v/vlib/arrays/arrays.v

module arrays

// Common arrays functions:
// - min / max - return the value of the minumum / maximum
// - idx_min / idx_max - return the index of the first minumum / maximum
// - shuffle - randomize array items order in place (allowing exit after n items)
// - merge - combine two sorted arrays and maintain sorted order
import rand

// min returns the minimum
[direct_array_access]
pub fn min<T>(a []T) T {
	if a.len == 0 {
		panic('.min called on an empty array')
	}
	mut val := a[0]
	for i in 0 .. a.len {
		if a[i] < val {
			val = a[i]
		}
	}
	return val
}

// max returns the maximum
[direct_array_access]
pub fn max<T>(a []T) T {
	if a.len == 0 {
		panic('.max called on an empty array')
	}
	mut val := a[0]
	for i in 0 .. a.len {
		if a[i] > val {
			val = a[i]
		}
	}
	return val
}

// idx_min returns the index of the first minimum
[direct_array_access]
pub fn idx_min<T>(a []T) int {
	if a.len == 0 {
		panic('.idxmin called on an empty array')
	}
	mut idx := 0
	mut val := a[0]
	for i in 0 .. a.len {
		if a[i] < val {
			val = a[i]
			idx = i
		}
	}
	return idx
}

// idx_max returns the index of the first maximum
[direct_array_access]
pub fn idx_max<T>(a []T) int {
	if a.len == 0 {
		panic('.idxmax called on an empty array')
	}
	mut idx := 0
	mut val := a[0]
	for i in 0 .. a.len {
		if a[i] > val {
			val = a[i]
			idx = i
		}
	}
	return idx
}

// shuffle randomizes the first n items of an array in place (all if n=0)
[direct_array_access]
pub fn shuffle<T>(mut a []T, n int) {
	if n < 0 || n > a.len {
		panic("shuffle's argument 'n' must be in range [0,a.len]")
	}
	cnt := if n == 0 { a.len - 1 } else { n }
	for i in 0 .. cnt {
		x := rand.int_in_range(i, a.len)
		// swap
		a_i := a[i]
		a[i] = a[x]
		a[x] = a_i
	}
}

// merge two sorted arrays (ascending) and maintain sorted order
[direct_array_access]
pub fn merge<T>(a, b []T) []T {
	mut m := []T{len: a.len + b.len}
	mut ia := 0
	mut ib := 0
	mut j := 0
	// TODO efficient approach to merge_desc where: a[ia] >= b[ib]
	for ia < a.len && ib < b.len {
		if a[ia] <= b[ib] {
			m[j] = a[ia]
			ia++
		} else {
			m[j] = b[ib]
			ib++
		}
		j++
	}
	// a leftovers
	for ia < a.len {
		m[j] = a[ia]
		ia++
		j++
	}
	// b leftovers
	for ib < b.len {
		m[j] = b[ib]
		ib++
		j++
	}
	return m
}
arrays: common methods - min, max, idx_min, idx_max, shuffle, merge (#6177) 2020-09-07 13:50:53 +02:00			`module arrays`

			`// Common arrays functions:`
			`// - min / max - return the value of the minumum / maximum`
			`// - idx_min / idx_max - return the index of the first minumum / maximum`
			`// - shuffle - randomize array items order in place (allowing exit after n items)`
			`// - merge - combine two sorted arrays and maintain sorted order`
			`import rand`

			`// min returns the minimum`
			`[direct_array_access]`
			`pub fn min<T>(a []T) T {`
v test-fmt: reformat some skipped files, comment on the remaining ones 2020-10-14 23:39:09 +02:00			`if a.len == 0 {`
			`panic('.min called on an empty array')`
			`}`
arrays: common methods - min, max, idx_min, idx_max, shuffle, merge (#6177) 2020-09-07 13:50:53 +02:00			`mut val := a[0]`
v test-fmt: reformat some skipped files, comment on the remaining ones 2020-10-14 23:39:09 +02:00			`for i in 0 .. a.len {`
arrays: common methods - min, max, idx_min, idx_max, shuffle, merge (#6177) 2020-09-07 13:50:53 +02:00			`if a[i] < val {`
			`val = a[i]`
			`}`
			`}`
			`return val`
			`}`

			`// max returns the maximum`
			`[direct_array_access]`
			`pub fn max<T>(a []T) T {`
v test-fmt: reformat some skipped files, comment on the remaining ones 2020-10-14 23:39:09 +02:00			`if a.len == 0 {`
			`panic('.max called on an empty array')`
			`}`
arrays: common methods - min, max, idx_min, idx_max, shuffle, merge (#6177) 2020-09-07 13:50:53 +02:00			`mut val := a[0]`
v test-fmt: reformat some skipped files, comment on the remaining ones 2020-10-14 23:39:09 +02:00			`for i in 0 .. a.len {`
arrays: common methods - min, max, idx_min, idx_max, shuffle, merge (#6177) 2020-09-07 13:50:53 +02:00			`if a[i] > val {`
			`val = a[i]`
			`}`
			`}`
			`return val`
			`}`

			`// idx_min returns the index of the first minimum`
			`[direct_array_access]`
			`pub fn idx_min<T>(a []T) int {`
v test-fmt: reformat some skipped files, comment on the remaining ones 2020-10-14 23:39:09 +02:00			`if a.len == 0 {`
			`panic('.idxmin called on an empty array')`
			`}`
arrays: common methods - min, max, idx_min, idx_max, shuffle, merge (#6177) 2020-09-07 13:50:53 +02:00			`mut idx := 0`
			`mut val := a[0]`
v test-fmt: reformat some skipped files, comment on the remaining ones 2020-10-14 23:39:09 +02:00			`for i in 0 .. a.len {`
arrays: common methods - min, max, idx_min, idx_max, shuffle, merge (#6177) 2020-09-07 13:50:53 +02:00			`if a[i] < val {`
			`val = a[i]`
			`idx = i`
			`}`
			`}`
			`return idx`
			`}`

			`// idx_max returns the index of the first maximum`
			`[direct_array_access]`
			`pub fn idx_max<T>(a []T) int {`
v test-fmt: reformat some skipped files, comment on the remaining ones 2020-10-14 23:39:09 +02:00			`if a.len == 0 {`
			`panic('.idxmax called on an empty array')`
			`}`
arrays: common methods - min, max, idx_min, idx_max, shuffle, merge (#6177) 2020-09-07 13:50:53 +02:00			`mut idx := 0`
			`mut val := a[0]`
v test-fmt: reformat some skipped files, comment on the remaining ones 2020-10-14 23:39:09 +02:00			`for i in 0 .. a.len {`
arrays: common methods - min, max, idx_min, idx_max, shuffle, merge (#6177) 2020-09-07 13:50:53 +02:00			`if a[i] > val {`
			`val = a[i]`
			`idx = i`
			`}`
			`}`
			`return idx`
			`}`

			`// shuffle randomizes the first n items of an array in place (all if n=0)`
			`[direct_array_access]`
			`pub fn shuffle<T>(mut a []T, n int) {`
v test-fmt: reformat some skipped files, comment on the remaining ones 2020-10-14 23:39:09 +02:00			`if n < 0 \|\| n > a.len {`
			`panic("shuffle's argument 'n' must be in range [0,a.len]")`
			`}`
			`cnt := if n == 0 { a.len - 1 } else { n }`
			`for i in 0 .. cnt {`
			`x := rand.int_in_range(i, a.len)`
arrays: common methods - min, max, idx_min, idx_max, shuffle, merge (#6177) 2020-09-07 13:50:53 +02:00			`// swap`
			`a_i := a[i]`
			`a[i] = a[x]`
			`a[x] = a_i`
			`}`
			`}`

			`// merge two sorted arrays (ascending) and maintain sorted order`
			`[direct_array_access]`
v test-fmt: reformat some skipped files, comment on the remaining ones 2020-10-14 23:39:09 +02:00			`pub fn merge<T>(a, b []T) []T {`
			`mut m := []T{len: a.len + b.len}`
arrays: common methods - min, max, idx_min, idx_max, shuffle, merge (#6177) 2020-09-07 13:50:53 +02:00			`mut ia := 0`
			`mut ib := 0`
			`mut j := 0`
			`// TODO efficient approach to merge_desc where: a[ia] >= b[ib]`
v test-fmt: reformat some skipped files, comment on the remaining ones 2020-10-14 23:39:09 +02:00			`for ia < a.len && ib < b.len {`
arrays: common methods - min, max, idx_min, idx_max, shuffle, merge (#6177) 2020-09-07 13:50:53 +02:00			`if a[ia] <= b[ib] {`
			`m[j] = a[ia]`
			`ia++`
			`} else {`
			`m[j] = b[ib]`
			`ib++`
			`}`
			`j++`
			`}`
			`// a leftovers`
			`for ia < a.len {`
			`m[j] = a[ia]`
			`ia++`
			`j++`
			`}`
			`// b leftovers`
			`for ib < b.len {`
			`m[j] = b[ib]`
			`ib++`
			`j++`
			`}`
			`return m`
			`}`