# -*- coding: iso-8859-1 -*- import curses, textwrap import astyle, ipipe _ibrowse_help = """ down Move the cursor to the next line. up Move the cursor to the previous line. pagedown Move the cursor down one page (minus overlap). pageup Move the cursor up one page (minus overlap). left Move the cursor left. right Move the cursor right. home Move the cursor to the first column. end Move the cursor to the last column. prevattr Move the cursor one attribute column to the left. nextattr Move the cursor one attribute column to the right. pick 'Pick' the object under the cursor (i.e. the row the cursor is on). This leaves the browser and returns the picked object to the caller. (In IPython this object will be available as the '_' variable.) pickattr 'Pick' the attribute under the cursor (i.e. the row/column the cursor is on). pickallattrs Pick' the complete column under the cursor (i.e. the attribute under the cursor) from all currently fetched objects. These attributes will be returned as a list. tooglemark Mark/unmark the object under the cursor. Marked objects have a '!' after the row number). pickmarked 'Pick' marked objects. Marked objects will be returned as a list. pickmarkedattr 'Pick' the attribute under the cursor from all marked objects (This returns a list). enterdefault Enter the object under the cursor. (what this mean depends on the object itself (i.e. how it implements the '__xiter__' method). This opens a new browser 'level'. enter Enter the object under the cursor. If the object provides different enter modes a menu of all modes will be presented; choose one and enter it (via the 'enter' or 'enterdefault' command). enterattr Enter the attribute under the cursor. leave Leave the current browser level and go back to the previous one. detail Show a detail view of the object under the cursor. This shows the name, type, doc string and value of the object attributes (and it might show more attributes than in the list view, depending on the object). detailattr Show a detail view of the attribute under the cursor. markrange Mark all objects from the last marked object before the current cursor position to the cursor position. sortattrasc Sort the objects (in ascending order) using the attribute under the cursor as the sort key. sortattrdesc Sort the objects (in descending order) using the attribute under the cursor as the sort key. goto Jump to a row. The row number can be entered at the bottom of the screen. find Search forward for a row. At the bottom of the screen the condition can be entered. findbackwards Search backward for a row. At the bottom of the screen the condition can be entered. help This screen. """ class UnassignedKeyError(Exception): """ Exception that is used for reporting unassigned keys. """ class UnknownCommandError(Exception): """ Exception that is used for reporting unknown command (this should never happen). """ class CommandError(Exception): """ Exception that is used for reporting that a command can't be executed. """ class _BrowserCachedItem(object): # This is used internally by ``ibrowse`` to store a item together with its # marked status. __slots__ = ("item", "marked") def __init__(self, item): self.item = item self.marked = False class _BrowserHelp(object): style_header = astyle.Style.fromstr("red:blacK") # This is used internally by ``ibrowse`` for displaying the help screen. def __init__(self, browser): self.browser = browser def __xrepr__(self, mode): yield (-1, True) if mode == "header" or mode == "footer": yield (astyle.style_default, "ibrowse help screen") else: yield (astyle.style_default, repr(self)) def __xiter__(self, mode): # Get reverse key mapping allkeys = {} for (key, cmd) in self.browser.keymap.iteritems(): allkeys.setdefault(cmd, []).append(key) fields = ("key", "description") for (i, command) in enumerate(_ibrowse_help.strip().split("\n\n")): if i: yield ipipe.Fields(fields, key="", description="") (name, description) = command.split("\n", 1) keys = allkeys.get(name, []) lines = textwrap.wrap(description, 60) yield ipipe.Fields(fields, description=astyle.Text((self.style_header, name))) for i in xrange(max(len(keys), len(lines))): try: key = self.browser.keylabel(keys[i]) except IndexError: key = "" try: line = lines[i] except IndexError: line = "" yield ipipe.Fields(fields, key=key, description=line) class _BrowserLevel(object): # This is used internally to store the state (iterator, fetch items, # position of cursor and screen, etc.) of one browser level # An ``ibrowse`` object keeps multiple ``_BrowserLevel`` objects in # a stack. def __init__(self, browser, input, iterator, mainsizey, *attrs): self.browser = browser self.input = input self.header = [x for x in ipipe.xrepr(input, "header") if not isinstance(x[0], int)] # iterator for the input self.iterator = iterator # is the iterator exhausted? self.exhausted = False # attributes to be display (autodetected if empty) self.attrs = attrs # fetched items (+ marked flag) self.items = ipipe.deque() # Number of marked objects self.marked = 0 # Vertical cursor position self.cury = 0 # Horizontal cursor position self.curx = 0 # Index of first data column self.datastartx = 0 # Index of first data line self.datastarty = 0 # height of the data display area self.mainsizey = mainsizey # width of the data display area (changes when scrolling) self.mainsizex = 0 # Size of row number (changes when scrolling) self.numbersizex = 0 # Attribute names to display (in this order) self.displayattrs = [] # index and name of attribute under the cursor self.displayattr = (None, ipipe.noitem) # Maps attribute names to column widths self.colwidths = {} self.fetch(mainsizey) self.calcdisplayattrs() # formatted attributes for the items on screen # (i.e. self.items[self.datastarty:self.datastarty+self.mainsizey]) self.displayrows = [self.getrow(i) for i in xrange(len(self.items))] self.calcwidths() self.calcdisplayattr() def fetch(self, count): # Try to fill ``self.items`` with at least ``count`` objects. have = len(self.items) while not self.exhausted and have < count: try: item = self.iterator.next() except StopIteration: self.exhausted = True break else: have += 1 self.items.append(_BrowserCachedItem(item)) def calcdisplayattrs(self): # Calculate which attributes are available from the objects that are # currently visible on screen (and store it in ``self.displayattrs``) attrnames = set() # If the browser object specifies a fixed list of attributes, # simply use it. if self.attrs: self.displayattrs = self.attrs else: self.displayattrs = [] endy = min(self.datastarty+self.mainsizey, len(self.items)) for i in xrange(self.datastarty, endy): for attrname in ipipe.xattrs(self.items[i].item, "default"): if attrname not in attrnames: self.displayattrs.append(attrname) attrnames.add(attrname) def getrow(self, i): # Return a dictinary with the attributes for the object # ``self.items[i]``. Attribute names are taken from # ``self.displayattrs`` so ``calcdisplayattrs()`` must have been # called before. row = {} item = self.items[i].item for attrname in self.displayattrs: try: value = ipipe._getattr(item, attrname, ipipe.noitem) except (KeyboardInterrupt, SystemExit): raise except Exception, exc: value = exc # only store attribute if it exists (or we got an exception) if value is not ipipe.noitem: # remember alignment, length and colored text row[attrname] = ipipe.xformat(value, "cell", self.browser.maxattrlength) return row def calcwidths(self): # Recalculate the displayed fields and their width. # ``calcdisplayattrs()'' must have been called and the cache # for attributes of the objects on screen (``self.displayrows``) # must have been filled. This returns a dictionary mapping # colmn names to width. self.colwidths = {} for row in self.displayrows: for attrname in self.displayattrs: try: length = row[attrname][1] except KeyError: length = 0 # always add attribute to colwidths, even if it doesn't exist if attrname not in self.colwidths: self.colwidths[attrname] = len(ipipe._attrname(attrname)) newwidth = max(self.colwidths[attrname], length) self.colwidths[attrname] = newwidth # How many characters do we need to paint the item number? self.numbersizex = len(str(self.datastarty+self.mainsizey-1)) # How must space have we got to display data? self.mainsizex = self.browser.scrsizex-self.numbersizex-3 # width of all columns self.datasizex = sum(self.colwidths.itervalues()) + len(self.colwidths) def calcdisplayattr(self): # Find out on which attribute the cursor is on and store this # information in ``self.displayattr``. pos = 0 for (i, attrname) in enumerate(self.displayattrs): if pos+self.colwidths[attrname] >= self.curx: self.displayattr = (i, attrname) break pos += self.colwidths[attrname]+1 else: self.displayattr = (None, ipipe.noitem) def moveto(self, x, y, refresh=False): # Move the cursor to the position ``(x,y)`` (in data coordinates, # not in screen coordinates). If ``refresh`` is true, all cached # values will be recalculated (e.g. because the list has been # resorted, so screen positions etc. are no longer valid). olddatastarty = self.datastarty oldx = self.curx oldy = self.cury x = int(x+0.5) y = int(y+0.5) newx = x # remember where we wanted to move newy = y # remember where we wanted to move scrollbordery = min(self.browser.scrollbordery, self.mainsizey//2) scrollborderx = min(self.browser.scrollborderx, self.mainsizex//2) # Make sure that the cursor didn't leave the main area vertically if y < 0: y = 0 self.fetch(y+scrollbordery+1) # try to get more items if y >= len(self.items): y = max(0, len(self.items)-1) # Make sure that the cursor stays on screen vertically if y < self.datastarty+scrollbordery: self.datastarty = max(0, y-scrollbordery) elif y >= self.datastarty+self.mainsizey-scrollbordery: self.datastarty = max(0, min(y-self.mainsizey+scrollbordery+1, len(self.items)-self.mainsizey)) if refresh: # Do we need to refresh the complete display? self.calcdisplayattrs() endy = min(self.datastarty+self.mainsizey, len(self.items)) self.displayrows = map(self.getrow, xrange(self.datastarty, endy)) self.calcwidths() # Did we scroll vertically => update displayrows # and various other attributes elif self.datastarty != olddatastarty: # Recalculate which attributes we have to display olddisplayattrs = self.displayattrs self.calcdisplayattrs() # If there are new attributes, recreate the cache if self.displayattrs != olddisplayattrs: endy = min(self.datastarty+self.mainsizey, len(self.items)) self.displayrows = map(self.getrow, xrange(self.datastarty, endy)) elif self.datastarty= self.datasizex: x = max(0, self.datasizex-1) # Make sure that the cursor stays on screen horizontally if x < self.datastartx+scrollborderx: self.datastartx = max(0, x-scrollborderx) elif x >= self.datastartx+self.mainsizex-scrollborderx: self.datastartx = max(0, min(x-self.mainsizex+scrollborderx+1, self.datasizex-self.mainsizex)) if x == oldx and y == oldy and (x != newx or y != newy): # couldn't move self.browser.beep() else: self.curx = x self.cury = y self.calcdisplayattr() def sort(self, key, reverse=False): """ Sort the currently list of items using the key function ``key``. If ``reverse`` is true the sort order is reversed. """ curitem = self.items[self.cury] # Remember where the cursor is now # Sort items def realkey(item): return key(item.item) self.items = ipipe.deque(sorted(self.items, key=realkey, reverse=reverse)) # Find out where the object under the cursor went cury = self.cury for (i, item) in enumerate(self.items): if item is curitem: cury = i break self.moveto(self.curx, cury, refresh=True) class ibrowse(ipipe.Display): # Show this many lines from the previous screen when paging horizontally pageoverlapx = 1 # Show this many lines from the previous screen when paging vertically pageoverlapy = 1 # Start scrolling when the cursor is less than this number of columns # away from the left or right screen edge scrollborderx = 10 # Start scrolling when the cursor is less than this number of lines # away from the top or bottom screen edge scrollbordery = 5 # Accelerate by this factor when scrolling horizontally acceleratex = 1.05 # Accelerate by this factor when scrolling vertically acceleratey = 1.05 # The maximum horizontal scroll speed # (as a factor of the screen width (i.e. 0.5 == half a screen width) maxspeedx = 0.5 # The maximum vertical scroll speed # (as a factor of the screen height (i.e. 0.5 == half a screen height) maxspeedy = 0.5 # The maximum number of header lines for browser level # if the nesting is deeper, only the innermost levels are displayed maxheaders = 5 # The approximate maximum length of a column entry maxattrlength = 200 # Styles for various parts of the GUI style_objheadertext = astyle.Style.fromstr("white:black:bold|reverse") style_objheadernumber = astyle.Style.fromstr("white:blue:bold|reverse") style_objheaderobject = astyle.Style.fromstr("white:black:reverse") style_colheader = astyle.Style.fromstr("blue:white:reverse") style_colheaderhere = astyle.Style.fromstr("green:black:bold|reverse") style_colheadersep = astyle.Style.fromstr("blue:black:reverse") style_number = astyle.Style.fromstr("blue:white:reverse") style_numberhere = astyle.Style.fromstr("green:black:bold|reverse") style_sep = astyle.Style.fromstr("blue:black") style_data = astyle.Style.fromstr("white:black") style_datapad = astyle.Style.fromstr("blue:black:bold") style_footer = astyle.Style.fromstr("black:white") style_report = astyle.Style.fromstr("white:black") # Column separator in header headersepchar = "|" # Character for padding data cell entries datapadchar = "." # Column separator in data area datasepchar = "|" # Character to use for "empty" cell (i.e. for non-existing attributes) nodatachar = "-" # Prompts for modes that require keyboard input prompts = { "goto": "goto object #: ", "find": "find expression: ", "findbackwards": "find backwards expression: " } # Maps curses key codes to "function" names keymap = { ord("q"): "quit", curses.KEY_UP: "up", curses.KEY_DOWN: "down", curses.KEY_PPAGE: "pageup", curses.KEY_NPAGE: "pagedown", curses.KEY_LEFT: "left", curses.KEY_RIGHT: "right", curses.KEY_HOME: "home", curses.KEY_END: "end", ord("<"): "prevattr", 0x1b: "prevattr", # SHIFT-TAB ord(">"): "nextattr", ord("\t"):"nextattr", # TAB ord("p"): "pick", ord("P"): "pickattr", ord("C"): "pickallattrs", ord("m"): "pickmarked", ord("M"): "pickmarkedattr", ord("\n"): "enterdefault", # FIXME: What's happening here? 8: "leave", 127: "leave", curses.KEY_BACKSPACE: "leave", ord("x"): "leave", ord("h"): "help", ord("e"): "enter", ord("E"): "enterattr", ord("d"): "detail", ord("D"): "detailattr", ord(" "): "tooglemark", ord("r"): "markrange", ord("v"): "sortattrasc", ord("V"): "sortattrdesc", ord("g"): "goto", ord("f"): "find", ord("b"): "findbackwards", } def __init__(self, *attrs): """ Create a new browser. If ``attrs`` is not empty, it is the list of attributes that will be displayed in the browser, otherwise these will be determined by the objects on screen. """ self.attrs = attrs # Stack of browser levels self.levels = [] # how many colums to scroll (Changes when accelerating) self.stepx = 1. # how many rows to scroll (Changes when accelerating) self.stepy = 1. # Beep on the edges of the data area? (Will be set to ``False`` # once the cursor hits the edge of the screen, so we don't get # multiple beeps). self._dobeep = True # Cache for registered ``curses`` colors and styles. self._styles = {} self._colors = {} self._maxcolor = 1 # How many header lines do we want to paint (the numbers of levels # we have, but with an upper bound) self._headerlines = 1 # Index of first header line self._firstheaderline = 0 # curses window self.scr = None # report in the footer line (error, executed command etc.) self._report = None # value to be returned to the caller (set by commands) self.returnvalue = None # The mode the browser is in # e.g. normal browsing or entering an argument for a command self.mode = "default" # The partially entered row number for the goto command self.goto = "" def nextstepx(self, step): """ Accelerate horizontally. """ return max(1., min(step*self.acceleratex, self.maxspeedx*self.levels[-1].mainsizex)) def nextstepy(self, step): """ Accelerate vertically. """ return max(1., min(step*self.acceleratey, self.maxspeedy*self.levels[-1].mainsizey)) def getstyle(self, style): """ Register the ``style`` with ``curses`` or get it from the cache, if it has been registered before. """ try: return self._styles[style.fg, style.bg, style.attrs] except KeyError: attrs = 0 for b in astyle.A2CURSES: if style.attrs & b: attrs |= astyle.A2CURSES[b] try: color = self._colors[style.fg, style.bg] except KeyError: curses.init_pair( self._maxcolor, astyle.COLOR2CURSES[style.fg], astyle.COLOR2CURSES[style.bg] ) color = curses.color_pair(self._maxcolor) self._colors[style.fg, style.bg] = color self._maxcolor += 1 c = color | attrs self._styles[style.fg, style.bg, style.attrs] = c return c def addstr(self, y, x, begx, endx, text, style): """ A version of ``curses.addstr()`` that can handle ``x`` coordinates that are outside the screen. """ text2 = text[max(0, begx-x):max(0, endx-x)] if text2: self.scr.addstr(y, max(x, begx), text2, self.getstyle(style)) return len(text) def addchr(self, y, x, begx, endx, c, l, style): x0 = max(x, begx) x1 = min(x+l, endx) if x1>x0: self.scr.addstr(y, x0, c*(x1-x0), self.getstyle(style)) return l def _calcheaderlines(self, levels): # Calculate how many headerlines do we have to display, if we have # ``levels`` browser levels if levels is None: levels = len(self.levels) self._headerlines = min(self.maxheaders, levels) self._firstheaderline = levels-self._headerlines def getstylehere(self, style): """ Return a style for displaying the original style ``style`` in the row the cursor is on. """ return astyle.Style(style.fg, style.bg, style.attrs | astyle.A_BOLD) def report(self, msg): """ Store the message ``msg`` for display below the footer line. This will be displayed as soon as the screen is redrawn. """ self._report = msg def enter(self, item, mode, *attrs): """ Enter the object ``item`` in the mode ``mode``. If ``attrs`` is specified, it will be used as a fixed list of attributes to display. """ try: iterator = ipipe.xiter(item, mode) except (KeyboardInterrupt, SystemExit): raise except Exception, exc: curses.beep() self.report(exc) else: self._calcheaderlines(len(self.levels)+1) level = _BrowserLevel( self, item, iterator, self.scrsizey-1-self._headerlines-2, *attrs ) self.levels.append(level) def startkeyboardinput(self, mode): """ Enter mode ``mode``, which requires keyboard input. """ self.mode = mode self.keyboardinput = "" self.cursorpos = 0 def executekeyboardinput(self, mode): exe = getattr(self, "exe_%s" % mode, None) if exe is not None: exe() self.mode = "default" def keylabel(self, keycode): """ Return a pretty name for the ``curses`` key ``keycode`` (used in the help screen and in reports about unassigned keys). """ if keycode <= 0xff: specialsnames = { ord("\n"): "RETURN", ord(" "): "SPACE", ord("\t"): "TAB", ord("\x7f"): "DELETE", ord("\x08"): "BACKSPACE", } if keycode in specialsnames: return specialsnames[keycode] return repr(chr(keycode)) for name in dir(curses): if name.startswith("KEY_") and getattr(curses, name) == keycode: return name return str(keycode) def beep(self, force=False): if force or self._dobeep: curses.beep() # don't beep again (as long as the same key is pressed) self._dobeep = False def cmd_quit(self): self.returnvalue = None return True def cmd_up(self): level = self.levels[-1] self.report("up") level.moveto(level.curx, level.cury-self.stepy) def cmd_down(self): level = self.levels[-1] self.report("down") level.moveto(level.curx, level.cury+self.stepy) def cmd_pageup(self): level = self.levels[-1] self.report("page up") level.moveto(level.curx, level.cury-level.mainsizey+self.pageoverlapy) def cmd_pagedown(self): level = self.levels[-1] self.report("page down") level.moveto(level.curx, level.cury+level.mainsizey-self.pageoverlapy) def cmd_left(self): level = self.levels[-1] self.report("left") level.moveto(level.curx-self.stepx, level.cury) def cmd_right(self): level = self.levels[-1] self.report("right") level.moveto(level.curx+self.stepx, level.cury) def cmd_home(self): level = self.levels[-1] self.report("home") level.moveto(0, level.cury) def cmd_end(self): level = self.levels[-1] self.report("end") level.moveto(level.datasizex+level.mainsizey-self.pageoverlapx, level.cury) def cmd_prevattr(self): level = self.levels[-1] if level.displayattr[0] is None or level.displayattr[0] == 0: self.beep() else: self.report("prevattr") pos = 0 for (i, attrname) in enumerate(level.displayattrs): if i == level.displayattr[0]-1: break pos += level.colwidths[attrname] + 1 level.moveto(pos, level.cury) def cmd_nextattr(self): level = self.levels[-1] if level.displayattr[0] is None or level.displayattr[0] == len(level.displayattrs)-1: self.beep() else: self.report("nextattr") pos = 0 for (i, attrname) in enumerate(level.displayattrs): if i == level.displayattr[0]+1: break pos += level.colwidths[attrname] + 1 level.moveto(pos, level.cury) def cmd_pick(self): level = self.levels[-1] self.returnvalue = level.items[level.cury].item return True def cmd_pickattr(self): level = self.levels[-1] attrname = level.displayattr[1] if attrname is ipipe.noitem: curses.beep() self.report(AttributeError(ipipe._attrname(attrname))) return attr = ipipe._getattr(level.items[level.cury].item, attrname) if attr is ipipe.noitem: curses.beep() self.report(AttributeError(ipipe._attrname(attrname))) else: self.returnvalue = attr return True def cmd_pickallattrs(self): level = self.levels[-1] attrname = level.displayattr[1] if attrname is ipipe.noitem: curses.beep() self.report(AttributeError(ipipe._attrname(attrname))) return result = [] for cache in level.items: attr = ipipe._getattr(cache.item, attrname) if attr is not ipipe.noitem: result.append(attr) self.returnvalue = result return True def cmd_pickmarked(self): level = self.levels[-1] self.returnvalue = [cache.item for cache in level.items if cache.marked] return True def cmd_pickmarkedattr(self): level = self.levels[-1] attrname = level.displayattr[1] if attrname is ipipe.noitem: curses.beep() self.report(AttributeError(ipipe._attrname(attrname))) return result = [] for cache in level.items: if cache.marked: attr = ipipe._getattr(cache.item, attrname) if attr is not ipipe.noitem: result.append(attr) self.returnvalue = result return True def cmd_markrange(self): level = self.levels[-1] self.report("markrange") start = None if level.items: for i in xrange(level.cury, -1, -1): if level.items[i].marked: start = i break if start is None: self.report(CommandError("no mark before cursor")) curses.beep() else: for i in xrange(start, level.cury+1): cache = level.items[i] if not cache.marked: cache.marked = True level.marked += 1 def cmd_enterdefault(self): level = self.levels[-1] try: item = level.items[level.cury].item except IndexError: self.report(CommandError("No object")) curses.beep() else: self.report("entering object (default mode)...") self.enter(item, "default") def cmd_leave(self): self.report("leave") if len(self.levels) > 1: self._calcheaderlines(len(self.levels)-1) self.levels.pop(-1) else: self.report(CommandError("This is the last level")) curses.beep() def cmd_enter(self): level = self.levels[-1] try: item = level.items[level.cury].item except IndexError: self.report(CommandError("No object")) curses.beep() else: self.report("entering object...") self.enter(item, None) def cmd_enterattr(self): level = self.levels[-1] attrname = level.displayattr[1] if attrname is ipipe.noitem: curses.beep() self.report(AttributeError(ipipe._attrname(attrname))) return try: item = level.items[level.cury].item except IndexError: self.report(CommandError("No object")) curses.beep() else: attr = ipipe._getattr(item, attrname) if attr is ipipe.noitem: self.report(AttributeError(ipipe._attrname(attrname))) else: self.report("entering object attribute %s..." % ipipe._attrname(attrname)) self.enter(attr, None) def cmd_detail(self): level = self.levels[-1] try: item = level.items[level.cury].item except IndexError: self.report(CommandError("No object")) curses.beep() else: self.report("entering detail view for object...") self.enter(item, "detail") def cmd_detailattr(self): level = self.levels[-1] attrname = level.displayattr[1] if attrname is ipipe.noitem: curses.beep() self.report(AttributeError(ipipe._attrname(attrname))) return try: item = level.items[level.cury].item except IndexError: self.report(CommandError("No object")) curses.beep() else: attr = ipipe._getattr(item, attrname) if attr is ipipe.noitem: self.report(AttributeError(ipipe._attrname(attrname))) else: self.report("entering detail view for attribute...") self.enter(attr, "detail") def cmd_tooglemark(self): level = self.levels[-1] self.report("toggle mark") try: item = level.items[level.cury] except IndexError: # no items? pass else: if item.marked: item.marked = False level.marked -= 1 else: item.marked = True level.marked += 1 def cmd_sortattrasc(self): level = self.levels[-1] attrname = level.displayattr[1] if attrname is ipipe.noitem: curses.beep() self.report(AttributeError(ipipe._attrname(attrname))) return self.report("sort by %s (ascending)" % ipipe._attrname(attrname)) def key(item): try: return ipipe._getattr(item, attrname, None) except (KeyboardInterrupt, SystemExit): raise except Exception: return None level.sort(key) def cmd_sortattrdesc(self): level = self.levels[-1] attrname = level.displayattr[1] if attrname is ipipe.noitem: curses.beep() self.report(AttributeError(ipipe._attrname(attrname))) return self.report("sort by %s (descending)" % ipipe._attrname(attrname)) def key(item): try: return ipipe._getattr(item, attrname, None) except (KeyboardInterrupt, SystemExit): raise except Exception: return None level.sort(key, reverse=True) def cmd_goto(self): self.startkeyboardinput("goto") def exe_goto(self): level = self.levels[-1] if self.keyboardinput: level.moveto(level.curx, int(self.keyboardinput)) def cmd_find(self): self.startkeyboardinput("find") def exe_find(self): level = self.levels[-1] if self.keyboardinput: while True: cury = level.cury level.moveto(level.curx, cury+1) if cury == level.cury: curses.beep() break item = level.items[level.cury].item try: globals = ipipe.getglobals(None) if eval(self.keyboardinput, globals, ipipe.AttrNamespace(item)): break except (KeyboardInterrupt, SystemExit): raise except Exception, exc: self.report(exc) curses.beep() break # break on error def cmd_findbackwards(self): self.startkeyboardinput("findbackwards") def exe_findbackwards(self): level = self.levels[-1] if self.keyboardinput: while level.cury: level.moveto(level.curx, level.cury-1) item = level.items[level.cury].item try: globals = ipipe.getglobals(None) if eval(self.keyboardinput, globals, ipipe.AttrNamespace(item)): break except (KeyboardInterrupt, SystemExit): raise except Exception, exc: self.report(exc) curses.beep() break # break on error else: curses.beep() def cmd_help(self): """ The help command """ for level in self.levels: if isinstance(level.input, _BrowserHelp): curses.beep() self.report(CommandError("help already active")) return self.enter(_BrowserHelp(self), "default") def _dodisplay(self, scr): """ This method is the workhorse of the browser. It handles screen drawing and the keyboard. """ self.scr = scr curses.halfdelay(1) footery = 2 keys = [] for (key, cmd) in self.keymap.iteritems(): if cmd == "quit": keys.append("%s=%s" % (self.keylabel(key), cmd)) for (key, cmd) in self.keymap.iteritems(): if cmd == "help": keys.append("%s=%s" % (self.keylabel(key), cmd)) helpmsg = " | %s" % " ".join(keys) scr.clear() msg = "Fetching first batch of objects..." (self.scrsizey, self.scrsizex) = scr.getmaxyx() scr.addstr(self.scrsizey//2, (self.scrsizex-len(msg))//2, msg) scr.refresh() lastc = -1 self.levels = [] # enter the first level self.enter(self.input, ipipe.xiter(self.input, "default"), *self.attrs) self._calcheaderlines(None) while True: level = self.levels[-1] (self.scrsizey, self.scrsizex) = scr.getmaxyx() level.mainsizey = self.scrsizey-1-self._headerlines-footery # Paint object header for i in xrange(self._firstheaderline, self._firstheaderline+self._headerlines): lv = self.levels[i] posx = 0 posy = i-self._firstheaderline endx = self.scrsizex if i: # not the first level msg = " (%d/%d" % (self.levels[i-1].cury, len(self.levels[i-1].items)) if not self.levels[i-1].exhausted: msg += "+" msg += ") " endx -= len(msg)+1 posx += self.addstr(posy, posx, 0, endx, " ibrowse #%d: " % i, self.style_objheadertext) for (style, text) in lv.header: posx += self.addstr(posy, posx, 0, endx, text, self.style_objheaderobject) if posx >= endx: break if i: posx += self.addstr(posy, posx, 0, self.scrsizex, msg, self.style_objheadernumber) posx += self.addchr(posy, posx, 0, self.scrsizex, " ", self.scrsizex-posx, self.style_objheadernumber) if not level.items: self.addchr(self._headerlines, 0, 0, self.scrsizex, " ", self.scrsizex, self.style_colheader) self.addstr(self._headerlines+1, 0, 0, self.scrsizex, " ", astyle.style_error) scr.clrtobot() else: # Paint column headers scr.move(self._headerlines, 0) scr.addstr(" %*s " % (level.numbersizex, "#"), self.getstyle(self.style_colheader)) scr.addstr(self.headersepchar, self.getstyle(self.style_colheadersep)) begx = level.numbersizex+3 posx = begx-level.datastartx for attrname in level.displayattrs: strattrname = ipipe._attrname(attrname) cwidth = level.colwidths[attrname] header = strattrname.ljust(cwidth) if attrname == level.displayattr[1]: style = self.style_colheaderhere else: style = self.style_colheader posx += self.addstr(self._headerlines, posx, begx, self.scrsizex, header, style) posx += self.addstr(self._headerlines, posx, begx, self.scrsizex, self.headersepchar, self.style_colheadersep) if posx >= self.scrsizex: break else: scr.addstr(" "*(self.scrsizex-posx), self.getstyle(self.style_colheader)) # Paint rows posy = self._headerlines+1+level.datastarty for i in xrange(level.datastarty, min(level.datastarty+level.mainsizey, len(level.items))): cache = level.items[i] if i == level.cury: style = self.style_numberhere else: style = self.style_number posy = self._headerlines+1+i-level.datastarty posx = begx-level.datastartx scr.move(posy, 0) scr.addstr(" %*d%s" % (level.numbersizex, i, " !"[cache.marked]), self.getstyle(style)) scr.addstr(self.headersepchar, self.getstyle(self.style_sep)) for attrname in level.displayattrs: cwidth = level.colwidths[attrname] try: (align, length, parts) = level.displayrows[i-level.datastarty][attrname] except KeyError: align = 2 style = astyle.style_nodata padstyle = self.style_datapad sepstyle = self.style_sep if i == level.cury: padstyle = self.getstylehere(padstyle) sepstyle = self.getstylehere(sepstyle) if align == 2: posx += self.addchr(posy, posx, begx, self.scrsizex, self.nodatachar, cwidth, style) else: if align == 1: posx += self.addchr(posy, posx, begx, self.scrsizex, self.datapadchar, cwidth-length, padstyle) elif align == 0: pad1 = (cwidth-length)//2 pad2 = cwidth-length-len(pad1) posx += self.addchr(posy, posx, begx, self.scrsizex, self.datapadchar, pad1, padstyle) for (style, text) in parts: if i == level.cury: style = self.getstylehere(style) posx += self.addstr(posy, posx, begx, self.scrsizex, text, style) if posx >= self.scrsizex: break if align == -1: posx += self.addchr(posy, posx, begx, self.scrsizex, self.datapadchar, cwidth-length, padstyle) elif align == 0: posx += self.addchr(posy, posx, begx, self.scrsizex, self.datapadchar, pad2, padstyle) posx += self.addstr(posy, posx, begx, self.scrsizex, self.datasepchar, sepstyle) else: scr.clrtoeol() # Add blank row headers for the rest of the screen for posy in xrange(posy+1, self.scrsizey-2): scr.addstr(posy, 0, " " * (level.numbersizex+2), self.getstyle(self.style_colheader)) scr.clrtoeol() posy = self.scrsizey-footery # Display footer scr.addstr(posy, 0, " "*self.scrsizex, self.getstyle(self.style_footer)) if level.exhausted: flag = "" else: flag = "+" endx = self.scrsizex-len(helpmsg)-1 scr.addstr(posy, endx, helpmsg, self.getstyle(self.style_footer)) posx = 0 msg = " %d%s objects (%d marked): " % (len(level.items), flag, level.marked) posx += self.addstr(posy, posx, 0, endx, msg, self.style_footer) try: item = level.items[level.cury].item except IndexError: # empty pass else: for (nostyle, text) in ipipe.xrepr(item, "footer"): if not isinstance(nostyle, int): posx += self.addstr(posy, posx, 0, endx, text, self.style_footer) if posx >= endx: break attrstyle = [(astyle.style_default, "no attribute")] attrname = level.displayattr[1] if attrname is not ipipe.noitem and attrname is not None: posx += self.addstr(posy, posx, 0, endx, " | ", self.style_footer) posx += self.addstr(posy, posx, 0, endx, ipipe._attrname(attrname), self.style_footer) posx += self.addstr(posy, posx, 0, endx, ": ", self.style_footer) try: attr = ipipe._getattr(item, attrname) except (SystemExit, KeyboardInterrupt): raise except Exception, exc: attr = exc if attr is not ipipe.noitem: attrstyle = ipipe.xrepr(attr, "footer") for (nostyle, text) in attrstyle: if not isinstance(nostyle, int): posx += self.addstr(posy, posx, 0, endx, text, self.style_footer) if posx >= endx: break try: # Display input prompt if self.mode in self.prompts: scr.addstr(self.scrsizey-1, 0, self.prompts[self.mode] + self.keyboardinput, self.getstyle(astyle.style_default)) # Display report else: if self._report is not None: if isinstance(self._report, Exception): style = self.getstyle(astyle.style_error) if self._report.__class__.__module__ == "exceptions": msg = "%s: %s" % \ (self._report.__class__.__name__, self._report) else: msg = "%s.%s: %s" % \ (self._report.__class__.__module__, self._report.__class__.__name__, self._report) else: style = self.getstyle(self.style_report) msg = self._report scr.addstr(self.scrsizey-1, 0, msg[:self.scrsizex], style) self._report = None else: scr.move(self.scrsizey-1, 0) except curses.error: # Protect against error from writing to the last line pass scr.clrtoeol() # Position cursor if self.mode in self.prompts: scr.move(self.scrsizey-1, len(self.prompts[self.mode])+self.cursorpos) else: scr.move( 1+self._headerlines+level.cury-level.datastarty, level.numbersizex+3+level.curx-level.datastartx ) scr.refresh() # Check keyboard while True: c = scr.getch() if self.mode in self.prompts: if c in (8, 127, curses.KEY_BACKSPACE): if self.cursorpos: self.keyboardinput = self.keyboardinput[:self.cursorpos-1] + self.keyboardinput[self.cursorpos:] self.cursorpos -= 1 break else: curses.beep() elif c == curses.KEY_LEFT: if self.cursorpos: self.cursorpos -= 1 break else: curses.beep() elif c == curses.KEY_RIGHT: if self.cursorpos < len(self.keyboardinput): self.cursorpos += 1 break else: curses.beep() elif c in (curses.KEY_UP, curses.KEY_DOWN): # cancel self.mode = "default" break elif c == ord("\n"): self.executekeyboardinput(self.mode) break elif c != -1: try: c = chr(c) except ValueError: curses.beep() else: if (self.mode == "goto" and not "0" <= c <= "9"): curses.beep() else: self.keyboardinput = self.keyboardinput[:self.cursorpos] + c + self.keyboardinput[self.cursorpos:] self.cursorpos += 1 break # Redisplay else: # if no key is pressed slow down and beep again if c == -1: self.stepx = 1. self.stepy = 1. self._dobeep = True else: # if a different key was pressed slow down and beep too if c != lastc: lastc = c self.stepx = 1. self.stepy = 1. self._dobeep = True cmdname = self.keymap.get(c, None) if cmdname is None: self.report( UnassignedKeyError("Unassigned key %s" % self.keylabel(c))) else: cmdfunc = getattr(self, "cmd_%s" % cmdname, None) if cmdfunc is None: self.report( UnknownCommandError("Unknown command %r" % (cmdname,))) elif cmdfunc(): returnvalue = self.returnvalue self.returnvalue = None return returnvalue self.stepx = self.nextstepx(self.stepx) self.stepy = self.nextstepy(self.stepy) curses.flushinp() # get rid of type ahead break # Redisplay self.scr = None def display(self): return curses.wrapper(self._dodisplay)