luau/CodeGen/include/Luau/IrData.h

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// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
#pragma once
#include "Luau/Label.h"
#include "Luau/RegisterX64.h"
#include "Luau/RegisterA64.h"
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#include <optional>
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#include <vector>
#include <stdint.h>
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struct Proto;
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namespace Luau
{
namespace CodeGen
{
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// IR instruction command.
// In the command description, following abbreviations are used:
// * Rn - VM stack register slot, n in 0..254
// * Kn - VM proto constant slot, n in 0..2^23-1
// * UPn - VM function upvalue slot, n in 0..254
// * A, B, C, D, E are instruction arguments
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enum class IrCmd : uint8_t
{
NOP,
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// Load a tag from TValue
// A: Rn or Kn
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LOAD_TAG,
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// Load a pointer (*) from TValue
// A: Rn or Kn
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LOAD_POINTER,
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// Load a double number from TValue
// A: Rn or Kn
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LOAD_DOUBLE,
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// Load an int from TValue
// A: Rn
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LOAD_INT,
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// Load a TValue from memory
// A: Rn or Kn or pointer (TValue)
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LOAD_TVALUE,
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// Load a TValue from table node value
// A: pointer (LuaNode)
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LOAD_NODE_VALUE_TV, // TODO: we should find a way to generalize LOAD_TVALUE
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// Load current environment table
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LOAD_ENV,
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// Get pointer (TValue) to table array at index
// A: pointer (Table)
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// B: int
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GET_ARR_ADDR,
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// Get pointer (LuaNode) to table node element at the active cached slot index
// A: pointer (Table)
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GET_SLOT_NODE_ADDR,
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// Store a tag into TValue
// A: Rn
// B: tag
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STORE_TAG,
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// Store a pointer (*) into TValue
// A: Rn
// B: pointer
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STORE_POINTER,
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// Store a double number into TValue
// A: Rn
// B: double
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STORE_DOUBLE,
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// Store an int into TValue
// A: Rn
// B: int
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STORE_INT,
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// Store a TValue into memory
// A: Rn or pointer (TValue)
// B: TValue
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STORE_TVALUE,
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// Store a TValue into table node value
// A: pointer (LuaNode)
// B: TValue
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STORE_NODE_VALUE_TV, // TODO: we should find a way to generalize STORE_TVALUE
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// Add/Sub two integers together
// A, B: int
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ADD_INT,
SUB_INT,
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// Add/Sub/Mul/Div/Mod/Pow two double numbers
// A, B: double
// In final x64 lowering, B can also be Rn or Kn
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ADD_NUM,
SUB_NUM,
MUL_NUM,
DIV_NUM,
MOD_NUM,
POW_NUM,
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// Negate a double number
// A: double
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UNM_NUM,
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// Compute Luau 'not' operation on destructured TValue
// A: tag
// B: double
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NOT_ANY, // TODO: boolean specialization will be useful
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// Unconditional jump
// A: block
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JUMP,
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// Jump if TValue is truthy
// A: Rn
// B: block (if true)
// C: block (if false)
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JUMP_IF_TRUTHY,
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// Jump if TValue is falsy
// A: Rn
// B: block (if true)
// C: block (if false)
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JUMP_IF_FALSY,
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// Jump if tags are equal
// A, B: tag
// C: block (if true)
// D: block (if false)
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JUMP_EQ_TAG,
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// Jump if two int numbers are equal
// A, B: int
// C: block (if true)
// D: block (if false)
JUMP_EQ_INT,
// Jump if pointers are equal
// A, B: pointer (*)
// C: block (if true)
// D: block (if false)
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JUMP_EQ_POINTER,
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// Perform a conditional jump based on the result of double comparison
// A, B: double
// C: condition
// D: block (if true)
// E: block (if false)
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JUMP_CMP_NUM,
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// Perform a conditional jump based on the result of TValue comparison
// A, B: Rn
// C: condition
// D: block (if true)
// E: block (if false)
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JUMP_CMP_ANY,
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// Get table length
// A: pointer (Table)
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TABLE_LEN,
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// Allocate new table
// A: int (array element count)
// B: int (node element count)
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NEW_TABLE,
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// Duplicate a table
// A: pointer (Table)
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DUP_TABLE,
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// Try to convert a double number into a table index (int) or jump if it's not an integer
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// A: double
// B: block
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NUM_TO_INDEX,
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// Convert integer into a double number
// A: int
INT_TO_NUM,
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// Adjust stack top (L->top) to point at 'B' TValues *after* the specified register
// This is used to return muliple values
// A: Rn
// B: int (offset)
ADJUST_STACK_TO_REG,
// Restore stack top (L->top) to point to the function stack top (L->ci->top)
// This is used to recover after calling a variadic function
ADJUST_STACK_TO_TOP,
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// Fallback functions
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// Perform an arithmetic operation on TValues of any type
// A: Rn (where to store the result)
// B: Rn (lhs)
// C: Rn or Kn (rhs)
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DO_ARITH,
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// Get length of a TValue of any type
// A: Rn (where to store the result)
// B: Rn
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DO_LEN,
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// Lookup a value in TValue of any type using a key of any type
// A: Rn (where to store the result)
// B: Rn
// C: Rn or unsigned int (key)
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GET_TABLE,
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// Store a value into TValue of any type using a key of any type
// A: Rn (value to store)
// B: Rn
// C: Rn or unsigned int (key)
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SET_TABLE,
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// Lookup a value in the environment
// A: Rn (where to store the result)
// B: unsigned int (import path)
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GET_IMPORT,
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// Concatenate multiple TValues into a string
// A: Rn (value start)
// B: unsigned int (number of registers to go over)
// Note: result is stored in the register specified in 'A'
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CONCAT,
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// Load function upvalue into stack slot
// A: Rn
// B: UPn
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GET_UPVALUE,
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// Store TValue from stack slot into a function upvalue
// A: UPn
// B: Rn
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SET_UPVALUE,
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// Convert TValues into numbers for a numerical for loop
// A: Rn (start)
// B: Rn (end)
// C: Rn (step)
PREPARE_FORN,
// Guards and checks (these instructions are not block terminators even though they jump to fallback)
// Guard against tag mismatch
// A, B: tag
// C: block
// In final x64 lowering, A can also be Rn
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CHECK_TAG,
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// Guard against readonly table
// A: pointer (Table)
// B: block
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CHECK_READONLY,
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// Guard against table having a metatable
// A: pointer (Table)
// B: block
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CHECK_NO_METATABLE,
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// Guard against executing in unsafe environment
// A: block
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CHECK_SAFE_ENV,
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// Guard against index overflowing the table array size
// A: pointer (Table)
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// B: int (index)
// C: block
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CHECK_ARRAY_SIZE,
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// Guard against cached table node slot not matching the actual table node slot for a key
// A: pointer (LuaNode)
// B: Kn
// C: block
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CHECK_SLOT_MATCH,
// Special operations
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// Check interrupt handler
// A: unsigned int (pcpos)
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INTERRUPT,
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// Check and run GC assist if necessary
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CHECK_GC,
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// Handle GC write barrier (forward)
// A: pointer (GCObject)
// B: Rn (TValue that was written to the object)
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BARRIER_OBJ,
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// Handle GC write barrier (backwards) for a write into a table
// A: pointer (Table)
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BARRIER_TABLE_BACK,
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// Handle GC write barrier (forward) for a write into a table
// A: pointer (Table)
// B: Rn (TValue that was written to the object)
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BARRIER_TABLE_FORWARD,
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// Update savedpc value
// A: unsigned int (pcpos)
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SET_SAVEDPC,
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// Close open upvalues for registers at specified index or higher
// A: Rn (starting register index)
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CLOSE_UPVALS,
// While capture is a no-op right now, it might be useful to track register/upvalue lifetimes
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// A: Rn or UPn
// B: boolean (true for reference capture, false for value capture)
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CAPTURE,
// Operations that don't have an IR representation yet
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// Set a list of values to table in target register
// A: unsigned int (bytecode instruction index)
// B: Rn (target)
// C: Rn (source start)
// D: int (count or -1 to assign values up to stack top)
// E: unsigned int (table index to start from)
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LOP_SETLIST,
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// Load function from source register using name into target register and copying source register into target register + 1
// A: unsigned int (bytecode instruction index)
// B: Rn (target)
// C: Rn (source)
// D: block (next)
// E: block (fallback)
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LOP_NAMECALL,
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// Call specified function
// A: unsigned int (bytecode instruction index)
// B: Rn (function, followed by arguments)
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// C: int (argument count or -1 to use all arguments up to stack top)
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// D: int (result count or -1 to preserve all results and adjust stack top)
// Note: return values are placed starting from Rn specified in 'B'
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LOP_CALL,
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// Return specified values from the function
// A: unsigned int (bytecode instruction index)
// B: Rn (value start)
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// C: int (result count or -1 to return all values up to stack top)
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LOP_RETURN,
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// Perform a fast call of a built-in function
// A: unsigned int (bytecode instruction index)
// B: Rn (argument start)
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// C: int (argument count or -1 use all arguments up to stack top)
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// D: block (fallback)
// Note: return values are placed starting from Rn specified in 'B'
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LOP_FASTCALL,
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// Perform a fast call of a built-in function using 1 register argument
// A: unsigned int (bytecode instruction index)
// B: Rn (result start)
// C: Rn (arg1)
// D: block (fallback)
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LOP_FASTCALL1,
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// Perform a fast call of a built-in function using 2 register arguments
// A: unsigned int (bytecode instruction index)
// B: Rn (result start)
// C: Rn (arg1)
// D: Rn (arg2)
// E: block (fallback)
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LOP_FASTCALL2,
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// Perform a fast call of a built-in function using 1 register argument and 1 constant argument
// A: unsigned int (bytecode instruction index)
// B: Rn (result start)
// C: Rn (arg1)
// D: Kn (arg2)
// E: block (fallback)
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LOP_FASTCALL2K,
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LOP_FORGLOOP,
LOP_FORGLOOP_FALLBACK,
LOP_FORGPREP_XNEXT_FALLBACK,
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// Perform `and` or `or` operation (selecting lhs or rhs based on whether the lhs is truthy) and put the result into target register
// A: unsigned int (bytecode instruction index)
// B: Rn (target)
// C: Rn (lhs)
// D: Rn or Kn (rhs)
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LOP_AND,
LOP_ANDK,
LOP_OR,
LOP_ORK,
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// Increment coverage data (saturating 24 bit add)
// A: unsigned int (bytecode instruction index)
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LOP_COVERAGE,
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// Operations that have a translation, but use a full instruction fallback
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// Load a value from global table at specified key
// A: unsigned int (bytecode instruction index)
// B: Rn (dest)
// C: Kn (key)
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FALLBACK_GETGLOBAL,
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// Store a value into global table at specified key
// A: unsigned int (bytecode instruction index)
// B: Rn (value)
// C: Kn (key)
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FALLBACK_SETGLOBAL,
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// Load a value from table at specified key
// A: unsigned int (bytecode instruction index)
// B: Rn (dest)
// C: Rn (table)
// D: Kn (key)
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FALLBACK_GETTABLEKS,
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// Store a value into a table at specified key
// A: unsigned int (bytecode instruction index)
// B: Rn (value)
// C: Rn (table)
// D: Kn (key)
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FALLBACK_SETTABLEKS,
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// Load function from source register using name into target register and copying source register into target register + 1
// A: unsigned int (bytecode instruction index)
// B: Rn (target)
// C: Rn (source)
// D: Kn (name)
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FALLBACK_NAMECALL,
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// Operations that don't have assembly lowering at all
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// Prepare stack for variadic functions so that GETVARARGS works correctly
// A: unsigned int (bytecode instruction index)
// B: int (numparams)
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FALLBACK_PREPVARARGS,
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// Copy variables into the target registers from vararg storage for current function
// A: unsigned int (bytecode instruction index)
// B: Rn (dest start)
// C: int (count)
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FALLBACK_GETVARARGS,
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// Create closure from a child proto
// A: unsigned int (bytecode instruction index)
// B: Rn (dest)
// C: unsigned int (protoid)
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FALLBACK_NEWCLOSURE,
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// Create closure from a pre-created function object (reusing it unless environments diverge)
// A: unsigned int (bytecode instruction index)
// B: Rn (dest)
// C: Kn (prototype)
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FALLBACK_DUPCLOSURE,
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// Prepare loop variables for a generic for loop, jump to the loop backedge unconditionally
// A: unsigned int (bytecode instruction index)
// B: Rn (loop state, updates Rn Rn+1 Rn+2)
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// C: block
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FALLBACK_FORGPREP,
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// Instruction that passes value through, it is produced by constant folding and users substitute it with the value
SUBSTITUTE,
// A: operand of any type
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};
enum class IrConstKind : uint8_t
{
Bool,
Int,
Uint,
Double,
Tag,
};
struct IrConst
{
IrConstKind kind;
union
{
bool valueBool;
int valueInt;
unsigned valueUint;
double valueDouble;
uint8_t valueTag;
};
};
enum class IrCondition : uint8_t
{
Equal,
NotEqual,
Less,
NotLess,
LessEqual,
NotLessEqual,
Greater,
NotGreater,
GreaterEqual,
NotGreaterEqual,
UnsignedLess,
UnsignedLessEqual,
UnsignedGreater,
UnsignedGreaterEqual,
Count
};
enum class IrOpKind : uint32_t
{
None,
// To reference a constant value
Constant,
// To specify a condition code
Condition,
// To reference a result of a previous instruction
Inst,
// To reference a basic block in control flow
Block,
// To reference a VM register
VmReg,
// To reference a VM constant
VmConst,
// To reference a VM upvalue
VmUpvalue,
};
struct IrOp
{
IrOpKind kind : 4;
uint32_t index : 28;
IrOp()
: kind(IrOpKind::None)
, index(0)
{
}
IrOp(IrOpKind kind, uint32_t index)
: kind(kind)
, index(index)
{
}
};
static_assert(sizeof(IrOp) == 4);
struct IrInst
{
IrCmd cmd;
// Operands
IrOp a;
IrOp b;
IrOp c;
IrOp d;
IrOp e;
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IrOp f;
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uint32_t lastUse = 0;
uint16_t useCount = 0;
// Location of the result (optional)
RegisterX64 regX64 = noreg;
RegisterA64 regA64{KindA64::none, 0};
bool reusedReg = false;
};
enum class IrBlockKind : uint8_t
{
Bytecode,
Fallback,
Internal,
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Dead,
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};
struct IrBlock
{
IrBlockKind kind;
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uint16_t useCount = 0;
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// 'start' and 'finish' define an inclusive range of instructions which belong to this block inside the function
// When block has been constructed, 'finish' always points to the first and only terminating instruction
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uint32_t start = ~0u;
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uint32_t finish = ~0u;
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Label label;
};
struct BytecodeMapping
{
uint32_t irLocation;
uint32_t asmLocation;
};
struct IrFunction
{
std::vector<IrBlock> blocks;
std::vector<IrInst> instructions;
std::vector<IrConst> constants;
std::vector<BytecodeMapping> bcMapping;
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Proto* proto = nullptr;
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IrBlock& blockOp(IrOp op)
{
LUAU_ASSERT(op.kind == IrOpKind::Block);
return blocks[op.index];
}
IrInst& instOp(IrOp op)
{
LUAU_ASSERT(op.kind == IrOpKind::Inst);
return instructions[op.index];
}
IrConst& constOp(IrOp op)
{
LUAU_ASSERT(op.kind == IrOpKind::Constant);
return constants[op.index];
}
uint8_t tagOp(IrOp op)
{
IrConst& value = constOp(op);
LUAU_ASSERT(value.kind == IrConstKind::Tag);
return value.valueTag;
}
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std::optional<uint8_t> asTagOp(IrOp op)
{
if (op.kind != IrOpKind::Constant)
return std::nullopt;
IrConst& value = constOp(op);
if (value.kind != IrConstKind::Tag)
return std::nullopt;
return value.valueTag;
}
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bool boolOp(IrOp op)
{
IrConst& value = constOp(op);
LUAU_ASSERT(value.kind == IrConstKind::Bool);
return value.valueBool;
}
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std::optional<bool> asBoolOp(IrOp op)
{
if (op.kind != IrOpKind::Constant)
return std::nullopt;
IrConst& value = constOp(op);
if (value.kind != IrConstKind::Bool)
return std::nullopt;
return value.valueBool;
}
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int intOp(IrOp op)
{
IrConst& value = constOp(op);
LUAU_ASSERT(value.kind == IrConstKind::Int);
return value.valueInt;
}
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std::optional<int> asIntOp(IrOp op)
{
if (op.kind != IrOpKind::Constant)
return std::nullopt;
IrConst& value = constOp(op);
if (value.kind != IrConstKind::Int)
return std::nullopt;
return value.valueInt;
}
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unsigned uintOp(IrOp op)
{
IrConst& value = constOp(op);
LUAU_ASSERT(value.kind == IrConstKind::Uint);
return value.valueUint;
}
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std::optional<unsigned> asUintOp(IrOp op)
{
if (op.kind != IrOpKind::Constant)
return std::nullopt;
IrConst& value = constOp(op);
if (value.kind != IrConstKind::Uint)
return std::nullopt;
return value.valueUint;
}
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double doubleOp(IrOp op)
{
IrConst& value = constOp(op);
LUAU_ASSERT(value.kind == IrConstKind::Double);
return value.valueDouble;
}
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std::optional<double> asDoubleOp(IrOp op)
{
if (op.kind != IrOpKind::Constant)
return std::nullopt;
IrConst& value = constOp(op);
if (value.kind != IrConstKind::Double)
return std::nullopt;
return value.valueDouble;
}
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IrCondition conditionOp(IrOp op)
{
LUAU_ASSERT(op.kind == IrOpKind::Condition);
return IrCondition(op.index);
}
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uint32_t getBlockIndex(const IrBlock& block)
{
// Can only be called with blocks from our vector
LUAU_ASSERT(&block >= blocks.data() && &block <= blocks.data() + blocks.size());
return uint32_t(&block - blocks.data());
}
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};
} // namespace CodeGen
} // namespace Luau