package engine import ( "encoding/gob" "image" "github.com/hajimehoshi/ebiten/v2" ) var ( _ interface { Prepper Scanner Transformer } = &IsoVoxmap{} _ interface { Prepper Scanner } = &IsoVoxel{} _ Drawer = &IsoVoxelSide{} ) func init() { gob.Register(&IsoVoxmap{}) gob.Register(&IsoVoxel{}) gob.Register(&IsoVoxelSide{}) } // IsoVoxmap implements a voxel map, painted using flat images in 2D. type IsoVoxmap struct { ID Disabled Hidden Map map[Point3]*IsoVoxel DrawOrderBias image.Point // so boxes overdraw correctly DrawOffset image.Point Sheet Sheet VoxSize Point3 // size of each voxel } // Prepare makes sure all voxels know about the map and where they are, for // drawing. func (m *IsoVoxmap) Prepare(*Game) error { // Ensure all child units know about wall, which houses common attributes for p, u := range m.Map { u.pos, u.ivm = p, m } return nil } // Scan returns the Sheet and all voxels in the map. func (m *IsoVoxmap) Scan() []interface{} { c := make([]interface{}, 1, len(m.Map)+1) c[0] = &m.Sheet for _, voxel := range m.Map { c = append(c, voxel) } return c } // Transform returns a translation by DrawOffset. func (m *IsoVoxmap) Transform() (tf Transform) { tf.Opts.GeoM.Translate(cfloat(m.DrawOffset)) return tf } // IsoVoxel is a voxel in an IsoVoxmap. type IsoVoxel struct { CellBack int // cell to draw for back side CellFront int // cell to draw for front side back IsoVoxelSide front IsoVoxelSide ivm *IsoVoxmap pos Point3 } // Prepare tells the front and back about the voxel. func (v *IsoVoxel) Prepare(*Game) error { v.back.vox = v v.front.vox = v v.front.front = true return nil } // Scan returns the back and front of the voxel. func (v *IsoVoxel) Scan() []interface{} { return []interface{}{&v.back, &v.front} } // IsoVoxelSide is a side of a voxel. type IsoVoxelSide struct { front bool vox *IsoVoxel } // Draw draws this side. func (v *IsoVoxelSide) Draw(screen *ebiten.Image, opts *ebiten.DrawImageOptions) { // TODO: apply IsoProjection to opts.GeoM // p3 := v.pos.CMul(v.ivm.VoxSize) // p2 := p3.IsoProject(v.ivm.Projection) // tf.Opts.GeoM.Translate(cfloat(p2)) cell := v.vox.CellBack if v.front { cell = v.vox.CellFront } screen.DrawImage(v.vox.ivm.Sheet.SubImage(cell), opts) } // DrawOrder returns the Z of the nearest or farthest vertex of the voxel, // with a bias equal to the dot product of the bias vector with pos.XY(). func (v *IsoVoxelSide) DrawOrder() (int, int) { z := v.vox.pos.Z * v.vox.ivm.VoxSize.Z if v.front { z += v.vox.ivm.VoxSize.Z - 1 } bias := dot(v.vox.pos.XY(), v.vox.ivm.DrawOrderBias) return z, bias }