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APM_PerfMon - removed because it's too big to use with our limited memory now anyway! I have a backup in case we need to resurrect it in the future.

This commit is contained in:
Randy Mackay 2012-02-05 11:11:59 +09:00
parent 498970a948
commit 90b39609c6
3 changed files with 0 additions and 295 deletions
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201
libraries/APM_PerfMon/APM_PerfMon.cpp
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extern "C" {
// AVR LibC Includes
#include "WConstants.h"
}
#include "APM_PerfMon.h"
// don't know why i need these
// see http://www.avrfreaks.net/index.php?name=PNphpBB2&file=viewtopic&p=410870
int __cxa_guard_acquire(__guard *g) {return !*(char *)(g);};
void __cxa_guard_release (__guard *g) {*(char *)g = 1;};
void __cxa_guard_abort (__guard *) {};
// static class variable definitions
int APM_PerfMon::nextFuncNum;
char APM_PerfMon::functionNames[PERFMON_MAX_FUNCTIONS][PERFMON_FUNCTION_NAME_LENGTH];
unsigned long APM_PerfMon::time[PERFMON_MAX_FUNCTIONS];
unsigned long APM_PerfMon::numCalls[PERFMON_MAX_FUNCTIONS];
unsigned long APM_PerfMon::allStartTime;
unsigned long APM_PerfMon::allEndTime;
APM_PerfMon* APM_PerfMon::lastCreated = NULL;
// constructor
APM_PerfMon::APM_PerfMon(int funcNum)
{
// stop recording time from parent
if( lastCreated != NULL )
lastCreated->stop();
// check global start time
if( allStartTime == 0 )
allStartTime = micros();
_funcNum = funcNum; // record which function we should assign time to
_parent = lastCreated; // add pointer to parent
lastCreated = this; // record myself as the last created instance
numCalls[_funcNum]++; // record that this function has been called
start(); // start recording time spent in this function
}
// destructor
APM_PerfMon::~APM_PerfMon()
{
stop(); // stop recording time spent in this function
lastCreated = _parent; // make my parent the last created instance
// restart recording time for parent
if( lastCreated != NULL )
lastCreated->start();
}
// stop recording time
void APM_PerfMon::stop()
{
time[_funcNum] += (micros()-_startTime);
}
// stop recording time
void APM_PerfMon::start()
{
_startTime = micros(); // restart recording time spent in this function
}
// record function name in static list
int APM_PerfMon::recordFunctionName(const char funcName[])
{
int nextNum = nextFuncNum++;
int i;
// clear existing function name (if any)
functionNames[nextNum][0] = 0;
// store function name
for( i=0; i<PERFMON_FUNCTION_NAME_LENGTH-1 && funcName[i] != 0; i++ )
{
functionNames[nextNum][i] = funcName[i];
}
functionNames[nextNum][i] = 0;
return nextNum;
}
// ClearAll - clears all data from static members
void APM_PerfMon::ClearAll()
{
int i;
APM_PerfMon *p = lastCreated;
for(i=0; i<PERFMON_MAX_FUNCTIONS; i++)
{
time[i] = 0; // reset times
numCalls[i] = 0; // reset num times called
}
// reset start time to now
allStartTime = micros();
allEndTime = 0;
// reset start times of any active counters
while( p != NULL ) {
p->_startTime = allStartTime;
p = p->_parent;
}
}
// ClearAll - clears all data from static members
void APM_PerfMon::DisplayResults(HardwareSerial* aSerial)
{
int i,j,k,padding,changed;
float hz;
float pct;
unsigned long totalTime;
unsigned long sumOfTime = 0;
unsigned long unExplainedTime;
int order[PERFMON_MAX_FUNCTIONS];
APM_PerfMon* p = lastCreated;
// record end time
if( allEndTime == 0 )
allEndTime = micros();
// turn off any time recording
if( lastCreated != NULL )
lastCreated->stop();
// reorder results
for(i=0; i<nextFuncNum; i++)
order[i] = i;
changed=0;
do{
changed = 0;
for(i=0; i<nextFuncNum-1; i++)
if(time[order[i]]<time[order[i+1]])
{
j = order[i];
order[i] = order[i+1];
order[i+1] = j;
changed = 1;
}
}while(changed != 0);
// sort results
totalTime = allEndTime - allStartTime;
aSerial->print("PerfMon start:");
aSerial->print(allStartTime/1000);
aSerial->print(" (mils) end:");
aSerial->print(allEndTime/1000);
aSerial->print(" (mils) elapsed:");
aSerial->print(totalTime/1000);
aSerial->print(" (mils)");
aSerial->println();
aSerial->println("PerfMon: \tcpu%\tmils\t#called\tHz");
for( i=0; i<nextFuncNum; i++ )
{
j=order[i];
sumOfTime += time[j];
hz = numCalls[j]/(totalTime/1000000);
pct = ((float)time[j] / (float)totalTime) * 100.0;
padding = PERFMON_FUNCTION_NAME_LENGTH - strLen(functionNames[j]);
aSerial->print(functionNames[j]);
for(k=0;k<padding;k++)
aSerial->print(" ");
aSerial->print("\t");
aSerial->print(pct);
aSerial->print("%\t");
aSerial->print(time[j]/1000);
aSerial->print("\t");
aSerial->print(numCalls[j]);
aSerial->print("\t");
aSerial->print(hz,0);
aSerial->print("hz");
aSerial->println();
}
// display unexplained time
if( sumOfTime >= totalTime )
unExplainedTime = 0;
else
unExplainedTime = totalTime - sumOfTime;
pct = ((float)unExplainedTime / (float)totalTime) * 100.0;
aSerial->print("unexplained \t");
aSerial->print(pct);
aSerial->print("%\t");
aSerial->print(unExplainedTime/1000);
aSerial->println();
// turn back on any time recording
if( lastCreated != NULL )
lastCreated->start();
}
int APM_PerfMon::strLen(char* str)
{
int i = 0;
while( str[i] != 0 )
i++;
return i;
}

49
libraries/APM_PerfMon/APM_PerfMon.h
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#ifndef APM_PerfMon_h
#define APM_PerfMon_h
// macros to make integrating into code easier
#define APM_PERFMON_REGISTER static int myFunc = APM_PerfMon::recordFunctionName(__func__); APM_PerfMon perfMon(myFunc);
#define APM_PERFMON_REGISTER_NAME(functionName) static int myFunc = APM_PerfMon::recordFunctionName(functionName); APM_PerfMon perfMon(myFunc);
#define PERFMON_MAX_FUNCTIONS 50
#define PERFMON_FUNCTION_NAME_LENGTH 20
__extension__ typedef int __guard __attribute__((mode (__DI__)));
extern "C" int __cxa_guard_acquire(__guard *);
extern "C" void __cxa_guard_release (__guard *);
extern "C" void __cxa_guard_abort (__guard *);
#include "HardwareSerial.h"
class APM_PerfMon
{
public:
// static variables
static int nextFuncNum;
static char functionNames[PERFMON_MAX_FUNCTIONS][PERFMON_FUNCTION_NAME_LENGTH];
static unsigned long time[PERFMON_MAX_FUNCTIONS];
static unsigned long numCalls[PERFMON_MAX_FUNCTIONS];
static unsigned long allStartTime;
static unsigned long allEndTime;
static APM_PerfMon* lastCreated;
// static methods
static int recordFunctionName(const char funcName[]);
static void DisplayResults(HardwareSerial* aSerial);
static void ClearAll();
static int strLen(char* str);
// normal variables
int _funcNum;
unsigned long _startTime;
APM_PerfMon* _parent;
// normal methods
APM_PerfMon(int funcNum); // Constructor - records function start time
~APM_PerfMon(); // Destructor - records function end time
void stop(); // stops recording time spent in this function - meant to be called by a child.
void start(); // restarts recording time spent in this function
};
#endif // APM_PerfMon_h

45
libraries/APM_PerfMon/APM_PerfMon_test/APM_PerfMon_test.pde
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/*
APM_PerfMon
Code by Randy Mackay
*/
#include "APM_PerfMon.h" // PerfMonitor library
void setup()
{
APM_PERFMON_REGISTER_NAME("setupA")
Serial.begin(115200);
Serial.println("Performance Monitor test v1.0");
}
void loop()
{
APM_PERFMON_REGISTER
int i = 0;
for( i=0; i<100; i++ )
{
testFunction();
}
APM_PerfMon::DisplayResults(&Serial);
delay(10000);
APM_PerfMon::ClearAll();
}
void testFunction()
{
APM_PERFMON_REGISTER
delay(10);
testFunction2();
delay(10);
}
void testFunction2()
{
APM_PERFMON_REGISTER
delay(10);
}