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https://github.com/janet-lang/janet
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Multisyms for easier access into structures.
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@ -1,21 +1,21 @@
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# A game of life implementation
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(def- window
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(fora [x :range [-1 2]
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(seq [x :range [-1 2]
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y :range [-1 2]
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:when (not (and (zero? x) (zero? y)))]
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(tuple x y)))
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(defn- neighbors
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[[x y]]
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(mapa (fn [[x1 y1]] (tuple (+ x x1) (+ y y1))) window))
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(map (fn [[x1 y1]] (tuple (+ x x1) (+ y y1))) window))
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(defn tick
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"Get the next state in the Game Of Life."
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[state]
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(def cell-set (frequencies state))
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(def neighbor-set (frequencies (mapcat neighbors state)))
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(fora [coord :keys neighbor-set
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(seq [coord :keys neighbor-set
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:let [count (get neighbor-set coord)]
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:when (or (= count 3) (and (get cell-set coord) (= count 2)))]
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coord))
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@ -24,7 +24,7 @@
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"Draw cells in the game of life from (x1, y1) to (x2, y2)"
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[state x1 y1 x2 y2]
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(def cellset @{})
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(loop [cell :in state] (put cellset cell true))
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(each cell state (put cellset cell true))
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(loop [x :range [x1 (+ 1 x2)]
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:after (print)
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y :range [y1 (+ 1 y2)]]
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@ -37,7 +37,7 @@
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(var *state* '[(0 0) (-1 0) (1 0) (1 1) (0 2)])
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(loop [i :range [0 20]]
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(for i 0 20
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(print "generation " i)
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(draw *state* -7 -7 7 7)
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(:= *state* (tick *state*)))
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@ -1,73 +0,0 @@
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# Simpler iteration primitives example.
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(defn- iter-for
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[prelude binding start end body]
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(def $end (gensym))
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(tuple 'do
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prelude
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(tuple 'var binding start)
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(tuple 'def $end end)
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(tuple 'while (tuple < binding $end)
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body
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(tuple '++ binding))))
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(defn- iter-keys
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[prelude binding tab body]
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(tuple 'do
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prelude
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(tuple 'var binding (tuple next tab nil))
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(tuple 'while (tuple not= nil binding)
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body
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(tuple := binding (tuple next tab binding)))))
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(defmacro do-range
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"Iterate over a half open integer range."
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[binding start end & body]
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(def $iter (gensym))
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(iter-for nil $iter start end
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(apply tuple 'do (tuple 'def binding $iter) body)))
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(defmacro each
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"Iterate over an indexed data structure."
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[binding ind & body]
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(def $iter (gensym))
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(def $ind (gensym))
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(iter-for (tuple 'def $ind ind)
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$iter 0 (tuple length $ind)
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(apply tuple 'do (tuple 'def binding (tuple get $ind $iter)) body)))
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(defmacro each-key
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"Iterate over keys of a table or structure."
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[binding tab & body]
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(def $tab (gensym))
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(def $key (gensym))
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(iter-keys
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(tuple 'def $tab tab)
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$key
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$tab
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(apply tuple 'do (tuple 'def binding $key) body)))
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(defmacro each-value
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"Iterate over values of a table or structure."
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[binding tab & body]
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(def $tab (gensym))
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(def $key (gensym))
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(iter-keys
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(tuple 'def $tab tab)
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$key
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$tab
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(apply tuple 'do (tuple 'def binding (tuple 'get $tab $key)) body)))
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(defmacro each-pair
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"Iterate over keys and values of a table or structure."
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[k v tab & body]
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(def $tab (gensym))
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(def $key (gensym))
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(iter-keys
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(tuple 'def $tab tab)
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$key
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$tab
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(apply tuple 'do
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(tuple 'def k $key)
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(tuple 'def v (tuple 'get $tab $key)) body)))
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@ -4,10 +4,10 @@
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"Returns a list of prime numbers less than n."
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[n]
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(def list @[])
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(loop [i :range [2 n]]
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(for i 2 n
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(var isprime? true)
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(def len (length list))
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(loop [j :range [0 len]]
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(for j 0 len
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(def trial (get list j))
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(if (zero? (% i trial)) (:= isprime? false)))
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(if isprime? (array.push list i)))
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@ -421,14 +421,6 @@ static JanetSlot janetc_bufferctor(JanetFopts opts, Janet x) {
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JOP_MAKE_BUFFER);
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}
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static JanetSlot janetc_symbol(JanetFopts opts, const uint8_t *sym) {
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if (janet_string_length(sym) && sym[0] != ':') {
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return janetc_resolve(opts.compiler, sym);
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} else {
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return janetc_cslot(janet_wrap_symbol(sym));
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}
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}
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/* Expand a macro one time. Also get the special form compiler if we
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* find that instead. */
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static int macroexpand1(
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@ -532,7 +524,7 @@ JanetSlot janetc_value(JanetFopts opts, Janet x) {
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}
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break;
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case JANET_SYMBOL:
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ret = janetc_symbol(opts, janet_unwrap_symbol(x));
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ret = janetc_sym_rvalue(opts, janet_unwrap_symbol(x));
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break;
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case JANET_ARRAY:
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ret = janetc_array(opts, x);
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@ -237,4 +237,10 @@ JanetSlot janetc_cslot(Janet x);
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/* Search for a symbol */
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JanetSlot janetc_resolve(JanetCompiler *c, const uint8_t *sym);
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/* Compile a symbol (or mutltisym) when used as an rvalue. */
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JanetSlot janetc_sym_rvalue(JanetFopts opts, const uint8_t *sym);
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/* Compile an assignment to a symbol (or multisym) */
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JanetSlot janetc_sym_lvalue(JanetFopts opts, const uint8_t *sym, Janet value);
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#endif
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@ -120,6 +120,7 @@
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(defn true? "Check if x is true." [x] (= x true))
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(defn false? "Check if x is false." [x] (= x false))
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(defn nil? "Check if x is nil." [x] (= x nil))
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(defn empty? "Check if xs is empty." [xs] (= 0 (length xs)))
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(def atomic?
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"(atomic? x)\n\nCheck if x is a value that evaluates to itself when compiled."
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(do
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@ -257,10 +258,10 @@
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(defmacro loop
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"A general purpose loop macro. This macro is similar to the Common Lisp
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loop macro, although intentonally much smaller in scope.
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The head of the loop shoud be a tuple that contains a sequence of
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loop macro, although intentionally much smaller in scope.
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The head of the loop should be a tuple that contains a sequence of
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either bindings or conditionals. A binding is a sequence of three values
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that define someting to loop over. They are formatted like:\n\n
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that define something to loop over. They are formatted like:\n\n
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\tbinding :verb object/expression\n\n
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Where binding is a binding as passed to def, :verb is one of a set of keywords,
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and object is any janet expression. The available verbs are:\n\n
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@ -388,7 +389,7 @@
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(error (string "unexpected loop verb: " verb)))))))
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(tuple 'do (doone 0 nil) nil))
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(defmacro fora
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(defmacro seq
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"Similar to loop, but accumulates the loop body into an array and returns that.
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See loop for details."
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[head & body]
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@ -400,18 +401,6 @@
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(tuple.prepend body 'do)))
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$accum))
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(defmacro for
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"Similar to loop, but accumulates the loop body into a tuple and returns that.
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See loop for details."
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[head & body]
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(def $accum (gensym))
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(tuple 'do
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(tuple 'def $accum @[])
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(tuple 'loop head
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(tuple array.push $accum
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(tuple.prepend body 'do)))
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(tuple tuple.slice $accum 0)))
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(defmacro generate
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"Create a generator expression using the loop syntax. Returns a fiber
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that yields all values inside the loop in order. See loop for details."
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@ -421,6 +410,16 @@
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(tuple 'fn '[&]
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(tuple 'loop head (tuple yield (tuple.prepend body 'do))))))
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(defmacro for
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"Do a c style for loop for side effects. Returns nil."
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[binding start end & body]
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(apply loop [tuple binding :range [tuple start end]] body))
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(defmacro each
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"Loop over each value in ind. Returns nil."
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[binding ind & body]
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(apply loop [tuple binding :in ind] body))
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(defn sum [xs]
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(var accum 0)
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(loop [x :in xs] (+= accum x))
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@ -498,7 +497,8 @@
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(fn [x] (not (f x))))
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(defn extreme
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"Returns the most extreme value in args based on the orderer order.
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"Returns the most extreme value in args based on the function order.
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order should take two values and return true or false (a comparison).
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Returns nil if args is empty."
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[order args]
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(def len (length args))
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@ -514,6 +514,16 @@
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(defn max-order [& args] (extreme order> args))
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(defn min-order [& args] (extreme order< args))
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(defn first
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"Get the first element from an indexed data structure."
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[xs]
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(get xs 0))
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(defn last
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"Get the last element from an indexed data structure."
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[xs]
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(get xs (- (length xs) 1)))
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###
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###
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### Indexed Combinators
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@ -551,23 +561,20 @@
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(sort-help a 0 (- (length a) 1) (or by order<)))))
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(defn sorted
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"Returns the sorted version of an indexed data structure."
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[ind by t &]
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(def sa (sort (array.slice ind 0) by))
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(if (= :tuple (or t (type ind)))
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(tuple.slice sa 0)
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sa))
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"Returns a new sorted array without modifying the old one."
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[ind by]
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(sort (array.slice ind) by))
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(defn reduce
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"Reduce, also know as fold-left in many languages, transforms
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an indexed type (array, tuple) with a function to produce a value."
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[f init ind &]
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[f init ind]
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(var res init)
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(loop [x :in ind]
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(:= res (f res x)))
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res)
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(defn mapa
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(defn map
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"Map a function over every element in an indexed data structure and
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return an array of the results."
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[f & inds]
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@ -590,39 +597,29 @@
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(put res i (apply f args))))
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res)
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(defn map
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"Map a function over every element in an indexed data structure and
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return a tuple of the results."
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[f & inds]
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(tuple.slice (apply mapa f inds) 0))
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(defn mapcat
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"Map a function over every element in an array or tuple and
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use array to concatenate the results. Returns the type given
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as the third argument, or same type as the input indexed structure."
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[f ind t &]
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use array to concatenate the results."
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[f ind]
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(def res @[])
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(loop [x :in ind]
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(array.concat res (f x)))
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(if (= :tuple (or t (type ind)))
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(tuple.slice res 0)
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res))
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res)
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(defn filter
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"Given a predicate, take only elements from an array or tuple for
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which (pred element) is truthy. Returns the type given as the
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third argument, or the same type as the input indexed structure."
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which (pred element) is truthy. Returns a new array."
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[pred ind t &]
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(def res @[])
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(loop [item :in ind]
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(if (pred item)
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(array.push res item)))
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(if (= :tuple (or t (type ind)))
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(tuple.slice res 0)
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res))
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res)
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(defn range
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"Create an array of values [0, n)."
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"Create an array of values [start, end) with a given step.
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With one argument returns a range [0, end). With two arguments, returns
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a range [start, end). With three, returns a range with optional step size."
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[& args]
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(case (length args)
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1 (do
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@ -635,7 +632,12 @@
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(def arr (array.new n))
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(loop [i :range [n m]] (put arr (- i n) i))
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arr)
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(error "expected 1 to 2 arguments to range")))
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3 (do
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(def [n m s] args)
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(def arr (array.new n))
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(loop [i :range [n m s]] (put arr (- i n) i))
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arr)
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(error "expected 1 to 3 arguments to range")))
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(defn find-index
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"Find the index of indexed type for which pred is true. Returns nil if not found."
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@ -657,11 +659,11 @@
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(defn take-until
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"Given a predicate, take only elements from an indexed type that satisfy
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the predicate, and abort on first failure. Returns a new tuple."
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the predicate, and abort on first failure. Returns a new array."
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[pred ind]
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(def i (find-index pred ind))
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(if i
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(tuple.slice ind 0 i)
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(array.slice ind 0 i)
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ind))
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(defn take-while
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@ -674,7 +676,7 @@
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the predicate, and abort on first failure. Returns a new tuple."
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[pred ind]
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(def i (find-index pred ind))
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(tuple.slice ind i))
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(array.slice ind i))
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(defn drop-while
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"Same as (drop-until (complement pred) ind)."
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@ -682,6 +684,8 @@
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(drop-until (complement pred) ind))
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(defn juxt*
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"Returns the juxtaposition of functions. In other words,
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((juxt* a b c) x) evaluates to ((a x) (b x) (c x))."
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[& funs]
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(fn [& args]
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(def ret @[])
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@ -690,6 +694,7 @@
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(tuple.slice ret 0)))
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(defmacro juxt
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"Macro form of juxt*. Same behavior but more efficient."
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[& funs]
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(def parts @['tuple])
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(def $args (gensym))
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@ -729,39 +734,26 @@
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(if (zero? (length more)) f
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(fn [& r] (apply f (array.concat @[] more r)))))
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(defn every? [pred ind]
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(defn every?
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"Returns true if the predicate pred is true for every
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value in ind, otherwise false."
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[pred ind]
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(var res true)
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(var i 0)
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(def len (length ind))
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(while (< i len)
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(def item (get ind i))
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(if (pred item)
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(++ i)
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(do (:= res false) (:= i len))))
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(loop [x :in ind :while res]
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(if (pred x) (:= res false)))
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res)
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(defn array.reverse
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(defn reverse
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"Reverses the order of the elements in a given array or tuple and returns a new array."
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[t]
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(var n (dec (length t)))
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(var reversed @[])
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(def len (length t))
|
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(var n (dec len))
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(def reversed (array.new len))
|
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(while (>= n 0)
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(array.push reversed (get t n))
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(-- n))
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reversed)
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(defn tuple.reverse
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"Reverses the order of the elements given an array or tuple and returns a tuple"
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[t]
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(tuple.slice (array.reverse t) 0))
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(defn reverse
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"Reverses order of elements in a given array or tuple"
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[t]
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((case (type t)
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:tuple tuple.reverse
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:array array.reverse) t))
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(defn invert
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"Returns a table of where the keys of an associative data structure
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are the values, and the values of the keys. If multiple keys have the same
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@ -774,17 +766,16 @@ value, one key will be ignored."
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(defn zipcoll
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"Creates an table or tuple from two arrays/tuples. If a third argument of
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:struct is given result is struct else is table."
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[keys vals t &]
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:struct is given result is struct else is table. Returns a new table."
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[keys vals]
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(def res @{})
|
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(def lk (length keys))
|
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(def lv (length vals))
|
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(def len (if (< lk lv) lk lv))
|
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(loop [i :range [0 len]]
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(put res (get keys i) (get vals i)))
|
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(if (= :struct t)
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(table.to-struct res)
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res))
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res)
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|
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|
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(defn update
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||||
"Accepts a key argument and passes its' associated value to a function.
|
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@ -793,17 +784,26 @@ value, one key will be ignored."
|
||||
(def old-value (get coll a-key))
|
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(put coll a-key (apply a-function old-value args)))
|
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|
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(defn merge-into
|
||||
"Merges multiple tables/structs into a table. If a key appears in more than one
|
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collection, then later values replace any previous ones.
|
||||
Returns the original table."
|
||||
[tab & colls]
|
||||
(loop [c :in colls
|
||||
key :keys c]
|
||||
(put tab key (get c key)))
|
||||
tab)
|
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|
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(defn merge
|
||||
"Merges multiple tables/structs to one. If a key appears in more than one
|
||||
collection, then later values replace any previous ones.
|
||||
The type of the first collection determines the type of the resulting
|
||||
collection"
|
||||
Returns a new table."
|
||||
[& colls]
|
||||
(def container @{})
|
||||
(loop [c :in colls
|
||||
key :keys c]
|
||||
(put container key (get c key)))
|
||||
(if (table? (get colls 0)) container (table.to-struct container)))
|
||||
container)
|
||||
|
||||
(defn keys
|
||||
"Get the keys of an associative data structure."
|
||||
@ -836,7 +836,7 @@ value, one key will be ignored."
|
||||
arr)
|
||||
|
||||
(defn frequencies
|
||||
"Get the number of occurences of each value in a indexed structure."
|
||||
"Get the number of occurrences of each value in a indexed structure."
|
||||
[ind]
|
||||
(def freqs @{})
|
||||
(loop
|
||||
@ -852,10 +852,10 @@ value, one key will be ignored."
|
||||
(def res @[])
|
||||
(def ncol (length cols))
|
||||
(when (> ncol 0)
|
||||
(def len (apply min (mapa length cols)))
|
||||
(loop [i :range [0 len]]
|
||||
(loop [ci :range [0 ncol]]
|
||||
(array.push res (get (get cols ci) i)))))
|
||||
(def len (apply min (map length cols)))
|
||||
(loop [i :range [0 len]
|
||||
ci :range [0 ncol]]
|
||||
(array.push res (get (get cols ci) i))))
|
||||
res)
|
||||
|
||||
###
|
||||
@ -941,8 +941,8 @@ value, one key will be ignored."
|
||||
|
||||
(defn expand-bindings [x]
|
||||
(case (type x)
|
||||
:array (mapa expand-bindings x)
|
||||
:tuple (map expand-bindings x)
|
||||
:array (map expand-bindings x)
|
||||
:tuple (tuple.slice (map expand-bindings x))
|
||||
:table (dotable x expand-bindings)
|
||||
:struct (table.to-struct (dotable x expand-bindings))
|
||||
(macroexpand-1 x)))
|
||||
@ -958,16 +958,16 @@ value, one key will be ignored."
|
||||
0))
|
||||
|
||||
(defn expandall [t]
|
||||
(def args (mapa macroexpand-1 (tuple.slice t 1)))
|
||||
(def args (map macroexpand-1 (tuple.slice t 1)))
|
||||
(apply tuple (get t 0) args))
|
||||
|
||||
(defn expandfn [t]
|
||||
(if (symbol? (get t 1))
|
||||
(do
|
||||
(def args (mapa macroexpand-1 (tuple.slice t 3)))
|
||||
(def args (map macroexpand-1 (tuple.slice t 3)))
|
||||
(apply tuple 'fn (get t 1) (get t 2) args))
|
||||
(do
|
||||
(def args (mapa macroexpand-1 (tuple.slice t 2)))
|
||||
(def args (map macroexpand-1 (tuple.slice t 2)))
|
||||
(apply tuple 'fn (get t 1) args))))
|
||||
|
||||
(def specs
|
||||
@ -989,12 +989,12 @@ value, one key will be ignored."
|
||||
(cond
|
||||
s (s t)
|
||||
m? (apply m (tuple.slice t 1))
|
||||
(map macroexpand-1 t)))
|
||||
(tuple.slice (map macroexpand-1 t))))
|
||||
|
||||
(def ret
|
||||
(case (type x)
|
||||
:tuple (dotup x)
|
||||
:array (mapa macroexpand-1 x)
|
||||
:array (map macroexpand-1 x)
|
||||
:struct (table.to-struct (dotable x macroexpand-1))
|
||||
:table (dotable x macroexpand-1)
|
||||
x))
|
||||
@ -1154,7 +1154,7 @@ value, one key will be ignored."
|
||||
(var good true)
|
||||
(def f
|
||||
(fiber.new
|
||||
(fn _thunk [&]
|
||||
(fn []
|
||||
(def res (compile source env where))
|
||||
(if (= (type res) :function)
|
||||
(res)
|
||||
@ -1211,7 +1211,7 @@ value, one key will be ignored."
|
||||
"\n")
|
||||
(when f
|
||||
(loop
|
||||
[nf :in (array.reverse (fiber.lineage f))
|
||||
[nf :in (reverse (fiber.lineage f))
|
||||
:before (file.write stderr " (fiber)\n")
|
||||
{:function func
|
||||
:tail tail
|
||||
@ -1291,7 +1291,7 @@ value, one key will be ignored."
|
||||
(def last (get parts (- (length parts) 1)))
|
||||
(def normname (string.replace-all "." "/" path))
|
||||
(array.push
|
||||
(mapa (fn [x]
|
||||
(map (fn [x]
|
||||
(def y (string.replace "??" last x))
|
||||
(string.replace "?" normname y))
|
||||
paths)
|
||||
|
111
src/core/multisym.c
Normal file
111
src/core/multisym.c
Normal file
@ -0,0 +1,111 @@
|
||||
/*
|
||||
* Copyright (c) 2018 Calvin Rose
|
||||
*
|
||||
* Permission is hereby granted, free of charge, to any person obtaining a copy
|
||||
* of this software and associated documentation files (the "Software"), to
|
||||
* deal in the Software without restriction, including without limitation the
|
||||
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
|
||||
* sell copies of the Software, and to permit persons to whom the Software is
|
||||
* furnished to do so, subject to the following conditions:
|
||||
*
|
||||
* The above copyright notice and this permission notice shall be included in
|
||||
* all copies or substantial portions of the Software.
|
||||
*
|
||||
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
|
||||
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
|
||||
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
|
||||
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
|
||||
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
|
||||
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
|
||||
* IN THE SOFTWARE.
|
||||
*/
|
||||
|
||||
#include <janet/janet.h>
|
||||
#include "compile.h"
|
||||
#include "emit.h"
|
||||
#include "vector.h"
|
||||
|
||||
/* Parse a part of a symbol that can be used for building up code. */
|
||||
static JanetSlot multisym_parse_part(JanetCompiler *c, const uint8_t *sympart, int32_t len) {
|
||||
if (sympart[0] == ':') {
|
||||
return janetc_cslot(janet_symbolv(sympart, len));
|
||||
} else {
|
||||
int err = 0;
|
||||
int32_t num = janet_scan_integer(sympart + 1, len - 1, &err);
|
||||
if (err) {
|
||||
return janetc_resolve(c, janet_symbol(sympart + 1, len - 1));
|
||||
} else {
|
||||
return janetc_cslot(janet_wrap_integer(num));
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
static JanetSlot multisym_do_parts(JanetFopts opts, int put, const uint8_t *sym, Janet rvalue) {
|
||||
JanetSlot slot;
|
||||
JanetFopts subopts = janetc_fopts_default(opts.compiler);
|
||||
int i, j;
|
||||
for (i = 1, j = 0; sym[i]; i++) {
|
||||
if (sym[i] == ':' || sym[i] == '@') {
|
||||
if (j) {
|
||||
JanetSlot target = janetc_gettarget(subopts);
|
||||
JanetSlot value = multisym_parse_part(opts.compiler, sym + j, i - j);
|
||||
janetc_emit_sss(opts.compiler, JOP_GET, target, slot, value, 1);
|
||||
slot = target;
|
||||
} else {
|
||||
const uint8_t *nextsym = janet_symbol(sym + j, i - j);
|
||||
slot = janetc_resolve(opts.compiler, nextsym);
|
||||
}
|
||||
j = i;
|
||||
}
|
||||
}
|
||||
|
||||
if (j) {
|
||||
/* multisym (outermost get or put) */
|
||||
JanetSlot target = janetc_gettarget(opts);
|
||||
JanetSlot key = multisym_parse_part(opts.compiler, sym + j, i - j);
|
||||
if (put) {
|
||||
subopts.flags = JANET_FOPTS_HINT;
|
||||
subopts.hint = target;
|
||||
JanetSlot r_slot = janetc_value(subopts, rvalue);
|
||||
janetc_emit_sss(opts.compiler, JOP_PUT, slot, key, r_slot, 0);
|
||||
janetc_copy(opts.compiler, target, r_slot);
|
||||
} else {
|
||||
janetc_emit_sss(opts.compiler, JOP_GET, target, slot, key, 1);
|
||||
}
|
||||
return target;
|
||||
} else {
|
||||
/* normal symbol */
|
||||
if (put) {
|
||||
JanetSlot ret, dest;
|
||||
dest = janetc_resolve(opts.compiler, sym);
|
||||
if (!(dest.flags & JANET_SLOT_MUTABLE)) {
|
||||
janetc_cerror(opts.compiler, "cannot set constant");
|
||||
return janetc_cslot(janet_wrap_nil());
|
||||
}
|
||||
subopts.flags = JANET_FOPTS_HINT;
|
||||
subopts.hint = dest;
|
||||
ret = janetc_value(subopts, rvalue);
|
||||
janetc_copy(opts.compiler, dest, ret);
|
||||
return ret;
|
||||
}
|
||||
return janetc_resolve(opts.compiler, sym);
|
||||
}
|
||||
}
|
||||
|
||||
/* Check if a symbol is a multisym, and if so, transform
|
||||
* it and emit the code for treating it as a bunch of nested
|
||||
* gets. */
|
||||
JanetSlot janetc_sym_rvalue(JanetFopts opts, const uint8_t *sym) {
|
||||
if (janet_string_length(sym) && sym[0] != ':') {
|
||||
return multisym_do_parts(opts, 0, sym, janet_wrap_nil());
|
||||
} else {
|
||||
/* keyword */
|
||||
return janetc_cslot(janet_wrap_symbol(sym));
|
||||
}
|
||||
}
|
||||
|
||||
/* Check if a symbol is a multisym, and if so, transform
|
||||
* it into the correct 'put' expression. */
|
||||
JanetSlot janetc_sym_lvalue(JanetFopts opts, const uint8_t *sym, Janet value) {
|
||||
return multisym_do_parts(opts, 1, sym, value);
|
||||
}
|
@ -92,8 +92,8 @@ static int destructure(JanetCompiler *c,
|
||||
}
|
||||
|
||||
static JanetSlot janetc_varset(JanetFopts opts, int32_t argn, const Janet *argv) {
|
||||
JanetFopts subopts = janetc_fopts_default(opts.compiler);
|
||||
JanetSlot ret, dest;
|
||||
/*JanetFopts subopts = janetc_fopts_default(opts.compiler);*/
|
||||
/*JanetSlot ret, dest;*/
|
||||
Janet head;
|
||||
if (argn != 2) {
|
||||
janetc_cerror(opts.compiler, "expected 2 arguments");
|
||||
@ -104,16 +104,17 @@ static JanetSlot janetc_varset(JanetFopts opts, int32_t argn, const Janet *argv)
|
||||
janetc_cerror(opts.compiler, "expected symbol");
|
||||
return janetc_cslot(janet_wrap_nil());
|
||||
}
|
||||
dest = janetc_resolve(opts.compiler, janet_unwrap_symbol(head));
|
||||
if (!(dest.flags & JANET_SLOT_MUTABLE)) {
|
||||
janetc_cerror(opts.compiler, "cannot set constant");
|
||||
return janetc_cslot(janet_wrap_nil());
|
||||
}
|
||||
subopts.flags = JANET_FOPTS_HINT;
|
||||
subopts.hint = dest;
|
||||
ret = janetc_value(subopts, argv[1]);
|
||||
janetc_copy(opts.compiler, dest, ret);
|
||||
return ret;
|
||||
return janetc_sym_lvalue(opts, janet_unwrap_symbol(head), argv[1]);
|
||||
/*dest = janetc_resolve(opts.compiler, janet_unwrap_symbol(head));*/
|
||||
/*if (!(dest.flags & JANET_SLOT_MUTABLE)) {*/
|
||||
/*janetc_cerror(opts.compiler, "cannot set constant");*/
|
||||
/*return janetc_cslot(janet_wrap_nil());*/
|
||||
/*}*/
|
||||
/*subopts.flags = JANET_FOPTS_HINT;*/
|
||||
/*subopts.hint = dest;*/
|
||||
/*ret = janetc_value(subopts, argv[1]);*/
|
||||
/*janetc_copy(opts.compiler, dest, ret);*/
|
||||
/*return ret;*/
|
||||
}
|
||||
|
||||
/* Add attributes to a global def or var table */
|
||||
|
@ -167,13 +167,13 @@
|
||||
(testmarsh (fn name [x] x) "marshal function 1")
|
||||
(testmarsh (fn [x] (+ 10 x 2)) "marshal function 2")
|
||||
(testmarsh (fn thing [x] (+ 11 x x 30)) "marshal function 3")
|
||||
(testmarsh mapa "marshal function 4")
|
||||
(testmarsh map "marshal function 4")
|
||||
(testmarsh reduce "marshal function 5")
|
||||
(testmarsh (fiber.new (fn [] (yield 1) 2)) "marshal simple fiber 1")
|
||||
(testmarsh (fiber.new (fn [&] (yield 1) 2)) "marshal simple fiber 2")
|
||||
|
||||
# Large functions
|
||||
(def manydefs (fora [i :range [0 300]] (tuple 'def (gensym) (string "value_" i))))
|
||||
(def manydefs (seq [i :range [0 300]] (tuple 'def (gensym) (string "value_" i))))
|
||||
(array.push manydefs (tuple * 10000 3 5 7 9))
|
||||
(def f (compile (tuple.prepend manydefs 'do) *env*))
|
||||
(assert (= (f) (* 10000 3 5 7 9)) "long function compilation")
|
||||
@ -206,15 +206,15 @@
|
||||
(assert (= 7 (case :a :b 5 :c 6 :u 10 7)), "case with default")
|
||||
|
||||
# Testing the loop and for macros
|
||||
(def xs (apply tuple (for [x :range [0 10] :when (even? x)] (tuple (/ x 2) x))))
|
||||
(assert (= xs '((0 0) (1 2) (2 4) (3 6) (4 8))) "for macro 1")
|
||||
(def xs (apply tuple (seq [x :range [0 10] :when (even? x)] (tuple (/ x 2) x))))
|
||||
(assert (= xs '((0 0) (1 2) (2 4) (3 6) (4 8))) "seq macro 1")
|
||||
|
||||
# Some testing for not=
|
||||
(assert (not= 1 1 0) "not= 1")
|
||||
(assert (not= 0 1 1) "not= 2")
|
||||
|
||||
# Closure in while loop
|
||||
(def closures (for [i :range [0 5]] (fn [] i)))
|
||||
(def closures (seq [i :range [0 5]] (fn [] i)))
|
||||
(assert (= 0 ((get closures 0))) "closure in loop 0")
|
||||
(assert (= 1 ((get closures 1))) "closure in loop 1")
|
||||
(assert (= 2 ((get closures 2))) "closure in loop 2")
|
||||
|
@ -41,10 +41,10 @@
|
||||
|
||||
# Looping idea
|
||||
(def xs
|
||||
(for [x :in '[-1 0 1], y :in '[-1 0 1] :when (not= x y 0)] (tuple x y)))
|
||||
(seq [x :in '[-1 0 1], y :in '[-1 0 1] :when (not= x y 0)] (tuple x y)))
|
||||
(def txs (apply tuple xs))
|
||||
|
||||
(assert (= txs '[[-1 -1] [-1 0] [-1 1] [0 -1] [0 1] [1 -1] [1 0] [1 1]]) "nested for")
|
||||
(assert (= txs '[[-1 -1] [-1 0] [-1 1] [0 -1] [0 1] [1 -1] [1 0] [1 1]]) "nested seq")
|
||||
|
||||
# Generators
|
||||
(def gen (generate [x :range [0 100] :when (pos? (% x 4))] x))
|
||||
|
Loading…
Reference in New Issue
Block a user