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- #
- #
- # The Nim Compiler
- # (c) Copyright 2015 Andreas Rumpf
- #
- # See the file "copying.txt", included in this
- # distribution, for details about the copyright.
- #
- # Unfortunately this cannot be a module yet:
- #import vmdeps, vm
- from std/math import sqrt, ln, log10, log2, exp, round, arccos, arcsin,
- arctan, arctan2, cos, cosh, hypot, sinh, sin, tan, tanh, pow, trunc,
- floor, ceil, `mod`, cbrt, arcsinh, arccosh, arctanh, erf, erfc, gamma,
- lgamma
- from std/sequtils import toSeq
- when declared(math.copySign):
- # pending bug #18762, avoid renaming math
- from std/math as math2 import copySign
- when declared(math.signbit):
- # ditto
- from std/math as math3 import signbit
- from std/os import getEnv, existsEnv, delEnv, putEnv, envPairs,
- dirExists, fileExists, walkDir, getAppFilename, raiseOSError, osLastError
- from std/times import cpuTime
- from std/hashes import hash
- from std/osproc import nil
- when defined(nimPreviewSlimSystem):
- import std/syncio
- else:
- from std/formatfloat import addFloatRoundtrip, addFloatSprintf
- # There are some useful procs in vmconv.
- import vmconv, vmmarshal
- template mathop(op) {.dirty.} =
- registerCallback(c, "stdlib.math." & astToStr(op), `op Wrapper`)
- template osop(op) {.dirty.} =
- registerCallback(c, "stdlib.os." & astToStr(op), `op Wrapper`)
- template timesop(op) {.dirty.} =
- registerCallback(c, "stdlib.times." & astToStr(op), `op Wrapper`)
- template systemop(op) {.dirty.} =
- registerCallback(c, "stdlib.system." & astToStr(op), `op Wrapper`)
- template ioop(op) {.dirty.} =
- registerCallback(c, "stdlib.syncio." & astToStr(op), `op Wrapper`)
- template macrosop(op) {.dirty.} =
- registerCallback(c, "stdlib.macros." & astToStr(op), `op Wrapper`)
- template wrap1fMath(op) {.dirty.} =
- proc `op Wrapper`(a: VmArgs) {.nimcall.} =
- doAssert a.numArgs == 1
- setResult(a, op(getFloat(a, 0)))
- mathop op
- template wrap2fMath(op) {.dirty.} =
- proc `op Wrapper`(a: VmArgs) {.nimcall.} =
- setResult(a, op(getFloat(a, 0), getFloat(a, 1)))
- mathop op
- template wrap0(op, modop) {.dirty.} =
- proc `op Wrapper`(a: VmArgs) {.nimcall.} =
- setResult(a, op())
- modop op
- template wrap1s(op, modop) {.dirty.} =
- proc `op Wrapper`(a: VmArgs) {.nimcall.} =
- setResult(a, op(getString(a, 0)))
- modop op
- template wrap2s(op, modop) {.dirty.} =
- proc `op Wrapper`(a: VmArgs) {.nimcall.} =
- setResult(a, op(getString(a, 0), getString(a, 1)))
- modop op
- template wrap2si(op, modop) {.dirty.} =
- proc `op Wrapper`(a: VmArgs) {.nimcall.} =
- setResult(a, op(getString(a, 0), getInt(a, 1)))
- modop op
- template wrap1svoid(op, modop) {.dirty.} =
- proc `op Wrapper`(a: VmArgs) {.nimcall.} =
- op(getString(a, 0))
- modop op
- template wrap2svoid(op, modop) {.dirty.} =
- proc `op Wrapper`(a: VmArgs) {.nimcall.} =
- op(getString(a, 0), getString(a, 1))
- modop op
- template wrapDangerous(op, modop) {.dirty.} =
- if vmopsDanger notin c.config.features and (defined(nimsuggest) or c.config.cmd == cmdCheck):
- proc `op Wrapper`(a: VmArgs) {.nimcall.} =
- discard
- modop op
- else:
- proc `op Wrapper`(a: VmArgs) {.nimcall.} =
- op(getString(a, 0), getString(a, 1))
- modop op
- proc getCurrentExceptionMsgWrapper(a: VmArgs) {.nimcall.} =
- setResult(a, if a.currentException.isNil: ""
- else: a.currentException[3].skipColon.strVal)
- proc getCurrentExceptionWrapper(a: VmArgs) {.nimcall.} =
- setResult(a, a.currentException)
- proc staticWalkDirImpl(path: string, relative: bool): PNode =
- result = newNode(nkBracket)
- for k, f in walkDir(path, relative):
- result.add toLit((k, f))
- when defined(nimHasInvariant):
- from std / compilesettings import SingleValueSetting, MultipleValueSetting
- proc querySettingImpl(conf: ConfigRef, switch: BiggestInt): string =
- case SingleValueSetting(switch)
- of arguments: result = conf.arguments
- of outFile: result = conf.outFile.string
- of outDir: result = conf.outDir.string
- of nimcacheDir: result = conf.getNimcacheDir().string
- of projectName: result = conf.projectName
- of projectPath: result = conf.projectPath.string
- of projectFull: result = conf.projectFull.string
- of command: result = conf.command
- of commandLine: result = conf.commandLine
- of linkOptions: result = conf.linkOptions
- of compileOptions: result = conf.compileOptions
- of ccompilerPath: result = conf.cCompilerPath
- of backend: result = $conf.backend
- of libPath: result = conf.libpath.string
- of gc: result = $conf.selectedGC
- of mm: result = $conf.selectedGC
- proc querySettingSeqImpl(conf: ConfigRef, switch: BiggestInt): seq[string] =
- template copySeq(field: untyped): untyped =
- for i in field: result.add i.string
- case MultipleValueSetting(switch)
- of nimblePaths: copySeq(conf.nimblePaths)
- of searchPaths: copySeq(conf.searchPaths)
- of lazyPaths: copySeq(conf.lazyPaths)
- of commandArgs: result = conf.commandArgs
- of cincludes: copySeq(conf.cIncludes)
- of clibs: copySeq(conf.cLibs)
- proc stackTrace2(c: PCtx, msg: string, n: PNode) =
- stackTrace(c, PStackFrame(prc: c.prc.sym, comesFrom: 0, next: nil), c.exceptionInstr, msg, n.info)
- proc registerAdditionalOps*(c: PCtx) =
- template wrapIterator(fqname: string, iter: untyped) =
- registerCallback c, fqname, proc(a: VmArgs) =
- setResult(a, toLit(toSeq(iter)))
- proc gorgeExWrapper(a: VmArgs) =
- let ret = opGorge(getString(a, 0), getString(a, 1), getString(a, 2),
- a.currentLineInfo, c.config)
- setResult a, ret.toLit
- proc getProjectPathWrapper(a: VmArgs) =
- setResult a, c.config.projectPath.string
- wrap1fMath(sqrt)
- wrap1fMath(cbrt)
- wrap1fMath(ln)
- wrap1fMath(log10)
- wrap1fMath(log2)
- wrap1fMath(exp)
- wrap1fMath(arccos)
- wrap1fMath(arcsin)
- wrap1fMath(arctan)
- wrap1fMath(arcsinh)
- wrap1fMath(arccosh)
- wrap1fMath(arctanh)
- wrap2fMath(arctan2)
- wrap1fMath(cos)
- wrap1fMath(cosh)
- wrap2fMath(hypot)
- wrap1fMath(sinh)
- wrap1fMath(sin)
- wrap1fMath(tan)
- wrap1fMath(tanh)
- wrap2fMath(pow)
- wrap1fMath(trunc)
- wrap1fMath(floor)
- wrap1fMath(ceil)
- wrap1fMath(erf)
- wrap1fMath(erfc)
- wrap1fMath(gamma)
- wrap1fMath(lgamma)
- when declared(copySign):
- wrap2fMath(copySign)
- when declared(signbit):
- wrap1fMath(signbit)
- registerCallback c, "stdlib.math.round", proc (a: VmArgs) {.nimcall.} =
- let n = a.numArgs
- case n
- of 1: setResult(a, round(getFloat(a, 0)))
- of 2: setResult(a, round(getFloat(a, 0), getInt(a, 1).int))
- else: doAssert false, $n
- proc `mod Wrapper`(a: VmArgs) {.nimcall.} =
- setResult(a, `mod`(getFloat(a, 0), getFloat(a, 1)))
- registerCallback(c, "stdlib.math.mod", `mod Wrapper`)
- when defined(nimcore):
- wrap2s(getEnv, osop)
- wrap1s(existsEnv, osop)
- wrap2svoid(putEnv, osop)
- wrap1svoid(delEnv, osop)
- wrap1s(dirExists, osop)
- wrap1s(fileExists, osop)
- wrapDangerous(writeFile, ioop)
- wrap1s(readFile, ioop)
- wrap2si(readLines, ioop)
- systemop getCurrentExceptionMsg
- systemop getCurrentException
- registerCallback c, "stdlib.*.staticWalkDir", proc (a: VmArgs) {.nimcall.} =
- setResult(a, staticWalkDirImpl(getString(a, 0), getBool(a, 1)))
- when defined(nimHasInvariant):
- registerCallback c, "stdlib.compilesettings.querySetting", proc (a: VmArgs) =
- setResult(a, querySettingImpl(c.config, getInt(a, 0)))
- registerCallback c, "stdlib.compilesettings.querySettingSeq", proc (a: VmArgs) =
- setResult(a, querySettingSeqImpl(c.config, getInt(a, 0)))
- if defined(nimsuggest) or c.config.cmd == cmdCheck:
- discard "don't run staticExec for 'nim suggest'"
- else:
- systemop gorgeEx
- macrosop getProjectPath
- registerCallback c, "stdlib.os.getCurrentCompilerExe", proc (a: VmArgs) {.nimcall.} =
- setResult(a, getAppFilename())
- registerCallback c, "stdlib.macros.symBodyHash", proc (a: VmArgs) =
- let n = getNode(a, 0)
- if n.kind != nkSym:
- stackTrace2(c, "symBodyHash() requires a symbol. '$#' is of kind '$#'" % [$n, $n.kind], n)
- setResult(a, $symBodyDigest(c.graph, n.sym))
- registerCallback c, "stdlib.macros.isExported", proc(a: VmArgs) =
- let n = getNode(a, 0)
- if n.kind != nkSym:
- stackTrace2(c, "isExported() requires a symbol. '$#' is of kind '$#'" % [$n, $n.kind], n)
- setResult(a, sfExported in n.sym.flags)
- registerCallback c, "stdlib.vmutils.vmTrace", proc (a: VmArgs) =
- c.config.isVmTrace = getBool(a, 0)
- proc hashVmImpl(a: VmArgs) =
- var res = hashes.hash(a.getString(0), a.getInt(1).int, a.getInt(2).int)
- if c.config.backend == backendJs:
- # emulate JS's terrible integers:
- res = cast[int32](res)
- setResult(a, res)
- registerCallback c, "stdlib.hashes.hashVmImpl", hashVmImpl
- proc hashVmImplByte(a: VmArgs) =
- # nkBracket[...]
- let sPos = a.getInt(1).int
- let ePos = a.getInt(2).int
- let arr = a.getNode(0)
- var bytes = newSeq[byte](arr.len)
- for i in 0..<arr.len:
- bytes[i] = byte(arr[i].intVal and 0xff)
- var res = hashes.hash(bytes, sPos, ePos)
- if c.config.backend == backendJs:
- # emulate JS's terrible integers:
- res = cast[int32](res)
- setResult(a, res)
- registerCallback c, "stdlib.hashes.hashVmImplByte", hashVmImplByte
- registerCallback c, "stdlib.hashes.hashVmImplChar", hashVmImplByte
- if optBenchmarkVM in c.config.globalOptions or vmopsDanger in c.config.features:
- wrap0(cpuTime, timesop)
- else:
- proc cpuTime(): float = 5.391245e-44 # Randomly chosen
- wrap0(cpuTime, timesop)
- if vmopsDanger in c.config.features:
- ## useful procs but these should be opt-in because they may impact
- ## reproducible builds and users need to understand that this runs at CT.
- ## Note that `staticExec` can already do equal amount of damage so it's more
- ## of a semantic issue than a security issue.
- registerCallback c, "stdlib.os.getCurrentDir", proc (a: VmArgs) {.nimcall.} =
- setResult(a, os.getCurrentDir())
- registerCallback c, "stdlib.osproc.execCmdEx", proc (a: VmArgs) {.nimcall.} =
- let options = getNode(a, 1).fromLit(set[osproc.ProcessOption])
- a.setResult osproc.execCmdEx(getString(a, 0), options).toLit
- registerCallback c, "stdlib.times.getTime", proc (a: VmArgs) {.nimcall.} =
- setResult(a, times.getTime().toLit)
- proc getEffectList(c: PCtx; a: VmArgs; effectIndex: int) =
- let fn = getNode(a, 0)
- var list = newNodeI(nkBracket, fn.info)
- if fn.typ != nil and fn.typ.n != nil and fn.typ.n[0].len >= effectListLen and
- fn.typ.n[0][effectIndex] != nil:
- for e in fn.typ.n[0][effectIndex]:
- list.add opMapTypeInstToAst(c.cache, e.typ.skipTypes({tyRef}), e.info, c.idgen)
- else:
- list.add newIdentNode(getIdent(c.cache, "UncomputedEffects"), fn.info)
- setResult(a, list)
- registerCallback c, "stdlib.effecttraits.getRaisesListImpl", proc (a: VmArgs) =
- getEffectList(c, a, exceptionEffects)
- registerCallback c, "stdlib.effecttraits.getTagsListImpl", proc (a: VmArgs) =
- getEffectList(c, a, tagEffects)
- registerCallback c, "stdlib.effecttraits.getForbidsListImpl", proc (a: VmArgs) =
- getEffectList(c, a, forbiddenEffects)
- registerCallback c, "stdlib.effecttraits.isGcSafeImpl", proc (a: VmArgs) =
- let fn = getNode(a, 0)
- setResult(a, fn.typ != nil and tfGcSafe in fn.typ.flags)
- registerCallback c, "stdlib.effecttraits.hasNoSideEffectsImpl", proc (a: VmArgs) =
- let fn = getNode(a, 0)
- setResult(a, (fn.typ != nil and tfNoSideEffect in fn.typ.flags) or
- (fn.kind == nkSym and fn.sym.kind == skFunc))
- registerCallback c, "stdlib.typetraits.hasClosureImpl", proc (a: VmArgs) =
- let fn = getNode(a, 0)
- setResult(a, fn.kind == nkClosure or (fn.typ != nil and fn.typ.callConv == ccClosure))
- registerCallback c, "stdlib.formatfloat.addFloatRoundtrip", proc(a: VmArgs) =
- let p = a.getVar(0)
- let x = a.getFloat(1)
- addFloatRoundtrip(p.strVal, x)
- registerCallback c, "stdlib.formatfloat.addFloatSprintf", proc(a: VmArgs) =
- let p = a.getVar(0)
- let x = a.getFloat(1)
- addFloatSprintf(p.strVal, x)
- wrapIterator("stdlib.os.envPairsImplSeq"): envPairs()
- registerCallback c, "stdlib.marshal.toVM", proc(a: VmArgs) =
- let typ = a.getNode(0).typ
- case typ.kind
- of tyInt..tyInt64, tyUInt..tyUInt64:
- setResult(a, loadAny(a.getString(1), typ, c.cache, c.config, c.idgen).intVal)
- of tyFloat..tyFloat128:
- setResult(a, loadAny(a.getString(1), typ, c.cache, c.config, c.idgen).floatVal)
- else:
- setResult(a, loadAny(a.getString(1), typ, c.cache, c.config, c.idgen))
- registerCallback c, "stdlib.marshal.loadVM", proc(a: VmArgs) =
- let typ = a.getNode(0).typ
- let p = a.getReg(1)
- var res: string
- storeAny(res, typ, regToNode(p[]), c.config)
- setResult(a, res)
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