protected override void SolveInstance(Grasshopper.Kernel.IGH_DataAccess DA)
{
init();
_listSrf = new List<Surface>();
_listCrv = new List<Curve>();
listPnt = new List<Point3d>();
List<string> crvTypes = new List<string>();
List<string> pntHeights = new List<string>();
if (!DA.GetDataList(0, _listSrf)) { return; }
if (!DA.GetDataList(1, _listCrv)) { return; }
if (!DA.GetDataList(2, crvTypes)) { return; }
if (!DA.GetDataList(3, listPnt)) { listPnt.Clear(); }
if (!DA.GetData(4, ref globalC)) { return; }
if (_listCrv.Count != crvTypes.Count) { AddRuntimeMessage(Grasshopper.Kernel.GH_RuntimeMessageLevel.Error, "need types for curves"); return; }
listSlice = new Dictionary<string, slice>();
listSlice2 = new Dictionary<string, slice2>();
listRange = new Dictionary<string, range>();
listRangeOpen = new Dictionary<string, range>();
listRangeLeaf = new Dictionary<string, range>();
listLeaf = new List<leaf>();
listBranch = new List<branch>();
listNode=new List<node>();
myControlBox.clearSliders();
for (int i = 0; i < _listCrv.Count; i++)
{
var branch = new branch();
branch.crv = _listCrv[i] as NurbsCurve;
branch.N = branch.crv.Points.Count;
branch.dom = branch.crv.Domain;
branch.Dim= branch.crv.Order;
branch.dDim = branch.crv.Order - 1;
branch.nElem = branch.N - branch.dDim;
branch.scaleT = (branch.dom.T1 - branch.dom.T0) / branch.nElem;
branch.originT = branch.dom.T0;
if(crvTypes[i].StartsWith("reinforce"))
{
branch.branchType = branch.type.reinforce;
var key=crvTypes[i].Replace("reinforce","");
branch.sliceKey=key;
try{
branch.slice=listSlice[key];
branch.slice.sliceType = slice.type.fr;
branch.slice.lB.Add(branch);
}
catch (KeyNotFoundException e){
listSlice[key]=new slice();
branch.slice=listSlice[key];
branch.slice.sliceType=slice.type.fr;
branch.slice.lB.Add(branch);
}
}
else if(crvTypes[i].StartsWith("kink"))
{
branch.branchType = branch.type.kink;
var key = crvTypes[i].Replace("kink", "");
if (key == "") key = "kink"; else key = "kink:" + key;
branch.sliceKey = key;
try
{
branch.range = listRange[key];
branch.range.rangeType = range.type.lo;
branch.range.lb = 0;
branch.range.ub = 0;
branch.range.lB.Add(branch);
}
catch (KeyNotFoundException)
{
listRange[key] = new range();
branch.range = listRange[key];
branch.range.rangeType = range.type.lo;
branch.range.lb = 0;
branch.range.ub = 0;
branch.range.lB.Add(branch);
var adjuster = myControlBox.addRangeSetter(key, (th,sw, lb, ub) =>
{
if (listRange[key].firstPathDone)
{
th.setMeasured(listRange[key].lastMin,listRange[key].lastMax);
}
foreach (var _branch in listRange[key].lB)
{
if (sw == 0)
{
_branch.range.rangeType = range.type.lo;
_branch.range.lb = lb;
_branch.range.ub = 0d;
}
if (sw == 2)
{
_branch.range.rangeType = range.type.ra;
_branch.range.lb = lb;
_branch.range.ub = ub;
}
}
}
);
}
}else if(crvTypes[i].StartsWith("open"))
{
branch.branchType = branch.type.open;
var key = crvTypes[i].Replace("open", "");
if (key == "") key = "open"; else key = "open:" + key;
branch.sliceKey = key;
try
{
branch.slice = listSlice[key];
branch.slice.sliceType = slice.type.fr;
branch.slice.lB.Add(branch);
}
catch (KeyNotFoundException e)
{
listSlice[key] = new slice();
branch.slice = listSlice[key];
branch.slice.sliceType = slice.type.fr;
branch.slice.lB.Add(branch);
}
try
{
branch.range = listRangeOpen[key];
branch.range.rangeType = range.type.lo;
branch.range.lb = 0;
branch.range.ub = 0;
branch.range.lB.Add(branch);
}
catch (KeyNotFoundException)
{
listRangeOpen[key] = new range();
branch.range = listRangeOpen[key];
branch.range.rangeType = range.type.lo;
branch.range.lb = 0;
branch.range.ub = 0;
branch.range.lB.Add(branch);
var adjuster = myControlBox.addRangeSetter(key, (th,sw, lb, ub) =>
{
if (listRangeOpen[key].firstPathDone)
{
th.setMeasured(listRangeOpen[key].lastMin,listRangeOpen[key].lastMax);
}
foreach (var _branch in listRangeOpen[key].lB)
{
if (sw == 0)
{
_branch.range.rangeType = range.type.lo;
_branch.range.lb = lb;
_branch.range.ub = 0d;
}
if (sw == 2)
{
_branch.range.rangeType = range.type.ra;
_branch.range.lb = lb;
_branch.range.ub = ub;
}
}
}
);
}
}
else if (crvTypes[i].StartsWith("fix"))
{
branch.branchType = branch.type.fix;
var key = crvTypes[i].Replace("fix", "");
branch.sliceKey = key;
try
{
branch.slice2 = listSlice2[key];
}
catch (KeyNotFoundException e)
{
listSlice2[key] = new slice2();
branch.slice2 = listSlice2[key];
var slider = myControlBox.addSliderVert(0, 1, 200, 100);
slider.Converter = (val) =>
{
double height = val / 10d - 10d;
branch.slice2.height = height;
this.ExpirePreview(true);
return height;
};
}
}else{
AddRuntimeMessage(Grasshopper.Kernel.GH_RuntimeMessageLevel.Error, "type should be either of reinforce, kink, fix, or open");
}
listBranch.Add(branch);
}
for(int i=0;i<_listSrf.Count;i++)
{
var srf = _listSrf[i];
var leaf=new leaf();
listLeaf.Add(leaf);
leaf.srf = srf as NurbsSurface;
leaf.nU = leaf.srf.Points.CountU;
leaf.nV = leaf.srf.Points.CountV;
leaf.domU = leaf.srf.Domain(0);
leaf.domV = leaf.srf.Domain(1);
leaf.uDim = leaf.srf.OrderU;
leaf.vDim = leaf.srf.OrderV;
leaf.uDdim = leaf.srf.OrderU - 1;
leaf.vDdim = leaf.srf.OrderV - 1;
leaf.nUelem = leaf.nU - leaf.uDdim;
leaf.nVelem = leaf.nV - leaf.vDdim;
leaf.scaleU = (leaf.domU.T1 - leaf.domU.T0) / leaf.nUelem;
leaf.scaleV = (leaf.domV.T1 - leaf.domV.T0) / leaf.nVelem;
leaf.originU = leaf.domU.T0;
leaf.originV = leaf.domV.T0;
var domainU = leaf.srf.Domain(0);
var domainV = leaf.srf.Domain(1);
//Find corresponding curve
//(0,0)->(1,0)
var curve = leaf.srf.IsoCurve(0, domainV.T0) as NurbsCurve;
leaf.flip[0] = findCurve(leaf,ref leaf.branch[0], listBranch, curve);//bottom
//(1,0)->(1,1)
curve = leaf.srf.IsoCurve(1, domainU.T1) as NurbsCurve;
leaf.flip[1] = findCurve(leaf, ref leaf.branch[1], listBranch, curve);//right
//(1,1)->(0,1)
curve = leaf.srf.IsoCurve(0, domainV.T1) as NurbsCurve;
leaf.flip[2] = findCurve(leaf, ref leaf.branch[2], listBranch, curve);//top
//(0,1)->(0,0)
curve = leaf.srf.IsoCurve(1, domainU.T0) as NurbsCurve;
leaf.flip[3] = findCurve(leaf, ref leaf.branch[3], listBranch, curve);//left
var key = "leaf";
try
{
leaf.range = listRangeLeaf[key];
leaf.range.rangeType = range.type.lo;
leaf.range.lb = 0;
leaf.range.ub = 0;
leaf.range.lL.Add(leaf);
}
catch (KeyNotFoundException)
{
listRangeLeaf[key] = new range();
leaf.range = listRangeLeaf[key];
leaf.range.rangeType = range.type.lo;
leaf.range.lb = 0;
leaf.range.ub = 0;
leaf.range.lL.Add(leaf);
var adjuster = myControlBox.addRangeSetter(key, (th, sw, lb, ub) =>
{
if (listRangeLeaf[key].firstPathDone)
{
th.setMeasured(listRangeLeaf[key].lastMin, listRangeLeaf[key].lastMax);
}
foreach (var _leaf in listRangeLeaf[key].lL)
{
if (sw == 0)
{
_leaf.range.rangeType = range.type.lo;
_leaf.range.lb = lb;
_leaf.range.ub = 0d;
}
if (sw == 2)
{
_leaf.range.rangeType = range.type.ra;
_leaf.range.lb = lb;
_leaf.range.ub = ub;
}
}
}
);
}
}
// Connect nodes
foreach (var leaf in listLeaf)
{
leaf.globalIndex = new int[leaf.srf.Points.CountU * leaf.srf.Points.CountV];
for (int j = 0; j < leaf.srf.Points.CountV; j++)
{
for (int i = 0; i < leaf.srf.Points.CountU; i++)
{
var P = leaf.srf.Points.GetControlPoint(i, j).Location;
bool flag = false;
foreach (var node in listNode)
{
if (node.compare(P))
{
flag = true;
node.N++;
node.shareL.Add(leaf);
node.numberL.Add(i + j * leaf.nU);
leaf.globalIndex[i + j * leaf.nU] = listNode.IndexOf(node);
break;
}
}
if (!flag)
{
var newNode = new node();
listNode.Add(newNode);
newNode.N = 1;
newNode.x = P.X;
newNode.y = P.Y;
newNode.z = P.Z;
newNode.shareL.Add(leaf);
newNode.numberL.Add(i + j * leaf.nU);
leaf.globalIndex[i + j * leaf.nU] = listNode.IndexOf(newNode);
}
}
}
}
foreach (var branch in listBranch)
{
branch.globalIndex = new int[branch.crv.Points.Count];
for (int i = 0; i < branch.crv.Points.Count; i++)
{
var P = branch.crv.Points[i].Location;
bool flag = false;
foreach (var node in listNode)
{
if (node.compare(P))
{
flag = true;
node.N++;
node.shareB.Add(branch);
node.numberB.Add(i);
if (branch.branchType == branch.type.fix)
{
node.nodeType = node.type.fx;
}
branch.globalIndex[i] = listNode.IndexOf(node);
break;
}
}
if (!flag)
{
var newNode = new node();
listNode.Add(newNode);
newNode.N = 1;
newNode.shareB.Add(branch);
newNode.numberB.Add(i);
newNode.x = P.X;
newNode.y = P.Y;
newNode.z = P.Z;
if (branch.branchType == branch.type.fix)
{
newNode.nodeType = node.type.fx;
}
branch.globalIndex[i] = listNode.IndexOf(newNode);
}
}
}
//multiqudric surface
var A=new Rhino.Geometry.Matrix(listPnt.Count,listPnt.Count);
var z=new Rhino.Geometry.Matrix(listPnt.Count,1);
for(int i=0;i<listPnt.Count;i++)
{
for(int j=0;j<listPnt.Count;j++)
{
var pi=listPnt[i];
var pj=listPnt[j];
A[i,j]=quadFunc(pi.X,pj.X,pi.Y,pj.Y);
z[i,0]=pi.Z;
}
}
A.Invert(0.0); //this parameter should be 0.0
var c=A*z;
globalCoeff=new double[listPnt.Count];
for(int i=0;i<listPnt.Count;i++)
{
globalCoeff[i]=c[i,0];
}
targetSrf=new List<Point3d>();
globalFunc=(xi,yi)=>{
double Z=0;
for(int j=0;j<listPnt.Count;j++)
{
Z=Z+globalCoeff[j]*quadFunc(xi,listPnt[j].X,yi,listPnt[j].Y);
}
return Z;
};
foreach (var leaf in listLeaf)
{
var domU = leaf.domU;
var domV = leaf.domV;
for (double i = 0; i <= 1.0; i += 0.05)
{
for (double j = 0; j < 1.0; j += 0.05)
{
double u = domU[0] + i * (domU[1] - domU[0]);
double v = domV[0] + j * (domV[1] - domV[0]);
Rhino.Geometry.Point3d P;
Rhino.Geometry.Vector3d[] V;
leaf.srf.Evaluate(u, v, 0, out P, out V);
var newP = new Rhino.Geometry.Point3d(P.X, P.Y, globalFunc(P.X, P.Y));
targetSrf.Add(newP);
}
}
}
}
public (long, error) Read(slice <byte> p) => s_ReadByRef?.Invoke(ref this, p) ?? s_ReadByVal?.Invoke(this, p) ?? Reader?.Read(p) ?? throw new PanicException(RuntimeErrorPanic.NilPointerDereference);
public lcaRange(slice <lcaRangeBlock> blocks = default, slice <slice <ID> > rangeMin = default)
{
this.blocks = blocks;
this.rangeMin = rangeMin;
}
public StartElement(Name Name = default, slice <Attr> Attr = default)
{
this.Name = Name;
this.Attr = Attr;
}
private delegate(long, error) ReadByVal(T value, slice <byte> p);
public VarsByOffset(slice <ptr <Var> > value) => m_value = value;
public deadcodePass(ref ptr <Link> ctxt = default, ref ptr <loader.Loader> ldr = default, workQueue wq = default, map <methodsig, bool> ifaceMethod = default, slice <methodref> markableMethods = default, bool reflectSeen = default)
{
this.ctxt = ctxt;
this.ldr = ldr;
this.wq = wq;
this.ifaceMethod = ifaceMethod;
this.markableMethods = markableMethods;
this.reflectSeen = reflectSeen;
}
// MutatorUtilization returns a set of mutator utilization functions
// for the given trace. Each function will always end with 0
// utilization. The bounds of each function are implicit in the first
// and last event; outside of these bounds each function is undefined.
//
// If the UtilPerProc flag is not given, this always returns a single
// utilization function. Otherwise, it returns one function per P.
public static slice<slice<MutatorUtil>> MutatorUtilization(slice<ptr<Event>> events, UtilFlags flags)
{
if (len(events) == 0L)
{
return null;
}
private static uint archUpdateCastagnoli(uint crc, slice <byte> p) => func((_, panic, __) =>
{
panic("not available");
});
public Location(ulong ID = default, ref ptr <Mapping> Mapping = default, ulong Address = default, slice <Line> Line = default, bool IsFolded = default, ulong mappingIDX = default)
{
this.ID = ID;
this.Mapping = Mapping;
this.Address = Address;
this.Line = Line;
this.IsFolded = IsFolded;
this.mappingIDX = mappingIDX;
}
public serverHandshakeState(ref ptr <Conn> c = default, ref ptr <clientHelloMsg> clientHello = default, ref ptr <serverHelloMsg> hello = default, ref ptr <cipherSuite> suite = default, bool ecdheOk = default, bool ecSignOk = default, bool rsaDecryptOk = default, bool rsaSignOk = default, ref ptr <sessionState> sessionState = default, finishedHash finishedHash = default, slice <byte> masterSecret = default, ref ptr <Certificate> cert = default)
{
this.c = c;
this.clientHello = clientHello;
this.hello = hello;
this.suite = suite;
this.ecdheOk = ecdheOk;
this.ecSignOk = ecSignOk;
this.rsaDecryptOk = rsaDecryptOk;
this.rsaSignOk = rsaSignOk;
this.sessionState = sessionState;
this.finishedHash = finishedHash;
this.masterSecret = masterSecret;
this.cert = cert;
}
public Comments(slice <Comment> Before = default, slice <Comment> Suffix = default, slice <Comment> After = default)
{
this.Before = Before;
this.Suffix = Suffix;
this.After = After;
}
// ToUnified takes a file contents and a sequence of edits, and calculates
// a unified diff that represents those edits.
public static Unified ToUnified(@string from, @string to, @string content, slice <TextEdit> edits)
{
Unified u = new Unified(From: from, To: to, );
if (len(edits) == 0L)
{
return(u);
}
var(c, edits, partial) = prepareEdits(content, edits);
if (partial)
{
edits = lineEdits(content, c, edits);
}
var lines = splitLines(content);
ptr <Hunk> h;
long last = 0L;
long toLine = 0L;
foreach (var(_, edit) in edits)
{
var start = edit.Span.Start().Line() - 1L;
var end = edit.Span.End().Line() - 1L;
if (h != null && start == last)
{
else if (h != null && start <= last + gap)
{
//within range of previous lines, add the joiners
addEqualLines(h, lines, last, start);
}
else
//need to start a new hunk
if (h != null)
{
// add the edge to the previous hunk
addEqualLines(h, lines, last, last + edge);
u.Hunks = append(u.Hunks, h);
}
}
toLine += start - last;
h = addr(new Hunk(FromLine: start + 1, ToLine: toLine + 1, ));
// add the edge to the new hunk
var delta = addEqualLines(h, lines, start - edge, start);
h.FromLine -= delta;
h.ToLine -= delta;
last = start;
for (var i = start; i < end; i++)
{
h.Lines = append(h.Lines, new Line(Kind: Delete, Content: lines[i]));
last++;
}
if (edit.NewText != "")
{
foreach (var(_, line) in splitLines(edit.NewText))
{
h.Lines = append(h.Lines, new Line(Kind: Insert, Content: line));
toLine++;
}
}
}
public InterfaceAddrMessage(long Version = default, long Type = default, long Flags = default, long Index = default, slice <Addr> Addrs = default, slice <byte> raw = default)
{
this.Version = Version;
this.Type = Type;
this.Flags = Flags;
this.Index = Index;
this.Addrs = Addrs;
this.raw = raw;
}
internal Subscript(IndexExpression expr, expr_context ctx)
: this()
{
_value = Convert(expr.Target);
_ctx = ctx;
_slice = TrySliceConvert(expr.Index);
if (_slice == null)
_slice = new Index(Convert(expr.Index));
}
{ // for linkname
//go:linkname sysctl syscall.sysctl
private static error sysctl(slice <int> mib, ptr <byte> old, ptr <System.UIntPtr> oldlen, ptr <byte> @new, System.UIntPtr newlen)
;
public Progs(ref ptr <obj.Prog> Text = default, ref ptr <obj.Prog> next = default, long pc = default, src.XPos pos = default, ref ptr <Node> curfn = default, slice <obj.Prog> progcache = default, long cacheidx = default)
{
this.Text = Text;
this.next = next;
this.pc = pc;
this.pos = pos;
this.curfn = curfn;
this.progcache = progcache;
this.cacheidx = cacheidx;
}
public compilationUnitByStartPC(slice <ptr <sym.CompilationUnit> > value) => m_value = value;
public Exporter(sync.Mutex mu = default, slice <metric.Data> metrics = default)
{
this.mu = mu;
this.metrics = metrics;
}
//go:noescape public static long IndexByte(slice <byte> b, byte c) ;
public LinkAddr(long Index = default, @string Name = default, slice <byte> Addr = default)
{
this.Index = Index;
this.Name = Name;
this.Addr = Addr;
}
public Pass(ref ptr <Analyzer> Analyzer = default, ref ptr <token.FileSet> Fset = default, slice <ptr <ast.File> > Files = default, slice <@string> OtherFiles = default, ref ptr <types.Package> Pkg = default, ref ptr <types.Info> TypesInfo = default, types.Sizes TypesSizes = default, Action <Diagnostic> Report = default, Func <types.Object, Fact, bool> ImportObjectFact = default, Func <ptr <types.Package>, Fact, bool> ImportPackageFact = default, Action <types.Object, Fact> ExportObjectFact = default, Action <Fact> ExportPackageFact = default, Func <slice <PackageFact> > AllPackageFacts = default, Func <slice <ObjectFact> > AllObjectFacts = default, slice <types.Error> typeErrors = default)
{
this.Analyzer = Analyzer;
this.Fset = Fset;
this.Files = Files;
this.OtherFiles = OtherFiles;
this.Pkg = Pkg;
this.TypesInfo = TypesInfo;
this.TypesSizes = TypesSizes;
this.Report = Report;
this.ImportObjectFact = ImportObjectFact;
this.ImportPackageFact = ImportPackageFact;
this.ExportObjectFact = ExportObjectFact;
this.ExportPackageFact = ExportPackageFact;
this.AllPackageFacts = AllPackageFacts;
this.AllObjectFacts = AllObjectFacts;
this.typeErrors = typeErrors;
}
public DeclStmt(slice <Decl> DeclList = default, stmt stmt = default)
{
this.DeclList = DeclList;
this.m_stmtRef = new ptr <stmt>(stmt);
}
public reader(bitReader br = default, uint fileCRC = default, uint blockCRC = default, uint wantBlockCRC = default, bool setupDone = default, long blockSize = default, bool eof = default, array <ulong> c = default, slice <uint> tt = default, uint tPos = default, slice <uint> preRLE = default, long preRLEUsed = default, long lastByte = default, ulong byteRepeats = default, ulong repeats = default)
{
this.br = br;
this.fileCRC = fileCRC;
this.blockCRC = blockCRC;
this.wantBlockCRC = wantBlockCRC;
this.setupDone = setupDone;
this.blockSize = blockSize;
this.eof = eof;
this.c = c;
this.tt = tt;
this.tPos = tPos;
this.preRLE = preRLE;
this.preRLEUsed = preRLEUsed;
this.lastByte = lastByte;
this.byteRepeats = byteRepeats;
this.repeats = repeats;
}
private delegate(long, error) ReadByRef(ref T value, slice <byte> p);
public x25519Parameters(slice <byte> privateKey = default, slice <byte> publicKey = default)
{
this.privateKey = privateKey;
this.publicKey = publicKey;
}
public peBaseRelocBlock(slice <peBaseRelocEntry> entries = default)
{
this.entries = entries;
}
public cbc(Block b = default, long blockSize = default, slice <byte> iv = default, slice <byte> tmp = default)
{
this.b = b;
this.blockSize = blockSize;
this.iv = iv;
this.tmp = tmp;
}
public stackProfile(slice <slice <System.UIntPtr> > value) => m_value = value;
private static void rangeMutex()
{
sync.Mutex mu = default;
long i = default;
slice <sync.Mutex> s = default;
foreach (var(__i) in s)
{
i = __i;
}
foreach (var(__i) in s)
{
i = __i;
}
{
long i__prev1 = i;
foreach (var(__i) in s)
{
i = __i;
}
i = i__prev1;
}
foreach (var(__i, _) in s)
{
i = __i;
}
{
long i__prev1 = i;
foreach (var(__i, _) in s)
{
i = __i;
}
i = i__prev1;
}
foreach (var(_, __mu) in s)
{
mu = __mu; // want "range var mu copies lock: sync.Mutex"
}
{
var m__prev1 = m;
foreach (var(_, __m) in s)
{
m = __m; // want "range var m copies lock: sync.Mutex"
}
m = m__prev1;
}
foreach (var(__i, __mu) in s)
{
i = __i;
mu = __mu; // want "range var mu copies lock: sync.Mutex"
}
{
long i__prev1 = i;
var m__prev1 = m;
foreach (var(__i, __m) in s)
{
i = __i;
m = __m; // want "range var m copies lock: sync.Mutex"
}
i = i__prev1;
m = m__prev1;
}
array <sync.Mutex> a = new array <sync.Mutex>(3L);
{
var m__prev1 = m;
foreach (var(_, __m) in a)
{
m = __m; // want "range var m copies lock: sync.Mutex"
}
m = m__prev1;
}
map <sync.Mutex, sync.Mutex> m = default;
{
var k__prev1 = k;
foreach (var(__k) in m)
{
k = __k; // want "range var k copies lock: sync.Mutex"
}
k = k__prev1;
}
foreach (var(__mu, _) in m)
{
mu = __mu; // want "range var mu copies lock: sync.Mutex"
}
{
var k__prev1 = k;
foreach (var(__k, _) in m)
{
k = __k; // want "range var k copies lock: sync.Mutex"
}
k = k__prev1;
}
foreach (var(_, __mu) in m)
{
mu = __mu; // want "range var mu copies lock: sync.Mutex"
}
{
var v__prev1 = v;
foreach (var(_, __v) in m)
{
v = __v; // want "range var v copies lock: sync.Mutex"
}
v = v__prev1;
}
channel <sync.Mutex> c = default;
foreach (var(__mu) in c)
{
mu = __mu;
}
foreach (var(__mu) in c)
{
mu = __mu; // want "range var mu copies lock: sync.Mutex"
}
{
var v__prev1 = v;
foreach (var(__v) in c)
{
v = __v; // want "range var v copies lock: sync.Mutex"
}
v = v__prev1;
}
var t = default;
foreach (var(__t.i, __t.mu) in s)
{
t.i = __t.i;
t.mu = __t.mu; // want "range var t.mu copies lock: sync.Mutex"
}
}
public Subscript( expr value, slice slice, expr_context ctx,
[Optional]int? lineno, [Optional]int? col_offset )
: this()
{
_value = value;
_slice = slice;
_ctx = ctx;
_lineno = lineno;
_col_offset = col_offset;
}
public TXTResource(slice <@string> TXT = default)
{
this.TXT = TXT;
}
internal Subscript(IndexExpression expr, expr_context ctx)
: this() {
_value = Convert(expr.Target);
AST index = Convert(expr.Index);
if (index is expr)
if (index is Tuple && ((TupleExpression)expr.Index).IsExpandable)
_slice = new ExtSlice(((Tuple)index).elts);
else
_slice = new Index((expr)index);
else if (index is slice) // includes Ellipsis
_slice = (slice)index;
else
throw new ArgumentTypeException("Unexpected index expression: " + expr.Index.GetType());
_ctx = ctx;
}
public jsonPackage(@string ImportPath = default, @string Dir = default, @string Name = default, @string Export = default, slice <@string> GoFiles = default, slice <@string> CompiledGoFiles = default, slice <@string> CFiles = default, slice <@string> CgoFiles = default, slice <@string> CXXFiles = default, slice <@string> MFiles = default, slice <@string> HFiles = default, slice <@string> FFiles = default, slice <@string> SFiles = default, slice <@string> SwigFiles = default, slice <@string> SwigCXXFiles = default, slice <@string> SysoFiles = default, slice <@string> Imports = default, map <@string, @string> ImportMap = default, slice <@string> Deps = default, ref ptr <Module> Module = default, slice <@string> TestGoFiles = default, slice <@string> TestImports = default, slice <@string> XTestGoFiles = default, slice <@string> XTestImports = default, @string ForTest = default, bool DepOnly = default, ref ptr <jsonPackageError> Error = default)
{
this.ImportPath = ImportPath;
this.Dir = Dir;
this.Name = Name;
this.Export = Export;
this.GoFiles = GoFiles;
this.CompiledGoFiles = CompiledGoFiles;
this.CFiles = CFiles;
this.CgoFiles = CgoFiles;
this.CXXFiles = CXXFiles;
this.MFiles = MFiles;
this.HFiles = HFiles;
this.FFiles = FFiles;
this.SFiles = SFiles;
this.SwigFiles = SwigFiles;
this.SwigCXXFiles = SwigCXXFiles;
this.SysoFiles = SysoFiles;
this.Imports = Imports;
this.ImportMap = ImportMap;
this.Deps = Deps;
this.Module = Module;
this.TestGoFiles = TestGoFiles;
this.TestImports = TestImports;
this.XTestGoFiles = XTestGoFiles;
this.XTestImports = XTestImports;
this.ForTest = ForTest;
this.DepOnly = DepOnly;
this.Error = Error;
}