//void registerExtension() {};
+const char* expression = "(;.*)|(r0)|(rX)|(r1[0-5])|(r[1-5])|(r[6-9])|(0x[a-fA-F0-9]+)|([-]?\\d+)";
+const char* format = "(?1$&)"
+ //Return-Register: violett
+ "(?2\033[0m\033[35m$&\033[0m\\3:)"
+ // Callee-saved Register: rot
+ "(?4\033[0m\033[31m$&\033[0m\\3:)"
+ //Argument-Register: gruen
+ "(?5\033[0m\033[32m$&\033[0m\\3:)"
+ // Temporary Register: gelb
+ "(?6\033[0m\033[33m$&\033[0m\\3:)"
+ // Zahlenwerte: tuerkis
+ "(?7\033[0m\033[36m$&\033[0m\\3:)"
+ "(?8\033[0m\033[36m$&\033[0m\\3:)";
+
+
+string CCpu::colorifyInstr(string instr)
+{
+ boost::regex e;
+ e.assign(expression);
+ return boost::regex_replace(instr, e, format, boost::match_default | boost::format_all);
+}
+
+void CCpu::registerExtension(Iext* ext)
+{
+ m_exts.push_back(ext);
+}
+
+void CCpu::applyToExtensions(const vector<string>& in)
+{
+ for(auto iter = m_exts.begin(); iter != m_exts.end(); ++iter) {
+ (*iter)->parseInput(in);
+ }
+}
+
+void CCpu::breakNext()
+{
+ m_breakNext = true;
+}
+
+bool CCpu::shouldBreak()
+{
+ return m_breakNext;
+}
+
void CCpu::tick()
{
// signal extensions
m_pc = m_pc_next;
m_pc_next += 4;
Iinstr* instr = this->getProg(m_pc);
+
if(instr == NULL) {
throw string("Out of Instructions!");
}
+
+ for(auto iter = m_exts.begin(); iter != m_exts.end(); ++iter) {
+ (*iter)->applyTick();
+ }
+
if(this->conditionMet(instr->getCondition())) {
- cout << "Executing: " << instr->toString() << endl;
+ cout << color(green,black) << "Executing: " << color(white,black) << colorifyInstr(instr->toString()) << " (0x" << std::hex << m_pc << std::dec << ")" << endl;
instr->execInstr();
+ this->incPerfBy(instr->getClockCount());
}
else {
- cout << "Didn't Execute " << instr->toString() << "; condition wasn't met" << endl;
+ cout << color(red,black) << "Didn't Execute " << color(white,black) << colorifyInstr(instr->toString()) << "; condition wasn't met" << endl;
+ this->incPerf();
}
}
return psw;
}
+void CCpu::setFlags(CDat psw) {
+ this->m_Z = ((psw & 0x1) != 0);
+ this->m_O = ((psw & 0x2) != 0);
+ this->m_C = ((psw & 0x4) != 0);
+ this->m_S = ((psw & 0x8) != 0);
+}
+
void CCpu::updateFlags(CDat val) {
this->m_Z = (val == 0);
this->m_S = ((val >> (BIT_LEN-1)) & 0x1);
this->m_Z = (val == 0);
this->m_S = ((val >> (BIT_LEN-1)) & 0x1);
this->m_C = ((val >> (BIT_LEN)) & 0x1);
- bool v = (((a ^ b) >> (BIT_LEN-1)) & 0x1) ? true : false;
- this->m_O = (this->m_S != v);
+ bool a_31 = ((a >> (BIT_LEN-1)) & 0x1);
+ bool b_31 = ((b >> (BIT_LEN-1)) & 0x1);
+ bool val_31 = ((val >> (BIT_LEN-1)) & 0x1);
+ this->m_O = ((a_31 && b_31 && !val_31) || (!a_31 && !b_31 && val_31));
}
void CCpu::updateCarry(bool c)
CDat CCpu::getRAM(const int addr) const
{
- return m_ram.get(addr);
+ if((addr & EXT_MODEL_OFFSET) == 0) {
+ return m_ram.get(addr);
+ }
+ else {
+ CDat result = 0;
+ for(auto iter = m_exts.begin(); iter != m_exts.end(); ++iter) {
+ result = (*iter)->readData(addr);
+ if(result != 0) {
+ break;
+ }
+ }
+ return result;
+ }
}
+
void CCpu::setRAM(const int addr, CDat data)
{
- m_ram.set(addr, data);
+ if((addr & EXT_MODEL_OFFSET) == 0) {
+ m_ram.set(addr, data);
+ }
+ else {
+ for(auto iter = m_exts.begin(); iter != m_exts.end(); ++iter) {
+ (*iter)->loadData(addr, data);
+ }
+ }
}
void CCpu::setProg(int addr, Iinstr* instr)
this->m_stack = val;
}
-CCpu::CCpu(int regs, int ram, int prog) : m_Z(false), m_S(false), m_C(false), m_O(false), m_pc(0), m_pc_next(0), m_reg(regs), m_ram(ram), m_prog(prog), m_stack(0)
+CDat CCpu::getPerf() const
+{
+ return this->m_perf;
+}
+
+void CCpu::setPerf(CDat val)
+{
+ this->m_perf = val;
+}
+
+void CCpu::incPerf()
+{
+ this->m_perf++;
+}
+
+void CCpu::incPerfBy(short inc)
+{
+ this->m_perf += inc;
+}
+
+
+CCpu::CCpu(int regs, int ram, int prog) : m_Z(false), m_S(false), m_C(false), m_O(false), m_breakNext(0), m_pc(0), m_pc_next(0), m_perf(0), m_reg(regs), m_ram(ram), m_prog(prog), m_exts(0), m_stack(0)
{
}