Beispiel #1
0
def singlThruMaj(linkA, linkA_Ltype, linkB, linkB_Ltype, findLinkFromTurn,
                 thru_offsp, thru_maj_offsp, links_df, nodes_df, shortlink_df):
    toNode = links_df.at[linkA, 'toNodeID_parade']
    #first check: if any successor or predecessor link is an intersection
    #shortlink then through movement is likely signalized
    majMajThruNoIntrsction = True
    for inOut in ['predecessor', 'successor']:
        try:
            for i in nodes_df.at[toNode, inOut + 'Links'].split():
                if (int(i) != linkA and int(i) != linkB
                        and int(i) not in thru_offsp):
                    #among the links incoming and outgoing at to-node
                    if shortlink_df.iloc[int(i)].values[0] == True:
                        #if any one of them is shortlink
                        majMajThruNoIntrsction = False
                        break
        except:
            pass

    #second check: if left and right successors are bidirectional and each of
    #them are major links and through link is also a major link
    if majorLinkChecker(linkA, links_df)==majorLinkChecker(linkB, links_df)  \
                    and links_df.at[linkA, 'reverseID_parade']!=-1   \
                    and links_df.at[linkA, 'reverseID_parade']!=-1:
        for links in findLinkFromTurn[0:2]:
            for link in links:
                if majorLinkChecker(link, links_df) and    \
                    links_df.at[link, 'reverseID_parade']!=-1:
                    majMajThruNoIntrsction = False
                    break
    single_thru_major = int(linkB) in findLinkFromTurn[3] and   \
                        int(linkB) in thru_maj_offsp and   \
                        linkA_Ltype == linkB_Ltype and majMajThruNoIntrsction

    return single_thru_major
def rightTurnBayEndCond(linkID, links_df):
    try:
        offspsrings = links_df.at[linkID, 'successors'].split()
        #should hv one offsp
    except (ValueError, AttributeError):
        offsp = None
        endNodeOK = False
        endNodeLtypeChk = False
        return offsp, endNodeOK, endNodeLtypeChk
    if len(offspsrings)==1:
        offsp = int(offspsrings[0])
        thruSpouse = findThruSiblingOrSpouse(linkID, links_df, offsp, 
                                             siblingOrSpouse='spouse')
    else:
        offsp = None
        endNodeOK = False
        endNodeLtypeChk = False
        return offsp, endNodeOK, endNodeLtypeChk
    if thruSpouse != None: #thru from parent
        thruSpouseChck = True
        lastSpOrien = links_df.at[linkID, 'lastOrientation(deg)']
        offspOrien = links_df.at[offsp, 'firstOrientation(deg)']
        if 0 < sin(radians(offspOrien - lastSpOrien)) < sin(radians(90)):
            rightMergeEnd = True
        else:
            rightMergeEnd = False
        endNodeLtypeChk = majorLinkChecker(offsp, links_df) and  \
                                    majorLinkChecker(thruSpouse, links_df)
    else:
        return offsp, False, False
    try:
        endNodeOK = rightMergeEnd and thruSpouseChck
    except UnboundLocalError:
        endNodeOK = False
    return offsp, endNodeOK, endNodeLtypeChk
def rightTurnBayStartCond(linkID, links_df):
    try:
        parents = links_df.at[linkID, 'predecessors'].split() 
        #shd hv one parent
    except (ValueError, AttributeError):
        parent = None
        startNodeOK = False
        startNodeLtypeChck = False
        return  parent, startNodeOK, startNodeLtypeChck
    if len(parents)==1:
        parent = int(parents[0])
        thruSibl = findThruSiblingOrSpouse(linkID, links_df, parent)
    else:
        parent = None
        startNodeOK = False
        startNodeLtypeChck = False
        return parent, startNodeOK, startNodeLtypeChck
    if thruSibl != None: #thru from parent
        thruSiblingChck = True
        parOrien = links_df.at[parent, 'lastOrientation(deg)']
        firsOrien = links_df.at[linkID, 'firstOrientation(deg)']
        if 0 < sin(radians(firsOrien - parOrien)) < sin(radians(90)):
            rightDepartureStrt = True
        else:
            rightDepartureStrt = False
        startNodeLtypeChck = majorLinkChecker(parent, links_df) and   \
                                        majorLinkChecker(thruSibl, links_df)
    else:
        return parent, False, False
    try:
        startNodeOK = rightDepartureStrt and thruSiblingChck
                                                        
    except UnboundLocalError:
        startNodeOK = False
    return parent, startNodeOK, startNodeLtypeChck
Beispiel #4
0
def bidirecVsDividedMajLeftTurnTypeX(linkID, links_df, nodes_df):
    '''
    Typical example: linkID_parade 6046 and 24204
    One major road is represented by overlapping lines and the other major 
    road is represented by separate non-overlapping lines and has left turn
    lanes on opposite directions.     
    '''
    length = links_df.at[linkID, 'length(feet)'] <= 60
    ltype = links_df.at[linkID, 'ltype']
    major = majorLinkChecker(linkID, links_df)

    parentOrien = parentOffspringTurnBin(linkID, "predecessor", links_df)

    #check major thru parent with same ltype as current link
    if len(parentOrien[1]) == 1: thruPar = int(parentOrien[1][0])
    thruMajPar = links_df.at[thruPar, 'ltype'] == ltype

    #check major left parent and get ltype for comparing with right sibling
    if len(parentOrien[2]) == 1: leftPar = int(parentOrien[2][0])
    leftMajPar = majorLinkChecker(leftPar, links_df)
    if leftMajPar:
        leftParLtype = links_df.at[leftPar, 'ltype']

    #check if one right sibling exists and the ltype of sibling matches with
    #left parent's to check major right sibling. Right sibling is also almost
    #on the same direction of the left parent
    sib = findSiblingOrSpouseLinks(linkID, links_df, nodes_df, 'sibling')
    rightSibling = findRightSpouseOrSibling(links_df,
                                            parentOrien,
                                            sib,
                                            SiblingOrSpouse='sibling')
    rightMajSib = links_df.at[rightSibling, 'ltype'].values[0] == leftParLtype

    #Check if major through offspring exists
    offsp = parentOffspringTurnBin(linkID, "successor", links_df)
    if len(offsp[1]) == 1: thruOffsp = int(offsp[1][0])
    thruMajOffsp = links_df.at[thruOffsp, 'ltype'] == ltype

    #check opposite links meeting up from left and right at the end node
    spouse = findSiblingOrSpouseLinks(linkID, links_df, nodes_df, 'spouse')
    if len(spouse) >= 3:
        angleOrien = links_df.at[linkID, 'lastOrientation(deg)']
        turns = [[], [], [], []]
        for sp in spouse:
            spAngleOrien = links_df.at[sp, 'firstOrientation(deg)']
            turn = intersectionTurnType(angleOrien, (spAngleOrien + 180) % 360)
            turns[turn - 1].append(sp)
        leftTurnBaysMeet = len(turns[0]) == 1 and len(turns[1]) == 1
        rightSpLtype = links_df.at[turns[0], 'ltype'].values[0]
        leftSpLtype = links_df.at[turns[1], 'ltype'].values[0]
        leftTurnBaysLtype = rightSpLtype == leftSpLtype == leftParLtype
        leftTurnBays = leftTurnBaysLtype and leftTurnBaysMeet

    return (length and major and thruMajPar and rightMajSib and thruMajOffsp
            and leftTurnBays)
Beispiel #5
0
def findDividedOrUndevidedMajNodeSpouseOffsp(linkID, links_df, nodes_df):
    '''find major divided or undivided spouse, 
    offspring from the end node of 
    the current link
    '''
    toNode = links_df.at[linkID, 'toNodeID_parade']
    offsp = nodes_df.at[toNode, 'successorLinks'].split()
    offspMaj = [
        int(i) for i in offsp if majorLinkChecker(int(i), links_df) == True
    ]
    spouseEndNodeLinksAll = nodes_df.at[toNode, 'predecessorLinks'].split()
    spouseMaj = [
        int(i) for i in spouseEndNodeLinksAll
        if majorLinkChecker(int(i), links_df) == True and int(i) != linkID
    ]
    return spouseMaj, offspMaj
Beispiel #6
0
def leftTurnMajLink(leftTurnTo, links_df):
    leftTurnLn = False
    if len(leftTurnTo) >= 1:
        for leftTurnLink in leftTurnTo:
            if majorLinkChecker(leftTurnLink, links_df) == True:
                leftTurnLn = True
                break
    return leftTurnLn
Beispiel #7
0
def checkComplexIntrsectionShrtlnk(linkID, links_df, nodes_df):
    reverseID = int(links_df.at[linkID, 'reverseID_parade'])
    try:
        restrSucc = [
            int(i)
            for i in links_df.at[linkID, 'restrictedSuccessors'].split()
        ]
    except AttributeError:
        try:
            restrSucc = [int(links_df.at[linkID, 'restrictedSuccessors'])]
        except ValueError:
            restrSucc = []

    try:
        restrPred = [
            int(i)
            for i in links_df.at[linkID, 'restrictedPredecessors'].split()
        ]
    except AttributeError:
        try:
            restrPred = [int(links_df.at[linkID, 'restrictedPredecessors'])]
        except ValueError:
            restrPred = []
    try:
        offspAll = links_df.at[linkID, 'successors'].split()
        offsp = [
            int(i) for i in offspAll
            if int(i) not in restrSucc and int(i) != reverseID
        ]
    except AttributeError:
        offsp = []
    try:
        parentAll = links_df.at[linkID, 'predecessors'].split()
        parent = [
            int(i) for i in parentAll
            if int(i) not in restrPred and int(i) != reverseID
        ]
    except:
        parent = []
    lengthCond = links_df.at[linkID, "length(feet)"] <= 100
    majLinkCond = True
    if len(offsp) >= 0 and len(parent) != 0:
        for x in [offsp, parent, [linkID]]:
            for link in x:
                majLinkCond = majLinkCond and majorLinkChecker(
                    int(link), links_df)
    else:
        majLinkCond = False
    shortlink = False
    typeC = len(restrPred) >= 1 and len(parent) == 1 and len(offsp) == 2
    typeB = len(restrSucc) >= 1 and len(offsp) == 1 and len(parent) == 2
    typeA = (len(restrPred) == len(restrSucc) == 1) and (len(offsp) ==
                                                         len(parent) == 1)
    if typeA or typeB or typeC:
        shortlink = majLinkCond and lengthCond
    return shortlink
Beispiel #8
0
def findMajNodeParentSiblingSpouseOffsp(linkID, links_df, nodes_df):
    '''find major spouse, parent, sibling, offspring from the end and 
    start node of the current link
    '''
    fromNode = links_df.at[linkID, 'fromNodeID_parade']
    toNode = links_df.at[linkID, 'toNodeID_parade']
    try:
        offsp = nodes_df.at[toNode, 'successorLinks'].split()
        offspMaj = [
            int(i) for i in offsp if majorLinkChecker(int(i), links_df) == True
            and links_df.at[int(i), 'reverseID_parade'] == -1
        ]
    except:
        offspMaj = []
    try:
        spouseEndNodeLinksAll = nodes_df.at[toNode, 'predecessorLinks'].split()
        spouseMaj = [
            int(i) for i in spouseEndNodeLinksAll
            if majorLinkChecker(int(i), links_df) == True and int(i) != linkID
            and links_df.at[int(i), 'reverseID_parade'] == -1
        ]
    except:
        spouseMaj = []
    reverseLinkID = links_df.at[int(linkID), 'reverseID_parade']
    try:
        succLinks = links_df.at[linkID, 'successors'].split()
    except:
        succLinks = []

    leftTurnTo = [
        int(i) for i in succLinks
        if int(i) not in offspMaj and int(i) != reverseLinkID and
        intersectionTurnType(links_df.at[linkID, 'lastOrientation(deg)'],
                             links_df.at[int(i), 'lastOrientation(deg)']) != 1
    ]
    try:
        parentStrtNodeLinksAll = nodes_df.at[fromNode,
                                             'predecessorLinks'].split()
        parentMajMin = [
            int(i) for i in parentStrtNodeLinksAll
            if links_df.at[int(i), 'reverseID_parade'] == -1
        ]
        parentMaj = [
            i for i in parentMajMin if majorLinkChecker(i, links_df) == True
        ]
    except:
        parentMajMin = []
        parentMaj = []
    try:
        siblingEndNodeLinksAll = nodes_df.at[fromNode,
                                             'successorLinks'].split()
        siblingMaj = [
            int(i) for i in siblingEndNodeLinksAll
            if majorLinkChecker(int(i), links_df) == True and int(i) != linkID
            and links_df.at[int(i), 'reverseID_parade'] == -1
        ]
    except:
        siblingMaj = []
    if len(siblingMaj) == 0 and len(parentMajMin) == 1:
        singleParent = parentMajMin
    else:
        singleParent = []
    return spouseMaj, parentMaj, offspMaj, siblingMaj, leftTurnTo, singleParent
Beispiel #9
0
def oppositeLink(findLinkFromTurn, links_df, shortlink_df):
    for link in findLinkFromTurn[2]:  #u-turn link from linkA
        majorlinkChk = majorLinkChecker(int(link), links_df)
        if majorlinkChk:
            linkID_LType = links_df.at[int(link), 'ltype']
            return upstreamLink(link, linkID_LType, links_df, shortlink_df)
Beispiel #10
0
def findConflictingLinks(linkA, links_df, nodes_df, shortlink_df):
    """
    determines
     
        1.1 the maneuver link pairs
        1.2 turn type
        1.3 conflicting links
        1.4 ltype of the conflicting links
        1.5 constant delays, if that applies for that maneuver
        2.  node subpath of the maneuver
        3.  link subpath of the maneuver
        
    Excludes these from being identified as valid maneuvers because these do not have any maneuver delay: 
        
        1. maneuver from one ramp link to the next ramp link
        2. movement along curvy freeways links 
        3. single_thru_major
        4. special case: major link to a left turn lane (detected as left turn link in previous step) 
     
    Assumes, linkA to be a non-intersection-shortlink.
    So check for this condition before calling this function
    
    **args**
    --------
        linkA: *int*
            linkID
        links_df: *pandas.DataFrame*
            Original link_wkt file converted to an DataFrame
        nodes_df: *pandas.DataFrame*
            Original node_wkt file converted to an DataFrame 
        shortlink_df*pandas.DataFrame*
            Dataframe of the appended WKT file from step#1, using main_intersection_shortlink_filter()
        
    **returns**
        turn_pairs:*list of list*
            in each list element it holds the information about the maneuvers, 1.1~1.5
            format:
                [[fromLink,toLink, turnType, fromLinkLtype,toLinkLtype, conflicting link1,conflicting link2, constant],
                ..., [..]]
        link_subpath_dict:*dict*
            sequence of nodes in the subpaths
            format:
                {fistNode_of_fromLink: {toLink1: [fistNode_of_fromLink, nodeP, nodeQ, ..., toNode_of_toLink1], 
                                        toLink2: [fistNode_of_fromLink, nodeM, nodeN, ..., toNode_of_toLink2],
                                        ...}}
        node_subpath_dict:*dict*
            sequence of nodes in the subpaths
            format:        
                {fromLink: {toLink1: [fromLink, linkP, linkQ,...,toLink], 
                            toLink2: [fromLink, linkM, linkN,...,toLink2],
                            ...}}
    """
    returned_tuple = linkPairBWithTurnTypeNodeLinkSeq(linkA, links_df,
                                                      nodes_df, shortlink_df)
    pairB, findLinkFromTurn, findTurnForLink = returned_tuple[:3]
    node_subpath_dict, link_subpath_dict = returned_tuple[4:6]
    linkA_Ltype = links_df.at[int(linkA), 'ltype']
    offsp = parentOffspringTurnBin(linkA, 'successor', links_df)
    thru_offsp = offsp[1]
    thru_maj_offsp = [
        i for i in thru_offsp if majorLinkChecker(linkA, links_df) == True
    ]
    turn_pairs = []
    for linkB in pairB:
        linkB_Ltype = links_df.at[int(linkB), 'ltype']
        TurnBetnMinorsNotAcrossMajor = checkMinorToMinorAcrossMajor(
            linkA_Ltype, linkB_Ltype, linkA, linkB, links_df, nodes_df)
        turnBetnRamps = (linkA_Ltype == linkB_Ltype == 3)
        moveBetnFreeways = (linkA_Ltype == linkB_Ltype == 1)
        single_thru_major = singlThruMaj(linkA, linkA_Ltype, linkB,
                                         linkB_Ltype, findLinkFromTurn,
                                         thru_offsp, thru_maj_offsp, links_df,
                                         nodes_df, shortlink_df)
        if not (turnBetnRamps or moveBetnFreeways or single_thru_major):
            confLinkX, confLinkY, const = confLinkPair(
                linkA, linkA_Ltype, int(linkB), linkB_Ltype, findLinkFromTurn,
                findTurnForLink, TurnBetnMinorsNotAcrossMajor, links_df,
                shortlink_df)
            turn_pairs.append([int(linkA), int(linkB), findTurnForLink[int(linkB)],  \
                            linkA_Ltype, linkB_Ltype,  \
                            confLinkX, confLinkY, const])
        else:
            del node_subpath_dict[node_subpath_dict.keys()[0]][linkB]
            del link_subpath_dict[link_subpath_dict.keys()[0]][linkB]

    return (turn_pairs, node_subpath_dict, link_subpath_dict)