87d6028487
- Reader: maps, sets, syntax-quote, dispatch macros, metadata - Runtime: CljVal type system, 80+ core functions (collections, strings, math, IO) - Emitter: full CljVal-based code generation, macro expansion, inline fns - Macros: defmacro with compile-time evaluator, ->, ->>, and, or, when, cond, for, doseq - Nim Interop: nim/module/function syntax, auto-import, type mapping - CLI: cljnim -e '<code>' for quick evaluation - Tests: 60 unit tests (reader + emitter) - Benchmarks: AOT suite showing 543x startup, 679x factorial vs JVM Clojure - CI: GitLab CI pipeline - Runtime library: lib/cljnim_runtime.nim (1070+ lines)
457 lines
13 KiB
Nim
457 lines
13 KiB
Nim
import runtime
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import strutils
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import sequtils
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# ---- Arithmetic ----
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proc cljAdd*(args: seq[CljVal]): CljVal =
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var sum: int64 = 0
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var sumFloat: float64 = 0.0
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var isFloat = false
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for a in args:
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case a.kind
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of ckInt: sum += a.intVal
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of ckFloat:
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sumFloat += a.floatVal
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isFloat = true
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else: raise newException(CatchableError, "+ requires numbers")
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if isFloat:
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cljFloat(sum.float64 + sumFloat)
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else:
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cljInt(sum)
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proc cljMul*(args: seq[CljVal]): CljVal =
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var product: int64 = 1
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var productFloat: float64 = 1.0
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var isFloat = false
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for a in args:
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case a.kind
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of ckInt: product *= a.intVal
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of ckFloat:
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productFloat *= a.floatVal
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isFloat = true
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else: raise newException(CatchableError, "* requires numbers")
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if isFloat:
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cljFloat(product.float64 * productFloat)
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else:
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cljInt(product)
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proc cljSub*(args: seq[CljVal]): CljVal =
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if args.len == 0: raise newException(CatchableError, "- requires at least 1 argument")
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if args.len == 1:
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case args[0].kind
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of ckInt: return cljInt(-args[0].intVal)
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of ckFloat: return cljFloat(-args[0].floatVal)
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else: raise newException(CatchableError, "- requires numbers")
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var result: int64
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var resultF: float64
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var isFloat = false
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case args[0].kind
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of ckInt: result = args[0].intVal
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of ckFloat:
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resultF = args[0].floatVal
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isFloat = true
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else: raise newException(CatchableError, "- requires numbers")
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for i in 1..<args.len:
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case args[i].kind
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of ckInt:
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if isFloat: resultF -= args[i].intVal.float64
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else: result -= args[i].intVal
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of ckFloat:
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if not isFloat:
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resultF = result.float64 - args[i].floatVal
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isFloat = true
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else:
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resultF -= args[i].floatVal
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else: raise newException(CatchableError, "- requires numbers")
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if isFloat: cljFloat(resultF)
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else: cljInt(result)
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proc cljDiv*(args: seq[CljVal]): CljVal =
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if args.len < 2: raise newException(CatchableError, "/ requires at least 2 arguments")
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var result: float64
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case args[0].kind
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of ckInt: result = args[0].intVal.float64
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of ckFloat: result = args[0].floatVal
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else: raise newException(CatchableError, "/ requires numbers")
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for i in 1..<args.len:
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case args[i].kind
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of ckInt:
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if args[i].intVal == 0: raise newException(CatchableError, "Division by zero")
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result /= args[i].intVal.float64
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of ckFloat:
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if args[i].floatVal == 0: raise newException(CatchableError, "Division by zero")
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result /= args[i].floatVal
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else: raise newException(CatchableError, "/ requires numbers")
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cljFloat(result)
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proc cljInc*(v: CljVal): CljVal =
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case v.kind
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of ckInt: cljInt(v.intVal + 1)
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of ckFloat: cljFloat(v.floatVal + 1.0)
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else: raise newException(CatchableError, "inc requires a number")
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proc cljDec*(v: CljVal): CljVal =
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case v.kind
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of ckInt: cljInt(v.intVal - 1)
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of ckFloat: cljFloat(v.floatVal - 1.0)
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else: raise newException(CatchableError, "dec requires a number")
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proc cljMod*(a, b: CljVal): CljVal =
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if a.kind == ckInt and b.kind == ckInt:
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cljInt(a.intVal mod b.intVal)
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else:
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raise newException(CatchableError, "mod requires integers")
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proc cljRem*(a, b: CljVal): CljVal =
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if a.kind == ckInt and b.kind == ckInt:
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cljInt(a.intVal rem b.intVal)
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else:
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raise newException(CatchableError, "rem requires integers")
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# ---- Comparison ----
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proc cljNumEq*(args: seq[CljVal]): CljVal =
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if args.len < 2: return cljBool(true)
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for i in 1..<args.len:
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let a = args[i-1]
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let b = args[i]
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if a.kind == ckInt and b.kind == ckInt:
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if a.intVal != b.intVal: return cljBool(false)
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elif a.kind == ckFloat and b.kind == ckFloat:
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if a.floatVal != b.floatVal: return cljBool(false)
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elif a.kind == ckInt and b.kind == ckFloat:
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if a.intVal.float64 != b.floatVal: return cljBool(false)
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elif a.kind == ckFloat and b.kind == ckInt:
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if a.floatVal != b.intVal.float64: return cljBool(false)
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else:
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return cljBool(false)
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cljBool(true)
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proc cljLt*(args: seq[CljVal]): CljVal =
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if args.len < 2: return cljBool(true)
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for i in 1..<args.len:
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let a = args[i-1]
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let b = args[i]
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if a.kind == ckInt and b.kind == ckInt:
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if a.intVal >= b.intVal: return cljBool(false)
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elif a.kind == ckFloat and b.kind == ckFloat:
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if a.floatVal >= b.floatVal: return cljBool(false)
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else:
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return cljBool(false)
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cljBool(true)
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proc cljGt*(args: seq[CljVal]): CljVal =
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if args.len < 2: return cljBool(true)
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for i in 1..<args.len:
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let a = args[i-1]
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let b = args[i]
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if a.kind == ckInt and b.kind == ckInt:
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if a.intVal <= b.intVal: return cljBool(false)
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elif a.kind == ckFloat and b.kind == ckFloat:
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if a.floatVal <= b.floatVal: return cljBool(false)
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else:
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return cljBool(false)
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cljBool(true)
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proc cljLe*(args: seq[CljVal]): CljVal =
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if args.len < 2: return cljBool(true)
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for i in 1..<args.len:
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let a = args[i-1]
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let b = args[i]
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if a.kind == ckInt and b.kind == ckInt:
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if a.intVal > b.intVal: return cljBool(false)
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else:
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return cljBool(false)
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cljBool(true)
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proc cljGe*(args: seq[CljVal]): CljVal =
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if args.len < 2: return cljBool(true)
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for i in 1..<args.len:
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let a = args[i-1]
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let b = args[i]
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if a.kind == ckInt and b.kind == ckInt:
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if a.intVal < b.intVal: return cljBool(false)
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else:
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return cljBool(false)
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cljBool(true)
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# ---- Predicates ----
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proc cljZero*(v: CljVal): CljVal =
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case v.kind
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of ckInt: cljBool(v.intVal == 0)
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of ckFloat: cljBool(v.floatVal == 0.0)
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else: cljBool(false)
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proc cljPos*(v: CljVal): CljVal =
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case v.kind
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of ckInt: cljBool(v.intVal > 0)
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of ckFloat: cljBool(v.floatVal > 0.0)
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else: raise newException(CatchableError, "pos? requires a number")
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proc cljNeg*(v: CljVal): CljVal =
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case v.kind
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of ckInt: cljBool(v.intVal < 0)
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of ckFloat: cljBool(v.floatVal < 0.0)
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else: raise newException(CatchableError, "neg? requires a number")
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proc cljEven*(v: CljVal): CljVal =
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if v.kind == ckInt: cljBool(v.intVal mod 2 == 0)
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else: raise newException(CatchableError, "even? requires an integer")
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proc cljOdd*(v: CljVal): CljVal =
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if v.kind == ckInt: cljBool(v.intVal mod 2 != 0)
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else: raise newException(CatchableError, "odd? requires an integer")
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# ---- Collection operations ----
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proc cljFirst*(v: CljVal): CljVal =
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if v.isNil: return cljNil()
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case v.kind
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of ckList:
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if v.listItems.len == 0: cljNil()
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else: v.listItems[0]
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of ckVector:
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if v.listItems.len == 0: cljNil()
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else: v.listItems[0]
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else: cljNil()
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proc cljRest*(v: CljVal): CljVal =
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if v.isNil: return cljList(@[])
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case v.kind
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of ckList:
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if v.listItems.len <= 1: cljList(@[])
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else: cljList(v.listItems[1..^1])
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of ckVector:
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if v.listItems.len <= 1: cljList(@[])
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else: cljList(v.listItems[1..^1])
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else: cljList(@[])
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proc cljNext*(v: CljVal): CljVal =
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let r = cljRest(v)
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if r.kind == ckList and r.listItems.len == 0:
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return cljNil()
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r
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proc cljLast*(v: CljVal): CljVal =
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if v.isNil: return cljNil()
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case v.kind
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of ckList:
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if v.listItems.len == 0: cljNil()
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else: v.listItems[^1]
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of ckVector:
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if v.listItems.len == 0: cljNil()
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else: v.listItems[^1]
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else: cljNil()
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proc cljNth*(v: CljVal, n: int): CljVal =
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case v.kind
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of ckList:
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if n < 0 or n >= v.listItems.len:
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raise newException(IndexDefect, "nth: index out of range")
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v.listItems[n]
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of ckVector:
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if n < 0 or n >= v.listItems.len:
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raise newException(IndexDefect, "nth: index out of range")
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v.listItems[n]
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else:
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raise newException(CatchableError, "nth requires a collection")
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proc cljCount*(v: CljVal): int =
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if v.isNil: return 0
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case v.kind
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of ckList: v.listItems.len
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of ckVector: v.listItems.len
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of ckString: v.strVal.len
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else: 0
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proc cljConj*(coll: CljVal, item: CljVal): CljVal =
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if coll.isNil:
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return cljList(@[item])
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case coll.kind
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of ckList:
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var newItems = @[item]
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newItems.add(coll.listItems)
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cljList(newItems)
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of ckVector:
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var newItems = coll.listItems
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newItems.add(item)
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cljList(newItems)
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else:
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cljList(@[item])
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proc cljCons*(item: CljVal, coll: CljVal): CljVal =
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if coll.isNil or (coll.kind == ckList and coll.listItems.len == 0):
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return cljList(@[item])
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case coll.kind
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of ckList:
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var newItems = @[item]
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newItems.add(coll.listItems)
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cljList(newItems)
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of ckVector:
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var newItems = @[item]
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newItems.add(coll.listItems)
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cljList(newItems)
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else:
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cljList(@[item])
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proc cljSeq*(v: CljVal): CljVal =
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if v.isNil: return cljNil()
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case v.kind
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of ckList:
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if v.listItems.len == 0: cljNil()
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else: v
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of ckVector:
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if v.listItems.len == 0: cljNil()
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else: cljList(v.listItems)
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of ckString:
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if v.strVal.len == 0: cljNil()
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else:
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var chars: seq[CljVal] = @[]
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for c in v.strVal:
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chars.add(cljString($c))
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cljList(chars)
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else: cljNil()
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proc cljVec*(v: CljVal): CljVal =
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if v.isNil: return cljList(@[])
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case v.kind
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of ckList: cljList(v.listItems)
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of ckVector: v
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else: cljList(@[v])
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proc cljEmpty*(v: CljVal): CljVal =
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cljBool(cljCount(v) == 0)
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# ---- Higher-order functions ----
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proc cljMap*(f: proc(args: seq[CljVal]): CljVal, coll: seq[CljVal]): seq[CljVal] =
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result = @[]
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for item in coll:
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result.add(f(@[item]))
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proc cljFilter*(f: proc(args: seq[CljVal]): CljVal, coll: seq[CljVal]): seq[CljVal] =
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result = @[]
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for item in coll:
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let r = f(@[item])
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if r.kind == ckBool and r.boolVal:
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result.add(item)
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proc cljReduce*(f: proc(args: seq[CljVal]): CljVal, init: CljVal, coll: seq[CljVal]): CljVal =
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result = init
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for item in coll:
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result = f(@[result, item])
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proc cljMapv*(f: proc(args: seq[CljVal]): CljVal, coll: seq[CljVal]): CljVal =
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cljList(cljMap(f, coll))
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proc cljSome*(f: proc(args: seq[CljVal]): CljVal, coll: seq[CljVal]): CljVal =
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for item in coll:
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let r = f(@[item])
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if r.kind != ckBool or r.boolVal:
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return r
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cljNil()
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proc cljEvery*(f: proc(args: seq[CljVal]): CljVal, coll: seq[CljVal]): CljVal =
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for item in coll:
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let r = f(@[item])
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if r.kind == ckBool and not r.boolVal:
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return cljBool(false)
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cljBool(true)
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proc cljNot*(v: CljVal): CljVal =
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if v.kind == ckBool and not v.boolVal:
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cljBool(true)
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else:
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cljBool(false)
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proc cljApply*(f: proc(args: seq[CljVal]): CljVal, args: seq[CljVal]): CljVal =
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f(args)
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proc cljComp*(fns: seq[proc(args: seq[CljVal]): CljVal]): proc(args: seq[CljVal]): CljVal =
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proc(args: seq[CljVal]): CljVal =
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result = args
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for i in countdown(fns.len - 1, 0):
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result = fns[i](@[result])
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proc cljPartial*(f: proc(args: seq[CljVal]): CljVal, partialArgs: seq[CljVal]): proc(args: seq[CljVal]): CljVal =
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proc(args: seq[CljVal]): CljVal =
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var allArgs = partialArgs
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allArgs.add(args)
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f(allArgs)
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# ---- I/O ----
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proc cljPrintln*(args: seq[CljVal]): CljVal =
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var parts: seq[string] = @[]
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for a in args:
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parts.add(cljStr(a))
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echo parts.join(" ")
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cljNil()
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proc cljPrn*(args: seq[CljVal]): CljVal =
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var parts: seq[string] = @[]
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for a in args:
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parts.add(cljRepr(a))
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echo parts.join(" ")
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cljNil()
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proc cljStr*(args: seq[CljVal]): CljVal =
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var s = ""
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for a in args:
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s.add(cljStr(a))
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cljString(s)
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proc cljPrStr*(args: seq[CljVal]): CljVal =
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var parts: seq[string] = @[]
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for a in args:
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parts.add(cljRepr(a))
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cljString(parts.join(" "))
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# ---- Misc ----
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proc cljIdentity*(args: seq[CljVal]): CljVal =
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if args.len == 0: cljNil()
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else: args[0]
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proc cljConstantly*(v: CljVal): proc(args: seq[CljVal]): CljVal =
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proc(args: seq[CljVal]): CljVal = v
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proc cljType*(v: CljVal): CljVal =
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if v.isNil: return cljKeyword("nil")
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case v.kind
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of ckBool: cljKeyword("boolean")
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of ckInt: cljKeyword("integer")
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of ckFloat: cljKeyword("float")
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of ckString: cljKeyword("string")
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of ckKeyword: cljKeyword("keyword")
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of ckSymbol: cljKeyword("symbol")
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of ckList: cljKeyword("list")
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of ckVector: cljKeyword("vector")
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of ckMap: cljKeyword("map")
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of ckFn: cljKeyword("function")
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of ckAtom: cljKeyword("atom")
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proc cljMinMax*(args: seq[CljVal], isMin: bool): CljVal =
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if args.len == 0: raise newException(CatchableError, "min/max requires at least 1 argument")
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result = args[0]
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for i in 1..<args.len:
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if args[i].kind == ckInt and result.kind == ckInt:
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if isMin:
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if args[i].intVal < result.intVal: result = args[i]
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else:
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if args[i].intVal > result.intVal: result = args[i]
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proc cljAbs*(v: CljVal): CljVal =
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case v.kind
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of ckInt: cljInt(abs(v.intVal))
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of ckFloat: cljFloat(abs(v.floatVal))
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else: raise newException(CatchableError, "abs requires a number")
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proc cljQuot*(a, b: CljVal): CljVal =
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if a.kind == ckInt and b.kind == ckInt:
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cljInt(a.intVal div b.intVal)
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else:
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raise newException(CatchableError, "quot requires integers")
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