def ds9_openlist(target='DS9:*', n=1024): """ :param target: the ds9 target template (default: all ds9 instances) :param n: maximum number of targets to connect to (default: 1024) :rtype: list of connected ds9 objects To open multiple instances of ds9, use the ds9_openlist() routine. Specify the target template and an (optional) max target count, and the routine returns a list of ds9 objects. For example, assuming 3 instances of ds9 are running with names foo1, foo2, foo3:: >>> ds9list = ds9_openlist("foo*") >>> for d in ds9list: ... print d.target, d.id ... DS9:foo1 a000104:56249 DS9:foo2 a000104:56254 DS9:foo3 a000104:56256 >>> ds9list[1].set("file test.fits") """ tlist = xpa.xpaaccess(target, None, n) if not tlist: raise ValueError, 'no active ds9 found for target: %s' % target else: ds9list = [] for item in tlist: ds9list.append(ds9(item.split()[0])) return ds9list
def ds9_openlist(target='DS9:*', n=1024): """ :param target: the ds9 target template (default: all ds9 instances) :param n: maximum number of targets to connect to (default: 1024) :rtype: list of connected ds9 objects To open multiple instances of ds9, use the ds9_openlist() routine. Specify the target template and an (optional) max target count, and the routine returns a list of ds9 objects. For example, assuming 3 instances of ds9 are running with names foo1, foo2, foo3:: >>> ds9list = ds9_openlist("foo*") >>> for d in ds9list: ... print d.target, d.id ... DS9:foo1 a000104:56249 DS9:foo2 a000104:56254 DS9:foo3 a000104:56256 >>> ds9list[1].set("file test.fits") """ tlist = xpa.xpaaccess(target, None, n) if not tlist: raise ValueError, 'no active ds9 found for target: %s' % target else: ds9list = [] for item in tlist: ds9list.append(ds9(item.split()[0])) return ds9list
def _selftest(self): """ An internal test to make sure that ds9 is still running." """ if self.verify and not xpa.xpaaccess(string_to_bytes(self.id), None, 1): raise ValueError('ds9 is no longer running (%s)' % self.id)
def _selftest(self): """ An internal test to make sure that ds9 is still running." """ if self.verify and not xpa.xpaaccess(string_to_bytes(self.id), None, 1): raise ValueError('ds9 is no longer running (%s)' % self.id)
def ds9_xpans(): """ :rtype: 0 => xpans already running, 1 => xpans started by this routine ds9_xpans() starts the xpans name server, if its not already running. If xpans was not running (and so was started by this routine) while ds9 was already running, an explanation on how to connect to that instance of ds9 is displayed. """ if xpa.xpaaccess(b"xpans", None, 1) is None: _cmd = False # look in install directories for xpans for _dir in sys.path: _fname = os.path.join(_dir, ds9Globals["progs"][0]) if os.path.exists(_fname): _cmd = True break # look in development directory if not _cmd: _fname = os.path.join(os.path.dirname(__file__), 'xpa', ds9Globals["progs"][0]) if os.path.exists(_fname): _cmd = True if _cmd: # start up xpans subprocess.Popen([_fname, "-e"]) # if ds9 is already running, issue a warning p = subprocess.Popen(['ps', '-A'], stdout=subprocess.PIPE, universal_newlines=True) pslist = p.communicate()[0] # get the std out if 'ds9' in pslist: print(tw.dedent(""" An instance of ds9 was found to be running before we could start the 'xpans' name server. You will need to perform a bit of manual intervention in order to connect this existing ds9 to Python. For ds9 version 5.7 and beyond, simply register the existing ds9 with the xpans name server by selecting the ds9 File->XPA->Connect menu option. Your ds9 will now be fully accessible to pyds9 (e.g., it appear in the list returned by the ds9_targets() routine). For ds9 versions prior to 5.7, you cannot (easily) register with xpans, but you can view ds9's File->XPA Information menu option and pass the value associated with XPA_METHOD directly to the Python DS9() constructor, e.g.: d = DS9('a000101:12345') The good news is that new instances of ds9 will be registered with xpans, and will be known to ds9_targets() and the DS9() constructor. """)) return 1 else: raise ValueError("xpans is not running and cannot be located. You" " will not be able to communicate with ds9") else: return 0
def access(self): """ :rtype: xpa target name and id The 'access' method returns the xpa id of the current instance of ds9, by making a direct contact with ds9 itself. """ self._selftest() x = xpa.xpaaccess(self.id, None, 1) return x[0]
def access(self): """ :rtype: xpa target name and id The 'access' method returns the xpa id of the current instance of ds9, by making a direct contact with ds9 itself. """ self._selftest() x = xpa.xpaaccess(self.id, None, 1) return x[0]
def ds9_xpans(): """ :rtype: 0 => xpans already running, 1 => xpans started by this routine ds9_xpans() starts the xpans name server, if its not already running. If xpans was not running (and so was started by this routine) while ds9 was already running, an explanation on how to connect to that instance of ds9 is displayed. """ if xpa.xpaaccess("xpans", None, 1) == None: _cmd = False # look in install directories for xpans for _dir in sys.path: _fname = os.path.join(_dir, ds9Globals["progs"][0]) if os.path.exists(_fname): _cmd = True break # look in development directory if not _cmd: _fname = './xpa/' + ds9Globals["progs"][0] if os.path.exists(_fname): _cmd = True if _cmd: # start up xpans subprocess.Popen([_fname, "-e"]) # if ds9 is already running, issue a warning pslist = commands.getoutput('ps -A') if 'ds9' in pslist: print """ An instance of ds9 was found to be running before we could start the 'xpans' name server. You will need to perform a bit of manual intervention in order to connect this existing ds9 to Python. For ds9 version 5.7 and beyond, simply register the existing ds9 with the xpans name server by selecting the ds9 File->XPA->Connect menu option. Your ds9 will now be fully accessible to pyds9 (e.g., it appear in the list returned by the ds9_targets() routine). For ds9 versions prior to 5.7, you cannot (easily) register with xpans, but you can view ds9's File->XPA Information menu option and pass the value associated with XPA_METHOD directly to the Python DS9() constructor, e.g.: d = DS9('a000101:12345') The good news is that new instances of ds9 will be registered with xpans, and will be known to ds9_targets() and the DS9() constructor. """ return 1 else: raise ValueError, "xpans is not running and cannot be located. You will not be able to communicate with ds9" else: return 0
def ds9_xpans(): """ :rtype: 0 => xpans already running, 1 => xpans started by this routine ds9_xpans() starts the xpans name server, if its not already running. If xpans was not running (and so was started by this routine) while ds9 was already running, an explanation on how to connect to that instance of ds9 is displayed. """ if xpa.xpaaccess(b"xpans", None, 1) is None: _fname = ds9Globals["progs"][0] if _fname: # start up xpans subprocess.Popen([_fname, "-e"]) # if ds9 is already running, issue a warning p = subprocess.Popen(['ps', '-A'], stdout=subprocess.PIPE, universal_newlines=True) pslist = p.communicate()[0] # get the std out if 'ds9' in pslist: print( tw.dedent(""" An instance of ds9 was found to be running before we could start the 'xpans' name server. You will need to perform a bit of manual intervention in order to connect this existing ds9 to Python. For ds9 version 5.7 and beyond, simply register the existing ds9 with the xpans name server by selecting the ds9 File->XPA->Connect menu option. Your ds9 will now be fully accessible to pyds9 (e.g., it appear in the list returned by the ds9_targets() routine). For ds9 versions prior to 5.7, you cannot (easily) register with xpans, but you can view ds9's File->XPA Information menu option and pass the value associated with XPA_METHOD directly to the Python DS9() constructor, e.g.: d = DS9('a000101:12345') The good news is that new instances of ds9 will be registered with xpans, and will be known to ds9_targets() and the DS9() constructor. """)) return 1 else: raise ValueError("xpans is not running and cannot be located. You" " will not be able to communicate with ds9") else: return 0
def ds9_targets(target='DS9:*'): """ :param target: ds9 target template (default: all ds9 instances) :rtype: list of available targets matching template (name and id) To see all actively running ds9 instances for a given target, use the ds9_targets() routine:: >>> ds9_targets() ['DS9:foo1 838e29d4:42873', 'DS9:foo2 838e29d4:35739'] You then can pass one of the ids (or names) to the DS9() constructor. """ return xpa.xpaaccess(target, None, 1024)
def ds9_targets(target='DS9:*'): """ :param target: ds9 target template (default: all ds9 instances) :rtype: list of available targets matching template (name and id) To see all actively running ds9 instances for a given target, use the ds9_targets() routine:: >>> ds9_targets() ['DS9:foo1 838e29d4:42873', 'DS9:foo2 838e29d4:35739'] You then can pass one of the ids (or names) to the DS9() constructor. """ return xpa.xpaaccess(target, None, 1024)
def __init__(self, target='DS9:*', start=True, wait=10, verify=True): """ :param target: the ds9 target name or id (default is all ds9 instances) :param start: start ds9 if its not already running (optional: instead of True, you can specify a string or a list of ds9 command line args) :param wait: seconds to wait for ds9 to start :param verify: perform xpaaccess check before each set or get? :rtype: DS9 object connected to a single instance of ds9 The DS9() contructor takes a ds9 target as its main argument. If start is True (default), the ds9 program will be started automatically if its not already running. The default target matches all ds9 instances. (Note that ds9 instances are given unique names using the -title switch on the command line). In general, this is the correct way to find ds9 if only one instance of the program is running. However, this default target will throw an error if more than one ds9 instance is running. In this case, you will be shown a list of the actively running programs and will be asked to use one of them to specify which ds9 is wanted:: >>> DS9() More than one ds9 is running for target DS9:*: DS9:foo1 838e29d4:42873 DS9:foo2 838e29d4:35739 Use a specific name or id to construct a ds9 object, e.g.: d = ds9('foo1') d = ds9('DS9:foo1') d = ds9('838e29d4:42873') The 'ip:port' id (3rd example) will always be unique. ... ValueError: too many ds9 instances running for target: DS9:* You then can choose one of these to pass to the contructor:: d = DS9('838e29d4:35739') Of course, you can always specify a name for this instance of ds9. A unique target name is especially appropriate if you want to start up ds9 with a specified command line. This is because pyds9 will start up ds9 only if a ds9 with the target name is not already running. If the verify flag is turned on, each ds9 method call will check whether ds9 is still running, and will throw an exception if this is not the case. Otherwise, the method return value can be used to detect failure. Using verification allows ds9 methods to used in try/except constructs, at the expense of a slight decrease in performance. """ tlist = xpa.xpaaccess(target, None, 1024) if not tlist and start: if '?' in target or '*' in target: target = "ds9" try: args = shlex.split(start) except AttributeError: # Not a parsable string-like object try: args = list(start) except TypeError: # Not an iterable object args = [] self.pid = subprocess.Popen([ds9Globals["progs"][1], '-title', target] + args) for i in range(wait): tlist = xpa.xpaaccess(target, None, 1024) if tlist: break time.sleep(1) if not tlist: raise ValueError, 'no active ds9 running for target: %s' % target elif len(tlist) > 1: a = tlist[0].split() if 'XPA_METHOD' in os.environ.keys(): method = os.environ['XPA_METHOD'] else: method = 'inet' if method == 'local' or method == 'unix': s = 'local file' else: s = 'ip:port' print 'More than one ds9 is running for target %s:' % target for l in tlist: print " %s" % l print 'Use a specific name or id to construct a DS9 object, e.g.:' print " d = DS9('%s')" % a[0].split()[0].split(':')[1] print " d = DS9('%s')" % a[0] print " d = DS9('%s')" % a[1] print "The '%s' id (3rd example) will always be unique.\n" % s raise ValueError, 'too many ds9 instances for target: %s' % target else: a = tlist[0].split() self.__dict__['target'] = target self.__dict__['id'] = a[1] self.verify = verify self.clear() self._wrap_per_frame_functions()
def ds9(self, xpamsg=None, origin=None, new=True, **keywords): """ Display the array using ds9. The ds9 process will be given an random id. By default, the following access point are set before the array is loaded: -cmap heat -scale scope local -scale mode 99.5 Other access points can be set before the data is loaded though the keywords (see examples below). After the array is loaded, the map's header is set and the user may add other XPA messages through the xpamsg argument or by setting them through the returned ds9 instance. Parameters ---------- xpamsg : string or tuple of string XPA access point message to be set after the array is loaded. (see http://hea-www.harvard.edu/RD/ds9/ref/xpa.html). origin: string Set origin to 'upper' for Y increasing downwards new: boolean If true, open the array in a new ds9 instance. **keywords : string or tuple of string Specify more access points to be set before array loading. a keyword such as 'height=400' will be appended to the command that launches ds9 in the form 'ds9 [...] -height 400' Returns ------- The returned object is a ds9 instance. It can be manipulated using XPA access points. Examples -------- >>> m = Map('myfits.fits') >>> d=m.ds9(('zoom to fit', 'saveimage png myfits.png'), ... scale='histequ', cmap='invert yes', height=400) >>> d.set('exit') """ try: import pyds9 except ImportError: raise ImportError('The library pyds9 has not been installed.') import xpa id = None if not new: list = pyds9.ds9_targets() if list is not None: id = list[-1] if id is None: if 'cmap' not in keywords: keywords['cmap'] = 'heat' if 'scale' not in keywords: keywords['scale'] = ('scope local', 'mode 99.5') if origin is None: origin = getattr(self, 'origin', 'lower') if origin == 'upper' and 'orient' not in keywords: keywords['orient'] = 'y' wait = 10 id_ = 'ds9_' + str(uuid.uuid1())[4:8] command = 'ds9 -title ' + id_ for k, v in keywords.items(): k = str(k) if type(v) is not tuple: v = (v, ) command += reduce( lambda x, y: str(x) + ' -' + k + ' ' + str(y), v, '') os.system(command + ' &') # start the xpans name server if xpa.xpaaccess("xpans", None, 1) is None: _cmd = None # look in install directories for _dir in sys.path: _fname = os.path.join(_dir, "xpans") if os.path.exists(_fname): _cmd = _fname + " -e &" if _cmd: os.system(_cmd) for i in range(wait): list = xpa.xpaaccess(id_, None, 1024) if list is not None: break time.sleep(1) if not list: raise ValueError('No active ds9 running for target: %s' % list) # get ds9 instance with given id d = pyds9.DS9(id_) # load array input = self.view(np.ndarray) if input.dtype.kind in ('b', 'i'): input = np.array(input, np.int32, copy=False) d.set_np2arr(input.T) # load header if self.has_wcs(): d.set('wcs append', str(self.header)) if xpamsg is not None: if isinstance(xpamsg, str): xpamsg = (xpamsg, ) for v in xpamsg: d.set(v) return d
def ds9(self, xpamsg=None, origin=None, new=True, **keywords): """ Display the array using ds9. The ds9 process will be given an random id. By default, the following access point are set before the array is loaded: -cmap heat -scale scope local -scale mode 99.5 Other access points can be set before the data is loaded though the keywords (see examples below). After the array is loaded, the map's header is set and the user may add other XPA messages through the xpamsg argument or by setting them through the returned ds9 instance. Parameters ---------- xpamsg : string or tuple of string XPA access point message to be set after the array is loaded. (see http://hea-www.harvard.edu/RD/ds9/ref/xpa.html). origin: string Set origin to 'upper' for Y increasing downwards new: boolean If true, open the array in a new ds9 instance. **keywords : string or tuple of string Specify more access points to be set before array loading. a keyword such as 'height=400' will be appended to the command that launches ds9 in the form 'ds9 [...] -height 400' Returns ------- The returned object is a ds9 instance. It can be manipulated using XPA access points. Examples -------- >>> m = Map('myfits.fits') >>> d=m.ds9(('zoom to fit', 'saveimage png myfits.png'), ... scale='histequ', cmap='invert yes', height=400) >>> d.set('exit') """ try: import pyds9 except ImportError: raise ImportError('The library pyds9 has not been installed.') import xpa id = None if not new: list = pyds9.ds9_targets() if list is not None: id = list[-1] if id is None: if 'cmap' not in keywords: keywords['cmap'] = 'heat' if 'scale' not in keywords: keywords['scale'] = ('scope local', 'mode 99.5') if origin is None: origin = getattr(self, 'origin', 'lower') if origin == 'upper' and 'orient' not in keywords: keywords['orient'] = 'y' wait = 10 id_ = 'ds9_' + str(uuid.uuid1())[4:8] command = 'ds9 -title ' + id_ for k, v in keywords.items(): k = str(k) if type(v) is not tuple: v = (v,) command += reduce(lambda x, y: str(x) + ' -' + k + ' ' + str(y), v, '') os.system(command + ' &') # start the xpans name server if xpa.xpaaccess("xpans", None, 1) is None: _cmd = None # look in install directories for _dir in sys.path: _fname = os.path.join(_dir, "xpans") if os.path.exists(_fname): _cmd = _fname + " -e &" if _cmd: os.system(_cmd) for i in range(wait): list = xpa.xpaaccess(id_, None, 1024) if list is not None: break time.sleep(1) if not list: raise ValueError('No active ds9 running for target: %s' % list) # get ds9 instance with given id d = pyds9.DS9(id_) # load array input = self.view(np.ndarray) if input.dtype.kind in ('b', 'i'): input = np.array(input, np.int32, copy=False) d.set_np2arr(input.T) # load header if self.has_wcs(): d.set('wcs append', str(self.header)) if xpamsg is not None: if isinstance(xpamsg, str): xpamsg = (xpamsg,) for v in xpamsg: d.set(v) return d
def __init__(self, target='DS9:*', start=True, wait=10, verify=True): """ :param target: the ds9 target name or id (default is all ds9 instances) :param start: start ds9 if its not already running (optional: instead of True, you can specify a string or a list of ds9 command line args) :param wait: seconds to wait for ds9 to start :param verify: perform xpaaccess check before each set or get? :rtype: DS9 object connected to a single instance of ds9 The DS9() contructor takes a ds9 target as its main argument. If start is True (default), the ds9 program will be started automatically if its not already running. The default target matches all ds9 instances. (Note that ds9 instances are given unique names using the -title switch on the command line). In general, this is the correct way to find ds9 if only one instance of the program is running. However, this default target will throw an error if more than one ds9 instance is running. In this case, you will be shown a list of the actively running programs and will be asked to use one of them to specify which ds9 is wanted:: >>> DS9() More than one ds9 is running for target DS9:*: DS9:foo1 838e29d4:42873 DS9:foo2 838e29d4:35739 Use a specific name or id to construct a ds9 object, e.g.: d = ds9('foo1') d = ds9('DS9:foo1') d = ds9('838e29d4:42873') The 'ip:port' id (3rd example) will always be unique. ... ValueError: too many ds9 instances running for target: DS9:* You then can choose one of these to pass to the contructor:: d = DS9('838e29d4:35739') Of course, you can always specify a name for this instance of ds9. A unique target name is especially appropriate if you want to start up ds9 with a specified command line. This is because pyds9 will start up ds9 only if a ds9 with the target name is not already running. If the verify flag is turned on, each ds9 method call will check whether ds9 is still running, and will throw an exception if this is not the case. Otherwise, the method return value can be used to detect failure. Using verification allows ds9 methods to used in try/except constructs, at the expense of a slight decrease in performance. """ tlist = xpa.xpaaccess(target, None, 1024) if not tlist and start: if '?' in target or '*' in target: target = "ds9" try: args = shlex.split(start) except AttributeError: # Not a parsable string-like object try: args = list(start) except TypeError: # Not an iterable object args = [] self.pid = subprocess.Popen( [ds9Globals["progs"][1], '-title', target] + args) for i in range(wait): tlist = xpa.xpaaccess(target, None, 1024) if tlist: break time.sleep(1) if not tlist: raise ValueError, 'no active ds9 running for target: %s' % target elif len(tlist) > 1: a = tlist[0].split() if 'XPA_METHOD' in os.environ.keys(): method = os.environ['XPA_METHOD'] else: method = 'inet' if method == 'local' or method == 'unix': s = 'local file' else: s = 'ip:port' print 'More than one ds9 is running for target %s:' % target for l in tlist: print " %s" % l print 'Use a specific name or id to construct a DS9 object, e.g.:' print " d = DS9('%s')" % a[0].split()[0].split(':')[1] print " d = DS9('%s')" % a[0] print " d = DS9('%s')" % a[1] print "The '%s' id (3rd example) will always be unique.\n" % s raise ValueError, 'too many ds9 instances for target: %s' % target else: a = tlist[0].split() self.__dict__['target'] = target self.__dict__['id'] = a[1] self.verify = verify