diff options
author | Eike Rathke <erack@redhat.com> | 2015-09-29 15:54:19 +0200 |
---|---|---|
committer | Andras Timar <andras.timar@collabora.com> | 2015-10-17 23:22:39 +0200 |
commit | c8ea6ec10167c2be36d9b58d48d0606106745267 (patch) | |
tree | bf0d6a88cb0007b3c604fbd2fb08f651f4769ada /svl | |
parent | c5d540773ddf8b764343cd58870ad2b08edcea49 (diff) |
use exponential 'E' format for General when appropriate
Fixes all these test case scenarios:
1. in A1 enter =1E222
* move cell cursor back onto A1
* status bar displays Sum=100000... repeated until
filled (or 222 '0' characters)
2. invoke number format dialog on A1
* for General format 100000... is displayed in the preview
3. move cell cursor to A2
* open Function Wizard (Ctrl+F2)
* choose (double click) ABS function
* enter A1 as parameter
* see 100000... displayed as Function result and Result
4. save as .ods
* in content.xml see display text of A1 being saved as 100000...
Change-Id: I7c22c0461a6783c85c1d51c31e8607fb2edb821c
(cherry picked from commit ef0a26835e68deb31906c40cfe48c66674d9d0d1)
Reviewed-on: https://gerrit.libreoffice.org/18924
Tested-by: Jenkins <ci@libreoffice.org>
Reviewed-by: Caolán McNamara <caolanm@redhat.com>
Tested-by: Caolán McNamara <caolanm@redhat.com>
(cherry picked from commit 746359e4f7648ef9451c1527aaa07926aedca468)
Diffstat (limited to 'svl')
-rw-r--r-- | svl/source/numbers/zformat.cxx | 52 |
1 files changed, 35 insertions, 17 deletions
diff --git a/svl/source/numbers/zformat.cxx b/svl/source/numbers/zformat.cxx index 15f3f53aa1ea..3b2638d26c88 100644 --- a/svl/source/numbers/zformat.cxx +++ b/svl/source/numbers/zformat.cxx @@ -55,6 +55,11 @@ char const GREGORIAN[] = "gregorian"; const sal_uInt16 UPPER_PRECISION = 300; // entirely arbitrary... const double EXP_LOWER_BOUND = 1.0E-4; // prefer scientific notation below this value. +const double EXP_ABS_UPPER_BOUND = 1.0E15; // use exponential notation above that absolute value. + // Back in time was E16 that lead + // to display rounding errors, see + // also sal/rtl/math.cxx + // doubleToString() } // namespace @@ -1717,7 +1722,7 @@ void SvNumberformat::ImpGetOutputStandard(double& fNumber, OUString& rOutString) { sal_uInt16 nStandardPrec = rScan.GetStandardPrec(); - if ( fabs(fNumber) > 1.0E15 ) // #58531# was E16 + if ( fabs(fNumber) > EXP_ABS_UPPER_BOUND ) { nStandardPrec = ::std::min(nStandardPrec, static_cast<sal_uInt16>(14)); // limits to 14 decimals rOutString = ::rtl::math::doubleToUString( fNumber, @@ -2110,27 +2115,40 @@ bool SvNumberformat::GetOutputString(double fNumber, } fNumber = -fNumber; } + /* TODO: why did we insist on 10 decimals for the non-exponent + * case? doubleToUString() handles rtl_math_DecimalPlaces_Max + * gracefully when used with rtl_math_StringFormat_Automatic, + * so all that special casing and mumbo-jumbo in the else + * branch below might not be needed at all. */ + if (fNumber > EXP_ABS_UPPER_BOUND) + { + sBuff.append( ::rtl::math::doubleToUString( fNumber, + rtl_math_StringFormat_Automatic, + rtl_math_DecimalPlaces_Max, + GetFormatter().GetNumDecimalSep()[0], true)); + } + else { OUString sTemp; ImpGetOutputStdToPrecision(fNumber, sTemp, 10); // Use 10 decimals for general 'unlimited' format. sBuff.append(sTemp); - } - if (fNumber < EXP_LOWER_BOUND) - { - sal_Int32 nLen = sBuff.getLength(); - if (!nLen) + if (fNumber < EXP_LOWER_BOUND) { - return false; - } - // #i112250# With the 10-decimal limit, small numbers are formatted as "0". - // Switch to scientific in that case, too: - if (nLen > 11 || ((nLen == 1 && sBuff[0] == '0') && fNumber != 0.0)) - { - sal_uInt16 nStandardPrec = rScan.GetStandardPrec(); - nStandardPrec = ::std::min(nStandardPrec, static_cast<sal_uInt16>(14)); // limits to 14 decimals - sBuff = ::rtl::math::doubleToUString( fNumber, - rtl_math_StringFormat_E2, nStandardPrec /*2*/, - GetFormatter().GetNumDecimalSep()[0], true); + sal_Int32 nLen = sBuff.getLength(); + if (!nLen) + { + return false; + } + // #i112250# With the 10-decimal limit, small numbers are formatted as "0". + // Switch to scientific in that case, too: + if (nLen > 11 || ((nLen == 1 && sBuff[0] == '0') && fNumber != 0.0)) + { + sal_uInt16 nStandardPrec = rScan.GetStandardPrec(); + nStandardPrec = ::std::min(nStandardPrec, static_cast<sal_uInt16>(14)); // limits to 14 decimals + sBuff = ::rtl::math::doubleToUString( fNumber, + rtl_math_StringFormat_E2, nStandardPrec /*2*/, + GetFormatter().GetNumDecimalSep()[0], true); + } } } if (bSign) |