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- #
- #
- # The Nim Compiler
- # (c) Copyright 2013 Andreas Rumpf
- #
- # See the file "copying.txt", included in this
- # distribution, for details about the copyright.
- #
- # This module implements the renderer of the standard Nim representation.
- # 'import renderer' is so useful for debugging
- # that Nim shouldn't produce a warning for that:
- {.used.}
- import
- lexer, options, idents, strutils, ast, msgs, lineinfos, wordrecg
- when defined(nimPreviewSlimSystem):
- import std/[syncio, assertions, formatfloat]
- type
- TRenderFlag* = enum
- renderNone, renderNoBody, renderNoComments, renderDocComments,
- renderNoPragmas, renderIds, renderNoProcDefs, renderSyms, renderRunnableExamples,
- renderIr, renderNonExportedFields, renderExpandUsing
- TRenderFlags* = set[TRenderFlag]
- TRenderTok* = object
- kind*: TokType
- length*: int16
- sym*: PSym
- Section = enum
- GenericParams
- ObjectDef
- TRenderTokSeq* = seq[TRenderTok]
- TSrcGen* = object
- indent*: int
- lineLen*: int
- col: int
- pos*: int # current position for iteration over the buffer
- idx*: int # current token index for iteration over the buffer
- tokens*: TRenderTokSeq
- buf*: string
- pendingNL*: int # negative if not active; else contains the
- # indentation value
- pendingWhitespace: int
- comStack*: seq[PNode] # comment stack
- flags*: TRenderFlags
- inside: set[Section] # Keeps track of contexts we are in
- checkAnon: bool # we're in a context that can contain sfAnon
- inPragma: int
- when defined(nimpretty):
- pendingNewlineCount: int
- fid*: FileIndex
- config*: ConfigRef
- mangler: seq[PSym]
- proc renderTree*(n: PNode, renderFlags: TRenderFlags = {}): string
- # We render the source code in a two phases: The first
- # determines how long the subtree will likely be, the second
- # phase appends to a buffer that will be the output.
- proc disamb(g: var TSrcGen; s: PSym): int =
- # we group by 's.name.s' to compute the stable name ID.
- result = 0
- for i in 0 ..< g.mangler.len:
- if s == g.mangler[i]: return result
- if s.name.s == g.mangler[i].name.s: inc result
- g.mangler.add s
- proc isKeyword*(i: PIdent): bool =
- if (i.id >= ord(tokKeywordLow) - ord(tkSymbol)) and
- (i.id <= ord(tokKeywordHigh) - ord(tkSymbol)):
- result = true
- else:
- result = false
- proc isExported(n: PNode): bool =
- ## Checks if an ident is exported.
- ## This is meant to be used with idents in nkIdentDefs.
- case n.kind
- of nkPostfix:
- n[0].ident.s == "*" and n[1].kind == nkIdent
- of nkPragmaExpr:
- n[0].isExported()
- else: false
- proc renderDefinitionName*(s: PSym, noQuotes = false): string =
- ## Returns the definition name of the symbol.
- ##
- ## If noQuotes is false the symbol may be returned in backticks. This will
- ## happen if the name happens to be a keyword or the first character is not
- ## part of the SymStartChars set.
- let x = s.name.s
- if noQuotes or (x[0] in SymStartChars and not renderer.isKeyword(s.name)):
- result = x
- else:
- result = '`' & x & '`'
- template inside(g: var TSrcGen, section: Section, body: untyped) =
- ## Runs `body` with `section` included in `g.inside`.
- ## Removes it at the end of the body if `g` wasn't inside it
- ## before the template.
- let wasntInSection = section notin g.inside
- g.inside.incl section
- body
- if wasntInSection:
- g.inside.excl section
- template outside(g: var TSrcGen, section: Section, body: untyped) =
- ## Temporarily removes `section` from `g.inside`. Adds it back
- ## at the end of the body if `g` was inside it before the template
- let wasInSection = section in g.inside
- g.inside.excl section
- body
- if wasInSection:
- g.inside.incl section
- const
- IndentWidth = 2
- longIndentWid = IndentWidth * 2
- when defined(nimpretty):
- proc minmaxLine(n: PNode): (int, int) =
- case n.kind
- of nkTripleStrLit:
- result = (n.info.line.int, n.info.line.int + countLines(n.strVal))
- of nkCommentStmt:
- result = (n.info.line.int, n.info.line.int + countLines(n.comment))
- else:
- result = (n.info.line.int, n.info.line.int)
- for i in 0..<n.safeLen:
- let (currMin, currMax) = minmaxLine(n[i])
- if currMin < result[0]: result[0] = currMin
- if currMax > result[1]: result[1] = currMax
- proc lineDiff(a, b: PNode): int =
- result = minmaxLine(b)[0] - minmaxLine(a)[1]
- const
- MaxLineLen = 80
- LineCommentColumn = 30
- proc initSrcGen(renderFlags: TRenderFlags; config: ConfigRef): TSrcGen =
- result = TSrcGen(comStack: @[], tokens: @[], indent: 0,
- lineLen: 0, pos: 0, idx: 0, buf: "",
- flags: renderFlags, pendingNL: -1,
- pendingWhitespace: -1, inside: {},
- config: config
- )
- proc addTok(g: var TSrcGen, kind: TokType, s: string; sym: PSym = nil) =
- g.tokens.add TRenderTok(kind: kind, length: int16(s.len), sym: sym)
- g.buf.add(s)
- if kind != tkSpaces:
- inc g.col, s.len
- proc addPendingNL(g: var TSrcGen) =
- if g.pendingNL >= 0:
- when defined(nimpretty):
- let newlines = repeat("\n", clamp(g.pendingNewlineCount, 1, 3))
- else:
- const newlines = "\n"
- addTok(g, tkSpaces, newlines & spaces(g.pendingNL))
- g.lineLen = g.pendingNL
- g.col = g.pendingNL
- g.pendingNL = - 1
- g.pendingWhitespace = -1
- elif g.pendingWhitespace >= 0:
- addTok(g, tkSpaces, spaces(g.pendingWhitespace))
- g.pendingWhitespace = -1
- proc putNL(g: var TSrcGen, indent: int) =
- if g.pendingNL >= 0: addPendingNL(g)
- else:
- addTok(g, tkSpaces, "\n")
- g.col = 0
- g.pendingNL = indent
- g.lineLen = indent
- g.pendingWhitespace = -1
- proc previousNL(g: TSrcGen): bool =
- result = g.pendingNL >= 0 or (g.tokens.len > 0 and
- g.tokens[^1].kind == tkSpaces)
- proc putNL(g: var TSrcGen) =
- putNL(g, g.indent)
- proc optNL(g: var TSrcGen, indent: int) =
- g.pendingNL = indent
- g.lineLen = indent
- g.col = g.indent
- when defined(nimpretty): g.pendingNewlineCount = 0
- proc optNL(g: var TSrcGen) =
- optNL(g, g.indent)
- proc optNL(g: var TSrcGen; a, b: PNode) =
- g.pendingNL = g.indent
- g.lineLen = g.indent
- g.col = g.indent
- when defined(nimpretty): g.pendingNewlineCount = lineDiff(a, b)
- proc indentNL(g: var TSrcGen) =
- inc(g.indent, IndentWidth)
- g.pendingNL = g.indent
- g.lineLen = g.indent
- proc dedent(g: var TSrcGen) =
- dec(g.indent, IndentWidth)
- assert(g.indent >= 0)
- if g.pendingNL > IndentWidth:
- dec(g.pendingNL, IndentWidth)
- dec(g.lineLen, IndentWidth)
- proc put(g: var TSrcGen, kind: TokType, s: string; sym: PSym = nil) =
- if kind != tkSpaces:
- addPendingNL(g)
- if s.len > 0 or kind in {tkHideableStart, tkHideableEnd}:
- addTok(g, kind, s, sym)
- else:
- g.pendingWhitespace = s.len
- inc g.col, s.len
- inc(g.lineLen, s.len)
- proc putComment(g: var TSrcGen, s: string) =
- if s.len == 0: return
- var i = 0
- let hi = s.len - 1
- let isCode = (s.len >= 2) and (s[1] != ' ')
- let ind = g.col
- var com = "## "
- while i <= hi:
- case s[i]
- of '\0':
- break
- of '\r':
- put(g, tkComment, com)
- com = "## "
- inc(i)
- if i <= hi and s[i] == '\n': inc(i)
- optNL(g, ind)
- of '\n':
- put(g, tkComment, com)
- com = "## "
- inc(i)
- optNL(g, ind)
- of ' ', '\t':
- com.add(s[i])
- inc(i)
- else:
- # we may break the comment into a multi-line comment if the line
- # gets too long:
- # compute length of the following word:
- var j = i
- while j <= hi and s[j] > ' ': inc(j)
- if not isCode and (g.col + (j - i) > MaxLineLen):
- put(g, tkComment, com)
- optNL(g, ind)
- com = "## "
- while i <= hi and s[i] > ' ':
- com.add(s[i])
- inc(i)
- put(g, tkComment, com)
- optNL(g)
- proc maxLineLength(s: string): int =
- result = 0
- if s.len == 0: return 0
- var i = 0
- let hi = s.len - 1
- var lineLen = 0
- while i <= hi:
- case s[i]
- of '\0':
- break
- of '\r':
- inc(i)
- if i <= hi and s[i] == '\n': inc(i)
- result = max(result, lineLen)
- lineLen = 0
- of '\n':
- inc(i)
- result = max(result, lineLen)
- lineLen = 0
- else:
- inc(lineLen)
- inc(i)
- proc putRawStr(g: var TSrcGen, kind: TokType, s: string) =
- var i = 0
- let hi = s.len - 1
- var str = ""
- while i <= hi:
- case s[i]
- of '\r':
- put(g, kind, str)
- str = ""
- inc(i)
- if i <= hi and s[i] == '\n': inc(i)
- optNL(g, 0)
- of '\n':
- put(g, kind, str)
- str = ""
- inc(i)
- optNL(g, 0)
- else:
- str.add(s[i])
- inc(i)
- put(g, kind, str)
- proc containsNL(s: string): bool =
- for i in 0..<s.len:
- case s[i]
- of '\r', '\n':
- return true
- else:
- discard
- result = false
- proc pushCom(g: var TSrcGen, n: PNode) =
- setLen(g.comStack, g.comStack.len + 1)
- g.comStack[^1] = n
- proc popAllComs(g: var TSrcGen) =
- setLen(g.comStack, 0)
- const
- Space = " "
- proc shouldRenderComment(g: TSrcGen): bool {.inline.} =
- (renderNoComments notin g.flags or renderDocComments in g.flags)
- proc shouldRenderComment(g: TSrcGen, n: PNode): bool {.inline.} =
- shouldRenderComment(g) and n.comment.len > 0
- proc gcom(g: var TSrcGen, n: PNode) =
- assert(n != nil)
- if shouldRenderComment(g, n):
- var oneSpaceAdded = 0
- if (g.pendingNL < 0) and (g.buf.len > 0) and (g.buf[^1] != ' '):
- put(g, tkSpaces, Space)
- oneSpaceAdded = 1
- # Before long comments we cannot make sure that a newline is generated,
- # because this might be wrong. But it is no problem in practice.
- if (g.pendingNL < 0) and (g.buf.len > 0) and
- (g.col < LineCommentColumn):
- var ml = maxLineLength(n.comment)
- if ml + LineCommentColumn <= MaxLineLen:
- put(g, tkSpaces, spaces(LineCommentColumn - g.col))
- dec g.col, oneSpaceAdded
- putComment(g, n.comment) #assert(g.comStack[high(g.comStack)] = n);
- proc gcoms(g: var TSrcGen) =
- for i in 0..high(g.comStack): gcom(g, g.comStack[i])
- popAllComs(g)
- proc lsub(g: TSrcGen; n: PNode): int
- proc litAux(g: TSrcGen; n: PNode, x: BiggestInt, size: int): string =
- proc skip(t: PType): PType =
- result = t
- while result != nil and result.kind in {tyGenericInst, tyRange, tyVar,
- tyLent, tyDistinct, tyOrdinal, tyAlias, tySink}:
- result = lastSon(result)
- result = ""
- let typ = n.typ.skip
- if typ != nil and typ.kind in {tyBool, tyEnum}:
- if sfPure in typ.sym.flags:
- result = typ.sym.name.s & '.'
- let enumfields = typ.n
- # we need a slow linear search because of enums with holes:
- for e in items(enumfields):
- if e.sym.position == x:
- result &= e.sym.name.s
- return
- if nfBase2 in n.flags: result = "0b" & toBin(x, size * 8)
- elif nfBase8 in n.flags:
- var y = if size < sizeof(BiggestInt): x and ((1.BiggestInt shl (size*8)) - 1)
- else: x
- result = "0o" & toOct(y, size * 3)
- elif nfBase16 in n.flags: result = "0x" & toHex(x, size * 2)
- else: result = $x
- proc ulitAux(g: TSrcGen; n: PNode, x: BiggestInt, size: int): string =
- if nfBase2 in n.flags: result = "0b" & toBin(x, size * 8)
- elif nfBase8 in n.flags: result = "0o" & toOct(x, size * 3)
- elif nfBase16 in n.flags: result = "0x" & toHex(x, size * 2)
- else: result = $cast[BiggestUInt](x)
- proc atom(g: TSrcGen; n: PNode): string =
- when defined(nimpretty):
- doAssert g.config != nil, "g.config not initialized!"
- let comment = if n.info.commentOffsetA < n.info.commentOffsetB:
- " " & fileSection(g.config, g.fid, n.info.commentOffsetA, n.info.commentOffsetB)
- else:
- ""
- if n.info.offsetA <= n.info.offsetB:
- # for some constructed tokens this can not be the case and we're better
- # off to not mess with the offset then.
- return fileSection(g.config, g.fid, n.info.offsetA, n.info.offsetB) & comment
- var f: float32
- case n.kind
- of nkEmpty: result = ""
- of nkIdent: result = n.ident.s
- of nkSym: result = n.sym.name.s
- of nkClosedSymChoice, nkOpenSymChoice: result = n[0].sym.name.s
- of nkStrLit: result = ""; result.addQuoted(n.strVal)
- of nkRStrLit: result = "r\"" & replace(n.strVal, "\"", "\"\"") & '\"'
- of nkTripleStrLit: result = "\"\"\"" & n.strVal & "\"\"\""
- of nkCharLit:
- result = "\'"
- result.addEscapedChar(chr(int(n.intVal)));
- result.add '\''
- of nkIntLit: result = litAux(g, n, n.intVal, 4)
- of nkInt8Lit: result = litAux(g, n, n.intVal, 1) & "\'i8"
- of nkInt16Lit: result = litAux(g, n, n.intVal, 2) & "\'i16"
- of nkInt32Lit: result = litAux(g, n, n.intVal, 4) & "\'i32"
- of nkInt64Lit: result = litAux(g, n, n.intVal, 8) & "\'i64"
- of nkUIntLit: result = ulitAux(g, n, n.intVal, 4) & "\'u"
- of nkUInt8Lit: result = ulitAux(g, n, n.intVal, 1) & "\'u8"
- of nkUInt16Lit: result = ulitAux(g, n, n.intVal, 2) & "\'u16"
- of nkUInt32Lit: result = ulitAux(g, n, n.intVal, 4) & "\'u32"
- of nkUInt64Lit: result = ulitAux(g, n, n.intVal, 8) & "\'u64"
- of nkFloatLit:
- if n.flags * {nfBase2, nfBase8, nfBase16} == {}: result = $(n.floatVal)
- else: result = litAux(g, n, (cast[ptr int64](addr(n.floatVal)))[] , 8)
- of nkFloat32Lit:
- if n.flags * {nfBase2, nfBase8, nfBase16} == {}:
- result = $n.floatVal & "\'f32"
- else:
- f = n.floatVal.float32
- result = litAux(g, n, (cast[ptr int32](addr(f)))[], 4) & "\'f32"
- of nkFloat64Lit:
- if n.flags * {nfBase2, nfBase8, nfBase16} == {}:
- result = $n.floatVal & "\'f64"
- else:
- result = litAux(g, n, (cast[ptr int64](addr(n.floatVal)))[], 8) & "\'f64"
- of nkNilLit: result = "nil"
- of nkType:
- if (n.typ != nil) and (n.typ.sym != nil): result = n.typ.sym.name.s
- else: result = "[type node]"
- else:
- internalError(g.config, "renderer.atom " & $n.kind)
- result = ""
- proc lcomma(g: TSrcGen; n: PNode, start: int = 0, theEnd: int = - 1): int =
- assert(theEnd < 0)
- result = 0
- for i in start..n.len + theEnd:
- let param = n[i]
- if nfDefaultParam notin param.flags:
- inc(result, lsub(g, param))
- inc(result, 2) # for ``, ``
- if result > 0:
- dec(result, 2) # last does not get a comma!
- proc lsons(g: TSrcGen; n: PNode, start: int = 0, theEnd: int = - 1): int =
- assert(theEnd < 0)
- result = 0
- for i in start..n.len + theEnd: inc(result, lsub(g, n[i]))
- proc origUsingType(n: PNode): PSym {.inline.} =
- ## Returns the type that a parameter references. Check with referencesUsing first
- ## to check `n` is actually referencing a using node
- # If the node is untyped the typ field will be nil
- if n[0].sym.typ != nil:
- n[0].sym.typ.sym
- else: nil
- proc referencesUsing(n: PNode): bool =
- ## Returns true if n references a using statement.
- ## e.g. proc foo(x) # x doesn't have type or def value so it references a using
- result = n.kind == nkIdentDefs and
- # Sometimes the node might not have been semmed (e.g. doc0) and will be nkIdent instead
- n[0].kind == nkSym and
- # Templates/macros can have parameters with no type (But their orig type will be nil)
- n.origUsingType != nil and
- n[1].kind == nkEmpty and n[2].kind == nkEmpty
- proc lsub(g: TSrcGen; n: PNode): int =
- # computes the length of a tree
- result = 0
- if isNil(n): return 0
- if shouldRenderComment(g, n): return MaxLineLen + 1
- case n.kind
- of nkEmpty: result = 0
- of nkTripleStrLit:
- if containsNL(n.strVal): result = MaxLineLen + 1
- else: result = atom(g, n).len
- of succ(nkEmpty)..pred(nkTripleStrLit), succ(nkTripleStrLit)..nkNilLit:
- result = atom(g, n).len
- of nkCall, nkBracketExpr, nkCurlyExpr, nkConv, nkPattern, nkObjConstr:
- result = lsub(g, n[0]) + lcomma(g, n, 1) + 2
- of nkHiddenStdConv, nkHiddenSubConv, nkHiddenCallConv: result = lsub(g, n[1])
- of nkCast: result = lsub(g, n[0]) + lsub(g, n[1]) + len("cast[]()")
- of nkAddr: result = (if n.len>0: lsub(g, n[0]) + len("addr()") else: 4)
- of nkStaticExpr: result = lsub(g, n[0]) + len("static_")
- of nkHiddenAddr, nkHiddenDeref, nkStringToCString, nkCStringToString: result = lsub(g, n[0])
- of nkCommand: result = lsub(g, n[0]) + lcomma(g, n, 1) + 1
- of nkExprEqExpr, nkAsgn, nkFastAsgn: result = lsons(g, n) + 3
- of nkPar, nkCurly, nkBracket, nkClosure: result = lcomma(g, n) + 2
- of nkTupleConstr:
- # assume the trailing comma:
- result = lcomma(g, n) + 3
- of nkArgList: result = lcomma(g, n)
- of nkTableConstr:
- result = if n.len > 0: lcomma(g, n) + 2 else: len("{:}")
- of nkClosedSymChoice, nkOpenSymChoice:
- if n.len > 0: result += lsub(g, n[0])
- of nkTupleTy: result = lcomma(g, n) + len("tuple[]")
- of nkTupleClassTy: result = len("tuple")
- of nkDotExpr: result = lsons(g, n) + 1
- of nkBind: result = lsons(g, n) + len("bind_")
- of nkBindStmt: result = lcomma(g, n) + len("bind_")
- of nkMixinStmt: result = lcomma(g, n) + len("mixin_")
- of nkCheckedFieldExpr: result = lsub(g, n[0])
- of nkLambda: result = lsons(g, n) + len("proc__=_")
- of nkDo: result = lsons(g, n) + len("do__:_")
- of nkConstDef, nkIdentDefs:
- result = lcomma(g, n, 0, - 3)
- if n.referencesUsing:
- result += lsub(g, newSymNode(n.origUsingType)) + 2
- else:
- if n[^2].kind != nkEmpty: result += lsub(g, n[^2]) + 2
- if n[^1].kind != nkEmpty: result += lsub(g, n[^1]) + 3
- of nkVarTuple:
- if n[^1].kind == nkEmpty:
- result = lcomma(g, n, 0, - 2) + len("()")
- else:
- result = lcomma(g, n, 0, - 3) + len("() = ") + lsub(g, lastSon(n))
- of nkChckRangeF: result = len("chckRangeF") + 2 + lcomma(g, n)
- of nkChckRange64: result = len("chckRange64") + 2 + lcomma(g, n)
- of nkChckRange: result = len("chckRange") + 2 + lcomma(g, n)
- of nkObjDownConv, nkObjUpConv:
- result = 2
- if n.len >= 1: result += lsub(g, n[0])
- result += lcomma(g, n, 1)
- of nkExprColonExpr: result = lsons(g, n) + 2
- of nkInfix: result = lsons(g, n) + 2
- of nkPrefix:
- result = lsons(g, n)+1+(if n.len > 0 and n[1].kind == nkInfix: 2 else: 0)
- of nkPostfix: result = lsons(g, n)
- of nkCallStrLit: result = lsons(g, n)
- of nkPragmaExpr: result = lsub(g, n[0]) + lcomma(g, n, 1)
- of nkRange: result = lsons(g, n) + 2
- of nkDerefExpr: result = lsub(g, n[0]) + 2
- of nkAccQuoted: result = lsons(g, n) + 2
- of nkIfExpr:
- result = lsub(g, n[0][0]) + lsub(g, n[0][1]) + lsons(g, n, 1) +
- len("if_:_")
- of nkElifExpr: result = lsons(g, n) + len("_elif_:_")
- of nkElseExpr: result = lsub(g, n[0]) + len("_else:_") # type descriptions
- of nkTypeOfExpr: result = (if n.len > 0: lsub(g, n[0]) else: 0)+len("typeof()")
- of nkRefTy: result = (if n.len > 0: lsub(g, n[0])+1 else: 0) + len("ref")
- of nkPtrTy: result = (if n.len > 0: lsub(g, n[0])+1 else: 0) + len("ptr")
- of nkVarTy, nkOutTy: result = (if n.len > 0: lsub(g, n[0])+1 else: 0) + len("var")
- of nkDistinctTy:
- result = len("distinct") + (if n.len > 0: lsub(g, n[0])+1 else: 0)
- if n.len > 1:
- result += (if n[1].kind == nkWith: len("_with_") else: len("_without_"))
- result += lcomma(g, n[1])
- of nkStaticTy: result = (if n.len > 0: lsub(g, n[0]) else: 0) +
- len("static[]")
- of nkTypeDef: result = lsons(g, n) + 3
- of nkOfInherit: result = lsub(g, n[0]) + len("of_")
- of nkProcTy: result = lsons(g, n) + len("proc_")
- of nkIteratorTy: result = lsons(g, n) + len("iterator_")
- of nkSinkAsgn: result = lsons(g, n) + len("`=sink`(, )")
- of nkEnumTy:
- if n.len > 0:
- result = lsub(g, n[0]) + lcomma(g, n, 1) + len("enum_")
- else:
- result = len("enum")
- of nkEnumFieldDef: result = lsons(g, n) + 3
- of nkVarSection, nkLetSection:
- if n.len > 1: result = MaxLineLen + 1
- else: result = lsons(g, n) + len("var_")
- of nkUsingStmt:
- if n.len > 1: result = MaxLineLen + 1
- else: result = lsons(g, n) + len("using_")
- of nkReturnStmt:
- if n.len > 0 and n[0].kind == nkAsgn and renderIr notin g.flags:
- result = len("return_") + lsub(g, n[0][1])
- else:
- result = len("return_") + lsub(g, n[0])
- of nkRaiseStmt: result = lsub(g, n[0]) + len("raise_")
- of nkYieldStmt: result = lsub(g, n[0]) + len("yield_")
- of nkDiscardStmt: result = lsub(g, n[0]) + len("discard_")
- of nkBreakStmt: result = lsub(g, n[0]) + len("break_")
- of nkContinueStmt: result = lsub(g, n[0]) + len("continue_")
- of nkPragma: result = lcomma(g, n) + 4
- of nkCommentStmt: result = n.comment.len
- of nkOfBranch: result = lcomma(g, n, 0, - 2) + lsub(g, lastSon(n)) + len("of_:_")
- of nkImportAs: result = lsub(g, n[0]) + len("_as_") + lsub(g, n[1])
- of nkElifBranch: result = lsons(g, n) + len("elif_:_")
- of nkElse: result = lsub(g, n[0]) + len("else:_")
- of nkFinally: result = lsub(g, n[0]) + len("finally:_")
- of nkGenericParams: result = lcomma(g, n) + 2
- of nkFormalParams:
- result = lcomma(g, n, 1) + 2
- if n[0].kind != nkEmpty: result += lsub(g, n[0]) + 2
- of nkExceptBranch:
- result = lcomma(g, n, 0, -2) + lsub(g, lastSon(n)) + len("except_:_")
- of nkObjectTy:
- result = len("object_")
- else: result = MaxLineLen + 1
- proc fits(g: TSrcGen, x: int): bool =
- result = x <= MaxLineLen
- type
- TSubFlag = enum
- rfLongMode, rfInConstExpr
- TSubFlags = set[TSubFlag]
- TContext = tuple[spacing: int, flags: TSubFlags]
- const
- emptyContext: TContext = (spacing: 0, flags: {})
- proc initContext(): TContext =
- result = (spacing: 0, flags: {})
- proc gsub(g: var TSrcGen, n: PNode, c: TContext, fromStmtList = false)
- proc gsub(g: var TSrcGen, n: PNode, fromStmtList = false) =
- var c: TContext = initContext()
- gsub(g, n, c, fromStmtList = fromStmtList)
- proc hasCom(n: PNode): bool =
- result = false
- if n.isNil: return false
- if n.comment.len > 0: return true
- case n.kind
- of nkEmpty..nkNilLit: discard
- else:
- for i in 0..<n.len:
- if hasCom(n[i]): return true
- proc putWithSpace(g: var TSrcGen, kind: TokType, s: string) =
- put(g, kind, s)
- put(g, tkSpaces, Space)
- proc isHideable(config: ConfigRef, n: PNode): bool =
- # xxx compare `ident` directly with `getIdent(cache, wRaises)`, but
- # this requires a `cache`.
- case n.kind
- of nkExprColonExpr:
- result = n[0].kind == nkIdent and
- n[0].ident.s.nimIdentNormalize in ["raises", "tags", "extern", "deprecated", "forbids", "stacktrace"]
- of nkIdent: result = n.ident.s in ["gcsafe", "deprecated"]
- else: result = false
- proc gcommaAux(g: var TSrcGen, n: PNode, ind: int, start: int = 0,
- theEnd: int = - 1, separator = tkComma) =
- let inPragma = g.inPragma == 1 # just the top-level
- var inHideable = false
- for i in start..n.len + theEnd:
- let c = i < n.len + theEnd
- let sublen = lsub(g, n[i]) + ord(c)
- if not fits(g, g.lineLen + sublen) and (ind + sublen < MaxLineLen): optNL(g, ind)
- let oldLen = g.tokens.len
- if inPragma:
- if not inHideable and isHideable(g.config, n[i]):
- inHideable = true
- put(g, tkHideableStart, "")
- elif inHideable and not isHideable(g.config, n[i]):
- inHideable = false
- put(g, tkHideableEnd, "")
- gsub(g, n[i])
- if c:
- if g.tokens.len > oldLen:
- putWithSpace(g, separator, $separator)
- if shouldRenderComment(g) and hasCom(n[i]):
- gcoms(g)
- optNL(g, ind)
- if inHideable:
- put(g, tkHideableEnd, "")
- inHideable = false
- proc gcomma(g: var TSrcGen, n: PNode, c: TContext, start: int = 0,
- theEnd: int = -1) =
- var ind: int
- if rfInConstExpr in c.flags:
- ind = g.indent + IndentWidth
- else:
- ind = g.lineLen
- if ind > MaxLineLen div 2: ind = g.indent + longIndentWid
- gcommaAux(g, n, ind, start, theEnd)
- proc gcomma(g: var TSrcGen, n: PNode, start: int = 0, theEnd: int = - 1) =
- var ind = g.lineLen
- if ind > MaxLineLen div 2: ind = g.indent + longIndentWid
- gcommaAux(g, n, ind, start, theEnd)
- proc gsemicolon(g: var TSrcGen, n: PNode, start: int = 0, theEnd: int = - 1) =
- var ind = g.lineLen
- if ind > MaxLineLen div 2: ind = g.indent + longIndentWid
- gcommaAux(g, n, ind, start, theEnd, tkSemiColon)
- proc gsons(g: var TSrcGen, n: PNode, c: TContext, start: int = 0,
- theEnd: int = - 1) =
- for i in start..n.len + theEnd: gsub(g, n[i], c)
- proc gsection(g: var TSrcGen, n: PNode, c: TContext, kind: TokType,
- k: string) =
- if n.len == 0: return # empty var sections are possible
- putWithSpace(g, kind, k)
- gcoms(g)
- indentNL(g)
- for i in 0..<n.len:
- optNL(g)
- gsub(g, n[i], c)
- gcoms(g)
- dedent(g)
- proc longMode(g: TSrcGen; n: PNode, start: int = 0, theEnd: int = - 1): bool =
- result = shouldRenderComment(g, n)
- if not result:
- # check further
- for i in start..n.len + theEnd:
- if (lsub(g, n[i]) > MaxLineLen):
- result = true
- break
- proc gstmts(g: var TSrcGen, n: PNode, c: TContext, doIndent=true) =
- if n.kind == nkEmpty: return
- if n.kind in {nkStmtList, nkStmtListExpr, nkStmtListType}:
- if doIndent: indentNL(g)
- for i in 0..<n.len:
- if i > 0:
- optNL(g, n[i-1], n[i])
- else:
- optNL(g)
- if n[i].kind in {nkStmtList, nkStmtListExpr, nkStmtListType}:
- gstmts(g, n[i], c, doIndent=false)
- else:
- gsub(g, n[i], fromStmtList = true)
- gcoms(g)
- if doIndent: dedent(g)
- else:
- indentNL(g)
- gsub(g, n)
- gcoms(g)
- dedent(g)
- optNL(g)
- proc gcond(g: var TSrcGen, n: PNode) =
- if n.kind == nkStmtListExpr:
- put(g, tkParLe, "(")
- gsub(g, n)
- if n.kind == nkStmtListExpr:
- put(g, tkParRi, ")")
- proc gif(g: var TSrcGen, n: PNode) =
- var c: TContext = initContext()
- gcond(g, n[0][0])
- putWithSpace(g, tkColon, ":")
- if longMode(g, n) or (lsub(g, n[0][1]) + g.lineLen > MaxLineLen):
- incl(c.flags, rfLongMode)
- gcoms(g) # a good place for comments
- gstmts(g, n[0][1], c)
- for i in 1..<n.len:
- optNL(g)
- gsub(g, n[i], c)
- proc gwhile(g: var TSrcGen, n: PNode) =
- var c: TContext = initContext()
- putWithSpace(g, tkWhile, "while")
- gcond(g, n[0])
- putWithSpace(g, tkColon, ":")
- if longMode(g, n) or (lsub(g, n[1]) + g.lineLen > MaxLineLen):
- incl(c.flags, rfLongMode)
- gcoms(g) # a good place for comments
- gstmts(g, n[1], c)
- proc gpattern(g: var TSrcGen, n: PNode) =
- var c: TContext = initContext()
- put(g, tkCurlyLe, "{")
- if longMode(g, n) or (lsub(g, n[0]) + g.lineLen > MaxLineLen):
- incl(c.flags, rfLongMode)
- gcoms(g) # a good place for comments
- gstmts(g, n, c)
- put(g, tkCurlyRi, "}")
- proc gpragmaBlock(g: var TSrcGen, n: PNode) =
- var c: TContext = initContext()
- gsub(g, n[0])
- putWithSpace(g, tkColon, ":")
- if longMode(g, n) or (lsub(g, n[1]) + g.lineLen > MaxLineLen):
- incl(c.flags, rfLongMode)
- gcoms(g) # a good place for comments
- gstmts(g, n[1], c)
- proc gtry(g: var TSrcGen, n: PNode) =
- var c: TContext = initContext()
- put(g, tkTry, "try")
- putWithSpace(g, tkColon, ":")
- if longMode(g, n) or (lsub(g, n[0]) + g.lineLen > MaxLineLen):
- incl(c.flags, rfLongMode)
- gcoms(g) # a good place for comments
- gstmts(g, n[0], c)
- gsons(g, n, c, 1)
- proc gfor(g: var TSrcGen, n: PNode) =
- var c: TContext = initContext()
- putWithSpace(g, tkFor, "for")
- if longMode(g, n) or
- (lsub(g, n[^1]) + lsub(g, n[^2]) + 6 + g.lineLen > MaxLineLen):
- incl(c.flags, rfLongMode)
- gcomma(g, n, c, 0, - 3)
- put(g, tkSpaces, Space)
- putWithSpace(g, tkIn, "in")
- gsub(g, n[^2], c)
- putWithSpace(g, tkColon, ":")
- gcoms(g)
- gstmts(g, n[^1], c)
- proc gcase(g: var TSrcGen, n: PNode) =
- var c: TContext = initContext()
- if n.len == 0: return
- var last = if n[^1].kind == nkElse: -2 else: -1
- if longMode(g, n, 0, last): incl(c.flags, rfLongMode)
- putWithSpace(g, tkCase, "case")
- gcond(g, n[0])
- gcoms(g)
- optNL(g)
- gsons(g, n, c, 1, last)
- if last == - 2:
- c = initContext()
- if longMode(g, n[^1]): incl(c.flags, rfLongMode)
- gsub(g, n[^1], c)
- proc genSymSuffix(result: var string, s: PSym) {.inline.} =
- if sfGenSym in s.flags and s.name.id != ord(wUnderscore):
- result.add '_'
- result.addInt s.id
- proc gproc(g: var TSrcGen, n: PNode) =
- var c: TContext = initContext()
- if n[namePos].kind == nkSym:
- let s = n[namePos].sym
- var ret = renderDefinitionName(s)
- ret.genSymSuffix(s)
- put(g, tkSymbol, ret)
- else:
- gsub(g, n[namePos])
- if n[patternPos].kind != nkEmpty:
- gpattern(g, n[patternPos])
- g.inside(GenericParams):
- if renderNoBody in g.flags and n[miscPos].kind != nkEmpty and
- n[miscPos][1].kind != nkEmpty:
- gsub(g, n[miscPos][1])
- else:
- gsub(g, n[genericParamsPos])
- gsub(g, n[paramsPos])
- if renderNoPragmas notin g.flags:
- gsub(g, n[pragmasPos])
- if renderNoBody notin g.flags:
- if n[bodyPos].kind != nkEmpty:
- put(g, tkSpaces, Space)
- putWithSpace(g, tkEquals, "=")
- indentNL(g)
- gcoms(g)
- dedent(g)
- c = initContext()
- gstmts(g, n[bodyPos], c)
- putNL(g)
- else:
- indentNL(g)
- gcoms(g)
- dedent(g)
- proc gTypeClassTy(g: var TSrcGen, n: PNode) =
- var c: TContext = initContext()
- putWithSpace(g, tkConcept, "concept")
- gsons(g, n[0], c) # arglist
- gsub(g, n[1]) # pragmas
- gsub(g, n[2]) # of
- gcoms(g)
- indentNL(g)
- gcoms(g)
- gstmts(g, n[3], c)
- dedent(g)
- proc gblock(g: var TSrcGen, n: PNode) =
- # you shouldn't simplify it to `n.len < 2`
- # because the following codes should be executed
- # even when block stmt has only one child for getting
- # better error messages.
- if n.len == 0:
- return
- var c: TContext = initContext()
- if n[0].kind != nkEmpty:
- putWithSpace(g, tkBlock, "block")
- gsub(g, n[0])
- else:
- put(g, tkBlock, "block")
- # block stmt should have two children
- if n.len == 1:
- return
- putWithSpace(g, tkColon, ":")
- if longMode(g, n) or (lsub(g, n[1]) + g.lineLen > MaxLineLen):
- incl(c.flags, rfLongMode)
- gcoms(g)
- gstmts(g, n[1], c)
- proc gstaticStmt(g: var TSrcGen, n: PNode) =
- var c: TContext = initContext()
- putWithSpace(g, tkStatic, "static")
- putWithSpace(g, tkColon, ":")
- if longMode(g, n) or (lsub(g, n[0]) + g.lineLen > MaxLineLen):
- incl(c.flags, rfLongMode)
- gcoms(g) # a good place for comments
- gstmts(g, n[0], c)
- proc gasm(g: var TSrcGen, n: PNode) =
- putWithSpace(g, tkAsm, "asm")
- gsub(g, n[0])
- gcoms(g)
- if n.len > 1:
- gsub(g, n[1])
- proc gident(g: var TSrcGen, n: PNode) =
- if GenericParams in g.inside and n.kind == nkSym:
- if sfAnon in n.sym.flags or
- (n.typ != nil and tfImplicitTypeParam in n.typ.flags): return
- var t: TokType
- var s = atom(g, n)
- if s.len > 0 and s[0] in lexer.SymChars:
- if n.kind == nkIdent:
- if (n.ident.id < ord(tokKeywordLow) - ord(tkSymbol)) or
- (n.ident.id > ord(tokKeywordHigh) - ord(tkSymbol)):
- t = tkSymbol
- else:
- t = TokType(n.ident.id + ord(tkSymbol))
- else:
- t = tkSymbol
- else:
- t = tkOpr
- if renderIr in g.flags and n.kind == nkSym:
- let localId = disamb(g, n.sym)
- if localId != 0 and n.sym.magic == mNone:
- s.add '_'
- s.addInt localId
- if sfCursor in n.sym.flags:
- s.add "_cursor"
- elif n.kind == nkSym and (renderIds in g.flags or
- (sfGenSym in n.sym.flags and n.sym.name.id != ord(wUnderscore)) or
- n.sym.kind == skTemp):
- s.add '_'
- s.addInt n.sym.id
- when defined(debugMagics):
- s.add '_'
- s.add $n.sym.magic
- put(g, t, s, if n.kind == nkSym and renderSyms in g.flags: n.sym else: nil)
- proc doParamsAux(g: var TSrcGen, params: PNode) =
- if params.len > 1:
- put(g, tkParLe, "(")
- gsemicolon(g, params, 1)
- put(g, tkParRi, ")")
- if params.len > 0 and params[0].kind != nkEmpty:
- put(g, tkSpaces, Space)
- putWithSpace(g, tkOpr, "->")
- gsub(g, params[0])
- proc gsub(g: var TSrcGen; n: PNode; i: int) =
- if i < n.len:
- gsub(g, n[i])
- else:
- put(g, tkOpr, "<<" & $i & "th child missing for " & $n.kind & " >>")
- type
- BracketKind = enum
- bkNone, bkBracket, bkBracketAsgn, bkCurly, bkCurlyAsgn
- proc bracketKind*(g: TSrcGen, n: PNode): BracketKind =
- if renderIds notin g.flags:
- case n.kind
- of nkClosedSymChoice, nkOpenSymChoice:
- if n.len > 0: result = bracketKind(g, n[0])
- else: result = bkNone
- of nkSym:
- result = case n.sym.name.s
- of "[]": bkBracket
- of "[]=": bkBracketAsgn
- of "{}": bkCurly
- of "{}=": bkCurlyAsgn
- else: bkNone
- else: result = bkNone
- else:
- result = bkNone
- proc skipHiddenNodes(n: PNode): PNode =
- result = n
- while result != nil:
- if result.kind in {nkHiddenStdConv, nkHiddenSubConv, nkHiddenCallConv} and result.len > 1:
- result = result[1]
- elif result.kind in {nkCheckedFieldExpr, nkHiddenAddr, nkHiddenDeref, nkStringToCString, nkCStringToString} and
- result.len > 0:
- result = result[0]
- else: break
- proc accentedName(g: var TSrcGen, n: PNode) =
- # This is for cases where ident should've really been a `nkAccQuoted`, e.g. `:tmp`
- # or if user writes a macro with `ident":foo"`. It's unclear whether these should be legal.
- const backticksNeeded = OpChars + {'[', '{', '\''}
- if n == nil: return
- let ident = n.getPIdent
- if ident != nil and ident.s[0] in backticksNeeded:
- put(g, tkAccent, "`")
- gident(g, n)
- put(g, tkAccent, "`")
- else:
- gsub(g, n)
- proc infixArgument(g: var TSrcGen, n: PNode, i: int) =
- if i < 1 or i > 2: return
- var needsParenthesis = false
- let nNext = n[i].skipHiddenNodes
- if nNext.kind == nkInfix:
- if nNext[0].kind in {nkSym, nkIdent} and n[0].kind in {nkSym, nkIdent}:
- let nextId = if nNext[0].kind == nkSym: nNext[0].sym.name else: nNext[0].ident
- let nnId = if n[0].kind == nkSym: n[0].sym.name else: n[0].ident
- if i == 1:
- if getPrecedence(nextId) < getPrecedence(nnId):
- needsParenthesis = true
- elif i == 2:
- if getPrecedence(nextId) <= getPrecedence(nnId):
- needsParenthesis = true
- if needsParenthesis:
- put(g, tkParLe, "(")
- gsub(g, n, i)
- if needsParenthesis:
- put(g, tkParRi, ")")
- const postExprBlocks = {nkStmtList, nkStmtListExpr,
- nkOfBranch, nkElifBranch, nkElse,
- nkExceptBranch, nkFinally, nkDo}
- proc postStatements(g: var TSrcGen, n: PNode, i: int, fromStmtList: bool) =
- var i = i
- if n[i].kind in {nkStmtList, nkStmtListExpr}:
- if fromStmtList:
- put(g, tkColon, ":")
- else:
- put(g, tkSpaces, Space)
- put(g, tkDo, "do")
- put(g, tkColon, ":")
- gsub(g, n, i)
- i.inc
- for j in i ..< n.len:
- if n[j].kind == nkDo:
- optNL(g)
- elif n[j].kind in {nkStmtList, nkStmtListExpr}:
- optNL(g)
- put(g, tkDo, "do")
- put(g, tkColon, ":")
- gsub(g, n, j)
- proc isCustomLit(n: PNode): bool =
- if n.len == 2 and n[0].kind == nkRStrLit:
- let ident = n[1].getPIdent
- result = ident != nil and ident.s.startsWith('\'')
- else:
- result = false
- proc gsub(g: var TSrcGen, n: PNode, c: TContext, fromStmtList = false) =
- if isNil(n): return
- var
- a: TContext = default(TContext)
- if shouldRenderComment(g, n): pushCom(g, n)
- case n.kind # atoms:
- of nkTripleStrLit: put(g, tkTripleStrLit, atom(g, n))
- of nkEmpty: discard
- of nkType: put(g, tkInvalid, atom(g, n))
- of nkSym, nkIdent: gident(g, n)
- of nkIntLit: put(g, tkIntLit, atom(g, n))
- of nkInt8Lit: put(g, tkInt8Lit, atom(g, n))
- of nkInt16Lit: put(g, tkInt16Lit, atom(g, n))
- of nkInt32Lit: put(g, tkInt32Lit, atom(g, n))
- of nkInt64Lit: put(g, tkInt64Lit, atom(g, n))
- of nkUIntLit: put(g, tkUIntLit, atom(g, n))
- of nkUInt8Lit: put(g, tkUInt8Lit, atom(g, n))
- of nkUInt16Lit: put(g, tkUInt16Lit, atom(g, n))
- of nkUInt32Lit: put(g, tkUInt32Lit, atom(g, n))
- of nkUInt64Lit: put(g, tkUInt64Lit, atom(g, n))
- of nkFloatLit: put(g, tkFloatLit, atom(g, n))
- of nkFloat32Lit: put(g, tkFloat32Lit, atom(g, n))
- of nkFloat64Lit: put(g, tkFloat64Lit, atom(g, n))
- of nkFloat128Lit: put(g, tkFloat128Lit, atom(g, n))
- of nkStrLit: put(g, tkStrLit, atom(g, n))
- of nkRStrLit: put(g, tkRStrLit, atom(g, n))
- of nkCharLit: put(g, tkCharLit, atom(g, n))
- of nkNilLit: put(g, tkNil, atom(g, n)) # complex expressions
- of nkCall, nkConv, nkDotCall, nkPattern, nkObjConstr:
- if n.len > 1 and n.lastSon.kind in postExprBlocks:
- accentedName(g, n[0])
- var i = 1
- while i < n.len and n[i].kind notin postExprBlocks: i.inc
- if i > 1:
- put(g, tkParLe, "(")
- gcomma(g, n, 1, i - 1 - n.len)
- put(g, tkParRi, ")")
- postStatements(g, n, i, fromStmtList)
- elif n.len >= 1:
- case bracketKind(g, n[0])
- of bkBracket:
- gsub(g, n, 1)
- put(g, tkBracketLe, "[")
- gcomma(g, n, 2)
- put(g, tkBracketRi, "]")
- of bkBracketAsgn:
- gsub(g, n, 1)
- put(g, tkBracketLe, "[")
- gcomma(g, n, 2, -2)
- put(g, tkBracketRi, "]")
- put(g, tkSpaces, Space)
- putWithSpace(g, tkEquals, "=")
- gsub(g, n, n.len - 1)
- of bkCurly:
- gsub(g, n, 1)
- put(g, tkCurlyLe, "{")
- gcomma(g, n, 2)
- put(g, tkCurlyRi, "}")
- of bkCurlyAsgn:
- gsub(g, n, 1)
- put(g, tkCurlyLe, "{")
- gcomma(g, n, 2, -2)
- put(g, tkCurlyRi, "}")
- put(g, tkSpaces, Space)
- putWithSpace(g, tkEquals, "=")
- gsub(g, n, n.len - 1)
- of bkNone:
- accentedName(g, n[0])
- put(g, tkParLe, "(")
- gcomma(g, n, 1)
- put(g, tkParRi, ")")
- else:
- put(g, tkParLe, "(")
- put(g, tkParRi, ")")
- of nkCallStrLit:
- if n.len > 0: accentedName(g, n[0])
- if n.len > 1 and n[1].kind == nkRStrLit:
- put(g, tkRStrLit, '\"' & replace(n[1].strVal, "\"", "\"\"") & '\"')
- else:
- gsub(g, n, 1)
- of nkHiddenStdConv, nkHiddenSubConv:
- if n.len >= 2:
- when false:
- # if {renderIds, renderIr} * g.flags != {}:
- put(g, tkSymbol, "(conv)")
- put(g, tkParLe, "(")
- gsub(g, n[1])
- put(g, tkParRi, ")")
- else:
- gsub(g, n[1])
- else:
- put(g, tkSymbol, "(wrong conv)")
- of nkHiddenCallConv:
- if {renderIds, renderIr} * g.flags != {}:
- accentedName(g, n[0])
- put(g, tkParLe, "(")
- gcomma(g, n, 1)
- put(g, tkParRi, ")")
- elif n.len >= 2:
- gsub(g, n[1])
- else:
- put(g, tkSymbol, "(wrong conv)")
- of nkCast:
- put(g, tkCast, "cast")
- if n.len > 0 and n[0].kind != nkEmpty:
- put(g, tkBracketLe, "[")
- gsub(g, n, 0)
- put(g, tkBracketRi, "]")
- put(g, tkParLe, "(")
- gsub(g, n, 1)
- put(g, tkParRi, ")")
- of nkAddr:
- put(g, tkAddr, "addr")
- if n.len > 0:
- put(g, tkParLe, "(")
- gsub(g, n[0])
- put(g, tkParRi, ")")
- of nkStaticExpr:
- put(g, tkStatic, "static")
- put(g, tkSpaces, Space)
- gsub(g, n, 0)
- of nkBracketExpr:
- gsub(g, n, 0)
- put(g, tkBracketLe, "[")
- gcomma(g, n, 1)
- put(g, tkBracketRi, "]")
- of nkCurlyExpr:
- gsub(g, n, 0)
- put(g, tkCurlyLe, "{")
- gcomma(g, n, 1)
- put(g, tkCurlyRi, "}")
- of nkPragmaExpr:
- gsub(g, n, 0)
- gcomma(g, n, 1)
- of nkCommand:
- accentedName(g, n[0])
- put(g, tkSpaces, Space)
- if n.len > 1 and n.lastSon.kind in postExprBlocks:
- var i = 1
- while i < n.len and n[i].kind notin postExprBlocks: i.inc
- if i > 1:
- gcomma(g, n, 1, i - 1 - n.len)
- postStatements(g, n, i, fromStmtList)
- else:
- gcomma(g, n, 1)
- of nkExprEqExpr, nkAsgn, nkFastAsgn:
- gsub(g, n, 0)
- put(g, tkSpaces, Space)
- putWithSpace(g, tkEquals, "=")
- gsub(g, n, 1)
- of nkSinkAsgn:
- put(g, tkSymbol, "`=sink`")
- put(g, tkParLe, "(")
- gcomma(g, n)
- put(g, tkParRi, ")")
- of nkChckRangeF:
- put(g, tkSymbol, "chckRangeF")
- put(g, tkParLe, "(")
- gcomma(g, n)
- put(g, tkParRi, ")")
- of nkChckRange64:
- put(g, tkSymbol, "chckRange64")
- put(g, tkParLe, "(")
- gcomma(g, n)
- put(g, tkParRi, ")")
- of nkChckRange:
- put(g, tkSymbol, "chckRange")
- put(g, tkParLe, "(")
- gcomma(g, n)
- put(g, tkParRi, ")")
- of nkObjDownConv, nkObjUpConv:
- let typ = if (n.typ != nil) and (n.typ.sym != nil): n.typ.sym.name.s else: ""
- put(g, tkParLe, typ & "(")
- if n.len >= 1: gsub(g, n[0])
- put(g, tkParRi, ")")
- of nkClosedSymChoice, nkOpenSymChoice:
- if renderIds in g.flags:
- put(g, tkParLe, "(")
- for i in 0..<n.len:
- if i > 0: put(g, tkOpr, "|")
- if n[i].kind == nkSym:
- let s = n[i].sym
- if s.owner != nil:
- put g, tkSymbol, n[i].sym.owner.name.s
- put g, tkOpr, "."
- put g, tkSymbol, n[i].sym.name.s
- else:
- gsub(g, n[i], c)
- put(g, tkParRi, if n.kind == nkOpenSymChoice: "|...)" else: ")")
- else:
- gsub(g, n, 0)
- of nkPar, nkClosure:
- put(g, tkParLe, "(")
- gcomma(g, n, c)
- put(g, tkParRi, ")")
- of nkTupleConstr:
- put(g, tkParLe, "(")
- gcomma(g, n, c)
- if n.len == 1 and n[0].kind != nkExprColonExpr: put(g, tkComma, ",")
- put(g, tkParRi, ")")
- of nkCurly:
- put(g, tkCurlyLe, "{")
- gcomma(g, n, c)
- put(g, tkCurlyRi, "}")
- of nkArgList:
- gcomma(g, n, c)
- of nkTableConstr:
- put(g, tkCurlyLe, "{")
- if n.len > 0: gcomma(g, n, c)
- else: put(g, tkColon, ":")
- put(g, tkCurlyRi, "}")
- of nkBracket:
- put(g, tkBracketLe, "[")
- gcomma(g, n, c)
- put(g, tkBracketRi, "]")
- of nkDotExpr:
- if isCustomLit(n):
- put(g, tkCustomLit, n[0].strVal)
- gsub(g, n, 1)
- else:
- gsub(g, n, 0)
- put(g, tkDot, ".")
- assert n.len == 2, $n.len
- accentedName(g, n[1])
- of nkBind:
- putWithSpace(g, tkBind, "bind")
- gsub(g, n, 0)
- of nkCheckedFieldExpr, nkHiddenAddr, nkHiddenDeref, nkStringToCString, nkCStringToString:
- if renderIds in g.flags:
- put(g, tkAddr, $n.kind)
- put(g, tkParLe, "(")
- gsub(g, n, 0)
- if renderIds in g.flags:
- put(g, tkParRi, ")")
- of nkLambda:
- putWithSpace(g, tkProc, "proc")
- gsub(g, n, paramsPos)
- gsub(g, n, pragmasPos)
- put(g, tkSpaces, Space)
- putWithSpace(g, tkEquals, "=")
- gsub(g, n, bodyPos)
- of nkDo:
- putWithSpace(g, tkDo, "do")
- if paramsPos < n.len:
- doParamsAux(g, n[paramsPos])
- gsub(g, n, pragmasPos)
- put(g, tkColon, ":")
- gsub(g, n, bodyPos)
- of nkIdentDefs:
- # Skip if this is a property in a type and its not exported
- # (While also not allowing rendering of non exported fields)
- if ObjectDef in g.inside and (not n[0].isExported() and renderNonExportedFields notin g.flags):
- return
- # We render the identDef without being inside the section incase we render something like
- # y: proc (x: string) # (We wouldn't want to check if x is exported)
- g.outside(ObjectDef):
- gcomma(g, n, 0, -3)
- if n.len >= 2 and n[^2].kind != nkEmpty:
- putWithSpace(g, tkColon, ":")
- gsub(g, n[^2], c)
- elif n.referencesUsing and renderExpandUsing in g.flags:
- putWithSpace(g, tkColon, ":")
- gsub(g, newSymNode(n.origUsingType), c)
- if n.len >= 1 and n[^1].kind != nkEmpty:
- put(g, tkSpaces, Space)
- putWithSpace(g, tkEquals, "=")
- gsub(g, n[^1], c)
- of nkConstDef:
- gcomma(g, n, 0, -3)
- if n.len >= 2 and n[^2].kind != nkEmpty:
- putWithSpace(g, tkColon, ":")
- gsub(g, n[^2], c)
- if n.len >= 1 and n[^1].kind != nkEmpty:
- put(g, tkSpaces, Space)
- putWithSpace(g, tkEquals, "=")
- gsub(g, n[^1], c)
- of nkVarTuple:
- if n[^1].kind == nkEmpty:
- put(g, tkParLe, "(")
- gcomma(g, n, 0, -2)
- put(g, tkParRi, ")")
- else:
- put(g, tkParLe, "(")
- gcomma(g, n, 0, -3)
- put(g, tkParRi, ")")
- put(g, tkSpaces, Space)
- putWithSpace(g, tkEquals, "=")
- gsub(g, lastSon(n), c)
- of nkExprColonExpr:
- gsub(g, n, 0)
- putWithSpace(g, tkColon, ":")
- gsub(g, n, 1)
- of nkInfix:
- if n.len < 3:
- var i = 0
- put(g, tkOpr, "Too few children for nkInfix")
- return
- let oldLineLen = g.lineLen # we cache this because lineLen gets updated below
- infixArgument(g, n, 1)
- put(g, tkSpaces, Space)
- gsub(g, n, 0) # binary operator
- # e.g.: `n1 == n2` decompses as following sum:
- if n.len == 3 and not fits(g, oldLineLen + lsub(g, n[1]) + lsub(g, n[2]) + lsub(g, n[0]) + len(" ")):
- optNL(g, g.indent + longIndentWid)
- else:
- put(g, tkSpaces, Space)
- infixArgument(g, n, 2)
- if n.len > 3 and n.lastSon.kind in postExprBlocks:
- var i = 3
- while i < n.len and n[i].kind notin postExprBlocks: i.inc
- postStatements(g, n, i, fromStmtList)
- of nkPrefix:
- gsub(g, n, 0)
- if n.len > 1:
- let opr = if n[0].kind == nkIdent: n[0].ident
- elif n[0].kind == nkSym: n[0].sym.name
- elif n[0].kind in {nkOpenSymChoice, nkClosedSymChoice}: n[0][0].sym.name
- else: nil
- let nNext = skipHiddenNodes(n[1])
- if nNext.kind == nkPrefix or (opr != nil and renderer.isKeyword(opr)):
- put(g, tkSpaces, Space)
- if nNext.kind == nkInfix:
- put(g, tkParLe, "(")
- gsub(g, n[1])
- put(g, tkParRi, ")")
- else:
- gsub(g, n[1])
- if n.len > 2 and n.lastSon.kind in postExprBlocks:
- var i = 2
- while i < n.len and n[i].kind notin postExprBlocks: i.inc
- postStatements(g, n, i, fromStmtList)
- of nkPostfix:
- gsub(g, n, 1)
- gsub(g, n, 0)
- of nkRange:
- gsub(g, n, 0)
- put(g, tkDotDot, "..")
- gsub(g, n, 1)
- of nkDerefExpr:
- gsub(g, n, 0)
- put(g, tkOpr, "[]")
- of nkAccQuoted:
- put(g, tkAccent, "`")
- for i in 0..<n.len:
- proc isAlpha(n: PNode): bool =
- if n.kind in {nkIdent, nkSym}:
- let tmp = n.getPIdent.s
- result = tmp.len > 0 and tmp[0] in {'a'..'z', 'A'..'Z'}
- else:
- result = false
- var useSpace = false
- if i == 1 and n[0].kind == nkIdent and n[0].ident.s in ["=", "'"]:
- if not n[1].isAlpha: # handle `=destroy`, `'big'
- useSpace = true
- elif i == 1 and n[1].kind == nkIdent and n[1].ident.s == "=":
- if not n[0].isAlpha: # handle setters, e.g. `foo=`
- useSpace = true
- elif i > 0: useSpace = true
- if useSpace: put(g, tkSpaces, Space)
- gsub(g, n[i])
- put(g, tkAccent, "`")
- of nkIfExpr:
- putWithSpace(g, tkIf, "if")
- if n.len > 0: gcond(g, n[0][0])
- putWithSpace(g, tkColon, ":")
- if n.len > 0: gsub(g, n[0], 1)
- gsons(g, n, emptyContext, 1)
- of nkElifExpr:
- putWithSpace(g, tkElif, " elif")
- gcond(g, n[0])
- putWithSpace(g, tkColon, ":")
- gsub(g, n, 1)
- of nkElseExpr:
- put(g, tkElse, " else")
- putWithSpace(g, tkColon, ":")
- gsub(g, n, 0)
- of nkTypeOfExpr:
- put(g, tkType, "typeof")
- put(g, tkParLe, "(")
- if n.len > 0: gsub(g, n[0])
- put(g, tkParRi, ")")
- of nkRefTy:
- if n.len > 0:
- putWithSpace(g, tkRef, "ref")
- gsub(g, n[0])
- else:
- put(g, tkRef, "ref")
- of nkPtrTy:
- if n.len > 0:
- putWithSpace(g, tkPtr, "ptr")
- gsub(g, n[0])
- else:
- put(g, tkPtr, "ptr")
- of nkVarTy:
- if n.len > 0:
- putWithSpace(g, tkVar, "var")
- gsub(g, n[0])
- else:
- put(g, tkVar, "var")
- of nkOutTy:
- if n.len > 0:
- putWithSpace(g, tkOut, "out")
- gsub(g, n[0])
- else:
- put(g, tkOut, "out")
- of nkDistinctTy:
- if n.len > 0:
- putWithSpace(g, tkDistinct, "distinct")
- gsub(g, n[0])
- if n.len > 1:
- if n[1].kind == nkWith:
- putWithSpace(g, tkSymbol, " with")
- else:
- putWithSpace(g, tkSymbol, " without")
- gcomma(g, n[1])
- else:
- put(g, tkDistinct, "distinct")
- of nkTypeDef:
- if n[0].kind == nkPragmaExpr:
- # generate pragma after generic
- gsub(g, n[0], 0)
- gsub(g, n, 1)
- gsub(g, n[0], 1)
- else:
- gsub(g, n, 0)
- gsub(g, n, 1)
- put(g, tkSpaces, Space)
- if n.len > 2 and n[2].kind != nkEmpty:
- putWithSpace(g, tkEquals, "=")
- gsub(g, n[2])
- of nkObjectTy:
- if n.len > 0:
- putWithSpace(g, tkObject, "object")
- g.inside(ObjectDef):
- gsub(g, n[0])
- gsub(g, n[1])
- gcoms(g)
- gsub(g, n[2])
- else:
- put(g, tkObject, "object")
- of nkRecList:
- indentNL(g)
- for i in 0..<n.len:
- optNL(g)
- gsub(g, n[i], c)
- gcoms(g)
- dedent(g)
- putNL(g)
- of nkOfInherit:
- putWithSpace(g, tkOf, "of")
- gsub(g, n, 0)
- of nkProcTy:
- if n.len > 0:
- putWithSpace(g, tkProc, "proc")
- gsub(g, n, 0)
- gsub(g, n, 1)
- else:
- put(g, tkProc, "proc")
- of nkIteratorTy:
- if n.len > 0:
- putWithSpace(g, tkIterator, "iterator")
- gsub(g, n, 0)
- gsub(g, n, 1)
- else:
- put(g, tkIterator, "iterator")
- of nkStaticTy:
- put(g, tkStatic, "static")
- put(g, tkBracketLe, "[")
- if n.len > 0:
- gsub(g, n[0])
- put(g, tkBracketRi, "]")
- of nkEnumTy:
- if n.len > 0:
- putWithSpace(g, tkEnum, "enum")
- gsub(g, n[0])
- gcoms(g)
- indentNL(g)
- gcommaAux(g, n, g.indent, 1)
- gcoms(g) # BUGFIX: comment for the last enum field
- dedent(g)
- else:
- put(g, tkEnum, "enum")
- of nkEnumFieldDef:
- gsub(g, n, 0)
- put(g, tkSpaces, Space)
- putWithSpace(g, tkEquals, "=")
- gsub(g, n, 1)
- of nkStmtList, nkStmtListExpr, nkStmtListType:
- if n.len == 1 and n[0].kind == nkDiscardStmt:
- put(g, tkParLe, "(")
- gsub(g, n[0])
- put(g, tkParRi, ")")
- else:
- gstmts(g, n, emptyContext)
- of nkIfStmt:
- putWithSpace(g, tkIf, "if")
- gif(g, n)
- of nkWhen, nkRecWhen:
- putWithSpace(g, tkWhen, "when")
- gif(g, n)
- of nkWhileStmt: gwhile(g, n)
- of nkPragmaBlock: gpragmaBlock(g, n)
- of nkCaseStmt, nkRecCase: gcase(g, n)
- of nkTryStmt, nkHiddenTryStmt: gtry(g, n)
- of nkForStmt, nkParForStmt: gfor(g, n)
- of nkBlockStmt, nkBlockExpr: gblock(g, n)
- of nkStaticStmt: gstaticStmt(g, n)
- of nkAsmStmt: gasm(g, n)
- of nkProcDef:
- if renderNoProcDefs notin g.flags: putWithSpace(g, tkProc, "proc")
- gproc(g, n)
- of nkFuncDef:
- if renderNoProcDefs notin g.flags: putWithSpace(g, tkFunc, "func")
- gproc(g, n)
- of nkConverterDef:
- if renderNoProcDefs notin g.flags: putWithSpace(g, tkConverter, "converter")
- gproc(g, n)
- of nkMethodDef:
- if renderNoProcDefs notin g.flags: putWithSpace(g, tkMethod, "method")
- gproc(g, n)
- of nkIteratorDef:
- if renderNoProcDefs notin g.flags: putWithSpace(g, tkIterator, "iterator")
- gproc(g, n)
- of nkMacroDef:
- if renderNoProcDefs notin g.flags: putWithSpace(g, tkMacro, "macro")
- gproc(g, n)
- of nkTemplateDef:
- if renderNoProcDefs notin g.flags: putWithSpace(g, tkTemplate, "template")
- gproc(g, n)
- of nkTypeSection:
- gsection(g, n, emptyContext, tkType, "type")
- of nkConstSection:
- a = initContext()
- incl(a.flags, rfInConstExpr)
- gsection(g, n, a, tkConst, "const")
- of nkVarSection, nkLetSection, nkUsingStmt:
- if n.len == 0: return
- if n.kind == nkVarSection: putWithSpace(g, tkVar, "var")
- elif n.kind == nkLetSection: putWithSpace(g, tkLet, "let")
- else: putWithSpace(g, tkUsing, "using")
- if n.len > 1:
- gcoms(g)
- indentNL(g)
- for i in 0..<n.len:
- optNL(g)
- gsub(g, n[i])
- gcoms(g)
- dedent(g)
- else:
- gsub(g, n[0])
- of nkReturnStmt:
- putWithSpace(g, tkReturn, "return")
- if n.len > 0 and n[0].kind == nkAsgn and renderIr notin g.flags:
- gsub(g, n[0], 1)
- else:
- gsub(g, n, 0)
- of nkRaiseStmt:
- putWithSpace(g, tkRaise, "raise")
- gsub(g, n, 0)
- of nkYieldStmt:
- putWithSpace(g, tkYield, "yield")
- gsub(g, n, 0)
- of nkDiscardStmt:
- putWithSpace(g, tkDiscard, "discard")
- gsub(g, n, 0)
- of nkBreakStmt:
- putWithSpace(g, tkBreak, "break")
- gsub(g, n, 0)
- of nkContinueStmt:
- putWithSpace(g, tkContinue, "continue")
- gsub(g, n, 0)
- of nkPragma:
- if g.inPragma <= 0:
- inc g.inPragma
- #if not previousNL(g):
- put(g, tkSpaces, Space)
- put(g, tkCurlyDotLe, "{.")
- gcomma(g, n, emptyContext)
- put(g, tkCurlyDotRi, ".}")
- dec g.inPragma
- else:
- gcomma(g, n, emptyContext)
- of nkImportStmt, nkExportStmt:
- if n.kind == nkImportStmt:
- putWithSpace(g, tkImport, "import")
- else:
- putWithSpace(g, tkExport, "export")
- gcoms(g)
- indentNL(g)
- gcommaAux(g, n, g.indent)
- dedent(g)
- putNL(g)
- of nkImportExceptStmt, nkExportExceptStmt:
- if n.kind == nkImportExceptStmt:
- putWithSpace(g, tkImport, "import")
- else:
- putWithSpace(g, tkExport, "export")
- gsub(g, n, 0)
- put(g, tkSpaces, Space)
- putWithSpace(g, tkExcept, "except")
- gcommaAux(g, n, g.indent, 1)
- gcoms(g)
- putNL(g)
- of nkFromStmt:
- putWithSpace(g, tkFrom, "from")
- gsub(g, n, 0)
- put(g, tkSpaces, Space)
- putWithSpace(g, tkImport, "import")
- gcomma(g, n, emptyContext, 1)
- putNL(g)
- of nkIncludeStmt:
- putWithSpace(g, tkInclude, "include")
- gcoms(g)
- indentNL(g)
- gcommaAux(g, n, g.indent)
- dedent(g)
- putNL(g)
- of nkCommentStmt:
- gcoms(g)
- optNL(g)
- of nkOfBranch:
- optNL(g)
- putWithSpace(g, tkOf, "of")
- gcomma(g, n, c, 0, - 2)
- putWithSpace(g, tkColon, ":")
- gcoms(g)
- gstmts(g, lastSon(n), c)
- of nkImportAs:
- gsub(g, n, 0)
- put(g, tkSpaces, Space)
- putWithSpace(g, tkAs, "as")
- gsub(g, n, 1)
- of nkBindStmt:
- putWithSpace(g, tkBind, "bind")
- gcomma(g, n, c)
- of nkMixinStmt:
- putWithSpace(g, tkMixin, "mixin")
- gcomma(g, n, c)
- of nkElifBranch:
- optNL(g)
- putWithSpace(g, tkElif, "elif")
- gsub(g, n, 0)
- putWithSpace(g, tkColon, ":")
- gcoms(g)
- gstmts(g, n[1], c)
- of nkElse:
- optNL(g)
- put(g, tkElse, "else")
- putWithSpace(g, tkColon, ":")
- gcoms(g)
- gstmts(g, n[0], c)
- of nkFinally, nkDefer:
- optNL(g)
- if n.kind == nkFinally:
- put(g, tkFinally, "finally")
- else:
- put(g, tkDefer, "defer")
- putWithSpace(g, tkColon, ":")
- gcoms(g)
- gstmts(g, n[0], c)
- of nkExceptBranch:
- optNL(g)
- if n.len != 1:
- putWithSpace(g, tkExcept, "except")
- else:
- put(g, tkExcept, "except")
- gcomma(g, n, 0, -2)
- putWithSpace(g, tkColon, ":")
- gcoms(g)
- gstmts(g, lastSon(n), c)
- of nkGenericParams:
- proc hasExplicitParams(gp: PNode): bool =
- for p in gp:
- if p.typ == nil or tfImplicitTypeParam notin p.typ.flags:
- return true
- return false
- if n.hasExplicitParams:
- put(g, tkBracketLe, "[")
- gsemicolon(g, n)
- put(g, tkBracketRi, "]")
- of nkFormalParams:
- put(g, tkParLe, "(")
- gsemicolon(g, n, 1)
- put(g, tkParRi, ")")
- if n.len > 0 and n[0].kind != nkEmpty:
- putWithSpace(g, tkColon, ":")
- gsub(g, n[0])
- of nkTupleTy:
- put(g, tkTuple, "tuple")
- put(g, tkBracketLe, "[")
- gcomma(g, n)
- put(g, tkBracketRi, "]")
- of nkTupleClassTy:
- put(g, tkTuple, "tuple")
- of nkComesFrom:
- put(g, tkParLe, "(ComesFrom|")
- gsub(g, n, 0)
- put(g, tkParRi, ")")
- of nkGotoState:
- var c: TContext = initContext()
- putWithSpace g, tkSymbol, "goto"
- gsons(g, n, c)
- of nkState:
- var c: TContext = initContext()
- putWithSpace g, tkSymbol, "state"
- gsub(g, n[0], c)
- putWithSpace(g, tkColon, ":")
- indentNL(g)
- gsons(g, n, c, 1)
- dedent(g)
- of nkBreakState:
- put(g, tkTuple, "breakstate")
- if renderIds in g.flags:
- gsons(g, n, c, 0)
- of nkTypeClassTy:
- gTypeClassTy(g, n)
- of nkError:
- putWithSpace(g, tkSymbol, "error")
- #gcomma(g, n, c)
- gsub(g, n[0], c)
- else:
- #nkNone, nkExplicitTypeListCall:
- internalError(g.config, n.info, "renderer.gsub(" & $n.kind & ')')
- proc renderTree*(n: PNode, renderFlags: TRenderFlags = {}): string =
- if n == nil: return "<nil tree>"
- var g: TSrcGen = initSrcGen(renderFlags, newPartialConfigRef())
- # do not indent the initial statement list so that
- # writeFile("file.nim", repr n)
- # produces working Nim code:
- if n.kind in {nkStmtList, nkStmtListExpr, nkStmtListType}:
- gstmts(g, n, emptyContext, doIndent = false)
- else:
- gsub(g, n)
- result = g.buf
- proc `$`*(n: PNode): string = n.renderTree
- proc renderModule*(n: PNode, outfile: string,
- renderFlags: TRenderFlags = {};
- fid = FileIndex(-1);
- conf: ConfigRef = nil) =
- var
- f: File = default(File)
- g: TSrcGen = initSrcGen(renderFlags, conf)
- g.fid = fid
- for i in 0..<n.len:
- gsub(g, n[i])
- optNL(g)
- case n[i].kind
- of nkTypeSection, nkConstSection, nkVarSection, nkLetSection,
- nkCommentStmt: putNL(g)
- else: discard
- gcoms(g)
- if open(f, outfile, fmWrite):
- write(f, g.buf)
- close(f)
- else:
- rawMessage(g.config, errGenerated, "cannot open file: " & outfile)
- proc initTokRender*(n: PNode, renderFlags: TRenderFlags = {}): TSrcGen =
- result = initSrcGen(renderFlags, newPartialConfigRef())
- gsub(result, n)
- proc getNextTok*(r: var TSrcGen, kind: var TokType, literal: var string) =
- if r.idx < r.tokens.len:
- kind = r.tokens[r.idx].kind
- let length = r.tokens[r.idx].length.int
- literal = substr(r.buf, r.pos, r.pos + length - 1)
- inc(r.pos, length)
- inc(r.idx)
- else:
- kind = tkEof
- proc getTokSym*(r: TSrcGen): PSym =
- if r.idx > 0 and r.idx <= r.tokens.len:
- result = r.tokens[r.idx-1].sym
- else:
- result = nil
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