// Generated by tmpl // https://github.com/benbjohnson/tmpl // // DO NOT EDIT! // Source: encoding.gen.go.tmpl package tsm1 import ( "fmt" "sort" ) // Values represents a slice of values. type Values []Value func (a Values) MinTime() int64 { return a[0].UnixNano() } func (a Values) MaxTime() int64 { return a[len(a)-1].UnixNano() } func (a Values) Size() int { sz := 0 for _, v := range a { sz += v.Size() } return sz } func (a Values) assertOrdered() { if len(a) <= 1 { return } for i := 1; i < len(a); i++ { if av, ab := a[i-1].UnixNano(), a[i].UnixNano(); av >= ab { panic(fmt.Sprintf("not ordered: %d %d >= %d", i, av, ab)) } } } // Deduplicate returns a new slice with any values that have the same timestamp removed. // The Value that appears last in the slice is the one that is kept. func (a Values) Deduplicate() Values { m := make(map[int64]Value) for _, val := range a { m[val.UnixNano()] = val } other := make(Values, 0, len(m)) for _, val := range m { other = append(other, val) } sort.Sort(other) return other } // Exclude returns the subset of values not in [min, max] func (a Values) Exclude(min, max int64) Values { var i int for j := 0; j < len(a); j++ { if a[j].UnixNano() >= min && a[j].UnixNano() <= max { continue } a[i] = a[j] i++ } return a[:i] } // Include returns the subset values between min and max inclusive. func (a Values) Include(min, max int64) Values { var i int for j := 0; j < len(a); j++ { if a[j].UnixNano() < min || a[j].UnixNano() > max { continue } a[i] = a[j] i++ } return a[:i] } // Merge overlays b to top of a. If two values conflict with // the same timestamp, b is used. Both a and b must be sorted // in ascending order. func (a Values) Merge(b Values) Values { if len(a) == 0 { return b } if len(b) == 0 { return a } if a[len(a)-1].UnixNano() < b[0].UnixNano() { return append(a, b...) } if b[len(b)-1].UnixNano() < a[0].UnixNano() { return append(b, a...) } for i := 0; i < len(a) && len(b) > 0; i++ { av, bv := a[i].UnixNano(), b[0].UnixNano() // Value in a is greater than B, we need to merge if av > bv { // Save value in a temp := a[i] // Overwrite a with b a[i] = b[0] // Slide all values of b down 1 copy(b, b[1:]) b = b[:len(b)-1] var k int if len(b) > 0 && av > b[len(b)-1].UnixNano() { // Fast path where a is after b, we skip the search k = len(b) } else { // See where value we save from a should be inserted in b to keep b sorted k = sort.Search(len(b), func(i int) bool { return b[i].UnixNano() >= temp.UnixNano() }) } if k == len(b) { // Last position? b = append(b, temp) } else if b[k].UnixNano() != temp.UnixNano() { // Save the last element, since it will get overwritten last := b[len(b)-1] // Somewhere in the middle of b, insert it only if it's not a duplicate copy(b[k+1:], b[k:]) // Add the last vale to the end b = append(b, last) b[k] = temp } } else if av == bv { // Value in a an b are the same, use b a[i] = b[0] b = b[1:] } } if len(b) > 0 { return append(a, b...) } return a } // Sort methods func (a Values) Len() int { return len(a) } func (a Values) Swap(i, j int) { a[i], a[j] = a[j], a[i] } func (a Values) Less(i, j int) bool { return a[i].UnixNano() < a[j].UnixNano() } // FloatValues represents a slice of Float values. type FloatValues []FloatValue func (a FloatValues) MinTime() int64 { return a[0].UnixNano() } func (a FloatValues) MaxTime() int64 { return a[len(a)-1].UnixNano() } func (a FloatValues) Size() int { sz := 0 for _, v := range a { sz += v.Size() } return sz } func (a FloatValues) assertOrdered() { if len(a) <= 1 { return } for i := 1; i < len(a); i++ { if av, ab := a[i-1].UnixNano(), a[i].UnixNano(); av >= ab { panic(fmt.Sprintf("not ordered: %d %d >= %d", i, av, ab)) } } } // Deduplicate returns a new slice with any values that have the same timestamp removed. // The Value that appears last in the slice is the one that is kept. func (a FloatValues) Deduplicate() FloatValues { m := make(map[int64]FloatValue) for _, val := range a { m[val.UnixNano()] = val } other := make(FloatValues, 0, len(m)) for _, val := range m { other = append(other, val) } sort.Sort(other) return other } // Exclude returns the subset of values not in [min, max] func (a FloatValues) Exclude(min, max int64) FloatValues { var i int for j := 0; j < len(a); j++ { if a[j].UnixNano() >= min && a[j].UnixNano() <= max { continue } a[i] = a[j] i++ } return a[:i] } // Include returns the subset values between min and max inclusive. func (a FloatValues) Include(min, max int64) FloatValues { var i int for j := 0; j < len(a); j++ { if a[j].UnixNano() < min || a[j].UnixNano() > max { continue } a[i] = a[j] i++ } return a[:i] } // Merge overlays b to top of a. If two values conflict with // the same timestamp, b is used. Both a and b must be sorted // in ascending order. func (a FloatValues) Merge(b FloatValues) FloatValues { if len(a) == 0 { return b } if len(b) == 0 { return a } if a[len(a)-1].UnixNano() < b[0].UnixNano() { return append(a, b...) } if b[len(b)-1].UnixNano() < a[0].UnixNano() { return append(b, a...) } for i := 0; i < len(a) && len(b) > 0; i++ { av, bv := a[i].UnixNano(), b[0].UnixNano() // Value in a is greater than B, we need to merge if av > bv { // Save value in a temp := a[i] // Overwrite a with b a[i] = b[0] // Slide all values of b down 1 copy(b, b[1:]) b = b[:len(b)-1] var k int if len(b) > 0 && av > b[len(b)-1].UnixNano() { // Fast path where a is after b, we skip the search k = len(b) } else { // See where value we save from a should be inserted in b to keep b sorted k = sort.Search(len(b), func(i int) bool { return b[i].UnixNano() >= temp.UnixNano() }) } if k == len(b) { // Last position? b = append(b, temp) } else if b[k].UnixNano() != temp.UnixNano() { // Save the last element, since it will get overwritten last := b[len(b)-1] // Somewhere in the middle of b, insert it only if it's not a duplicate copy(b[k+1:], b[k:]) // Add the last vale to the end b = append(b, last) b[k] = temp } } else if av == bv { // Value in a an b are the same, use b a[i] = b[0] b = b[1:] } } if len(b) > 0 { return append(a, b...) } return a } // Sort methods func (a FloatValues) Len() int { return len(a) } func (a FloatValues) Swap(i, j int) { a[i], a[j] = a[j], a[i] } func (a FloatValues) Less(i, j int) bool { return a[i].UnixNano() < a[j].UnixNano() } // IntegerValues represents a slice of Integer values. type IntegerValues []IntegerValue func (a IntegerValues) MinTime() int64 { return a[0].UnixNano() } func (a IntegerValues) MaxTime() int64 { return a[len(a)-1].UnixNano() } func (a IntegerValues) Size() int { sz := 0 for _, v := range a { sz += v.Size() } return sz } func (a IntegerValues) assertOrdered() { if len(a) <= 1 { return } for i := 1; i < len(a); i++ { if av, ab := a[i-1].UnixNano(), a[i].UnixNano(); av >= ab { panic(fmt.Sprintf("not ordered: %d %d >= %d", i, av, ab)) } } } // Deduplicate returns a new slice with any values that have the same timestamp removed. // The Value that appears last in the slice is the one that is kept. func (a IntegerValues) Deduplicate() IntegerValues { m := make(map[int64]IntegerValue) for _, val := range a { m[val.UnixNano()] = val } other := make(IntegerValues, 0, len(m)) for _, val := range m { other = append(other, val) } sort.Sort(other) return other } // Exclude returns the subset of values not in [min, max] func (a IntegerValues) Exclude(min, max int64) IntegerValues { var i int for j := 0; j < len(a); j++ { if a[j].UnixNano() >= min && a[j].UnixNano() <= max { continue } a[i] = a[j] i++ } return a[:i] } // Include returns the subset values between min and max inclusive. func (a IntegerValues) Include(min, max int64) IntegerValues { var i int for j := 0; j < len(a); j++ { if a[j].UnixNano() < min || a[j].UnixNano() > max { continue } a[i] = a[j] i++ } return a[:i] } // Merge overlays b to top of a. If two values conflict with // the same timestamp, b is used. Both a and b must be sorted // in ascending order. func (a IntegerValues) Merge(b IntegerValues) IntegerValues { if len(a) == 0 { return b } if len(b) == 0 { return a } if a[len(a)-1].UnixNano() < b[0].UnixNano() { return append(a, b...) } if b[len(b)-1].UnixNano() < a[0].UnixNano() { return append(b, a...) } for i := 0; i < len(a) && len(b) > 0; i++ { av, bv := a[i].UnixNano(), b[0].UnixNano() // Value in a is greater than B, we need to merge if av > bv { // Save value in a temp := a[i] // Overwrite a with b a[i] = b[0] // Slide all values of b down 1 copy(b, b[1:]) b = b[:len(b)-1] var k int if len(b) > 0 && av > b[len(b)-1].UnixNano() { // Fast path where a is after b, we skip the search k = len(b) } else { // See where value we save from a should be inserted in b to keep b sorted k = sort.Search(len(b), func(i int) bool { return b[i].UnixNano() >= temp.UnixNano() }) } if k == len(b) { // Last position? b = append(b, temp) } else if b[k].UnixNano() != temp.UnixNano() { // Save the last element, since it will get overwritten last := b[len(b)-1] // Somewhere in the middle of b, insert it only if it's not a duplicate copy(b[k+1:], b[k:]) // Add the last vale to the end b = append(b, last) b[k] = temp } } else if av == bv { // Value in a an b are the same, use b a[i] = b[0] b = b[1:] } } if len(b) > 0 { return append(a, b...) } return a } // Sort methods func (a IntegerValues) Len() int { return len(a) } func (a IntegerValues) Swap(i, j int) { a[i], a[j] = a[j], a[i] } func (a IntegerValues) Less(i, j int) bool { return a[i].UnixNano() < a[j].UnixNano() } // StringValues represents a slice of String values. type StringValues []StringValue func (a StringValues) MinTime() int64 { return a[0].UnixNano() } func (a StringValues) MaxTime() int64 { return a[len(a)-1].UnixNano() } func (a StringValues) Size() int { sz := 0 for _, v := range a { sz += v.Size() } return sz } func (a StringValues) assertOrdered() { if len(a) <= 1 { return } for i := 1; i < len(a); i++ { if av, ab := a[i-1].UnixNano(), a[i].UnixNano(); av >= ab { panic(fmt.Sprintf("not ordered: %d %d >= %d", i, av, ab)) } } } // Deduplicate returns a new slice with any values that have the same timestamp removed. // The Value that appears last in the slice is the one that is kept. func (a StringValues) Deduplicate() StringValues { m := make(map[int64]StringValue) for _, val := range a { m[val.UnixNano()] = val } other := make(StringValues, 0, len(m)) for _, val := range m { other = append(other, val) } sort.Sort(other) return other } // Exclude returns the subset of values not in [min, max] func (a StringValues) Exclude(min, max int64) StringValues { var i int for j := 0; j < len(a); j++ { if a[j].UnixNano() >= min && a[j].UnixNano() <= max { continue } a[i] = a[j] i++ } return a[:i] } // Include returns the subset values between min and max inclusive. func (a StringValues) Include(min, max int64) StringValues { var i int for j := 0; j < len(a); j++ { if a[j].UnixNano() < min || a[j].UnixNano() > max { continue } a[i] = a[j] i++ } return a[:i] } // Merge overlays b to top of a. If two values conflict with // the same timestamp, b is used. Both a and b must be sorted // in ascending order. func (a StringValues) Merge(b StringValues) StringValues { if len(a) == 0 { return b } if len(b) == 0 { return a } if a[len(a)-1].UnixNano() < b[0].UnixNano() { return append(a, b...) } if b[len(b)-1].UnixNano() < a[0].UnixNano() { return append(b, a...) } for i := 0; i < len(a) && len(b) > 0; i++ { av, bv := a[i].UnixNano(), b[0].UnixNano() // Value in a is greater than B, we need to merge if av > bv { // Save value in a temp := a[i] // Overwrite a with b a[i] = b[0] // Slide all values of b down 1 copy(b, b[1:]) b = b[:len(b)-1] var k int if len(b) > 0 && av > b[len(b)-1].UnixNano() { // Fast path where a is after b, we skip the search k = len(b) } else { // See where value we save from a should be inserted in b to keep b sorted k = sort.Search(len(b), func(i int) bool { return b[i].UnixNano() >= temp.UnixNano() }) } if k == len(b) { // Last position? b = append(b, temp) } else if b[k].UnixNano() != temp.UnixNano() { // Save the last element, since it will get overwritten last := b[len(b)-1] // Somewhere in the middle of b, insert it only if it's not a duplicate copy(b[k+1:], b[k:]) // Add the last vale to the end b = append(b, last) b[k] = temp } } else if av == bv { // Value in a an b are the same, use b a[i] = b[0] b = b[1:] } } if len(b) > 0 { return append(a, b...) } return a } // Sort methods func (a StringValues) Len() int { return len(a) } func (a StringValues) Swap(i, j int) { a[i], a[j] = a[j], a[i] } func (a StringValues) Less(i, j int) bool { return a[i].UnixNano() < a[j].UnixNano() } // BooleanValues represents a slice of Boolean values. type BooleanValues []BooleanValue func (a BooleanValues) MinTime() int64 { return a[0].UnixNano() } func (a BooleanValues) MaxTime() int64 { return a[len(a)-1].UnixNano() } func (a BooleanValues) Size() int { sz := 0 for _, v := range a { sz += v.Size() } return sz } func (a BooleanValues) assertOrdered() { if len(a) <= 1 { return } for i := 1; i < len(a); i++ { if av, ab := a[i-1].UnixNano(), a[i].UnixNano(); av >= ab { panic(fmt.Sprintf("not ordered: %d %d >= %d", i, av, ab)) } } } // Deduplicate returns a new slice with any values that have the same timestamp removed. // The Value that appears last in the slice is the one that is kept. func (a BooleanValues) Deduplicate() BooleanValues { m := make(map[int64]BooleanValue) for _, val := range a { m[val.UnixNano()] = val } other := make(BooleanValues, 0, len(m)) for _, val := range m { other = append(other, val) } sort.Sort(other) return other } // Exclude returns the subset of values not in [min, max] func (a BooleanValues) Exclude(min, max int64) BooleanValues { var i int for j := 0; j < len(a); j++ { if a[j].UnixNano() >= min && a[j].UnixNano() <= max { continue } a[i] = a[j] i++ } return a[:i] } // Include returns the subset values between min and max inclusive. func (a BooleanValues) Include(min, max int64) BooleanValues { var i int for j := 0; j < len(a); j++ { if a[j].UnixNano() < min || a[j].UnixNano() > max { continue } a[i] = a[j] i++ } return a[:i] } // Merge overlays b to top of a. If two values conflict with // the same timestamp, b is used. Both a and b must be sorted // in ascending order. func (a BooleanValues) Merge(b BooleanValues) BooleanValues { if len(a) == 0 { return b } if len(b) == 0 { return a } if a[len(a)-1].UnixNano() < b[0].UnixNano() { return append(a, b...) } if b[len(b)-1].UnixNano() < a[0].UnixNano() { return append(b, a...) } for i := 0; i < len(a) && len(b) > 0; i++ { av, bv := a[i].UnixNano(), b[0].UnixNano() // Value in a is greater than B, we need to merge if av > bv { // Save value in a temp := a[i] // Overwrite a with b a[i] = b[0] // Slide all values of b down 1 copy(b, b[1:]) b = b[:len(b)-1] var k int if len(b) > 0 && av > b[len(b)-1].UnixNano() { // Fast path where a is after b, we skip the search k = len(b) } else { // See where value we save from a should be inserted in b to keep b sorted k = sort.Search(len(b), func(i int) bool { return b[i].UnixNano() >= temp.UnixNano() }) } if k == len(b) { // Last position? b = append(b, temp) } else if b[k].UnixNano() != temp.UnixNano() { // Save the last element, since it will get overwritten last := b[len(b)-1] // Somewhere in the middle of b, insert it only if it's not a duplicate copy(b[k+1:], b[k:]) // Add the last vale to the end b = append(b, last) b[k] = temp } } else if av == bv { // Value in a an b are the same, use b a[i] = b[0] b = b[1:] } } if len(b) > 0 { return append(a, b...) } return a } // Sort methods func (a BooleanValues) Len() int { return len(a) } func (a BooleanValues) Swap(i, j int) { a[i], a[j] = a[j], a[i] } func (a BooleanValues) Less(i, j int) bool { return a[i].UnixNano() < a[j].UnixNano() }