| // Copyright 2024 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 liveness | |
| // This file defines an "Intervals" helper type that stores a | |
| // sorted sequence of disjoint ranges or intervals. An Intervals | |
| // example: { [0,5) [9-12) [100,101) }, which corresponds to the | |
| // numbers 0-4, 9-11, and 100. Once an Intervals object is created, it | |
| // can be tested to see if it has any overlap with another Intervals | |
| // object, or it can be merged with another Intervals object to form a | |
| // union of the two. | |
| // | |
| // The intended use case for this helper is in describing object or | |
| // variable lifetime ranges within a linearized program representation | |
| // where each IR instruction has a slot or index. Example: | |
| // | |
| // b1: | |
| // 0 VarDef abc | |
| // 1 memset(abc,0) | |
| // 2 VarDef xyz | |
| // 3 memset(xyz,0) | |
| // 4 abc.f1 = 2 | |
| // 5 xyz.f3 = 9 | |
| // 6 if q goto B4 | |
| // 7 B3: z = xyz.x | |
| // 8 goto B5 | |
| // 9 B4: z = abc.x | |
| // // fallthrough | |
| // 10 B5: z++ | |
| // | |
| // To describe the lifetime of the variables above we might use these | |
| // intervals: | |
| // | |
| // "abc" [1,7), [9,10) | |
| // "xyz" [3,8) | |
| // | |
| // Clients can construct an Intervals object from a given IR sequence | |
| // using the "IntervalsBuilder" helper abstraction (one builder per | |
| // candidate variable), by making a | |
| // backwards sweep and invoking the Live/Kill methods to note the | |
| // starts and end of a given lifetime. For the example above, we would | |
| // expect to see this sequence of calls to Live/Kill: | |
| // | |
| // abc: Live(9), Kill(8), Live(6), Kill(0) | |
| // xyz: Live(8), Kill(2) | |
| import ( | |
| "fmt" | |
| "os" | |
| "slices" | |
| "strings" | |
| ) | |
| const debugtrace = false | |
| // Interval hols the range [st,en). | |
| type Interval struct { | |
| st, en int | |
| } | |
| // Intervals is a sequence of sorted, disjoint intervals. | |
| type Intervals []Interval | |
| func (i Interval) String() string { | |
| return fmt.Sprintf("[%d,%d)", i.st, i.en) | |
| } | |
| // TEMPORARY until bootstrap version catches up. | |
| func imin(i, j int) int { | |
| if i < j { | |
| return i | |
| } | |
| return j | |
| } | |
| // TEMPORARY until bootstrap version catches up. | |
| func imax(i, j int) int { | |
| if i > j { | |
| return i | |
| } | |
| return j | |
| } | |
| // Overlaps returns true if here is any overlap between i and i2. | |
| func (i Interval) Overlaps(i2 Interval) bool { | |
| return (imin(i.en, i2.en) - imax(i.st, i2.st)) > 0 | |
| } | |
| // adjacent returns true if the start of one interval is equal to the | |
| // end of another interval (e.g. they represent consecutive ranges). | |
| func (i1 Interval) adjacent(i2 Interval) bool { | |
| return i1.en == i2.st || i2.en == i1.st | |
| } | |
| // MergeInto merges interval i2 into i1. This version happens to | |
| // require that the two intervals either overlap or are adjacent. | |
| func (i1 *Interval) MergeInto(i2 Interval) error { | |
| if !i1.Overlaps(i2) && !i1.adjacent(i2) { | |
| return fmt.Errorf("merge method invoked on non-overlapping/non-adjacent") | |
| } | |
| i1.st = imin(i1.st, i2.st) | |
| i1.en = imax(i1.en, i2.en) | |
| return nil | |
| } | |
| // IntervalsBuilder is a helper for constructing intervals based on | |
| // live dataflow sets for a series of BBs where we're making a | |
| // backwards pass over each BB looking for uses and kills. The | |
| // expected use case is: | |
| // | |
| // - invoke MakeIntervalsBuilder to create a new object "b" | |
| // - series of calls to b.Live/b.Kill based on a backwards reverse layout | |
| // order scan over instructions | |
| // - invoke b.Finish() to produce final set | |
| // | |
| // See the Live method comment for an IR example. | |
| type IntervalsBuilder struct { | |
| s Intervals | |
| // index of last instruction visited plus 1 | |
| lidx int | |
| } | |
| func (c *IntervalsBuilder) last() int { | |
| return c.lidx - 1 | |
| } | |
| func (c *IntervalsBuilder) setLast(x int) { | |
| c.lidx = x + 1 | |
| } | |
| func (c *IntervalsBuilder) Finish() (Intervals, error) { | |
| // Reverse intervals list and check. | |
| slices.Reverse(c.s) | |
| if err := check(c.s); err != nil { | |
| return Intervals{}, err | |
| } | |
| r := c.s | |
| return r, nil | |
| } | |
| // Live method should be invoked on instruction at position p if instr | |
| // contains an upwards-exposed use of a resource. See the example in | |
| // the comment at the beginning of this file for an example. | |
| func (c *IntervalsBuilder) Live(pos int) error { | |
| if pos < 0 { | |
| return fmt.Errorf("bad pos, negative") | |
| } | |
| if c.last() == -1 { | |
| c.setLast(pos) | |
| if debugtrace { | |
| fmt.Fprintf(os.Stderr, "=-= begin lifetime at pos=%d\n", pos) | |
| } | |
| c.s = append(c.s, Interval{st: pos, en: pos + 1}) | |
| return nil | |
| } | |
| if pos >= c.last() { | |
| return fmt.Errorf("pos not decreasing") | |
| } | |
| // extend lifetime across this pos | |
| c.s[len(c.s)-1].st = pos | |
| c.setLast(pos) | |
| return nil | |
| } | |
| // Kill method should be invoked on instruction at position p if instr | |
| // should be treated as having a kill (lifetime end) for the | |
| // resource. See the example in the comment at the beginning of this | |
| // file for an example. Note that if we see a kill at position K for a | |
| // resource currently live since J, this will result in a lifetime | |
| // segment of [K+1,J+1), the assumption being that the first live | |
| // instruction will be the one after the kill position, not the kill | |
| // position itself. | |
| func (c *IntervalsBuilder) Kill(pos int) error { | |
| if pos < 0 { | |
| return fmt.Errorf("bad pos, negative") | |
| } | |
| if c.last() == -1 { | |
| return nil | |
| } | |
| if pos >= c.last() { | |
| return fmt.Errorf("pos not decreasing") | |
| } | |
| c.s[len(c.s)-1].st = pos + 1 | |
| // terminate lifetime | |
| c.setLast(-1) | |
| if debugtrace { | |
| fmt.Fprintf(os.Stderr, "=-= term lifetime at pos=%d\n", pos) | |
| } | |
| return nil | |
| } | |
| // check examines the intervals in "is" to try to find internal | |
| // inconsistencies or problems. | |
| func check(is Intervals) error { | |
| for i := 0; i < len(is); i++ { | |
| st := is[i].st | |
| en := is[i].en | |
| if en <= st { | |
| return fmt.Errorf("bad range elem %d:%d, en<=st", st, en) | |
| } | |
| if i == 0 { | |
| continue | |
| } | |
| // check for badly ordered starts | |
| pst := is[i-1].st | |
| pen := is[i-1].en | |
| if pst >= st { | |
| return fmt.Errorf("range start not ordered %d:%d less than prev %d:%d", st, en, | |
| pst, pen) | |
| } | |
| // check end of last range against start of this range | |
| if pen > st { | |
| return fmt.Errorf("bad range elem %d:%d overlaps prev %d:%d", st, en, | |
| pst, pen) | |
| } | |
| } | |
| return nil | |
| } | |
| func (is *Intervals) String() string { | |
| var sb strings.Builder | |
| for i := range *is { | |
| if i != 0 { | |
| sb.WriteString(" ") | |
| } | |
| sb.WriteString((*is)[i].String()) | |
| } | |
| return sb.String() | |
| } | |
| // intWithIdx holds an interval i and an index pairIndex storing i's | |
| // position (either 0 or 1) within some previously specified interval | |
| // pair <I1,I2>; a pairIndex of -1 is used to signal "end of | |
| // iteration". Used for Intervals operations, not expected to be | |
| // exported. | |
| type intWithIdx struct { | |
| i Interval | |
| pairIndex int | |
| } | |
| func (iwi intWithIdx) done() bool { | |
| return iwi.pairIndex == -1 | |
| } | |
| // pairVisitor provides a way to visit (iterate through) each interval | |
| // within a pair of Intervals in order of increasing start time. Expected | |
| // usage model: | |
| // | |
| // func example(i1, i2 Intervals) { | |
| // var pairVisitor pv | |
| // cur := pv.init(i1, i2); | |
| // for !cur.done() { | |
| // fmt.Printf("interval %s from i%d", cur.i.String(), cur.pairIndex+1) | |
| // cur = pv.nxt() | |
| // } | |
| // } | |
| // | |
| // Used internally for Intervals operations, not expected to be exported. | |
| type pairVisitor struct { | |
| cur intWithIdx | |
| i1pos int | |
| i2pos int | |
| i1, i2 Intervals | |
| } | |
| // init initializes a pairVisitor for the specified pair of intervals | |
| // i1 and i2 and returns an intWithIdx object that points to the first | |
| // interval by start position within i1/i2. | |
| func (pv *pairVisitor) init(i1, i2 Intervals) intWithIdx { | |
| pv.i1, pv.i2 = i1, i2 | |
| pv.cur = pv.sel() | |
| return pv.cur | |
| } | |
| // nxt advances the pairVisitor to the next interval by starting | |
| // position within the pair, returning an intWithIdx that describes | |
| // the interval. | |
| func (pv *pairVisitor) nxt() intWithIdx { | |
| if pv.cur.pairIndex == 0 { | |
| pv.i1pos++ | |
| } else { | |
| pv.i2pos++ | |
| } | |
| pv.cur = pv.sel() | |
| return pv.cur | |
| } | |
| // sel is a helper function used by 'init' and 'nxt' above; it selects | |
| // the earlier of the two intervals at the current positions within i1 | |
| // and i2, or a degenerate (pairIndex -1) intWithIdx if we have no | |
| // more intervals to visit. | |
| func (pv *pairVisitor) sel() intWithIdx { | |
| var c1, c2 intWithIdx | |
| if pv.i1pos >= len(pv.i1) { | |
| c1.pairIndex = -1 | |
| } else { | |
| c1 = intWithIdx{i: pv.i1[pv.i1pos], pairIndex: 0} | |
| } | |
| if pv.i2pos >= len(pv.i2) { | |
| c2.pairIndex = -1 | |
| } else { | |
| c2 = intWithIdx{i: pv.i2[pv.i2pos], pairIndex: 1} | |
| } | |
| if c1.pairIndex == -1 { | |
| return c2 | |
| } | |
| if c2.pairIndex == -1 { | |
| return c1 | |
| } | |
| if c1.i.st <= c2.i.st { | |
| return c1 | |
| } | |
| return c2 | |
| } | |
| // Overlaps returns whether any of the component ranges in is overlaps | |
| // with some range in is2. | |
| func (is Intervals) Overlaps(is2 Intervals) bool { | |
| // check for empty intervals | |
| if len(is) == 0 || len(is2) == 0 { | |
| return false | |
| } | |
| li := len(is) | |
| li2 := len(is2) | |
| // check for completely disjoint ranges | |
| if is[li-1].en <= is2[0].st || | |
| is[0].st >= is2[li2-1].en { | |
| return false | |
| } | |
| // walk the combined sets of intervals and check for piecewise | |
| // overlap. | |
| var pv pairVisitor | |
| first := pv.init(is, is2) | |
| for { | |
| second := pv.nxt() | |
| if second.done() { | |
| break | |
| } | |
| if first.pairIndex == second.pairIndex { | |
| first = second | |
| continue | |
| } | |
| if first.i.Overlaps(second.i) { | |
| return true | |
| } | |
| first = second | |
| } | |
| return false | |
| } | |
| // Merge combines the intervals from "is" and "is2" and returns | |
| // a new Intervals object containing all combined ranges from the | |
| // two inputs. | |
| func (is Intervals) Merge(is2 Intervals) Intervals { | |
| if len(is) == 0 { | |
| return is2 | |
| } else if len(is2) == 0 { | |
| return is | |
| } | |
| // walk the combined set of intervals and merge them together. | |
| var ret Intervals | |
| var pv pairVisitor | |
| cur := pv.init(is, is2) | |
| for { | |
| second := pv.nxt() | |
| if second.done() { | |
| break | |
| } | |
| // Check for overlap between cur and second. If no overlap | |
| // then add cur to result and move on. | |
| if !cur.i.Overlaps(second.i) && !cur.i.adjacent(second.i) { | |
| ret = append(ret, cur.i) | |
| cur = second | |
| continue | |
| } | |
| // cur overlaps with second; merge second into cur | |
| cur.i.MergeInto(second.i) | |
| } | |
| ret = append(ret, cur.i) | |
| return ret | |
| } | |