2024-05-29 15:56:08 +02:00
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import textwrap, sys, re, string, json, os
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2024-06-09 10:35:38 +02:00
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from array import array
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2024-02-11 20:46:36 +01:00
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2024-06-09 11:10:20 +02:00
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# Compile compose sequences from Xorg's format or from JSON files into an
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# efficient state machine.
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# See [ComposeKey.java] for the interpreter.
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#
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# Takes input files as arguments and generate a Java file.
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# The initial state for each input is generated as a constant named after the
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# input file.
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2024-05-29 15:56:08 +02:00
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# Parse symbol names from keysymdef.h. Many compose sequences in
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# en_US_UTF_8_Compose.pre reference theses. For example, all the sequences on
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# the Greek, Cyrillic and Hebrew scripts need these symbols.
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2024-07-21 23:37:07 +02:00
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def parse_keysymdef_h(fname):
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with open(fname, "r") as inp:
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2024-05-29 15:56:08 +02:00
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keysym_re = re.compile(r'^#define XK_(\S+)\s+\S+\s*/\*.U\+([0-9a-fA-F]+)\s')
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for line in inp:
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m = re.match(keysym_re, line)
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if m != None:
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yield (m.group(1), chr(int(m.group(2), 16)))
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2024-02-12 23:23:38 +01:00
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dropped_sequences = 0
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# Parse XKB's Compose.pre files
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def parse_sequences_file_xkb(fname, xkb_char_extra_names):
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# Parse a line of the form:
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# <Multi_key> <minus> <space> : "~" asciitilde # TILDE
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# Sequences not starting with <Multi_key> are ignored.
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line_re = re.compile(r'^((?:\s*<[^>]+>)+)\s*:\s*"((?:[^"\\]+|\\.)+)"\s*(\S+)?\s*(?:#.+)?$')
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char_re = re.compile(r'\s*<(?:U([a-fA-F0-9]{4,6})|([^>]+))>')
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def parse_seq_line(line):
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global dropped_sequences
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prefix = "<Multi_key>"
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if not line.startswith(prefix):
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return None
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m = re.match(line_re, line[len(prefix):])
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if m == None:
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return None
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def_ = m.group(1)
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try:
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def_ = parse_seq_chars(def_)
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result = parse_seq_result(m.group(2))
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except Exception as e:
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# print(str(e) + ". Sequence dropped: " + line.strip(), file=sys.stderr)
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dropped_sequences += 1
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return None
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return def_, result
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char_names = { **xkb_char_extra_names }
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# Interpret character names of the form "U0000" or using [char_names].
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def parse_seq_char(sc):
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uchar, named_char = sc
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if uchar != "":
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c = chr(int(uchar, 16))
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elif len(named_char) == 1:
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c = named_char
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else:
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if not named_char in char_names:
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raise Exception("Unknown char: " + named_char)
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c = char_names[named_char]
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# The state machine can't represent sequence characters that do not fit
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# in a 16-bit char.
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if len(c) > 1 or ord(c[0]) > 65535:
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raise Exception("Char out of range: " + r)
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return c
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# Interpret the left hand side of a sequence.
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def parse_seq_chars(def_):
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return list(map(parse_seq_char, re.findall(char_re, def_)))
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# Interpret the result of a sequence, as outputed by [line_re].
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def parse_seq_result(r):
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if len(r) == 2 and r[0] == '\\':
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return r[1]
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return r
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# Populate [char_names] with the information present in the file.
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with open(fname, "r") as inp:
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for line in inp:
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m = re.match(line_re, line)
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if m == None or m.group(3) == None:
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continue
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try:
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char_names[m.group(3)] = parse_seq_result(m.group(2))
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except Exception:
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pass
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# Parse the sequences
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with open(fname, "r") as inp:
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seqs = []
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for line in inp:
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s = parse_seq_line(line)
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if s != None:
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seqs.append(s)
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return seqs
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2024-03-02 19:12:37 +01:00
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# Parse from a json file containing a dictionary sequence → result string.
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def parse_sequences_file_json(fname):
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with open(fname, "r") as inp:
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seqs = json.load(inp)
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return list(seqs.items())
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# Format of the sequences file is determined by its extension
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def parse_sequences_file(fname, xkb_char_extra_names={}):
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if fname.endswith(".pre"):
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return parse_sequences_file_xkb(fname, xkb_char_extra_names)
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if fname.endswith(".json"):
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return parse_sequences_file_json(fname)
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raise Exception(fname + ": Unsupported format")
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# A sequence directory can contain several sequence files as well as
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# 'keysymdef.h'.
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def parse_sequences_dir(dname):
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compose_files = []
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xkb_char_extra_names = {}
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# Parse keysymdef.h first if present
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for fbasename in os.listdir(dname):
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fname = os.path.join(dname, fbasename)
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if fbasename == "keysymdef.h":
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xkb_char_extra_names = dict(parse_keysymdef_h(fname))
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else:
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compose_files.append(fname)
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sequences = []
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for fname in compose_files:
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sequences.extend(parse_sequences_file(fname, xkb_char_extra_names))
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return sequences
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# Turn a list of sequences into a trie.
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def add_sequences_to_trie(seqs, trie):
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def add_seq_to_trie(t_, seq, result):
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t_ = trie
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i = 0
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while i < len(seq) - 1:
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c = seq[i]
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if c not in t_:
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t_[c] = {}
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if isinstance(t_[c], str):
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global dropped_sequences
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dropped_sequences += 1
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print("Sequence collide: '%s = %s' '%s = %s'" % (
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seq[:i+1], t_[c], seq, result),
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file=sys.stderr)
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return
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t_ = t_[c]
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i += 1
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c = seq[i]
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t_[c] = result
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for seq, result in seqs:
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add_seq_to_trie(trie, seq, result)
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# Compile the trie into a state machine.
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def make_automata(tries):
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states = []
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def add_tree(t):
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# Index and size of the new node
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i = len(states)
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s = len(t.keys())
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# Add node header
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states.append(("\0", s + 1))
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i += 1
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# Reserve space for the current node in both arrays
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for c in range(s):
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states.append((None, None))
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# Add nested nodes and fill the current node
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for c in sorted(t.keys()):
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node_i = len(states)
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add_node(t[c])
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states[i] = (c, node_i)
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i += 1
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def add_leaf(c):
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# There are two encoding for leafs: character final state for 15-bit
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# characters and string final state for the rest.
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if len(c) > 1 or ord(c[0]) > 32767: # String final state
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javachars = array('H', c.encode("UTF-16-LE"))
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states.append((-1, len(javachars) + 1))
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for c in javachars:
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states.append((c, 0))
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else: # Character final state
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states.append((c, 1))
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def add_node(n):
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if type(n) == str:
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add_leaf(n)
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else:
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add_tree(n)
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states.append((1, 1)) # Add an empty state at the beginning.
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entry_states = {}
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for tname, tree_root in tries.items():
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entry_states[tname] = len(states)
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add_tree(tree_root)
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return entry_states, states
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# Debug
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def print_automata(automata):
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i = 0
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for (s, e) in automata:
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s = "%#06x" % s if isinstance(s, int) else '"%s"' % str(s)
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print("%3d %8s %d" % (i, s, e), file=sys.stderr)
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i += 1
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def batched(ar, n):
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i = 0
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while i + n < len(ar):
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yield ar[i:i+n]
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i += n
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if i < len(ar):
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yield ar[i:]
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2024-02-11 20:46:36 +01:00
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# Print the state machine compiled by make_automata into java code that can be
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# used by [ComposeKeyData.java].
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def gen_java(entry_states, machine):
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chars_map = {
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# These characters cannot be used in unicode form as Java's parser
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# unescape unicode sequences before parsing.
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-1: "\\uFFFF",
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"\"": "\\\"",
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"\\": "\\\\",
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"\n": "\\n",
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"\r": "\\r",
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ord("\""): "\\\"",
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ord("\\"): "\\\\",
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ord("\n"): "\\n",
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ord("\r"): "\\r",
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}
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def char_repr(c):
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if c in chars_map:
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return chars_map[c]
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if type(c) == int: # The edges array contains ints
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return "\\u%04x" % c
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if c in string.printable:
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return c
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return "\\u%04x" % ord(c)
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def gen_array(array):
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chars = list(map(char_repr, array))
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return "\" +\n \"".join(map(lambda b: "".join(b), batched(chars, 72)))
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def gen_entry_state(s):
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name, state = s
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return " public static final int %s = %d;" % (name, state)
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print("""package juloo.keyboard2;
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/** This file is generated, see [srcs/compose/compile.py]. */
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public final class ComposeKeyData
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{
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public static final char[] states =
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("%s").toCharArray();
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public static final char[] edges =
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("%s").toCharArray();
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%s
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2024-02-11 20:46:36 +01:00
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}""" % (
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# Break the edges array every few characters using string concatenation.
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gen_array(map(lambda s: s[0], machine)),
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gen_array(map(lambda s: s[1], machine)),
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"\n".join(map(gen_entry_state, entry_states.items())),
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))
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total_sequences = 0
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tries = {} # Orderred dict
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for fname in sorted(sys.argv[1:]):
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tname, _ = os.path.splitext(os.path.basename(fname))
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if os.path.isdir(fname):
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sequences = parse_sequences_dir(fname)
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else:
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sequences = parse_sequences_file(fname)
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add_sequences_to_trie(sequences, tries.setdefault(tname, {}))
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total_sequences += len(sequences)
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entry_states, automata = make_automata(tries)
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gen_java(entry_states, automata)
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print("Compiled %d sequences into %d states. Dropped %d sequences." % (total_sequences, len(automata), dropped_sequences), file=sys.stderr)
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# print_automata(automata)
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