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Rewrite `StructLiteralExp::toElem` to store individual fields instead of generating a constant to fill the entire struct with a single `store`. This is much more efficient at compile time (fixing #320) and vastly reduces the size of the emitted code. Since LLVM no longer needs to keep the data for all fields in "registers" until the store happens, it should also be more efficient at run time in cases where the fields aren't assigned with constants. There's also some code clean-up by removing duplicated logic.
author Frits van Bommel <fvbommel wxs.nl>
date Sat, 06 Jun 2009 20:16:13 +0200
parents 648409a7fb0c
children
line wrap: on
line source

// Based on DSTRESS code by Thomas Kühne

module findregressions;

private import std.string;
private import std.conv;
private import std.stdio;
private import std.stream;
private import std.file;
private import std.c.stdlib;
private import std.date;


enum Result{
	UNTESTED	= 0,
	PASS		= 1 << 2,
	XFAIL		= 2 << 2,
	XPASS		= 3 << 2,
	FAIL		= 4 << 2,
	ERROR		= 5 << 2,
	BASE_MASK	= 7 << 2,

	EXT_MASK	= 3,
	BAD_MSG		= 1,
	BAD_GDB		= 2,
	
	MAX		= BAD_GDB + BASE_MASK
}

char[] toString(Result r){
	switch(r & Result.BASE_MASK){
		case Result.PASS: return "PASS";
		case Result.XPASS: return "XPASS";
		case Result.FAIL: return "FAIL";
		case Result.XFAIL: return "XFAIL";
		case Result.ERROR: return "ERROR";
		case Result.UNTESTED: return "UNTESTED";
		default:
			break;
	}
	throw new Exception(format("unhandled Result value %s", cast(int)r));
}

char[] dateString(){
	static char[] date;
	if(date is null){
		auto time = getUTCtime();
		auto year = YearFromTime(time);
		auto month = MonthFromTime(time);
		auto day = DateFromTime(time);
		date = format("%d-%02d-%02d", year, month+1, day); 
	}
	return date;
}

char[][] unique(char[][] a){
	char[][] b = a.sort;
	char[][] back;

	back ~= b[0];

	size_t ii=0;
	for(size_t i=0; i<b.length; i++){
		if(back[ii]!=b[i]){
			back~=b[i];
			ii++;
		}
	}

	return back;	
}

private{
	version(Windows){
		import std.c.windows.windows;
		extern(Windows) BOOL GetFileTime(HANDLE hFile, LPFILETIME lpCreationTime, LPFILETIME lpLastAccessTime, LPFILETIME lpLastWriteTime);
	}else version(linux){
		import std.c.linux.linux;
		version = Unix;
	}else version(Unix){
		import std.c.unix.unix;
	}else{
		static assert(0);
	}

	alias ulong FStime;

	FStime getFStime(char[] fileName){
		version(Windows){
			HANDLE h;
		
			if (useWfuncs){
				wchar* namez = std.utf.toUTF16z(fileName);
				h = CreateFileW(namez,GENERIC_WRITE,0,null,OPEN_ALWAYS,
					FILE_ATTRIBUTE_NORMAL | FILE_FLAG_SEQUENTIAL_SCAN,cast(HANDLE)null);
			}else{
				char* namez = toMBSz(fileName);
				h = CreateFileA(namez,GENERIC_WRITE,0,null,OPEN_ALWAYS,
				FILE_ATTRIBUTE_NORMAL | FILE_FLAG_SEQUENTIAL_SCAN,cast(HANDLE)null);
			}

			if (h == INVALID_HANDLE_VALUE)
				goto err;

			FILETIME creationTime;
			FILETIME accessTime;
			FILETIME writeTime;
		
			BOOL b = GetFileTime(h, &creationTime, &accessTime, &writeTime);
			if(b==1){
				long modA = writeTime.dwLowDateTime;
				long modB = writeTime.dwHighDateTime;
				return modA  | (modB << (writeTime.dwHighDateTime.sizeof*8));
			}

err:
			CloseHandle(h);
			throw new Exception("failed to query file modification : "~fileName);
		}else version(Unix){
			char* namez = toStringz(fileName);
			struct_stat statbuf;
		
			if(stat(namez, &statbuf)){
				throw new FileException(fileName, getErrno());
			}

			return statbuf.st_mtime;
		}else{
			static assert(0);
		}
	}
}

char[] cleanFileName(char[] file){
	char[] back;
	bool hadSep;

	foreach(char c; file){
		if(c == '/' || c == '\\'){
			if(!hadSep){
				back ~= '/';
				hadSep = true;
			}
		}else{
			back ~= c;
			hadSep = false;
		}
	}

	size_t start = 0;
	while(back[start] <= ' ' && start < back.length){
		start++;
	}

	size_t end = back.length-1;
	while(back[end] <= ' ' && end >= start){
		end--;
	}

	back = back[start .. end+1];

	return back;
}

class Test{
	char[] name;
	char[] file;
	Result r;

	this(char[] file){
		this.file = file;

		int start = rfind(file, "/");
		if(start<0){
			start = 0;
		}else{
			start += 1;
		}
		
		int end = rfind(file, ".");
		if(end < start){
			end = file.length;
		}

		name = file[start .. end];
	}
}


class Log{
	Test[char[]] tests;

	char[] id;

	this(char[] id){
		this.id = id;
	}


	void dropBogusResults(FStime recordTime, char[] testRoot){
		uint totalCount = tests.length; 
		
		char[][] sourcesTests = tests.keys;
		foreach(char[] source; sourcesTests){
			if(find(source, "complex/") < 0){
				try{
					FStime caseTime = getFStime(testRoot~std.path.sep~source);
					if(caseTime > recordTime){
						debug(drop) fwritefln(stderr, "dropped: %s", source);
						tests.remove(source);
					}
				}catch(Exception e){
					debug(drop) fwritefln(stderr, "dropped: %s", source);
					tests.remove(source);
				}
			}
			// asm-filter
			int i = find(source, "asm_p");
			if(i >= 0){
				tests.remove(source);
			}
		}
		tests.rehash;
		
		writefln("dropped %s outdated tests (%s remaining)", totalCount - tests.length, tests.length); 
	}

	
	bool add(char[] line){
		const char[] SUB = "Torture-Sub-";
		const char[] TORTURE = "Torture:";

		line = strip(line);
		int id = -1;
		Result r = Result.UNTESTED;

		if(line.length > SUB.length && line[0 .. SUB.length] == SUB){
			line = line[SUB.length .. $];
			id = 0;
			while(line[id] >= '0' && line[id] <= '9'){
				id++;
			}
			int start = id;
			id = std.conv.toUint(line[0 .. id]);

			while(line[start] != '-'){
				start++;
			}
			line = line[start+1 .. $];
		}

		char[][] token = split(line);
		if(token.length < 2){
			return false;
		}
		char[] file = strip(token[1]);

		switch(token[0]){
			case "PASS:":
				r = Result.PASS; break;
			case "FAIL:":
				r = Result.FAIL; break;
			case "XPASS:":
				r = Result.XPASS; break;
			case "XFAIL:":
				r = Result.XFAIL; break;
			case "ERROR:":
				r = Result.ERROR; break;
			default:{
				if(token[0] == TORTURE){
					throw new Exception("not yet handled: "~line);
				}else if(id > -1){
					throw new Exception(format("bug in SUB line: (%s) %s", id, line));
				}
			}
		}

		if(r != Result.UNTESTED){
			if(std.string.find(line, "bad error message") > -1){
				r |= Result.BAD_MSG;	
			}
			if(std.string.find(line, "bad debugger message") > -1){
				r |= Result.BAD_MSG;	
			}
			
			file = cleanFileName(file);
			
			if(id >= 0){
				// update sub
				id--;
		
				Test* test = file in tests;

				if(test is null){
					Test t = new Test(file);
					tests[file] = t;
					t.r = r;
				}else{
					if(test.r != Result.UNTESTED){
						test.r = Result.UNTESTED;
					}
					test.r = r;
				}
			}
			return true;
		}
		return false;
	}
}


int main(char[][] args){

	if(args.length < 2){
		fwritefln(stderr, "%s <old log> <new log>", args[0]);
		return 1;
	}
	
	
	Log[] logs;

	foreach(size_t id, char[] file; args[1 .. $]){
		writefln("parsing: %s", file);
		FStime logTime  = getFStime(file);
		debug fwritefln(stderr, "sourceTime: %s", logTime);

		Log l= new Log(file);
		Stream source = new BufferedFile(file, FileMode.In);
		while(!source.eof()){
			l.add(source.readLine());
		}
		
		l.dropBogusResults(logTime, "dstress");

		logs ~= l;
	}

	Log oldLog = logs[0];
	Log newLog = logs[1];

	foreach(Test t; newLog.tests.values){
		Test* oldT = t.file in oldLog.tests;

		if(oldT !is null){
			if(oldT.r == t.r)
				continue;
			else if(t.r >= Result.XPASS && oldT.r && oldT.r <= Result.XFAIL){
				writef("Regression   ");
			}
			else if(t.r && t.r <= Result.XFAIL && oldT.r >= Result.XPASS){
				writef("Improvement  ");
			}
			else {
				writef("Change       ");
			}
			writefln(toString(oldT.r), " -> ", toString(t.r), " : ", t.name, " in ", t.file);
		}
	}
	
	
	return 0;
}