-#!/usr/bin/env python
-#
-# Copyright 2011-2013 The Rust Project Developers. See the COPYRIGHT
-# file at the top-level directory of this distribution and at
-# http://rust-lang.org/COPYRIGHT.
-#
-# Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-# http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-# <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-# option. This file may not be copied, modified, or distributed
-# except according to those terms.
-
-# This script uses the following Unicode tables:
-# - DerivedCoreProperties.txt
-# - DerivedNormalizationProps.txt
-# - EastAsianWidth.txt
-# - auxiliary/GraphemeBreakProperty.txt
-# - PropList.txt
-# - ReadMe.txt
-# - Scripts.txt
-# - UnicodeData.txt
-#
-# Since this should not require frequent updates, we just store this
-# out-of-line and check the unicode.rs file into git.
-
-import fileinput, re, os, sys, operator, math
-
-preamble = '''// Copyright 2012-2016 The Rust Project Developers. See the COPYRIGHT
-// file at the top-level directory of this distribution and at
-// http://rust-lang.org/COPYRIGHT.
-//
-// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
-// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
-// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
-// option. This file may not be copied, modified, or distributed
-// except according to those terms.
-
-// NOTE: The following code was generated by "src/etc/unicode.py", do not edit directly
-
-#![allow(missing_docs, non_upper_case_globals, non_snake_case)]
-'''
-
-# Mapping taken from Table 12 from:
-# http://www.unicode.org/reports/tr44/#General_Category_Values
-expanded_categories = {
- 'Lu': ['LC', 'L'], 'Ll': ['LC', 'L'], 'Lt': ['LC', 'L'],
- 'Lm': ['L'], 'Lo': ['L'],
- 'Mn': ['M'], 'Mc': ['M'], 'Me': ['M'],
- 'Nd': ['N'], 'Nl': ['N'], 'No': ['No'],
- 'Pc': ['P'], 'Pd': ['P'], 'Ps': ['P'], 'Pe': ['P'],
- 'Pi': ['P'], 'Pf': ['P'], 'Po': ['P'],
- 'Sm': ['S'], 'Sc': ['S'], 'Sk': ['S'], 'So': ['S'],
- 'Zs': ['Z'], 'Zl': ['Z'], 'Zp': ['Z'],
- 'Cc': ['C'], 'Cf': ['C'], 'Cs': ['C'], 'Co': ['C'], 'Cn': ['C'],
-}
-
-# these are the surrogate codepoints, which are not valid rust characters
-surrogate_codepoints = (0xd800, 0xdfff)
-
-def fetch(f):
- if not os.path.exists(os.path.basename(f)):
- os.system("curl -O http://www.unicode.org/Public/UNIDATA/%s"
- % f)
-
- if not os.path.exists(os.path.basename(f)):
- sys.stderr.write("cannot load %s" % f)
- exit(1)
-
-def is_surrogate(n):
- return surrogate_codepoints[0] <= n <= surrogate_codepoints[1]
-
-def load_unicode_data(f):
- fetch(f)
- gencats = {}
- to_lower = {}
- to_upper = {}
- to_title = {}
- combines = {}
- canon_decomp = {}
- compat_decomp = {}
-
- udict = {}
- range_start = -1
- for line in fileinput.input(f):
- data = line.split(';')
- if len(data) != 15:
- continue
- cp = int(data[0], 16)
- if is_surrogate(cp):
- continue
- if range_start >= 0:
- for i in xrange(range_start, cp):
- udict[i] = data
- range_start = -1
- if data[1].endswith(", First>"):
- range_start = cp
- continue
- udict[cp] = data
-
- for code in udict:
- (code_org, name, gencat, combine, bidi,
- decomp, deci, digit, num, mirror,
- old, iso, upcase, lowcase, titlecase) = udict[code]
-
- # generate char to char direct common and simple conversions
- # uppercase to lowercase
- if lowcase != "" and code_org != lowcase:
- to_lower[code] = (int(lowcase, 16), 0, 0)
-
- # lowercase to uppercase
- if upcase != "" and code_org != upcase:
- to_upper[code] = (int(upcase, 16), 0, 0)
-
- # title case
- if titlecase.strip() != "" and code_org != titlecase:
- to_title[code] = (int(titlecase, 16), 0, 0)
-
- # store decomposition, if given
- if decomp != "":
- if decomp.startswith('<'):
- seq = []
- for i in decomp.split()[1:]:
- seq.append(int(i, 16))
- compat_decomp[code] = seq
- else:
- seq = []
- for i in decomp.split():
- seq.append(int(i, 16))
- canon_decomp[code] = seq
-
- # place letter in categories as appropriate
- for cat in [gencat, "Assigned"] + expanded_categories.get(gencat, []):
- if cat not in gencats:
- gencats[cat] = []
- gencats[cat].append(code)
-
- # record combining class, if any
- if combine != "0":
- if combine not in combines:
- combines[combine] = []
- combines[combine].append(code)
-
- # generate Not_Assigned from Assigned
- gencats["Cn"] = gen_unassigned(gencats["Assigned"])
- # Assigned is not a real category
- del(gencats["Assigned"])
- # Other contains Not_Assigned
- gencats["C"].extend(gencats["Cn"])
- gencats = group_cats(gencats)
- combines = to_combines(group_cats(combines))
-
- return (canon_decomp, compat_decomp, gencats, combines, to_upper, to_lower, to_title)
-
-def load_special_casing(f, to_upper, to_lower, to_title):
- fetch(f)
- for line in fileinput.input(f):
- data = line.split('#')[0].split(';')
- if len(data) == 5:
- code, lower, title, upper, _comment = data
- elif len(data) == 6:
- code, lower, title, upper, condition, _comment = data
- if condition.strip(): # Only keep unconditional mappins
- continue
- else:
- continue
- code = code.strip()
- lower = lower.strip()
- title = title.strip()
- upper = upper.strip()
- key = int(code, 16)
- for (map_, values) in [(to_lower, lower), (to_upper, upper), (to_title, title)]:
- if values != code:
- values = [int(i, 16) for i in values.split()]
- for _ in range(len(values), 3):
- values.append(0)
- assert len(values) == 3
- map_[key] = values
-
-def group_cats(cats):
- cats_out = {}
- for cat in cats:
- cats_out[cat] = group_cat(cats[cat])
- return cats_out
-
-def group_cat(cat):
- cat_out = []
- letters = sorted(set(cat))
- cur_start = letters.pop(0)
- cur_end = cur_start
- for letter in letters:
- assert letter > cur_end, \
- "cur_end: %s, letter: %s" % (hex(cur_end), hex(letter))
- if letter == cur_end + 1:
- cur_end = letter
- else:
- cat_out.append((cur_start, cur_end))
- cur_start = cur_end = letter
- cat_out.append((cur_start, cur_end))
- return cat_out
-
-def ungroup_cat(cat):
- cat_out = []
- for (lo, hi) in cat:
- while lo <= hi:
- cat_out.append(lo)
- lo += 1
- return cat_out
-
-def gen_unassigned(assigned):
- assigned = set(assigned)
- return ([i for i in range(0, 0xd800) if i not in assigned] +
- [i for i in range(0xe000, 0x110000) if i not in assigned])
-
-def to_combines(combs):
- combs_out = []
- for comb in combs:
- for (lo, hi) in combs[comb]:
- combs_out.append((lo, hi, comb))
- combs_out.sort(key=lambda comb: comb[0])
- return combs_out
-
-def format_table_content(f, content, indent):
- line = " "*indent
- first = True
- for chunk in content.split(","):
- if len(line) + len(chunk) < 98:
- if first:
- line += chunk
- else:
- line += ", " + chunk
- first = False
- else:
- f.write(line + ",\n")
- line = " "*indent + chunk
- f.write(line)
-
-def load_properties(f, interestingprops):
- fetch(f)
- props = {}
- re1 = re.compile("^ *([0-9A-F]+) *; *(\w+)")
- re2 = re.compile("^ *([0-9A-F]+)\.\.([0-9A-F]+) *; *(\w+)")
-
- for line in fileinput.input(os.path.basename(f)):
- prop = None
- d_lo = 0
- d_hi = 0
- m = re1.match(line)
- if m:
- d_lo = m.group(1)
- d_hi = m.group(1)
- prop = m.group(2)
- else:
- m = re2.match(line)
- if m:
- d_lo = m.group(1)
- d_hi = m.group(2)
- prop = m.group(3)
- else:
- continue
- if interestingprops and prop not in interestingprops:
- continue
- d_lo = int(d_lo, 16)
- d_hi = int(d_hi, 16)
- if prop not in props:
- props[prop] = []
- props[prop].append((d_lo, d_hi))
-
- # optimize if possible
- for prop in props:
- props[prop] = group_cat(ungroup_cat(props[prop]))
-
- return props
-
-def escape_char(c):
- return "'\\u{%x}'" % c if c != 0 else "'\\0'"
-
-def emit_bsearch_range_table(f):
- f.write("""
-fn bsearch_range_table(c: char, r: &'static [(char, char)]) -> bool {
- use core::cmp::Ordering::{Equal, Less, Greater};
- r.binary_search_by(|&(lo, hi)| {
- if c < lo {
- Greater
- } else if hi < c {
- Less
- } else {
- Equal
- }
- })
- .is_ok()
-}\n
-""")
-
-def emit_table(f, name, t_data, t_type = "&'static [(char, char)]", is_pub=True,
- pfun=lambda x: "(%s,%s)" % (escape_char(x[0]), escape_char(x[1]))):
- pub_string = ""
- if is_pub:
- pub_string = "pub "
- f.write(" %sconst %s: %s = &[\n" % (pub_string, name, t_type))
- data = ""
- first = True
- for dat in t_data:
- if not first:
- data += ","
- first = False
- data += pfun(dat)
- format_table_content(f, data, 8)
- f.write("\n ];\n\n")
-
-def emit_trie_lookup_range_table(f):
- f.write("""
-
-// BoolTrie is a trie for representing a set of Unicode codepoints. It is
-// implemented with postfix compression (sharing of identical child nodes),
-// which gives both compact size and fast lookup.
-//
-// The space of Unicode codepoints is divided into 3 subareas, each
-// represented by a trie with different depth. In the first (0..0x800), there
-// is no trie structure at all; each u64 entry corresponds to a bitvector
-// effectively holding 64 bool values.
-//
-// In the second (0x800..0x10000), each child of the root node represents a
-// 64-wide subrange, but instead of storing the full 64-bit value of the leaf,
-// the trie stores an 8-bit index into a shared table of leaf values. This
-// exploits the fact that in reasonable sets, many such leaves can be shared.
-//
-// In the third (0x10000..0x110000), each child of the root node represents a
-// 4096-wide subrange, and the trie stores an 8-bit index into a 64-byte slice
-// of a child tree. Each of these 64 bytes represents an index into the table
-// of shared 64-bit leaf values. This exploits the sparse structure in the
-// non-BMP range of most Unicode sets.
-pub struct BoolTrie {
- // 0..0x800 (corresponding to 1 and 2 byte utf-8 sequences)
- r1: [u64; 32], // leaves
-
- // 0x800..0x10000 (corresponding to 3 byte utf-8 sequences)
- r2: [u8; 992], // first level
- r3: &'static [u64], // leaves
-
- // 0x10000..0x110000 (corresponding to 4 byte utf-8 sequences)
- r4: [u8; 256], // first level
- r5: &'static [u8], // second level
- r6: &'static [u64], // leaves
-}
-
-fn trie_range_leaf(c: usize, bitmap_chunk: u64) -> bool {
- ((bitmap_chunk >> (c & 63)) & 1) != 0
-}
-
-fn trie_lookup_range_table(c: char, r: &'static BoolTrie) -> bool {
- let c = c as usize;
- if c < 0x800 {
- trie_range_leaf(c, r.r1[c >> 6])
- } else if c < 0x10000 {
- let child = r.r2[(c >> 6) - 0x20];
- trie_range_leaf(c, r.r3[child as usize])
- } else {
- let child = r.r4[(c >> 12) - 0x10];
- let leaf = r.r5[((child as usize) << 6) + ((c >> 6) & 0x3f)];
- trie_range_leaf(c, r.r6[leaf as usize])
- }
-}
-
-pub struct SmallBoolTrie {
- r1: &'static [u8], // first level
- r2: &'static [u64], // leaves
-}
-
-impl SmallBoolTrie {
- fn lookup(&self, c: char) -> bool {
- let c = c as usize;
- match self.r1.get(c >> 6) {
- Some(&child) => trie_range_leaf(c, self.r2[child as usize]),
- None => false,
- }
- }
-}
-
-""")
-
-def compute_trie(rawdata, chunksize):
- root = []
- childmap = {}
- child_data = []
- for i in range(len(rawdata) / chunksize):
- data = rawdata[i * chunksize: (i + 1) * chunksize]
- child = '|'.join(map(str, data))
- if child not in childmap:
- childmap[child] = len(childmap)
- child_data.extend(data)
- root.append(childmap[child])
- return (root, child_data)
-
-def emit_bool_trie(f, name, t_data, is_pub=True):
- CHUNK = 64
- rawdata = [False] * 0x110000
- for (lo, hi) in t_data:
- for cp in range(lo, hi + 1):
- rawdata[cp] = True
-
- # convert to bitmap chunks of 64 bits each
- chunks = []
- for i in range(0x110000 / CHUNK):
- chunk = 0
- for j in range(64):
- if rawdata[i * 64 + j]:
- chunk |= 1 << j
- chunks.append(chunk)
-
- pub_string = ""
- if is_pub:
- pub_string = "pub "
- f.write(" %sconst %s: &'static super::BoolTrie = &super::BoolTrie {\n" % (pub_string, name))
- f.write(" r1: [\n")
- data = ','.join('0x%016x' % chunk for chunk in chunks[0:0x800 / CHUNK])
- format_table_content(f, data, 12)
- f.write("\n ],\n")
-
- # 0x800..0x10000 trie
- (r2, r3) = compute_trie(chunks[0x800 / CHUNK : 0x10000 / CHUNK], 64 / CHUNK)
- f.write(" r2: [\n")
- data = ','.join(str(node) for node in r2)
- format_table_content(f, data, 12)
- f.write("\n ],\n")
- f.write(" r3: &[\n")
- data = ','.join('0x%016x' % chunk for chunk in r3)
- format_table_content(f, data, 12)
- f.write("\n ],\n")
-
- # 0x10000..0x110000 trie
- (mid, r6) = compute_trie(chunks[0x10000 / CHUNK : 0x110000 / CHUNK], 64 / CHUNK)
- (r4, r5) = compute_trie(mid, 64)
- f.write(" r4: [\n")
- data = ','.join(str(node) for node in r4)
- format_table_content(f, data, 12)
- f.write("\n ],\n")
- f.write(" r5: &[\n")
- data = ','.join(str(node) for node in r5)
- format_table_content(f, data, 12)
- f.write("\n ],\n")
- f.write(" r6: &[\n")
- data = ','.join('0x%016x' % chunk for chunk in r6)
- format_table_content(f, data, 12)
- f.write("\n ],\n")
-
- f.write(" };\n\n")
-
-def emit_small_bool_trie(f, name, t_data, is_pub=True):
- last_chunk = max(int(hi / 64) for (lo, hi) in t_data)
- n_chunks = last_chunk + 1
- chunks = [0] * n_chunks
- for (lo, hi) in t_data:
- for cp in range(lo, hi + 1):
- if int(cp / 64) >= len(chunks):
- print(cp, int(cp / 64), len(chunks), lo, hi)
- chunks[int(cp / 64)] |= 1 << (cp & 63)
-
- pub_string = ""
- if is_pub:
- pub_string = "pub "
- f.write(" %sconst %s: &'static super::SmallBoolTrie = &super::SmallBoolTrie {\n"
- % (pub_string, name))
-
- (r1, r2) = compute_trie(chunks, 1)
-
- f.write(" r1: &[\n")
- data = ','.join(str(node) for node in r1)
- format_table_content(f, data, 12)
- f.write("\n ],\n")
-
- f.write(" r2: &[\n")
- data = ','.join('0x%016x' % node for node in r2)
- format_table_content(f, data, 12)
- f.write("\n ],\n")
-
- f.write(" };\n\n")
-
-def emit_property_module(f, mod, tbl, emit):
- f.write("pub mod %s {\n" % mod)
- for cat in sorted(emit):
- if cat in ["Cc", "White_Space", "Pattern_White_Space"]:
- emit_small_bool_trie(f, "%s_table" % cat, tbl[cat])
- f.write(" pub fn %s(c: char) -> bool {\n" % cat)
- f.write(" %s_table.lookup(c)\n" % cat)
- f.write(" }\n\n")
- else:
- emit_bool_trie(f, "%s_table" % cat, tbl[cat])
- f.write(" pub fn %s(c: char) -> bool {\n" % cat)
- f.write(" super::trie_lookup_range_table(c, %s_table)\n" % cat)
- f.write(" }\n\n")
- f.write("}\n\n")
-
-def emit_conversions_module(f, to_upper, to_lower, to_title):
- f.write("pub mod conversions {")
- f.write("""
- use core::option::Option;
- use core::option::Option::{Some, None};
-
- pub fn to_lower(c: char) -> [char; 3] {
- match bsearch_case_table(c, to_lowercase_table) {
- None => [c, '\\0', '\\0'],
- Some(index) => to_lowercase_table[index].1,
- }
- }
-
- pub fn to_upper(c: char) -> [char; 3] {
- match bsearch_case_table(c, to_uppercase_table) {
- None => [c, '\\0', '\\0'],
- Some(index) => to_uppercase_table[index].1,
- }
- }
-
- fn bsearch_case_table(c: char, table: &'static [(char, [char; 3])]) -> Option<usize> {
- table.binary_search_by(|&(key, _)| key.cmp(&c)).ok()
- }
-
-""")
- t_type = "&'static [(char, [char; 3])]"
- pfun = lambda x: "(%s,[%s,%s,%s])" % (
- escape_char(x[0]), escape_char(x[1][0]), escape_char(x[1][1]), escape_char(x[1][2]))
- emit_table(f, "to_lowercase_table",
- sorted(to_lower.iteritems(), key=operator.itemgetter(0)),
- is_pub=False, t_type = t_type, pfun=pfun)
- emit_table(f, "to_uppercase_table",
- sorted(to_upper.iteritems(), key=operator.itemgetter(0)),
- is_pub=False, t_type = t_type, pfun=pfun)
- f.write("}\n\n")
-
-def emit_norm_module(f, canon, compat, combine, norm_props):
- canon_keys = canon.keys()
- canon_keys.sort()
-
- compat_keys = compat.keys()
- compat_keys.sort()
-
- canon_comp = {}
- comp_exclusions = norm_props["Full_Composition_Exclusion"]
- for char in canon_keys:
- if True in map(lambda (lo, hi): lo <= char <= hi, comp_exclusions):
- continue
- decomp = canon[char]
- if len(decomp) == 2:
- if not canon_comp.has_key(decomp[0]):
- canon_comp[decomp[0]] = []
- canon_comp[decomp[0]].append( (decomp[1], char) )
- canon_comp_keys = canon_comp.keys()
- canon_comp_keys.sort()
-
-if __name__ == "__main__":
- r = "tables.rs"
- if os.path.exists(r):
- os.remove(r)
- with open(r, "w") as rf:
- # write the file's preamble
- rf.write(preamble)
-
- # download and parse all the data
- fetch("ReadMe.txt")
- with open("ReadMe.txt") as readme:
- pattern = "for Version (\d+)\.(\d+)\.(\d+) of the Unicode"
- unicode_version = re.search(pattern, readme.read()).groups()
- rf.write("""
-/// The version of [Unicode](http://www.unicode.org/)
-/// that the unicode parts of `CharExt` and `UnicodeStrPrelude` traits are based on.
-pub const UNICODE_VERSION: (u64, u64, u64) = (%s, %s, %s);
-""" % unicode_version)
- (canon_decomp, compat_decomp, gencats, combines,
- to_upper, to_lower, to_title) = load_unicode_data("UnicodeData.txt")
- load_special_casing("SpecialCasing.txt", to_upper, to_lower, to_title)
- want_derived = ["XID_Start", "XID_Continue", "Alphabetic", "Lowercase", "Uppercase",
- "Cased", "Case_Ignorable"]
- derived = load_properties("DerivedCoreProperties.txt", want_derived)
- scripts = load_properties("Scripts.txt", [])
- props = load_properties("PropList.txt",
- ["White_Space", "Join_Control", "Noncharacter_Code_Point", "Pattern_White_Space"])
- norm_props = load_properties("DerivedNormalizationProps.txt",
- ["Full_Composition_Exclusion"])
-
- # trie_lookup_table is used in all the property modules below
- emit_trie_lookup_range_table(rf)
- # emit_bsearch_range_table(rf)
-
- # category tables
- for (name, cat, pfuns) in ("general_category", gencats, ["N", "Cc"]), \
- ("derived_property", derived, want_derived), \
- ("property", props, ["White_Space", "Pattern_White_Space"]):
- emit_property_module(rf, name, cat, pfuns)
-
- # normalizations and conversions module
- emit_norm_module(rf, canon_decomp, compat_decomp, combines, norm_props)
- emit_conversions_module(rf, to_upper, to_lower, to_title)