From 03023fa7ae060c082a014f792d5d1f481a599460 Mon Sep 17 00:00:00 2001 From: "Steven R. Loomis" Date: Wed, 19 Oct 2016 16:53:39 -0700 Subject: deps: Intl: ICU 58 bump: configure/LICENSE/docs * bump to ICU 58.1 - update URL / hash * does not attempt to reduce size - yet * patch to work around http://bugs.icu-project.org/trac/ticket/12822 ( compile issue on Windows) * Fix ICU shrinker to delete old license.html file (update to https://github.com/nodejs/node/pull/8674 ) Fixes: https://github.com/nodejs/node/issues/7844 PR-URL: https://github.com/nodejs/node/pull/9234 Reviewed-By: James M Snell --- tools/icu/README.md | 15 +- tools/icu/patches/58/source/i18n/digitlst.cpp | 1095 +++++++++++++++++++++++++ tools/icu/shrink-icu-src.py | 17 +- 3 files changed, 1117 insertions(+), 10 deletions(-) create mode 100644 tools/icu/patches/58/source/i18n/digitlst.cpp (limited to 'tools/icu') diff --git a/tools/icu/README.md b/tools/icu/README.md index 2e53563cdd..ed540c6725 100644 --- a/tools/icu/README.md +++ b/tools/icu/README.md @@ -8,11 +8,12 @@ ```shell ./configure \ --with-intl=small-icu \ - --with-icu-source=http://download.icu-project.org/files/icu4c/56.1/icu4c-56_1-src.zip + --with-icu-source=http://download.icu-project.org/files/icu4c/58.1/icu4c-58_1-src.tgz make ``` -(the equivalent `vcbuild.bat` commands should work also.) +(The equivalent `vcbuild.bat` commands should work also. Note that we use the `.tgz` and not the `.zip` here, +that is because of line endings.) - (note- may need to make changes in `icu-generic.gyp` or `tools/icu/patches` for version specific stuff) @@ -58,6 +59,14 @@ new Intl.DateTimeFormat('es',{month:'long'}).format(new Date(9E8)); - You are ready to check in the updated `deps/small-icu`. This is a big commit, so make this a separate commit from other changes. +- Now, rebuild the Node license. + +```shell +# clean up - remove deps/icu +make clean +tools/license-builder.sh +``` + - Now, fix the default URL for the `full-icu` build in `/configure`, in the `configure_intl()` function. It should match the ICU URL used in the first step. When this is done, the following should build with full ICU. @@ -70,7 +79,7 @@ make make test-ci ``` -- commit the change to `configure`. +- commit the change to `configure` along with the updated `LICENSE` file. ----- diff --git a/tools/icu/patches/58/source/i18n/digitlst.cpp b/tools/icu/patches/58/source/i18n/digitlst.cpp new file mode 100644 index 0000000000..9711a6cc22 --- /dev/null +++ b/tools/icu/patches/58/source/i18n/digitlst.cpp @@ -0,0 +1,1095 @@ +// Copyright (C) 2016 and later: Unicode, Inc. and others. +// License & terms of use: http://www.unicode.org/copyright.html +/* +********************************************************************** +* Copyright (C) 1997-2015, International Business Machines +* Corporation and others. All Rights Reserved. +********************************************************************** +* +* File DIGITLST.CPP +* +* Modification History: +* +* Date Name Description +* 03/21/97 clhuang Converted from java. +* 03/21/97 clhuang Implemented with new APIs. +* 03/27/97 helena Updated to pass the simple test after code review. +* 03/31/97 aliu Moved isLONG_MIN to here, and fixed it. +* 04/15/97 aliu Changed MAX_COUNT to DBL_DIG. Changed Digit to char. +* Reworked representation by replacing fDecimalAt +* with fExponent. +* 04/16/97 aliu Rewrote set() and getDouble() to use sprintf/atof +* to do digit conversion. +* 09/09/97 aliu Modified for exponential notation support. +* 08/02/98 stephen Added nearest/even rounding +* Fixed bug in fitsIntoLong +****************************************************************************** +*/ + +#if defined(__CYGWIN__) && !defined(_GNU_SOURCE) +#define _GNU_SOURCE +#endif + +#include "digitlst.h" + +#if !UCONFIG_NO_FORMATTING + +#include "unicode/putil.h" +#include "charstr.h" +#include "cmemory.h" +#include "cstring.h" +#include "mutex.h" +#include "putilimp.h" +#include "uassert.h" +#include "digitinterval.h" +#include "ucln_in.h" +#include "umutex.h" +#include +#include +#include +#include +#include + +#if !defined(U_USE_STRTOD_L) +# if U_PLATFORM_USES_ONLY_WIN32_API +# define U_USE_STRTOD_L 1 +# elif defined(U_HAVE_STRTOD_L) +# define U_USE_STRTOD_L U_HAVE_STRTOD_L +# else +# define U_USE_STRTOD_L 0 +# endif +#endif + +// Patch for http://bugs.icu-project.org/trac/ticket/12822 +#if U_USE_STRTOD_L +# if U_PLATFORM_USES_ONLY_WIN32_API || U_PLATFORM == U_PF_CYGWIN +# include +# else +# include +# endif +#endif + +// *************************************************************************** +// class DigitList +// A wrapper onto decNumber. +// Used to be standalone. +// *************************************************************************** + +/** + * This is the zero digit. The base for the digits returned by getDigit() + * Note that it is the platform invariant digit, and is not Unicode. + */ +#define kZero '0' + + +/* Only for 32 bit numbers. Ignore the negative sign. */ +//static const char LONG_MIN_REP[] = "2147483648"; +//static const char I64_MIN_REP[] = "9223372036854775808"; + + +U_NAMESPACE_BEGIN + +// ------------------------------------- +// default constructor + +DigitList::DigitList() +{ + uprv_decContextDefault(&fContext, DEC_INIT_BASE); + fContext.traps = 0; + uprv_decContextSetRounding(&fContext, DEC_ROUND_HALF_EVEN); + fContext.digits = fStorage.getCapacity(); + + fDecNumber = fStorage.getAlias(); + uprv_decNumberZero(fDecNumber); + + internalSetDouble(0.0); +} + +// ------------------------------------- + +DigitList::~DigitList() +{ +} + +// ------------------------------------- +// copy constructor + +DigitList::DigitList(const DigitList &other) +{ + fDecNumber = fStorage.getAlias(); + *this = other; +} + + +// ------------------------------------- +// assignment operator + +DigitList& +DigitList::operator=(const DigitList& other) +{ + if (this != &other) + { + uprv_memcpy(&fContext, &other.fContext, sizeof(decContext)); + + if (other.fStorage.getCapacity() > fStorage.getCapacity()) { + fDecNumber = fStorage.resize(other.fStorage.getCapacity()); + } + // Always reset the fContext.digits, even if fDecNumber was not reallocated, + // because above we copied fContext from other.fContext. + fContext.digits = fStorage.getCapacity(); + uprv_decNumberCopy(fDecNumber, other.fDecNumber); + + { + // fDouble is lazily created and cached. + // Avoid potential races with that happening with other.fDouble + // while we are doing the assignment. + Mutex mutex; + + if(other.fHave==kDouble) { + fUnion.fDouble = other.fUnion.fDouble; + } + fHave = other.fHave; + } + } + return *this; +} + +// ------------------------------------- +// operator == (does not exactly match the old DigitList function) + +UBool +DigitList::operator==(const DigitList& that) const +{ + if (this == &that) { + return TRUE; + } + decNumber n; // Has space for only a none digit value. + decContext c; + uprv_decContextDefault(&c, DEC_INIT_BASE); + c.digits = 1; + c.traps = 0; + + uprv_decNumberCompare(&n, this->fDecNumber, that.fDecNumber, &c); + UBool result = decNumberIsZero(&n); + return result; +} + +// ------------------------------------- +// comparison function. Returns +// Not Comparable : -2 +// < : -1 +// == : 0 +// > : +1 +int32_t DigitList::compare(const DigitList &other) { + decNumber result; + int32_t savedDigits = fContext.digits; + fContext.digits = 1; + uprv_decNumberCompare(&result, this->fDecNumber, other.fDecNumber, &fContext); + fContext.digits = savedDigits; + if (decNumberIsZero(&result)) { + return 0; + } else if (decNumberIsSpecial(&result)) { + return -2; + } else if (result.bits & DECNEG) { + return -1; + } else { + return 1; + } +} + + +// ------------------------------------- +// Reduce - remove trailing zero digits. +void +DigitList::reduce() { + uprv_decNumberReduce(fDecNumber, fDecNumber, &fContext); +} + + +// ------------------------------------- +// trim - remove trailing fraction zero digits. +void +DigitList::trim() { + uprv_decNumberTrim(fDecNumber); +} + +// ------------------------------------- +// Resets the digit list; sets all the digits to zero. + +void +DigitList::clear() +{ + uprv_decNumberZero(fDecNumber); + uprv_decContextSetRounding(&fContext, DEC_ROUND_HALF_EVEN); + internalSetDouble(0.0); +} + + +/** + * Formats a int64_t number into a base 10 string representation, and NULL terminates it. + * @param number The number to format + * @param outputStr The string to output to. Must be at least MAX_DIGITS+2 in length (21), + * to hold the longest int64_t value. + * @return the number of digits written, not including the sign. + */ +static int32_t +formatBase10(int64_t number, char *outputStr) { + // The number is output backwards, starting with the LSD. + // Fill the buffer from the far end. After the number is complete, + // slide the string contents to the front. + + const int32_t MAX_IDX = MAX_DIGITS+2; + int32_t destIdx = MAX_IDX; + outputStr[--destIdx] = 0; + + int64_t n = number; + if (number < 0) { // Negative numbers are slightly larger than a postive + outputStr[--destIdx] = (char)(-(n % 10) + kZero); + n /= -10; + } + do { + outputStr[--destIdx] = (char)(n % 10 + kZero); + n /= 10; + } while (n > 0); + + if (number < 0) { + outputStr[--destIdx] = '-'; + } + + // Slide the number to the start of the output str + U_ASSERT(destIdx >= 0); + int32_t length = MAX_IDX - destIdx; + uprv_memmove(outputStr, outputStr+MAX_IDX-length, length); + + return length; +} + + +// ------------------------------------- +// +// setRoundingMode() +// For most modes, the meaning and names are the same between the decNumber library +// (which DigitList follows) and the ICU Formatting Rounding Mode values. +// The flag constants are different, however. +// +// Note that ICU's kRoundingUnnecessary is not implemented directly by DigitList. +// This mode, inherited from Java, means that numbers that would not format exactly +// will return an error when formatting is attempted. + +void +DigitList::setRoundingMode(DecimalFormat::ERoundingMode m) { + enum rounding r; + + switch (m) { + case DecimalFormat::kRoundCeiling: r = DEC_ROUND_CEILING; break; + case DecimalFormat::kRoundFloor: r = DEC_ROUND_FLOOR; break; + case DecimalFormat::kRoundDown: r = DEC_ROUND_DOWN; break; + case DecimalFormat::kRoundUp: r = DEC_ROUND_UP; break; + case DecimalFormat::kRoundHalfEven: r = DEC_ROUND_HALF_EVEN; break; + case DecimalFormat::kRoundHalfDown: r = DEC_ROUND_HALF_DOWN; break; + case DecimalFormat::kRoundHalfUp: r = DEC_ROUND_HALF_UP; break; + case DecimalFormat::kRoundUnnecessary: r = DEC_ROUND_HALF_EVEN; break; + default: + // TODO: how to report the problem? + // Leave existing mode unchanged. + r = uprv_decContextGetRounding(&fContext); + } + uprv_decContextSetRounding(&fContext, r); + +} + + +// ------------------------------------- + +void +DigitList::setPositive(UBool s) { + if (s) { + fDecNumber->bits &= ~DECNEG; + } else { + fDecNumber->bits |= DECNEG; + } + internalClear(); +} +// ------------------------------------- + +void +DigitList::setDecimalAt(int32_t d) { + U_ASSERT((fDecNumber->bits & DECSPECIAL) == 0); // Not Infinity or NaN + U_ASSERT(d-1>-999999999); + U_ASSERT(d-1< 999999999); + int32_t adjustedDigits = fDecNumber->digits; + if (decNumberIsZero(fDecNumber)) { + // Account for difference in how zero is represented between DigitList & decNumber. + adjustedDigits = 0; + } + fDecNumber->exponent = d - adjustedDigits; + internalClear(); +} + +int32_t +DigitList::getDecimalAt() { + U_ASSERT((fDecNumber->bits & DECSPECIAL) == 0); // Not Infinity or NaN + if (decNumberIsZero(fDecNumber) || ((fDecNumber->bits & DECSPECIAL) != 0)) { + return fDecNumber->exponent; // Exponent should be zero for these cases. + } + return fDecNumber->exponent + fDecNumber->digits; +} + +void +DigitList::setCount(int32_t c) { + U_ASSERT(c <= fContext.digits); + if (c == 0) { + // For a value of zero, DigitList sets all fields to zero, while + // decNumber keeps one digit (with that digit being a zero) + c = 1; + fDecNumber->lsu[0] = 0; + } + fDecNumber->digits = c; + internalClear(); +} + +int32_t +DigitList::getCount() const { + if (decNumberIsZero(fDecNumber) && fDecNumber->exponent==0) { + // The extra test for exponent==0 is needed because parsing sometimes appends + // zero digits. It's bogus, decimalFormatter parsing needs to be cleaned up. + return 0; + } else { + return fDecNumber->digits; + } +} + +void +DigitList::setDigit(int32_t i, char v) { + int32_t count = fDecNumber->digits; + U_ASSERT(i='0' && v<='9'); + v &= 0x0f; + fDecNumber->lsu[count-i-1] = v; + internalClear(); +} + +char +DigitList::getDigit(int32_t i) { + int32_t count = fDecNumber->digits; + U_ASSERT(ilsu[count-i-1] + '0'; +} + +// copied from DigitList::getDigit() +uint8_t +DigitList::getDigitValue(int32_t i) { + int32_t count = fDecNumber->digits; + U_ASSERT(ilsu[count-i-1]; +} + +// ------------------------------------- +// Appends the digit to the digit list if it's not out of scope. +// Ignores the digit, otherwise. +// +// This function is horribly inefficient to implement with decNumber because +// the digits are stored least significant first, which requires moving all +// existing digits down one to make space for the new one to be appended. +// +void +DigitList::append(char digit) +{ + U_ASSERT(digit>='0' && digit<='9'); + // Ignore digits which exceed the precision we can represent + // And don't fix for larger precision. Fix callers instead. + if (decNumberIsZero(fDecNumber)) { + // Zero needs to be special cased because of the difference in the way + // that the old DigitList and decNumber represent it. + // digit cout was zero for digitList, is one for decNumber + fDecNumber->lsu[0] = digit & 0x0f; + fDecNumber->digits = 1; + fDecNumber->exponent--; // To match the old digit list implementation. + } else { + int32_t nDigits = fDecNumber->digits; + if (nDigits < fContext.digits) { + int i; + for (i=nDigits; i>0; i--) { + fDecNumber->lsu[i] = fDecNumber->lsu[i-1]; + } + fDecNumber->lsu[0] = digit & 0x0f; + fDecNumber->digits++; + // DigitList emulation - appending doesn't change the magnitude of existing + // digits. With decNumber's decimal being after the + // least signficant digit, we need to adjust the exponent. + fDecNumber->exponent--; + } + } + internalClear(); +} + +// ------------------------------------- + +/** + * Currently, getDouble() depends on strtod() to do its conversion. + * + * WARNING!! + * This is an extremely costly function. ~1/2 of the conversion time + * can be linked to this function. + */ +double +DigitList::getDouble() const +{ + { + Mutex mutex; + if (fHave == kDouble) { + return fUnion.fDouble; + } + } + + double tDouble = 0.0; + if (isZero()) { + tDouble = 0.0; + if (decNumberIsNegative(fDecNumber)) { + tDouble /= -1; + } + } else if (isInfinite()) { + if (std::numeric_limits::has_infinity) { + tDouble = std::numeric_limits::infinity(); + } else { + tDouble = std::numeric_limits::max(); + } + if (!isPositive()) { + tDouble = -tDouble; //this was incorrectly "-fDouble" originally. + } + } else { + MaybeStackArray s; + // Note: 14 is a magic constant from the decNumber library documentation, + // the max number of extra characters beyond the number of digits + // needed to represent the number in string form. Add a few more + // for the additional digits we retain. + + // Round down to appx. double precision, if the number is longer than that. + // Copy the number first, so that we don't modify the original. + if (getCount() > MAX_DBL_DIGITS + 3) { + DigitList numToConvert(*this); + numToConvert.reduce(); // Removes any trailing zeros, so that digit count is good. + numToConvert.round(MAX_DBL_DIGITS+3); + uprv_decNumberToString(numToConvert.fDecNumber, s.getAlias()); + // TODO: how many extra digits should be included for an accurate conversion? + } else { + uprv_decNumberToString(this->fDecNumber, s.getAlias()); + } + U_ASSERT(uprv_strlen(&s[0]) < MAX_DBL_DIGITS+18); + + char *end = NULL; + tDouble = decimalStrToDouble(s.getAlias(), &end); + } + { + Mutex mutex; + DigitList *nonConstThis = const_cast(this); + nonConstThis->internalSetDouble(tDouble); + } + return tDouble; +} + +#if U_USE_STRTOD_L && U_PLATFORM_USES_ONLY_WIN32_API +# define locale_t _locale_t +# define freelocale _free_locale +# define strtod_l _strtod_l +#endif + +#if U_USE_STRTOD_L +static locale_t gCLocale = (locale_t)0; +#endif +static icu::UInitOnce gCLocaleInitOnce = U_INITONCE_INITIALIZER; + +U_CDECL_BEGIN +// Cleanup callback func +static UBool U_CALLCONV digitList_cleanup(void) +{ +#if U_USE_STRTOD_L + if (gCLocale != (locale_t)0) { + freelocale(gCLocale); + } +#endif + return TRUE; +} +// C Locale initialization func +static void U_CALLCONV initCLocale(void) { + ucln_i18n_registerCleanup(UCLN_I18N_DIGITLIST, digitList_cleanup); +#if U_USE_STRTOD_L +# if U_PLATFORM_USES_ONLY_WIN32_API + gCLocale = _create_locale(LC_ALL, "C"); +# else + gCLocale = newlocale(LC_ALL_MASK, "C", (locale_t)0); +# endif +#endif +} +U_CDECL_END + +double +DigitList::decimalStrToDouble(char *decstr, char **end) { + umtx_initOnce(gCLocaleInitOnce, &initCLocale); +#if U_USE_STRTOD_L + return strtod_l(decstr, end, gCLocale); +#else + char *decimalPt = strchr(decstr, '.'); + if (decimalPt) { + // We need to know the decimal separator character that will be used with strtod(). + // Depends on the C runtime global locale. + // Most commonly is '.' + char rep[MAX_DIGITS]; + sprintf(rep, "%+1.1f", 1.0); + *decimalPt = rep[2]; + } + return uprv_strtod(decstr, end); +#endif +} + +// ------------------------------------- + +/** + * convert this number to an int32_t. Round if there is a fractional part. + * Return zero if the number cannot be represented. + */ +int32_t DigitList::getLong() /*const*/ +{ + int32_t result = 0; + if (getUpperExponent() > 10) { + // Overflow, absolute value too big. + return result; + } + if (fDecNumber->exponent != 0) { + // Force to an integer, with zero exponent, rounding if necessary. + // (decNumberToInt32 will only work if the exponent is exactly zero.) + DigitList copy(*this); + DigitList zero; + uprv_decNumberQuantize(copy.fDecNumber, copy.fDecNumber, zero.fDecNumber, &fContext); + result = uprv_decNumberToInt32(copy.fDecNumber, &fContext); + } else { + result = uprv_decNumberToInt32(fDecNumber, &fContext); + } + return result; +} + + +/** + * convert this number to an int64_t. Truncate if there is a fractional part. + * Return zero if the number cannot be represented. + */ +int64_t DigitList::getInt64() /*const*/ { + // TODO: fast conversion if fHave == fDouble + + // Truncate if non-integer. + // Return 0 if out of range. + // Range of in64_t is -9223372036854775808 to 9223372036854775807 (19 digits) + // + if (getUpperExponent() > 19) { + // Overflow, absolute value too big. + return 0; + } + + // The number of integer digits may differ from the number of digits stored + // in the decimal number. + // for 12.345 numIntDigits = 2, number->digits = 5 + // for 12E4 numIntDigits = 6, number->digits = 2 + // The conversion ignores the fraction digits in the first case, + // and fakes up extra zero digits in the second. + // TODO: It would be faster to store a table of powers of ten to multiply by + // instead of looping over zero digits, multiplying each time. + + int32_t numIntDigits = getUpperExponent(); + uint64_t value = 0; + for (int32_t i = 0; i < numIntDigits; i++) { + // Loop is iterating over digits starting with the most significant. + // Numbers are stored with the least significant digit at index zero. + int32_t digitIndex = fDecNumber->digits - i - 1; + int32_t v = (digitIndex >= 0) ? fDecNumber->lsu[digitIndex] : 0; + value = value * (uint64_t)10 + (uint64_t)v; + } + + if (decNumberIsNegative(fDecNumber)) { + value = ~value; + value += 1; + } + int64_t svalue = (int64_t)value; + + // Check overflow. It's convenient that the MSD is 9 only on overflow, the amount of + // overflow can't wrap too far. The test will also fail -0, but + // that does no harm; the right answer is 0. + if (numIntDigits == 19) { + if (( decNumberIsNegative(fDecNumber) && svalue>0) || + (!decNumberIsNegative(fDecNumber) && svalue<0)) { + svalue = 0; + } + } + + return svalue; +} + + +/** + * Return a string form of this number. + * Format is as defined by the decNumber library, for interchange of + * decimal numbers. + */ +void DigitList::getDecimal(CharString &str, UErrorCode &status) { + if (U_FAILURE(status)) { + return; + } + + // A decimal number in string form can, worst case, be 14 characters longer + // than the number of digits. So says the decNumber library doc. + int32_t maxLength = fDecNumber->digits + 14; + int32_t capacity = 0; + char *buffer = str.clear().getAppendBuffer(maxLength, 0, capacity, status); + if (U_FAILURE(status)) { + return; // Memory allocation error on growing the string. + } + U_ASSERT(capacity >= maxLength); + uprv_decNumberToString(this->fDecNumber, buffer); + U_ASSERT((int32_t)uprv_strlen(buffer) <= maxLength); + str.append(buffer, -1, status); +} + +/** + * Return true if this is an integer value that can be held + * by an int32_t type. + */ +UBool +DigitList::fitsIntoLong(UBool ignoreNegativeZero) /*const*/ +{ + if (decNumberIsSpecial(this->fDecNumber)) { + // NaN or Infinity. Does not fit in int32. + return FALSE; + } + uprv_decNumberTrim(this->fDecNumber); + if (fDecNumber->exponent < 0) { + // Number contains fraction digits. + return FALSE; + } + if (decNumberIsZero(this->fDecNumber) && !ignoreNegativeZero && + (fDecNumber->bits & DECNEG) != 0) { + // Negative Zero, not ingored. Cannot represent as a long. + return FALSE; + } + if (getUpperExponent() < 10) { + // The number is 9 or fewer digits. + // The max and min int32 are 10 digts, so this number fits. + // This is the common case. + return TRUE; + } + + // TODO: Should cache these constants; construction is relatively costly. + // But not of huge consequence; they're only needed for 10 digit ints. + UErrorCode status = U_ZERO_ERROR; + DigitList min32; min32.set("-2147483648", status); + if (this->compare(min32) < 0) { + return FALSE; + } + DigitList max32; max32.set("2147483647", status); + if (this->compare(max32) > 0) { + return FALSE; + } + if (U_FAILURE(status)) { + return FALSE; + } + return true; +} + + + +/** + * Return true if the number represented by this object can fit into + * a long. + */ +UBool +DigitList::fitsIntoInt64(UBool ignoreNegativeZero) /*const*/ +{ + if (decNumberIsSpecial(this->fDecNumber)) { + // NaN or Infinity. Does not fit in int32. + return FALSE; + } + uprv_decNumberTrim(this->fDecNumber); + if (fDecNumber->exponent < 0) { + // Number contains fraction digits. + return FALSE; + } + if (decNumberIsZero(this->fDecNumber) && !ignoreNegativeZero && + (fDecNumber->bits & DECNEG) != 0) { + // Negative Zero, not ingored. Cannot represent as a long. + return FALSE; + } + if (getUpperExponent() < 19) { + // The number is 18 or fewer digits. + // The max and min int64 are 19 digts, so this number fits. + // This is the common case. + return TRUE; + } + + // TODO: Should cache these constants; construction is relatively costly. + // But not of huge consequence; they're only needed for 19 digit ints. + UErrorCode status = U_ZERO_ERROR; + DigitList min64; min64.set("-9223372036854775808", status); + if (this->compare(min64) < 0) { + return FALSE; + } + DigitList max64; max64.set("9223372036854775807", status); + if (this->compare(max64) > 0) { + return FALSE; + } + if (U_FAILURE(status)) { + return FALSE; + } + return true; +} + + +// ------------------------------------- + +void +DigitList::set(int32_t source) +{ + set((int64_t)source); + internalSetDouble(source); +} + +// ------------------------------------- +/** + * Set an int64, via decnumber + */ +void +DigitList::set(int64_t source) +{ + char str[MAX_DIGITS+2]; // Leave room for sign and trailing nul. + formatBase10(source, str); + U_ASSERT(uprv_strlen(str) < sizeof(str)); + + uprv_decNumberFromString(fDecNumber, str, &fContext); + internalSetDouble(static_cast(source)); +} + +// ------------------------------------- +/** + * Set the DigitList from a decimal number string. + * + * The incoming string _must_ be nul terminated, even though it is arriving + * as a StringPiece because that is what the decNumber library wants. + * We can get away with this for an internal function; it would not + * be acceptable for a public API. + */ +void +DigitList::set(StringPiece source, UErrorCode &status, uint32_t /*fastpathBits*/) { + if (U_FAILURE(status)) { + return; + } + +#if 0 + if(fastpathBits==(kFastpathOk|kNoDecimal)) { + int32_t size = source.size(); + const char *data = source.data(); + int64_t r = 0; + int64_t m = 1; + // fast parse + while(size>0) { + char ch = data[--size]; + if(ch=='+') { + break; + } else if(ch=='-') { + r = -r; + break; + } else { + int64_t d = ch-'0'; + //printf("CH[%d]=%c, %d, *=%d\n", size,ch, (int)d, (int)m); + r+=(d)*m; + m *= 10; + } + } + //printf("R=%d\n", r); + set(r); + } else +#endif + { + // Figure out a max number of digits to use during the conversion, and + // resize the number up if necessary. + int32_t numDigits = source.length(); + if (numDigits > fContext.digits) { + // fContext.digits == fStorage.getCapacity() + decNumber *t = fStorage.resize(numDigits, fStorage.getCapacity()); + if (t == NULL) { + status = U_MEMORY_ALLOCATION_ERROR; + return; + } + fDecNumber = t; + fContext.digits = numDigits; + } + + fContext.status = 0; + uprv_decNumberFromString(fDecNumber, source.data(), &fContext); + if ((fContext.status & DEC_Conversion_syntax) != 0) { + status = U_DECIMAL_NUMBER_SYNTAX_ERROR; + } + } + internalClear(); +} + +/** + * Set the digit list to a representation of the given double value. + * This method supports both fixed-point and exponential notation. + * @param source Value to be converted. + */ +void +DigitList::set(double source) +{ + // for now, simple implementation; later, do proper IEEE stuff + char rep[MAX_DIGITS + 8]; // Extra space for '+', '.', e+NNN, and '\0' (actually +8 is enough) + + // Generate a representation of the form /[+-][0-9].[0-9]+e[+-][0-9]+/ + // Can also generate /[+-]nan/ or /[+-]inf/ + // TODO: Use something other than sprintf() here, since it's behavior is somewhat platform specific. + // That is why infinity is special cased here. + if (uprv_isInfinite(source)) { + if (uprv_isNegativeInfinity(source)) { + uprv_strcpy(rep,"-inf"); // Handle negative infinity + } else { + uprv_strcpy(rep,"inf"); + } + } else { + sprintf(rep, "%+1.*e", MAX_DBL_DIGITS - 1, source); + } + U_ASSERT(uprv_strlen(rep) < sizeof(rep)); + + // uprv_decNumberFromString() will parse the string expecting '.' as a + // decimal separator, however sprintf() can use ',' in certain locales. + // Overwrite a ',' with '.' here before proceeding. + char *decimalSeparator = strchr(rep, ','); + if (decimalSeparator != NULL) { + *decimalSeparator = '.'; + } + + // Create a decNumber from the string. + uprv_decNumberFromString(fDecNumber, rep, &fContext); + uprv_decNumberTrim(fDecNumber); + internalSetDouble(source); +} + +// ------------------------------------- + +/* + * Multiply + * The number will be expanded if need be to retain full precision. + * In practice, for formatting, multiply is by 10, 100 or 1000, so more digits + * will not be required for this use. + */ +void +DigitList::mult(const DigitList &other, UErrorCode &status) { + if (U_FAILURE(status)) { + return; + } + fContext.status = 0; + int32_t requiredDigits = this->digits() + other.digits(); + if (requiredDigits > fContext.digits) { + reduce(); // Remove any trailing zeros + int32_t requiredDigits = this->digits() + other.digits(); + ensureCapacity(requiredDigits, status); + } + uprv_decNumberMultiply(fDecNumber, fDecNumber, other.fDecNumber, &fContext); + internalClear(); +} + +// ------------------------------------- + +/* + * Divide + * The number will _not_ be expanded for inexact results. + * TODO: probably should expand some, for rounding increments that + * could add a few digits, e.g. .25, but not expand arbitrarily. + */ +void +DigitList::div(const DigitList &other, UErrorCode &status) { + if (U_FAILURE(status)) { + return; + } + uprv_decNumberDivide(fDecNumber, fDecNumber, other.fDecNumber, &fContext); + internalClear(); +} + +// ------------------------------------- + +/* + * ensureCapacity. Grow the digit storage for the number if it's less than the requested + * amount. Never reduce it. Available size is kept in fContext.digits. + */ +void +DigitList::ensureCapacity(int32_t requestedCapacity, UErrorCode &status) { + if (U_FAILURE(status)) { + return; + } + if (requestedCapacity <= 0) { + status = U_ILLEGAL_ARGUMENT_ERROR; + return; + } + if (requestedCapacity > DEC_MAX_DIGITS) { + // Don't report an error for requesting too much. + // Arithemetic Results will be rounded to what can be supported. + // At 999,999,999 max digits, exceeding the limit is not too likely! + requestedCapacity = DEC_MAX_DIGITS; + } + if (requestedCapacity > fContext.digits) { + decNumber *newBuffer = fStorage.resize(requestedCapacity, fStorage.getCapacity()); + if (newBuffer == NULL) { + status = U_MEMORY_ALLOCATION_ERROR; + return; + } + fContext.digits = requestedCapacity; + fDecNumber = newBuffer; + } +} + +// ------------------------------------- + +/** + * Round the representation to the given number of digits. + * @param maximumDigits The maximum number of digits to be shown. + * Upon return, count will be less than or equal to maximumDigits. + */ +void +DigitList::round(int32_t maximumDigits) +{ + reduce(); + if (maximumDigits >= fDecNumber->digits) { + return; + } + int32_t savedDigits = fContext.digits; + fContext.digits = maximumDigits; + uprv_decNumberPlus(fDecNumber, fDecNumber, &fContext); + fContext.digits = savedDigits; + uprv_decNumberTrim(fDecNumber); + reduce(); + internalClear(); +} + + +void +DigitList::roundFixedPoint(int32_t maximumFractionDigits) { + reduce(); // Remove trailing zeros. + if (fDecNumber->exponent >= -maximumFractionDigits) { + return; + } + decNumber scale; // Dummy decimal number, but with the desired number of + uprv_decNumberZero(&scale); // fraction digits. + scale.exponent = -maximumFractionDigits; + scale.lsu[0] = 1; + + uprv_decNumberQuantize(fDecNumber, fDecNumber, &scale, &fContext); + reduce(); + internalClear(); +} + +// ------------------------------------- + +void +DigitList::toIntegralValue() { + uprv_decNumberToIntegralValue(fDecNumber, fDecNumber, &fContext); +} + + +// ------------------------------------- +UBool +DigitList::isZero() const +{ + return decNumberIsZero(fDecNumber); +} + +// ------------------------------------- +int32_t +DigitList::getUpperExponent() const { + return fDecNumber->digits + fDecNumber->exponent; +} + +DigitInterval & +DigitList::getSmallestInterval(DigitInterval &result) const { + result.setLeastSignificantInclusive(fDecNumber->exponent); + result.setMostSignificantExclusive(getUpperExponent()); + return result; +} + +uint8_t +DigitList::getDigitByExponent(int32_t exponent) const { + int32_t idx = exponent - fDecNumber->exponent; + if (idx < 0 || idx >= fDecNumber->digits) { + return 0; + } + return fDecNumber->lsu[idx]; +} + +void +DigitList::appendDigitsTo(CharString &str, UErrorCode &status) const { + str.append((const char *) fDecNumber->lsu, fDecNumber->digits, status); +} + +void +DigitList::roundAtExponent(int32_t exponent, int32_t maxSigDigits) { + reduce(); + if (maxSigDigits < fDecNumber->digits) { + int32_t minExponent = getUpperExponent() - maxSigDigits; + if (exponent < minExponent) { + exponent = minExponent; + } + } + if (exponent <= fDecNumber->exponent) { + return; + } + int32_t digits = getUpperExponent() - exponent; + if (digits > 0) { + round(digits); + } else { + roundFixedPoint(-exponent); + } +} + +void +DigitList::quantize(const DigitList &quantity, UErrorCode &status) { + if (U_FAILURE(status)) { + return; + } + div(quantity, status); + roundAtExponent(0); + mult(quantity, status); + reduce(); +} + +int32_t +DigitList::getScientificExponent( + int32_t minIntDigitCount, int32_t exponentMultiplier) const { + // The exponent for zero is always zero. + if (isZero()) { + return 0; + } + int32_t intDigitCount = getUpperExponent(); + int32_t exponent; + if (intDigitCount >= minIntDigitCount) { + int32_t maxAdjustment = intDigitCount - minIntDigitCount; + exponent = (maxAdjustment / exponentMultiplier) * exponentMultiplier; + } else { + int32_t minAdjustment = minIntDigitCount - intDigitCount; + exponent = ((minAdjustment + exponentMultiplier - 1) / exponentMultiplier) * -exponentMultiplier; + } + return exponent; +} + +int32_t +DigitList::toScientific( + int32_t minIntDigitCount, int32_t exponentMultiplier) { + int32_t exponent = getScientificExponent( + minIntDigitCount, exponentMultiplier); + shiftDecimalRight(-exponent); + return exponent; +} + +void +DigitList::shiftDecimalRight(int32_t n) { + fDecNumber->exponent += n; + internalClear(); +} + +U_NAMESPACE_END +#endif // #if !UCONFIG_NO_FORMATTING + +//eof diff --git a/tools/icu/shrink-icu-src.py b/tools/icu/shrink-icu-src.py index d0c82d8746..406c5c317f 100644 --- a/tools/icu/shrink-icu-src.py +++ b/tools/icu/shrink-icu-src.py @@ -48,18 +48,17 @@ def icu_ignore(dir, files): ign = ign + files # except... ign.remove('source') - ign.remove('license.html') - ign.remove('LICENSE') + if 'LICENSE' in ign: + ign.remove('LICENSE') + # license.html will be removed (it's obviated by LICENSE) + elif 'license.html' in ign: + ign.remove('license.html') elif subdir == 'source': - ign = ign + ['layout','samples','test','extra','config','layoutex','allinone'] + ign = ign + ['layout','samples','test','extra','config','layoutex','allinone','data'] ign = ign + ['runConfigureICU','install-sh','mkinstalldirs','configure'] elif subdir == 'source/tools': ign = ign + ['tzcode','ctestfw','gensprep','gennorm2','gendict','icuswap', 'genbrk','gencfu','gencolusb','genren','memcheck','makeconv','gencnval','icuinfo','gentest'] - elif subdir == 'source/data': - ign = ign + ['unidata','curr','zone','unit','lang','region','misc','sprep'] - # else: - # print '!%s! [%s]' % (subdir, files) ign = ign + ['.DS_Store', 'Makefile', 'Makefile.in'] for file in files: @@ -103,6 +102,10 @@ print '%s --> %s' % (options.icusrc, options.icusmall) shutil.copytree(options.icusrc, options.icusmall, ignore=icu_ignore) print '%s --> %s' % (src_datafile, dst_datafile) +# now, make the data dir (since we ignored it) +os.mkdir(os.path.join(os.path.join(options.icusmall, "source", "data"))) +os.mkdir(os.path.join(os.path.join(options.icusmall, "source", "data", "in"))) + # OK, now copy the data file shutil.copy(src_datafile, dst_datafile) -- cgit v1.2.3