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arrays,docs: remove arrays.zip; improve docs (#13082)
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@ -6,7 +6,8 @@ module arrays
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// - merge - combine two sorted arrays and maintain sorted order
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// - chunk - chunk array to arrays with n elements
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// - window - get snapshots of the window of the given size sliding along array with the given step, where each snapshot is an array
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// - TODO: zip - merge two arrays by interleaving e.g. arrays.zip([1,3,5], [2,4,6]) => [1,2,3,4,5,6]
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// - group - merge two arrays by interleaving e.g. arrays.group([1,3,5], [2,4,6]) => [[1,2],[3,4],[5,6]]
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// - flatten - reduce dimensionality of array by one. e.g. arrays.flatten([[1,2],[3,4],[5,6]]) => [1,2,3,4,5,6]
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// min returns the minimum value in the array
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// Example: arrays.min([1,2,3,0,9]) // => 0
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@ -107,7 +108,11 @@ pub fn merge<T>(a []T, b []T) []T {
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}
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// group n arrays into a single array of arrays with n elements
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// (an error will be generated if the type annotation is omitted)
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//
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// This function is analogous to the "zip" function of other languages.
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// To fully interleave two arrays, follow this function with a call to `flatten`.
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//
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// NOTE: An error will be generated if the type annotation is omitted.
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// Example: arrays.group<int>([1,2,3],[4,5,6]) // => [[1, 4], [2, 5], [3, 6]]
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pub fn group<T>(lists ...[]T) [][]T {
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mut length := if lists.len > 0 { lists[0].len } else { 0 }
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@ -122,12 +127,12 @@ pub fn group<T>(lists ...[]T) [][]T {
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mut arr := [][]T{cap: length}
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// append all combined arrays into the resultant array
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for ndx in 0 .. length {
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mut zipped := []T{cap: lists.len}
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mut grouped := []T{cap: lists.len}
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// combine each list item for the ndx position into one array
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for list_ndx in 0 .. lists.len {
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zipped << lists[list_ndx][ndx]
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grouped << lists[list_ndx][ndx]
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}
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arr << zipped
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arr << grouped
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}
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return arr
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}
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@ -305,30 +310,6 @@ pub fn concat<T>(a []T, b ...T) []T {
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return m
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}
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// zip returns a new array by interleaving the source arrays.
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//
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// NOTE: The two arrays do not need to be equal sizes
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// Example: arrays.zip([1, 3, 5, 7], [2, 4, 6, 8, 10]) // => [1, 2, 3, 4, 5, 6, 7, 8, 10]
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pub fn zip<T>(a []T, b []T) []T {
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mut m := []T{cap: a.len + b.len}
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mut i := 0
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for i < m.cap {
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// short-circuit the rest of the loop as soon as we can
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if i >= a.len {
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m << b[i..]
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break
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}
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if i >= b.len {
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m << a[i..]
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break
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}
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m << a[i]
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m << b[i]
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i++
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}
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return m
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}
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// returns the smallest element >= val, requires `arr` to be sorted
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// Example: arrays.lower_bound([2, 4, 6, 8], 3)? // => 4
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pub fn lower_bound<T>(arr []T, val T) ?T {
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@ -4,3 +4,7 @@
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It implements the builtin V types `array`, `string`, `map`.
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It also implements builtin functions like `println`, `eprintln`, `malloc`,
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`panic`, `print_backtrace`.
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The autogenerated documentation for builtin functions is lacking,
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so for these functions, please refer to the
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[official V documentation](https://github.com/vlang/v/blob/master/doc/docs.md).
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@ -59,12 +59,13 @@ pub fn (o Option) str() string {
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return 'Option{ error: "$o.err" }'
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}
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// trace_error prints to stderr a string and a backtrace of the error
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fn trace_error(x string) {
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eprintln('> ${@FN} | $x')
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}
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// error returns a default error instance containing the error given in `message`.
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// Example: `if ouch { return error('an error occurred') }`
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// Example: if ouch { return error('an error occurred') }
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[inline]
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pub fn error(message string) IError {
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// trace_error(message)
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@ -74,7 +75,7 @@ pub fn error(message string) IError {
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}
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// error_with_code returns a default error instance containing the given `message` and error `code`.
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// `if ouch { return error_with_code('an error occurred', 1) }`
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// Example: if ouch { return error_with_code('an error occurred', 1) }
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[inline]
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pub fn error_with_code(message string, code int) IError {
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// trace_error('$message | code: $code')
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@ -84,7 +85,8 @@ pub fn error_with_code(message string, code int) IError {
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}
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}
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// free allows for manually freeing memory allocated at the address `ptr`. no-op on JS backend
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// free allows for manually freeing memory allocated at the address `ptr`.
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// However, this is a no-op on JS backend
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[unsafe]
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pub fn free(ptr voidptr) {
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_ := ptr
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@ -97,42 +97,42 @@ fn C.saudio_expect() int
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fn C.saudio_push(frames &f32, num_frames int) int
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// audio.setup - setup sokol-audio
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// setup - setup sokol-audio
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pub fn setup(desc C.saudio_desc) {
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C.saudio_setup(&desc)
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}
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// audio.shutdown - shutdown sokol-audio
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// shutdown - shutdown sokol-audio
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pub fn shutdown() {
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C.saudio_shutdown()
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}
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// audio.is_valid - true after setup if audio backend was successfully initialized
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// is_valid - true after setup if audio backend was successfully initialized
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pub fn is_valid() bool {
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return C.saudio_isvalid()
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}
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// audio.userdata - return the saudio_desc.user_data pointer
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// userdata - return the saudio_desc.user_data pointer
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pub fn user_data() voidptr {
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return C.saudio_userdata()
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}
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// audio.query - return a copy of the original saudio_desc struct
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// query - return a copy of the original saudio_desc struct
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pub fn query() C.saudio_desc {
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return C.saudio_query_desc()
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}
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// audio.sample_rate - return the actual sample rate
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// sample_rate - return the actual sample rate
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pub fn sample_rate() int {
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return C.saudio_sample_rate()
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}
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// audio.buffer_frames - return the actual backend buffer size in number of frames
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// buffer_frames - return the actual backend buffer size in number of frames
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pub fn buffer_frames() int {
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return C.saudio_buffer_frames()
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}
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// audio.channels - return the actual number of channels
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// channels - return the actual number of channels
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pub fn channels() int {
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return C.saudio_channels()
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}
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@ -143,17 +143,17 @@ pub fn suspended() bool {
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return C.saudio_suspended()
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}
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// audio.expect - get current number of frames to fill packet queue; use in combination with audio.push
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// expect - get current number of frames to fill packet queue; use in combination with audio.push
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pub fn expect() int {
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return C.saudio_expect()
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}
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// audio.push - push sample frames from main thread, returns number of frames actually pushed
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// push - push sample frames from main thread, returns number of frames actually pushed
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pub fn push(frames &f32, num_frames int) int {
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return C.saudio_push(frames, num_frames)
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}
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// audio.fclamp - helper function to 'clamp' a number to a certain range
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// fclamp - helper function to 'clamp' a number to a certain range
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// Example: realsample := audio.fclamp(sample, -1.0, 1.0)
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[inline]
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pub fn fclamp(x f32, flo f32, fhi f32) f32 {
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@ -166,9 +166,9 @@ pub fn fclamp(x f32, flo f32, fhi f32) f32 {
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return x
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}
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// audio.min - helper function to return the smaller of two numbers
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// min - helper function to return the smaller of two numbers
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//
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// math.min returns `f32` values, this returns `int` values
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// NOTE: math.min returns `f32` values, this returns `int` values
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// Example: smaller := audio.min(1, 5) // smaller == 1
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pub fn min(x int, y int) int {
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if x < y {
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@ -177,9 +177,9 @@ pub fn min(x int, y int) int {
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return y
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}
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// audio.max - helper function to return the larger of two numbers
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// max - helper function to return the larger of two numbers
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//
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// math.max returns `f32` values, this returns `int` values
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// NOTE: math.max returns `f32` values, this returns `int` values
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// Example: larger := audio.max(1, 5) // larger == 5
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pub fn max(x int, y int) int {
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if x < y {
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