalf() returning false implies that the midpoint of two strings > in [0, 1) is >= 1, which is a contradiction. Done.
	114 // needs to overflow to the digit before it, which doesn't exist. This

	115 // would mean that the midpoint string would have have a different

	116 // pre-first digit than both \|start\| and \|end\|, which means it isn't

	117 // between them anymore.

	118 CHECK(AddHalf(i, midpoint));

	119 }

	120

	121 add_half = (char_value % 2 == 1);

	122 }

	123 DCHECK(!add_half);

	124

	125 return midpoint;

	126 }

	127

	128 // Create a StringOrdinal that is lexigraphically greater than \|start\| and

	129 // lexigraphically less than \|end\|. The returned StringOrdinal will be roughly

	130 // between \|start\| and \|end\|.

	131 StringOrdinal CreateStringOrdinalBetween(const StringOrdinal& start,

	132 const StringOrdinal& end) {

	133 CHECK(start.IsValid());

	134 CHECK(end.IsValid());

	135 CHECK(start.LessThan(end));

	136 const std::string& start_string = start.ToString();

	137 const std::string& end_string = end.ToString();

	138 DCHECK_LT(start_string, end_string);

	139

	140 std::string midpoint = ComputeMidpoint(start_string, end_string);

	141

	142 DropUnneededDigits(start_string, &midpoint);

	143

	144 DCHECK_GT(midpoint, start_string);

	145 DCHECK_LT(midpoint, end_string);

	146

	147 StringOrdinal midpoint_ordinal(midpoint);

	148 DCHECK(midpoint_ordinal.IsValid());

	149 return midpoint_ordinal;

	150 }

	151

	152 // Returns true iff the input string matches the format [a-z]*[b-z].

	153 bool IsValidStringOrdinal(const std::string& value) {

	154 if (value.empty())

	155 return false;

	156

	157 for (size_t i = 0; i < value.length(); ++i) {

	158 if (value[i] < kZeroDigit \|\| value[i] > kMaxDigit)

	159 return false;

	160 }

	161

	162 return value[value.length() - 1] != kZeroDigit;

	163 }

	164

	165 } // namespace

	166

	167 StringOrdinal::StringOrdinal(const std::string& string_ordinal)

	168 : string_ordinal_(string_ordinal),

	169 is_valid_(IsValidStringOrdinal(string_ordinal_)) {

	170 }

	171

	172 StringOrdinal::StringOrdinal() : string_ordinal_(""),

	173 is_valid_(false) {

	174 }

	175

	176 bool StringOrdinal::IsValid() const {

	177 return is_valid_;

	178 }

	179

	180 bool StringOrdinal::LessThan(const StringOrdinal& other) const {

	181 CHECK(IsValid());

	182 CHECK(other.IsValid());

	183 return string_ordinal_ < other.string_ordinal_;

	184 }

	185

	186 bool StringOrdinal::Equal(const StringOrdinal& other) const {

	187 CHECK(IsValid());

	188 CHECK(other.IsValid());

	189 return string_ordinal_ == other.string_ordinal_;

	190 }

	191

	192 StringOrdinal StringOrdinal::CreateBetween(const StringOrdinal& other) const {

	193 CHECK(IsValid());

	194 CHECK(other.IsValid());

	195 CHECK(!Equal(other));

	196

	197 if (LessThan(other)) {

	198 return CreateStringOrdinalBetween(*this, other);

	199 } else {

	200 return CreateStringOrdinalBetween(other, *this);

	201 }

	202 }

	203

	204 StringOrdinal StringOrdinal::CreateBefore() const {

	205 CHECK(IsValid());

	206 // Create the smallest valid StringOrdinal of the appropriate length

	207 // to be the minimum boundary.

	208 const size_t length = string_ordinal_.length();

	209 std::string start(length, kZeroDigit);

	210 start[length - 1] = kMinDigit;

	211 if (start == string_ordinal_) {

	212 start[length - 1] = kZeroDigit;

	213 start += kMinDigit;

	214 }

	215

	216 // Even though \|start\| is already a valid StringOrdinal that is less

	217 // than \|*this\|, we don't return it because we wouldn't have much space in

	218 // front of it to insert potential future values.

	219 return CreateBetween(StringOrdinal(start));

	220 }

	221

	222 StringOrdinal StringOrdinal::CreateAfter() const {

	223 CHECK(IsValid());

	224 // Create the largest valid StringOrdinal of the appropriate length to be

	225 // the maximum boundary.

	226 std::string end(string_ordinal_.length(), kMaxDigit);

	227 if (end == string_ordinal_)

	228 end += kMaxDigit;

	229

	230 // Even though \|end\| is already a valid StringOrdinal that is greater than

	231 // \|*this\|, we don't return it because we wouldn't have much space after

	232 // it to insert potential future values.

	233 return CreateBetween(StringOrdinal(end));

	234 }

	235

	236 std::string StringOrdinal::ToString() const {

	237 CHECK(IsValid());

	238 return string_ordinal_;

	239 }

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