/** */
function CalcBeamPolar($doNorm = false)
{
//{{{
global $POLARIMETER_ID;
foreach (range(0, 3) as $polId) {
$ringId = GetRingId($polId);
//$this->fNorm = $doNorm ? $this->fGlobResult->fNormHJ2PCPolars[$polId]->first : 1.;
//$this->fNorm[$polId] = $doNorm ? getHJPCNorm($this->fRunPeriod, $this->fBeamEnergy, $POLARIMETER_ID[$polId]) : new pair(1, -1);
$this->fNorm[$polId] = $doNorm ? getHJPCNorm($this->fRunPeriod, $this->fBeamEnergy, $POLARIMETER_ID[$polId], $this->fTargetOrients[$polId], $this->fTargetIds[$polId]) : new pair(1, -1);
//$this->fNorm = new pair(1, -1);
$pcPolar = $this->fPCPolars[$polId]->ClonePair();
if ($pcPolar->second >= 0) {
$pcPolar->first *= $this->fNorm[$polId]->first;
$pcPolar->second *= $this->fNorm[$polId]->first;
$this->fBeamPolars[$ringId] = calcWeigtedAvrgErrPairs($this->fBeamPolars[$ringId], $pcPolar);
}
$pcPolarP0 = $this->fPCPolarP0s[$polId]->ClonePair();
if ($pcPolarP0->second >= 0) {
$pcPolarP0->first *= $this->fNorm[$polId]->first;
$pcPolarP0->second *= $this->fNorm[$polId]->first;
$this->fBeamPolarP0s[$ringId] = calcWeigtedAvrgErrPairs($this->fBeamPolarP0s[$ringId], $pcPolarP0);
}
$pcPolarSlope = $this->fPCPolarSlopes[$polId]->ClonePair();
if ($pcPolarSlope->second >= 0) {
$pcPolarSlope->first *= $this->fNorm[$polId]->first;
$pcPolarSlope->second *= $this->fNorm[$polId]->first;
$this->fBeamPolarSlopes[$ringId] = calcWeigtedAvrgErrPairs($this->fBeamPolarSlopes[$ringId], $pcPolarSlope);
}
//print "<pre>\n";
//print "fNorm: ".$this->fNorm;
//print_r($this->fBeamPolars[$ringId]);
//print "</pre>\n";
}
}
/** */
function Process()
{
$beamProfRSet = array();
$beamProfR0Set = array();
$beamProfRSlopeSet = array();
foreach ($this->fFillResults as $fillResult) {
// Process results by polarimeter
foreach (range(0, 3) as $polId) {
$ringId = GetRingId($polId);
$pcPolar = $fillResult->fPCPolars[$polId];
//if ($pcPolar->second < 0) continue;
$this->fAvrgPCPolars[$polId] = calcWeigtedAvrgErrPairs($this->fAvrgPCPolars[$polId], $pcPolar);
$hjPolar = $fillResult->fHJPolars[$ringId];
//if ($hjPolar->second < 0) continue;
$this->fAvrgPCnHJPolars[$polId] = calcWeigtedAvrgErrPairs($this->fAvrgPCnHJPolars[$polId], $pcPolar);
$this->fAvrgHJnPCPolars[$polId] = calcWeigtedAvrgErrPairs($this->fAvrgHJnPCPolars[$polId], $hjPolar);
// Now we can calculate the ratio of HJ to PC polar
$norm = calcDivision($hjPolar, $pcPolar);
$this->fNormHJ2PCPolars[$polId] = calcWeigtedAvrgErrPairs($this->fNormHJ2PCPolars[$polId], $norm);
}
// Process results by ring
foreach (range(1, 2) as $ringId) {
$hjPolar = $fillResult->fHJPolars[$ringId];
//if ($hjPolar->second < 0) continue;
$this->fAvrgHJPolars[$ringId] = calcWeigtedAvrgErrPairs($this->fAvrgHJPolars[$ringId], $hjPolar);
foreach (range(0, 1) as $tgtOrient) {
$beamProfR = $fillResult->fBeamProfRs[$ringId][$tgtOrient];
$beamEnergy = $fillResult->fBeamEnergy;
if ($beamProfR->second >= 0) {
$beamProfRSet[$ringId][$tgtOrient][$beamEnergy][] = $beamProfR;
$beamProfR0Set[$ringId][$tgtOrient][$beamEnergy][] = $fillResult->fBeamProfR0s[$ringId][$tgtOrient];
$beamProfRSlopeSet[$ringId][$tgtOrient][$beamEnergy][] = $fillResult->fBeamProfRSlopes[$ringId][$tgtOrient];
}
$this->fAvrgBeamProfRs[$ringId][$tgtOrient] = calcWeigtedAvrgErrPairs($this->fAvrgBeamProfRs[$ringId][$tgtOrient], $beamProfR);
}
}
}
//print "<pre>\n";
//print_r($beamProfRSet);
//print "</pre>\n";
// calculate profile R value for missing measurements
foreach (range(1, 2) as $ringId) {
foreach (range(0, 1) as $tgtOrient) {
//$ve = new pair(calcWeigtedAvrgErr($beamProfRSet[$ringId][$tgtOrient]), calcWeigtedStdDev( $beamProfRSet[$ringId][$tgtOrient]));
//$this->fMissingBeamProfRs[$ringId][$tgtOrient] = $ve;
$beamProfRSetByRingByTgt = $beamProfRSet[$ringId][$tgtOrient];
foreach ($beamProfRSetByRingByTgt as $beamEnergy => $beamProfRSetByBeamEnergy) {
$v = calcWeigtedAvrgErr($beamProfRSetByBeamEnergy)->first;
$e = calcWeigtedStdDev($beamProfRSetByBeamEnergy)->first;
$this->fMissingBeamProfRs[$ringId][$tgtOrient][$beamEnergy] = new pair($v, $e);
$v = calcWeigtedAvrgErr($beamProfR0Set[$ringId][$tgtOrient][$beamEnergy])->first;
$e = calcWeigtedStdDev($beamProfR0Set[$ringId][$tgtOrient][$beamEnergy])->first;
$this->fMissingBeamProfR0s[$ringId][$tgtOrient][$beamEnergy] = new pair($v, $e);
$v = calcWeigtedAvrgErr($beamProfRSlopeSet[$ringId][$tgtOrient][$beamEnergy])->first;
$e = calcWeigtedStdDev($beamProfRSlopeSet[$ringId][$tgtOrient][$beamEnergy])->first;
$this->fMissingBeamProfRSlopes[$ringId][$tgtOrient][$beamEnergy] = new pair($v, $e);
//print "<pre>\n";
//print_r($this->fMissingBeamProfRs[$ringId][$tgtOrient]);
//print "</pre>\n";
}
}
}
}
