940 lines
32 KiB
Python
940 lines
32 KiB
Python
from engine import *
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from basetoken import *
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from tpers import *
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from util import *
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from contextlib import contextmanager
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from vm import *
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# sobj -- generic hungarian for any object that is usable in scripts
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# stmt -- statement; a synt that can be used as a line in a SyntBlock
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def RegStmt(clsStmt):
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SyntLine.rgclsStmt.append(clsStmt)
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return clsStmt
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def RegRtype(clsRtype):
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Rtype.rgclsRtype.append(clsRtype)
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return clsRtype
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class Rtype(TPrs):
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"Runtime type"
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rgclsRtype = []
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@classmethod
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def RtypeMax(cls):
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"Return an instance of this rtype which will match anything that any instance of this rtype matches."
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return cls()
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def RglitFromSt(self, st):
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"Return literal objects that match a (partially entered) string."
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return []
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def RgsyntFromSt(self, syntBlock, st):
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"Return syntax objects whose rtypes match this that match a (partially entered) string."
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for lit in self.RglitFromSt(st):
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yield SyntLit(lit, self)
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for synt in self.RgsyntVarRefFromSt(syntBlock, st):
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yield synt
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def RgsyntVarRefFromSt(self, syntBlock, st):
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"Return variable references that match a (partially entered) string."
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while syntBlock != None:
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if isinstance(syntBlock, SyntBlock):
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for synt in self.RgsyntFromSyntBlock(syntBlock, st):
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yield synt
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syntBlock = syntBlock.syntParent
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# helper for RgsyntVarRefFromSt
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def RgsyntFromSyntBlock(self, syntBlock, st):
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# yield all vars in scope
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for syntVar in syntBlock.rgsynt:
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if SyntVar.FVarOfType(syntVar, self) and syntVar.name.St().lower().startswith(st.lower()):
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yield SyntVarRef(syntVar)
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def StForSobj(self, sobj):
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"Return a user-visible description of a sobj."
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return str(sobj)
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def FMember(self, sobj):
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"Returns true if sobj is a member of this type."
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return isinstance(sobj, self.pythontype)
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def FOverlap(self, rtype):
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"Returns true if there is some overlap between this type and rtype."
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return isinstance(rtype, self.__class__)
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@RegRtype
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class RtypeBool(Rtype):
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pythontype = bool
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def RglitFromSt(self, st):
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if "true".startswith(st.lower()):
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yield True
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if "false".startswith(st.lower()):
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yield False
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@RegRtype
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class RtypeNum(Rtype):
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pythontype = float
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def RglitFromSt(self, st):
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try:
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yield float(st)
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except:
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pass
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@RegRtype
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class RtypeString(Rtype):
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pythontype = str
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def RglitFromSt(self, st):
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if st.startswith('"') or st.startswith("'"):
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yield st[1:]
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class RtypeAny(Rtype):
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def RgsyntFromSt(self, syntBlock, st):
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for clsRtype in self.rgclsRtype:
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rtype = clsRtype.RtypeMax()
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for synt in rtype.RgsyntFromSt(syntBlock, st):
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yield synt
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def FMember(self, sobj):
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return True
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def FOverlap(self, rtype):
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return True
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class Typeable(TPrs):
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def InitTransient(self):
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self.steditTypein = Stedit()
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def PersistStedit(self):
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assert self.FPersist()
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try:
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del self.steditTypein
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except:
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pass
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self.steditTypein = Stedit()
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def GetStTypein(self):
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st = self.steditTypein.GetValue()
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return None if st == "" else st
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def SetStTypein(self, stTypein):
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self.steditTypein.SetValue(stTypein or "")
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def HandleTypeinKey(self, key):
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return self.steditTypein.HandleKey(key)
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class Synt(Typeable):
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"A piece of syntax"
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def InitPersistent(self):
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self.syntParent = None
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self.rgsynt = []
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self.Populate()
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@classmethod
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def SyntDefault(cls):
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return cls()
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@classmethod
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def RgsyntReplace(cls, syntChild, st, rtype):
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return []
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def ProjectTypeinForChild(self, pwParent, syntChild, st):
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def OnSelect(synt, psel):
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self.Replace(syntChild, synt)
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syntChild.SetStTypein(None)
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if syntChild.GetStTypein() != None:
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pwParent = PwDropdown(pwParent)
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PwTypein(pwParent, st, syntChild)
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if syntChild.GetStTypein() != None:
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for synt in self.RgsyntForChild(syntChild, syntChild.GetStTypein()):
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PwButton(pwParent, synt.StForTypein(), synt, OnSelect)
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def RgsyntForChild(self, syntChild, st):
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return []
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def Replace(self, syntOld, syntNew):
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assert syntNew.syntParent == None
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syntNew.syntParent = self
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self.rgsynt[self.Isynt(syntOld)] = syntNew
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def Append(self, syntNew):
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assert syntNew.syntParent == None
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syntNew.syntParent = self
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self.rgsynt.append(syntNew)
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def Isynt(self, syntChild):
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if isinstance(syntChild, int):
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return syntChild
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return self.rgsynt.index(syntChild)
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def Rtype(self):
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return None
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def RtypeTopForChild(self, syntChild):
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return None
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def Populate(self):
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"Populate rgsynt with useful default values."
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pass
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def Project(self, pcur):
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"Project the current synt into its corresponding pws."
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pass
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def Compile(self):
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"Return a list of instrs to be interpreted. See vm.py for details on what an instr can be."
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return [self.Eval]
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# desc - list of desces
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# desce:
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# string: "foo" -- literal uneditable text
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# list: ["foo"] -- text to edit the current synt
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# tuple: (clsSynt, type) -- child description
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# clsSynt: class of child synt
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# type: number - same as another child expression with that number
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# None - no rtype specified / possible
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# tuple (number, rtypeTop) - number == same as another child expression with that number, rtypeTop = required type
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class SyntDesc(Synt):
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@classmethod
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def StForTypein(cls):
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for desce in cls.Desc():
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if isinstance(desce, list) and len(desce) == 1:
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return desce[0]
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@staticmethod
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def DefProp(isynt):
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"Create an alias for rgsynt[isynt]."
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def getI(self):
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return self.rgsynt[isynt]
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def setI(self, syntNew):
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self.Replace(isynt, syntNew)
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return property(getI, setI)
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@classmethod
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def Desc(cls):
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return cls.desc
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def Populate(self):
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for desce in self.Desc():
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if isinstance(desce, tuple):
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synt = desce[0].SyntDefault()
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self.Append(synt)
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# for synt in self.rgsynt:
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# synt.Populate()
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def DesceChild(self, isyntChild):
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isyntDesce = 0;
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for desce in self.Desc():
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if isinstance(desce, tuple):
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if isyntDesce == isyntChild:
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return desce
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isyntDesce += 1
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return None
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def RtypeTopForChild(self, syntChild):
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isyntChild = self.Isynt(syntChild)
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desce = self.DesceChild(isyntChild)
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if desce != None and isinstance(desce[1], tuple):
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return desce[1][0]
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return None
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def RgsyntForChild(self, syntChild, st):
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isyntChild = self.Isynt(syntChild)
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desce = self.DesceChild(isyntChild)
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if desce != None:
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rtype = None
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if isinstance(desce[1], tuple):
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rtype = desce[1][1]
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return desce[0].RgsyntReplace(syntChild, st, rtype)
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return []
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def Project(self, pcur):
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"adds more horizontal pws to a horizontal pw"
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isynt = 0
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for desce in self.Desc():
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if isinstance(desce, str):
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PwStatic(pcur.PwHoriz(self), desce)
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elif isinstance(desce, list):
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# selection for the synt itself
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self.syntParent.ProjectTypeinForChild(pcur.PwHoriz(self), self, desce[0])
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elif isinstance(desce, tuple):
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# embedded syntax
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self.rgsynt[isynt].Project(pcur)
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isynt += 1
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class SyntName(Synt):
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def InitPersistent(self):
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Synt.InitPersistent(self)
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self.PersistStedit()
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def Project(self, pcur):
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PwTypein(pcur.PwHoriz(self), self.St(), self)
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def St(self):
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return self.GetStTypein()
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class SyntExpr(Synt):
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rgclsSyntOp = []
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@classmethod
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def RgsyntReplace(cls, syntChild, st, rtype):
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for synt in RtypeAny().RgsyntFromSt(syntChild.syntParent, st):
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yield synt
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for clsSyntOp in cls.rgclsSyntOp:
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if clsSyntOp.StForTypein().lower().startswith(st.lower()):
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yield clsSyntOp.SyntDefault()
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def Project(self, pcur):
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self.syntParent.ProjectTypeinForChild(pcur.PwHoriz(self), self, " ")
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def Eval(self, vm):
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Fail.Push(vm, "Empty expression", self)
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class SyntLine(SyntDesc):
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rgclsStmt = []
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desc = [[" "]]
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@classmethod
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def RgsyntReplace(cls, syntChild, st, rtype):
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for clsStmt in cls.rgclsStmt:
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if clsStmt.StForTypein().lower().startswith(st.lower()):
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yield clsStmt()
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def Compile(self):
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return []
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class SyntBlock(Synt):
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def Project(self, pcur):
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with pcur.Indent(2 if pcur.pwHoriz != None else 0):
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pcur.EndLine()
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if pcur.pwVert == None:
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pcur.pwVert = PwBlock(None, self, pcur.dxindent)
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def OnInsertNewLine(syntAfter, psel):
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self.InsertLineAfter(syntAfter, None)
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psel.Inc(pcur.pwVert)
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PwButtonHidden(pcur.pwVert, "[insert new line]", None, OnInsertNewLine, pcur.dxindent)
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for syntLine in self.rgsynt:
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pwKey = PwKeyHandler(pcur.pwVert, self.HandleKey)
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with pcur.ProjectHoriz(pwKey, syntLine):
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syntLine.Project(pcur)
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def RgsyntForChild(self, syntChild, st):
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return SyntLine.RgsyntReplace(syntChild, st, None)
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def InsertLineAfter(self, syntAfter, syntStmt):
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if syntStmt == None:
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syntStmt = SyntLine()
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if syntAfter == None:
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self.rgsynt.insert(0, syntStmt)
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else:
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self.rgsynt.insert(self.rgsynt.index(syntAfter) + 1, syntStmt)
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syntStmt.syntParent = self
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return syntStmt
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def HandleKey(self, pwKey, pov, psel, key):
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if ansi.FEnter(key):
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self.InsertLineAfter(pwKey.pwChild.Value(), None)
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psel.Inc(pwKey.PwParent())
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return True
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return False
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def Compile(self):
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return self.rgsynt
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class SyntLit(Synt):
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def InitPersistent(self, value, rtype):
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Synt.InitPersistent(self)
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self.value = value
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self.rtype = rtype
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def StForTypein(self):
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return self.rtype.StForSobj(self.value)
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def Rtype(self):
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return self.rtype
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def Project(self, pcur):
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self.syntParent.ProjectTypeinForChild(pcur.PwHoriz(self), self, self.StForTypein())
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def Eval(self, vm):
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vm.Push(self.value)
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@RegStmt
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class SyntVar(SyntDesc):
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desc = [["Define"], " ", (SyntName, None), " to be ", (SyntExpr, 1)]
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name = SyntDesc.DefProp(0)
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expr = SyntDesc.DefProp(1)
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@classmethod
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def FVarOfType(cls, synt, rtype):
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return isinstance(synt, cls) and synt.expr != None and rtype.FOverlap(synt.expr.Rtype())
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def Compile(self):
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return [self.expr, self.Eval]
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def Eval(self, vm):
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vm.vars.Define(self, vm.Pop())
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class SyntVarRef(Synt):
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def InitPersistent(self, syntVar = None):
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Synt.InitPersistent(self)
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self.syntVar = syntVar
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@classmethod
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def RgsyntReplace(cls, syntChild, st, rtype):
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rtype = rtype or RtypeAny()
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return rtype.RgsyntVarRefFromSt(syntChild, st)
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def Rtype(self):
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return self.syntVar.Rtype()
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def StForTypein(self):
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if self.syntVar:
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return self.syntVar.name.St()
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return "<var>"
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def Project(self, pcur):
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self.syntParent.ProjectTypeinForChild(pcur.PwHoriz(self), self, self.StForTypein())
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def Eval(self, vm):
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vm.Push(vm.vars.Get(self.syntVar, self))
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class SyntBinOp(SyntDesc):
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@classmethod
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def Desc(cls):
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return [(SyntExpr, None), " ", [cls.op], " ", (SyntExpr, None)]
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left = SyntDesc.DefProp(0)
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right = SyntDesc.DefProp(1)
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@classmethod
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def Create(cls, op, rtype, dgEval = None, stNameI = None):
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def Decorate(dgEval):
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stName = stNameI or dgEval.__name__
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def Eval(self, vm):
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right = vm.Pop()
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left = vm.Pop()
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try:
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vm.Push(dgEval(left, right))
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except Exception as e:
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Fail.Push(vm, "Failed to " + op + ": " + e, self)
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def Compile(self):
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return [self.left, self.right, self.Eval]
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clsNew = type(stName, (cls,), {"Compile": Compile, "Eval": Eval, "op": op})
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SyntExpr.rgclsSyntOp.append(clsNew)
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return clsNew
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if dgEval == None: # used as a decorator
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return Decorate
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clsNew = Decorate(dgEval)
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if stNameI != None:
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globals()[stNameI] = clsNew
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return clsNew
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SyntBinOp.Create("+", RtypeNum(), lambda l,r: l + r, "SyntPlus")
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SyntBinOp.Create("-", RtypeNum(), lambda l,r: l - r, "SyntMinus")
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SyntBinOp.Create("*", RtypeNum(), lambda l,r: l * r, "SyntMult")
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SyntBinOp.Create("/", RtypeNum(), lambda l,r: l / r, "SyntDiv") # use ansi?
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SyntBinOp.Create("=", RtypeBool(), lambda l,r: l == r, "SyntEq")
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SyntBinOp.Create(">", RtypeBool(), lambda l,r: l > r, "SyntGt")
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SyntBinOp.Create(">=", RtypeBool(), lambda l,r: l >= r, "SyntGte") # use ansi?
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SyntBinOp.Create("<", RtypeBool(), lambda l,r: l < r, "SyntLt")
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SyntBinOp.Create("<=", RtypeBool(), lambda l,r: l <= r, "SyntLte") # use ansi?
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SyntBinOp.Create("and", RtypeBool(), lambda l,r: l and r, "SyntAnd")
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SyntBinOp.Create("or", RtypeBool(), lambda l,r: l or r, "SyntOr")
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@RegStmt
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class SyntIf(SyntDesc):
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desc = [["If"], " ", (SyntExpr, (1, RtypeBool)), ", then:", (SyntBlock, None), "or else:", (SyntBlock, None)]
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expr = SyntDesc.DefProp(0)
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blockIfTrue = SyntDesc.DefProp(1)
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blockIfFalse = SyntDesc.DefProp(2)
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def Compile(self):
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return [self.expr, self.Compare, self.PopCtx]
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def Compare(self, vm):
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val = vm.Pop()
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vm.vars.Push() # lexical scoping, bitches
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if val:
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return self.blockIfTrue
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else:
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return self.blockIfFalse
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def PopCtx(self, vm):
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vm.vars.Pop()
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@RegStmt
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class SyntSet(SyntDesc):
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desc = [["Set"], " ", (SyntVarRef, 1), " to ", (SyntExpr, 1)]
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lvalue = SyntDesc.DefProp(0)
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expr = SyntDesc.DefProp(1)
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def Compile(self):
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return [self.expr, self.Eval]
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def Eval(self, vm):
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val = vm.Pop()
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if not isinstance(val, Fail):
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vm.Log(vm.vars.Set(self.lvalue.syntVar, vm.Pop(), self))
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class Fail(TPrs):
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"""
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Failure object. Our scripting language has no exceptions; instead, if a failure object is involved in a calculation,
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that calculation fails as well. Inspired by Icon. I would like this model to have the property that the designer can
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edit a script while the game is running and see the effect of their changes immediately; this suggests that failures
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should be logged and the script should continue to run.
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"""
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def InitPersistent(self, stFailure, synt):
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self.stFailure = stFailure
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self.synt = synt
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@staticmethod
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def Push(cls, vm, stFailure, synt):
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fail = Fail(stFailure, synt)
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vm.Push(fail)
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vm.Log(fail)
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@staticmethod
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def Log(cls, vm, stFailure, synt):
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vm.Log(Fail(stFailure, synt))
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# projection cursor
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class Pcur(object):
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@staticmethod
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def PwProjected(synt):
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pcur = Pcur()
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synt.Project(pcur)
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return pcur.pwVert
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def __init__(self):
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self.pwVert = None
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self.pwHoriz = None
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self.dxindent = 0
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@contextmanager
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def Indent(self, dxindent = 2):
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self.dxindent += dxindent
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yield
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self.dxindent -= dxindent
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@contextmanager
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def ProjectHoriz(self, pwParent, synt):
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self.ProjectHorizI(pwParent, synt)
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yield
|
|
self.EndLine()
|
|
|
|
def PwHoriz(self, synt):
|
|
if self.pwHoriz == None:
|
|
self.ProjectHorizI(self.pwVert, synt)
|
|
return self.pwHoriz
|
|
|
|
def EndLine(self):
|
|
self.pwHoriz = None
|
|
|
|
def ProjectHorizI(self, pwParent, synt):
|
|
self.pwHoriz = PwList(pwParent, synt, self.dxindent)
|
|
|
|
# pw - projected widget
|
|
# Nothing ever depends on the object identity or permanence of a pw!
|
|
# They are generated on demand, whenever we need to draw or process a
|
|
# keypress.
|
|
|
|
class Pw(object):
|
|
def __init__(self, pwParent):
|
|
if pwParent != None:
|
|
pwParent.AddChild(self)
|
|
self.pwParent = pwParent
|
|
def PrintTree(self, dxindent = 0):
|
|
print (" " * dxindent) + self.StDebug()
|
|
for pwChild in self.RgpwChild():
|
|
pwChild.PrintTree(dxindent + 2)
|
|
def StDebug(self):
|
|
return self.__class__.__name__
|
|
def PwParent(self):
|
|
return self.pwParent
|
|
def Value(self):
|
|
return None
|
|
def FSelectable(self):
|
|
return False
|
|
def FContainer(self):
|
|
return False
|
|
def RgpwChild(self):
|
|
return []
|
|
def HandleKey(self, pov, psel, key):
|
|
return False
|
|
def PwFirstSelectable(self):
|
|
if self.FSelectable():
|
|
return self
|
|
for pwChild in self.RgpwChild():
|
|
pw = pwChild.PwFirstSelectable()
|
|
if pw != None:
|
|
return pw
|
|
return None
|
|
|
|
class PwContainer(Pw):
|
|
def __init__(self, pwParent):
|
|
Pw.__init__(self, pwParent)
|
|
self.rgpwContents = []
|
|
def AddChild(self, pw):
|
|
self.rgpwContents.append(pw)
|
|
def RgpwChild(self):
|
|
return self.rgpwContents
|
|
def FContainer(self):
|
|
return True
|
|
|
|
class PwContainOne(Pw):
|
|
def AddChild(self, pw):
|
|
self.pwChild = pw
|
|
def RgpwChild(self):
|
|
return [self.pwChild]
|
|
def FContainer(self):
|
|
return True
|
|
|
|
class PwExpand(PwContainOne):
|
|
def DxDyNew(self, w, dxStart, mpksel):
|
|
dxdy = self.pwChild.DxDyNew(w, dxStart, mpksel)
|
|
if dxdy[0] == 0 and dxdy[1] > 0:
|
|
return dxdy
|
|
return (0, dxdy[0] + 1)
|
|
def Draw(self, ascr, x, y, w, dxStart, mpksel, fOverlay):
|
|
if not fOverlay:
|
|
ascr.PutSt(" " * w, x, y, self.pwChild.ColFg(), self.pwChild.ColBg(mpksel.Get(self.pwChild)))
|
|
self.pwChild.Draw(ascr, x, y, w, dxStart, mpksel, fOverlay)
|
|
|
|
class PwStatic(Pw):
|
|
def __init__(self, pwParent, stText):
|
|
Pw.__init__(self, pwParent)
|
|
self.stText = stText
|
|
def StDebug(self):
|
|
return Pw.StDebug(self) + " '" + self.StTextDisplay(Ksel.NAV) + "'"
|
|
def DxDyNew(self, w, dxStart, mpksel):
|
|
rgsnippet = self.Rgsnippet(w, dxStart, mpksel)
|
|
if len(rgsnippet) == 1:
|
|
return (dxStart + len(rgsnippet[0].st), 0)
|
|
else:
|
|
return (len(rgsnippet[-1].st), len(rgsnippet) - 1)
|
|
def StTextDisplay(self, ksel):
|
|
return self.stText
|
|
def Rgsnippet(self, w, dxStart, mpksel):
|
|
ksel = mpksel.Get(self)
|
|
return list(RgSnippetWrapped(self.StTextDisplay(ksel), w, ksel == Ksel.NAV, dxStart))
|
|
def ColBg(self, ksel):
|
|
return ansi.BLACK
|
|
def ColFg(self):
|
|
return ansi.WHITE | ansi.FBRIGHT
|
|
def RgSnippetXY(self, x, y, w, dxStart, mpksel):
|
|
fFirst = True
|
|
for snippet in self.Rgsnippet(w, dxStart, mpksel):
|
|
xT = x + dxStart if fFirst else x
|
|
yield (snippet, xT, y)
|
|
y = y + 1
|
|
fFirst = False
|
|
def Draw(self, ascr, x, y, w, dxStart, mpksel, fOverlay):
|
|
if not fOverlay:
|
|
ksel = mpksel.Get(self)
|
|
for (snippet, x, y) in self.RgSnippetXY(x, y, w, dxStart, mpksel):
|
|
ascr.PutSt(snippet.st, x, y, self.ColFg(), self.ColBg(ksel))
|
|
|
|
class PwTypein(PwStatic):
|
|
def __init__(self, pwParent, stSobj, typeable):
|
|
if typeable.GetStTypein() == None:
|
|
stDisplay = stSobj
|
|
else:
|
|
stDisplay = None
|
|
PwStatic.__init__(self, pwParent, stDisplay)
|
|
self.typeable = typeable
|
|
def Value(self):
|
|
return self.typeable
|
|
def StTextDisplay(self, ksel):
|
|
if self.stText == None:
|
|
return self.typeable.steditTypein.StForSize(ksel == Ksel.NAV)
|
|
return self.stText
|
|
def FSelectable(self):
|
|
return True
|
|
def ColBg(self, ksel):
|
|
if ksel == Ksel.NAV:
|
|
return ansi.YELLOW
|
|
elif ksel == Ksel.OTHERNAV:
|
|
return ansi.MAGENTA
|
|
return ansi.BLUE
|
|
def HandleKey(self, pov, psel, key):
|
|
return self.typeable.HandleTypeinKey(key)
|
|
def Draw(self, ascr, x, y, w, dxStart, mpksel, fOverlay):
|
|
if not fOverlay:
|
|
ksel = mpksel.Get(self)
|
|
fTextSelect = ksel == Ksel.NAV and self.typeable.GetStTypein() != None
|
|
for (snippet, x, y) in self.RgSnippetXY(x, y, w, dxStart, mpksel):
|
|
ascr.PutSt(snippet.st, x, y, self.ColFg(), self.ColBg(Ksel.NONE if fTextSelect else ksel))
|
|
if fTextSelect:
|
|
self.typeable.steditTypein.DrawCursor(ascr, x, y, self.ColFg(), self.ColBg(ksel), snippet)
|
|
else:
|
|
for pwChild in self.RgpwChild():
|
|
pwChild.Draw(ascr, x, y, dxStart, mpksel, fOverlay)
|
|
|
|
class PwButton(PwStatic):
|
|
def __init__(self, pwParent, stText, value, dgEnter):
|
|
PwStatic.__init__(self, pwParent, stText)
|
|
self.value = value
|
|
self.dgEnter = dgEnter
|
|
def Value(self):
|
|
return self.value
|
|
def FSelectable(self):
|
|
return True
|
|
def ColBg(self, ksel):
|
|
if ksel == Ksel.NAV:
|
|
return ansi.YELLOW
|
|
elif ksel == Ksel.OTHERNAV:
|
|
return ansi.MAGENTA
|
|
return ansi.BLUE
|
|
def ColFg(self):
|
|
return ansi.BLUE | ansi.FBRIGHT
|
|
def HandleKey(self, pov, psel, key):
|
|
if key == ansi.K_RETURN:
|
|
self.dgEnter(self.Value(), psel)
|
|
return True
|
|
return False
|
|
|
|
class PwButtonHidden(PwButton):
|
|
def __init__(self, pwParent, stText, value, dgEnter, dxIndent):
|
|
PwButton.__init__(self, pwParent, stText, value, dgEnter)
|
|
self.dxIndent = dxIndent
|
|
def DxDyNew(self, w, dxStart, mpksel):
|
|
if mpksel.Get(self) == Ksel.NAV:
|
|
return PwButton.DxDyNew(self, w - self.dxIndent, dxStart + self.dxIndent, mpksel)
|
|
return (0, 0)
|
|
def Draw(self, ascr, x, y, w, dxStart, mpksel, fOverlay):
|
|
if mpksel.Get(self) == Ksel.NAV:
|
|
PwButton.Draw(self, ascr, x + self.dxIndent, y, w - self.dxIndent, dxStart, mpksel, fOverlay)
|
|
|
|
class PwKeyHandler(PwContainOne):
|
|
def __init__(self, pwParent, dgHandleKey):
|
|
PwContainOne.__init__(self, pwParent)
|
|
self.dgHandleKey = dgHandleKey
|
|
def DxDyNew(self, w, dxStart, mpksel):
|
|
return self.pwChild.DxDyNew(w, dxStart, mpksel)
|
|
def Draw(self, ascr, x, y, w, dxStart, mpksel, fOverlay):
|
|
self.pwChild.Draw(ascr, x, y, w, dxStart, mpksel, fOverlay)
|
|
def HandleKey(self, pov, psel, key):
|
|
self.dgHandleKey(self, pov, psel, key)
|
|
|
|
class PwBlock(PwContainer):
|
|
def __init__(self, pwParent, block, dxIndent = 2):
|
|
PwContainer.__init__(self, pwParent)
|
|
self.block = block
|
|
self.dxIndent = dxIndent
|
|
def Value(self):
|
|
return self.block
|
|
def DxIndent(self):
|
|
return self.dxIndent
|
|
def DxDyNew(self, w, dxStart, mpksel):
|
|
return (0, 1 + sum([pw.DxDyNew(w - self.DxIndent(), 0, mpksel)[1] + 1 for pw in self.rgpwContents]))
|
|
def RgpwChildToDraw(self):
|
|
return self.RgpwChild()
|
|
def Draw(self, ascr, x, y, w, dxStart, mpksel, fOverlay):
|
|
for pw in self.RgpwChildToDraw():
|
|
pw.Draw(ascr, x + self.DxIndent(), y, w - self.DxIndent(), 0, mpksel, fOverlay)
|
|
(dxNew, dyNew) = pw.DxDyNew(w - self.DxIndent(), 0, mpksel)
|
|
if dxNew > 0 or dyNew > 0:
|
|
y = y + dyNew + 1
|
|
def HandleKey(self, pov, psel, key):
|
|
if key == ansi.K_UP:
|
|
return psel.Dec(self)
|
|
elif key == ansi.K_DOWN:
|
|
return psel.Inc(self)
|
|
elif key == ansi.K_DEL:
|
|
pass
|
|
return False
|
|
|
|
class PwDropdown(PwBlock):
|
|
def __init__(self, pwParent):
|
|
PwBlock.__init__(self, pwParent, None, 0)
|
|
def WidthMax(self, mpksel):
|
|
w = -1
|
|
for pw in self.RgpwChild():
|
|
wPw = pw.DxDyNew(1000000, 0, mpksel)[0]
|
|
if wPw > w:
|
|
w = wPw
|
|
return w
|
|
def RgpwChildToDraw(self):
|
|
return PwBlock.RgpwChild(self)[1:]
|
|
def PwChildFirst(self):
|
|
return PwBlock.RgpwChild(self)[0]
|
|
def DxDyNew(self, w, dxStart, mpksel):
|
|
return self.PwChildFirst().DxDyNew(w, dxStart, mpksel)
|
|
def Draw(self, ascr, x, y, w, dxStart, mpksel, fOverlay):
|
|
if not fOverlay:
|
|
self.PwChildFirst().Draw(ascr, x, y, w, dxStart, mpksel, False)
|
|
else:
|
|
wMax = self.WidthMax(mpksel)
|
|
w = w - dxStart
|
|
x = x + dxStart
|
|
if x + wMax > w and wMax < w:
|
|
x = w - self.WidthMax(mpksel)
|
|
PwBlock.Draw(self, ascr, x, y + 1, w, 0, mpksel, False)
|
|
|
|
class PwList(PwContainer):
|
|
def __init__(self, pwParent, synt, dxIndent):
|
|
PwContainer.__init__(self, pwParent)
|
|
self.synt = synt
|
|
self.dxIndent = dxIndent
|
|
def Value(self):
|
|
return self.synt
|
|
def DxDyNew(self, w, dxStart, mpksel):
|
|
dx = dxStart
|
|
dy = 0
|
|
for pw in self.rgpwContents:
|
|
(dx, dyPw) = pw.DxDyNew(w, dx, mpksel)
|
|
dy = dy + dyPw
|
|
return (dx, dy)
|
|
def DxIndent(self):
|
|
return self.dxIndent
|
|
def Draw(self, ascr, x, y, w, dx, mpksel, fOverlay):
|
|
for pw in self.rgpwContents:
|
|
pw.Draw(ascr, x + self.DxIndent(), y, w - self.DxIndent(), dx, mpksel, fOverlay)
|
|
(dx, dy) = pw.DxDyNew(w, dx, mpksel)
|
|
y = y + dy
|
|
def HandleKey(self, pov, psel, key):
|
|
if key == ansi.K_LEFT:
|
|
return psel.Dec(self)
|
|
elif key == ansi.K_RIGHT:
|
|
return psel.Inc(self)
|
|
return False
|
|
|
|
class Ksel(object):
|
|
FOTHER = 0x2000
|
|
NONE = FOTHER | 0x1000 # OR together all ksel flags and add 0x1000; largest possible ksel
|
|
NAV = 0
|
|
OTHERNAV = NAV | FOTHER
|
|
|
|
@staticmethod
|
|
def KselBest(ksel1, ksel2):
|
|
if ksel1 < ksel2:
|
|
return ksel1
|
|
return ksel2
|
|
|
|
class Psel(TPrs):
|
|
def InitPersistent(self, pw, ksel):
|
|
assert len(pw.RgpwChild()) == 0 #leaf
|
|
self.rgo_ipw = self.Rgo_ipwFromPw(pw)
|
|
self.ksel = ksel
|
|
|
|
def Rgo_ipwFromPw(self, pw):
|
|
rgo_ipw = []
|
|
if pw != None:
|
|
while pw.PwParent() != None:
|
|
rgo_ipw.insert(0, (pw.Value(), pw.PwParent().RgpwChild().index(pw)))
|
|
pw = pw.PwParent()
|
|
return rgo_ipw
|
|
|
|
def Validate(self, pwRoot):
|
|
assert pwRoot.PwParent() == None #root
|
|
io_ipw = 0
|
|
pwSelected = pwRoot
|
|
while len(pwSelected.RgpwChild()) > 0 and io_ipw < len(self.rgo_ipw):
|
|
(o, ipw) = self.rgo_ipw[io_ipw]
|
|
ipwNew = 0
|
|
for pwChild in pwSelected.RgpwChild():
|
|
if o != None and pwChild.Value() == o:
|
|
break
|
|
ipwNew = ipwNew + 1
|
|
if ipwNew == len(pwSelected.RgpwChild()):
|
|
ipwLim = ipw + 1 if ipw < len(pwSelected.RgpwChild()) else len(pwSelected.RgpwChild())
|
|
ipwNew = IoDec(pwSelected.RgpwChild(), ipwLim, self.FPwValid)
|
|
if ipwNew < 0:
|
|
break
|
|
pwSelected = pwSelected.RgpwChild()[ipwNew]
|
|
io_ipw = io_ipw + 1
|
|
|
|
# we've made our best guess as to what the closest selectable thing is -- now make sure we point at SOMEthing selectable.
|
|
if not pwSelected.FSelectable():
|
|
pwT = pwSelected
|
|
while pwT != None:
|
|
pwSelected = pwT.PwFirstSelectable()
|
|
if pwSelected != None:
|
|
break
|
|
pwT = pwT.PwParent()
|
|
|
|
self.rgo_ipw = self.Rgo_ipwFromPw(pwSelected)
|
|
|
|
def FPwValid(self, pw):
|
|
if pw.FSelectable():
|
|
return True
|
|
for pwChild in pw.RgpwChild():
|
|
if self.FPwValid(pwChild):
|
|
return True
|
|
return False
|
|
|
|
def Value(self, pwRoot):
|
|
self.Validate(pwRoot)
|
|
if len(self.rgo_ipw) > 0:
|
|
return self.rgo_ipw[-1][0]
|
|
return None
|
|
|
|
def PwSelected(self, pwRoot, clevel = None):
|
|
self.Validate(pwRoot)
|
|
return self.PwSelectedI(pwRoot, self.rgo_ipw[:clevel])
|
|
|
|
def PwSelectedI(self, pw, rgo_ipw):
|
|
for (_, ipw) in rgo_ipw:
|
|
pw = pw.RgpwChild()[ipw]
|
|
return pw
|
|
# contract: pwContainer is actually selected
|
|
def Inc(self, pwContainer):
|
|
return self.ChangeI(pwContainer, IoInc)
|
|
def Dec(self, pwContainer):
|
|
return self.ChangeI(pwContainer, IoDec)
|
|
|
|
def ChangeI(self, pwContainer, fnChange):
|
|
clevelChild = 1
|
|
pwRoot = pwContainer
|
|
while pwRoot.PwParent() != None:
|
|
clevelChild = clevelChild + 1
|
|
pwRoot = pwRoot.PwParent()
|
|
self.Validate(pwRoot)
|
|
assert self.PwSelected(pwRoot, clevelChild).PwParent() == pwContainer
|
|
|
|
ipw = self.rgo_ipw[clevelChild - 1][1]
|
|
rgpw = pwContainer.RgpwChild()
|
|
ipwNew = fnChange(rgpw, ipw, self.FPwValid)
|
|
self.rgo_ipw[clevelChild - 1] = (rgpw[ipwNew].Value(), ipwNew)
|
|
self.Validate(pwRoot)
|
|
return ipwNew != ipw
|
|
|
|
# projector overlay -- handles navigation, drawing the projection, etc
|
|
class Pov(TokenClient):
|
|
def InitPersistent(self, owner, client, block):
|
|
TokenClient.InitPersistent(self, owner, client, "drawable", "overlay")
|
|
self.block = block
|
|
self.pselstate = self.game.rgtoken("pselstate")[0]
|
|
|
|
def PwProjected(self):
|
|
return Pcur.PwProjected(self.block)
|
|
|
|
def run(self):
|
|
while True:
|
|
key = self.client.evKey.receive(self)
|
|
psel = self.pselstate.PselByClient(self.client)
|
|
pwSel = psel.PwSelected(self.PwProjected())
|
|
while pwSel != None:
|
|
if pwSel.HandleKey(self, psel, key):
|
|
break
|
|
pwSel = pwSel.PwParent()
|
|
|
|
def draw(self, ascr, client):
|
|
if client == self.client:
|
|
pw = self.PwProjected()
|
|
mpksel = self.pselstate.GetMpksel(pw, client)
|
|
pw.Draw(ascr, 1, 1, ascr.W(), 0, mpksel, False)
|
|
pw.Draw(ascr, 1, 1, ascr.W(), 0, mpksel, True)
|
|
|
|
class PselState(Token):
|
|
def InitPersistent(self, owner, block):
|
|
Token.InitPersistent(self, owner, "pselstate")
|
|
self.block = block
|
|
def InitTransient(self):
|
|
Token.InitTransient(self)
|
|
self.mpclient_psel = {}
|
|
def OnLeave(self, client):
|
|
del self.mpclient_psel[client]
|
|
def OnJoin(self, client):
|
|
print "client joined,", client
|
|
self.mpclient_psel[client] = Psel(Pcur.PwProjected(self.block).PwFirstSelectable(), Ksel.NAV)
|
|
class Mpksel(object):
|
|
def __init__(self, pwRoot, client, mpclient_psel):
|
|
self.mppw_ksel = {}
|
|
for clientT, psel in mpclient_psel.items():
|
|
kselNew = Ksel.NAV
|
|
if clientT != client:
|
|
kselNew = kselNew | Ksel.FOTHER
|
|
pw = psel.PwSelected(pwRoot)
|
|
self.mppw_ksel[pw] = Ksel.KselBest(kselNew, self.Get(pw))
|
|
|
|
def Get(self, pw):
|
|
return self.mppw_ksel.get(pw, Ksel.NONE)
|
|
|
|
def GetMpksel(self, pwRoot, client):
|
|
return self.Mpksel(pwRoot, client, self.mpclient_psel)
|
|
def PselByClient(self, client):
|
|
return self.mpclient_psel[client]
|
|
def run(self):
|
|
print "pselstate running"
|
|
with self.game.evLeave.oob(self, self.OnLeave):
|
|
while True:
|
|
self.OnJoin(self.game.evJoin.receive(self))
|
|
|
|
class GameScriptTest(Game):
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def InitPersistent(self):
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Game.InitPersistent(self)
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self.block = SyntBlock()
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def GetRgclsTokTrans(self):
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return [[PselState, self.block], [AutoJoiner, [Pov, self.block]]]
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class RunnerScriptTest(Runner):
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def InitPersistent(self):
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self.game = GameScriptTest()
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Runner.InitPersistent(self)
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def RunGame(self, client):
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client.joinGame(self.game)
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|
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if __name__ == "__main__":
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Run(RunnerScriptTest, "script_test.marm") |