#include "dictionary.h" #include #include #include #include // 0x51E408 MallocProc* gDictionaryMallocProc = dictionaryMallocDefaultImpl; // 0x51E40C ReallocProc* gDictionaryReallocProc = dictionaryReallocDefaultImpl; // 0x51E410 FreeProc* gDictionaryFreeProc = dictionaryFreeDefaultImpl; // 0x4D9B90 void* dictionaryMallocDefaultImpl(size_t size) { return malloc(size); } // 0x4D9B98 void* dictionaryReallocDefaultImpl(void* ptr, size_t newSize) { return realloc(ptr, newSize); } // 0x4D9BA0 void dictionaryFreeDefaultImpl(void* ptr) { free(ptr); } // 0x4D9BA8 int dictionaryInit(Dictionary* dictionary, int initialCapacity, size_t valueSize, void* a4) { dictionary->entriesCapacity = initialCapacity; dictionary->valueSize = valueSize; dictionary->entriesLength = 0; if (a4 != NULL) { // NOTE: There is some structure pointed by [a4] with 5 fields. They are // either memcopied or assigned one by one into field_10 - field_20 // respectively. This parameter is always NULL, so I doubt it's possible // to understand it's meaning. There are some hints in the unused // functions though. assert(false && "Not implemented"); } else { dictionary->field_10 = 0; dictionary->field_14 = 0; dictionary->field_18 = 0; dictionary->field_1C = 0; } int rc = 0; if (initialCapacity != 0) { dictionary->entries = (DictionaryEntry*)gDictionaryMallocProc(sizeof(*dictionary->entries) * initialCapacity); if (dictionary->entries == NULL) { rc = -1; } } else { dictionary->entries = NULL; } if (rc != -1) { dictionary->marker = DICTIONARY_MARKER; } return rc; } // 0x4D9C0C int dictionarySetCapacity(Dictionary* dictionary, int newCapacity) { if (dictionary->marker != DICTIONARY_MARKER) { return -1; } if (newCapacity < dictionary->entriesLength) { return -1; } DictionaryEntry* entries = (DictionaryEntry*)gDictionaryReallocProc(dictionary->entries, sizeof(*dictionary->entries) * newCapacity); if (entries == NULL) { return -1; } dictionary->entriesCapacity = newCapacity; dictionary->entries = entries; return 0; } // 0x4D9C48 int dictionaryFree(Dictionary* dictionary) { if (dictionary->marker != DICTIONARY_MARKER) { return -1; } for (int index = 0; index < dictionary->entriesLength; index++) { DictionaryEntry* entry = &(dictionary->entries[index]); if (entry->key != NULL) { gDictionaryFreeProc(entry->key); } if (entry->value != NULL) { gDictionaryFreeProc(entry->value); } } if (dictionary->entries != NULL) { gDictionaryFreeProc(dictionary->entries); } memset(dictionary, 0, sizeof(*dictionary)); return 0; } // Finds index for the given key. // // Returns 0 if key is found. Otherwise returns -1, in this case [indexPtr] // specifies an insertion point for given key. // // 0x4D9CC4 int dictionaryFindIndexForKey(Dictionary* dictionary, const char* key, int* indexPtr) { if (dictionary->marker != DICTIONARY_MARKER) { return -1; } if (dictionary->entriesLength == 0) { *indexPtr = 0; return -1; } int r = dictionary->entriesLength - 1; int l = 0; int mid = 0; int cmp = 0; while (r >= l) { mid = (l + r) / 2; cmp = stricmp(key, dictionary->entries[mid].key); if (cmp == 0) { break; } if (cmp > 0) { l = l + 1; } else { r = r - 1; } } if (cmp == 0) { *indexPtr = mid; return 0; } if (cmp < 0) { *indexPtr = mid; } else { *indexPtr = mid + 1; } return -1; } // Returns the index of the entry for the specified key, or -1 if it's not // present in the dictionary. // // 0x4D9D5C int dictionaryGetIndexByKey(Dictionary* dictionary, const char* key) { if (dictionary->marker != DICTIONARY_MARKER) { return -1; } int index; if (dictionaryFindIndexForKey(dictionary, key, &index) != 0) { return -1; } return index; } // Adds key-value pair to the dictionary if the specified key is not already // present. // // Returns 0 on success, or -1 on any error (including key already exists // error). // // 0x4D9D88 int dictionaryAddValue(Dictionary* dictionary, const char* key, const void* value) { if (dictionary->marker != DICTIONARY_MARKER) { return -1; } int newElementIndex; if (dictionaryFindIndexForKey(dictionary, key, &newElementIndex) == 0) { // Element for this key is already exists. return -1; } if (dictionary->entriesLength == dictionary->entriesCapacity) { // Dictionary reached it's capacity and needs to be enlarged. if (dictionarySetCapacity(dictionary, 2 * (dictionary->entriesCapacity + 1)) == -1) { return -1; } } // Make a copy of the key. char* keyCopy = (char*)gDictionaryMallocProc(strlen(key) + 1); if (keyCopy == NULL) { return -1; } strcpy(keyCopy, key); // Make a copy of the value. void* valueCopy = NULL; if (value != NULL && dictionary->valueSize != 0) { valueCopy = gDictionaryMallocProc(dictionary->valueSize); if (valueCopy == NULL) { gDictionaryFreeProc(keyCopy); return -1; } } if (valueCopy != NULL && dictionary->valueSize != 0) { memcpy(valueCopy, value, dictionary->valueSize); } // Starting at the end of entries array loop backwards and move entries down // one by one until we reach insertion point. for (int index = dictionary->entriesLength; index > newElementIndex; index--) { DictionaryEntry* src = &(dictionary->entries[index - 1]); DictionaryEntry* dest = &(dictionary->entries[index]); memcpy(dest, src, sizeof(*dictionary->entries)); } DictionaryEntry* entry = &(dictionary->entries[newElementIndex]); entry->key = keyCopy; entry->value = valueCopy; dictionary->entriesLength++; return 0; } // Removes key-value pair from the dictionary if specified key is present in // the dictionary. // // Returns 0 on success, -1 on any error (including key not present error). // // 0x4D9EE8 int dictionaryRemoveValue(Dictionary* dictionary, const char* key) { if (dictionary->marker != DICTIONARY_MARKER) { return -1; } int indexToRemove; if (dictionaryFindIndexForKey(dictionary, key, &indexToRemove) == -1) { return -1; } DictionaryEntry* entry = &(dictionary->entries[indexToRemove]); // Free key and value (which are copies). gDictionaryFreeProc(entry->key); if (entry->value != NULL) { gDictionaryFreeProc(entry->value); } dictionary->entriesLength--; // Starting from the index of the entry we've just removed, loop thru the // remaining of the array and move entries up one by one. for (int index = indexToRemove; index < dictionary->entriesLength; index++) { DictionaryEntry* src = &(dictionary->entries[index + 1]); DictionaryEntry* dest = &(dictionary->entries[index]); memcpy(dest, src, sizeof(*dictionary->entries)); } return 0; } // 0x4DA498 void dictionarySetMemoryProcs(MallocProc* mallocProc, ReallocProc* reallocProc, FreeProc* freeProc) { if (mallocProc != NULL && reallocProc != NULL && freeProc != NULL) { gDictionaryMallocProc = mallocProc; gDictionaryReallocProc = reallocProc; gDictionaryFreeProc = freeProc; } else { gDictionaryMallocProc = dictionaryMallocDefaultImpl; gDictionaryReallocProc = dictionaryReallocDefaultImpl; gDictionaryFreeProc = dictionaryFreeDefaultImpl; } }