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Diffstat (limited to 'storage/mozStorageSQLFunctions.cpp')
-rw-r--r-- | storage/mozStorageSQLFunctions.cpp | 365 |
1 files changed, 365 insertions, 0 deletions
diff --git a/storage/mozStorageSQLFunctions.cpp b/storage/mozStorageSQLFunctions.cpp new file mode 100644 index 0000000000..d160ddb18b --- /dev/null +++ b/storage/mozStorageSQLFunctions.cpp @@ -0,0 +1,365 @@ +/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- + * vim: sw=2 ts=2 et lcs=trail\:.,tab\:>~ : + * This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ + +#include "mozilla/ArrayUtils.h" + +#include "mozStorageSQLFunctions.h" +#include "nsTArray.h" +#include "nsUnicharUtils.h" +#include <algorithm> + +namespace mozilla { +namespace storage { + +//////////////////////////////////////////////////////////////////////////////// +//// Local Helper Functions + +namespace { + +/** + * Performs the LIKE comparison of a string against a pattern. For more detail + * see http://www.sqlite.org/lang_expr.html#like. + * + * @param aPatternItr + * An iterator at the start of the pattern to check for. + * @param aPatternEnd + * An iterator at the end of the pattern to check for. + * @param aStringItr + * An iterator at the start of the string to check for the pattern. + * @param aStringEnd + * An iterator at the end of the string to check for the pattern. + * @param aEscapeChar + * The character to use for escaping symbols in the pattern. + * @return 1 if the pattern is found, 0 otherwise. + */ +int likeCompare(nsAString::const_iterator aPatternItr, + nsAString::const_iterator aPatternEnd, + nsAString::const_iterator aStringItr, + nsAString::const_iterator aStringEnd, char16_t aEscapeChar) { + const char16_t MATCH_ALL('%'); + const char16_t MATCH_ONE('_'); + + bool lastWasEscape = false; + while (aPatternItr != aPatternEnd) { + /** + * What we do in here is take a look at each character from the input + * pattern, and do something with it. There are 4 possibilities: + * 1) character is an un-escaped match-all character + * 2) character is an un-escaped match-one character + * 3) character is an un-escaped escape character + * 4) character is not any of the above + */ + if (!lastWasEscape && *aPatternItr == MATCH_ALL) { + // CASE 1 + /** + * Now we need to skip any MATCH_ALL or MATCH_ONE characters that follow a + * MATCH_ALL character. For each MATCH_ONE character, skip one character + * in the pattern string. + */ + while (*aPatternItr == MATCH_ALL || *aPatternItr == MATCH_ONE) { + if (*aPatternItr == MATCH_ONE) { + // If we've hit the end of the string we are testing, no match + if (aStringItr == aStringEnd) return 0; + aStringItr++; + } + aPatternItr++; + } + + // If we've hit the end of the pattern string, match + if (aPatternItr == aPatternEnd) return 1; + + while (aStringItr != aStringEnd) { + if (likeCompare(aPatternItr, aPatternEnd, aStringItr, aStringEnd, + aEscapeChar)) { + // we've hit a match, so indicate this + return 1; + } + aStringItr++; + } + + // No match + return 0; + } else if (!lastWasEscape && *aPatternItr == MATCH_ONE) { + // CASE 2 + if (aStringItr == aStringEnd) { + // If we've hit the end of the string we are testing, no match + return 0; + } + aStringItr++; + lastWasEscape = false; + } else if (!lastWasEscape && *aPatternItr == aEscapeChar) { + // CASE 3 + lastWasEscape = true; + } else { + // CASE 4 + if (::ToUpperCase(*aStringItr) != ::ToUpperCase(*aPatternItr)) { + // If we've hit a point where the strings don't match, there is no match + return 0; + } + aStringItr++; + lastWasEscape = false; + } + + aPatternItr++; + } + + return aStringItr == aStringEnd; +} + +/** + * Compute the Levenshtein Edit Distance between two strings. + * + * @param aStringS + * a string + * @param aStringT + * another string + * @param _result + * an outparam that will receive the edit distance between the arguments + * @return a Sqlite result code, e.g. SQLITE_OK, SQLITE_NOMEM, etc. + */ +int levenshteinDistance(const nsAString& aStringS, const nsAString& aStringT, + int* _result) { + // Set the result to a non-sensical value in case we encounter an error. + *_result = -1; + + const uint32_t sLen = aStringS.Length(); + const uint32_t tLen = aStringT.Length(); + + if (sLen == 0) { + *_result = tLen; + return SQLITE_OK; + } + if (tLen == 0) { + *_result = sLen; + return SQLITE_OK; + } + + // Notionally, Levenshtein Distance is computed in a matrix. If we + // assume s = "span" and t = "spam", the matrix would look like this: + // s --> + // t s p a n + // | 0 1 2 3 4 + // V s 1 * * * * + // p 2 * * * * + // a 3 * * * * + // m 4 * * * * + // + // Note that the row width is sLen + 1 and the column height is tLen + 1, + // where sLen is the length of the string "s" and tLen is the length of "t". + // The first row and the first column are initialized as shown, and + // the algorithm computes the remaining cells row-by-row, and + // left-to-right within each row. The computation only requires that + // we be able to see the current row and the previous one. + + // Allocate memory for two rows. + AutoTArray<int, nsAutoString::kStorageSize> row1; + AutoTArray<int, nsAutoString::kStorageSize> row2; + + // Declare the raw pointers that will actually be used to access the memory. + int* prevRow = row1.AppendElements(sLen + 1); + int* currRow = row2.AppendElements(sLen + 1); + + // Initialize the first row. + for (uint32_t i = 0; i <= sLen; i++) prevRow[i] = i; + + const char16_t* s = aStringS.BeginReading(); + const char16_t* t = aStringT.BeginReading(); + + // Compute the empty cells in the "matrix" row-by-row, starting with + // the second row. + for (uint32_t ti = 1; ti <= tLen; ti++) { + // Initialize the first cell in this row. + currRow[0] = ti; + + // Get the character from "t" that corresponds to this row. + const char16_t tch = t[ti - 1]; + + // Compute the remaining cells in this row, left-to-right, + // starting at the second column (and first character of "s"). + for (uint32_t si = 1; si <= sLen; si++) { + // Get the character from "s" that corresponds to this column, + // compare it to the t-character, and compute the "cost". + const char16_t sch = s[si - 1]; + int cost = (sch == tch) ? 0 : 1; + + // ............ We want to calculate the value of cell "d" from + // ...ab....... the previously calculated (or initialized) cells + // ...cd....... "a", "b", and "c", where d = min(a', b', c'). + // ............ + int aPrime = prevRow[si - 1] + cost; + int bPrime = prevRow[si] + 1; + int cPrime = currRow[si - 1] + 1; + currRow[si] = std::min(aPrime, std::min(bPrime, cPrime)); + } + + // Advance to the next row. The current row becomes the previous + // row and we recycle the old previous row as the new current row. + // We don't need to re-initialize the new current row since we will + // rewrite all of its cells anyway. + int* oldPrevRow = prevRow; + prevRow = currRow; + currRow = oldPrevRow; + } + + // The final result is the value of the last cell in the last row. + // Note that that's now in the "previous" row, since we just swapped them. + *_result = prevRow[sLen]; + return SQLITE_OK; +} + +// This struct is used only by registerFunctions below, but ISO C++98 forbids +// instantiating a template dependent on a locally-defined type. Boo-urns! +struct Functions { + const char* zName; + int nArg; + int enc; + void* pContext; + void (*xFunc)(::sqlite3_context*, int, sqlite3_value**); +}; + +} // namespace + +//////////////////////////////////////////////////////////////////////////////// +//// Exposed Functions + +int registerFunctions(sqlite3* aDB) { + Functions functions[] = { + {"lower", 1, SQLITE_UTF16, 0, caseFunction}, + {"lower", 1, SQLITE_UTF8, 0, caseFunction}, + {"upper", 1, SQLITE_UTF16, (void*)1, caseFunction}, + {"upper", 1, SQLITE_UTF8, (void*)1, caseFunction}, + + {"like", 2, SQLITE_UTF16, 0, likeFunction}, + {"like", 2, SQLITE_UTF8, 0, likeFunction}, + {"like", 3, SQLITE_UTF16, 0, likeFunction}, + {"like", 3, SQLITE_UTF8, 0, likeFunction}, + + {"levenshteinDistance", 2, SQLITE_UTF16, 0, levenshteinDistanceFunction}, + {"levenshteinDistance", 2, SQLITE_UTF8, 0, levenshteinDistanceFunction}, + + {"utf16Length", 1, SQLITE_UTF16, 0, utf16LengthFunction}, + {"utf16Length", 1, SQLITE_UTF8, 0, utf16LengthFunction}, + }; + + int rv = SQLITE_OK; + for (size_t i = 0; SQLITE_OK == rv && i < ArrayLength(functions); ++i) { + struct Functions* p = &functions[i]; + rv = ::sqlite3_create_function(aDB, p->zName, p->nArg, p->enc, p->pContext, + p->xFunc, nullptr, nullptr); + } + + return rv; +} + +//////////////////////////////////////////////////////////////////////////////// +//// SQL Functions + +void caseFunction(sqlite3_context* aCtx, int aArgc, sqlite3_value** aArgv) { + NS_ASSERTION(1 == aArgc, "Invalid number of arguments!"); + + const char16_t* value = + static_cast<const char16_t*>(::sqlite3_value_text16(aArgv[0])); + nsAutoString data(value, + ::sqlite3_value_bytes16(aArgv[0]) / sizeof(char16_t)); + bool toUpper = ::sqlite3_user_data(aCtx) ? true : false; + + if (toUpper) + ::ToUpperCase(data); + else + ::ToLowerCase(data); + + // Set the result. + ::sqlite3_result_text16(aCtx, data.get(), data.Length() * sizeof(char16_t), + SQLITE_TRANSIENT); +} + +/** + * This implements the like() SQL function. This is used by the LIKE operator. + * The SQL statement 'A LIKE B' is implemented as 'like(B, A)', and if there is + * an escape character, say E, it is implemented as 'like(B, A, E)'. + */ +void likeFunction(sqlite3_context* aCtx, int aArgc, sqlite3_value** aArgv) { + NS_ASSERTION(2 == aArgc || 3 == aArgc, "Invalid number of arguments!"); + + if (::sqlite3_value_bytes(aArgv[0]) > SQLITE_MAX_LIKE_PATTERN_LENGTH) { + ::sqlite3_result_error(aCtx, "LIKE or GLOB pattern too complex", + SQLITE_TOOBIG); + return; + } + + if (!::sqlite3_value_text16(aArgv[0]) || !::sqlite3_value_text16(aArgv[1])) + return; + + const char16_t* a = + static_cast<const char16_t*>(::sqlite3_value_text16(aArgv[1])); + int aLen = ::sqlite3_value_bytes16(aArgv[1]) / sizeof(char16_t); + nsDependentString A(a, aLen); + + const char16_t* b = + static_cast<const char16_t*>(::sqlite3_value_text16(aArgv[0])); + int bLen = ::sqlite3_value_bytes16(aArgv[0]) / sizeof(char16_t); + nsDependentString B(b, bLen); + NS_ASSERTION(!B.IsEmpty(), "LIKE string must not be null!"); + + char16_t E = 0; + if (3 == aArgc) + E = static_cast<const char16_t*>(::sqlite3_value_text16(aArgv[2]))[0]; + + nsAString::const_iterator itrString, endString; + A.BeginReading(itrString); + A.EndReading(endString); + nsAString::const_iterator itrPattern, endPattern; + B.BeginReading(itrPattern); + B.EndReading(endPattern); + ::sqlite3_result_int( + aCtx, likeCompare(itrPattern, endPattern, itrString, endString, E)); +} + +void levenshteinDistanceFunction(sqlite3_context* aCtx, int aArgc, + sqlite3_value** aArgv) { + NS_ASSERTION(2 == aArgc, "Invalid number of arguments!"); + + // If either argument is a SQL NULL, then return SQL NULL. + if (::sqlite3_value_type(aArgv[0]) == SQLITE_NULL || + ::sqlite3_value_type(aArgv[1]) == SQLITE_NULL) { + ::sqlite3_result_null(aCtx); + return; + } + + const char16_t* a = + static_cast<const char16_t*>(::sqlite3_value_text16(aArgv[0])); + int aLen = ::sqlite3_value_bytes16(aArgv[0]) / sizeof(char16_t); + + const char16_t* b = + static_cast<const char16_t*>(::sqlite3_value_text16(aArgv[1])); + int bLen = ::sqlite3_value_bytes16(aArgv[1]) / sizeof(char16_t); + + // Compute the Levenshtein Distance, and return the result (or error). + int distance = -1; + const nsDependentString A(a, aLen); + const nsDependentString B(b, bLen); + int status = levenshteinDistance(A, B, &distance); + if (status == SQLITE_OK) { + ::sqlite3_result_int(aCtx, distance); + } else if (status == SQLITE_NOMEM) { + ::sqlite3_result_error_nomem(aCtx); + } else { + ::sqlite3_result_error(aCtx, "User function returned error code", -1); + } +} + +void utf16LengthFunction(sqlite3_context* aCtx, int aArgc, + sqlite3_value** aArgv) { + NS_ASSERTION(1 == aArgc, "Invalid number of arguments!"); + + int len = ::sqlite3_value_bytes16(aArgv[0]) / sizeof(char16_t); + + // Set the result. + ::sqlite3_result_int(aCtx, len); +} + +} // namespace storage +} // namespace mozilla |