/* * Copyright 2006 The Android Open Source Project * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file.
*/
/** * All of the SkTSearch variants want to return the index (0...N-1) of the * found element, or the bit-not of where to insert the element. * * At a simple level, if the return value is negative, it was not found. * * For clients that want to insert the new element if it was not found, use * the following logic: * * int index = SkTSearch(...); * if (index >= 0) { * // found at index * } else { * index = ~index; // now we are positive * // insert at index * }
*/
// The most general form of SkTSearch takes an array of T and a key of type K. A functor, less, is // used to perform comparisons. It has two function operators: // bool operator() (const T& t, const K& k) // bool operator() (const K& t, const T& k) template <typename T, typename K, typename LESS> int SkTSearch(const T base[], int count, const K& key, size_t elemSize, const LESS& less)
{
SkASSERT(count >= 0); if (count <= 0) { return ~0;
}
SkASSERT(base != nullptr); // base may be nullptr if count is zero
int lo = 0; int hi = count - 1;
while (lo < hi) { int mid = lo + ((hi - lo) >> 1); const T* elem = (const T*)((constchar*)base + mid * elemSize);
if (less(*elem, key))
lo = mid + 1; else
hi = mid;
}
const T* elem = (const T*)((constchar*)base + hi * elemSize); if (less(*elem, key)) {
hi += 1;
hi = ~hi;
} elseif (less(key, *elem)) {
hi = ~hi;
} return hi;
}
// Specialization for case when T==K and the caller wants to use a function rather than functor. template <typename T, bool (LESS)(const T&, const T&)> int SkTSearch(const T base[], int count, const T& target, size_t elemSize) { return SkTSearch(base, count, target, elemSize,
[](const T& a, const T& b) { return LESS(a, b); });
}
// Specialization for T==K, compare using op <. template <typename T> int SkTSearch(const T base[], int count, const T& target, size_t elemSize) { return SkTSearch(base, count, target, elemSize, [](const T& a, const T& b) { return a < b; });
}
// Specialization for case where domain is an array of T* and the key value is a T*, and you want // to compare the T objects, not the pointers. template <typename T, bool (LESS)(const T&, const T&)> int SkTSearch(T* base[], int count, T* target, size_t elemSize) { return SkTSearch(base, count, target, elemSize,
[](const T* t, const T* k) { return LESS(*t, *k); });
}
int SkStrSearch(constchar*const* base, int count, constchar target[],
size_t target_len, size_t elemSize); int SkStrSearch(constchar*const* base, int count, constchar target[],
size_t elemSize);
/** Like SkStrSearch, but treats target as if it were all lower-case. Assumes that base points to a table of lower-case strings.
*/ int SkStrLCSearch(constchar*const* base, int count, constchar target[],
size_t target_len, size_t elemSize); int SkStrLCSearch(constchar*const* base, int count, constchar target[],
size_t elemSize);
/** Helper class to convert a string to lower-case, but only modifying the ascii characters. This makes the routine very fast and never changes the string length, but it is not suitable for linguistic purposes. Normally this is used for buiding and searching string tables.
*/ class SkAutoAsciiToLC { public:
SkAutoAsciiToLC(constchar str[], size_t len = (size_t)-1);
~SkAutoAsciiToLC();
private: char* fLC; // points to either the heap or fStorage
size_t fLength; enum {
STORAGE = 64
}; char fStorage[STORAGE+1];
};
// Helper when calling qsort with a compare proc that has typed its arguments #define SkCastForQSort(compare) reinterpret_cast<int (*)(constvoid*, constvoid*)>(compare)
#endif
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