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# -*- coding: utf-8 -*-
#
# AWL simulator - FUP compiler - Arithmetic operations
#
# Copyright 2017-2018 Michael Buesch <m@bues.ch>
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License along
# with this program; if not, write to the Free Software Foundation, Inc.,
# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
#
from __future__ import division, absolute_import, print_function, unicode_literals
#from awlsim.common.cython_support cimport * #@cy
from awlsim.common.compat import *
from awlsim.common.cpuconfig import *
from awlsim.fupcompiler.elem import *
from awlsim.fupcompiler.elemoper import *
from awlsim.fupcompiler.elembool import *
from awlsim.fupcompiler.helpers import *
from awlsim.core.operators import * #+cimport
from awlsim.core.operatortypes import * #+cimport
from awlsim.core.instructions.all_insns import * #+cimport
class FupCompiler_ElemArith(FupCompiler_Elem):
"""FUP compiler - Arithmetic operation.
"""
ELEM_NAME = "ARITH"
SUBTYPE = None # Override this in the subclass
ARITH_INSN_CLASS = None # Override this in the subclass
HAVE_REMAINDER = False # Operation has remainder?
EnumGen.start
SUBTYPE_ADD_I = EnumGen.item
SUBTYPE_SUB_I = EnumGen.item
SUBTYPE_MUL_I = EnumGen.item
SUBTYPE_DIV_I = EnumGen.item
SUBTYPE_ADD_D = EnumGen.item
SUBTYPE_SUB_D = EnumGen.item
SUBTYPE_MUL_D = EnumGen.item
SUBTYPE_DIV_D = EnumGen.item
SUBTYPE_MOD_D = EnumGen.item
SUBTYPE_ADD_R = EnumGen.item
SUBTYPE_SUB_R = EnumGen.item
SUBTYPE_MUL_R = EnumGen.item
SUBTYPE_DIV_R = EnumGen.item
EnumGen.end
str2subtype = {
"add-int" : SUBTYPE_ADD_I,
"sub-int" : SUBTYPE_SUB_I,
"mul-int" : SUBTYPE_MUL_I,
"div-int" : SUBTYPE_DIV_I,
"add-dint" : SUBTYPE_ADD_D,
"sub-dint" : SUBTYPE_SUB_D,
"mul-dint" : SUBTYPE_MUL_D,
"div-dint" : SUBTYPE_DIV_D,
"mod-dint" : SUBTYPE_MOD_D,
"add-real" : SUBTYPE_ADD_R,
"sub-real" : SUBTYPE_SUB_R,
"mul-real" : SUBTYPE_MUL_R,
"div-real" : SUBTYPE_DIV_R,
}
@classmethod
def parse(cls, grid, x, y, subType, content):
try:
subType = cls.str2subtype[subType]
type2class = {
cls.SUBTYPE_ADD_I : FupCompiler_ElemArithAddI,
cls.SUBTYPE_SUB_I : FupCompiler_ElemArithSubI,
cls.SUBTYPE_MUL_I : FupCompiler_ElemArithMulI,
cls.SUBTYPE_DIV_I : FupCompiler_ElemArithDivI,
cls.SUBTYPE_ADD_D : FupCompiler_ElemArithAddD,
cls.SUBTYPE_SUB_D : FupCompiler_ElemArithSubD,
cls.SUBTYPE_MUL_D : FupCompiler_ElemArithMulD,
cls.SUBTYPE_DIV_D : FupCompiler_ElemArithDivD,
cls.SUBTYPE_MOD_D : FupCompiler_ElemArithModD,
cls.SUBTYPE_ADD_R : FupCompiler_ElemArithAddR,
cls.SUBTYPE_SUB_R : FupCompiler_ElemArithSubR,
cls.SUBTYPE_MUL_R : FupCompiler_ElemArithMulR,
cls.SUBTYPE_DIV_R : FupCompiler_ElemArithDivR,
}
elemClass = None
with contextlib.suppress(KeyError):
elemClass = type2class[subType]
if elemClass:
return elemClass(grid=grid, x=x, y=y,
content=content)
except KeyError:
pass
return None
def __init__(self, grid, x, y, content, **kwargs):
FupCompiler_Elem.__init__(self, grid=grid, x=x, y=y,
elemType=FupCompiler_Elem.TYPE_ARITH,
subType=self.SUBTYPE,
content=content,
**kwargs)
def connIsOptional(self, conn):
if not self.enabled:
return True
return conn.hasText({ "EN", "ENO", "OV", "REM", "==0", "<>0",
">0", "<0", ">=0", "<=0", "UO", })
def getConnType(self, conn, preferVKE=False):
if self.enabled and conn in self.connections:
if conn.hasText({ "EN", "ENO", "OV", "==0", "<>0",
">0", "<0", ">=0", "<=0", "UO", }):
return FupCompiler_Conn.TYPE_VKE
return FupCompiler_Conn.TYPE_ACCU
return FupCompiler_Conn.TYPE_UNKNOWN
def __getConnsEN(self):
"""Get EN and ENO connections.
"""
conn_EN = self.getUniqueConnByText("EN", searchInputs=True)
conn_ENO = self.getUniqueConnByText("ENO", searchOutputs=True)
if not conn_EN or not conn_ENO:
raise FupElemError("Invalid EN or ENO connections "
"in FUP arithmetic %s." % (
str(self)),
self)
return conn_EN, conn_ENO
def __getConnFlag(self, connName):
conn = self.getUniqueConnByText(connName, searchOutputs=True)
if conn and conn.isConnected:
return conn
return None
def __allConnsIN(self):
"""Get all INx connections.
"""
for conn in FupCompiler_Conn.sorted(self.inConnections):
if conn.textMatch(r"IN\d+"):
yield conn
def __allConnsOUT(self):
"""Get all OUTx connections.
"""
for conn in FupCompiler_Conn.sorted(self.outConnections):
if conn.textMatch(r"OUT\d+"):
yield conn
def compileConn(self, conn, desiredTarget, inverted=False):
if not self.enabled:
return []
insns = []
assert(conn in self.connections)
awlInsnClass = FupCompiler_Conn.targetToInsnClass(desiredTarget,
toLoad=True,
inverted=inverted)
if conn.hasText("ENO"):
self._compileConn_checkTarget(conn, desiredTarget, inverted,
targetExpectVKE=True,
allowInversion=True)
if self.needCompile:
insns.extend(self.compile())
if inverted:
insns.append(self.newInsn(AwlInsn_NOT))
else:
insns.extend(conn.elem._loadFromTemp(awlInsnClass, conn))
elif conn.hasText({ "OV", "==0", "<>0", ">0",
"<0", ">=0", "<=0", "UO", }):
self._compileConn_checkTarget(conn, desiredTarget, inverted,
targetExpectVKE=True,
allowInversion=False)
if self.needCompile:
insns.extend(self.compile())
insns.extend(conn.elem._loadFromTemp(awlInsnClass, conn))
elif conn.textMatch(r"(REM)|(OUT\d+)"):
self._compileConn_checkTarget(conn, desiredTarget, inverted,
targetExpectVKE=False,
allowInversion=False)
if self.needCompile:
insns.extend(self.compile())
insns.extend(conn.elem._loadFromTemp(awlInsnClass, conn))
else:
return FupCompiler_Elem.compileConn(self, conn, desiredTarget, inverted)
return insns
def _doPreprocess(self):
if not self.enabled:
return
# If the element connected to IN is not a LOAD operand, we must
# take its ENO into account.
# If we don't have a connection on EN, we implicitly connect
# the IN-element's ENO to our EN here.
# If we already have a connection on EN, we implicitly add an AND-element
# between the IN-element's ENO and our EN.
elemsA = []
for conn in self.__allConnsIN():
connectedElem = conn.getConnectedElem(viaOut=True)
if not connectedElem.isType(FupCompiler_Elem.TYPE_OPERAND,
FupCompiler_ElemOper.SUBTYPE_LOAD):
elemsA.append(connectedElem)
FupCompiler_Helpers.genIntermediateBool(
parentElem=self,
elemsA=elemsA,
connNamesA=(["ENO"] * len(elemsA)),
elemB=self,
connNameB="EN",
boolElemClass=FupCompiler_ElemBoolAnd)
def _doCompile(self):
if not self.enabled:
return []
insns = []
conn_EN, conn_ENO = self.__getConnsEN()
# Compile all elements connected to IN connections.
for conn in self.__allConnsIN():
connectedElem = conn.getConnectedElem(viaOut=True)
# Only compile the element, if it is not a plain LOAD box.
if connectedElem.needCompile and\
not connectedElem.isType(FupCompiler_Elem.TYPE_OPERAND,
FupCompiler_ElemOper.SUBTYPE_LOAD):
insns.extend(connectedElem.compile())
# Generate a jump target label name for the EN jump.
# This might end up being unused, though.
endLabel = self.grid.compiler.newLabel()
# If we have an EN input, emit the corresponding conditional jump.
# If EN is not a plain operator, this might involve compiling
# the connected element.
if conn_EN.isConnected:
# Compile the element that drives this wire.
otherConn = conn_EN.getConnectedConn(getOutput=True)
insns.extend(otherConn.compileConn(targetInsnClass=AwlInsn_U,
inverted=False))
# Emit the jump instruction.
# This will evaluate the current VKE.
insns.append(self.newInsn_JMP(AwlInsn_SPBNB, endLabel))
# Compile the actual operation.
for i, conn in enumerate(self.__allConnsIN()):
otherConn = conn.getConnectedConn(getOutput=True)
otherElem = otherConn.elem
# Compile the element connected to the input.
insns.extend(otherConn.compileConn(targetInsnClass=AwlInsn_L))
if otherConn.connType != FupCompiler_Conn.TYPE_ACCU:
raise FupElemError("The IN connection "
"of the FUP arithmetic box %s must not be connected "
"to a bit (VKE) wire." % (
str(self)),
self)
# Add the arithmetic operation.
if i > 0:
insns.append(self.newInsn(self.ARITH_INSN_CLASS))
# Assign the outputs.
storeToTempConns = set()
for conn in self.__allConnsOUT():
for otherElem in self.sorted(conn.getConnectedElems(viaIn=True)):
if otherElem.isType(FupCompiler_Elem.TYPE_OPERAND,
FupCompiler_ElemOper.SUBTYPE_ASSIGN):
insns.extend(otherElem.emitStore_ACCU())
else:
storeToTempConns.add(conn)
if storeToTempConns:
storeToTempConns.add(self.MAIN_RESULT)
insns.extend(self._storeToTemp("DWORD", AwlInsn_T, storeToTempConns))
# Check if any of the flags outputs is used.
anyFlagConnected = any(bool(self.__getConnFlag(name))
for name in {"OV", "==0", "<>0", ">0",
"<0", ">=0", "<=0", "UO"})
# Handle REMainder output.
if self.HAVE_REMAINDER:
conn_REM = self.getUniqueConnByText("REM", searchOutputs=True)
if conn_REM and conn_REM.isConnected:
# Shift the remainder to the lower 16 bits.
# The division result will be lost.
# But save the status word before shifting to avoid
# clobbering STW by SRD. This is only done, if the
# STW is used later on for the flags outputs.
if anyFlagConnected:
insns.append(self.newInsn_L_STW())
insns.append(self.newInsn(AwlInsn_TAK))
insns.append(self.newInsn_SRD(16))
# Store the REM output (or store to TEMP).
storeToTempConns = set()
for otherElem in self.sorted(conn_REM.getConnectedElems(viaIn=True)):
if otherElem.isType(FupCompiler_Elem.TYPE_OPERAND,
FupCompiler_ElemOper.SUBTYPE_ASSIGN):
insns.extend(otherElem.emitStore_ACCU())
else:
storeToTempConns.add(conn_REM)
insns.extend(self._storeToTemp("WORD", AwlInsn_T, storeToTempConns))
# Restore STW.
if anyFlagConnected:
insns.append(self.newInsn(AwlInsn_TAK))
insns.append(self.newInsn_T_STW())
# Make sure BIE is set, if EN is not connected and ENO is connected.
if not conn_EN.isConnected and conn_ENO.isConnected:
# set BIE=1 and /ER=0.
insns.extend(self.newInsns_SET_BIE_CLR_ER())
# Create the jump target label for EN=0.
# This might end up being unused, though.
insns.append(self.newInsn_NOP(labelStr=endLabel))
# Compile flags outputs.
if anyFlagConnected:
insns.extend(FupCompiler_Helpers.genSTWOutputOper(self,
conn=self.__getConnFlag("OV"),
andWithBIE=conn_EN.isConnected,
operType=AwlOperatorTypes.MEM_STW,
bitPos=S7StatusWord.getBitnrByName("OV", S7CPUConfig.MNEMONICS_DE)))
insns.extend(FupCompiler_Helpers.genSTWOutputOper(self,
conn=self.__getConnFlag("==0"),
andWithBIE=conn_EN.isConnected,
operType=AwlOperatorTypes.MEM_STW_Z))
insns.extend(FupCompiler_Helpers.genSTWOutputOper(self,
conn=self.__getConnFlag("<>0"),
andWithBIE=conn_EN.isConnected,
operType=AwlOperatorTypes.MEM_STW_NZ))
insns.extend(FupCompiler_Helpers.genSTWOutputOper(self,
conn=self.__getConnFlag(">0"),
andWithBIE=conn_EN.isConnected,
operType=AwlOperatorTypes.MEM_STW_POS))
insns.extend(FupCompiler_Helpers.genSTWOutputOper(self,
conn=self.__getConnFlag("<0"),
andWithBIE=conn_EN.isConnected,
operType=AwlOperatorTypes.MEM_STW_NEG))
insns.extend(FupCompiler_Helpers.genSTWOutputOper(self,
conn=self.__getConnFlag(">=0"),
andWithBIE=conn_EN.isConnected,
operType=AwlOperatorTypes.MEM_STW_POSZ))
insns.extend(FupCompiler_Helpers.genSTWOutputOper(self,
conn=self.__getConnFlag("<=0"),
andWithBIE=conn_EN.isConnected,
operType=AwlOperatorTypes.MEM_STW_NEGZ))
insns.extend(FupCompiler_Helpers.genSTWOutputOper(self,
conn=self.__getConnFlag("UO"),
andWithBIE=conn_EN.isConnected,
operType=AwlOperatorTypes.MEM_STW_UO))
# Handle ENO output.
if conn_ENO.isConnected:
# Add instruction: U BIE
insns.append(self.newInsn_LOAD_BIE(AwlInsn_U))
# Add VKE assignment instruction.
storeToTempConns = set()
for otherElem in self.sorted(conn_ENO.getConnectedElems(viaIn=True)):
if otherElem.isType(FupCompiler_Elem.TYPE_OPERAND,
FupCompiler_ElemOper.SUBTYPE_ASSIGN):
insns.extend(otherElem.emitStore_VKE())
else:
storeToTempConns.add(conn_ENO)
if storeToTempConns:
insns.extend(self._storeToTemp("BOOL", AwlInsn_ASSIGN,
storeToTempConns))
return insns
class FupCompiler_ElemArithAddI(FupCompiler_ElemArith):
"""FUP compiler - Arithmetic operation - +I
"""
ELEM_NAME = "+I"
SUBTYPE = FupCompiler_ElemArith.SUBTYPE_ADD_I
ARITH_INSN_CLASS = AwlInsn_PL_I
class FupCompiler_ElemArithSubI(FupCompiler_ElemArith):
"""FUP compiler - Arithmetic operation - -I
"""
ELEM_NAME = "-I"
SUBTYPE = FupCompiler_ElemArith.SUBTYPE_SUB_I
ARITH_INSN_CLASS = AwlInsn_MI_I
class FupCompiler_ElemArithMulI(FupCompiler_ElemArith):
"""FUP compiler - Arithmetic operation - *I
"""
ELEM_NAME = "*I"
SUBTYPE = FupCompiler_ElemArith.SUBTYPE_MUL_I
ARITH_INSN_CLASS = AwlInsn_MU_I
class FupCompiler_ElemArithDivI(FupCompiler_ElemArith):
"""FUP compiler - Arithmetic operation - /I
"""
ELEM_NAME = "/I"
SUBTYPE = FupCompiler_ElemArith.SUBTYPE_DIV_I
ARITH_INSN_CLASS = AwlInsn_DI_I
HAVE_REMAINDER = True
class FupCompiler_ElemArithAddD(FupCompiler_ElemArith):
"""FUP compiler - Arithmetic operation - +D
"""
ELEM_NAME = "+D"
SUBTYPE = FupCompiler_ElemArith.SUBTYPE_ADD_D
ARITH_INSN_CLASS = AwlInsn_PL_D
class FupCompiler_ElemArithSubD(FupCompiler_ElemArith):
"""FUP compiler - Arithmetic operation - -D
"""
ELEM_NAME = "-D"
SUBTYPE = FupCompiler_ElemArith.SUBTYPE_SUB_D
ARITH_INSN_CLASS = AwlInsn_MI_D
class FupCompiler_ElemArithMulD(FupCompiler_ElemArith):
"""FUP compiler - Arithmetic operation - *D
"""
ELEM_NAME = "*D"
SUBTYPE = FupCompiler_ElemArith.SUBTYPE_MUL_D
ARITH_INSN_CLASS = AwlInsn_MU_D
class FupCompiler_ElemArithDivD(FupCompiler_ElemArith):
"""FUP compiler - Arithmetic operation - /D
"""
ELEM_NAME = "/D"
SUBTYPE = FupCompiler_ElemArith.SUBTYPE_DIV_D
ARITH_INSN_CLASS = AwlInsn_DI_D
class FupCompiler_ElemArithModD(FupCompiler_ElemArith):
"""FUP compiler - Arithmetic operation - MOD
"""
ELEM_NAME = "MOD"
SUBTYPE = FupCompiler_ElemArith.SUBTYPE_MOD_D
ARITH_INSN_CLASS = AwlInsn_MOD
class FupCompiler_ElemArithAddR(FupCompiler_ElemArith):
"""FUP compiler - Arithmetic operation - +R
"""
ELEM_NAME = "+R"
SUBTYPE = FupCompiler_ElemArith.SUBTYPE_ADD_R
ARITH_INSN_CLASS = AwlInsn_PL_R
class FupCompiler_ElemArithSubR(FupCompiler_ElemArith):
"""FUP compiler - Arithmetic operation - -R
"""
ELEM_NAME = "-R"
SUBTYPE = FupCompiler_ElemArith.SUBTYPE_SUB_R
ARITH_INSN_CLASS = AwlInsn_MI_R
class FupCompiler_ElemArithMulR(FupCompiler_ElemArith):
"""FUP compiler - Arithmetic operation - *R
"""
ELEM_NAME = "*R"
SUBTYPE = FupCompiler_ElemArith.SUBTYPE_MUL_R
ARITH_INSN_CLASS = AwlInsn_MU_R
class FupCompiler_ElemArithDivR(FupCompiler_ElemArith):
"""FUP compiler - Arithmetic operation - /R
"""
ELEM_NAME = "/R"
SUBTYPE = FupCompiler_ElemArith.SUBTYPE_DIV_R
ARITH_INSN_CLASS = AwlInsn_DI_R
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