public CursorSequence(SpriteLoader loader, string cursorSrc, string palette, MiniYaml info) { sprites = loader.LoadAllSprites(cursorSrc); var d = info.NodesDict; start = Exts.ParseIntegerInvariant(d["start"].Value); this.palette = palette; if ((d.ContainsKey("length") && d["length"].Value == "*") || (d.ContainsKey("end") && d["end"].Value == "*")) { length = sprites.Length - start; } else if (d.ContainsKey("length")) { length = Exts.ParseIntegerInvariant(d["length"].Value); } else if (d.ContainsKey("end")) { length = Exts.ParseIntegerInvariant(d["end"].Value) - start; } else { length = 1; } if (d.ContainsKey("x")) { Exts.TryParseIntegerInvariant(d["x"].Value, out Hotspot.X); } if (d.ContainsKey("y")) { Exts.TryParseIntegerInvariant(d["y"].Value, out Hotspot.Y); } }
public CursorSequence(SpriteLoader loader, string cursorSrc, string palette, MiniYaml info) { sprites = loader.LoadAllSprites(cursorSrc); var d = info.NodesDict; start = Exts.ParseIntegerInvariant(d["start"].Value); this.palette = palette; if ((d.ContainsKey("length") && d["length"].Value == "*") || (d.ContainsKey("end") && d["end"].Value == "*")) length = sprites.Length - start; else if (d.ContainsKey("length")) length = Exts.ParseIntegerInvariant(d["length"].Value); else if (d.ContainsKey("end")) length = Exts.ParseIntegerInvariant(d["end"].Value) - start; else length = 1; if (d.ContainsKey("x")) Exts.TryParseIntegerInvariant(d["x"].Value, out Hotspot.X); if (d.ContainsKey("y")) Exts.TryParseIntegerInvariant(d["y"].Value, out Hotspot.Y); }
public Sequence(SpriteLoader loader, string unit, string name, MiniYaml info) { var srcOverride = info.Value; Name = name; var d = info.ToDictionary(); var offset = float2.Zero; var blendMode = BlendMode.Alpha; try { if (d.ContainsKey("Start")) Start = Exts.ParseIntegerInvariant(d["Start"].Value); if (d.ContainsKey("Offset")) offset = FieldLoader.GetValue<float2>("Offset", d["Offset"].Value); if (d.ContainsKey("BlendMode")) blendMode = FieldLoader.GetValue<BlendMode>("BlendMode", d["BlendMode"].Value); // Apply offset to each sprite in the sequence // Different sequences may apply different offsets to the same frame sprites = loader.LoadAllSprites(srcOverride ?? unit).Select( s => new Sprite(s.sheet, s.bounds, s.offset + offset, s.channel, blendMode)).ToArray(); if (!d.ContainsKey("Length")) Length = 1; else if (d["Length"].Value == "*") Length = sprites.Length - Start; else Length = Exts.ParseIntegerInvariant(d["Length"].Value); if (d.ContainsKey("Stride")) Stride = Exts.ParseIntegerInvariant(d["Stride"].Value); else Stride = Length; if (d.ContainsKey("Facings")) { var f = Exts.ParseIntegerInvariant(d["Facings"].Value); Facings = Math.Abs(f); reverseFacings = f < 0; } else Facings = 1; if (d.ContainsKey("Tick")) Tick = Exts.ParseIntegerInvariant(d["Tick"].Value); else Tick = 40; if (d.ContainsKey("Transpose")) transpose = bool.Parse(d["Transpose"].Value); if (d.ContainsKey("Frames")) Frames = Array.ConvertAll<string, int>(d["Frames"].Value.Split(','), Exts.ParseIntegerInvariant); if (d.ContainsKey("ShadowStart")) ShadowStart = Exts.ParseIntegerInvariant(d["ShadowStart"].Value); else ShadowStart = -1; if (d.ContainsKey("ShadowZOffset")) { WRange r; if (WRange.TryParse(d["ShadowZOffset"].Value, out r)) ShadowZOffset = r.Range; } else ShadowZOffset = -5; if (d.ContainsKey("ZOffset")) { WRange r; if (WRange.TryParse(d["ZOffset"].Value, out r)) ZOffset = r.Range; } if (Length > Stride) throw new InvalidOperationException( "{0}: Sequence {1}.{2}: Length must be <= stride" .F(info.Nodes[0].Location, unit, name)); if (Start < 0 || Start + Facings * Stride > sprites.Length || ShadowStart + Facings * Stride > sprites.Length) throw new InvalidOperationException( "{6}: Sequence {0}.{1} uses frames [{2}..{3}] of SHP `{4}`, but only 0..{5} actually exist" .F(unit, name, Start, Start + Facings * Stride - 1, srcOverride ?? unit, sprites.Length - 1, info.Nodes[0].Location)); } catch (FormatException f) { throw new FormatException("Failed to parse sequences for {0}.{1} at {2}:\n{3}".F(unit, name, info.Nodes[0].Location, f)); } }
public Sequence(SpriteLoader loader, string unit, string name, MiniYaml info) { var srcOverride = info.Value; Name = name; var d = info.NodesDict; var offset = float2.Zero; var blendMode = BlendMode.Alpha; try { if (d.ContainsKey("Start")) { Start = Exts.ParseIntegerInvariant(d["Start"].Value); } if (d.ContainsKey("Offset")) { offset = FieldLoader.GetValue <float2>("Offset", d["Offset"].Value); } if (d.ContainsKey("BlendMode")) { blendMode = FieldLoader.GetValue <BlendMode>("BlendMode", d["BlendMode"].Value); } // Apply offset to each sprite in the sequence // Different sequences may apply different offsets to the same frame sprites = loader.LoadAllSprites(srcOverride ?? unit).Select( s => new Sprite(s.sheet, s.bounds, s.offset + offset, s.channel, blendMode)).ToArray(); if (!d.ContainsKey("Length")) { Length = 1; } else if (d["Length"].Value == "*") { Length = sprites.Length - Start; } else { Length = Exts.ParseIntegerInvariant(d["Length"].Value); } if (d.ContainsKey("Stride")) { Stride = Exts.ParseIntegerInvariant(d["Stride"].Value); } else { Stride = Length; } if (d.ContainsKey("Facings")) { var f = Exts.ParseIntegerInvariant(d["Facings"].Value); Facings = Math.Abs(f); reverseFacings = f < 0; } else { Facings = 1; } if (d.ContainsKey("Tick")) { Tick = Exts.ParseIntegerInvariant(d["Tick"].Value); } else { Tick = 40; } if (d.ContainsKey("Transpose")) { transpose = bool.Parse(d["Transpose"].Value); } if (d.ContainsKey("Frames")) { Frames = Array.ConvertAll <string, int>(d["Frames"].Value.Split(','), Exts.ParseIntegerInvariant); } if (d.ContainsKey("ShadowStart")) { ShadowStart = Exts.ParseIntegerInvariant(d["ShadowStart"].Value); } else { ShadowStart = -1; } if (d.ContainsKey("ShadowZOffset")) { WRange r; if (WRange.TryParse(d["ShadowZOffset"].Value, out r)) { ShadowZOffset = r.Range; } } else { ShadowZOffset = -5; } if (d.ContainsKey("ZOffset")) { WRange r; if (WRange.TryParse(d["ZOffset"].Value, out r)) { ZOffset = r.Range; } } if (Length > Stride) { throw new InvalidOperationException( "{0}: Sequence {1}.{2}: Length must be <= stride" .F(info.Nodes[0].Location, unit, name)); } if (Start < 0 || Start + Facings * Stride > sprites.Length || ShadowStart + Facings * Stride > sprites.Length) { throw new InvalidOperationException( "{6}: Sequence {0}.{1} uses frames [{2}..{3}] of SHP `{4}`, but only 0..{5} actually exist" .F(unit, name, Start, Start + Facings * Stride - 1, srcOverride ?? unit, sprites.Length - 1, info.Nodes[0].Location)); } } catch (FormatException f) { throw new FormatException("Failed to parse sequences for {0}.{1} at {2}:\n{3}".F(unit, name, info.Nodes[0].Location, f)); } }