/**
* @return IssueInstance[]
*/
public function getCollectedIssues() : array
{
// Read any available issues waiting on the
// message queue
$this->readQueuedIssues();
// Return everything on the base collector
return $this->base_collector->getCollectedIssues();
}
/**
* Analyze the given set of files and emit any issues
* found to STDOUT.
*
* @param CodeBase $code_base
* A code base needs to be passed in because we require
* it to be initialized before any classes or files are
* loaded.
*
* @param string[] $file_path_list
* A list of files to scan
*
* @return bool
* We emit messages to the configured printer and return
* true if issues were found.
*
* @see \Phan\CodeBase
*/
public static function analyzeFileList(CodeBase $code_base, array $file_path_list) : bool
{
$file_count = count($file_path_list);
// We'll construct a set of files that we'll
// want to run an analysis on
$analyze_file_path_list = [];
// This first pass parses code and populates the
// global state we'll need for doing a second
// analysis after.
foreach ($file_path_list as $i => $file_path) {
CLI::progress('parse', ($i + 1) / $file_count);
// Kick out anything we read from the former version
// of this file
$code_base->flushDependenciesForFile($file_path);
// If the file is gone, no need to continue
if (($real = realpath($file_path)) === false || !file_exists($real)) {
continue;
}
try {
// Parse the file
Analysis::parseFile($code_base, $file_path);
// Save this to the set of files to analyze
$analyze_file_path_list[] = $file_path;
} catch (\Throwable $throwable) {
error_log($file_path . ' ' . $throwable->getMessage() . "\n");
}
}
// Don't continue on to analysis if the user has
// chosen to just dump the AST
if (Config::get()->dump_ast) {
exit(EXIT_SUCCESS);
}
// With parsing complete, we need to tell the code base to
// start hydrating any requested elements on their way out.
// Hydration expands class types, imports parent methods,
// properties, etc., and does stuff like that.
//
// This is an optimization that saves us a significant
// amount of time on very large code bases. Instead of
// hydrating all classes, we only hydrate the things we
// actually need. When running as multiple processes this
// lets us only need to do hydrate a subset of classes.
$code_base->setShouldHydrateRequestedElements(true);
// We used to scan all classes here, but now we do it
// on demand after hydration.
// Take a pass over all functions verifying
// various states now that we have the whole
// state in memory
Analysis::analyzeFunctions($code_base);
// Filter out any files that are to be excluded from
// analysis
$analyze_file_path_list = array_filter($analyze_file_path_list, function ($file_path) {
return !self::isExcludedAnalysisFile($file_path);
});
// Get the count of all files we're going to analyze
$file_count = count($analyze_file_path_list);
// Prevent an ugly failure if we have no files to
// analyze.
if (0 == $file_count) {
return false;
}
// Get a map from process_id to the set of files that
// the given process should analyze in a stable order
$process_file_list_map = (new Ordering($code_base))->orderForProcessCount(Config::get()->processes, $analyze_file_path_list);
// This worker takes a file and analyzes it
$analysis_worker = function ($i, $file_path) use($file_count, $code_base) {
CLI::progress('analyze', ($i + 1) / $file_count);
Analysis::analyzeFile($code_base, $file_path);
};
// Determine how many processes we're running on. This may be
// less than the provided number if the files are bunched up
// excessively.
$process_count = count($process_file_list_map);
assert($process_count > 0 && $process_count <= Config::get()->processes, "The process count must be between 1 and the given number of processes. After mapping files to cores, {$process_count} process were set to be used.");
// Check to see if we're running as multiple processes
// or not
if ($process_count > 1) {
// Run analysis one file at a time, splitting the set of
// files up among a given number of child processes.
$pool = new ForkPool($process_file_list_map, function () {
// Remove any issues that were collected prior to forking
// to prevent duplicate issues in the output.
self::getIssueCollector()->reset();
}, $analysis_worker, function () {
// Return the collected issues to be serialized.
return self::getIssueCollector()->getCollectedIssues();
});
// Wait for all tasks to complete and collect the results.
self::collectSerializedResults($pool->wait());
} else {
// Get the task data from the 0th processor
$analyze_file_path_list = array_values($process_file_list_map)[0];
// If we're not running as multiple processes, just iterate
// over the file list and analyze them
foreach ($analyze_file_path_list as $i => $file_path) {
$analysis_worker($i, $file_path);
}
// Scan through all globally accessible elements
// in the code base and emit errors for dead
// code.
Analysis::analyzeDeadCode($code_base);
}
// Get a count of the number of issues that were found
$is_issue_found = 0 !== count(self::$issueCollector->getCollectedIssues());
// Collect all issues, blocking
self::display();
return $is_issue_found;
}
