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More Changes + Suggest your ideas Kevin+Dodd+son+of+Brian+Dodd 17/03/25(Sat)02:02 No. 5028

#include <iostream>
#include <cstdlib>
#include <pthread.h>

using namespace std;

#define NUM_THREADS 10

void *FrontalLobeThread(void *threadid) {
FrontalLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
pthread_exit(NULL);
}

void *BrocasAreaThread(void *threadid) {
BrocasArea();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
pthread_exit(NULL);
}

void *WeenicklesAreaThread(void *threadid) {
WeenicklesArea();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
pthread_exit(NULL);
}

void *ParietalLobeThread(void *threadid) {
ParietalLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
pthread_exit(NULL);
}

void *TemploralLobeThread(void *threadid) {
TemploralLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;

void *OccipitalLobeThread(void *threadid) {
OccipitalLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;

void *HippocampusLobeThread(void *threadid) {
HippocampusLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;

void *AmygdalaLobeThread(void *threadid) {
AmydalaLobeLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;

void *PituitaryThread(void *threadid) {
Pituitary();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;

void *HypothlamusThread(void *threadid) {
Hypothalamus();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;

pthread_exit(NULL);
}

int main () {
pthread_t threads[NUM_THREADS];
int rc;
int i;



rc = pthread_create(&threads[i], NULL, FrontalLObeThread, (void*)i);
i++;
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}
rc = pthread_create(&threads[i], NULL, BrocasAreaThread, (void*)i);
i++;
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}
rc = pthread_create(&threads[i], NULL, WeenicklesThread, (void*)i);
i++;
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}
rc = pthread_create(&threads[i], NULL, ParietalLobeThread, (void*)i);
i++;
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}
rc = pthread_create(&threads[i], NULL, ParietalLobeThread, (void*)i);
i++;
i++;
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}
rc = pthread_create(&threads[i], NULL, TemploralLobeThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}
rc = pthread_create(&threads[i], NULL, OccipitalLobeThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}

rc = pthread_create(&threads[i], NULL, HippocampusLobeThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}

rc = pthread_create(&threads[i], NULL, AmygdalaobeThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}


rc = pthread_create(&threads[i], NULL, PituitaryThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}

rc = pthread_create(&threads[i], NULL, HypothalamusThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}

pthread_exit(NULL);
}

Int BrainWeight = 1400;
Int GlucoseLevel = 14;
Int estrogenLevel;
Int testosteroneLevel;
String sex ="female"; // or male by preference
int sex=0;

int FrontalLobe(){ }

public class FrontalLobe {
//Thought processing, logic processing
long int D1receptors;
long int D2receptors;
long int D3receptors;
long int D4receptors;
long int D5receptors;
long int Dopamine;
int motivation, pleasure, cognition, memory, learning, fine motor control;
//serotonin
long int PFCreceptor;
long int 5-HT1Areceptor;
long int 5-HT2Areceptor;
long int 5-HT3Areceptor;
long int Serotonin;
int working memory, and behavioral flexibility;
String Thought;
int judgment, decision-making skills, attention span, and inhibition;

int ThinkAboutFallacy(){
// read the wiki
// Think about it
// Apply Logic
}

int ThinkAboutLogic(){
// read the wiki
// Think about it
// Apply Logic
}

}

public class BrocasArea {
//language processing
int SortFirstWord() {
incude iostream;
String input;
cin>>input;
switch(input)
case("why"):
break;
case ("what"):
break;
case ("how"):
break;
case("when"):
break;
case("I"):
break;
case("it"):
case("You")
break;
case("she"):
break;
case("he"):
break;
case("they"):
break;
}
}

int GiveStartingPrompt() {
include stdio.h;
include strand.h;
include time.h;

int prompt = rand() % 12 +1;
switch(prompt){
case 1:
cout<<"Talk to me about Physics";
break;
case 2:
break
cout<<"Talk to me about chemistry";
case 3:
cout<<"Talk to me about english";
break;
case 4:
cout<<"Talk to me about Biology";
break;
case 5:
cout<<"Talk to me about Spanish";
break;
case 6:"Talk to me in french";
break;
case 7:
cout<<"talk to me in German";
case 8:
cout<<"Do some math with me";
break;
case 9:
cout<<"Talk to me about political science";
break;
case 10:
cout<<"Talk to me about psychology";
break;
case 11:
cout<<"talk to me about History";
case 12:
cout<<"Talk to me about whatever";
break;
}

}

}

}

int BracasArea(){
// language proccessing
}

public class weenicklesArea {
//voice synthesizing
}

int weenicklesArea (){
// voice synthesizing
}

public class parietalLobe {

}

Public class TemploralLobe{

}

int TemploralLobe(){

}

Public class OccipitalLobe{
// Visual processing
}

int OccipitalLobe(){
//Visual processing
}

public class hippocampus{
//memory and emotions
int emotion1;
int emotion2
int emotion3;
public int SetEmotion1(int emo){
emotion1=emo;
return 0;
}
public int SetEmotion2(int emo){
emotion2=emo;
return 0;
}
public int SetEmotion3(int emo){
emotion3=emo;
return 0;
}

}

Int hippocampus(){
//memory and emotions
}

Public class amygdala {
// part of Limbic system
}
Int amygdala () {
// part of limbic system
}

Public class pituitary{
//endocrine control
}

Int pituitary(){
// endocrine control
}

public class hypothalamus {
//pituitary control, temperature control
}

int hypothalamus(){
// pituitary control, temperature control
}


>>
Amethys Neckbearded Basement Dweller 17/03/25(Sat)07:21 No. 5029

Explain what you're doing, or keep your shit to a single thread please.

I don't know anything about programming but ur gonna get ur ass banned m8.


>>
Neckbearded Basement Dweller 17/03/25(Sat)21:05 No. 5030

I'm attempting to emulate the human brain. Just simply delete the old threads their old. They were getting too long. Plus I wanted to update the pieces into I single thread.


>>
Added Some comments, + fixed some errors Kevn Lee Dodd son of Brian Dodd 17/03/26(Sun)06:01 No. 5031

// Human Emulation Software v 1.0
// Open Source License
// Free to modify, Distribute, and use
// Authors Kevin Lee Dodd

//main.cpp
#include <iostream>
#include <cstdlib>
#include <pthread.h>

using namespace std;

#define NUM_THREADS 10

void *FrontalLobeThread(void *threadid) {
FrontalLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
pthread_exit(NULL);
}

void *BrocasAreaThread(void *threadid) {
BrocasArea();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
pthread_exit(NULL);
}

void *WeenicklesAreaThread(void *threadid) {
WeenicklesArea();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
pthread_exit(NULL);
}

void *ParietalLobeThread(void *threadid) {
ParietalLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
pthread_exit(NULL);
}

void *TemploralLobeThread(void *threadid) {
TemploralLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
}

void *OccipitalLobeThread(void *threadid) {
OccipitalLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
}

void *HippocampusLobeThread(void *threadid) {
HippocampusLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
}

void *AmygdalaLobeThread(void *threadid) {
AmydalaLobeLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
}

void *PituitaryThread(void *threadid) {
Pituitary();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
}

void *HypothlamusThread(void *threadid) {
Hypothalamus();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
}

pthread_exit(NULL);
}

int main () {
pthread_t threads[NUM_THREADS];
int rc;
int i;



rc = pthread_create(&threads[i], NULL, FrontalLObeThread, (void*)i);
i++;
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}
rc = pthread_create(&threads[i], NULL, BrocasAreaThread, (void*)i);
i++;
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}
rc = pthread_create(&threads[i], NULL, WeenicklesThread, (void*)i);
i++;
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}
rc = pthread_create(&threads[i], NULL, ParietalLobeThread, (void*)i);
i++;
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}
rc = pthread_create(&threads[i], NULL, ParietalLobeThread, (void*)i);
i++;
i++;
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}
rc = pthread_create(&threads[i], NULL, TemploralLobeThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}
rc = pthread_create(&threads[i], NULL, OccipitalLobeThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}

rc = pthread_create(&threads[i], NULL, HippocampusLobeThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}

rc = pthread_create(&threads[i], NULL, AmygdalaobeThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}


rc = pthread_create(&threads[i], NULL, PituitaryThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}

rc = pthread_create(&threads[i], NULL, HypothalamusThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}

pthread_exit(NULL);
}


//Int BrainWeight = 1400;
//Int GlucoseLevel = 14;
//Int estrogenLevel;
//Int testosteroneLevel;
//String sex ="female"; // or male by preference
//int sex=0;

// FrontalLobe.cpp
int FrontalLobe(){ }

// FrontalLobe.h
public class FrontalLobe {
//Thought processing, logic processing
long int D1receptors;
long int D2receptors;
long int D3receptors;
long int D4receptors;
long int D5receptors;
long int Dopamine;
int motivation, pleasure, cognition, memory, learning, fine motor control;
//serotonin
long int PFCreceptor;
long int 5-HT1Areceptor;
long int 5-HT2Areceptor;
long int 5-HT3Areceptor;
long int Serotonin;
int working memory, and behavioral flexibility;
String Thought;
int judgment, decision-making skills, attention span, and inhibition;

int ThinkAboutFallacy(){
// read the wiki
// Think about it
// Apply Logic
}

int ThinkAboutLogic(){
// read the wiki
// Think about it
// Apply Logic
}

}

// BrocasArea.h
public class BrocasArea {
//language processing
int SortFirstWord() {
incude iostream;
String input;
cin>>input;
switch(input)
case("why"):
break;
case ("what"):
break;
case ("how"):
break;
case("when"):
break;
case("I"):
break;
case("it"):
case("You")
break;
case("she"):
break;
case("he"):
break;
case("they"):
break;
}
}

int GiveStartingPrompt() {
include stdio.h;
include strand.h;
include time.h;

int prompt = rand() % 12 +1;
switch(prompt){
case 1:
cout<<"Talk to me about Physics";
break;
case 2:
break
cout<<"Talk to me about chemistry";
case 3:
cout<<"Talk to me about english";
break;
case 4:
cout<<"Talk to me about Biology";
break;
case 5:
cout<<"Talk to me about Spanish";
break;
case 6:"Talk to me in french";
break;
case 7:
cout<<"talk to me in German";
case 8:
cout<<"Do some math with me";
break;
case 9:
cout<<"Talk to me about political science";
break;
case 10:
cout<<"Talk to me about psychology";
break;
case 11:
cout<<"talk to me about History";
case 12:
cout<<"Talk to me about whatever";
break;
}

}

}

}

// BrocasArea.cpp
int BracasArea(){
// language proccessing
}

// WeenicklesArea.h
public class weenicklesArea {
//voice synthesizing
}

// weenicklesArea.cpp
int weenicklesArea (){
// voice synthesizing
}

// PareitalLobe.cpp
int parietalLobe(){ }

// ParietalLobe.h
public class parietalLobe { }

// TemportalLobe.h
Public class TemploralLobe{ }

// TemporalLobe.cpp
int TemploralLobe(){ }

// OccipitalLobe.h
Public class OccipitalLobe{
// Visual processing
}

// OccipitalLobe.cpp
int OccipitalLobe(){
//Visual processing
}

// hippocampus.h
public class hippocampus{
//memory and emotions
int emotion1;
int emotion2
int emotion3;
public int SetEmotion1(int emo){
emotion1=emo;
return 0;
}
public int SetEmotion2(int emo){
emotion2=emo;
return 0;
}
public int SetEmotion3(int emo){
emotion3=emo;
return 0;
}

}

//hippocampus.cpp
int hippocampus(){
//memory and emotions
}

// amydala.h
Public class amygdala {
// part of Limbic system
}

// amydala.cpp
int amygdala () {
// part of limbic system
}

// pituitary.h
Public class pituitary{
//endocrine control
}

//pituitary.cpp
int pituitary(){
// endocrine control
}

// hypothalamus.h
public class hypothalamus {
//pituitary control, temperature control
}

// hypothlamus.cpp
int hypothalamus(){
// pituitary control, temperature control
}


>>
Muscle control Kevin Dodd 17/03/26(Sun)08:18 No. 5034

public class muscle {

public int contractCalf(){
}

public int relaxCalf(){

}

}

int muscles(){

}


>>
Classes Objects Declared Kevin+Dodd 17/03/26(Sun)19:45 No. 5035

// Human Emulation Software v 1.0
// Open Source License
// Free to modify, Distribute, and use
// Authors Kevin Lee Dodd

//main.cpp
#include <iostream>
#include <cstdlib>
#include <pthread.h>

using namespace std;

#define NUM_THREADS 10

void *FrontalLobeThread(void *threadid) {
FrontalLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
pthread_exit(NULL);
}

void *BrocasAreaThread(void *threadid) {
BrocasArea();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
pthread_exit(NULL);
}

void *WeenicklesAreaThread(void *threadid) {
WeenicklesArea();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
pthread_exit(NULL);
}

void *ParietalLobeThread(void *threadid) {
ParietalLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
pthread_exit(NULL);
}

void *TemploralLobeThread(void *threadid) {
TemploralLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
}

void *OccipitalLobeThread(void *threadid) {
OccipitalLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
}

void *HippocampusLobeThread(void *threadid) {
HippocampusLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
}

void *AmygdalaLobeThread(void *threadid) {
AmydalaLobeLobe();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
}

void *PituitaryThread(void *threadid) {
Pituitary();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
}

void *HypothlamusThread(void *threadid) {
Hypothalamus();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
}

void *MusclesThread(void *threadid) {
Hypothalamus();
long tid;
tid = (long)threadid;
cout << "Hello World! Thread ID, " << tid << endl;
}


pthread_exit(NULL);
}

int main () {
pthread_t threads[NUM_THREADS];
int rc;
int i;

String sex ="male"; // or female by preference
int sex=1;
int age;
String Birthday;

FrontalLobe FrontalLobeObj;
BrocasArea BrocasAreaObj;
WeenicklesArea WeenicklesObj;
ParietalLobe ParietalLobeObj;
TemploralLobe TemploralLobeObj;
OccipitalLobe OccipitalLobeObj;
Hippocampus HippocampusObj;
Amygda AmygdaObj;
Pituitary PituitaryObj;
Hypothalamus HypothalamusObj;
Muscles MusclesObj;

rc = pthread_create(&threads[i], NULL, FrontalLObeThread, (void*)i);
i++;
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}
rc = pthread_create(&threads[i], NULL, BrocasAreaThread, (void*)i);
i++;
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}
rc = pthread_create(&threads[i], NULL, WeenicklesThread, (void*)i);
i++;
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}
rc = pthread_create(&threads[i], NULL, ParietalLobeThread, (void*)i);
i++;
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}

rc = pthread_create(&threads[i], NULL, TemploralLobeThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}
rc = pthread_create(&threads[i], NULL, OccipitalLobeThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}

rc = pthread_create(&threads[i], NULL, HippocampusThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}

rc = pthread_create(&threads[i], NULL, AmygdaThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}


rc = pthread_create(&threads[i], NULL, PituitaryThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}

rc = pthread_create(&threads[i], NULL, HypothalamusThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}

rc = pthread_create(&threads[i], NULL, MusclesThread, (void*)i);
i++
if (rc){
cout << "Error:unable to create thread," << rc << endl;
exit(-1);
}

pthread_exit(NULL);
}


//Int BrainWeight = 1400;
//Int GlucoseLevel = 14;
//Int estrogenLevel;
//Int testosteroneLevel;


// FrontalLobe.cpp
int FrontalLobe(){ }

// FrontalLobe.h
public class FrontalLobe {
//Thought processing, logic processing
public:
long int D1receptors;
long int D2receptors;
long int D3receptors;
long int D4receptors;
long int D5receptors;
long int Dopamine;
int motivation, pleasure, cognition, memory, learning, fine motor control;
//serotonin
long int PFCreceptor;
long int 5-HT1Areceptor;
long int 5-HT2Areceptor;
long int 5-HT3Areceptor;
long int Serotonin;
int working memory, and behavioral flexibility;
String Thought;
int judgment, decision-making skills, attention span, and inhibition;

int ThinkAboutFallacy(){
// read the wiki
// Think about it
// Apply Logic
}

int ThinkAboutLogic(){
// read the wiki
// Think about it
// Apply Logic
}

}

// BrocasArea.h
public class BrocasArea {
//language processing
int SortFirstWord() {
incude iostream;
String input;
cin>>input;
switch(input)
case("why"):
break;
case ("what"):
break;
case ("how"):
break;
case("when"):
break;
case("I"):
break;
case("it"):
case("You")
break;
case("she"):
break;
case("he"):
break;
case("they"):
break;
} // end sortfirstword

int GiveStartingPrompt() {
include stdio.h;
include strand.h;
include time.h;

int prompt = rand() % 12 +1;
switch(prompt){
case 1:
cout<<"Talk to me about Physics";
break;
case 2:
break
cout<<"Talk to me about chemistry";
case 3:
cout<<"Talk to me about english";
break;
case 4:
cout<<"Talk to me about Biology";
break;
case 5:
cout<<"Talk to me about Spanish";
break;
case 6:"Talk to me in french";
break;
case 7:
cout<<"talk to me in German";
case 8:
cout<<"Do some math with me";
break;
case 9:
cout<<"Talk to me about political science";
break;
case 10:
cout<<"Talk to me about psychology";
break;
case 11:
cout<<"talk to me about History";
case 12:
cout<<"Talk to me about whatever";
break;
} // end GiveStartingPrompt()


} // end class

// BrocasArea.cpp
int BracasArea(){
// language proccessing
}

// WeenicklesArea.h
public class weenicklesArea {
//voice synthesizing
}

// weenicklesArea.cpp
int weenicklesArea (){
// voice synthesizing
}

// PareitalLobe.cpp
int parietalLobe(){ }

// ParietalLobe.h
public class parietalLobe { }

// TemportalLobe.h
Public class TemploralLobe{ }

// TemporalLobe.cpp
int TemploralLobe(){ }

// OccipitalLobe.h
Public class OccipitalLobe{
// Visual processing
}

// OccipitalLobe.cpp
int OccipitalLobe(){
//Visual processing
}

// hippocampus.h
public class hippocampus{
//memory and emotions
public:
int emotion1;
int emotion2
int emotion3;
public int SetEmotion1(int emo){
emotion1=emo;
return 0;
}
public int SetEmotion2(int emo){
emotion2=emo;
return 0;
}
public int SetEmotion3(int emo){
emotion3=emo;
return 0;
}

}

//hippocampus.cpp
int hippocampus(){
//memory and emotions
}

// amydala.h
Public class amygdala {
// part of Limbic system
}

// amydala.cpp
int amygdala () {
// part of limbic system
}

// pituitary.h
Public class pituitary{
//endocrine control
}

//pituitary.cpp
int pituitary(){
// endocrine control
}

// hypothalamus.h
public class hypothalamus {
public:
int CPUtempurtureWarning;
public int ReduceCpuClockspeed(){

}

public int IncreaseCpuClockspeed(){
//pituitary control, temperature control
}

// hypothlamus.cpp
int hypothalamus(){

// pituitary control, temperature control
}

// muscles.h
public class muscles {
public:
public int contractThigh(){
}

public int relaxThigh(){
}

public int contractCalf(){
}

public int relaxCalf(){

}

}

// muscles.cpp
int muscles(){

}



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