core/utils.nim
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import
strutils,
sequtils,
critbits,
json,
terminal
import
../packages/nim-sgregex/sgregex,
parser,
value,
scope,
interpreter
proc reverse[T](xs: openarray[T]): seq[T] =
result = newSeq[T](xs.len)
for i, x in xs:
result[^i-1] = x
# Library methods
proc define*(i: In): ref MinScope {.extern:"min_exported_symbol_$1".}=
var scope = new MinScope
scope.parent = i.scope
return scope
proc symbol*(scope: ref MinScope, sym: string, p: MinOperatorProc) {.extern:"min_exported_symbol_$1".}=
scope.symbols[sym] = MinOperator(prc: p, kind: minProcOp, sealed: true)
proc symbol*(scope: ref MinScope, sym: string, v: MinValue) {.extern:"min_exported_symbol_$1_2".}=
scope.symbols[sym] = MinOperator(val: v, kind: minValOp, sealed: true)
proc sigil*(scope: ref MinScope, sym: string, p: MinOperatorProc) {.extern:"min_exported_symbol_$1".}=
scope.sigils[sym] = MinOperator(prc: p, kind: minProcOp, sealed: true)
proc sigil*(scope: ref MinScope, sym: string, v: MinValue) {.extern:"min_exported_symbol_$1_2".}=
scope.sigils[sym] = MinOperator(val: v, kind: minValOp, sealed: true)
proc finalize*(scope: ref MinScope, name: string = "") {.extern:"min_exported_symbol_$1".}=
var mdl = newSeq[MinValue](0).newVal(nil)
mdl.scope = scope
let op = proc(i: In) {.closure.} =
i.evaluating = true
i.push mdl
i.evaluating = false
if name != "":
scope.previous.symbols[name] = MinOperator(kind: minProcOp, prc: op)
# Dictionary Methods
proc dget*(q: MinValue, s: MinValue): MinValue {.extern:"min_exported_symbol_$1".}=
if not q.isDictionary:
raiseInvalid("Value is not a dictionary")
for v in q.qVal:
if v.qVal[0].getString == s.getString:
return v.qVal[1]
raiseInvalid("Dictionary key '$1' not found" % s.getString)
proc dhas*(q: MinValue, s: MinValue): bool {.extern:"min_exported_symbol_$1".}=
if not q.isDictionary:
raiseInvalid("Value is not a dictionary")
for v in q.qVal:
if v.qVal[0].getString == s.getString:
return true
return false
proc ddel*(i: In, p: MinValue, s: MinValue): MinValue {.discardable, extern:"min_exported_symbol_$1".} =
if not p.isDictionary:
raiseInvalid("Value is not a dictionary")
var q = newVal(p.qVal, i.scope)
var found = false
var c = -1
for v in q.qVal:
c.inc
if v.qVal[0].getString == s.getString:
found = true
break
if found:
q.qVal.delete(c)
return q
proc dset*(i: In, p: MinValue, s: MinValue, m: MinValue): MinValue {.discardable, extern:"min_exported_symbol_$1".}=
if not p.isDictionary:
raiseInvalid("Value is not a dictionary")
var q = newVal(p.qVal, i.scope)
var found = false
var c = -1
for v in q.qVal:
c.inc
if v.qVal[0].getString == s.getString:
found = true
break
if found:
q.qVal.delete(c)
q.qVal.insert(@[s.getString.newVal, m].newVal(i.scope), c)
else:
q.qVal.add(@[s.getString.newVal, m].newVal(i.scope))
return q
proc keys*(i: In, q: MinValue): MinValue {.extern:"min_exported_symbol_$1".}=
# Assumes q is a dictionary
result = newSeq[MinValue](0).newVal(i.scope)
for v in q.qVal:
result.qVal.add v.qVal[0].getString.newVal
proc values*(i: In, q: MinValue): MinValue {.extern:"min_exported_symbol_$1".}=
# Assumes q is a dictionary
result = newSeq[MinValue](0).newVal(i.scope)
for v in q.qVal:
result.qVal.add v.qVal[1]
# JSON interop
proc `%`*(a: MinValue): JsonNode {.extern:"min_exported_symbol_percent".}=
case a.kind:
of minBool:
return %a.boolVal
of minSymbol:
return %(";sym:$1" % [a.symVal])
of minString:
return %a.strVal
of minInt:
return %a.intVal
of minFloat:
return %a.floatVal
of minQuotation:
if a.isDictionary:
result = newJObject()
for i in a.qVal:
result[$i.qVal[0].symVal] = %i.qVal[1]
else:
result = newJArray()
for i in a.qVal:
result.add %i
proc fromJson*(i: In, json: JsonNode): MinValue {.extern:"min_exported_symbol_$1".}=
case json.kind:
of JNull:
result = newSeq[MinValue](0).newVal(i.scope)
of JBool:
result = json.getBVal.newVal
of JInt:
result = json.getNum.newVal
of JFloat:
result = json.getFNum.newVal
of JString:
let s = json.getStr
if s.match("^;sym:"):
result = sgregex.replace(s, "^;sym:", "").newSym
else:
result = json.getStr.newVal
of JObject:
var res = newSeq[MinValue](0)
for key, value in json.pairs:
res.add @[key.newVal, i.fromJson(value)].newVal(i.scope)
return res.newVal(i.scope)
of JArray:
var res = newSeq[MinValue](0)
for value in json.items:
res.add i.fromJson(value)
return res.newVal(i.scope)
# Validators
proc expect*(i: var MinInterpreter, elements: varargs[string]): seq[MinValue] {.extern:"min_exported_symbol_$1".}=
let stack = elements.reverse.join(" ")
let sym = i.currSym.getString
var valid = newSeq[string](0)
result = newSeq[MinValue](0)
let message = proc(invalid: string): string =
result = "Symbol: $1 - Incorrect values found on the stack:\n" % sym
result &= "- expected: " & stack & " $1\n" % sym
var other = ""
if valid.len > 0:
other = valid.reverse.join(" ") & " "
result &= "- got: " & invalid & " " & other & sym
for element in elements:
let value = i.pop
result.add value
case element:
of "bool":
if not value.isBool:
raiseInvalid(message(value.typeName))
of "int":
if not value.isInt:
raiseInvalid(message(value.typeName))
of "num":
if not value.isNumber:
raiseInvalid(message(value.typeName))
of "quot":
if not value.isQuotation:
raiseInvalid(message(value.typeName))
of "dict":
if not value.isDictionary:
raiseInvalid(message(value.typeName))
of "'sym":
if not value.isStringLike:
raiseInvalid(message(value.typeName))
of "sym":
if not value.isSymbol:
raiseInvalid(message(value.typeName))
of "float":
if not value.isFloat:
raiseInvalid(message(value.typeName))
of "string":
if not value.isString:
raiseInvalid(message(value.typeName))
of "a":
discard # any type
else:
raiseInvalid("Invalid type description: " & element)
valid.add element
proc reqQuotationOfQuotations*(i: var MinInterpreter, a: var MinValue) {.extern:"min_exported_symbol_$1".}=
a = i.pop
if not a.isQuotation:
raiseInvalid("A quotation is required on the stack")
for s in a.qVal:
if not s.isQuotation:
raiseInvalid("A quotation of quotations is required on the stack")
proc reqQuotationOfNumbers*(i: var MinInterpreter, a: var MinValue) {.extern:"min_exported_symbol_$1".}=
a = i.pop
if not a.isQuotation:
raiseInvalid("A quotation is required on the stack")
for s in a.qVal:
if not s.isNumber:
raiseInvalid("A quotation of numbers is required on the stack")
proc reqQuotationOfSymbols*(i: var MinInterpreter, a: var MinValue) {.extern:"min_exported_symbol_$1".}=
a = i.pop
if not a.isQuotation:
raiseInvalid("A quotation is required on the stack")
for s in a.qVal:
if not s.isSymbol:
raiseInvalid("A quotation of symbols is required on the stack")
proc reqTwoNumbersOrStrings*(i: var MinInterpreter, a, b: var MinValue) {.extern:"min_exported_symbol_$1".}=
a = i.pop
b = i.pop
if not (a.isString and b.isString or a.isNumber and b.isNumber):
raiseInvalid("Two numbers or two strings are required on the stack")
proc reqStringOrQuotation*(i: var MinInterpreter, a: var MinValue) {.extern:"min_exported_symbol_$1".}=
a = i.pop
if not a.isQuotation and not a.isString:
raiseInvalid("A quotation or a string is required on the stack")
proc reqTwoQuotationsOrStrings*(i: var MinInterpreter, a, b: var MinValue) {.extern:"min_exported_symbol_$1".}=
a = i.pop
b = i.pop
if not (a.isQuotation and b.isQuotation or a.isString and b.isString):
raiseInvalid("Two quotations or two strings are required on the stack")
proc reqTwoSimilarTypesNonSymbol*(i: var MinInterpreter, a, b: var MinValue) {.extern:"min_exported_symbol_$1".}=
a = i.pop
b = i.pop
if not ((a.kind == b.kind or (a.isNumber and b.isNumber)) and not a.isSymbol):
raiseInvalid("Two non-symbol values of similar type are required on the stack")
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