Documentation
¶
Index ¶
- Variables
- func AbiForBodylessFuncStackMap(fn *ir.Func) *abi.ABIConfig
- func AddAux(a *obj.Addr, v *ssa.Value)
- func AddAux2(a *obj.Addr, v *ssa.Value, offset int64)
- func AddrAuto(a *obj.Addr, v *ssa.Value)
- func CheckArgReg(v *ssa.Value)
- func CheckLargeStacks()
- func CheckLoweredGetClosurePtr(v *ssa.Value)
- func CheckLoweredPhi(v *ssa.Value)
- func Compile(fn *ir.Func, worker int)
- func DumpInline(fn *ir.Func)
- func EmitArgInfo(f *ir.Func, abiInfo *abi.ABIParamResultInfo) *obj.LSym
- func EnableNoWriteBarrierRecCheck()
- func InitConfig()
- func InitEnv()
- func InitTables()
- func IsIntrinsicCall(n *ir.CallExpr) bool
- func NoWriteBarrierRecCheck()
- func SpillSlotAddr(spill ssa.Spill, baseReg int16, extraOffset int64) obj.Addr
- func StackOffset(slot ssa.LocalSlot) int32
- func TypeOK(t *types.Type) bool
- type ArchInfo
- type Branch
- type IndexJump
- type State
- func (s *State) Br(op obj.As, target *ssa.Block) *obj.Prog
- func (s *State) Call(v *ssa.Value) *obj.Prog
- func (s *State) CombJump(b, next *ssa.Block, jumps *[2][2]IndexJump)
- func (s *State) DebugFriendlySetPosFrom(v *ssa.Value)
- func (s *State) FuncInfo() *obj.FuncInfo
- func (s *State) Pc() *obj.Prog
- func (s *State) PrepareCall(v *ssa.Value)
- func (s *State) Prog(as obj.As) *obj.Prog
- func (s *State) SetPos(pos src.XPos)
- func (s *State) TailCall(v *ssa.Value) *obj.Prog
- func (s *State) UseArgs(n int64)
- type SymABIs
Constants ¶
This section is empty.
Variables ¶
var ( BoundsCheckFunc [ssa.BoundsKindCount]*obj.LSym ExtendCheckFunc [ssa.BoundsKindCount]*obj.LSym )
var GCWriteBarrierReg map[int16]*obj.LSym
GCWriteBarrierReg maps from registers to gcWriteBarrier implementation LSyms.
Functions ¶
func AbiForBodylessFuncStackMap ¶
AbiForBodylessFuncStackMap returns the ABI for a bodyless function's stack map. This is not necessarily the ABI used to call it. Currently (1.17 dev) such a stack map is always ABI0; any ABI wrapper that is present is nosplit, hence a precise stack map is not needed there (the parameters survive only long enough to call the wrapped assembly function). This always returns a freshly copied ABI.
func CheckArgReg ¶
CheckArgReg ensures that v is in the function's entry block.
func CheckLargeStacks ¶
func CheckLargeStacks()
func CheckLoweredGetClosurePtr ¶
CheckLoweredGetClosurePtr checks that v is the first instruction in the function's entry block, except for incoming in-register arguments. The output of LoweredGetClosurePtr is generally hardwired to the correct register. That register contains the closure pointer on closure entry.
func CheckLoweredPhi ¶
CheckLoweredPhi checks that regalloc and stackalloc correctly handled phi values. Called during ssaGenValue.
func Compile ¶
Compile builds an SSA backend function, uses it to generate a plist, and flushes that plist to machine code. worker indicates which of the backend workers is doing the processing.
func DumpInline ¶
func EmitArgInfo ¶
emit argument info (locations on stack) of f for traceback.
func EnableNoWriteBarrierRecCheck ¶
func EnableNoWriteBarrierRecCheck()
func InitConfig ¶
func InitConfig()
func InitTables ¶
func InitTables()
func IsIntrinsicCall ¶
func NoWriteBarrierRecCheck ¶
func NoWriteBarrierRecCheck()
func SpillSlotAddr ¶
SpillSlotAddr uses LocalSlot information to initialize an obj.Addr The resulting addr is used in a non-standard context -- in the prologue of a function, before the frame has been constructed, so the standard addressing for the parameters will be wrong.
func StackOffset ¶
StackOffset returns the stack location of a LocalSlot relative to the stack pointer, suitable for use in a DWARF location entry. This has nothing to do with its offset in the user variable.
Types ¶
type ArchInfo ¶
type ArchInfo struct {
LinkArch *obj.LinkArch
REGSP int
MAXWIDTH int64
SoftFloat bool
PadFrame func(int64) int64
// ZeroRange zeroes a range of memory on stack. It is only inserted
// at function entry, and it is ok to clobber registers.
ZeroRange func(*objw.Progs, *obj.Prog, int64, int64, *uint32) *obj.Prog
Ginsnop func(*objw.Progs) *obj.Prog
// SSAMarkMoves marks any MOVXconst ops that need to avoid clobbering flags.
SSAMarkMoves func(*State, *ssa.Block)
// SSAGenValue emits Prog(s) for the Value.
SSAGenValue func(*State, *ssa.Value)
// SSAGenBlock emits end-of-block Progs. SSAGenValue should be called
// for all values in the block before SSAGenBlock.
SSAGenBlock func(s *State, b, next *ssa.Block)
// LoadRegResult emits instructions that loads register-assigned result
// at n+off (n is PPARAMOUT) to register reg. The result is already in
// memory. Used in open-coded defer return path.
LoadRegResult func(s *State, f *ssa.Func, t *types.Type, reg int16, n *ir.Name, off int64) *obj.Prog
// SpillArgReg emits instructions that spill reg to n+off.
SpillArgReg func(pp *objw.Progs, p *obj.Prog, f *ssa.Func, t *types.Type, reg int16, n *ir.Name, off int64) *obj.Prog
}
var Arch ArchInfo
type State ¶
type State struct {
ABI obj.ABI
// Branches remembers all the branch instructions we've seen
// and where they would like to go.
Branches []Branch
// JumpTables remembers all the jump tables we've seen.
JumpTables []*ssa.Block
// wasm: The number of values on the WebAssembly stack. This is only used as a safeguard.
OnWasmStackSkipped int
// contains filtered or unexported fields
}
State contains state needed during Prog generation.
func (*State) Br ¶
Br emits a single branch instruction and returns the instruction. Not all architectures need the returned instruction, but otherwise the boilerplate is common to all.
func (*State) Call ¶
Call returns a new CALL instruction for the SSA value v. It uses PrepareCall to prepare the call.
func (*State) CombJump ¶
CombJump generates combinational instructions (2 at present) for a block jump, thereby the behaviour of non-standard condition codes could be simulated
func (*State) DebugFriendlySetPosFrom ¶
DebugFriendlySetPosFrom adjusts Pos.IsStmt subject to heuristics that reduce "jumpy" line number churn when debugging. Spill/fill/copy instructions from the register allocator, phi functions, and instructions with a no-pos position are examples of instructions that can cause churn.
func (*State) PrepareCall ¶
PrepareCall prepares to emit a CALL instruction for v and does call-related bookkeeping. It must be called immediately before emitting the actual CALL instruction, since it emits PCDATA for the stack map at the call (calls are safe points).
type SymABIs ¶
type SymABIs struct {
// contains filtered or unexported fields
}
SymABIs records information provided by the assembler about symbol definition ABIs and reference ABIs.
func NewSymABIs ¶
func NewSymABIs() *SymABIs
func (*SymABIs) GenABIWrappers ¶
func (s *SymABIs) GenABIWrappers()
GenABIWrappers applies ABI information to Funcs and generates ABI wrapper functions where necessary.
func (*SymABIs) ReadSymABIs ¶
ReadSymABIs reads a symabis file that specifies definitions and references of text symbols by ABI.
The symabis format is a set of lines, where each line is a sequence of whitespace-separated fields. The first field is a verb and is either "def" for defining a symbol ABI or "ref" for referencing a symbol using an ABI. For both "def" and "ref", the second field is the symbol name and the third field is the ABI name, as one of the named cmd/internal/obj.ABI constants.
Source Files