# Trying to understand DecimalFormat scientific notation formatting

I noticed some behaviour with Java's DecimalFormat class that I don't quite understand. Specifically to do with the decimal point in scientific notation.

Refer to this test program (I'm still on Java 6 btw):

import java.text.DecimalFormat;

public class DecimalFormatTest {
public static void main(String[] args) {
System.out.println(formatValue("##0.0E0", 34627.2));   // (A) 34.63E3
System.out.println(formatValue("##0.00E0", 346272.2)); // (B) 346.3E3
System.out.println(formatValue("##0.0E0", 300000));    // (C) 300E3
}

private static String formatValue(String pattern, double value) {
DecimalFormat decimalFormat = new DecimalFormat(pattern);
return decimalFormat.format(value);
}
}

Questions:

(1) Why does (A) have 2 digits after the decimal point when my pattern is asking for a single digit?

With a similar pattern ("##0.0E+0") and the same value, Excel produces the expected "34.6E+3".

I can get DecimalFormat to produce the same output if I do decimalFormat.setMaximumFractionDigits(0), which confuses me even more.

Contrast this with (B), which has 346272.2 as its input instead of 34627.2, and this one produces the expected number of fractional digits.

(2) For (C), why did the single digit after the decimal point in my pattern get ignored?

Why is the output not "300.0E3" instead? This is what Excel produces.

I'm half-suspecting that the answer to this is similar to question 1.

(3) Lastly, an optional bonus question, does anyone know if there's a formatter/tool that more faithfully matches the functionality of Excel's TEXT() function?

I'm hoping to find a way to mimic that behaviour, or get as close as possible, without having to write my own formatter.