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# Bytecode Documentation
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## Instructions
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Each instruction consists of a mnemonic and some number of arguments. The
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numeric value for each instruction is the same length, but the arguments can be
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different lengths, and each instruction can have a different number of
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arguments.
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In this document, the layout for data is specified by a number of fields
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separated by commas. When represented in raw bits, these fields are next to each
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other with no padding in between. For example:
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```text
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length:u64, data:[i8]
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```
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represents an unsigned 64 bit integer field called "length" and a field called
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"data" which is an array of signed 8 bit integers. The value right before an
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array is the value which determines its length.
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The argument types are as follows:
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| Name | Description |
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|:------------------|:--------------------------------------|
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| i8, i16, i32, i64 | 8, 16, 32, or 64 bit signed integer |
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| u8, u16, u32, u64 | 8, 16, 32, or 64 bit unsigned integer |
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| double | Equivilant to the C type "double" |
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| reg | register (format: type:u8,which:u32) |
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| str | string (format: length:u64,data:[i8]) |
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| bool | boolean (format: u8) |
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### Registers
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Most instructions take register numbers instead of direct arguments. Registers
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take a type and a number. For example "lexenv2" is the third (counting from 0)
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lexenv register or "arg0" is the first argument register.
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| Mnemonic | ID | Description |
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|:---------|:--:|:--------------------------------------------------------------|
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| val | 0 | General value registers (clobbered by calls) |
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| saved | 1 | Callee saved ragisters (val registers are clobbered by calls) |
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| arg | 2 | Function argument registers (clobbered by calls) |
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| ret | 3 | Function return value registers (clobbered by calls) |
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### Instruction List
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- NIL dest:reg
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Load the literal nil into DEST
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- T def:reg
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Load the literal t into DEST
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- STRING dest:reg, value:str
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Load the string of LENGTH bytes from DATA into dest.
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- INT dest:reg, value:i64
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Convert VALUE into an int object and store it into DEST
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- FLOAT dest:reg, value:double
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Convert VALUE into a float object and store it into DEST
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- CONS dest:reg, car:reg, cdr:reg
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Create a cons object with CAR and CDR and store it into REG.
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- LIST dest:reg, count:u64
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Create a list from the first COUNT "arg" registers and store it into DEST.
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- VECTOR dest:reg, count:u64
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Create a vector from the first COUNT "arg" registers and store it into DEST.
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- LENGTH dest:reg, thing:reg
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Place the length of the THING, a string, vector, or list, into DEST.
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- INTERN\_LIT reg:reg, name:str
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INTERN\_DYN reg:reg, name:reg
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These instructions convert the string literal or register containing a string
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NAME into a symbol and store the symbol into REG.
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- TYPE_OF dest:reg, thing:reg
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Place a symbol representing the type of THING into DEST.
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- SYMBOL\_NAME dest:reg, sym:reg
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Store the name of SYM into DEST.
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- MOV dest:reg, src:reg
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Copy the value in the register SRC into the register DEST.
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- FUNCALL reg:reg, argc:u64
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Call the function in REG. This should either be a function object or a symbol
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which has a value as a function. The return values are placed into the "ret"
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registers. ARGC is the number of "arg" registers that have been set for this
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function call.
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- RETVAL_COUNT count:u8
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Declare that first COUNT return values have been set (if they have not been
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touched during this lexenv, they will be set to nil). Without this, the
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highest "ret" register written to is the number to use. Without this, assume
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one return value.
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- GET\_RETVAL\_COUNT dest:reg
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Place the count last set with RETVAL\_COUNT into DEST.
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- ENTER\_LEXENV count:u64
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Enter a new lexical environment. COUNT is the number of instructions that this
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environment lasts.
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- ENTER\_BLOCK name:str, count:u64
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LEAVE\_BLOCK name:str
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Enter a new named block which is identified by the symbol named NAME. The
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block is COUNT instructions long. LEAVE\_BLOCK leaves the block identified by
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NAME. LEAVE\_BLOCK will jump to the end of the block, and is not necessary
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unless you want to exit the block early.
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- SET\_VALUE sym:reg, value:reg
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Set the value as a variable of SYM to VALUE.
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- SET\_FUNCTION sym:reg, value:reg
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Set the value as a function of SYM to VALUE (value must be an actual function,
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not a symbol).
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- GET\_VALUE dest:reg, sym:reg
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Store the value as a variable of the symbol SYM into DEST.
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- GET\_FUNCTION dest:reg, sym:reg
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Store the value as a function of the symbol SYM into DEST.
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- BOUNDP dest:reg, sym:reg
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If SYM has a value as a variable, place t in DEST, otherwise, place nil in DEST.
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- FUNCTIONP dest:reg, sym:reg
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If SYM has a value as a function, place t in DEST, otherwise, place nil in DEST.
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- NEWFUNCTION\_LIT dest:reg, nreq:u32, nopt:u32, nkey:u32,
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aok:bool, rest:bool, count:u64
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NEWFUNCTION\_DYN dest:reg, nreq:u32, nopt:u32, nkey:u32,
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aok:bool, rest:bool, src:reg
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Create a new function object and store it into DEST. If the first case the
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next COUNT instructions are considered to be the function and are skipped. In
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the second case SRC should be a list or vector containing the bytecode for the
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function. NREQ, NOPT, and NKEY are the number of required, optional, and key
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arguments required for this function. The names of the keyword arguments are
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passed in the "arg" registers. The runtime will handle normalizing these for
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you. AOK is allow other keys, REST is wether to allow more positional
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arguments. Arguments are passed by the runtime in "arg" registers. The first
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required argument is passed in the "arg0" register. After required are
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optional arguments. These are passed in two registers. The first is either nil
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or t weather or not he argument was actually passed. The second is its value,
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or nil if it was not passed. The same is true for key arguments. Finally if
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rest is passed, any extra arguments are passed as a list as the final element.
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- PUT sym:reg, key:reg, value:reg
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Associate KEY with VALUE in the plist of SYM.
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- GET dest:reg, sym:reg, key:reg
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Store the value associated with KEY in the plist of SYM into DEST.
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- AND2 dest:reg, val1:reg, val2:reg
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ANDN dest:reg, count:u64
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Logical and VAL1 and VAL2, or the first COUNT "arg" registers, and place the
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result in DEST.
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- OR2 dest:reg, val1:reg, val2:reg
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ORN dest:reg, count:u64
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Logical or VAL1 and VAL2, or the first COUNT "arg" registers, and place the
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result in DEST.
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- XOR2 dest:reg, val1:reg, val2:reg
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XORN dest:reg, count:u64
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Logical xor VAL1 and VAL2, or the first COUNT "arg" registers, and place the
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result in DEST.
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- NOT dest:reg, value:reg
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Take the logical negation of VALUE and place it in DEST.
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- JMP offset:i64
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CJMP cond:reg, offset:i64
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If the value in COND is truthy (not nil), skip the next OFFSET
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instructions. If OFFSET is negative, instead go back abs(OFFSET)
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instructions. CJMP is NOT counted as an instruction for the purposes of
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counting offsets. Therefore an OFFSET of -2 means restart execute at the
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instruction above the instruction above this CJMP. JMP is like CJMP, but takes
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no condition and always jumps.
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- CAR dest:reg, cons:reg
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CDR dest:reg, cons:reg
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Store the car or cdr of CONS into DEST.
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- SETCAR cons:reg, value:reg
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SETCDR cons:reg, value:reg
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Store VALUE into the car or cdr of CONS.
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- GETELT\_LIT dest:reg, seq:reg, index:u64
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GETELT\_DYN dest:reg, seq:reg, index:reg
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Store the value at INDEX in SEQ (a list, string, or vector) into DEST.
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- SETELT\_LIT seq:reg, index:u64, value:reg
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SETELT\_DYN seq:reg, index:reg, value:reg
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Store VALUE into the index numbered INDEX of SEQ (a list, string, or vector).
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- EQ dest:reg, val1:reg, val2:reg
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Compare VAL1 and VAL2, if they are the same object (or symbols with the same
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name) store T into DEST, otherwise, store NIL.
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- NUM\_GT dest:reg, val1:reg, val2:reg
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NUM\_GE dest:reg, val1:reg, val2:reg
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NUM\_EQ dest:reg, val1:reg, val2:reg
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NUM\_LE dest:reg, val1:reg, val2:reg
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NUM\_LT dest:reg, val1:reg, val2:reg
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Compare VAL1 and VAL2, which must be numbers, and compare their values. If
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they pass, store T into DEST, otherwise store NIL.
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- ADD dest:reg, count:u64
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Add the first COUNT "arg" registers and place the result into DEST.
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- SUB dest:reg, val1:reg, val2:reg
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Subtract the sum of the first COUNT - 1 "arg" registers starting from "arg1",
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that is "arg1", "arg2", "arg3", etc., from "arg0". Store the result in DEST.
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- MUL dest:reg, count:u64
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Multiply the first COUNT "arg" registers and place the result in DEST.
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- DIV dest:reg, count:u64
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Divide "arg0" by the product of the COUNT - 1 "arg" registers starting from "arg1"
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- INT_DIV dest:reg, val1:reg, val2:reg
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Divide VAL1 by VAL2 and place the integer part of the result in DEST.
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- RECIP dest:reg, val:reg
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Divide 1 by VAL and place the result in DEST.
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- MOD dest:reg, val1:reg, val2:reg
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Divide VAL1 by VAL2 and place the remainder in DEST.
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- SQRT dest:reg, val:reg
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Take the square root of VAL and place it in DEST.
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- POW dest:reg, base:reg, exp:reg
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Raise BASE to the EXP power and place the result in DEST.
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- LN dest:reg, val:reg
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Take the natural log of VAL and place the result in DEST.
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- EXP dest:reg, val:reg
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Take the exponential function at VAL and place the result in DEST.
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- SIN dest:reg, val:reg
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COS dest:reg, val:reg
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TAN dest:reg, val:reg
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Take the sine, cosine, or tangent of VAL (in radians) and place it into DEST.
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- ASIN dest:reg, val:reg
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ACOS dest:reg, val:reg
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ATAN dest:reg, val:reg
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Take the inverse sine, cosine, or tangent of VAL and place the result (in
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radians) into DEST.
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- BITAND dest:reg, val1:reg, val2:reg
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BITOR dest:reg, val1:reg, val2:reg
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BITXOR dest:reg, val1:reg, val2:reg
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BITNOR dest:reg, val1:reg, val2:reg
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Perform the given bit-wise operation on VAL1 and VAL2 and place the result
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into DEST.
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- BITNEG dest:reg, val:reg
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Negate each bit in VAL. That is, flip each bit in VAL.
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- LSH dest:reg, val:reg, by:reg
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ASH dest:reg, val:reg, by:reg
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Either logically or arithmetically shift VAL by BY bits to the left (or right
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is BY is negative). Put the result in DEST.
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