public void writeDouble(double v) { _out.writeDouble(v); _size += 8; } public void writeInt(int v) {
public void serialize(LittleEndianOutput out) { out.writeDouble(field_1_margin); }
public void serialize(LittleEndianOutput out) { out.writeDouble(field_1_margin); }
public void serialize(LittleEndianOutput out) { out.writeDouble(field_1_margin); }
public void serialize(LittleEndianOutput out) { out.writeDouble(field_1_margin); }
public void serialize(LittleEndianOutput out) { out.writeDouble(field_1_minimumAxisValue); out.writeDouble(field_2_maximumAxisValue); out.writeDouble(field_3_majorIncrement); out.writeDouble(field_4_minorIncrement); out.writeDouble(field_5_categoryAxisCross); out.writeShort(field_6_options); }
public void serialize(LittleEndianOutput out) { super.serialize(out); out.writeDouble(position); } }
@Override protected void serializeValue(LittleEndianOutput out) { out.writeDouble(getValue()); }
public void serialize(LittleEndianOutput out) { out.writeDouble(getMaxChange()); }
public void write(LittleEndianOutput out) { out.writeByte(sid + getPtgClass()); out.writeDouble(getValue()); }
public void serialize(LittleEndianOutput out) { out.writeByte(type); if (formula.getTokens().length == 0) { out.writeShort(0); } else { formula.serialize(out); } if (value != null) { out.writeDouble(value); } } }
@Override protected void serializeValue(LittleEndianOutput out) { if (specialCachedValue == null) { out.writeDouble(field_4_value); } else { specialCachedValue.serialize(out); } out.writeShort(getOptions()); out.writeInt(field_6_zero); // may as well write original data back so as to minimise differences from original field_8_parsed_expr.serialize(out); }
public void serialize(LittleEndianOutput out) { out.writeInt(type); if (type == TYPE_INDEXED) { out.writeInt(colorIndex); } else if (type == TYPE_RGB) { out.write(rgba); } else if (type == TYPE_THEMED) { out.writeInt(themeIndex); } else { out.writeInt(0); } out.writeDouble(tint); } }
Double dVal = (Double) value; out.writeByte(TYPE_NUMBER); out.writeDouble(dVal.doubleValue()); return;
public void serialize(LittleEndianOutput out) { out.writeShort(0); out.writeByte(0); out.writeByte(thresholds.length); out.writeByte(thresholds.length); out.writeByte(options); for (ColorGradientThreshold t : thresholds) { t.serialize(out); } double step = 1d / (colors.length-1); for (int i=0; i<colors.length; i++) { out.writeDouble(i*step); ExtendedColor c = colors[i]; c.serialize(out); } } }
public void serialize(LittleEndianOutput out) { out.writeShort(getPaperSize()); out.writeShort(getScale()); out.writeShort(getPageStart()); out.writeShort(getFitWidth()); out.writeShort(getFitHeight()); out.writeShort(getOptions()); out.writeShort(getHResolution()); out.writeShort(getVResolution()); out.writeDouble(getHeaderMargin()); out.writeDouble(getFooterMargin()); out.writeShort(getCopies()); }
public void writeDouble(double v) { _out.writeDouble(v); _size += 8; } public void writeInt(int v) {
public void writeDouble(double v) { _out.writeDouble(v); _size += 8; } public void writeInt(int v) {
public void serialize(LittleEndianOutput out) { out.writeDouble(field_1_minimumAxisValue); out.writeDouble(field_2_maximumAxisValue); out.writeDouble(field_3_majorIncrement); out.writeDouble(field_4_minorIncrement); out.writeDouble(field_5_categoryAxisCross); out.writeShort(field_6_options); }
@Override protected void serializeValue(LittleEndianOutput out) { if (specialCachedValue == null) { out.writeDouble(field_4_value); } else { specialCachedValue.serialize(out); } out.writeShort(getOptions()); out.writeInt(field_6_zero); // may as well write original data back so as to minimise differences from original field_8_parsed_expr.serialize(out); }