#include "graph_lib.h" #include "debug.h" #include "memory.h" #include static void _InitTree(); static void _InsertNode(int a1); static void _DeleteNode(int a1); // 0x596E90 static int* _dad_2; // 0x596E94 static int _match_length; // 0x596E98 static int _textsize; // 0x596E9C static int* _rson; // 0x596EA0 static int* _lson; // 0x596EA4 static unsigned char* _text_buf; // 0x596EA8 static int _codesize; // 0x596EAC static int _match_position; // 0x44F250 int graphCompress(unsigned char* a1, unsigned char* a2, int a3) { _dad_2 = NULL; _rson = NULL; _lson = NULL; _text_buf = NULL; // NOTE: Original code is slightly different, it uses deep nesting or a // bunch of gotos. _lson = (int*)internal_malloc(sizeof(*_lson) * 4104); _rson = (int*)internal_malloc(sizeof(*_rson) * 4376); _dad_2 = (int*)internal_malloc(sizeof(*_dad_2) * 4104); _text_buf = (unsigned char*)internal_malloc(sizeof(*_text_buf) * 4122); if (_lson == NULL || _rson == NULL || _dad_2 == NULL || _text_buf == NULL) { debugPrint("\nGRAPHLIB: Error allocating compression buffers!\n"); if (_dad_2 != NULL) { internal_free(_dad_2); } if (_rson != NULL) { internal_free(_rson); } if (_lson != NULL) { internal_free(_lson); } if (_text_buf != NULL) { internal_free(_text_buf); } return -1; } _InitTree(); memset(_text_buf, ' ', 4078); int count = 0; int v30 = 0; for (int index = 4078; index < 4096; index++) { _text_buf[index] = *a1++; int v8 = v30++; if (v8 > a3) { break; } count++; } _textsize = count; for (int index = 4077; index > 4059; index--) { _InsertNode(index); } _InsertNode(4078); unsigned char v29[32]; v29[1] = 0; int v3 = 4078; int v4 = 0; int v10 = 0; int v36 = 1; unsigned char v41 = 1; int rc = 0; while (count != 0) { if (count < _match_length) { _match_length = count; } int v11 = v36 + 1; if (_match_length > 2) { v29[v36 + 1] = _match_position; v29[v36 + 2] = ((_match_length - 3) | (_match_position >> 4) & 0xF0); v36 = v11 + 1; } else { _match_length = 1; v29[1] |= v41; int v13 = v36++; v29[v13 + 1] = _text_buf[v3]; } v41 *= 2; if (v41 == 0) { v11 = 0; if (v36 != 0) { for (;;) { v4++; *a2++ = v29[v11 + 1]; if (v4 > a3) { rc = -1; break; } v11++; if (v11 >= v36) { break; } } if (rc == -1) { break; } } _codesize += v36; v29[1] = 0; v36 = 1; v41 = 1; } int v16; int v38 = _match_length; for (v16 = 0; v16 < v38; v16++) { unsigned char v34 = *a1++; int v17 = v30++; if (v17 >= a3) { break; } _DeleteNode(v10); unsigned char* v19 = _text_buf + v10; _text_buf[v10] = v34; if (v10 < 17) { v19[4096] = v34; } v3 = (v3 + 1) & 0xFFF; v10 = (v10 + 1) & 0xFFF; _InsertNode(v3); } for (; v16 < v38; v16++) { _DeleteNode(v10); v3 = (v3 + 1) & 0xFFF; v10 = (v10 + 1) & 0xFFF; if (--count != 0) { _InsertNode(v3); } } } if (rc != -1) { for (int v23 = 0; v23 < v36; v23++) { v4++; v10++; *a2++ = v29[v23 + 1]; if (v10 > a3) { rc = -1; break; } } _codesize += v36; } internal_free(_lson); internal_free(_rson); internal_free(_dad_2); internal_free(_text_buf); if (rc == -1) { v4 = -1; } return v4; } // 0x44F5F0 static void _InitTree() { for (int index = 4097; index < 4353; index++) { _rson[index] = 4096; } for (int index = 0; index < 4096; index++) { _dad_2[index] = 4096; } } // 0x44F63C static void _InsertNode(int a1) { _lson[a1] = 4096; _rson[a1] = 4096; _match_length = 0; unsigned char* v2 = _text_buf + a1; int v21 = 4097 + _text_buf[a1]; int v5 = 1; for (;;) { int v6 = v21; if (v5 < 0) { if (_lson[v6] == 4096) { _lson[v6] = a1; _dad_2[a1] = v21; return; } v21 = _lson[v6]; } else { if (_rson[v6] == 4096) { _rson[v6] = a1; _dad_2[a1] = v21; return; } v21 = _rson[v6]; } int v9; unsigned char* v10 = v2 + 1; int v11 = v21 + 1; for (v9 = 1; v9 < 18; v9++) { v5 = *v10 - _text_buf[v11]; if (v5 != 0) { break; } v10++; v11++; } if (v9 > _match_length) { _match_length = v9; _match_position = v21; if (v9 >= 18) { break; } } } _dad_2[a1] = _dad_2[v21]; _lson[a1] = _lson[v21]; _rson[a1] = _rson[v21]; _dad_2[_lson[v21]] = a1; _dad_2[_rson[v21]] = a1; if (_rson[_dad_2[v21]] == v21) { _rson[_dad_2[v21]] = a1; } else { _lson[_dad_2[v21]] = a1; } _dad_2[v21] = 4096; } // 0x44F7EC static void _DeleteNode(int a1) { if (_dad_2[a1] != 4096) { int v5; if (_rson[a1] == 4096) { v5 = _lson[a1]; } else { if (_lson[a1] == 4096) { v5 = _rson[a1]; } else { v5 = _lson[a1]; if (_rson[v5] != 4096) { do { v5 = _rson[v5]; } while (_rson[v5] != 4096); _rson[_dad_2[v5]] = _lson[v5]; _dad_2[_lson[v5]] = _dad_2[v5]; _lson[v5] = _lson[a1]; _dad_2[_lson[a1]] = v5; } _rson[v5] = _rson[a1]; _dad_2[_rson[a1]] = v5; } } _dad_2[v5] = _dad_2[a1]; if (_rson[_dad_2[a1]] == a1) { _rson[_dad_2[a1]] = v5; } else { _lson[_dad_2[a1]] = v5; } _dad_2[a1] = 4096; } } // 0x44F92C int graphDecompress(unsigned char* src, unsigned char* dest, int length) { _text_buf = (unsigned char*)internal_malloc(sizeof(*_text_buf) * 4122); if (_text_buf == NULL) { debugPrint("\nGRAPHLIB: Error allocating decompression buffer!\n"); return -1; } int v8 = 4078; memset(_text_buf, ' ', v8); int v21 = 0; int index = 0; while (index < length) { v21 >>= 1; if ((v21 & 0x100) == 0) { v21 = *src++; v21 |= 0xFF00; } if ((v21 & 0x01) == 0) { int v10 = *src++; int v11 = *src++; v10 |= (v11 & 0xF0) << 4; v11 &= 0x0F; v11 += 2; for (int v16 = 0; v16 <= v11; v16++) { int v17 = (v10 + v16) & 0xFFF; unsigned char ch = _text_buf[v17]; _text_buf[v8] = ch; *dest++ = ch; v8 = (v8 + 1) & 0xFFF; index++; if (index >= length) { break; } } } else { unsigned char ch = *src++; _text_buf[v8] = ch; *dest++ = ch; v8 = (v8 + 1) & 0xFFF; index++; } } internal_free(_text_buf); return 0; }