Пример #1
0
str *joinl(list<str *> *l) {
    /**
    Join two or more pathname components, inserting "\" as needed
    */
    list<str *> *__3, *__4, *p;
    list<str *>::for_in_loop __123;
    __iter<str *> *__5;
    str *__2, *b, *path;
    __ss_int __10, __11, __12, __13, __14, __6, __7, __8, __9, b_wins;

    __2 = l->__getfast__(0);
    __3 = l->__slice__(1, 1, 0, 0);
    path = __2;
    p = __3;

    FOR_IN(b,p,4,6,123)
        b_wins = 0;
        if (__eq(path, const_1)) {
            b_wins = 1;
        }
        else if (isabs(b)) {
            if (__OR(__ne(path->__slice__(3, 1, 2, 0), const_19), __eq(b->__slice__(3, 1, 2, 0), const_19), 7)) {
                b_wins = 1;
            }
            else if (__OR((len(path)>3), __AND((len(path)==3), (!(const_18)->__contains__(path->__getitem__(-1))), 10), 9)) {
                b_wins = 1;
            }
        }
        if (b_wins) {
            path = b;
        }
        else {
            ASSERT((len(path)>0), 0);
            if ((const_18)->__contains__(path->__getitem__(-1))) {
                if ((___bool(b) && (const_18)->__contains__(b->__getitem__(0)))) {
                    path = path->__iadd__(b->__slice__(1, 1, 0, 0));
                }
                else {
                    path = path->__iadd__(b);
                }
            }
            else if (__eq(path->__getitem__(-1), const_19)) {
                path = path->__iadd__(b);
            }
            else if (___bool(b)) {
                if ((const_18)->__contains__(b->__getitem__(0))) {
                    path = path->__iadd__(b);
                }
                else {
                    path = __add_strs(3, path, const_4, b);
                }
            }
            else {
                path = path->__iadd__(const_4);
            }
        }
    END_FOR

    return path;
}
Пример #2
0
str *_resolve_link(str *path) {
    /**
    Internal helper function.  Takes a path and follows symlinks
    until we either arrive at something that isn't a symlink, or
    encounter a path we've seen before (meaning that there's a loop).
    */
    list<str *> *paths_seen;
    str *dir, *resolved;

    paths_seen = (new list<str *>());

    while(islink(path)) {
        if (paths_seen->__contains__(path)) {
            return 0;
        }
        paths_seen->append(path);
        resolved = __os__::readlink(path);
        if ((!isabs(resolved))) {
            dir = dirname(path);
            path = normpath(join(2, dir, resolved));
        }
        else {
            path = normpath(resolved);
        }
    }
    return path;
}
Пример #3
0
str *realpath(str *filename) {
    /**
    Return the canonical path of the specified filename, eliminating any
    symbolic links encountered in the path.
    */
    list<str *> *bits;
    str *component, *newpath, *resolved;
    __ss_int __40, __41, i;

    if (isabs(filename)) {
        bits = ((new list<str *>(1, const_4)))->__add__((filename->split(const_4))->__slice__(1, 1, 0, 0));
    }
    else {
        bits = filename->split(const_4);
    }

    FAST_FOR(i,2,(len(bits)+1),1,40,41)
        component = joinl(bits->__slice__(3, 0, i, 0));
        if (islink(component)) {
            resolved = _resolve_link(component);
            if ((resolved==0)) {
                return abspath(joinl(((new list<str *>(1, component)))->__add__(bits->__slice__(1, i, 0, 0))));
            }
            else {
                newpath = joinl(((new list<str *>(1, resolved)))->__add__(bits->__slice__(1, i, 0, 0)));
                return realpath(newpath);
            }
        }
    END_FOR

    return abspath(filename);
}
Пример #4
0
str *abspath(str *path) {
    /**
    Return an absolute path.
    */

    if ((!isabs(path))) {
        path = join(2, __os__::getcwd(), path);
    }
    return normpath(path);
}
Пример #5
0
// install installs the library, package, or binary associated with dir,
// which is relative to $GOROOT/src.
static void
install(char *dir)
{
	char *name, *p, *elem, *prefix, *exe;
	bool islib, ispkg, isgo, stale, ispackcmd;
	Buf b, b1, path;
	Vec compile, files, link, go, missing, clean, lib, extra;
	Time ttarg, t;
	int i, j, k, n, doclean, targ;

	if(vflag) {
		if(!streq(goos, gohostos) || !streq(goarch, gohostarch))
			errprintf("%s (%s/%s)\n", dir, goos, goarch);
		else
			errprintf("%s\n", dir);
	}

	binit(&b);
	binit(&b1);
	binit(&path);
	vinit(&compile);
	vinit(&files);
	vinit(&link);
	vinit(&go);
	vinit(&missing);
	vinit(&clean);
	vinit(&lib);
	vinit(&extra);


	// path = full path to dir.
	bpathf(&path, "%s/src/%s", goroot, dir);
	name = lastelem(dir);

	// For misc/prof, copy into the tool directory and we're done.
	if(hasprefix(dir, "misc/")) {
		copy(bpathf(&b, "%s/%s", tooldir, name),
			bpathf(&b1, "%s/misc/%s", goroot, name), 1);
		goto out;
	}

	// For release, cmd/prof is not included.
	if((streq(dir, "cmd/prof")) && !isdir(bstr(&path))) {
		if(vflag > 1)
			errprintf("skipping %s - does not exist\n", dir);
		goto out;
	}

	// set up gcc command line on first run.
	if(gccargs.len == 0) {
		bprintf(&b, "%s %s", defaultcc, defaultcflags);
		splitfields(&gccargs, bstr(&b));
		for(i=0; i<nelem(proto_gccargs); i++)
			vadd(&gccargs, proto_gccargs[i]);
		if(defaultcflags[0] == '\0') {
			for(i=0; i<nelem(proto_gccargs2); i++)
				vadd(&gccargs, proto_gccargs2[i]);
		}
		if(contains(gccargs.p[0], "clang")) {
			// disable ASCII art in clang errors, if possible
			vadd(&gccargs, "-fno-caret-diagnostics");
			// clang is too smart about unused command-line arguments
			vadd(&gccargs, "-Qunused-arguments");
		}
		// disable word wrapping in error messages
		vadd(&gccargs, "-fmessage-length=0");
		if(streq(gohostos, "darwin")) {
			// golang.org/issue/5261
			vadd(&gccargs, "-mmacosx-version-min=10.6");
		}
	}
	if(ldargs.len == 0 && defaultldflags[0] != '\0') {
		bprintf(&b, "%s", defaultldflags);
		splitfields(&ldargs, bstr(&b));
	}

	islib = hasprefix(dir, "lib") || streq(dir, "cmd/cc") || streq(dir, "cmd/gc");
	ispkg = hasprefix(dir, "pkg");
	isgo = ispkg || streq(dir, "cmd/go") || streq(dir, "cmd/cgo");

	exe = "";
	if(streq(gohostos, "windows"))
		exe = ".exe";

	// Start final link command line.
	// Note: code below knows that link.p[targ] is the target.
	ispackcmd = 0;
	if(islib) {
		// C library.
		vadd(&link, "ar");
		if(streq(gohostos, "plan9"))
			vadd(&link, "rc");
		else
			vadd(&link, "rsc");
		prefix = "";
		if(!hasprefix(name, "lib"))
			prefix = "lib";
		targ = link.len;
		vadd(&link, bpathf(&b, "%s/pkg/obj/%s_%s/%s%s.a", goroot, gohostos, gohostarch, prefix, name));
	} else if(ispkg) {
		// Go library (package).
		ispackcmd = 1;
		vadd(&link, "pack"); // program name - unused here, but all the other cases record one
		p = bprintf(&b, "%s/pkg/%s_%s/%s", goroot, goos, goarch, dir+4);
		*xstrrchr(p, '/') = '\0';
		xmkdirall(p);
		targ = link.len;
		vadd(&link, bpathf(&b, "%s/pkg/%s_%s/%s.a", goroot, goos, goarch, dir+4));
	} else if(streq(dir, "cmd/go") || streq(dir, "cmd/cgo")) {
		// Go command.
		vadd(&link, bpathf(&b, "%s/%sl", tooldir, gochar));
		vadd(&link, "-o");
		elem = name;
		if(streq(elem, "go"))
			elem = "go_bootstrap";
		targ = link.len;
		vadd(&link, bpathf(&b, "%s/%s%s", tooldir, elem, exe));
	} else {
		// C command. Use gccargs and ldargs.
		if(streq(gohostos, "plan9")) {
			vadd(&link, bprintf(&b, "%sl", gohostchar));
			vadd(&link, "-o");
			targ = link.len;
			vadd(&link, bpathf(&b, "%s/%s", tooldir, name));
		} else {
			vcopy(&link, gccargs.p, gccargs.len);
			vcopy(&link, ldargs.p, ldargs.len);
			if(sflag)
				vadd(&link, "-static");
			vadd(&link, "-o");
			targ = link.len;
			vadd(&link, bpathf(&b, "%s/%s%s", tooldir, name, exe));
			if(streq(gohostarch, "amd64"))
				vadd(&link, "-m64");
			else if(streq(gohostarch, "386"))
				vadd(&link, "-m32");
		}
	}
	ttarg = mtime(link.p[targ]);

	// Gather files that are sources for this target.
	// Everything in that directory, and any target-specific
	// additions.
	xreaddir(&files, bstr(&path));

	// Remove files beginning with . or _,
	// which are likely to be editor temporary files.
	// This is the same heuristic build.ScanDir uses.
	// There do exist real C files beginning with _,
	// so limit that check to just Go files.
	n = 0;
	for(i=0; i<files.len; i++) {
		p = files.p[i];
		if(hasprefix(p, ".") || (hasprefix(p, "_") && hassuffix(p, ".go")))
			xfree(p);
		else
			files.p[n++] = p;
	}
	files.len = n;

	for(i=0; i<nelem(deptab); i++) {
		if(streq(dir, deptab[i].prefix) ||
		   (hassuffix(deptab[i].prefix, "/") && hasprefix(dir, deptab[i].prefix))) {
			for(j=0; (p=deptab[i].dep[j])!=nil; j++) {
				breset(&b1);
				bwritestr(&b1, p);
				bsubst(&b1, "$GOROOT", goroot);
				bsubst(&b1, "$GOOS", goos);
				bsubst(&b1, "$GOARCH", goarch);
				p = bstr(&b1);
				if(hassuffix(p, ".a")) {
					vadd(&lib, bpathf(&b, "%s", p));
					continue;
				}
				if(hassuffix(p, "/*")) {
					bpathf(&b, "%s/%s", bstr(&path), p);
					b.len -= 2;
					xreaddir(&extra, bstr(&b));
					bprintf(&b, "%s", p);
					b.len -= 2;
					for(k=0; k<extra.len; k++)
						vadd(&files, bpathf(&b1, "%s/%s", bstr(&b), extra.p[k]));
					continue;
				}
				if(hasprefix(p, "-")) {
					p++;
					n = 0;
					for(k=0; k<files.len; k++) {
						if(hasprefix(files.p[k], p))
							xfree(files.p[k]);
						else
							files.p[n++] = files.p[k];
					}
					files.len = n;
					continue;
				}
				vadd(&files, p);
			}
		}
	}
	vuniq(&files);

	// Convert to absolute paths.
	for(i=0; i<files.len; i++) {
		if(!isabs(files.p[i])) {
			bpathf(&b, "%s/%s", bstr(&path), files.p[i]);
			xfree(files.p[i]);
			files.p[i] = btake(&b);
		}
	}

	// Is the target up-to-date?
	stale = rebuildall;
	n = 0;
	for(i=0; i<files.len; i++) {
		p = files.p[i];
		for(j=0; j<nelem(depsuffix); j++)
			if(hassuffix(p, depsuffix[j]))
				goto ok;
		xfree(files.p[i]);
		continue;
	ok:
		t = mtime(p);
		if(t != 0 && !hassuffix(p, ".a") && !shouldbuild(p, dir)) {
			xfree(files.p[i]);
			continue;
		}
		if(hassuffix(p, ".go"))
			vadd(&go, p);
		if(t > ttarg)
			stale = 1;
		if(t == 0) {
			vadd(&missing, p);
			files.p[n++] = files.p[i];
			continue;
		}
		files.p[n++] = files.p[i];
	}
	files.len = n;

	// If there are no files to compile, we're done.
	if(files.len == 0)
		goto out;
	
	for(i=0; i<lib.len && !stale; i++)
		if(mtime(lib.p[i]) > ttarg)
			stale = 1;

	if(!stale)
		goto out;

	// For package runtime, copy some files into the work space.
	if(streq(dir, "pkg/runtime")) {
		copy(bpathf(&b, "%s/arch_GOARCH.h", workdir),
			bpathf(&b1, "%s/arch_%s.h", bstr(&path), goarch), 0);
		copy(bpathf(&b, "%s/defs_GOOS_GOARCH.h", workdir),
			bpathf(&b1, "%s/defs_%s_%s.h", bstr(&path), goos, goarch), 0);
		p = bpathf(&b1, "%s/signal_%s_%s.h", bstr(&path), goos, goarch);
		if(isfile(p))
			copy(bpathf(&b, "%s/signal_GOOS_GOARCH.h", workdir), p, 0);
		copy(bpathf(&b, "%s/os_GOOS.h", workdir),
			bpathf(&b1, "%s/os_%s.h", bstr(&path), goos), 0);
		copy(bpathf(&b, "%s/signals_GOOS.h", workdir),
			bpathf(&b1, "%s/signals_%s.h", bstr(&path), goos), 0);
	}

	// Generate any missing files; regenerate existing ones.
	for(i=0; i<files.len; i++) {
		p = files.p[i];
		elem = lastelem(p);
		for(j=0; j<nelem(gentab); j++) {
			if(gentab[j].gen == nil)
				continue;
			if(hasprefix(elem, gentab[j].nameprefix)) {
				if(vflag > 1)
					errprintf("generate %s\n", p);
				gentab[j].gen(bstr(&path), p);
				// Do not add generated file to clean list.
				// In pkg/runtime, we want to be able to
				// build the package with the go tool,
				// and it assumes these generated files already
				// exist (it does not know how to build them).
				// The 'clean' command can remove
				// the generated files.
				goto built;
			}
		}
		// Did not rebuild p.
		if(find(p, missing.p, missing.len) >= 0)
			fatal("missing file %s", p);
	built:;
	}

	// One more copy for package runtime.
	// The last batch was required for the generators.
	// This one is generated.
	if(streq(dir, "pkg/runtime")) {
		copy(bpathf(&b, "%s/zasm_GOOS_GOARCH.h", workdir),
			bpathf(&b1, "%s/zasm_%s_%s.h", bstr(&path), goos, goarch), 0);
	}

	// Generate .c files from .goc files.
	if(streq(dir, "pkg/runtime")) {
		for(i=0; i<files.len; i++) {
			p = files.p[i];
			if(!hassuffix(p, ".goc"))
				continue;
			// b = path/zp but with _goos_goarch.c instead of .goc
			bprintf(&b, "%s%sz%s", bstr(&path), slash, lastelem(p));
			b.len -= 4;
			bwritef(&b, "_%s_%s.c", goos, goarch);
			goc2c(p, bstr(&b));
			vadd(&files, bstr(&b));
		}
		vuniq(&files);
	}

	if((!streq(goos, gohostos) || !streq(goarch, gohostarch)) && isgo) {
		// We've generated the right files; the go command can do the build.
		if(vflag > 1)
			errprintf("skip build for cross-compile %s\n", dir);
		goto nobuild;
	}

	// Compile the files.
	for(i=0; i<files.len; i++) {
		if(!hassuffix(files.p[i], ".c") && !hassuffix(files.p[i], ".s"))
			continue;
		name = lastelem(files.p[i]);

		vreset(&compile);
		if(!isgo) {
			// C library or tool.
			if(streq(gohostos, "plan9")) {
				vadd(&compile, bprintf(&b, "%sc", gohostchar));
				vadd(&compile, "-FTVwp");
				vadd(&compile, "-DPLAN9");
				vadd(&compile, "-D__STDC__=1");
				vadd(&compile, "-D__SIZE_TYPE__=ulong"); // for GNU Bison
				vadd(&compile, bpathf(&b, "-I%s/include/plan9", goroot));
				vadd(&compile, bpathf(&b, "-I%s/include/plan9/%s", goroot, gohostarch));
			} else {
				vcopy(&compile, gccargs.p, gccargs.len);
				vadd(&compile, "-c");
				if(streq(gohostarch, "amd64"))
					vadd(&compile, "-m64");
				else if(streq(gohostarch, "386"))
					vadd(&compile, "-m32");
	
				vadd(&compile, "-I");
				vadd(&compile, bpathf(&b, "%s/include", goroot));
			}

			if(streq(dir, "lib9"))
				vadd(&compile, "-DPLAN9PORT");


			vadd(&compile, "-I");
			vadd(&compile, bstr(&path));

			// lib9/goos.c gets the default constants hard-coded.
			if(streq(name, "goos.c")) {
				vadd(&compile, "-D");
				vadd(&compile, bprintf(&b, "GOOS=\"%s\"", goos));
				vadd(&compile, "-D");
				vadd(&compile, bprintf(&b, "GOARCH=\"%s\"", goarch));
				bprintf(&b1, "%s", goroot_final);
				bsubst(&b1, "\\", "\\\\");  // turn into C string
				vadd(&compile, "-D");
				vadd(&compile, bprintf(&b, "GOROOT=\"%s\"", bstr(&b1)));
				vadd(&compile, "-D");
				vadd(&compile, bprintf(&b, "GOVERSION=\"%s\"", goversion));
				vadd(&compile, "-D");
				vadd(&compile, bprintf(&b, "GOARM=\"%s\"", goarm));
				vadd(&compile, "-D");
				vadd(&compile, bprintf(&b, "GO386=\"%s\"", go386));
				vadd(&compile, "-D");
				vadd(&compile, bprintf(&b, "GO_EXTLINK_ENABLED=\"%s\"", goextlinkenabled));
			}

			// gc/lex.c records the GOEXPERIMENT setting used during the build.
			if(streq(name, "lex.c")) {
				xgetenv(&b, "GOEXPERIMENT");
				vadd(&compile, "-D");
				vadd(&compile, bprintf(&b1, "GOEXPERIMENT=\"%s\"", bstr(&b)));
			}
		} else {
			// Supporting files for a Go package.
			if(hassuffix(files.p[i], ".s"))
				vadd(&compile, bpathf(&b, "%s/%sa", tooldir, gochar));
			else {
				vadd(&compile, bpathf(&b, "%s/%sc", tooldir, gochar));
				vadd(&compile, "-F");
				vadd(&compile, "-V");
				vadd(&compile, "-w");
			}
			vadd(&compile, "-I");
			vadd(&compile, workdir);
			vadd(&compile, "-I");
			vadd(&compile, bprintf(&b, "%s/pkg/%s_%s", goroot, goos, goarch));
			vadd(&compile, "-D");
			vadd(&compile, bprintf(&b, "GOOS_%s", goos));
			vadd(&compile, "-D");
			vadd(&compile, bprintf(&b, "GOARCH_%s", goarch));
			vadd(&compile, "-D");
			vadd(&compile, bprintf(&b, "GOOS_GOARCH_%s_%s", goos, goarch));
		}

		bpathf(&b, "%s/%s", workdir, lastelem(files.p[i]));
		doclean = 1;
		if(!isgo && streq(gohostos, "darwin")) {
			// To debug C programs on OS X, it is not enough to say -ggdb
			// on the command line.  You have to leave the object files
			// lying around too.  Leave them in pkg/obj/, which does not
			// get removed when this tool exits.
			bpathf(&b1, "%s/pkg/obj/%s", goroot, dir);
			xmkdirall(bstr(&b1));
			bpathf(&b, "%s/%s", bstr(&b1), lastelem(files.p[i]));
			doclean = 0;
		}

		// Change the last character of the output file (which was c or s).
		if(streq(gohostos, "plan9"))
			b.p[b.len-1] = gohostchar[0];
		else
			b.p[b.len-1] = 'o';
		vadd(&compile, "-o");
		vadd(&compile, bstr(&b));
		vadd(&compile, files.p[i]);
		bgrunv(bstr(&path), CheckExit, &compile);

		vadd(&link, bstr(&b));
		if(doclean)
			vadd(&clean, bstr(&b));
	}
	bgwait();

	if(isgo) {
		// The last loop was compiling individual files.
		// Hand the Go files to the compiler en masse.
		vreset(&compile);
		vadd(&compile, bpathf(&b, "%s/%sg", tooldir, gochar));

		bpathf(&b, "%s/_go_.a", workdir);
		vadd(&compile, "-pack");
		vadd(&compile, "-o");
		vadd(&compile, bstr(&b));
		vadd(&clean, bstr(&b));
		if(!ispackcmd)
			vadd(&link, bstr(&b));

		vadd(&compile, "-p");
		if(hasprefix(dir, "pkg/"))
			vadd(&compile, dir+4);
		else
			vadd(&compile, "main");

		if(streq(dir, "pkg/runtime"))
			vadd(&compile, "-+");

		vcopy(&compile, go.p, go.len);

		runv(nil, bstr(&path), CheckExit, &compile);

		if(ispackcmd) {
			xremove(link.p[targ]);
			dopack(link.p[targ], bstr(&b), &link.p[targ+1], link.len - (targ+1));
			goto nobuild;
		}
	}

	if(!islib && !isgo) {
		// C binaries need the libraries explicitly, and -lm.
		vcopy(&link, lib.p, lib.len);
		if(!streq(gohostos, "plan9"))
			vadd(&link, "-lm");
	}

	// Remove target before writing it.
	xremove(link.p[targ]);

	runv(nil, nil, CheckExit, &link);

nobuild:
	// In package runtime, we install runtime.h and cgocall.h too,
	// for use by cgo compilation.
	if(streq(dir, "pkg/runtime")) {
		copy(bpathf(&b, "%s/pkg/%s_%s/cgocall.h", goroot, goos, goarch),
			bpathf(&b1, "%s/src/pkg/runtime/cgocall.h", goroot), 0);
		copy(bpathf(&b, "%s/pkg/%s_%s/runtime.h", goroot, goos, goarch),
			bpathf(&b1, "%s/src/pkg/runtime/runtime.h", goroot), 0);
	}


out:
	for(i=0; i<clean.len; i++)
		xremove(clean.p[i]);

	bfree(&b);
	bfree(&b1);
	bfree(&path);
	vfree(&compile);
	vfree(&files);
	vfree(&link);
	vfree(&go);
	vfree(&missing);
	vfree(&clean);
	vfree(&lib);
	vfree(&extra);
}
Пример #6
0
 std::string abspath(const std::string & path)
 {
     std::string p = path;
     if(!isabs(p)) p = join(getcwd(), p);
     return normpath(p);
 }
Пример #7
0
// genrun is the generic run implementation.
static void
genrun(Buf *b, char *dir, int mode, Vec *argv, int wait)
{
	int i, p[2], pid;
	Buf b1, cmd;
	char *q;

	while(nbg >= maxnbg)
		bgwait1();

	binit(&b1);
	binit(&cmd);

	if(!isabs(argv->p[0])) {
		bpathf(&b1, "/bin/%s", argv->p[0]);
		free(argv->p[0]);
		argv->p[0] = xstrdup(bstr(&b1));
	}

	// Generate a copy of the command to show in a log.
	// Substitute $WORK for the work directory.
	for(i=0; i<argv->len; i++) {
		if(i > 0)
			bwritestr(&cmd, " ");
		q = argv->p[i];
		if(workdir != nil && hasprefix(q, workdir)) {
			bwritestr(&cmd, "$WORK");
			q += strlen(workdir);
		}
		bwritestr(&cmd, q);
	}
	if(vflag > 1)
		errprintf("%s\n", bstr(&cmd));

	if(b != nil) {
		breset(b);
		if(pipe(p) < 0)
			fatal("pipe");
	}

	switch(pid = fork()) {
	case -1:
		fatal("fork");
	case 0:
		if(b != nil) {
			close(0);
			close(p[0]);
			dup(p[1], 1);
			dup(p[1], 2);
			if(p[1] > 2)
				close(p[1]);
		}
		if(dir != nil) {
			if(chdir(dir) < 0) {
				fprint(2, "chdir: %r\n");
				_exits("chdir");
			}
		}
		vadd(argv, nil);
		exec(argv->p[0], argv->p);
		fprint(2, "%s\n", bstr(&cmd));
		fprint(2, "exec: %r\n");
		_exits("exec");
	}
	if(b != nil) {
		close(p[1]);
		breadfrom(b, p[0]);
		close(p[0]);
	}

	if(nbg < 0)
		fatal("bad bookkeeping");
	bg[nbg].pid = pid;
	bg[nbg].mode = mode;
	bg[nbg].cmd = btake(&cmd);
	bg[nbg].b = b;
	nbg++;
	
	if(wait)
		bgwait();

	bfree(&cmd);
	bfree(&b1);
}