/* AMX Assembler * Copyright (C)2004 David "BAILOPAN" Anderson * * This software is provided 'as-is', without any express or implied * warranty. In no event will the authors be held liable for any damages * arising from the use of this software. * * Permission is granted to anyone to use this software for any purpose, * including commercial applications, and to alter it and redistribute it * freely, subject to the following restrictions: * * 1. The origin of this software must not be misrepresented; you must not * claim that you wrote the original software. If you use this software * in a product, an acknowledgment in the product documentation would be * appreciated but is not required. * 2. Altered source versions must be plainly marked as such, and must not be * misrepresented as being the original software. * 3. This notice may not be removed or altered from any source distribution. * * Version: $Id$ */ #include #include "amxasm.h" CExpr::CExpr() { numVal = 0; type = Val_None; block = 0; bDone = false; CError = NULL; } CExpr::CExpr(ErrorMngr *e) { numVal = 0; type = Val_None; block = 0; bDone = false; CError = e; } CExpr::CExpr(ErrorMngr *e, std::string &text) { numVal = 0; type = Val_None; block = 0; CError = e; bDone = false; data.assign(text); } void CExpr::Clear() { if (type == Val_Block && block) delete [] block; numVal = 0; type = Val_None; block = 0; } CExpr::~CExpr() { if (block && type == Val_Block) delete [] block; } char CExpr::IsLiteral(char c) { if (c == '"') return '"'; if (c == '\'') return '\''; return 0; } char CExpr::IsHex(char c) { if (c >= '0' && c <= '9') return c; if (c >= 'A' && c <= 'F') return c; if (c >= 'a' && c <= 'f') return c; return 0; } cExprType CExpr::GetType() { return type; } void CExpr::Set(std::string &text) { data.assign(text); } int CExpr::DeHex(std::string blk) { size_t pos = 0, xc = 0, xpos = 0; /* run through the characters */ for (pos = 0; pos < blk.size(); pos++) { if (blk[pos] == 'x') { xc++; if (xc > 1) break; xpos = pos; } else if (blk[pos] != ' ' && (blk[pos] < '0' || blk[pos] > '9') && (!xc || (xc && !IsHex(blk[pos])))) { CError->ErrorMsg(Err_Unexpected_Char, blk[pos]); return 0; } } if (xc > 1) { CError->ErrorMsg(Err_Unexpected_Char, 'x'); return 0; } if (xc) { if (xpos == 0 || blk[xpos-1] != '0') { if (CError) CError->ErrorMsg(Warning_Hex_Start); } blk.erase(0, xpos+1); pos = 0; int j = 0; while (blk[pos]) { blk[pos] -= 48; if (blk[pos] > 16) blk[pos] -= 7; if (blk[pos] >= 16) blk[pos] -= 32; if (blk[pos] >= 16 || blk[pos] < 0) { if (CError) CError->ErrorMsg(Err_Unexpected_Char, blk[pos]); return 0; } j *= 16; j += blk[pos]; pos++; } return j; } return atoi(blk.c_str()); } int CExpr::Size() { if (type == Val_String || type == Val_Block) return numVal; if (type == Val_Number) return (SMALL_CELL_SIZE/8); return 0; } const char *CExpr::GetString(int *d) { const char *ret = 0; if (type == Val_String) { ret = data.c_str(); if (d != NULL) *d = numVal; } else if (type == Val_Block) { ret = block; if (d != NULL) *d = numVal; } return ret; } int CExpr::GetNumber() { if (type == Val_Float) { memcpy((void*)&numVal, (void*)&fData, sizeof(float)); } return numVal; } /* Returns true if the expr can be evaluated */ int CExpr::Analyze() { size_t pos = 0, xc = 0, xpos = 0, fd = 0; /* run through the characters */ if (data.compare("$") == 0) { return 1; } for (pos = 0; pos < data.size(); pos++) { if (data[pos] == '.') { fd++; if (fd > 1 || xc) return 0; } else if (data[pos] == 'x') { xc++; if (xc > 1 || fd) return 0; xpos = pos; } else if (data[pos] != ' ' && (data[pos] < '0' || data[pos] > '9') && (!xc || (xc && !IsHex(data[pos])))) { return 0; } } return 1; } cExprType CExpr::Evaluate(int symNum) { size_t i = 0; char litc = 0, c = 0; cExprType t = Val_None; std::string num; block = new char[2]; bDone = true; if (data.compare("$") == 0) { type = Val_Number; numVal = CError->CurCip(); Update(); return t; } else { if (CError->IsSymbol(data) || (IsValidSymbol(data) && symNum == Sym_Label)) { type = Val_Number; numVal = CError->DerefSymbol(data, symNum); Update(); return t; } } if (data.find('\'', 0) != std::string::npos || data.find('"', 0) != std::string::npos) { /* STRESS TEST */ for (i=0; iErrorMsg(Err_String_Terminate); t = Val_Error; } else { char cp = data[i+1]; char *nc = 0; if (cp == 't') nc = "\t"; else if (cp == 'n') nc = "\n"; else if (cp == '\\') nc = "\\"; else if (cp == '"') nc = "\""; else if (cp == '\'') nc = "'"; if (nc) { data.replace(i, 2, nc); continue; } } } if (IsLiteral(c) != 0) { if (litc == IsLiteral(c)) { litc = 0; /* The literal has terminated. Expect no more. */ if (i != data.size() - 1) { t = Val_Error; if (CError) CError->ErrorMsg(Err_String_Extra, data[i+1]); } else { /* STRING DISCOVERED */ t = Val_String; /* Erase literals */ data.erase(0, 1); data.erase(data.size()-1, 1); numVal = (int)(data.size()+1); break; } } else { litc = IsLiteral(c); } } } } else if (data.find(' ', 0) != std::string::npos) { /* Build a mem block from values, store length in numVal */ t = Val_Block; size_t pos = 0, npos = 0; numVal = 0; pos = data.find(' ', 0); block[numVal++] = DeHex(data.substr(0, pos)); while ((pos = data.find(' ', pos)) != std::string::npos) { npos = data.find(' ', pos+1); block = (char *)realloc(block, numVal+2); if (npos != std::string::npos) { block[numVal] = (char)DeHex(data.substr(pos, npos-pos)); } else { block[numVal] = (char)DeHex(data.substr(pos)); } pos++; numVal++; } } else { if (data.find('.', 0) != std::string::npos) { /* Get as a float */ fData = (float)atof(data.c_str()); t = Val_Float; memcpy((void*)&numVal, (void*)&fData, sizeof(float)); } else { /* Just get the number */ t = Val_Number; numVal = DeHex(data); char buf[32]; sprintf(buf, "%d", numVal); data.assign(buf); } } if (litc) { if (CError) CError->ErrorMsg(Err_String_Terminate); } type = t; return t; } void CExpr::Not() { if (type != Val_Number) { if (CError) CError->ErrorMsg(Err_Bad_Not); } numVal = ~numVal; } void CExpr::Oper(OpToken op, CExpr &e) { switch (op) { case Token_Xor: { if (e.GetType() != Val_Number) { if (CError) CError->ErrorMsg(Err_Invalid_Operator); } numVal = numVal ^ e.GetNumber(); break; } case Token_Shr: { if (e.GetType() != Val_Number) { if (CError) CError->ErrorMsg(Err_Invalid_Operator); } numVal >>= e.GetNumber(); break; } case Token_Sub: { if (GetType() == Val_Number) { if (e.GetType() == Val_Number) { numVal -= e.GetNumber(); } else if (e.GetType() == Val_Float) { numVal -= (int)e.GetFloat(); } } else if (GetType() == Val_Float) { if (e.GetType() == Val_Number) { fData -= (float)e.GetNumber(); } else if (e.GetType() == Val_Float) { fData -= e.GetFloat(); } } break; } case Token_Mod: { if (e.GetType() != Val_Number) { if (CError) CError->ErrorMsg(Err_Invalid_Operator); } numVal = numVal % e.GetNumber(); break; } case Token_Mul: { if (GetType() == Val_Number) { if (e.GetType() == Val_Number) { numVal *= e.GetNumber(); } else if (e.GetType() == Val_Float) { numVal *= (int)e.GetFloat(); } } else if (GetType() == Val_Float) { if (e.GetType() == Val_Number) { fData *= (float)e.GetNumber(); } else if (e.GetType() == Val_Float) { fData *= e.GetFloat(); } } break; } case Token_Div: { if (GetType() == Val_Number) { if (e.GetType() == Val_Number) { numVal /= e.GetNumber(); } else if (e.GetType() == Val_Float) { numVal /= (int)e.GetFloat(); } } else if (GetType() == Val_Float) { if (e.GetType() == Val_Number) { fData /= (float)e.GetNumber(); } else if (e.GetType() == Val_Float) { fData /= e.GetFloat(); } } break; } case Token_Shl: { if (e.GetType() != Val_Number) { if (CError) CError->ErrorMsg(Err_Invalid_Operator); } numVal <<= e.GetNumber(); break; } case Token_And: { if (e.GetType() != Val_Number) { if (CError) CError->ErrorMsg(Err_Invalid_Operator); } numVal &= e.GetNumber(); break; } case Token_Or: { if (e.GetType() != Val_Number) { if (CError) CError->ErrorMsg(Err_Invalid_Operator); } numVal |= e.GetNumber(); break; } case Token_Add: { if (GetType() == Val_Number) { if (e.GetType() == Val_Number) { numVal += e.GetNumber(); } else if (e.GetType() == Val_Float) { numVal += (int)e.GetFloat(); } } else if (GetType() == Val_Float) { if (e.GetType() == Val_Number) { fData += (float)e.GetNumber(); } else if (e.GetType() == Val_Float) { fData += e.GetFloat(); } } break; } default: { numVal = 0; break; } } Update(); } void CExpr::Update() { if (type == Val_Float) { numVal = (int)fData; } else if (type == Val_Number) { fData = (float)numVal; } if (type != Val_String && type != Val_Block) { char buf[24]; sprintf(buf, "%d", numVal); data.assign(buf); } }