Fix MinGW-Bug [2136252]: Remove extraneous radix point in printf( "%.0f", v ) for v < 0.5
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Keith Marshall
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@ -1,3 +1,11 @@
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2008-10-18 Keith Marshall <keithmarshall@users.sourceforge.net>
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Fix MinGW-Bug [2136252]: (Reported by Roumen Petrov).
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Remove extraneous radix point in printf( "%.0f", v ) for v < 0.5
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* mingwex/stdio/pformat.c (__pformat_emit_float): Always make output
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of radix point conditional on precision != 0 or `#' flag specified.
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2008-10-13 Keith Marshall <keithmarshall@users.sourceforge.net>
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Fix MinGW-Bug [2160227]
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@ -528,7 +528,7 @@ void __pformat_int( __pformat_intarg_t value, __pformat_t *stream )
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&& ((stream->flags & PFORMAT_JUSTIFY) == PFORMAT_ZEROFILL) )
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/*
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* and the `0' flag is in effect, so we pad the remaining spaces,
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* to the left of the displayed value, with zeroes.
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* to the left of the displayed value, with zeros.
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*/
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while( stream->width-- > 0 )
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*p++ = '0';
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@ -665,7 +665,7 @@ void __pformat_xint( int fmt, __pformat_intarg_t value, __pformat_t *stream )
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&& ((stream->flags & PFORMAT_JUSTIFY) == PFORMAT_ZEROFILL) )
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/*
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* When the `0' flag is set, and not overridden by the `-' flag,
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* or by a specified precision, add sufficient leading zeroes to
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* or by a specified precision, add sufficient leading zeros to
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* consume the remaining field width.
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*/
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while( width-- > 0 )
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@ -1034,7 +1034,7 @@ void __pformat_emit_float( int sign, char *value, int len, __pformat_t *stream )
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* adjusting appropriately, when sufficient width remains...
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* (note that we must check both of these conditions, because
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* precision may be more negative than width, as a result of
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* adjustment to provide extra padding when trailing zeroes
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* adjustment to provide extra padding when trailing zeros
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* are to be discarded from "%g" format conversion with a
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* specified field width, but if width itself is negative,
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* then there is explicitly to be no padding anyway).
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@ -1098,42 +1098,43 @@ void __pformat_emit_float( int sign, char *value, int len, __pformat_t *stream )
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/* Emit the digits of the encoded numeric value...
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*/
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if( len > 0 )
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{
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/* beginning with those which precede the radix point,
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* and appending any necessary significant trailing zeroes.
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/*
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* ...beginning with those which precede the radix point,
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* and appending any necessary significant trailing zeros.
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*/
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while( len-- > 0 )
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__pformat_putc( *value ? *value++ : '0', stream );
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/* Unless the encoded value is integral, AND the radix point
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* is not expressly demanded by the `#' flag, we must insert
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* the appropriately localised radix point mark here...
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*/
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if( (stream->precision > 0) || (stream->flags & PFORMAT_HASHED) )
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__pformat_emit_radix_point( stream );
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}
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do __pformat_putc( *value ? *value++ : '0', stream );
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while( --len > 0 );
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else
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{
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/* The magnitude of the encoded value is less than 1.0, so no
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* digits precede the radix point; we emit a mandatory initial
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* zero, followed immediately by the radix point.
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*/
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__pformat_putc( '0', stream );
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/* Unless the encoded value is integral, AND the radix point
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* is not expressly demanded by the `#' flag, we must insert
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* the appropriately localised radix point mark here...
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*/
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if( (stream->precision > 0) || (stream->flags & PFORMAT_HASHED) )
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__pformat_emit_radix_point( stream );
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/* The radix point offset, `len', may be negative; this implies
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* that additional zeroes must appear, following the radix point,
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* and preceding the first significant digit. We reduce the
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* precision, (adding a negative value), to allow for these
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* additional zeroes, then emit the zeroes as required.
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/* When the radix point offset, `len', is negative, this implies
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* that additional zeros must appear, following the radix point,
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* and preceding the first significant digit...
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*/
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if( len < 0 )
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{
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/* To accommodate these, we adjust the precision, (reducing it
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* by adding a negative value), and then we emit as many zeros
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* as are required.
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*/
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stream->precision += len;
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while( len++ < 0 )
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__pformat_putc( '0', stream );
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do __pformat_putc( '0', stream );
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while( ++len < 0 );
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}
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/* Now we emit any remaining significant digits, or trailing zeroes,
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/* Now we emit any remaining significant digits, or trailing zeros,
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* until the required precision has been achieved.
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*/
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while( stream->precision-- > 0 )
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@ -1340,12 +1341,12 @@ void __pformat_gfloat( long double x, __pformat_t *stream )
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/* The `#' flag is not in effect...
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* Here we adjust the precision to accommodate all digits which
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* precede the radix point, but we truncate any balance following
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* it, to suppress output of non-significant trailing zeroes...
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* it, to suppress output of non-significant trailing zeros...
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*/
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if( ((stream->precision = strlen( value ) - intlen) < 0)
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/*
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* This may require a compensating adjustment to the field
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* width, to accommodate significant trailing zeroes, which
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* width, to accommodate significant trailing zeros, which
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* precede the radix point...
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*/
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&& (stream->width > 0) )
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@ -1375,7 +1376,7 @@ void __pformat_gfloat( long double x, __pformat_t *stream )
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* The `#' flag is in effect...
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* Adjust precision to emit the specified number of significant
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* digits, with one preceding the radix point, and the balance
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* following it, retaining any non-significant trailing zeroes
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* following it, retaining any non-significant trailing zeros
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* which are required to exactly match the requested precision...
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*/
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stream->precision--;
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@ -1384,7 +1385,7 @@ void __pformat_gfloat( long double x, __pformat_t *stream )
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/* The `#' flag is not in effect...
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* Adjust precision to emit only significant digits, with one
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* preceding the radix point, and any others following it, but
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* suppressing non-significant trailing zeroes...
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* suppressing non-significant trailing zeros...
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*/
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stream->precision = strlen( value ) - 1;
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@ -1516,7 +1517,7 @@ void __pformat_emit_xfloat( __pformat_fpreg_t value, __pformat_t *stream )
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if( (c > 0) || (p > buf) || (stream->precision >= 0) )
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/*
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* Ignoring insignificant trailing zeroes, (unless required to
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* Ignoring insignificant trailing zeros, (unless required to
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* satisfy specified precision), store the current encoded digit
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* into the pending output buffer, in LIFO order, and using the
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* appropriate case for digits in the `A'..`F' range.
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@ -1637,7 +1638,7 @@ void __pformat_emit_xfloat( __pformat_fpreg_t value, __pformat_t *stream )
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while( p > buf )
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__pformat_emit_numeric_value( *--p, stream );
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/* followed by any additional zeroes needed to satisfy the
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/* followed by any additional zeros needed to satisfy the
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* precision specification...
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*/
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while( stream->precision-- > 0 )
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@ -2433,7 +2434,7 @@ int __pformat( int flags, void *dest, int max, const char *fmt, va_list argv )
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case '0':
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/*
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* May represent a flag, to activate the `pad with zeroes'
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* May represent a flag, to activate the `pad with zeros'
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* option, or it may simply be a digit in a width or in a
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* precision specification...
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*/
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