|Cassidy Dingenskirchen bbcbada927||7ヶ月前|
A (not that, anymore) minimal bytecode VM implemented in Zig with integrated debugger.
oida run youroidasmfile to run your program, optionally specifying an entry point in hex after the filename. To debug oidaVM programs, use the internal debugger oiDB, which you can invoke using
oida dbg youroidasmfile. It has a GDB-inspired REPL and internal help accessible via
ACCand the instruction pointer.
These can target the entire memory space of the VM. There are six possible opcodes in this category.
0x0 nooprNo Operation: Skips instruction.
0xa pgjmpPage And Jump: Selects highest four bits of address as page and unconditionally continues execution at address.
0xb fftchFar Fetch: Copies memory value at address into ACC.
0xc fwrteFar Write: Overwrites memory at address with copy of ACC.
These can target all addresses on the current page, which represents one 16th of the full memory. There are 144 possible opcodes in this category.
0x11 incbyIncrement By: Adds value of address in memory to ACC. Overflow gets truncated to 65535; if no overflow occurs the next instruction is skipped.
0x12 minusMinus: Substracts value of address in memory from ACC. Underflow gets truncated to 0; if no overflow occurs the next instruction is skipped.
0x20 fetchFetch: Copies memory value at address into ACC.
0x21 writeWrite: Overwrites memory at address with copy of ACC.
0x30 jmptoJump To: Unconditionally continues execution at address.
0x31 jmpezJump If Equal To Zero: If ACC is 0, continues execution at address, otherwise skips instruction.
These can’t target memory and take no arguments, so they are either used for I/O or operations on ACC. There are 144 possible opcodes in this category.
0xf00f ceaseCease: Halts execution.
0xf010 outnmOutput, Numeric: Writes the content of ACC to stderr, as a decimal number.
0xf011 outchOutput, Character: Writes the lower eight bits of ACC to stderr, as ASCII character.
0xf012 outlfOutput Linefeed: Writes
0xf013 outhxOutput, Hexadecimal: Writes the content of ACC to stderr, as a hexadecimal number.
0xf020 inaccInput To ACC: Awaits one word of input from user and writes it into ACC.
0xf030 randoRandomize ACC: Writes a random value (backed by the default PRNG) into ACC.
0xf040 augmtAugment ACC: Increases ACC by one. Overflow gets truncated to 65535; if no overflow occurs the next instruction is skipped.
0xf041 diminDiminish ACC: Diminishes ACC by one. Underflow gets truncated to 0; if no underflow occurs the next instruction is skipped.
0xf042 shfl4Shift Left Four: Shifts the value of ACC four bytes to the left.
0xf043 shfr4Shift Right Four: Shifts the value of ACC four bytes to the right.
0xf044 shfl1Shift Left One: Shifts the value of ACC one byte to the left.
0xf045 shfr1Shift Right One: Shifts the value of ACC one byte to the right.
oidASM is the assembly language for OidaVM. It has five fundamental elements: Directives, Variable Definitions, Blocks, Instructions and Comments. Each element takes up one line. Comments start with
# and are ignored by the assembler. Directives start with
@ and pass metadata to the assembler. Variable definitions start with
$ and bind a value to a symbol for later reference. Blocks start with
: and delineate sections of the program that can be jumped to. Instructions appear after a block marker and consist of a five-char mnemonic and optionally an address (either as
Each program needs at least a
@entry directive to set the entry point of the program to a block and one block to execute.
@page directive sets the current working page of the assembler. If no directive is specified, the assembler assumes page
For some examples, look into the oidASM/ folder.