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Resubmit r325107 (case folding DJB hash)

The issue was that the has function was generating different results depending
on the signedness of char on the host platform. This commit fixes the issue by
explicitly using an unsigned char type to prevent sign extension and
adds some extra tests.

The original commit message was:

This patch implements a variant of the DJB hash function which folds the
input according to the algorithm in the Dwarf 5 specification (Section
6.1.1.4.5), which in turn references the Unicode Standard (Section 5.18,
"Case Mappings").

To achieve this, I have added a llvm::sys::unicode::foldCharSimple
function, which performs this mapping. The implementation of this
function was generated from the CaseMatching.txt file from the Unicode
spec using a python script (which is also included in this patch). The
script tries to optimize the function by coalescing adjecant mappings
with the same shift and stride (terms I made up). Theoretically, it
could be made a bit smarter and merge adjecant blocks that were
interrupted by only one or two characters with exceptional mapping, but
this would save only a couple of branches, while it would greatly
complicate the implementation, so I deemed it was not worth it.

Since we assume that the vast majority of the input characters will be
US-ASCII, the folding hash function has a fast-path for handling these,
and only whips out the full decode+fold+encode logic if we encounter a
character outside of this range. It might be possible to implement the
folding directly on utf8 sequences, but this would also bring a lot of
complexity for the few cases where we will actually need to process
non-ascii characters.

Reviewers: JDevlieghere, aprantl, probinson, dblaikie

Subscribers: mgorny, hintonda, echristo, clayborg, vleschuk, llvm-commits

Differential Revision: https://reviews.llvm.org/D42740

llvm-svn: 325732
This commit is contained in:
Pavel Labath 2018-02-21 22:36:31 +00:00
parent bef1acc269
commit f85485df31
8 changed files with 1063 additions and 2 deletions

View File

@ -20,6 +20,10 @@ namespace llvm {
/// The Bernstein hash function used by the DWARF accelerator tables.
uint32_t djbHash(StringRef Buffer, uint32_t H = 5381);
/// Computes the Bernstein hash after folding the input according to the Dwarf 5
/// standard case folding rules.
uint32_t caseFoldingDjbHash(StringRef Buffer, uint32_t H = 5381);
} // namespace llvm
#endif // LLVM_SUPPORT_DJB_H

View File

@ -60,6 +60,10 @@ bool isPrintable(int UCS);
/// * 1 for each of the remaining characters.
int columnWidthUTF8(StringRef Text);
/// Fold input unicode character according the the Simple unicode case folding
/// rules.
int foldCharSimple(int C);
} // namespace unicode
} // namespace sys
} // namespace llvm

View File

@ -113,6 +113,7 @@ add_llvm_library(LLVMSupport
Triple.cpp
Twine.cpp
Unicode.cpp
UnicodeCaseFold.cpp
YAMLParser.cpp
YAMLTraits.cpp
raw_os_ostream.cpp

View File

@ -12,9 +12,85 @@
//===----------------------------------------------------------------------===//
#include "llvm/Support/DJB.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/Support/Compiler.h"
#include "llvm/Support/ConvertUTF.h"
#include "llvm/Support/Unicode.h"
using namespace llvm;
static inline uint32_t djbHashChar(unsigned char C, uint32_t H) {
return (H << 5) + H + C;
}
uint32_t llvm::djbHash(StringRef Buffer, uint32_t H) {
for (char C : Buffer.bytes())
H = ((H << 5) + H) + C;
for (unsigned char C : Buffer.bytes())
H = djbHashChar(C, H);
return H;
}
static UTF32 chopOneUTF32(StringRef &Buffer) {
UTF32 C;
const UTF8 *const Begin8Const =
reinterpret_cast<const UTF8 *>(Buffer.begin());
const UTF8 *Begin8 = Begin8Const;
UTF32 *Begin32 = &C;
// In lenient mode we will always end up with a "reasonable" value in C for
// non-empty input.
assert(!Buffer.empty());
ConvertUTF8toUTF32(&Begin8, reinterpret_cast<const UTF8 *>(Buffer.end()),
&Begin32, &C + 1, lenientConversion);
Buffer = Buffer.drop_front(Begin8 - Begin8Const);
return C;
}
static StringRef toUTF8(UTF32 C, MutableArrayRef<UTF8> Storage) {
const UTF32 *Begin32 = &C;
UTF8 *Begin8 = Storage.begin();
// The case-folded output should always be a valid unicode character, so use
// strict mode here.
ConversionResult CR = ConvertUTF32toUTF8(&Begin32, &C + 1, &Begin8,
Storage.end(), strictConversion);
assert(CR == conversionOK && "Case folding produced invalid char?");
(void)CR;
return StringRef(reinterpret_cast<char *>(Storage.begin()),
Begin8 - Storage.begin());
}
static UTF32 foldCharDwarf(UTF32 C) {
// DWARF v5 addition to the unicode folding rules.
// Fold "Latin Small Letter Dotless I" and "Latin Capital Letter I With Dot
// Above" into "i".
if (C == 0x130 || C == 0x131)
return 'i';
return sys::unicode::foldCharSimple(C);
}
static uint32_t caseFoldingDjbHashCharSlow(StringRef &Buffer, uint32_t H) {
UTF32 C = chopOneUTF32(Buffer);
C = foldCharDwarf(C);
std::array<UTF8, UNI_MAX_UTF8_BYTES_PER_CODE_POINT> Storage;
StringRef Folded = toUTF8(C, Storage);
return djbHash(Folded, H);
}
uint32_t llvm::caseFoldingDjbHash(StringRef Buffer, uint32_t H) {
while (!Buffer.empty()) {
unsigned char C = Buffer.front();
if (LLVM_LIKELY(C <= 0x7f)) {
// US-ASCII, encoded as one character in utf-8.
// This is by far the most common case, so handle this specially.
if (C >= 'A' && C <= 'Z')
C = 'a' + (C - 'A'); // fold uppercase into lowercase
H = djbHashChar(C, H);
Buffer = Buffer.drop_front();
continue;
}
H = caseFoldingDjbHashCharSlow(Buffer, H);
}
return H;
}

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@ -0,0 +1,742 @@
//===---------- Support/UnicodeCaseFold.cpp -------------------------------===//
//
// This file was generated by utils/unicode-case-fold.py from the Unicode
// case folding database at
// http://www.unicode.org/Public/9.0.0/ucd/CaseFolding.txt
//
// To regenerate this file, run:
// utils/unicode-case-fold.py \
// "http://www.unicode.org/Public/9.0.0/ucd/CaseFolding.txt" \
// > lib/Support/UnicodeCaseFold.cpp
//
//===----------------------------------------------------------------------===//
#include "llvm/Support/Unicode.h"
int llvm::sys::unicode::foldCharSimple(int C) {
if (C < 0x0041)
return C;
// 26 characters
if (C <= 0x005a)
return C + 32;
// MICRO SIGN
if (C == 0x00b5)
return 0x03bc;
if (C < 0x00c0)
return C;
// 23 characters
if (C <= 0x00d6)
return C + 32;
if (C < 0x00d8)
return C;
// 7 characters
if (C <= 0x00de)
return C + 32;
if (C < 0x0100)
return C;
// 24 characters
if (C <= 0x012e)
return C | 1;
if (C < 0x0132)
return C;
// 3 characters
if (C <= 0x0136)
return C | 1;
if (C < 0x0139)
return C;
// 8 characters
if (C <= 0x0147 && C % 2 == 1)
return C + 1;
if (C < 0x014a)
return C;
// 23 characters
if (C <= 0x0176)
return C | 1;
// LATIN CAPITAL LETTER Y WITH DIAERESIS
if (C == 0x0178)
return 0x00ff;
if (C < 0x0179)
return C;
// 3 characters
if (C <= 0x017d && C % 2 == 1)
return C + 1;
// LATIN SMALL LETTER LONG S
if (C == 0x017f)
return 0x0073;
// LATIN CAPITAL LETTER B WITH HOOK
if (C == 0x0181)
return 0x0253;
if (C < 0x0182)
return C;
// 2 characters
if (C <= 0x0184)
return C | 1;
// LATIN CAPITAL LETTER OPEN O
if (C == 0x0186)
return 0x0254;
// LATIN CAPITAL LETTER C WITH HOOK
if (C == 0x0187)
return 0x0188;
if (C < 0x0189)
return C;
// 2 characters
if (C <= 0x018a)
return C + 205;
// LATIN CAPITAL LETTER D WITH TOPBAR
if (C == 0x018b)
return 0x018c;
// LATIN CAPITAL LETTER REVERSED E
if (C == 0x018e)
return 0x01dd;
// LATIN CAPITAL LETTER SCHWA
if (C == 0x018f)
return 0x0259;
// LATIN CAPITAL LETTER OPEN E
if (C == 0x0190)
return 0x025b;
// LATIN CAPITAL LETTER F WITH HOOK
if (C == 0x0191)
return 0x0192;
// LATIN CAPITAL LETTER G WITH HOOK
if (C == 0x0193)
return 0x0260;
// LATIN CAPITAL LETTER GAMMA
if (C == 0x0194)
return 0x0263;
// LATIN CAPITAL LETTER IOTA
if (C == 0x0196)
return 0x0269;
// LATIN CAPITAL LETTER I WITH STROKE
if (C == 0x0197)
return 0x0268;
// LATIN CAPITAL LETTER K WITH HOOK
if (C == 0x0198)
return 0x0199;
// LATIN CAPITAL LETTER TURNED M
if (C == 0x019c)
return 0x026f;
// LATIN CAPITAL LETTER N WITH LEFT HOOK
if (C == 0x019d)
return 0x0272;
// LATIN CAPITAL LETTER O WITH MIDDLE TILDE
if (C == 0x019f)
return 0x0275;
if (C < 0x01a0)
return C;
// 3 characters
if (C <= 0x01a4)
return C | 1;
// LATIN LETTER YR
if (C == 0x01a6)
return 0x0280;
// LATIN CAPITAL LETTER TONE TWO
if (C == 0x01a7)
return 0x01a8;
// LATIN CAPITAL LETTER ESH
if (C == 0x01a9)
return 0x0283;
// LATIN CAPITAL LETTER T WITH HOOK
if (C == 0x01ac)
return 0x01ad;
// LATIN CAPITAL LETTER T WITH RETROFLEX HOOK
if (C == 0x01ae)
return 0x0288;
// LATIN CAPITAL LETTER U WITH HORN
if (C == 0x01af)
return 0x01b0;
if (C < 0x01b1)
return C;
// 2 characters
if (C <= 0x01b2)
return C + 217;
if (C < 0x01b3)
return C;
// 2 characters
if (C <= 0x01b5 && C % 2 == 1)
return C + 1;
// LATIN CAPITAL LETTER EZH
if (C == 0x01b7)
return 0x0292;
if (C < 0x01b8)
return C;
// 2 characters
if (C <= 0x01bc && C % 4 == 0)
return C + 1;
// LATIN CAPITAL LETTER DZ WITH CARON
if (C == 0x01c4)
return 0x01c6;
// LATIN CAPITAL LETTER D WITH SMALL LETTER Z WITH CARON
if (C == 0x01c5)
return 0x01c6;
// LATIN CAPITAL LETTER LJ
if (C == 0x01c7)
return 0x01c9;
// LATIN CAPITAL LETTER L WITH SMALL LETTER J
if (C == 0x01c8)
return 0x01c9;
// LATIN CAPITAL LETTER NJ
if (C == 0x01ca)
return 0x01cc;
if (C < 0x01cb)
return C;
// 9 characters
if (C <= 0x01db && C % 2 == 1)
return C + 1;
if (C < 0x01de)
return C;
// 9 characters
if (C <= 0x01ee)
return C | 1;
// LATIN CAPITAL LETTER DZ
if (C == 0x01f1)
return 0x01f3;
if (C < 0x01f2)
return C;
// 2 characters
if (C <= 0x01f4)
return C | 1;
// LATIN CAPITAL LETTER HWAIR
if (C == 0x01f6)
return 0x0195;
// LATIN CAPITAL LETTER WYNN
if (C == 0x01f7)
return 0x01bf;
if (C < 0x01f8)
return C;
// 20 characters
if (C <= 0x021e)
return C | 1;
// LATIN CAPITAL LETTER N WITH LONG RIGHT LEG
if (C == 0x0220)
return 0x019e;
if (C < 0x0222)
return C;
// 9 characters
if (C <= 0x0232)
return C | 1;
// LATIN CAPITAL LETTER A WITH STROKE
if (C == 0x023a)
return 0x2c65;
// LATIN CAPITAL LETTER C WITH STROKE
if (C == 0x023b)
return 0x023c;
// LATIN CAPITAL LETTER L WITH BAR
if (C == 0x023d)
return 0x019a;
// LATIN CAPITAL LETTER T WITH DIAGONAL STROKE
if (C == 0x023e)
return 0x2c66;
// LATIN CAPITAL LETTER GLOTTAL STOP
if (C == 0x0241)
return 0x0242;
// LATIN CAPITAL LETTER B WITH STROKE
if (C == 0x0243)
return 0x0180;
// LATIN CAPITAL LETTER U BAR
if (C == 0x0244)
return 0x0289;
// LATIN CAPITAL LETTER TURNED V
if (C == 0x0245)
return 0x028c;
if (C < 0x0246)
return C;
// 5 characters
if (C <= 0x024e)
return C | 1;
// COMBINING GREEK YPOGEGRAMMENI
if (C == 0x0345)
return 0x03b9;
if (C < 0x0370)
return C;
// 2 characters
if (C <= 0x0372)
return C | 1;
// GREEK CAPITAL LETTER PAMPHYLIAN DIGAMMA
if (C == 0x0376)
return 0x0377;
// GREEK CAPITAL LETTER YOT
if (C == 0x037f)
return 0x03f3;
// GREEK CAPITAL LETTER ALPHA WITH TONOS
if (C == 0x0386)
return 0x03ac;
if (C < 0x0388)
return C;
// 3 characters
if (C <= 0x038a)
return C + 37;
// GREEK CAPITAL LETTER OMICRON WITH TONOS
if (C == 0x038c)
return 0x03cc;
if (C < 0x038e)
return C;
// 2 characters
if (C <= 0x038f)
return C + 63;
if (C < 0x0391)
return C;
// 17 characters
if (C <= 0x03a1)
return C + 32;
if (C < 0x03a3)
return C;
// 9 characters
if (C <= 0x03ab)
return C + 32;
// GREEK SMALL LETTER FINAL SIGMA
if (C == 0x03c2)
return 0x03c3;
// GREEK CAPITAL KAI SYMBOL
if (C == 0x03cf)
return 0x03d7;
// GREEK BETA SYMBOL
if (C == 0x03d0)
return 0x03b2;
// GREEK THETA SYMBOL
if (C == 0x03d1)
return 0x03b8;
// GREEK PHI SYMBOL
if (C == 0x03d5)
return 0x03c6;
// GREEK PI SYMBOL
if (C == 0x03d6)
return 0x03c0;
if (C < 0x03d8)
return C;
// 12 characters
if (C <= 0x03ee)
return C | 1;
// GREEK KAPPA SYMBOL
if (C == 0x03f0)
return 0x03ba;
// GREEK RHO SYMBOL
if (C == 0x03f1)
return 0x03c1;
// GREEK CAPITAL THETA SYMBOL
if (C == 0x03f4)
return 0x03b8;
// GREEK LUNATE EPSILON SYMBOL
if (C == 0x03f5)
return 0x03b5;
// GREEK CAPITAL LETTER SHO
if (C == 0x03f7)
return 0x03f8;
// GREEK CAPITAL LUNATE SIGMA SYMBOL
if (C == 0x03f9)
return 0x03f2;
// GREEK CAPITAL LETTER SAN
if (C == 0x03fa)
return 0x03fb;
if (C < 0x03fd)
return C;
// 3 characters
if (C <= 0x03ff)
return C + -130;
if (C < 0x0400)
return C;
// 16 characters
if (C <= 0x040f)
return C + 80;
if (C < 0x0410)
return C;
// 32 characters
if (C <= 0x042f)
return C + 32;
if (C < 0x0460)
return C;
// 17 characters
if (C <= 0x0480)
return C | 1;
if (C < 0x048a)
return C;
// 27 characters
if (C <= 0x04be)
return C | 1;
// CYRILLIC LETTER PALOCHKA
if (C == 0x04c0)
return 0x04cf;
if (C < 0x04c1)
return C;
// 7 characters
if (C <= 0x04cd && C % 2 == 1)
return C + 1;
if (C < 0x04d0)
return C;
// 48 characters
if (C <= 0x052e)
return C | 1;
if (C < 0x0531)
return C;
// 38 characters
if (C <= 0x0556)
return C + 48;
if (C < 0x10a0)
return C;
// 38 characters
if (C <= 0x10c5)
return C + 7264;
if (C < 0x10c7)
return C;
// 2 characters
if (C <= 0x10cd && C % 6 == 5)
return C + 7264;
if (C < 0x13f8)
return C;
// 6 characters
if (C <= 0x13fd)
return C + -8;
// CYRILLIC SMALL LETTER ROUNDED VE
if (C == 0x1c80)
return 0x0432;
// CYRILLIC SMALL LETTER LONG-LEGGED DE
if (C == 0x1c81)
return 0x0434;
// CYRILLIC SMALL LETTER NARROW O
if (C == 0x1c82)
return 0x043e;
if (C < 0x1c83)
return C;
// 2 characters
if (C <= 0x1c84)
return C + -6210;
// CYRILLIC SMALL LETTER THREE-LEGGED TE
if (C == 0x1c85)
return 0x0442;
// CYRILLIC SMALL LETTER TALL HARD SIGN
if (C == 0x1c86)
return 0x044a;
// CYRILLIC SMALL LETTER TALL YAT
if (C == 0x1c87)
return 0x0463;
// CYRILLIC SMALL LETTER UNBLENDED UK
if (C == 0x1c88)
return 0xa64b;
if (C < 0x1e00)
return C;
// 75 characters
if (C <= 0x1e94)
return C | 1;
// LATIN SMALL LETTER LONG S WITH DOT ABOVE
if (C == 0x1e9b)
return 0x1e61;
// LATIN CAPITAL LETTER SHARP S
if (C == 0x1e9e)
return 0x00df;
if (C < 0x1ea0)
return C;
// 48 characters
if (C <= 0x1efe)
return C | 1;
if (C < 0x1f08)
return C;
// 8 characters
if (C <= 0x1f0f)
return C + -8;
if (C < 0x1f18)
return C;
// 6 characters
if (C <= 0x1f1d)
return C + -8;
if (C < 0x1f28)
return C;
// 8 characters
if (C <= 0x1f2f)
return C + -8;
if (C < 0x1f38)
return C;
// 8 characters
if (C <= 0x1f3f)
return C + -8;
if (C < 0x1f48)
return C;
// 6 characters
if (C <= 0x1f4d)
return C + -8;
if (C < 0x1f59)
return C;
// 4 characters
if (C <= 0x1f5f && C % 2 == 1)
return C + -8;
if (C < 0x1f68)
return C;
// 8 characters
if (C <= 0x1f6f)
return C + -8;
if (C < 0x1f88)
return C;
// 8 characters
if (C <= 0x1f8f)
return C + -8;
if (C < 0x1f98)
return C;
// 8 characters
if (C <= 0x1f9f)
return C + -8;
if (C < 0x1fa8)
return C;
// 8 characters
if (C <= 0x1faf)
return C + -8;
if (C < 0x1fb8)
return C;
// 2 characters
if (C <= 0x1fb9)
return C + -8;
if (C < 0x1fba)
return C;
// 2 characters
if (C <= 0x1fbb)
return C + -74;
// GREEK CAPITAL LETTER ALPHA WITH PROSGEGRAMMENI
if (C == 0x1fbc)
return 0x1fb3;
// GREEK PROSGEGRAMMENI
if (C == 0x1fbe)
return 0x03b9;
if (C < 0x1fc8)
return C;
// 4 characters
if (C <= 0x1fcb)
return C + -86;
// GREEK CAPITAL LETTER ETA WITH PROSGEGRAMMENI
if (C == 0x1fcc)
return 0x1fc3;
if (C < 0x1fd8)
return C;
// 2 characters
if (C <= 0x1fd9)
return C + -8;
if (C < 0x1fda)
return C;
// 2 characters
if (C <= 0x1fdb)
return C + -100;
if (C < 0x1fe8)
return C;
// 2 characters
if (C <= 0x1fe9)
return C + -8;
if (C < 0x1fea)
return C;
// 2 characters
if (C <= 0x1feb)
return C + -112;
// GREEK CAPITAL LETTER RHO WITH DASIA
if (C == 0x1fec)
return 0x1fe5;
if (C < 0x1ff8)
return C;
// 2 characters
if (C <= 0x1ff9)
return C + -128;
if (C < 0x1ffa)
return C;
// 2 characters
if (C <= 0x1ffb)
return C + -126;
// GREEK CAPITAL LETTER OMEGA WITH PROSGEGRAMMENI
if (C == 0x1ffc)
return 0x1ff3;
// OHM SIGN
if (C == 0x2126)
return 0x03c9;
// KELVIN SIGN
if (C == 0x212a)
return 0x006b;
// ANGSTROM SIGN
if (C == 0x212b)
return 0x00e5;
// TURNED CAPITAL F
if (C == 0x2132)
return 0x214e;
if (C < 0x2160)
return C;
// 16 characters
if (C <= 0x216f)
return C + 16;
// ROMAN NUMERAL REVERSED ONE HUNDRED
if (C == 0x2183)
return 0x2184;
if (C < 0x24b6)
return C;
// 26 characters
if (C <= 0x24cf)
return C + 26;
if (C < 0x2c00)
return C;
// 47 characters
if (C <= 0x2c2e)
return C + 48;
// LATIN CAPITAL LETTER L WITH DOUBLE BAR
if (C == 0x2c60)
return 0x2c61;
// LATIN CAPITAL LETTER L WITH MIDDLE TILDE
if (C == 0x2c62)
return 0x026b;
// LATIN CAPITAL LETTER P WITH STROKE
if (C == 0x2c63)
return 0x1d7d;
// LATIN CAPITAL LETTER R WITH TAIL
if (C == 0x2c64)
return 0x027d;
if (C < 0x2c67)
return C;
// 3 characters
if (C <= 0x2c6b && C % 2 == 1)
return C + 1;
// LATIN CAPITAL LETTER ALPHA
if (C == 0x2c6d)
return 0x0251;
// LATIN CAPITAL LETTER M WITH HOOK
if (C == 0x2c6e)
return 0x0271;
// LATIN CAPITAL LETTER TURNED A
if (C == 0x2c6f)
return 0x0250;
// LATIN CAPITAL LETTER TURNED ALPHA
if (C == 0x2c70)
return 0x0252;
if (C < 0x2c72)
return C;
// 2 characters
if (C <= 0x2c75 && C % 3 == 2)
return C + 1;
if (C < 0x2c7e)
return C;
// 2 characters
if (C <= 0x2c7f)
return C + -10815;
if (C < 0x2c80)
return C;
// 50 characters
if (C <= 0x2ce2)
return C | 1;
if (C < 0x2ceb)
return C;
// 2 characters
if (C <= 0x2ced && C % 2 == 1)
return C + 1;
if (C < 0x2cf2)
return C;
// 2 characters
if (C <= 0xa640 && C % 31054 == 11506)
return C + 1;
if (C < 0xa642)
return C;
// 22 characters
if (C <= 0xa66c)
return C | 1;
if (C < 0xa680)
return C;
// 14 characters
if (C <= 0xa69a)
return C | 1;
if (C < 0xa722)
return C;
// 7 characters
if (C <= 0xa72e)
return C | 1;
if (C < 0xa732)
return C;
// 31 characters
if (C <= 0xa76e)
return C | 1;
if (C < 0xa779)
return C;
// 2 characters
if (C <= 0xa77b && C % 2 == 1)
return C + 1;
// LATIN CAPITAL LETTER INSULAR G
if (C == 0xa77d)
return 0x1d79;
if (C < 0xa77e)
return C;
// 5 characters
if (C <= 0xa786)
return C | 1;
// LATIN CAPITAL LETTER SALTILLO
if (C == 0xa78b)
return 0xa78c;
// LATIN CAPITAL LETTER TURNED H
if (C == 0xa78d)
return 0x0265;
if (C < 0xa790)
return C;
// 2 characters
if (C <= 0xa792)
return C | 1;
if (C < 0xa796)
return C;
// 10 characters
if (C <= 0xa7a8)
return C | 1;
// LATIN CAPITAL LETTER H WITH HOOK
if (C == 0xa7aa)
return 0x0266;
// LATIN CAPITAL LETTER REVERSED OPEN E
if (C == 0xa7ab)
return 0x025c;
// LATIN CAPITAL LETTER SCRIPT G
if (C == 0xa7ac)
return 0x0261;
// LATIN CAPITAL LETTER L WITH BELT
if (C == 0xa7ad)
return 0x026c;
// LATIN CAPITAL LETTER SMALL CAPITAL I
if (C == 0xa7ae)
return 0x026a;
// LATIN CAPITAL LETTER TURNED K
if (C == 0xa7b0)
return 0x029e;
// LATIN CAPITAL LETTER TURNED T
if (C == 0xa7b1)
return 0x0287;
// LATIN CAPITAL LETTER J WITH CROSSED-TAIL
if (C == 0xa7b2)
return 0x029d;
// LATIN CAPITAL LETTER CHI
if (C == 0xa7b3)
return 0xab53;
if (C < 0xa7b4)
return C;
// 2 characters
if (C <= 0xa7b6)
return C | 1;
if (C < 0xab70)
return C;
// 80 characters
if (C <= 0xabbf)
return C + -38864;
if (C < 0xff21)
return C;
// 26 characters
if (C <= 0xff3a)
return C + 32;
if (C < 0x10400)
return C;
// 40 characters
if (C <= 0x10427)
return C + 40;
if (C < 0x104b0)
return C;
// 36 characters
if (C <= 0x104d3)
return C + 40;
if (C < 0x10c80)
return C;
// 51 characters
if (C <= 0x10cb2)
return C + 64;
if (C < 0x118a0)
return C;
// 32 characters
if (C <= 0x118bf)
return C + 32;
if (C < 0x1e900)
return C;
// 34 characters
if (C <= 0x1e921)
return C + 34;
return C;
}

View File

@ -19,6 +19,7 @@ add_llvm_unittest(SupportTests
ConvertUTFTest.cpp
DataExtractorTest.cpp
DebugTest.cpp
DJBTest.cpp
EndianStreamTest.cpp
EndianTest.cpp
ErrnoTest.cpp

View File

@ -0,0 +1,96 @@
//===---------- llvm/unittest/Support/DJBTest.cpp -------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "llvm/Support/DJB.h"
#include "llvm/ADT/Twine.h"
#include "gtest/gtest.h"
using namespace llvm;
TEST(DJBTest, caseFolding) {
struct TestCase {
StringLiteral One;
StringLiteral Two;
};
static constexpr TestCase Tests[] = {
{{"ASDF"}, {"asdf"}},
{{"qWeR"}, {"QwEr"}},
{{"qqqqqqqqqqqqqqqqqqqq"}, {"QQQQQQQQQQQQQQQQQQQQ"}},
{{"I"}, {"i"}},
// Latin Small Letter Dotless I
{{u8"\u0130"}, {"i"}},
// Latin Capital Letter I With Dot Above
{{u8"\u0131"}, {"i"}},
// Latin Capital Letter A With Grave
{{u8"\u00c0"}, {u8"\u00e0"}},
// Latin Capital Letter A With Macron
{{u8"\u0100"}, {u8"\u0101"}},
// Latin Capital Letter L With Acute
{{u8"\u0139"}, {u8"\u013a"}},
// Cyrillic Capital Letter Ie
{{u8"\u0415"}, {u8"\u0435"}},
// Latin Capital Letter A With Circumflex And Grave
{{u8"\u1ea6"}, {u8"\u1ea7"}},
// Kelvin Sign
{{u8"\u212a"}, {u8"\u006b"}},
// Glagolitic Capital Letter Chrivi
{{u8"\u2c1d"}, {u8"\u2c4d"}},
// Fullwidth Latin Capital Letter M
{{u8"\uff2d"}, {u8"\uff4d"}},
// Old Hungarian Capital Letter Ej
{{u8"\U00010c92"}, {u8"\U00010cd2"}},
};
for (const TestCase &T : Tests) {
SCOPED_TRACE("Comparing '" + T.One + "' and '" + T.Two + "'");
EXPECT_EQ(caseFoldingDjbHash(T.One), caseFoldingDjbHash(T.Two));
}
}
TEST(DJBTest, knownValuesLowerCase) {
struct TestCase {
StringLiteral Text;
uint32_t Hash;
};
static constexpr TestCase Tests[] = {
{{""}, 5381u},
{{"f"}, 177675u},
{{"fo"}, 5863386u},
{{"foo"}, 193491849u},
{{"foob"}, 2090263819u},
{{"fooba"}, 259229388u},
{{"foobar"}, 4259602622u},
{{"pneumonoultramicroscopicsilicovolcanoconiosis"}, 3999417781u},
};
for (const TestCase &T : Tests) {
SCOPED_TRACE("Text: '" + T.Text + "'");
EXPECT_EQ(T.Hash, djbHash(T.Text));
EXPECT_EQ(T.Hash, caseFoldingDjbHash(T.Text));
EXPECT_EQ(T.Hash, caseFoldingDjbHash(T.Text.upper()));
}
}
TEST(DJBTest, knownValuesUnicode) {
EXPECT_EQ(5866553u, djbHash(u8"\u0130"));
EXPECT_EQ(177678u, caseFoldingDjbHash(u8"\u0130"));
EXPECT_EQ(
1302161417u,
djbHash(
u8"\u0130\u0131\u00c0\u00e0\u0100\u0101\u0139\u013a\u0415\u0435\u1ea6"
u8"\u1ea7\u212a\u006b\u2c1d\u2c4d\uff2d\uff4d\U00010c92\U00010cd2"));
EXPECT_EQ(
1145571043u,
caseFoldingDjbHash(
u8"\u0130\u0131\u00c0\u00e0\u0100\u0101\u0139\u013a\u0415\u0435\u1ea6"
u8"\u1ea7\u212a\u006b\u2c1d\u2c4d\uff2d\uff4d\U00010c92\U00010cd2"));
}

137
utils/unicode-case-fold.py Executable file
View File

@ -0,0 +1,137 @@
#!/usr/bin/env python
"""
Unicode case folding database conversion utility
Parses the database and generates a C++ function which implements the case
folding algorithm. The database entries are of the form:
<code>; <status>; <mapping>; # <name>
<status> can be one of four characters:
C - Common mappings
S - mappings for Simple case folding
F - mappings for Full case folding
T - special case for Turkish I characters
Right now this generates a function which implements simple case folding (C+S
entries).
"""
import sys
import re
import urllib2
# This variable will body of the mappings function
body = ""
# Reads file line-by-line, extracts Common and Simple case fold mappings and
# returns a (from_char, to_char, from_name) tuple.
def mappings(f):
previous_from = -1
expr = re.compile(r'^(.*); [CS]; (.*); # (.*)')
for line in f:
m = expr.match(line)
if not m: continue
from_char = int(m.group(1), 16)
to_char = int(m.group(2), 16)
from_name = m.group(3)
if from_char <= previous_from:
raise Exception("Duplicate or unsorted characters in input")
yield from_char, to_char, from_name
previous_from = from_char
# Computes the shift (to_char - from_char) in a mapping.
def shift(mapping):
return mapping[1] - mapping[0]
# Computes the stride (from_char2 - from_char1) of two mappings.
def stride2(mapping1, mapping2):
return mapping2[0] - mapping1[0]
# Computes the stride of a list of mappings. The list should have at least two
# mappings. All mappings in the list are assumed to have the same stride.
def stride(block):
return stride2(block[0], block[1])
# b is a list of mappings. All the mappings are assumed to have the same
# shift and the stride between adjecant mappings (if any) is constant.
def dump_block(b):
global body
if len(b) == 1:
# Special case for handling blocks of length 1. We don't even need to
# emit the "if (C < X) return C" check below as all characters in this
# range will be caught by the "C < X" check emitted by the first
# non-trivial block.
body += " // {2}\n if (C == {0:#06x})\n return {1:#06x};\n".format(*b[0])
return
first = b[0][0]
last = first + stride(b) * (len(b)-1)
modulo = first % stride(b)
# All characters before this block map to themselves.
body += " if (C < {0:#06x})\n return C;\n".format(first)
body += " // {0} characters\n".format(len(b))
# Generic pattern: check upper bound (lower bound is checked by the "if"
# above) and modulo of C, return C+shift.
pattern = " if (C <= {0:#06x} && C % {1} == {2})\n return C + {3};\n"
if stride(b) == 2 and shift(b[0]) == 1 and modulo == 0:
# Special case:
# We can elide the modulo-check because the expression "C|1" will map
# the intervening characters to themselves.
pattern = " if (C <= {0:#06x})\n return C | 1;\n"
elif stride(b) == 1:
# Another special case: X % 1 is always zero, so don't emit the
# modulo-check.
pattern = " if (C <= {0:#06x})\n return C + {3};\n"
body += pattern.format(last, stride(b), modulo, shift(b[0]))
current_block = []
f = urllib2.urlopen(sys.argv[1])
for m in mappings(f):
if len(current_block) == 0:
current_block.append(m)
continue
if shift(current_block[0]) != shift(m):
# Incompatible shift, start a new block.
dump_block(current_block)
current_block = [m]
continue
if len(current_block) == 1 or stride(current_block) == stride2(current_block[-1], m):
current_block.append(m)
continue
# Incompatible stride, start a new block.
dump_block(current_block)
current_block = [m]
f.close()
dump_block(current_block)
print '//===---------- Support/UnicodeCaseFold.cpp -------------------------------===//'
print '//'
print '// This file was generated by utils/unicode-case-fold.py from the Unicode'
print '// case folding database at'
print '// ', sys.argv[1]
print '//'
print '// To regenerate this file, run:'
print '// utils/unicode-case-fold.py \\'
print '// "{}" \\'.format(sys.argv[1])
print '// > lib/Support/UnicodeCaseFold.cpp'
print '//'
print '//===----------------------------------------------------------------------===//'
print ''
print '#include "llvm/Support/Unicode.h"'
print ''
print "int llvm::sys::unicode::foldCharSimple(int C) {"
print body
print " return C;"
print "}"