a collection of tools and code (with a very presumptuous name) for SEGA Master System / SEGA Game Gear / SEGA SG-1000 / SEGA SC-3000 homebrew development using 'C' language (and the SDCC compiler).

• download SDCC - version 4.2.0 or newer required
• install it ("include files" and "Z80 library" are the only components required, you shouldn't need anything else)
• read its manual
• make sure that your installation works - details are at page 20 of the PDF manual
• place ihx2sms(.exe) and makesms(.exe) from this package into your SDCC bin folder (if you're on Linux or on Windows, both programs are supplied in the Linux or Windows folders, otherwise you can compile ihx2sms and makesms youself from the provided sources)
• place assets2banks.exe (and/or the legacy folder2c(.exe) tool) from this package into your SDCC bin folder (both are optional as you can use other tools to convert your data assets. If you're not on Linux or Windows please compile folder2c.c yourself from the sources. assets2banks.py python source is also provided for Linux users and for those using a Python interpreter)
• for SMS/GG: place crt0_sms.rel from this package in a crt0 folder in your projects root (or directly into your project folder if you prefer doing so)
• for SMS: place SMSlib.h in a SMSlib folder in your projects root (or directly into your project folder if you prefer doing so) and SMSlib.lib in SDCC lib/z80 folder
• for GG: place SMSlib.h in a SMSlib folder in your projects root (or directly into your project folder if you prefer doing so) and SMSlib_GG.lib in SDCC lib/z80 folder
• for SG-1000/SC-3000: place crt0_sg.rel from this package in a crt0 folder in your projects root (or directly into your project folder if you prefer doing so)
• for SG-1000/SC-3000: place SGlib.h and SGlib.rel in a SGlib folder in your projects root (or directly into your project folder if you prefer doing so)
• (optional) if you plan to use PSG music/SFX, place PSGlib.h and PSGlib.rel in a PSGlib folder in your projects root (or directly into your project folder if you prefer doing so)
• (optional) if you plan to use MoonBlaster modules for FM music, place MBMlib.h and MBMlib.rel in a MBMlib folder in your projects root (or directly into your project folder if you prefer doing so)

• include SMSlib.h in your sources
• compile your program:

  sdcc -c -mz80 --peep-file peep-rules.txt your_program.c

• link your program with crt0_sms.rel and the library:

  sdcc -o your_program.ihx -mz80 --no-std-crt0 --data-loc 0xC000 crt0_sms.rel your_program.rel SMSlib.lib

note that you should put crt0_sms.rel first, and you should put the library after your code.

• include SGlib.h in your sources
• compile your program:

  sdcc -c -mz80 your_program.c

• link your program with crt0_sg.rel and SGlib.rel (a.k.a. "the SG library"):

  sdcc -o your_program.ihx -mz80 --no-std-crt0 --data-loc 0xC000 crt0_sg.rel your_program.rel SGlib.rel

note that you should put crt0_sg.rel first, and you should put SGlib.rel after your code.

• include PSGlib.h in your sources
• compile your program

  sdcc -c -mz80 your_program.c

• link your program with proper crt0 and libraries, adding PSGlib.rel too after the proper library:

  sdcc -o your_program.ihx -mz80 --no-std-crt0 --data-loc 0xC000 crt0_sms.rel your_program.rel SMSlib.lib PSGlib.rel

• use the assets2banks utility included, for example. This is the suggested way. Read its documentation

• alternatively, you use the folder2c utility included It creates a .c source file (with its .h header file) containing one constant data array for each single file found in the specified dir:

  folder2c assets data [<ROM bank #>]

this creates data.c and data.h from the files found inside assets subfolder. Each array will be named from the original filename, replacing spaces, periods and brackets with an underscore (it doesn't convert any other char so please use only alphanumeric chars). For each array there will be a #define into the .h file specifying the size in bytes, and it'll be called [arrayname]_size. If a numerical third parameter is specified (it's optional), its value will be used in the .h file for an additional #define called [arrayname]_bank for each asset.

• in your program, use the SMSlib provided SMS_mapROMBank(n) macro to map the bank you need (your code should be restrained to the first 32KB as the last 16KB will be paged out)
• put your data into a separate .c file for each 16KB ROM bank starting from bank2, for example bank2.c, bank3.c etc... (you can use the assets2banks and folder2c tools described above) compiling each one with a different CONST segment name, I suggest using BANK# for descriptiveness:

  sdcc -c -mz80 --constseg BANK2 bank2.c
  sdcc -c -mz80 --constseg BANK3 bank3.c

• compile your program:

  sdcc -c -mz80 --peep-file peep-rules.txt your_program.c

• link all the objects together adding a parameter for the linker for each bank (_BANK#) and adding each .rel file to be linked (proper crt0 file goes always first) then all the bank#.rel files last, in ascending order:

  sdcc -o your_program.ihx -mz80 --no-std-crt0 --data-loc 0xC000 -Wl-b_BANK2=0x8000 -Wl-b_BANK3=0x8000 crt0_sms.rel your_program.rel SMSlib.lib bank2.rel bank3.rel

• use the ihx2sms utility included. Input file is the ihx generated by SDCC linker, the output file is the generated ROM:

  ihx2sms your_program.ihx your_program.sms

The size of the ROM will be a multiple of 16KB. The utility also calculates the ROM checksum for the output file if the SEGA header has been included in your program.

SDCC 4.x supports banked code and this means that it's now possible to page in and out code in a transparent manner. To achieve this, banked code should be written in separate source files that have to get allocated in separate code banks. Upon calling a banked function the code will trigger a slot-1 bank change (using trampolines that are 'hidden' in bank 0 code) and will restore the previous bank upon returning from called function. This means that only code in bank 0 won't ever be paged out, but that means that total code won't be restricted to the 32 KiB maximum size.

You need to:

• put banked code in separate source files, marking banked functions as such using the __banked SDCC keyword, as in

void some_function (void) __banked {
  //  your code here 
}

• compile each banked code source file into a specific separate code segment, for instance as in:

  sdcc -c -mz80 --codeseg BANK1 banked_code_1.c
  sdcc -c -mz80 --codeseg BANK2 banked_code_2.c

• use the provided crt0_sms.rel as the first module in your linker call
• instruct the linker to place all the banked code at address 0x4000 + the virtual address of the bank, which is banknumber×2¹⁶ (so code segment BANK1 goes at 0x14000, code segment BANK2 goes at 0x24000 and so on...) and the compiled banked code modules in ascending order as in:

  sdcc -o your_program.ihx -mz80 --no-std-crt0 --data-loc 0xC000 -Wl-b_BANK1=0x14000 -Wl-b_BANK2=0x24000 crt0_sms.rel SMSlib.lib main.rel banked_code_1.rel banked_code_2.rel

• use the newer makesms tool to convert the ihx output to the sms file instead of the ihx2sms tool, as this works in a different way. Usage is very similar:

  makesms your_program.ihx your_program.sms