I'll admit to not knowing Android's Java, but can't you just change the color from #6A8F6509 to #FF8F6509? The in most modern programming languages, color is typically encoded as ##AARRGGBB.
AA = Hex of the Alpha, ranging from 0 (hex 00), full transparent, to 255 (hex FF), no transparency.
RR = Hex of the red part of the color. Similar to above, 0 is no red, 255 is full red.
GG = Hex of green.
BB = Hex of blue.
Based on your update, you can do this to get the color:
For each of the red, green, and blue:
get the difference between the transparent color and the background color and multiply that by the alpha value. Divide that by 255 (hex FF, if you prefer). Finally, add that number to the transparent color's value.
In your case:
int transparentR = 0x8F;
int transparentG = 0x65;
int transparentB = 0x09;
int backgroundR = 0xFF;
int backgroundG = 0xFF;
int backgroundB = 0xFF;
int alpha = 0x6A;
int newR = transparentR + ( ( (backgroundR - transparentR) * alpha ) / 255 );
int newG = transparentR + ( ( (backgroundG - transparentG) * alpha ) / 255 );
int newB = transparentR + ( ( (backgroundB - transparentB) * alpha ) / 255 );
Ok, I've redone the formula based on LJ2's answer using Wikipedia's Alpha Blending function. and had a colleague confirm this with Paint.Net. This is the version where the background Color is fully opaque, and it's in C#, sorry:
int transparentColor2(int intFgColor, int intBgColor, int intAlpha)
double dAlpha = (Convert.ToDouble(intAlpha)/255.0);
double dFirst = Convert.ToDouble(intFgColor) * dAlpha;
double dSecond = Convert.ToDouble(intBgColor) * (1 - dAlpha);
return Convert.ToInt32(dFirst + dSecond);
do this for each R, G, and B value, and you should get the right answer. Incase Android's Java has different, double could be Double/Single/Float, and int could be Int32/Int16/Int64/Byte. I don't remember how to Convert between the two in Java, unfortunately.