2020-02-16 23:15:54 +03:00
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(system-include "carp_binary.h")
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(defmodule Binary
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(doc Order
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"The type of byte orders.
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LittleEndian designates the little endian ordering, and indicates the least
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significant byte appears first in a given byte sequence.
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BigEndian designates the big endian ordering, and indicates the most
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significant byte occurs first in a given byte sequence.")
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(deftype Order LittleEndian BigEndian)
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(register to-int16 (λ [Byte Byte] Int))
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(register to-int32 (λ [Byte Byte Byte Byte] Int))
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(register to-int64 (λ [Byte Byte Byte Byte Byte Byte Byte Byte] Int))
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(doc bytes->int16-unsafe
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"Interprets the first two bytes in a byte sequence as an int16 value.
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**This operation is unsafe.**")
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(sig bytes->int16-unsafe (Fn [Order (Ref (Array Byte) a)] Int))
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(defn bytes->int16-unsafe [order bs]
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(match order
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(Order.LittleEndian)
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(to-int16 @(Array.unsafe-nth bs 0) @(Array.unsafe-nth bs 1))
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(Order.BigEndian)
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(to-int16 @(Array.unsafe-nth bs 1) @(Array.unsafe-nth bs 0))))
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(doc bytes->int32-unsafe
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"Interprets the first four bytes in a byte sequence as an int32 value.
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**This operation is unsafe.**")
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(sig bytes->int32-unsafe (Fn [Order (Ref (Array Byte))] Int))
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(defn bytes->int32-unsafe [order bs]
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(match order
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(Order.LittleEndian)
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(to-int32 @(Array.unsafe-nth bs 0) @(Array.unsafe-nth bs 1)
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@(Array.unsafe-nth bs 2) @(Array.unsafe-nth bs 3))
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(Order.BigEndian)
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(to-int32 @(Array.unsafe-nth bs 3) @(Array.unsafe-nth bs 2)
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@(Array.unsafe-nth bs 1) @(Array.unsafe-nth bs 0))))
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(doc bytes->int64-unsafe
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"Interprets the first eight bytes in a byte sequence as an int64 value.
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**This operation is unsafe.**")
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(sig bytes->int64-unsafe (Fn [Order (Ref (Array Byte) a)] Int))
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(defn bytes->int64-unsafe [order bs]
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(match order
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(Order.LittleEndian)
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(to-int64 @(Array.unsafe-nth bs 0) @(Array.unsafe-nth bs 1)
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@(Array.unsafe-nth bs 2) @(Array.unsafe-nth bs 3)
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@(Array.unsafe-nth bs 4) @(Array.unsafe-nth bs 5)
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@(Array.unsafe-nth bs 6) @(Array.unsafe-nth bs 7))
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(Order.BigEndian)
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(to-int64 @(Array.unsafe-nth bs 7) @(Array.unsafe-nth bs 6)
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@(Array.unsafe-nth bs 5) @(Array.unsafe-nth bs 4)
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@(Array.unsafe-nth bs 3) @(Array.unsafe-nth bs 2)
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@(Array.unsafe-nth bs 1) @(Array.unsafe-nth bs 0))))
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(doc byte-seq->int8-seq-unsafe
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"Interprets a sequence of bytes as a sequence of int8 values.
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**This operation is unsafe.**")
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(sig byte-seq->int8-seq (Fn [(Ref (Array Byte) a)] (Array Int)))
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(defn byte-seq->int8-seq [bs]
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(let [f (fn [b] (Byte.to-int @b))]
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(Array.copy-map &f bs)))
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(doc byte-seq->int16-seq-unsafe
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"Interprets a sequence of bytes as a sequence of int16 values.
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**This operation is unsafe.**")
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(sig byte-seq->int16-seq (Fn [Order (Ref (Array Byte) a)] (Array Int)))
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(defn byte-seq->int16-seq [order bs]
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;; This is way less efficient than it could be.
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;; Instead of allocating about 4 extra arrays, we can express this
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;; as a fold.
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(let [enum (Array.enumerated bs)]
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(let [evens (Array.copy-filter &(fn [p] (Int.even? @(Pair.a p))) &enum)
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odds (Array.copy-filter &(fn [p] (Int.odd? @(Pair.a p))) &enum)
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intf (fn [r1 r2] (to-int16 @(Pair.b r1) @(Pair.b r2)))]
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(match order
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(Order.LittleEndian) (Array.zip &intf &evens &odds)
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(Order.BigEndian) (Array.zip &intf &odds &evens)))))
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(doc byte-seq->int32-seq-unsafe
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"Interprets a sequence of bytes as a sequence of int32 values.
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**This operation is unsafe.**")
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(sig byte-seq->int32-seq (Fn [Order (Ref (Array Byte) a)] (Array Int)))
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(defn byte-seq->int32-seq [order bs]
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2020-02-16 23:57:38 +03:00
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(let [partitions (Array.partition bs 4)
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2020-02-16 23:15:54 +03:00
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f (fn [b] (bytes->int32-unsafe order b))]
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(Array.copy-map &f &partitions)))
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(doc byte-seq->int64-seq-unsafe
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"Interprets a sequence of bytes as a sequence of int32 values.
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**This operation is unsafe.**")
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(sig byte-seq->int64-seq (Fn [Order (Ref (Array Byte) a)] (Array Int)))
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(defn byte-seq->int64-seq [order bs]
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2020-02-16 23:57:38 +03:00
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(let [partitions (Array.partition bs 8)
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2020-02-16 23:15:54 +03:00
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f (fn [b] (bytes->int64-unsafe order b))]
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(Array.copy-map &f &partitions)))
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)
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