aggregate data array) */ protected $mCollated = array(); /** @var bool */ protected $mCollateDone = false; /** @var bool */ protected $mCollateOnly = false; /** @var array Cache of a standard broken collation entry */ protected $mErrorEntry; /** * @param array $params */ public function __construct( array $params ) { parent::__construct( $params ); $this->mCollateOnly = $this->collateOnly(); $this->addInitialStack(); } /** * Return whether this a stub profiler * * @return bool */ public function isStub() { return false; } /** * Return whether this profiler stores data * * @see Profiler::logData() * @return bool */ public function isPersistent() { return false; } /** * Whether to internally just track aggregates and ignore the full stack trace * * Only doing collation saves memory overhead but limits the use of certain * features like that of graph generation for the debug toolbar. * * @return bool */ protected function collateOnly() { return false; } /** * Add the inital item in the stack. */ protected function addInitialStack() { $this->mErrorEntry = $this->getErrorEntry(); $initialTime = $this->getInitialTime( 'wall' ); $initialCpu = $this->getInitialTime( 'cpu' ); if ( $initialTime !== null && $initialCpu !== null ) { $this->mWorkStack[] = array( '-total', 0, $initialTime, $initialCpu, 0 ); if ( $this->mCollateOnly ) { $this->mWorkStack[] = array( '-setup', 1, $initialTime, $initialCpu, 0 ); $this->profileOut( '-setup' ); } else { $this->mStack[] = array( '-setup', 1, $initialTime, $initialCpu, 0, $this->getTime( 'wall' ), $this->getTime( 'cpu' ), 0 ); } } else { $this->profileIn( '-total' ); } } /** * @return array Initial collation entry */ protected function getZeroEntry() { return array( 'cpu' => 0.0, 'cpu_sq' => 0.0, 'real' => 0.0, 'real_sq' => 0.0, 'memory' => 0, 'count' => 0, 'min_cpu' => 0.0, 'max_cpu' => 0.0, 'min_real' => 0.0, 'max_real' => 0.0, 'periods' => array(), // not filled if mCollateOnly 'overhead' => 0 // not filled if mCollateOnly ); } /** * @return array Initial collation entry for errors */ protected function getErrorEntry() { $entry = $this->getZeroEntry(); $entry['count'] = 1; return $entry; } /** * Update the collation entry for a given method name * * @param string $name * @param float $elapsedCpu * @param float $elapsedReal * @param int $memChange * @param int $subcalls * @param array|null $period Map of ('start','end','memory','subcalls') */ protected function updateEntry( $name, $elapsedCpu, $elapsedReal, $memChange, $subcalls = 0, $period = null ) { $entry =& $this->mCollated[$name]; if ( !is_array( $entry ) ) { $entry = $this->getZeroEntry(); $this->mCollated[$name] =& $entry; } $entry['cpu'] += $elapsedCpu; $entry['cpu_sq'] += $elapsedCpu * $elapsedCpu; $entry['real'] += $elapsedReal; $entry['real_sq'] += $elapsedReal * $elapsedReal; $entry['memory'] += $memChange > 0 ? $memChange : 0; $entry['count']++; $entry['min_cpu'] = $elapsedCpu < $entry['min_cpu'] ? $elapsedCpu : $entry['min_cpu']; $entry['max_cpu'] = $elapsedCpu > $entry['max_cpu'] ? $elapsedCpu : $entry['max_cpu']; $entry['min_real'] = $elapsedReal < $entry['min_real'] ? $elapsedReal : $entry['min_real']; $entry['max_real'] = $elapsedReal > $entry['max_real'] ? $elapsedReal : $entry['max_real']; // Apply optional fields $entry['overhead'] += $subcalls; if ( $period ) { $entry['periods'][] = $period; } } /** * Called by wfProfieIn() * * @param string $functionname */ public function profileIn( $functionname ) { global $wgDebugFunctionEntry; if ( $wgDebugFunctionEntry ) { $this->debug( str_repeat( ' ', count( $this->mWorkStack ) ) . 'Entering ' . $functionname . "\n" ); } $this->mWorkStack[] = array( $functionname, count( $this->mWorkStack ), $this->getTime( 'time' ), $this->getTime( 'cpu' ), memory_get_usage() ); } /** * Called by wfProfieOut() * * @param string $functionname */ public function profileOut( $functionname ) { global $wgDebugFunctionEntry; if ( $wgDebugFunctionEntry ) { $this->debug( str_repeat( ' ', count( $this->mWorkStack ) - 1 ) . 'Exiting ' . $functionname . "\n" ); } $item = array_pop( $this->mWorkStack ); list( $ofname, /* $ocount */, $ortime, $octime, $omem ) = $item; if ( $item === null ) { $this->debugGroup( 'profileerror', "Profiling error: $functionname" ); } else { if ( $functionname === 'close' ) { if ( $ofname !== '-total' ) { $message = "Profile section ended by close(): {$ofname}"; $this->debugGroup( 'profileerror', $message ); if ( $this->mCollateOnly ) { $this->mCollated[$message] = $this->mErrorEntry; } else { $this->mStack[] = array( $message, 0, 0.0, 0.0, 0, 0.0, 0.0, 0 ); } } $functionname = $ofname; } elseif ( $ofname !== $functionname ) { $message = "Profiling error: in({$ofname}), out($functionname)"; $this->debugGroup( 'profileerror', $message ); if ( $this->mCollateOnly ) { $this->mCollated[$message] = $this->mErrorEntry; } else { $this->mStack[] = array( $message, 0, 0.0, 0.0, 0, 0.0, 0.0, 0 ); } } $realTime = $this->getTime( 'wall' ); $cpuTime = $this->getTime( 'cpu' ); if ( $this->mCollateOnly ) { $elapsedcpu = $cpuTime - $octime; $elapsedreal = $realTime - $ortime; $memchange = memory_get_usage() - $omem; $this->updateEntry( $functionname, $elapsedcpu, $elapsedreal, $memchange ); } else { $this->mStack[] = array_merge( $item, array( $realTime, $cpuTime, memory_get_usage() ) ); } $this->trxProfiler->recordFunctionCompletion( $functionname, $realTime - $ortime ); } } /** * Close opened profiling sections */ public function close() { while ( count( $this->mWorkStack ) ) { $this->profileOut( 'close' ); } } /** * Log the data to some store or even the page output */ public function logData() { /* Implement in subclasses */ } /** * Returns a profiling output to be stored in debug file * * @return string */ public function getOutput() { global $wgDebugFunctionEntry, $wgProfileCallTree; $wgDebugFunctionEntry = false; // hack if ( !count( $this->mStack ) && !count( $this->mCollated ) ) { return "No profiling output\n"; } if ( $wgProfileCallTree ) { return $this->getCallTree(); } else { return $this->getFunctionReport(); } } /** * Returns a tree of function call instead of a list of functions * @return string */ protected function getCallTree() { return implode( '', array_map( array( &$this, 'getCallTreeLine' ), $this->remapCallTree( $this->mStack ) ) ); } /** * Recursive function the format the current profiling array into a tree * * @param array $stack Profiling array * @return array */ protected function remapCallTree( array $stack ) { if ( count( $stack ) < 2 ) { return $stack; } $outputs = array(); for ( $max = count( $stack ) - 1; $max > 0; ) { /* Find all items under this entry */ $level = $stack[$max][1]; $working = array(); for ( $i = $max -1; $i >= 0; $i-- ) { if ( $stack[$i][1] > $level ) { $working[] = $stack[$i]; } else { break; } } $working = $this->remapCallTree( array_reverse( $working ) ); $output = array(); foreach ( $working as $item ) { array_push( $output, $item ); } array_unshift( $output, $stack[$max] ); $max = $i; array_unshift( $outputs, $output ); } $final = array(); foreach ( $outputs as $output ) { foreach ( $output as $item ) { $final[] = $item; } } return $final; } /** * Callback to get a formatted line for the call tree * @param array $entry * @return string */ protected function getCallTreeLine( $entry ) { list( $fname, $level, $startreal, , , $endreal ) = $entry; $delta = $endreal - $startreal; $space = str_repeat( ' ', $level ); # The ugly double sprintf is to work around a PHP bug, # which has been fixed in recent releases. return sprintf( "%10s %s %s\n", trim( sprintf( "%7.3f", $delta * 1000.0 ) ), $space, $fname ); } /** * Populate mCollated */ protected function collateData() { if ( $this->mCollateDone ) { return; } $this->mCollateDone = true; $this->close(); // set "-total" entry if ( $this->mCollateOnly ) { return; // already collated as methods exited } $this->mCollated = array(); # Estimate profiling overhead $profileCount = count( $this->mStack ); self::calculateOverhead( $profileCount ); # First, subtract the overhead! $overheadTotal = $overheadMemory = $overheadInternal = array(); foreach ( $this->mStack as $entry ) { // $entry is (name,pos,rtime0,cputime0,mem0,rtime1,cputime1,mem1) $fname = $entry[0]; $elapsed = $entry[5] - $entry[2]; $memchange = $entry[7] - $entry[4]; if ( $fname === '-overhead-total' ) { $overheadTotal[] = $elapsed; $overheadMemory[] = max( 0, $memchange ); } elseif ( $fname === '-overhead-internal' ) { $overheadInternal[] = $elapsed; } } $overheadTotal = $overheadTotal ? array_sum( $overheadTotal ) / count( $overheadInternal ) : 0; $overheadMemory = $overheadMemory ? array_sum( $overheadMemory ) / count( $overheadInternal ) : 0; $overheadInternal = $overheadInternal ? array_sum( $overheadInternal ) / count( $overheadInternal ) : 0; # Collate foreach ( $this->mStack as $index => $entry ) { // $entry is (name,pos,rtime0,cputime0,mem0,rtime1,cputime1,mem1) $fname = $entry[0]; $elapsedCpu = $entry[6] - $entry[3]; $elapsedReal = $entry[5] - $entry[2]; $memchange = $entry[7] - $entry[4]; $subcalls = $this->calltreeCount( $this->mStack, $index ); if ( substr( $fname, 0, 9 ) !== '-overhead' ) { # Adjust for profiling overhead (except special values with elapsed=0 if ( $elapsed ) { $elapsed -= $overheadInternal; $elapsed -= ( $subcalls * $overheadTotal ); $memchange -= ( $subcalls * $overheadMemory ); } } $period = array( 'start' => $entry[2], 'end' => $entry[5], 'memory' => $memchange, 'subcalls' => $subcalls ); $this->updateEntry( $fname, $elapsedCpu, $elapsedReal, $memchange, $subcalls, $period ); } $this->mCollated['-overhead-total']['count'] = $profileCount; arsort( $this->mCollated, SORT_NUMERIC ); } /** * Returns a list of profiled functions. * * @return string */ protected function getFunctionReport() { $this->collateData(); $width = 140; $nameWidth = $width - 65; $format = "%-{$nameWidth}s %6d %13.3f %13.3f %13.3f%% %9d (%13.3f -%13.3f) [%d]\n"; $titleFormat = "%-{$nameWidth}s %6s %13s %13s %13s %9s\n"; $prof = "\nProfiling data\n"; $prof .= sprintf( $titleFormat, 'Name', 'Calls', 'Total', 'Each', '%', 'Mem' ); $total = isset( $this->mCollated['-total'] ) ? $this->mCollated['-total']['real'] : 0; foreach ( $this->mCollated as $fname => $data ) { $calls = $data['count']; $percent = $total ? 100 * $data['real'] / $total : 0; $memory = $data['memory']; $prof .= sprintf( $format, substr( $fname, 0, $nameWidth ), $calls, (float)( $data['real'] * 1000 ), (float)( $data['real'] * 1000 ) / $calls, $percent, $memory, ( $data['min_real'] * 1000.0 ), ( $data['max_real'] * 1000.0 ), $data['overhead'] ); } $prof .= "\nTotal: $total\n\n"; return $prof; } /** * @return array */ public function getRawData() { // This method is called before shutdown in the footer method on Skins. // If some outer methods have not yet called wfProfileOut(), work around // that by clearing anything in the work stack to just the "-total" entry. // Collate after doing this so the results do not include profile errors. if ( count( $this->mWorkStack ) > 1 ) { $oldWorkStack = $this->mWorkStack; $this->mWorkStack = array( $this->mWorkStack[0] ); // just the "-total" one } else { $oldWorkStack = null; } $this->collateData(); // If this trick is used, then the old work stack is swapped back afterwards // and mCollateDone is reset to false. This means that logData() will still // make use of all the method data since the missing wfProfileOut() calls // should be made by the time it is called. if ( $oldWorkStack ) { $this->mWorkStack = $oldWorkStack; $this->mCollateDone = false; } $total = isset( $this->mCollated['-total'] ) ? $this->mCollated['-total']['real'] : 0; $profile = array(); foreach ( $this->mCollated as $fname => $data ) { $periods = array(); foreach ( $data['periods'] as $period ) { $period['start'] *= 1000; $period['end'] *= 1000; $periods[] = $period; } $profile[] = array( 'name' => $fname, 'calls' => $data['count'], 'elapsed' => $data['real'] * 1000, 'percent' => $total ? 100 * $data['real'] / $total : 0, 'memory' => $data['memory'], 'min' => $data['min_real'] * 1000, 'max' => $data['max_real'] * 1000, 'overhead' => $data['overhead'], 'periods' => $periods ); } return $profile; } /** * Dummy calls to wfProfileIn/wfProfileOut to calculate its overhead * @param int $profileCount */ protected static function calculateOverhead( $profileCount ) { wfProfileIn( '-overhead-total' ); for ( $i = 0; $i < $profileCount; $i++ ) { wfProfileIn( '-overhead-internal' ); wfProfileOut( '-overhead-internal' ); } wfProfileOut( '-overhead-total' ); } /** * Counts the number of profiled function calls sitting under * the given point in the call graph. Not the most efficient algo. * * @param array $stack * @param int $start * @return int */ protected function calltreeCount( $stack, $start ) { $level = $stack[$start][1]; $count = 0; for ( $i = $start -1; $i >= 0 && $stack[$i][1] > $level; $i-- ) { $count ++; } return $count; } /** * Get the content type sent out to the client. * Used for profilers that output instead of store data. * @return string */ protected function getContentType() { foreach ( headers_list() as $header ) { if ( preg_match( '#^content-type: (\w+/\w+);?#i', $header, $m ) ) { return $m[1]; } } return null; } }