import os, commands, re, sets, tempfile from subprocess import Popen, PIPE, STDOUT import buffer, default, dirutil, regex, util, window from point import Point from method import DATATYPES, Method, Argument class ShowBindingsBuffer(Method): '''Dump all keybindings for current mode into a new buffer''' def _execute(self, w, **vargs): lines = [] mode_name = w.mode.name() lines.append('Key bindings for mode %r:' % (mode_name)) lines.append('') names_to_sequences = {} seq_len = len('BINDINGS') name_len = len('ACTION') for seq in w.mode.bindings: name = w.mode.bindings[seq] # we aren't going to show all the generic keypress actions if 'insert-string-' in name: continue elif 'overwrite-char-' in name: continue # determine this for formatting seq_len = max(seq_len, len(seq)) name_len = max(name_len, len(name)) # set up our new data structure names_to_sequences.setdefault(name, []) names_to_sequences[name].append(seq) # generate the format string (note the 'meta formatting') format_str = '%%-%ds %%-%ds %%s' % (seq_len, name_len) lines.append(format_str % ('BINDINGS', 'ACTIONS', 'HELP')) names = names_to_sequences.keys() names.sort() for name in names: sequences = names_to_sequences[name] sequences.sort() seq = sequences[0] help = w.application.methods[name].help if help is None: help = '' lines.append(format_str % (seq, name, help)) for seq2 in sequences[1:]: lines.append(format_str % (seq2, '', '')) data = '\n'.join(lines) w.application.data_buffer("*Bindings-Help*", data, switch_to=True) class ShowFunctionsBuffer(Method): '''Dump all keybindings for current mode into a new buffer''' def _execute(self, w, **vargs): app = w.application name_len = len('ACTIONS') pairs = [] for name in app.methods: # we aren't going to show all the generic keypress actions if 'insert-string-' in name: continue elif 'overwrite-char-' in name: continue # determine this for formatting name_len = max(name_len, len(name)) pairs.append((name, app.methods[name].help)) # generate the format string (note the 'meta formatting') format_str = '%%-%ds %%s' % name_len lines = [format_str % ('FUNCTION', 'HELP')] for pair in sorted(pairs): lines.append(format_str % pair) data = '\n'.join(lines) w.application.data_buffer("*Functions-Help*", data, switch_to=True) class CmdHelpBuffer(Method): '''Get help with the specified command''' args = [Argument('method', datatype="method", prompt="Help for command: ")] def _execute(self, w, **vargs): lines = [] name = vargs['method'] if name not in w.application.methods: w.set_error("No command called %r" % name) return m = w.application.methods[name] lines.append('HELP FOR %r' % name) lines.append('') # sequences sequences = [] for seq in w.mode.bindings: if w.mode.bindings[seq] == name: sequences.append(seq) sequences.sort() lines.append('Keys bound to this command:') for seq in sequences: lines.append(' %s' % (seq)) lines.append('') # arguments if m.args: lines.append('Arguments for this command:') for arg in m.args: if arg.datatype is None: if arg.type == type(""): t = 'str' elif arg.type == type(0): t = 'int' elif arg.type == type(0.0): t = 'float' else: t = 'str' else: t = arg.datatype if arg.help: lines.append(' %s %r: %s' % (t, arg.name, arg.help)) else: lines.append(' %s %r' % (t, arg.name)) lines.append('') # help text lines.append('Help text for this command:') h = m.help if not h: h = 'No help available' lines.append(' %s' % h) data = '\n'.join(lines) w.application.data_buffer("*Command-Help*", data, switch_to=True) class WhichCommand(Method): '''Display which command is run for a given key-sequence''' def _execute(self, w, **vargs): self.old_window = w s = 'Enter a key sequence to be explained: ' w.application.open_mini_buffer(s, lambda x: None, self, None, 'which') class AboutPmacs(Method): '''print some information about pmacs''' def _execute(self, w, **vargs): a = w.application if not a.has_buffer_name('*About*'): b = buffer.AboutBuffer() a.add_buffer(b) window.Window(b, a) b = a.bufferlist.get_buffer_by_name('*About*') if a.window().buffer is not b: a.switch_buffer(b)