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2023-11-03Made test.asm an example asm programAryadev Chavali
2023-11-02Added comments to test.asmAryadev Chavali
2023-11-02Update spec footnotesAryadev Chavali
2023-11-02Updated LOC in READMEAryadev Chavali
2023-11-02Started working on a spec, still needs a lot of workAryadev Chavali
2023-11-02Added recipes to assemble or interpret individuallyAryadev Chavali
2023-11-02Implemented a routine which prints out a buffer of characters and use itAryadev Chavali
All in my assembly/virtual machine!
2023-11-02Better logs for assemblerAryadev Chavali
2023-11-02Implemented CALL(_STACK) and RET on the assemblerAryadev Chavali
2023-11-02Made lexer more error prone so parser is lessAryadev Chavali
Lexer now will straight away attempt to eat up any type or later portions of an opcode rather than leaving everything but the root. This means checking for type in the parser is a direct check against the name rather than prefixed with a dot. Checks are a bit more strong to cause more tokens to go straight to symbol rather than getting checked after one routine in at on the parser side.
2023-11-02Fixed bug where deleting a page meant not being able to allocate anotherAryadev Chavali
This was due to the beg or end page being not set correctly (dangling pointer).
2023-11-02Added memory leak dialog in vm_stopAryadev Chavali
Stack, call stack and heap are evaluated to check for leaks.
2023-11-02Implemented subroutine instructions in runtimeAryadev Chavali
Very easy overall, printing the call stack not so much.
2023-11-02Introduced instructions to engage with a call stackAryadev Chavali
Essentially you may "call" an absolute program address, which pushes the current address onto the call stack. CALL_STACK does the same thing but the absolute program address is taken from the data stack. RET pops an address off the call stack then jumps to that address.
2023-11-02Made separate tokens for JUMP_ABS and JUMP_STACKAryadev Chavali
Makes more sense, don't need to fiddle around with strings as much in the parser due to this!
2023-11-02Updated instruction-test example for removal of jump.registerAryadev Chavali
2023-11-02Removed instruction OP_JUMP_REGISTERAryadev Chavali
Not necessary when you can just push the relevant word onto the stack then just do OP_JUMP_STACK.
2023-11-02Small fixesAryadev Chavali
2023-11-02Created a preprocessing unit presult_t and a function to process themAryadev Chavali
Essentially a presult_t contains one of these: 1) A label construction, which stores the label symbol into `label` (PRES_LABEL) 2) An instruction that calls upon a label, storing the instruction in `instruction` and the label name in `label` (PRES_LABEL_ADDRESS) 3) An instruction that uses a relative address offset, storing the instruction in `instruction` and the offset wanted into `relative_address` (PRES_RELATIVE_ADDRESS) 4) An instruction that requires no further processing, storing the instruction into `instruction` (PRES_COMPLETE_INSTRUCTION) In the processing stage, we resolve all calls by iterating one by one and maintaining an absolute instruction address. Pretty nice, lots more machinery involved in parsing now.
2023-11-02Started work on preprocessing jump addressesAryadev Chavali
2023-11-02Added a TODO file for tasksAryadev Chavali
2023-11-01A small program I am currently working on: reverses an allocated buffer of ↵Aryadev Chavali
bytes, returning a new set
2023-11-01Added MALLOC_STACK and SUB to instruction-test exampleAryadev Chavali
2023-11-01Implemented MALLOC_STACK and SUB in the assemblerAryadev Chavali
2023-11-01Implemented OP_MALLOC_STACK and OP_SUB in the runtimeAryadev Chavali
2023-11-01Added instructions for MALLOC_STACK and SUBAryadev Chavali
MALLOC_STACK is a stack based version of MALLOC, SUB does subtraction.
2023-11-01Fixed issue where sometimes vm_print_registers wouldn't work for bytesAryadev Chavali
Happened because we weren't printing all relevant words due to naturally flooring the result of division. Here I ceil the division to ensure we get the maximal number of words necessary.
2023-11-01Updated instruction-test example file for new memory management instructionsAryadev Chavali
2023-11-01Implemented stack versions of MGET and MSET in assemblerAryadev Chavali
2023-11-01Added todos to rename the constructive macros in runtime.cAryadev Chavali
2023-11-01Implemented MGET_STACK and MSET_STACK in the runtimeAryadev Chavali
Very easy, they just pop a word then defer to their normal versions. This is probably the best case where a macro works directly so I didn't even need to write a function form for them first. One thing is that then names for the macros are quite bad right now, probably need renaming.
2023-11-01Added stack based versions of MSET and MGETAryadev Chavali
Essentially they use the stack for their one and only operand. This allows user level control, in particular it allows for loops to work correctly while using these operands.
2023-11-01Implemented OP_MSIZE into lexer/parser of ASMAryadev Chavali
2023-11-01Implemented OP_MSIZE in the VM runtimeAryadev Chavali
2023-11-01Added instruction to get the size of some allocationAryadev Chavali
This will allow for more library level code to be written. For example, say you wanted to write a generic byte level reversal algorithm for dynamically sized allocations. Getting the size of the allocation would be fundamental to this operation.
2023-11-01Implemented lexer and parser for new memory management instructionsAryadev Chavali
2023-11-01Added a print_heap mechanism into vmAryadev Chavali
Pretty simple implementation, nothing massive. In VERBOSE mode, heap is tracked for any allocations/deletions, printing it if so.
2023-11-01Implemented instructions in the runtime for memory managementAryadev Chavali
Pretty simple, required some new types of errors. Obviously there's space for a macro for the differing instruction implementations, but these things need to be tested a bit more before I can do that.
2023-11-01Added instructions for allocating, setting, getting and deleting heap memoryAryadev Chavali
One may allocate any number of (bytes|hwords|words), set or get some index from allocated memory, and delete heap memory. The idea is that all the relevant datums will be on the stack, so no register usage. This means no instructions should use register space at all (other than POP, which I'm debating about currently). Register space is purely for users.
2023-11-01DUP implementation is now part of WORD_ROUTINESAryadev Chavali
As PUSH_REGISTER and MOV have the same signature of taking a word as input, DUP may as well be part of it. This leads to a larger discussion about how signatures of functions matter: I may need to do a cleanup at some point.
2023-11-01heap_free_page returns true if page was successfully deletedAryadev Chavali
2023-11-01Heap now maintains a new page per allocationAryadev Chavali
Instead of having each page be an area of memory, where multiple pointers to differing data may lie, we instead have each page being one allocation. This ensures that a deletion algorithm, as provided, would actually work without destroying older pointers which may have been allocated. Great!
2023-11-01VM runtime now maintains a heap internallyAryadev Chavali
Now need to create some instructions which manage the heap
2023-11-01Added an arena allocatorAryadev Chavali
A page is a flexibly allocated structure of bytes, with a count of the number of bytes already allocated (used) and number of bytes available overall (available), with a pointer to the next page, if any. heap_t is a linked list of pages. One may allocate a requested size off the heap which causes one of two things: 1) Either a page already exists with enough space for the requested size, in which case that page's pointer is used as the base for the requested pointer 2) No pages satisfy the requested size, so a new page is allocated which is the new end of the heap.
2023-11-01Updated README LOCAryadev Chavali
2023-11-01Deleted fib.c as fib.asm replaces itAryadev Chavali
2023-11-01Lines of Code heading for READMEAryadev Chavali
2023-11-01Updated README with build instructionsAryadev Chavali
2023-11-01Fix off by one issues in register implementationsAryadev Chavali
word register 0 refers to the first 8 bytes of the dynamic array. Hence the used counter should be at least 8 bytes. This deals with those issues. Also print more useful information in vm_print_registers (how many byte|hword|word registers are currently in use, how many are available).
2023-11-01Makefile now has recipes for example assembly programsAryadev Chavali
Dependencies are just ASM_OUT binary and the corresponding assembly program for the bytecode output file. Actually works very well, with changes triggering a recompilation. Also an `exec` recipe is introduced to do the task of compiling an assembly program and executing the corresponding bytecode all at once.