lib/min_seq.nim
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import tables, algorithm import ../core/parser, ../core/value, ../core/interpreter, ../core/utils proc seq_module*(i: In)= let def = i.define() def.symbol("concat") do (i: In): let vals = i.expect("quot", "quot") let q1 = vals[0] let q2 = vals[1] let q = q2.qVal & q1.qVal i.push q.newVal def.symbol("first") do (i: In): let vals = i.expect("quot") let q = vals[0] if q.qVal.len == 0: raiseOutOfBounds("Quotation is empty") i.push q.qVal[0] def.symbol("last") do (i: In): let vals = i.expect("quot") let q = vals[0] if q.qVal.len == 0: raiseOutOfBounds("Quotation is empty") i.push q.qVal[q.qVal.len - 1] def.symbol("rest") do (i: In): let vals = i.expect("quot") let q = vals[0] if q.qVal.len == 0: raiseOutOfBounds("Quotation is empty") i.push q.qVal[1..q.qVal.len-1].newVal def.symbol("append") do (i: In): let vals = i.expect("quot", "a") let q = vals[0] let v = vals[1] i.push newVal(q.qVal & v) def.symbol("prepend") do (i: In): let vals = i.expect("quot", "a") let q = vals[0] let v = vals[1] i.push newVal(v & q.qVal) def.symbol("get") do (i: In): let vals = i.expect("int", "quot") let index = vals[0] let q = vals[1] let ix = index.intVal if q.qVal.len < ix or ix < 0: raiseOutOfBounds("Index out of bounds") i.push q.qVal[ix.int] def.symbol("set") do (i: In): let vals = i.expect("int", "a", "quot") let index = vals[0] let val = vals[1] let q = vals[2] let ix = index.intVal if q.qVal.len < ix or ix < 0: raiseOutOfBounds("Index out of bounds") q.qVal[ix.int] = val i.push q def.symbol("remove") do (i: In): let vals = i.expect("int", "quot") let index = vals[0] let q = vals[1] let ix = index.intVal if q.qVal.len < ix or ix < 0: raiseOutOfBounds("Index out of bounds") var res = newSeq[MinValue](0) for x in 0..q.qVal.len-1: if x == ix: continue res.add q.qVal[x] i.push res.newVal def.symbol("insert") do (i: In): let vals = i.expect("int", "a", "quot") let index = vals[0] let val = vals[1] let q = vals[2] let ix = index.intVal if q.qVal.len < ix or ix < 0: raiseOutOfBounds("Index out of bounds") var res = newSeq[MinValue](0) for x in 0..q.qVal.len-1: if x == ix: res.add val res.add q.qVal[x] i.push res.newVal def.symbol("size") do (i: In): let vals = i.expect("quot") let q = vals[0] i.push q.qVal.len.newVal def.symbol("in?") do (i: In): let vals = i.expect("a", "quot") let v = vals[0] let q = vals[1] i.push q.qVal.contains(v).newVal def.symbol("map") do (i: In): let vals = i.expect("quot", "quot") var prog = vals[0] let list = vals[1] var res = newSeq[MinValue](0) for litem in list.qVal: i.push litem i.dequote(prog) res.add i.pop i.push res.newVal def.symbol("quote-map") do (i: In): let vals = i.expect("quot") let list = vals[0] var res = newSeq[MinValue](0) for litem in list.qVal: res.add @[litem].newVal i.push res.newVal def.symbol("reverse") do (i: In): let vals = i.expect("quot") let q = vals[0] var res = newSeq[MinValue](0) for c in countdown(q.qVal.len-1, 0): res.add q.qVal[c] i.push res.newVal def.symbol("filter") do (i: In): let vals = i.expect("quot", "quot") var filter = vals[0] let list = vals[1] var res = newSeq[MinValue](0) for e in list.qVal: i.push e i.dequote(filter) var check = i.pop if check.isBool and check.boolVal == true: res.add e i.push res.newVal def.symbol("reject") do (i: In): let vals = i.expect("quot", "quot") var filter = vals[0] let list = vals[1] var res = newSeq[MinValue](0) for e in list.qVal: i.push e i.dequote(filter) var check = i.pop if check.isBool and check.boolVal == false: res.add e i.push res.newVal def.symbol("any?") do (i: In): let vals = i.expect("quot", "quot") var filter = vals[0] let list = vals[1] var res = false.newVal for e in list.qVal: i.push e i.dequote(filter) var check = i.pop if check.isBool and check.boolVal == true: res = true.newVal break i.push res def.symbol("all?") do (i: In): let vals = i.expect("quot", "quot") var filter = vals[0] let list = vals[1] var res = true.newVal for e in list.qVal: i.push e i.dequote(filter) var check = i.pop if check.isBool and check.boolVal == false: res = false.newVal break i.push res def.symbol("sort") do (i: In): let vals = i.expect("quot", "quot") var cmp = vals[0] let list = vals[1] var i2 = i var minCmp = proc(a, b: MinValue): int {.closure.}= i2.push a i2.push b i2.dequote(cmp) let r = i2.pop if r.isBool: if r.isBool and r.boolVal == true: return 1 else: return -1 else: raiseInvalid("Predicate quotation must return a boolean value") var qList = list.qVal sort[MinValue](qList, minCmp) i.push qList.newVal def.symbol("shorten") do (i: In): let vals = i.expect("int", "quot") let n = vals[0] let q = vals[1] if n.intVal > q.qVal.len: raiseInvalid("Quotation is too short") i.push q.qVal[0..n.intVal.int-1].newVal def.symbol("take") do (i: In): let vals = i.expect("int", "quot") let n = vals[0] let q = vals[1] var nint = n.intVal if nint > q.qVal.len: nint = q.qVal.len i.push q.qVal[0..nint-1].newVal def.symbol("drop") do (i: In): let vals = i.expect("int", "quot") let n = vals[0] let q = vals[1] var nint = n.intVal if nint > q.qVal.len: nint = q.qVal.len i.push q.qVal[nint..q.qVal.len-1].newVal def.symbol("find") do (i: In): let vals = i.expect("quot", "quot") var test = vals[0] let s = vals[1] var result: MinValue var res = -1 var c = 0 for el in s.qVal: i.push el i.dequote test result = i.pop if result.isBool and result.boolVal == true: res = c break c.inc i.push res.newVal def.symbol("reduce") do (i: In): let vals = i.expect("quot", "a", "quot") var q = vals[0] var acc = vals[1] let s = vals[2] for el in s.qVal: i.push acc i.push el i.dequote q acc = i.pop i.push acc def.symbol("map-reduce") do (i: In): let vals = i.expect("quot", "quot", "quot") var red = vals[0] var map = vals[1] let s = vals[2] if s.qVal.len == 0: raiseInvalid("Quotation must have at least one element") i.push s.qVal[0] i.dequote map var acc = i.pop for ix in 1..s.qVal.len-1: i.push s.qVal[ix] i.dequote map i.push acc i.dequote red acc = i.pop i.push acc def.symbol("partition") do (i: In): let vals = i.expect("quot", "quot") var test = vals[0] var s = vals[1] var tseq = newSeq[MinValue](0) var fseq = newSeq[MinValue](0) for el in s.qVal: i.push el i.dequote test let res = i.pop if res.isBool and res.boolVal == true: tseq.add el else: fseq.add el i.push tseq.newVal i.push fseq.newVal def.symbol("slice") do (i: In): let vals = i.expect("int", "int", "quot") let finish = vals[0] let start = vals[1] let q = vals[2] let st = start.intVal let fn = finish.intVal if st < 0 or fn > q.qVal.len-1: raiseOutOfBounds("Index out of bounds") elif fn < st: raiseInvalid("End index must be greater than start index") let rng = q.qVal[st.int..fn.int] i.push rng.newVal def.symbol("harvest") do (i: In): let vals = i.expect("quot") let q = vals[0] var res = newSeq[MinValue](0) for el in q.qVal: if el.isQuotation and el.qVal.len == 0: continue res.add el i.push res.newVal def.symbol("flatten") do (i: In): let vals = i.expect("quot") let q = vals[0] var res = newSeq[MinValue](0) for el in q.qVal: if el.isQuotation: for el2 in el.qVal: res.add el2 else: res.add el i.push res.newVal def.finalize("seq") |