I went through this nightmare years ago too and I know a lot about all this stuff now. I figured I should pitch in and provide some answers.
1) You can not assume that 'loca' is following the 'cmap'. The order can vary by font. The location of each block is defined by the OffsetTable which begins generally at byte 0 of the font file. (http://www.microsoft.com/typography/otspec/otff.htm)
2) You can not assume that "cmap header encoding id is 0, at least in TTF format 4" means symbol fonts. I know for a fact that certain old arabic fonts also use that encoding. To this date, I still do not know how to differentiate them. Windows does it but I do not know how. I do not know how to know for sure that a font is a symbol font. Even checking the OS/2 table for the code page bit 32 isn't enough in many case.
3) You can not simply use the magic 0xF000 number and add it to your small 0-255 number to get the character that will give you the glyph mapping you are going for. That is because those small 0 to 255 "ASCII" code will vary depending on your system locale.
Symbol font are specials in the way that windows processes them.
Unlike normal font where the mapping between glyphs and character is static, symbol fonts mapping varies based on the system default code page for non-unicode application aka CP_ACP.
For example, Pretend your symbol font have this glyph : '%'. If your system is using CP 1252 by default, then to render this glyph you, for example, have to render the character value '0xC2'.
If your system is using CP 1251 by default, then to render this glyph you, for example, have to render the character value '0x416' which is entirely different.
Said otherwise, the font's unicode ranges varies based on the default non-unicode code page!
After investigation, we discovered that the valid character value for fonts are the values obtained by converting 0 through 255 are if they were CP_ACP value to unicode.
What does this mean? This means that you want to use MultiByteToWideChar with CP_ACP to get the mapping from values 0 to 255 to their localized unicode value based on your system locale (CP_ACP).
So, doing that will give you a map like :
ASCII -> localized non-static UNICODE
0x00 -> 0x00
0x01 -> 0x01
0x02 -> 0x02
0xC2 -> 0x416 <----- This is correct : the value will be different in some cases.
0xE3 -> 0xE3
The 0xF000 to 0xF0FF values are the static UNICODE values : they never change.
So to get the glyph ID for a "localized non-static UNICODE", you first use your map above to find the corresponding ASCII value and then you add 0xF000 to that and then you get the glyph id for that.
Of course, non of this non-sense is documented by MS... or I could never find it.