/Home All your user data should be placed in here to ease backing-up your data. When you install an application it will create a subdirectory of your /Home directory for storage. /Apps Applications are placed in subdirectories of /Apps. Applications should have a file called Install.HC.Z which will install the app, possibly making files or directories in /Home. The file, Load.HC.Z will load the application into mem. The file, Run.HC.Z, will usually load and execute the app. To add an app to your PersonalMenu, use <CTRL-l>, insert a macro with the PopUp option checked and invoke the Run.HC.Z file. /Demo Here you can find lots of sample code to do various things. /Doc Here you can find documentation. /Kernel The core of the operating system is found here. Since priviledge levels are not used, calling it a kernel is deceptive. It is AOT compiled by BootHDIns(). It is loaded by the boot loader and must fit in 640K. /Compiler The compiler module src code is found here. The compiler is AOT compiled to produce a binary file which is loaded at boot. It, too, is AOT compiled by BootHDIns(). /Adam The non-kernel part of the operating system is found here. It is JIT compiled during boot. The Adam Task is the father of all tasks, like Adam and Eve. /0000Boot Boot files go here. Stage 2 of the TempleOS hard drive master boot loader, the old hard drive master boot record which is just blk#0, and the CD/DVD 0000Kernel.BIN.C file go here. ASCII 0000 is near the top, alphabetically, in case you use MagicISO.
Directory Structure The home dir is specified with '~'. The home dir is ::/Home unless you change it with HomeSet() or compile the kernel with a cfg option. An empty /Home dir should be valid because it will get default files from the root dir. ~/PersonalMenu.DD a menu viewed with the <CTRL-m> key or by clicking "MENU" in the upper left border area of a window. ~/PersonalNotes.DD a personal note file viewed with the <CTRL-SHIFT-M> key. ~/MakeHome.HC a file compiled by the Adam Task during StartOS. ~/Home* Copy Home* files from the root into ~ and customize them. These files are invoked when the Adam Task starts-up. ~/Once.HC a file invoked at the start-up of the first user. Customize this! ~/Registry.HC can be edited by hand or deleted to reset to defaults. Takes affect next boot.
::/Home Files * Place applications in their own /Apps subdirectory. * Make a file called Load.HC.Z to load the application. * Make a file called Run.HC.Z to load and run the application, preferable by #in cludeing the Load.HC.Z file. * Place user data in a subdirectory of /Home, preferably naming the subdirectory the same as the /Apps subdirectory. Or, place data in the Registry.HC.Z file. See ::/Demo/RegistryDemo.HC. * If the app needs files in the /Home directory, make an /Apps file called Insta ll.HC.Z or Install.IN.Z to create the /Home subdirectory.
Application Policies * Virtual mem/Paging is not used -- it is identity mapped in x86_64 mode. The stk does not grow, so alloc enough when the task (process) is Spawned and use the heap for most things. (The heap refers to MAlloc() and Free().) * You can Free(NULL). * See Naming Convention and Abbreviations. * There are two modes of compiling, AOT Compile Mode and JIT Compile Mode. Compilation is done in both -- neither is "interpreted". Use JIT Mode. * HolyC * Use I64 instead of smaller int sizes because the compiler converts everything to 64-bit. Don't use unsigned unless it actually breaks. A policy of signed keeps it simple so you don't have to agonize over choices. U32 DistDist(U16 x1, U16 y1, U16 x2, U16 y2) {//This requires zero-extend when fetching args. return SqrI64(x1-x2)+SqrI64(y1-y2); } I64 DistDist(I64 x1, I64 y1, I64 x2, I64 y2) { return SqrI64(x1-x2)+SqrI64(y1-y2); } * In-order, short circuit logic is assumed. * Avoid boolean expression assignments. Boolean assignments don't have short circuit logic and are not compiled efficiently. The Bool type is just an alias for a 1 byte signed int -- nothing forces it to 1 or 0. There is a ToBool() function that will for to 1 ot 0, however. * Glbl vars in AOT BIN modules are initialized to zero. They occupy space in BIN files. * Bracketing code with PUSHFD CLI and POPFD will protect against simultaneous accesses from tasks on one core. To protect against multiple cores, you need a locked semaphore. I think semiphores need to be in their own cache line, but I'm not sure. I use lock bits in a lot of places not aligned. * SysDbg() and IsSysDbg() are really handy when working on the compiler or kernel. It's just a bit you can set and test. * I don't use U0 * because the size is zero for ptr arithmetic. * Use CH_SHIFT_SPACE for spaces in quotes in source code because I run Spaces-to-Tabs on source code. * Do not use #if or #ifdef
Programming Guidelines * See ::/Adam/AHash.HC for examples of how the hash tables are set-up. Basically, syms are placed into hash tables and child process hash tables are chained to parents. This provides scopes for vars and functions. * adam_task->hash_table holds the HolyC syms loaded in on start-up. * Fs->hash_table holds user HolyC syms and if a sym is not found, it checks parents. When a duplicate sym is added to the table, it overshadows the prev sym. When developing software, typically you include the file at the cmd prompt, make changes and reinclude it. Old syms are overshadowed but they are still there. Periodically, kill the TASK and start fresh when mem is low. If you wish your applications to free themselves instead of staying in mem, spawn or PopUp() a task to run the application and kill it when it's done. * To display the contents of a hash table, use the Who() routine or the varients. HashDepthRep() gives a histogram of how long the chains are, in case you wish to make hash table sizes bigger.
Hash Sym Tables See ::/Doc/Asm.DD. * FS must always point to the cur CTask. * GS must always point to the cur CCPU. * Don't change the segment regs unless interrupts are off. It's hard to do, anyway. SET_FS_BASE and SET_GS_BASE. * When interacting with HolyC compiled code, preserve RBP, RSI, RDI, R10-R15 because the compiler uses these for reg vars. You are free to clobber RAX, RBX, RCX, RDX, R8 and R9. See Compiler Reg Masks, PUSH_C_REGS and POP_C_REGS * I recommend using the standard stk frame for functions because Caller() is used to display the call stk, such as for the wallpaper. PUSH RBP MOV RBP,RSP SUB RSP,nnnn ... LEAVE RET * The args are removed from the stack with RET1 stmts. RET1 16 //remove two args * No args are passed in regs. * RAX holds function return values, of course. * "MagicISO" is a trademark owned by MagicISO Corp.
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