semfold.nim 30 KB

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  1. #
  2. #
  3. # The Nim Compiler
  4. # (c) Copyright 2015 Andreas Rumpf
  5. #
  6. # See the file "copying.txt", included in this
  7. # distribution, for details about the copyright.
  8. #
  9. # this module folds constants; used by semantic checking phase
  10. # and evaluation phase
  11. import
  12. strutils, options, ast, trees, nimsets,
  13. platform, math, msgs, idents, renderer, types,
  14. commands, magicsys, modulegraphs, strtabs, lineinfos, wordrecg
  15. from system/memory import nimCStrLen
  16. when defined(nimPreviewSlimSystem):
  17. import std/[assertions, formatfloat]
  18. proc errorType*(g: ModuleGraph): PType =
  19. ## creates a type representing an error state
  20. result = newType(tyError, nextTypeId(g.idgen), g.owners[^1])
  21. result.flags.incl tfCheckedForDestructor
  22. proc getIntLitTypeG(g: ModuleGraph; literal: PNode; idgen: IdGenerator): PType =
  23. # we cache some common integer literal types for performance:
  24. let ti = getSysType(g, literal.info, tyInt)
  25. result = copyType(ti, nextTypeId(idgen), ti.owner)
  26. result.n = literal
  27. proc newIntNodeT*(intVal: Int128, n: PNode; idgen: IdGenerator; g: ModuleGraph): PNode =
  28. result = newIntTypeNode(intVal, n.typ)
  29. # See bug #6989. 'pred' et al only produce an int literal type if the
  30. # original type was 'int', not a distinct int etc.
  31. if n.typ.kind == tyInt:
  32. # access cache for the int lit type
  33. result.typ = getIntLitTypeG(g, result, idgen)
  34. result.info = n.info
  35. proc newFloatNodeT*(floatVal: BiggestFloat, n: PNode; g: ModuleGraph): PNode =
  36. if n.typ.skipTypes(abstractInst).kind == tyFloat32:
  37. result = newFloatNode(nkFloat32Lit, floatVal)
  38. else:
  39. result = newFloatNode(nkFloatLit, floatVal)
  40. result.typ = n.typ
  41. result.info = n.info
  42. proc newStrNodeT*(strVal: string, n: PNode; g: ModuleGraph): PNode =
  43. result = newStrNode(nkStrLit, strVal)
  44. result.typ = n.typ
  45. result.info = n.info
  46. proc getConstExpr*(m: PSym, n: PNode; idgen: IdGenerator; g: ModuleGraph): PNode
  47. # evaluates the constant expression or returns nil if it is no constant
  48. # expression
  49. proc evalOp*(m: TMagic, n, a, b, c: PNode; idgen: IdGenerator; g: ModuleGraph): PNode
  50. proc checkInRange(conf: ConfigRef; n: PNode, res: Int128): bool =
  51. res in firstOrd(conf, n.typ)..lastOrd(conf, n.typ)
  52. proc foldAdd(a, b: Int128, n: PNode; idgen: IdGenerator; g: ModuleGraph): PNode =
  53. let res = a + b
  54. if checkInRange(g.config, n, res):
  55. result = newIntNodeT(res, n, idgen, g)
  56. proc foldSub(a, b: Int128, n: PNode; idgen: IdGenerator; g: ModuleGraph): PNode =
  57. let res = a - b
  58. if checkInRange(g.config, n, res):
  59. result = newIntNodeT(res, n, idgen, g)
  60. proc foldUnarySub(a: Int128, n: PNode; idgen: IdGenerator, g: ModuleGraph): PNode =
  61. if a != firstOrd(g.config, n.typ):
  62. result = newIntNodeT(-a, n, idgen, g)
  63. proc foldAbs(a: Int128, n: PNode; idgen: IdGenerator; g: ModuleGraph): PNode =
  64. if a != firstOrd(g.config, n.typ):
  65. result = newIntNodeT(abs(a), n, idgen, g)
  66. proc foldMul(a, b: Int128, n: PNode; idgen: IdGenerator; g: ModuleGraph): PNode =
  67. let res = a * b
  68. if checkInRange(g.config, n, res):
  69. return newIntNodeT(res, n, idgen, g)
  70. proc ordinalValToString*(a: PNode; g: ModuleGraph): string =
  71. # because $ has the param ordinal[T], `a` is not necessarily an enum, but an
  72. # ordinal
  73. var x = getInt(a)
  74. var t = skipTypes(a.typ, abstractRange)
  75. case t.kind
  76. of tyChar:
  77. result = $chr(toInt64(x) and 0xff)
  78. of tyEnum:
  79. var n = t.n
  80. for i in 0..<n.len:
  81. if n[i].kind != nkSym: internalError(g.config, a.info, "ordinalValToString")
  82. var field = n[i].sym
  83. if field.position == x:
  84. if field.ast == nil:
  85. return field.name.s
  86. else:
  87. return field.ast.strVal
  88. localError(g.config, a.info,
  89. "Cannot convert int literal to $1. The value is invalid." %
  90. [typeToString(t)])
  91. else:
  92. result = $x
  93. proc isFloatRange(t: PType): bool {.inline.} =
  94. result = t.kind == tyRange and t[0].kind in {tyFloat..tyFloat128}
  95. proc isIntRange(t: PType): bool {.inline.} =
  96. result = t.kind == tyRange and t[0].kind in {
  97. tyInt..tyInt64, tyUInt8..tyUInt32}
  98. proc pickIntRange(a, b: PType): PType =
  99. if isIntRange(a): result = a
  100. elif isIntRange(b): result = b
  101. else: result = a
  102. proc isIntRangeOrLit(t: PType): bool =
  103. result = isIntRange(t) or isIntLit(t)
  104. proc evalOp(m: TMagic, n, a, b, c: PNode; idgen: IdGenerator; g: ModuleGraph): PNode =
  105. # b and c may be nil
  106. result = nil
  107. case m
  108. of mOrd: result = newIntNodeT(getOrdValue(a), n, idgen, g)
  109. of mChr: result = newIntNodeT(getInt(a), n, idgen, g)
  110. of mUnaryMinusI, mUnaryMinusI64: result = foldUnarySub(getInt(a), n, idgen, g)
  111. of mUnaryMinusF64: result = newFloatNodeT(-getFloat(a), n, g)
  112. of mNot: result = newIntNodeT(One - getInt(a), n, idgen, g)
  113. of mCard: result = newIntNodeT(toInt128(nimsets.cardSet(g.config, a)), n, idgen, g)
  114. of mBitnotI:
  115. if n.typ.isUnsigned:
  116. result = newIntNodeT(bitnot(getInt(a)).maskBytes(int(getSize(g.config, n.typ))), n, idgen, g)
  117. else:
  118. result = newIntNodeT(bitnot(getInt(a)), n, idgen, g)
  119. of mLengthArray: result = newIntNodeT(lengthOrd(g.config, a.typ), n, idgen, g)
  120. of mLengthSeq, mLengthOpenArray, mLengthStr:
  121. if a.kind == nkNilLit:
  122. result = newIntNodeT(Zero, n, idgen, g)
  123. elif a.kind in {nkStrLit..nkTripleStrLit}:
  124. if a.typ.kind == tyString:
  125. result = newIntNodeT(toInt128(a.strVal.len), n, idgen, g)
  126. elif a.typ.kind == tyCstring:
  127. result = newIntNodeT(toInt128(nimCStrLen(a.strVal.cstring)), n, idgen, g)
  128. else:
  129. result = newIntNodeT(toInt128(a.len), n, idgen, g)
  130. of mUnaryPlusI, mUnaryPlusF64: result = a # throw `+` away
  131. # XXX: Hides overflow/underflow
  132. of mAbsI: result = foldAbs(getInt(a), n, idgen, g)
  133. of mSucc: result = foldAdd(getOrdValue(a), getInt(b), n, idgen, g)
  134. of mPred: result = foldSub(getOrdValue(a), getInt(b), n, idgen, g)
  135. of mAddI: result = foldAdd(getInt(a), getInt(b), n, idgen, g)
  136. of mSubI: result = foldSub(getInt(a), getInt(b), n, idgen, g)
  137. of mMulI: result = foldMul(getInt(a), getInt(b), n, idgen, g)
  138. of mMinI:
  139. let argA = getInt(a)
  140. let argB = getInt(b)
  141. result = newIntNodeT(if argA < argB: argA else: argB, n, idgen, g)
  142. of mMaxI:
  143. let argA = getInt(a)
  144. let argB = getInt(b)
  145. result = newIntNodeT(if argA > argB: argA else: argB, n, idgen, g)
  146. of mShlI:
  147. case skipTypes(n.typ, abstractRange).kind
  148. of tyInt8: result = newIntNodeT(toInt128(toInt8(getInt(a)) shl toInt64(getInt(b))), n, idgen, g)
  149. of tyInt16: result = newIntNodeT(toInt128(toInt16(getInt(a)) shl toInt64(getInt(b))), n, idgen, g)
  150. of tyInt32: result = newIntNodeT(toInt128(toInt32(getInt(a)) shl toInt64(getInt(b))), n, idgen, g)
  151. of tyInt64: result = newIntNodeT(toInt128(toInt64(getInt(a)) shl toInt64(getInt(b))), n, idgen, g)
  152. of tyInt:
  153. if g.config.target.intSize == 4:
  154. result = newIntNodeT(toInt128(toInt32(getInt(a)) shl toInt64(getInt(b))), n, idgen, g)
  155. else:
  156. result = newIntNodeT(toInt128(toInt64(getInt(a)) shl toInt64(getInt(b))), n, idgen, g)
  157. of tyUInt8: result = newIntNodeT(toInt128(toUInt8(getInt(a)) shl toInt64(getInt(b))), n, idgen, g)
  158. of tyUInt16: result = newIntNodeT(toInt128(toUInt16(getInt(a)) shl toInt64(getInt(b))), n, idgen, g)
  159. of tyUInt32: result = newIntNodeT(toInt128(toUInt32(getInt(a)) shl toInt64(getInt(b))), n, idgen, g)
  160. of tyUInt64: result = newIntNodeT(toInt128(toUInt64(getInt(a)) shl toInt64(getInt(b))), n, idgen, g)
  161. of tyUInt:
  162. if g.config.target.intSize == 4:
  163. result = newIntNodeT(toInt128(toUInt32(getInt(a)) shl toInt64(getInt(b))), n, idgen, g)
  164. else:
  165. result = newIntNodeT(toInt128(toUInt64(getInt(a)) shl toInt64(getInt(b))), n, idgen, g)
  166. else: internalError(g.config, n.info, "constant folding for shl")
  167. of mShrI:
  168. var a = cast[uint64](getInt(a))
  169. let b = cast[uint64](getInt(b))
  170. # To support the ``-d:nimOldShiftRight`` flag, we need to mask the
  171. # signed integers to cut off the extended sign bit in the internal
  172. # representation.
  173. if 0'u64 < b: # do not cut off the sign extension, when there is
  174. # no bit shifting happening.
  175. case skipTypes(n.typ, abstractRange).kind
  176. of tyInt8: a = a and 0xff'u64
  177. of tyInt16: a = a and 0xffff'u64
  178. of tyInt32: a = a and 0xffffffff'u64
  179. of tyInt:
  180. if g.config.target.intSize == 4:
  181. a = a and 0xffffffff'u64
  182. else:
  183. # unsigned and 64 bit integers don't need masking
  184. discard
  185. let c = cast[BiggestInt](a shr b)
  186. result = newIntNodeT(toInt128(c), n, idgen, g)
  187. of mAshrI:
  188. case skipTypes(n.typ, abstractRange).kind
  189. of tyInt8: result = newIntNodeT(toInt128(ashr(toInt8(getInt(a)), toInt8(getInt(b)))), n, idgen, g)
  190. of tyInt16: result = newIntNodeT(toInt128(ashr(toInt16(getInt(a)), toInt16(getInt(b)))), n, idgen, g)
  191. of tyInt32: result = newIntNodeT(toInt128(ashr(toInt32(getInt(a)), toInt32(getInt(b)))), n, idgen, g)
  192. of tyInt64, tyInt:
  193. result = newIntNodeT(toInt128(ashr(toInt64(getInt(a)), toInt64(getInt(b)))), n, idgen, g)
  194. else: internalError(g.config, n.info, "constant folding for ashr")
  195. of mDivI:
  196. let argA = getInt(a)
  197. let argB = getInt(b)
  198. if argB != Zero and (argA != firstOrd(g.config, n.typ) or argB != NegOne):
  199. result = newIntNodeT(argA div argB, n, idgen, g)
  200. of mModI:
  201. let argA = getInt(a)
  202. let argB = getInt(b)
  203. if argB != Zero and (argA != firstOrd(g.config, n.typ) or argB != NegOne):
  204. result = newIntNodeT(argA mod argB, n, idgen, g)
  205. of mAddF64: result = newFloatNodeT(getFloat(a) + getFloat(b), n, g)
  206. of mSubF64: result = newFloatNodeT(getFloat(a) - getFloat(b), n, g)
  207. of mMulF64: result = newFloatNodeT(getFloat(a) * getFloat(b), n, g)
  208. of mDivF64:
  209. result = newFloatNodeT(getFloat(a) / getFloat(b), n, g)
  210. of mIsNil: result = newIntNodeT(toInt128(ord(a.kind == nkNilLit)), n, idgen, g)
  211. of mLtI, mLtB, mLtEnum, mLtCh:
  212. result = newIntNodeT(toInt128(ord(getOrdValue(a) < getOrdValue(b))), n, idgen, g)
  213. of mLeI, mLeB, mLeEnum, mLeCh:
  214. result = newIntNodeT(toInt128(ord(getOrdValue(a) <= getOrdValue(b))), n, idgen, g)
  215. of mEqI, mEqB, mEqEnum, mEqCh:
  216. result = newIntNodeT(toInt128(ord(getOrdValue(a) == getOrdValue(b))), n, idgen, g)
  217. of mLtF64: result = newIntNodeT(toInt128(ord(getFloat(a) < getFloat(b))), n, idgen, g)
  218. of mLeF64: result = newIntNodeT(toInt128(ord(getFloat(a) <= getFloat(b))), n, idgen, g)
  219. of mEqF64: result = newIntNodeT(toInt128(ord(getFloat(a) == getFloat(b))), n, idgen, g)
  220. of mLtStr: result = newIntNodeT(toInt128(ord(getStr(a) < getStr(b))), n, idgen, g)
  221. of mLeStr: result = newIntNodeT(toInt128(ord(getStr(a) <= getStr(b))), n, idgen, g)
  222. of mEqStr: result = newIntNodeT(toInt128(ord(getStr(a) == getStr(b))), n, idgen, g)
  223. of mLtU:
  224. result = newIntNodeT(toInt128(ord(`<%`(toInt64(getOrdValue(a)), toInt64(getOrdValue(b))))), n, idgen, g)
  225. of mLeU:
  226. result = newIntNodeT(toInt128(ord(`<=%`(toInt64(getOrdValue(a)), toInt64(getOrdValue(b))))), n, idgen, g)
  227. of mBitandI, mAnd: result = newIntNodeT(bitand(a.getInt, b.getInt), n, idgen, g)
  228. of mBitorI, mOr: result = newIntNodeT(bitor(getInt(a), getInt(b)), n, idgen, g)
  229. of mBitxorI, mXor: result = newIntNodeT(bitxor(getInt(a), getInt(b)), n, idgen, g)
  230. of mAddU:
  231. let val = maskBytes(getInt(a) + getInt(b), int(getSize(g.config, n.typ)))
  232. result = newIntNodeT(val, n, idgen, g)
  233. of mSubU:
  234. let val = maskBytes(getInt(a) - getInt(b), int(getSize(g.config, n.typ)))
  235. result = newIntNodeT(val, n, idgen, g)
  236. # echo "subU: ", val, " n: ", n, " result: ", val
  237. of mMulU:
  238. let val = maskBytes(getInt(a) * getInt(b), int(getSize(g.config, n.typ)))
  239. result = newIntNodeT(val, n, idgen, g)
  240. of mModU:
  241. let argA = maskBytes(getInt(a), int(getSize(g.config, a.typ)))
  242. let argB = maskBytes(getInt(b), int(getSize(g.config, a.typ)))
  243. if argB != Zero:
  244. result = newIntNodeT(argA mod argB, n, idgen, g)
  245. of mDivU:
  246. let argA = maskBytes(getInt(a), int(getSize(g.config, a.typ)))
  247. let argB = maskBytes(getInt(b), int(getSize(g.config, a.typ)))
  248. if argB != Zero:
  249. result = newIntNodeT(argA div argB, n, idgen, g)
  250. of mLeSet: result = newIntNodeT(toInt128(ord(containsSets(g.config, a, b))), n, idgen, g)
  251. of mEqSet: result = newIntNodeT(toInt128(ord(equalSets(g.config, a, b))), n, idgen, g)
  252. of mLtSet:
  253. result = newIntNodeT(toInt128(ord(
  254. containsSets(g.config, a, b) and not equalSets(g.config, a, b))), n, idgen, g)
  255. of mMulSet:
  256. result = nimsets.intersectSets(g.config, a, b)
  257. result.info = n.info
  258. of mPlusSet:
  259. result = nimsets.unionSets(g.config, a, b)
  260. result.info = n.info
  261. of mMinusSet:
  262. result = nimsets.diffSets(g.config, a, b)
  263. result.info = n.info
  264. of mConStrStr: result = newStrNodeT(getStrOrChar(a) & getStrOrChar(b), n, g)
  265. of mInSet: result = newIntNodeT(toInt128(ord(inSet(a, b))), n, idgen, g)
  266. of mRepr:
  267. # BUGFIX: we cannot eval mRepr here for reasons that I forgot.
  268. discard
  269. of mIntToStr, mInt64ToStr: result = newStrNodeT($(getOrdValue(a)), n, g)
  270. of mBoolToStr:
  271. if getOrdValue(a) == 0: result = newStrNodeT("false", n, g)
  272. else: result = newStrNodeT("true", n, g)
  273. of mFloatToStr: result = newStrNodeT($getFloat(a), n, g)
  274. of mCStrToStr, mCharToStr:
  275. result = newStrNodeT(getStrOrChar(a), n, g)
  276. of mStrToStr: result = newStrNodeT(getStrOrChar(a), n, g)
  277. of mEnumToStr: result = newStrNodeT(ordinalValToString(a, g), n, g)
  278. of mArrToSeq:
  279. result = copyTree(a)
  280. result.typ = n.typ
  281. of mCompileOption:
  282. result = newIntNodeT(toInt128(ord(commands.testCompileOption(g.config, a.getStr, n.info))), n, idgen, g)
  283. of mCompileOptionArg:
  284. result = newIntNodeT(toInt128(ord(
  285. testCompileOptionArg(g.config, getStr(a), getStr(b), n.info))), n, idgen, g)
  286. of mEqProc:
  287. result = newIntNodeT(toInt128(ord(
  288. exprStructuralEquivalent(a, b, strictSymEquality=true))), n, idgen, g)
  289. else: discard
  290. proc getConstIfExpr(c: PSym, n: PNode; idgen: IdGenerator; g: ModuleGraph): PNode =
  291. result = nil
  292. for i in 0..<n.len:
  293. var it = n[i]
  294. if it.len == 2:
  295. var e = getConstExpr(c, it[0], idgen, g)
  296. if e == nil: return nil
  297. if getOrdValue(e) != 0:
  298. if result == nil:
  299. result = getConstExpr(c, it[1], idgen, g)
  300. if result == nil: return
  301. elif it.len == 1:
  302. if result == nil: result = getConstExpr(c, it[0], idgen, g)
  303. else: internalError(g.config, it.info, "getConstIfExpr()")
  304. proc leValueConv*(a, b: PNode): bool =
  305. result = false
  306. case a.kind
  307. of nkCharLit..nkUInt64Lit:
  308. case b.kind
  309. of nkCharLit..nkUInt64Lit: result = a.getInt <= b.getInt
  310. of nkFloatLit..nkFloat128Lit: result = a.intVal <= round(b.floatVal).int
  311. else: result = false #internalError(a.info, "leValueConv")
  312. of nkFloatLit..nkFloat128Lit:
  313. case b.kind
  314. of nkFloatLit..nkFloat128Lit: result = a.floatVal <= b.floatVal
  315. of nkCharLit..nkUInt64Lit: result = a.floatVal <= toFloat64(b.getInt)
  316. else: result = false # internalError(a.info, "leValueConv")
  317. else: result = false # internalError(a.info, "leValueConv")
  318. proc magicCall(m: PSym, n: PNode; idgen: IdGenerator; g: ModuleGraph): PNode =
  319. if n.len <= 1: return
  320. var s = n[0].sym
  321. var a = getConstExpr(m, n[1], idgen, g)
  322. var b, c: PNode
  323. if a == nil: return
  324. if n.len > 2:
  325. b = getConstExpr(m, n[2], idgen, g)
  326. if b == nil: return
  327. if n.len > 3:
  328. c = getConstExpr(m, n[3], idgen, g)
  329. if c == nil: return
  330. result = evalOp(s.magic, n, a, b, c, idgen, g)
  331. proc getAppType(n: PNode; g: ModuleGraph): PNode =
  332. if g.config.globalOptions.contains(optGenDynLib):
  333. result = newStrNodeT("lib", n, g)
  334. elif g.config.globalOptions.contains(optGenStaticLib):
  335. result = newStrNodeT("staticlib", n, g)
  336. elif g.config.globalOptions.contains(optGenGuiApp):
  337. result = newStrNodeT("gui", n, g)
  338. else:
  339. result = newStrNodeT("console", n, g)
  340. proc rangeCheck(n: PNode, value: Int128; g: ModuleGraph) =
  341. if value < firstOrd(g.config, n.typ) or value > lastOrd(g.config, n.typ):
  342. localError(g.config, n.info, "cannot convert " & $value &
  343. " to " & typeToString(n.typ))
  344. proc floatRangeCheck(n: PNode, value: BiggestFloat; g: ModuleGraph) =
  345. if value < firstFloat(n.typ) or value > lastFloat(n.typ):
  346. localError(g.config, n.info, "cannot convert " & $value &
  347. " to " & typeToString(n.typ))
  348. proc foldConv(n, a: PNode; idgen: IdGenerator; g: ModuleGraph; check = false): PNode =
  349. let dstTyp = skipTypes(n.typ, abstractRange - {tyTypeDesc})
  350. let srcTyp = skipTypes(a.typ, abstractRange - {tyTypeDesc})
  351. # if srcTyp.kind == tyUInt64 and "FFFFFF" in $n:
  352. # echo "n: ", n, " a: ", a
  353. # echo "from: ", srcTyp, " to: ", dstTyp, " check: ", check
  354. # echo getInt(a)
  355. # echo high(int64)
  356. # writeStackTrace()
  357. case dstTyp.kind
  358. of tyBool:
  359. case srcTyp.kind
  360. of tyFloat..tyFloat64:
  361. result = newIntNodeT(toInt128(getFloat(a) != 0.0), n, idgen, g)
  362. of tyChar, tyUInt..tyUInt64, tyInt..tyInt64:
  363. result = newIntNodeT(toInt128(a.getOrdValue != 0), n, idgen, g)
  364. of tyBool, tyEnum: # xxx shouldn't we disallow `tyEnum`?
  365. result = a
  366. result.typ = n.typ
  367. else: doAssert false, $srcTyp.kind
  368. of tyInt..tyInt64, tyUInt..tyUInt64:
  369. case srcTyp.kind
  370. of tyFloat..tyFloat64:
  371. result = newIntNodeT(toInt128(getFloat(a)), n, idgen, g)
  372. of tyChar, tyUInt..tyUInt64, tyInt..tyInt64:
  373. var val = a.getOrdValue
  374. if check: rangeCheck(n, val, g)
  375. result = newIntNodeT(val, n, idgen, g)
  376. if dstTyp.kind in {tyUInt..tyUInt64}:
  377. result.transitionIntKind(nkUIntLit)
  378. else:
  379. result = a
  380. result.typ = n.typ
  381. if check and result.kind in {nkCharLit..nkUInt64Lit}:
  382. rangeCheck(n, getInt(result), g)
  383. of tyFloat..tyFloat64:
  384. case srcTyp.kind
  385. of tyInt..tyInt64, tyUInt..tyUInt64, tyEnum, tyBool, tyChar:
  386. result = newFloatNodeT(toFloat64(getOrdValue(a)), n, g)
  387. else:
  388. result = a
  389. result.typ = n.typ
  390. of tyOpenArray, tyVarargs, tyProc, tyPointer:
  391. discard
  392. else:
  393. result = a
  394. result.typ = n.typ
  395. proc getArrayConstr(m: PSym, n: PNode; idgen: IdGenerator; g: ModuleGraph): PNode =
  396. if n.kind == nkBracket:
  397. result = n
  398. else:
  399. result = getConstExpr(m, n, idgen, g)
  400. if result == nil: result = n
  401. proc foldArrayAccess(m: PSym, n: PNode; idgen: IdGenerator; g: ModuleGraph): PNode =
  402. var x = getConstExpr(m, n[0], idgen, g)
  403. if x == nil or x.typ.skipTypes({tyGenericInst, tyAlias, tySink}).kind == tyTypeDesc:
  404. return
  405. var y = getConstExpr(m, n[1], idgen, g)
  406. if y == nil: return
  407. var idx = toInt64(getOrdValue(y))
  408. case x.kind
  409. of nkPar, nkTupleConstr:
  410. if idx >= 0 and idx < x.len:
  411. result = x.sons[idx]
  412. if result.kind == nkExprColonExpr: result = result[1]
  413. else:
  414. localError(g.config, n.info, formatErrorIndexBound(idx, x.len-1) & $n)
  415. of nkBracket:
  416. idx -= toInt64(firstOrd(g.config, x.typ))
  417. if idx >= 0 and idx < x.len: result = x[int(idx)]
  418. else: localError(g.config, n.info, formatErrorIndexBound(idx, x.len-1) & $n)
  419. of nkStrLit..nkTripleStrLit:
  420. result = newNodeIT(nkCharLit, x.info, n.typ)
  421. if idx >= 0 and idx < x.strVal.len:
  422. result.intVal = ord(x.strVal[int(idx)])
  423. else:
  424. localError(g.config, n.info, formatErrorIndexBound(idx, x.strVal.len-1) & $n)
  425. else: discard
  426. proc foldFieldAccess(m: PSym, n: PNode; idgen: IdGenerator; g: ModuleGraph): PNode =
  427. # a real field access; proc calls have already been transformed
  428. if n[1].kind != nkSym: return nil
  429. var x = getConstExpr(m, n[0], idgen, g)
  430. if x == nil or x.kind notin {nkObjConstr, nkPar, nkTupleConstr}: return
  431. var field = n[1].sym
  432. for i in ord(x.kind == nkObjConstr)..<x.len:
  433. var it = x[i]
  434. if it.kind != nkExprColonExpr:
  435. # lookup per index:
  436. result = x[field.position]
  437. if result.kind == nkExprColonExpr: result = result[1]
  438. return
  439. if it[0].sym.name.id == field.name.id:
  440. result = x[i][1]
  441. return
  442. localError(g.config, n.info, "field not found: " & field.name.s)
  443. proc foldConStrStr(m: PSym, n: PNode; idgen: IdGenerator; g: ModuleGraph): PNode =
  444. result = newNodeIT(nkStrLit, n.info, n.typ)
  445. result.strVal = ""
  446. for i in 1..<n.len:
  447. let a = getConstExpr(m, n[i], idgen, g)
  448. if a == nil: return nil
  449. result.strVal.add(getStrOrChar(a))
  450. proc newSymNodeTypeDesc*(s: PSym; idgen: IdGenerator; info: TLineInfo): PNode =
  451. result = newSymNode(s, info)
  452. if s.typ.kind != tyTypeDesc:
  453. result.typ = newType(tyTypeDesc, idgen.nextTypeId, s.owner)
  454. result.typ.addSonSkipIntLit(s.typ, idgen)
  455. else:
  456. result.typ = s.typ
  457. proc foldDefine(m, s: PSym, n: PNode; idgen: IdGenerator; g: ModuleGraph): PNode =
  458. var name = s.name.s
  459. let prag = extractPragma(s)
  460. if prag != nil:
  461. for it in prag:
  462. if it.kind in nkPragmaCallKinds and it.len == 2 and it[0].kind == nkIdent:
  463. let word = whichKeyword(it[0].ident)
  464. if word in {wStrDefine, wIntDefine, wBoolDefine, wDefine}:
  465. # should be processed in pragmas.nim already
  466. if it[1].kind in {nkStrLit, nkRStrLit, nkTripleStrLit}:
  467. name = it[1].strVal
  468. if isDefined(g.config, name):
  469. let str = g.config.symbols[name]
  470. case s.magic
  471. of mIntDefine:
  472. try:
  473. result = newIntNodeT(toInt128(str.parseInt), n, idgen, g)
  474. except ValueError:
  475. localError(g.config, s.info,
  476. "{.intdefine.} const was set to an invalid integer: '" &
  477. str & "'")
  478. of mStrDefine:
  479. result = newStrNodeT(str, n, g)
  480. of mBoolDefine:
  481. try:
  482. result = newIntNodeT(toInt128(str.parseBool.int), n, idgen, g)
  483. except ValueError:
  484. localError(g.config, s.info,
  485. "{.booldefine.} const was set to an invalid bool: '" &
  486. str & "'")
  487. of mGenericDefine:
  488. let rawTyp = s.typ
  489. # pretend we don't support distinct types
  490. let typ = rawTyp.skipTypes(abstractVarRange-{tyDistinct})
  491. try:
  492. template intNode(value): PNode =
  493. let val = toInt128(value)
  494. rangeCheck(n, val, g)
  495. newIntNodeT(val, n, idgen, g)
  496. case typ.kind
  497. of tyString, tyCstring:
  498. result = newStrNodeT(str, n, g)
  499. of tyInt..tyInt64:
  500. result = intNode(str.parseBiggestInt)
  501. of tyUInt..tyUInt64:
  502. result = intNode(str.parseBiggestUInt)
  503. of tyBool:
  504. result = intNode(str.parseBool.int)
  505. of tyEnum:
  506. # compile time parseEnum
  507. let ident = getIdent(g.cache, str)
  508. for e in typ.n:
  509. if e.kind != nkSym: internalError(g.config, "foldDefine for enum")
  510. let es = e.sym
  511. let match =
  512. if es.ast.isNil:
  513. es.name.id == ident.id
  514. else:
  515. es.ast.strVal == str
  516. if match:
  517. result = intNode(es.position)
  518. break
  519. if result.isNil:
  520. raise newException(ValueError, "invalid enum value: " & str)
  521. else:
  522. localError(g.config, s.info, "unsupported type $1 for define '$2'" %
  523. [name, typeToString(rawTyp)])
  524. except ValueError as e:
  525. localError(g.config, s.info,
  526. "could not process define '$1' of type $2; $3" %
  527. [name, typeToString(rawTyp), e.msg])
  528. else: result = copyTree(s.astdef) # unreachable
  529. else:
  530. result = copyTree(s.astdef)
  531. proc getConstExpr(m: PSym, n: PNode; idgen: IdGenerator; g: ModuleGraph): PNode =
  532. result = nil
  533. case n.kind
  534. of nkSym:
  535. var s = n.sym
  536. case s.kind
  537. of skEnumField:
  538. result = newIntNodeT(toInt128(s.position), n, idgen, g)
  539. of skConst:
  540. case s.magic
  541. of mIsMainModule: result = newIntNodeT(toInt128(ord(sfMainModule in m.flags)), n, idgen, g)
  542. of mCompileDate: result = newStrNodeT(getDateStr(), n, g)
  543. of mCompileTime: result = newStrNodeT(getClockStr(), n, g)
  544. of mCpuEndian: result = newIntNodeT(toInt128(ord(CPU[g.config.target.targetCPU].endian)), n, idgen, g)
  545. of mHostOS: result = newStrNodeT(toLowerAscii(platform.OS[g.config.target.targetOS].name), n, g)
  546. of mHostCPU: result = newStrNodeT(platform.CPU[g.config.target.targetCPU].name.toLowerAscii, n, g)
  547. of mBuildOS: result = newStrNodeT(toLowerAscii(platform.OS[g.config.target.hostOS].name), n, g)
  548. of mBuildCPU: result = newStrNodeT(platform.CPU[g.config.target.hostCPU].name.toLowerAscii, n, g)
  549. of mAppType: result = getAppType(n, g)
  550. of mIntDefine, mStrDefine, mBoolDefine, mGenericDefine:
  551. result = foldDefine(m, s, n, idgen, g)
  552. else:
  553. result = copyTree(s.astdef)
  554. of skProc, skFunc, skMethod:
  555. result = n
  556. of skParam:
  557. if s.typ != nil and s.typ.kind == tyTypeDesc:
  558. result = newSymNodeTypeDesc(s, idgen, n.info)
  559. of skType:
  560. # XXX gensym'ed symbols can come here and cannot be resolved. This is
  561. # dirty, but correct.
  562. if s.typ != nil:
  563. result = newSymNodeTypeDesc(s, idgen, n.info)
  564. of skGenericParam:
  565. if s.typ.kind == tyStatic:
  566. if s.typ.n != nil and tfUnresolved notin s.typ.flags:
  567. result = s.typ.n
  568. result.typ = s.typ.base
  569. elif s.typ.isIntLit:
  570. result = s.typ.n
  571. else:
  572. result = newSymNodeTypeDesc(s, idgen, n.info)
  573. else: discard
  574. of nkCharLit..nkNilLit:
  575. result = copyNode(n)
  576. of nkIfExpr:
  577. result = getConstIfExpr(m, n, idgen, g)
  578. of nkCallKinds:
  579. if n[0].kind != nkSym: return
  580. var s = n[0].sym
  581. if s.kind != skProc and s.kind != skFunc: return
  582. try:
  583. case s.magic
  584. of mNone:
  585. # If it has no sideEffect, it should be evaluated. But not here.
  586. return
  587. of mLow:
  588. if skipTypes(n[1].typ, abstractVarRange).kind in tyFloat..tyFloat64:
  589. result = newFloatNodeT(firstFloat(n[1].typ), n, g)
  590. else:
  591. result = newIntNodeT(firstOrd(g.config, n[1].typ), n, idgen, g)
  592. of mHigh:
  593. if skipTypes(n[1].typ, abstractVar+{tyUserTypeClassInst}).kind notin
  594. {tySequence, tyString, tyCstring, tyOpenArray, tyVarargs}:
  595. if skipTypes(n[1].typ, abstractVarRange).kind in tyFloat..tyFloat64:
  596. result = newFloatNodeT(lastFloat(n[1].typ), n, g)
  597. else:
  598. result = newIntNodeT(lastOrd(g.config, skipTypes(n[1].typ, abstractVar)), n, idgen, g)
  599. else:
  600. var a = getArrayConstr(m, n[1], idgen, g)
  601. if a.kind == nkBracket:
  602. # we can optimize it away:
  603. result = newIntNodeT(toInt128(a.len-1), n, idgen, g)
  604. of mLengthOpenArray:
  605. var a = getArrayConstr(m, n[1], idgen, g)
  606. if a.kind == nkBracket:
  607. # we can optimize it away! This fixes the bug ``len(134)``.
  608. result = newIntNodeT(toInt128(a.len), n, idgen, g)
  609. else:
  610. result = magicCall(m, n, idgen, g)
  611. of mLengthArray:
  612. # It doesn't matter if the argument is const or not for mLengthArray.
  613. # This fixes bug #544.
  614. result = newIntNodeT(lengthOrd(g.config, n[1].typ), n, idgen, g)
  615. of mSizeOf:
  616. result = foldSizeOf(g.config, n, nil)
  617. of mAlignOf:
  618. result = foldAlignOf(g.config, n, nil)
  619. of mOffsetOf:
  620. result = foldOffsetOf(g.config, n, nil)
  621. of mAstToStr:
  622. result = newStrNodeT(renderTree(n[1], {renderNoComments}), n, g)
  623. of mConStrStr:
  624. result = foldConStrStr(m, n, idgen, g)
  625. of mIs:
  626. # The only kind of mIs node that comes here is one depending on some
  627. # generic parameter and that's (hopefully) handled at instantiation time
  628. discard
  629. else:
  630. result = magicCall(m, n, idgen, g)
  631. except OverflowDefect:
  632. localError(g.config, n.info, "over- or underflow")
  633. except DivByZeroDefect:
  634. localError(g.config, n.info, "division by zero")
  635. of nkAddr:
  636. var a = getConstExpr(m, n[0], idgen, g)
  637. if a != nil:
  638. result = n
  639. n[0] = a
  640. of nkBracket, nkCurly:
  641. result = copyNode(n)
  642. for i, son in n.pairs:
  643. var a = getConstExpr(m, son, idgen, g)
  644. if a == nil: return nil
  645. result.add a
  646. incl(result.flags, nfAllConst)
  647. of nkRange:
  648. var a = getConstExpr(m, n[0], idgen, g)
  649. if a == nil: return
  650. var b = getConstExpr(m, n[1], idgen, g)
  651. if b == nil: return
  652. result = copyNode(n)
  653. result.add a
  654. result.add b
  655. #of nkObjConstr:
  656. # result = copyTree(n)
  657. # for i in 1..<n.len:
  658. # var a = getConstExpr(m, n[i][1])
  659. # if a == nil: return nil
  660. # result[i][1] = a
  661. # incl(result.flags, nfAllConst)
  662. of nkPar, nkTupleConstr:
  663. # tuple constructor
  664. result = copyNode(n)
  665. if (n.len > 0) and (n[0].kind == nkExprColonExpr):
  666. for i, expr in n.pairs:
  667. let exprNew = copyNode(expr) # nkExprColonExpr
  668. exprNew.add expr[0]
  669. let a = getConstExpr(m, expr[1], idgen, g)
  670. if a == nil: return nil
  671. exprNew.add a
  672. result.add exprNew
  673. else:
  674. for i, expr in n.pairs:
  675. let a = getConstExpr(m, expr, idgen, g)
  676. if a == nil: return nil
  677. result.add a
  678. incl(result.flags, nfAllConst)
  679. of nkChckRangeF, nkChckRange64, nkChckRange:
  680. var a = getConstExpr(m, n[0], idgen, g)
  681. if a == nil: return
  682. if leValueConv(n[1], a) and leValueConv(a, n[2]):
  683. result = a # a <= x and x <= b
  684. result.typ = n.typ
  685. else:
  686. localError(g.config, n.info,
  687. "conversion from $1 to $2 is invalid" %
  688. [typeToString(n[0].typ), typeToString(n.typ)])
  689. of nkStringToCString, nkCStringToString:
  690. var a = getConstExpr(m, n[0], idgen, g)
  691. if a == nil: return
  692. result = a
  693. result.typ = n.typ
  694. of nkHiddenStdConv, nkHiddenSubConv, nkConv:
  695. var a = getConstExpr(m, n[1], idgen, g)
  696. if a == nil: return
  697. result = foldConv(n, a, idgen, g, check=true)
  698. of nkDerefExpr, nkHiddenDeref:
  699. let a = getConstExpr(m, n[0], idgen, g)
  700. if a != nil and a.kind == nkNilLit:
  701. result = nil
  702. #localError(g.config, n.info, "nil dereference is not allowed")
  703. of nkCast:
  704. var a = getConstExpr(m, n[1], idgen, g)
  705. if a == nil: return
  706. if n.typ != nil and n.typ.kind in NilableTypes:
  707. # we allow compile-time 'cast' for pointer types:
  708. result = a
  709. result.typ = n.typ
  710. of nkBracketExpr: result = foldArrayAccess(m, n, idgen, g)
  711. of nkDotExpr: result = foldFieldAccess(m, n, idgen, g)
  712. of nkCheckedFieldExpr:
  713. assert n[0].kind == nkDotExpr
  714. result = foldFieldAccess(m, n[0], idgen, g)
  715. of nkStmtListExpr:
  716. var i = 0
  717. while i <= n.len - 2:
  718. if n[i].kind in {nkComesFrom, nkCommentStmt, nkEmpty}: i.inc
  719. else: break
  720. if i == n.len - 1:
  721. result = getConstExpr(m, n[i], idgen, g)
  722. else:
  723. discard