precision = 1; formatToken.setPrecision(precision); formatToken.setPrecision(precision); transformF(result); return; precision = formatToken.getPrecision(); precision--; formatToken.setPrecision(precision); transformE(result); return; precision++; formatToken.setPrecision(precision); formatToken.setPrecision(precision); precision = formatToken.getPrecision(); precision--; formatToken.setPrecision(precision); transformE(result); } else {
private CharSequence transformFromSpecialNumber(double d) { String source = null; if (Double.isNaN(d)) { source = "NaN"; } else if (d == Double.POSITIVE_INFINITY) { if (formatToken.flagPlus) { source = "+Infinity"; } else if (formatToken.flagSpace) { source = " Infinity"; } else { source = "Infinity"; } } else if (d == Double.NEGATIVE_INFINITY) { if (formatToken.flagParenthesis) { source = "(Infinity)"; } else { source = "-Infinity"; } } else { return null; } formatToken.setPrecision(FormatToken.UNSET); formatToken.flagZero = false; return padding(source, 0); }
formatToken.setPrecision(FormatToken.DEFAULT_PRECISION); formatToken.setPrecision(FormatToken.UNSET);
formatToken.setPrecision(FormatToken.DEFAULT_PRECISION); formatToken.setPrecision(FormatToken.UNSET);
precision = 1; formatToken.setPrecision(precision); formatToken.setPrecision(precision); transformF(result); return; precision = formatToken.getPrecision(); precision--; formatToken.setPrecision(precision); transformE(result); return; precision++; formatToken.setPrecision(precision); formatToken.setPrecision(precision); precision = formatToken.getPrecision(); precision--; formatToken.setPrecision(precision); transformE(result); } else {
formatToken.setPrecision(FormatToken.DEFAULT_PRECISION); formatToken.setPrecision(FormatToken.UNSET);
precision = 1; formatToken.setPrecision(precision); formatToken.setPrecision(precision); transformF(result); return; precision = formatToken.getPrecision(); precision--; formatToken.setPrecision(precision); transformE(result); return; precision++; formatToken.setPrecision(precision); formatToken.setPrecision(precision); precision = formatToken.getPrecision(); precision--; formatToken.setPrecision(precision); transformE(result); } else {
private CharSequence transformFromSpecialNumber(double d) { String source = null; if (Double.isNaN(d)) { source = "NaN"; } else if (d == Double.POSITIVE_INFINITY) { if (formatToken.flagPlus) { source = "+Infinity"; } else if (formatToken.flagSpace) { source = " Infinity"; } else { source = "Infinity"; } } else if (d == Double.NEGATIVE_INFINITY) { if (formatToken.flagParenthesis) { source = "(Infinity)"; } else { source = "-Infinity"; } } else { return null; } formatToken.setPrecision(FormatToken.UNSET); formatToken.flagZero = false; return padding(source, 0); }
private CharSequence transformFromSpecialNumber(double d) { String source = null; if (Double.isNaN(d)) { source = "NaN"; } else if (d == Double.POSITIVE_INFINITY) { if (formatToken.flagPlus) { source = "+Infinity"; } else if (formatToken.flagSpace) { source = " Infinity"; } else { source = "Infinity"; } } else if (d == Double.NEGATIVE_INFINITY) { if (formatToken.flagParenthesis) { source = "(Infinity)"; } else { source = "-Infinity"; } } else { return null; } formatToken.setPrecision(FormatToken.UNSET); formatToken.flagZero = false; return padding(source, 0); }
private CharSequence transformFromSpecialNumber(double d) { String source = null; if (Double.isNaN(d)) { source = "NaN"; } else if (d == Double.POSITIVE_INFINITY) { if (formatToken.flagPlus) { source = "+Infinity"; } else if (formatToken.flagSpace) { source = " Infinity"; } else { source = "Infinity"; } } else if (d == Double.NEGATIVE_INFINITY) { if (formatToken.flagParenthesis) { source = "(Infinity)"; } else { source = "-Infinity"; } } else { return null; } formatToken.setPrecision(FormatToken.UNSET); formatToken.flagZero = false; return padding(source, 0); }
private CharSequence transformFromSpecialNumber(double d) { String source = null; if (Double.isNaN(d)) { source = "NaN"; } else if (d == Double.POSITIVE_INFINITY) { if (formatToken.flagPlus) { source = "+Infinity"; } else if (formatToken.flagSpace) { source = " Infinity"; } else { source = "Infinity"; } } else if (d == Double.NEGATIVE_INFINITY) { if (formatToken.flagParenthesis) { source = "(Infinity)"; } else { source = "-Infinity"; } } else { return null; } formatToken.setPrecision(FormatToken.UNSET); formatToken.flagZero = false; return padding(source, 0); }
private CharSequence transformFromSpecialNumber(double d) { String source = null; if (Double.isNaN(d)) { source = "NaN"; } else if (d == Double.POSITIVE_INFINITY) { if (formatToken.flagPlus) { source = "+Infinity"; } else if (formatToken.flagSpace) { source = " Infinity"; } else { source = "Infinity"; } } else if (d == Double.NEGATIVE_INFINITY) { if (formatToken.flagParenthesis) { source = "(Infinity)"; } else { source = "-Infinity"; } } else { return null; } formatToken.setPrecision(FormatToken.UNSET); formatToken.flagZero = false; return padding(source, 0); }
private CharSequence transformFromSpecialNumber(double d) { String source = null; if (Double.isNaN(d)) { source = "NaN"; } else if (d == Double.POSITIVE_INFINITY) { if (formatToken.flagPlus) { source = "+Infinity"; } else if (formatToken.flagSpace) { source = " Infinity"; } else { source = "Infinity"; } } else if (d == Double.NEGATIVE_INFINITY) { if (formatToken.flagParenthesis) { source = "(Infinity)"; } else { source = "-Infinity"; } } else { return null; } formatToken.setPrecision(FormatToken.UNSET); formatToken.flagZero = false; return padding(source, 0); }
private FormatToken parsePrecision(FormatToken token) { advance(); // Swallow the '.'. int ch = peek(); if (Character.isDigit(ch)) { token.setPrecision(nextInt()); return parseConversionType(token); } else { // The precision is required but not given by the format string. throw unknownFormatConversionException(); } }
private FormatToken parsePrecision(FormatToken token) { advance(); // Swallow the '.'. int ch = peek(); if (Character.isDigit(ch)) { token.setPrecision(nextInt()); return parseConversionType(token); } else { // The precision is required but not given by the format string. throw unknownFormatConversionException(); } }
private FormatToken parsePrecision(FormatToken token) { advance(); // Swallow the '.'. int ch = peek(); if (Character.isDigit(ch)) { token.setPrecision(nextInt()); return parseConversionType(token); } else { // The precision is required but not given by the format string. throw unknownFormatConversionException(); } }
private FormatToken parsePrecision(FormatToken token) { advance(); // Swallow the '.'. int ch = peek(); if (Character.isDigit(ch)) { token.setPrecision(nextInt()); return parseConversionType(token); } else { // The precision is required but not given by the format string. throw unknownFormatConversionException(); } }
private FormatToken parsePrecision(FormatToken token) { advance(); // Swallow the '.'. int ch = peek(); if (Character.isDigit(ch)) { token.setPrecision(nextInt()); return parseConversionType(token); } else { // The precision is required but not given by the format string. throw unknownFormatConversionException(); } }
private FormatToken parsePrecision(FormatToken token) { advance(); // Swallow the '.'. int ch = peek(); if (Character.isDigit(ch)) { token.setPrecision(nextInt()); return parseConversionType(token); } else { // The precision is required but not given by the format string. throw unknownFormatConversionException(); } }
private FormatToken parsePrecision(FormatToken token) { advance(); // Swallow the '.'. int ch = peek(); if (Character.isDigit(ch)) { token.setPrecision(nextInt()); return parseConversionType(token); } else { // The precision is required but not given by the format string. throw unknownFormatConversionException(); } }