refactor: add vss and vcc bools to seg

This commit is contained in:
Christopher Mosher 2013-12-14 01:04:55 -05:00
parent c2a0bd5937
commit a10889ecd8
9 changed files with 49 additions and 47 deletions

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@ -8,7 +8,7 @@
#include "Circuit.h" #include "Circuit.h"
#include "trans.h" #include "trans.h"
Circuit::Circuit(Segment* extendFrom, Segment* VSS, Segment* VCC) : VSS(VSS), VCC(VCC) { Circuit::Circuit(Segment* extendFrom) {
extend(extendFrom); extend(extendFrom);
} }
@ -21,7 +21,7 @@ void Circuit::extend(Segment* extendFrom) {
if (!ret.second) { if (!ret.second) {
return; return;
} }
if (extendFrom == this->VCC || extendFrom == this->VSS) { if (extendFrom->vss || extendFrom->vcc) {
return; return;
} }
@ -52,15 +52,18 @@ void Circuit::extend(Segment* extendFrom) {
*/ */
bool Circuit::getValue() { bool Circuit::getValue() {
/* If group contains ground, it's OFF, */ /* If group contains ground, it's OFF, */
if (contains(this->VSS)) { for (auto s : this->segs) {
if (s->vss) {
return false; return false;
}/* otherwise, if group contains voltage supply, it's ON. */ }
else if (contains(this->VCC)) { }
/* otherwise, if group contains voltage supply, it's ON. */
for (auto s : this->segs) {
if (s->vcc) {
return true; return true;
} }
}
/* otherwise, this test: */
for (auto s : this->segs) { for (auto s : this->segs) {
if (s->pullup) { if (s->pullup) {
return true; return true;

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@ -14,7 +14,7 @@ class Segment;
class Circuit { class Circuit {
public: public:
Circuit(Segment* extendFrom, Segment* VSS, Segment* VCC); Circuit(Segment* extendFrom);
virtual ~Circuit() { virtual ~Circuit() {
} }
@ -29,13 +29,7 @@ private:
void extend(Segment* extendFrom); void extend(Segment* extendFrom);
bool contains(Segment* s) const {
return this->segs.find(s) != this->segs.end();
}
std::set<Segment*> segs; std::set<Segment*> segs;
Segment* VSS;
Segment* VCC;
}; };
#endif /* CIRCUIT_H */ #endif /* CIRCUIT_H */

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@ -69,11 +69,11 @@ void Cpu6502::setSeg(Segment* s, bool on) {
} }
void Cpu6502::recalc(Segment* s) { void Cpu6502::recalc(Segment* s) {
StateCalculator::recalc(s,n->VSS,n->VCC); StateCalculator::recalc(s);
} }
void Cpu6502::recalc(std::set<Segment*> s) { void Cpu6502::recalc(std::set<Segment*> s) {
StateCalculator::recalc(s,n->VSS,n->VCC); StateCalculator::recalc(s);
} }
void Cpu6502::initPins() { void Cpu6502::initPins() {

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@ -42,6 +42,9 @@ void SegmentCache::initCommon() {
get("-pch0"), get("-pch1"), get("-pch2"), get("-pch3"), get("-pch4"), get("-pch5"), get("-pch6"), get("-pch7"), get("-pch0"), get("-pch1"), get("-pch2"), get("-pch3"), get("-pch4"), get("-pch5"), get("-pch6"), get("-pch7"),
get("+Pout0"), get("+Pout1"), get("+Pout2"), get("+Pout3"), get("+Pout4"), /*no P5 */get("+Pout6"), get("+Pout7"), get("+Pout0"), get("+Pout1"), get("+Pout2"), get("+Pout3"), get("+Pout4"), /*no P5 */get("+Pout6"), get("+Pout7"),
get("-s0"), get("-s1"), get("-s2"), get("-s3"), get("-s4"), get("-s5"), get("-s6"), get("-s7")); get("-s0"), get("-s1"), get("-s2"), get("-s3"), get("-s4"), get("-s5"), get("-s6"), get("-s7"));
this->c->VSS->vss = true;
this->c->VCC->vcc = true;
} }
unsigned char SegmentCache::rData() const { unsigned char SegmentCache::rData() const {

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@ -10,9 +10,6 @@
#include "trans.h" #include "trans.h"
#include <set> #include <set>
StateCalculator::StateCalculator(Segment* VSS, Segment* VCC) : VSS(VSS), VCC(VCC) {
}
//void StateCalculator::recalcAll() { //void StateCalculator::recalcAll() {
// std::set<int> riSeg; // std::set<int> riSeg;
// for (int iSeg = 0; iSeg < segs.size(); ++iSeg) { // for (int iSeg = 0; iSeg < segs.size(); ++iSeg) {
@ -21,10 +18,10 @@ StateCalculator::StateCalculator(Segment* VSS, Segment* VCC) : VSS(VSS), VCC(VCC
// recalc(riSeg); // recalc(riSeg);
//} //}
void StateCalculator::recalc(Segment* seg, Segment* VSS, Segment* VCC) { void StateCalculator::recalc(Segment* seg) {
std::set<Segment*> rSeg; std::set<Segment*> rSeg;
rSeg.insert(seg); rSeg.insert(seg);
recalc(rSeg, VSS, VCC); recalc(rSeg);
} }
/* /*
@ -35,7 +32,7 @@ void StateCalculator::recalc(Segment* seg, Segment* VSS, Segment* VCC) {
*/ */
#define SANE (100) #define SANE (100)
void StateCalculator::recalc(const std::set<Segment*>& segs, Segment* VSS, Segment* VCC) { void StateCalculator::recalc(const std::set<Segment*>& segs) {
int sanity(0); int sanity(0);
std::set<Segment*> changed(segs); std::set<Segment*> changed(segs);
@ -44,7 +41,7 @@ void StateCalculator::recalc(const std::set<Segment*>& segs, Segment* VSS, Segme
throw "ERROR: reached maximum iteration limit while recalculating CPU state"; throw "ERROR: reached maximum iteration limit while recalculating CPU state";
} }
StateCalculator c(VSS, VCC); StateCalculator c;
for (auto s : changed) { for (auto s : changed) {
c.recalcNode(s); c.recalcNode(s);
} }
@ -61,8 +58,8 @@ void StateCalculator::recalc(const std::set<Segment*>& segs, Segment* VSS, Segme
* to riSegChanged. * to riSegChanged.
*/ */
void StateCalculator::recalcNode(Segment* seg) { void StateCalculator::recalcNode(Segment* seg) {
if (!(seg == this->VSS || seg == this->VCC)) { if (!(seg->vss || seg->vcc)) {
Circuit c(seg, this->VSS, this->VCC); Circuit c(seg);
for (auto s : c) { for (auto s : c) {
setSeg(s, c.getValue()); setSeg(s, c.getValue());
} }
@ -87,7 +84,7 @@ void StateCalculator::setTrans(Trans* t, const bool on) {
} }
void StateCalculator::addRecalc(Segment* seg) { void StateCalculator::addRecalc(Segment* seg) {
if (!(seg == this->VSS || seg == this->VCC)) { if (!(seg->vss || seg->vcc)) {
this->segs.insert(seg); this->segs.insert(seg);
} }
} }

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@ -15,15 +15,14 @@ class Trans;
class StateCalculator { class StateCalculator {
public: public:
static void recalc(const std::set<Segment*>& rSeg, Segment* VSS, Segment* VCC); static void recalc(const std::set<Segment*>& rSeg);
static void recalc(Segment* seg, Segment* VSS, Segment* VCC); static void recalc(Segment* seg);
private: private:
std::set<Segment*> segs; std::set<Segment*> segs;
Segment* VSS;
Segment* VCC;
StateCalculator(Segment* VSS, Segment* VCC); StateCalculator() {
}
virtual ~StateCalculator() { virtual ~StateCalculator() {
} }

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@ -22,8 +22,8 @@ public:
virtual ~TransNetwork(); virtual ~TransNetwork();
private: private:
TransNetwork(const TransNetwork&); TransNetwork(const TransNetwork&) = delete;
TransNetwork& operator=(const TransNetwork&); TransNetwork& operator=(const TransNetwork&) = delete;
}; };
#endif /* TRANSNETWORK_H */ #endif /* TRANSNETWORK_H */

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@ -23,7 +23,10 @@ public:
bool pulldown; bool pulldown;
bool on; bool on;
Segment(const std::string& id) : id(id), on(false), pulldown(false), pullup(id[0] == '+') { bool vss;
bool vcc;
Segment(const std::string& id) : id(id), on(false), pulldown(false), pullup(id[0] == '+'), vss(false), vcc(false) {
} }
void set(bool up) { void set(bool up) {

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@ -32,17 +32,7 @@
//} //}
int main(int argc, char *argv[]) { int main(int argc, char *argv[]) {
std::ifstream if_trans("transistors");
if (!if_trans.is_open()) {
std::cerr << "error opening file: transistors" << std::endl;
exit(EXIT_FAILURE);
}
TransNetwork tn(if_trans);
AddressBus mem; AddressBus mem;
Trace trace(tn.segs);
Cpu6502 cpu(tn,mem,trace);
/* Load some test program into memory */ /* Load some test program into memory */
mem.write(0x0200, 0xEA); // NOP mem.write(0x0200, 0xEA); // NOP
@ -61,6 +51,19 @@ int main(int argc, char *argv[]) {
std::ifstream if_trans("transistors");
if (!if_trans.is_open()) {
std::cerr << "error opening file: transistors" << std::endl;
exit(EXIT_FAILURE);
}
TransNetwork tn(if_trans);
Trace trace(tn.segs);
Cpu6502 cpu(tn,mem,trace);
/* turn on the CPU */ /* turn on the CPU */
std::cout << "----------------------------------------" << std::endl; std::cout << "----------------------------------------" << std::endl;
std::cout << "begin power-up..." << std::endl; std::cout << "begin power-up..." << std::endl;