| // Copyright 2015 The Go Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style |
| // license that can be found in the LICENSE file. |
| |
| package ssa |
| |
| import "fmt" |
| |
| // Block represents a basic block in the control flow graph of a function. |
| type Block struct { |
| // A unique identifier for the block. The system will attempt to allocate |
| // these IDs densely, but no guarantees. |
| ID ID |
| |
| // Line number for block's control operation |
| Line int32 |
| |
| // The kind of block this is. |
| Kind BlockKind |
| |
| // Likely direction for branches. |
| // If BranchLikely, Succs[0] is the most likely branch taken. |
| // If BranchUnlikely, Succs[1] is the most likely branch taken. |
| // Ignored if len(Succs) < 2. |
| // Fatal if not BranchUnknown and len(Succs) > 2. |
| Likely BranchPrediction |
| |
| // After flagalloc, records whether flags are live at the end of the block. |
| FlagsLiveAtEnd bool |
| |
| // Subsequent blocks, if any. The number and order depend on the block kind. |
| Succs []Edge |
| |
| // Inverse of successors. |
| // The order is significant to Phi nodes in the block. |
| // TODO: predecessors is a pain to maintain. Can we somehow order phi |
| // arguments by block id and have this field computed explicitly when needed? |
| Preds []Edge |
| |
| // A value that determines how the block is exited. Its value depends on the kind |
| // of the block. For instance, a BlockIf has a boolean control value and BlockExit |
| // has a memory control value. |
| Control *Value |
| |
| // Auxiliary info for the block. Its value depends on the Kind. |
| Aux interface{} |
| |
| // The unordered set of Values that define the operation of this block. |
| // The list must include the control value, if any. (TODO: need this last condition?) |
| // After the scheduling pass, this list is ordered. |
| Values []*Value |
| |
| // The containing function |
| Func *Func |
| |
| // Storage for Succs, Preds, and Values |
| succstorage [2]Edge |
| predstorage [4]Edge |
| valstorage [9]*Value |
| } |
| |
| // Edge represents a CFG edge. |
| // Example edges for b branching to either c or d. |
| // (c and d have other predecessors.) |
| // b.Succs = [{c,3}, {d,1}] |
| // c.Preds = [?, ?, ?, {b,0}] |
| // d.Preds = [?, {b,1}, ?] |
| // These indexes allow us to edit the CFG in constant time. |
| // In addition, it informs phi ops in degenerate cases like: |
| // b: |
| // if k then c else c |
| // c: |
| // v = Phi(x, y) |
| // Then the indexes tell you whether x is chosen from |
| // the if or else branch from b. |
| // b.Succs = [{c,0},{c,1}] |
| // c.Preds = [{b,0},{b,1}] |
| // means x is chosen if k is true. |
| type Edge struct { |
| // block edge goes to (in a Succs list) or from (in a Preds list) |
| b *Block |
| // index of reverse edge. Invariant: |
| // e := x.Succs[idx] |
| // e.b.Preds[e.i] = Edge{x,idx} |
| // and similarly for predecessors. |
| i int |
| } |
| |
| func (e Edge) Block() *Block { |
| return e.b |
| } |
| func (e Edge) Index() int { |
| return e.i |
| } |
| |
| // kind control successors |
| // ------------------------------------------ |
| // Exit return mem [] |
| // Plain nil [next] |
| // If a boolean Value [then, else] |
| // Defer mem [nopanic, panic] (control opcode should be OpDeferCall) |
| type BlockKind int8 |
| |
| // short form print |
| func (b *Block) String() string { |
| return fmt.Sprintf("b%d", b.ID) |
| } |
| |
| // long form print |
| func (b *Block) LongString() string { |
| s := b.Kind.String() |
| if b.Aux != nil { |
| s += fmt.Sprintf(" %s", b.Aux) |
| } |
| if b.Control != nil { |
| s += fmt.Sprintf(" %s", b.Control) |
| } |
| if len(b.Succs) > 0 { |
| s += " ->" |
| for _, c := range b.Succs { |
| s += " " + c.b.String() |
| } |
| } |
| switch b.Likely { |
| case BranchUnlikely: |
| s += " (unlikely)" |
| case BranchLikely: |
| s += " (likely)" |
| } |
| return s |
| } |
| |
| func (b *Block) SetControl(v *Value) { |
| if w := b.Control; w != nil { |
| w.Uses-- |
| } |
| b.Control = v |
| if v != nil { |
| v.Uses++ |
| } |
| } |
| |
| // AddEdgeTo adds an edge from block b to block c. Used during building of the |
| // SSA graph; do not use on an already-completed SSA graph. |
| func (b *Block) AddEdgeTo(c *Block) { |
| i := len(b.Succs) |
| j := len(c.Preds) |
| b.Succs = append(b.Succs, Edge{c, j}) |
| c.Preds = append(c.Preds, Edge{b, i}) |
| b.Func.invalidateCFG() |
| } |
| |
| // removePred removes the ith input edge from b. |
| // It is the responsibility of the caller to remove |
| // the corresponding successor edge. |
| func (b *Block) removePred(i int) { |
| n := len(b.Preds) - 1 |
| if i != n { |
| e := b.Preds[n] |
| b.Preds[i] = e |
| // Update the other end of the edge we moved. |
| e.b.Succs[e.i].i = i |
| } |
| b.Preds[n] = Edge{} |
| b.Preds = b.Preds[:n] |
| b.Func.invalidateCFG() |
| } |
| |
| // removeSucc removes the ith output edge from b. |
| // It is the responsibility of the caller to remove |
| // the corresponding predecessor edge. |
| func (b *Block) removeSucc(i int) { |
| n := len(b.Succs) - 1 |
| if i != n { |
| e := b.Succs[n] |
| b.Succs[i] = e |
| // Update the other end of the edge we moved. |
| e.b.Preds[e.i].i = i |
| } |
| b.Succs[n] = Edge{} |
| b.Succs = b.Succs[:n] |
| b.Func.invalidateCFG() |
| } |
| |
| func (b *Block) swapSuccessors() { |
| if len(b.Succs) != 2 { |
| b.Fatalf("swapSuccessors with len(Succs)=%d", len(b.Succs)) |
| } |
| e0 := b.Succs[0] |
| e1 := b.Succs[1] |
| b.Succs[0] = e1 |
| b.Succs[1] = e0 |
| e0.b.Preds[e0.i].i = 1 |
| e1.b.Preds[e1.i].i = 0 |
| b.Likely *= -1 |
| } |
| |
| func (b *Block) Logf(msg string, args ...interface{}) { b.Func.Logf(msg, args...) } |
| func (b *Block) Log() bool { return b.Func.Log() } |
| func (b *Block) Fatalf(msg string, args ...interface{}) { b.Func.Fatalf(msg, args...) } |
| |
| type BranchPrediction int8 |
| |
| const ( |
| BranchUnlikely = BranchPrediction(-1) |
| BranchUnknown = BranchPrediction(0) |
| BranchLikely = BranchPrediction(+1) |
| ) |