func (wp *waypoint) RenderOnFloor() {
if !wp.active {
return
}
wp.drawn = true
gl.Color4ub(200, 0, 0, 128)
base.EnableShader("waypoint")
base.SetUniformF("waypoint", "radius", float32(wp.Radius))
t := float32(time.Now().UnixNano()%1e15) / 1.0e9
base.SetUniformF("waypoint", "time", t)
gl.Begin(gl.QUADS)
gl.TexCoord2i(0, 1)
gl.Vertex2i(gl.Int(wp.X-wp.Radius), gl.Int(wp.Y-wp.Radius))
gl.TexCoord2i(0, 0)
gl.Vertex2i(gl.Int(wp.X-wp.Radius), gl.Int(wp.Y+wp.Radius))
gl.TexCoord2i(1, 0)
gl.Vertex2i(gl.Int(wp.X+wp.Radius), gl.Int(wp.Y+wp.Radius))
gl.TexCoord2i(1, 1)
gl.Vertex2i(gl.Int(wp.X+wp.Radius), gl.Int(wp.Y-wp.Radius))
gl.End()
base.EnableShader("")
// base.EnableShader("")
}
func (ob *OptionBasic) DrawInfo(x, y, dx, dy int) {
gl.Color4ub(255, 255, 255, 255)
tx := x + (dx-ob.Large.Data().Dx())/2
ty := y + dy - ob.Large.Data().Dy()
ob.Large.Data().RenderNatural(tx, ty)
d := base.GetDictionary(ob.Size)
d.RenderParagraph(ob.Text, float64(x), float64(y+dy-ob.Large.Data().Dy())-d.MaxHeight(), 0, float64(dx), d.MaxHeight(), gui.Left, gui.Top)
}
func (co *colorOption) DrawInfo(x, y, dx, dy int) {
gl.Disable(gl.TEXTURE_2D)
gl.Color4ub(co.r, co.g, co.b, co.a)
gl.Begin(gl.QUADS)
gl.Vertex2i(gl.Int(x), gl.Int(y))
gl.Vertex2i(gl.Int(x), gl.Int(y+dy))
gl.Vertex2i(gl.Int(x+dx), gl.Int(y+dy))
gl.Vertex2i(gl.Int(x+dx), gl.Int(y))
gl.End()
}
func (ep *EntityPlacer) Draw(region gui.Region) {
ep.region = region
gl.Color4ub(255, 255, 255, 255)
ep.layout.Texture.Data().RenderNatural(region.X, region.Y)
for _, button := range ep.buttons {
button.RenderAt(ep.region.X, ep.region.Y)
}
d := base.GetDictionary(ep.layout.Roster.Points.Size)
x_off := ep.layout.Roster.Points.X_off
y_off := ep.layout.Roster.Points.Y_off
for i, button := range ep.ent_buttons {
cost := ep.roster[ep.roster_names[i]]
x := float64(button.X + x_off)
y := float64(button.Y + y_off)
d.RenderString(fmt.Sprintf("%d", cost), x, y, 0, d.MaxHeight(), gui.Right)
}
gl.Color4ub(255, 255, 255, 255)
var ent *Entity
if !pointInsideRect(ep.mx, ep.my, region.X, region.Y, region.Dx, region.Dy) {
ent = ep.game.new_ent
}
if ep.hovered != nil {
ent = ep.hovered
}
if ent != nil {
ent.Still.Data().RenderNatural(ep.layout.Face.X, ep.layout.Face.Y)
ep.layout.Name.RenderString(ent.Name)
ep.layout.Ap.RenderString(fmt.Sprintf("Ap:%d", ent.Stats.ApCur()))
ep.layout.Hp.RenderString(fmt.Sprintf("Hp:%d", ent.Stats.HpCur()))
ep.layout.Corpus.RenderString(fmt.Sprintf("Corpus:%d", ent.Stats.Corpus()))
ep.layout.Ego.RenderString(fmt.Sprintf("Ego:%d", ent.Stats.Ego()))
}
if ep.show_points {
d := base.GetDictionary(ep.layout.Points_remaining.Size)
x := float64(ep.layout.Points_remaining.X)
y := float64(ep.layout.Points_remaining.Y)
d.RenderString(ep.layout.Points_remaining.String, x, y, 0, d.MaxHeight(), gui.Left)
w := d.StringWidth(ep.layout.Points_remaining.String)
d.RenderString(fmt.Sprintf("%d", ep.points), x+w, y, 0, d.MaxHeight(), gui.Right)
}
}
func (mo *MapOption) Draw(hovered, selected, selectable bool, region gui.Region) {
var s gl.Ubyte
switch {
case selected:
s = 255
case hovered && selectable:
s = 205
case selectable:
s = 127
default:
s = 75
}
gl.Color4ub(s, s, s, 255)
icon := mo.house_def.Icon.Data()
if icon.Dx() == 0 {
icon = mo.layout.Default_icon.Data()
}
icon.RenderNatural(region.X, region.Y)
gl.Color4ub(0, 0, 0, 255)
d := base.GetDictionary(15)
d.RenderString(mo.house_def.Name, float64(region.X), float64(region.Y), 0, d.MaxHeight(), gui.Left)
}
func (e *Entity) drawReticle(pos mathgl.Vec2, rgba [4]float64) {
if !e.hovered && !e.selected && !e.controlled {
return
}
gl.PushAttrib(gl.CURRENT_BIT)
r := gl.Ubyte(rgba[0] * 255)
g := gl.Ubyte(rgba[1] * 255)
b := gl.Ubyte(rgba[2] * 255)
a := gl.Ubyte(rgba[3] * 255)
switch {
case e.controlled:
gl.Color4ub(0, 0, r, a)
case e.selected:
gl.Color4ub(r, g, b, a)
default:
gl.Color4ub(r, g, b, gl.Ubyte((int(a)*200)>>8))
}
glow := texture.LoadFromPath(filepath.Join(base.GetDataDir(), "ui", "glow.png"))
dx := float64(e.last_render_width + 0.5)
dy := float64(e.last_render_width * 150 / 100)
glow.Render(float64(pos.X), float64(pos.Y), dx, dy)
gl.PopAttrib()
}
func (f *Furniture) Render(pos mathgl.Vec2, width float32) {
var rgba [4]gl.Double
gl.GetDoublev(gl.CURRENT_COLOR, &rgba[0])
gl.PushAttrib(gl.CURRENT_BIT)
if !f.Blocks_los || !f.alpha_enabled {
f.alpha = 1
}
var tff gl.Double = 255
gl.Color4ub(gl.Ubyte(tff*rgba[0]), gl.Ubyte(tff*rgba[1]), gl.Ubyte(tff*rgba[2]), gl.Ubyte(tff*rgba[3]*gl.Double(f.alpha)))
orientation := f.Orientations[f.Rotation]
dy := width * float32(orientation.Texture.Data().Dy()) / float32(orientation.Texture.Data().Dx())
// orientation.Texture.Data().Render(float64(pos.X), float64(pos.Y), float64(width), float64(dy))
orientation.Texture.Data().RenderAdvanced(float64(pos.X), float64(pos.Y), float64(width), float64(dy), 0, !f.Flip)
gl.PopAttrib()
}
func (o *Overlay) Draw(region gui.Region) {
o.region = region
switch o.game.Side {
case SideHaunt:
if o.game.los.denizens.mode == LosModeBlind {
return
}
case SideExplorers:
if o.game.los.intruders.mode == LosModeBlind {
return
}
default:
return
}
for _, wp := range o.game.Waypoints {
if !wp.active || wp.drawn {
continue
}
cx := float32(wp.X)
cy := float32(wp.Y)
r := float32(wp.Radius)
cx1, cy1 := o.game.viewer.BoardToWindow(cx-r, cy-r)
cx2, cy2 := o.game.viewer.BoardToWindow(cx-r, cy+r)
cx3, cy3 := o.game.viewer.BoardToWindow(cx+r, cy+r)
cx4, cy4 := o.game.viewer.BoardToWindow(cx+r, cy-r)
gl.Color4ub(200, 0, 0, 128)
base.EnableShader("waypoint")
base.SetUniformF("waypoint", "radius", float32(wp.Radius))
t := float32(time.Now().UnixNano()%1e15) / 1.0e9
base.SetUniformF("waypoint", "time", t)
gl.Begin(gl.QUADS)
gl.TexCoord2i(0, 1)
gl.Vertex2i(gl.Int(cx1), gl.Int(cy1))
gl.TexCoord2i(0, 0)
gl.Vertex2i(gl.Int(cx2), gl.Int(cy2))
gl.TexCoord2i(1, 0)
gl.Vertex2i(gl.Int(cx3), gl.Int(cy3))
gl.TexCoord2i(1, 1)
gl.Vertex2i(gl.Int(cx4), gl.Int(cy4))
gl.End()
base.EnableShader("")
}
}
func (a *Move) RenderOnFloor() {
if a.ent == nil {
return
}
if path_tex == nil {
path_tex = house.MakeLosTexture()
}
path_tex.Remap()
path_tex.Bind()
gl.Color4ub(255, 255, 255, 128)
base.EnableShader("path")
base.SetUniformF("path", "threshold", float32(a.threshold)/255)
base.SetUniformF("path", "size", house.LosTextureSize)
texture.RenderAdvanced(0, 0, house.LosTextureSize, house.LosTextureSize, 3.1415926535, false)
base.EnableShader("")
}
func (sp *SpawnPoint) RenderOnFloor() {
re := topSpawnRegexp()
if re == nil || !re.MatchString(sp.Name) {
return
}
var rgba [4]gl.Double
gl.GetDoublev(gl.CURRENT_COLOR, &rgba[0])
gl.PushAttrib(gl.CURRENT_BIT)
gl.Disable(gl.TEXTURE_2D)
// This just creates a color that is consistent among all spawn points whose
// names match SpawnName-.*
prefix := sp.Name
for i := range prefix {
if prefix[i] == '-' {
prefix = prefix[0:i]
break
}
}
h := fnv.New32()
h.Write([]byte(prefix))
hs := h.Sum32()
gl.Color4ub(gl.Ubyte(hs%256), gl.Ubyte((hs/256)%256), gl.Ubyte((hs/(256*256))%256), gl.Ubyte(255*rgba[3]))
base.EnableShader("box")
base.SetUniformF("box", "dx", float32(sp.Dx))
base.SetUniformF("box", "dy", float32(sp.Dy))
if !sp.temporary {
base.SetUniformI("box", "temp_invalid", 0)
} else if !sp.invalid {
base.SetUniformI("box", "temp_invalid", 1)
} else {
base.SetUniformI("box", "temp_invalid", 2)
}
(&texture.Object{}).Data().Render(float64(sp.X), float64(sp.Y), float64(sp.Dx), float64(sp.Dy))
base.EnableShader("")
gl.PopAttrib()
}
func (c *Chooser) Draw(region gui.Region) {
c.region = region
gl.Color4ub(255, 255, 255, 255)
c.layout.Background.Data().RenderNatural(region.X, region.Y)
tex := c.layout.Scroller.Texture.Data()
tex.RenderNatural(region.X+c.layout.Scroller.X, region.Y+c.layout.Scroller.Y)
buttons := c.buttons
if c.optionsHeight() <= c.layout.Options.Dy {
buttons = c.non_scroll_buttons
}
for _, button := range buttons {
button.RenderAt(region.X, region.Y)
}
c.layout.Options.Region().PushClipPlanes()
hovered := -1
c.doOnOptions(func(index int, opt Option, data doOnOptionData) {
if data.hovered {
hovered = index
}
opt.Draw(data.x, data.y, data.dx)
})
c.layout.Options.Region().PopClipPlanes()
c.info_region.PushClipPlanes()
if hovered != -1 {
c.options[hovered].DrawInfo(c.layout.Info.X, c.layout.Info.Y, c.layout.Info.Dx, c.layout.Info.Dy)
} else {
if c.min == 1 && c.max == 1 && len(c.selected) == 1 {
var index int
for index = range c.selected {
}
c.options[index].DrawInfo(c.layout.Info.X, c.layout.Info.Y, c.layout.Info.Dx, c.layout.Info.Dy)
}
}
c.info_region.PopClipPlanes()
}
func (ob *OptionBasic) Draw(x, y, dx int) {
gl.Color4ub(255, 255, 255, gl.Ubyte(ob.alpha))
ob.Small.Data().RenderNatural(x, y)
}
// Need floor, right wall, and left wall matrices to draw the details
func (room *Room) render(floor, left, right mathgl.Mat4, zoom float32, base_alpha byte, drawables []Drawable, los_tex *LosTexture, floor_drawers []FloorDrawer) {
do_color := func(r, g, b, a byte) {
R, G, B, A := room.Color()
A = alphaMult(A, base_alpha)
gl.Color4ub(gl.Ubyte(alphaMult(R, r)), gl.Ubyte(alphaMult(G, g)), gl.Ubyte(alphaMult(B, b)), gl.Ubyte(alphaMult(A, a)))
}
gl.Enable(gl.TEXTURE_2D)
gl.Enable(gl.BLEND)
gl.BlendFunc(gl.SRC_ALPHA, gl.ONE_MINUS_SRC_ALPHA)
gl.Enable(gl.STENCIL_TEST)
gl.ClearStencil(0)
gl.Clear(gl.STENCIL_BUFFER_BIT)
gl.EnableClientState(gl.VERTEX_ARRAY)
gl.EnableClientState(gl.TEXTURE_COORD_ARRAY)
defer gl.DisableClientState(gl.VERTEX_ARRAY)
defer gl.DisableClientState(gl.TEXTURE_COORD_ARRAY)
var vert roomVertex
planes := []plane{
{room.left_buffer, room.Wall, &left},
{room.right_buffer, room.Wall, &right},
{room.floor_buffer, room.Floor, &floor},
}
gl.PushMatrix()
defer gl.PopMatrix()
if los_tex != nil {
gl.LoadMatrixf((*gl.Float)(&floor[0]))
gl.ClientActiveTexture(gl.TEXTURE1)
gl.ActiveTexture(gl.TEXTURE1)
gl.Enable(gl.TEXTURE_2D)
gl.EnableClientState(gl.TEXTURE_COORD_ARRAY)
los_tex.Bind()
gl.BindBuffer(gl.ARRAY_BUFFER, gl.Uint(room.vbuffer))
gl.TexCoordPointer(2, gl.FLOAT, gl.Sizei(unsafe.Sizeof(vert)), gl.Pointer(unsafe.Offsetof(vert.los_u)))
gl.ClientActiveTexture(gl.TEXTURE0)
gl.ActiveTexture(gl.TEXTURE0)
base.EnableShader("los")
base.SetUniformI("los", "tex2", 1)
}
var mul, run mathgl.Mat4
for _, plane := range planes {
gl.LoadMatrixf((*gl.Float)(&floor[0]))
run.Assign(&floor)
// Render the doors and cut out the stencil buffer so we leave them empty
// if they're open
switch plane.mat {
case &left:
gl.StencilFunc(gl.ALWAYS, 1, 1)
gl.StencilOp(gl.REPLACE, gl.REPLACE, gl.REPLACE)
for _, door := range room.Doors {
if door.Facing != FarLeft {
continue
}
door.TextureData().Bind()
R, G, B, A := door.Color()
do_color(R, G, B, alphaMult(A, room.far_left.wall_alpha))
gl.ClientActiveTexture(gl.TEXTURE0)
door.TextureData().Bind()
if door.door_glids.floor_buffer != 0 {
gl.BindBuffer(gl.ARRAY_BUFFER, gl.Uint(door.threshold_glids.vbuffer))
gl.VertexPointer(3, gl.FLOAT, gl.Sizei(unsafe.Sizeof(vert)), gl.Pointer(unsafe.Offsetof(vert.x)))
gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, gl.Uint(door.door_glids.floor_buffer))
gl.TexCoordPointer(2, gl.FLOAT, gl.Sizei(unsafe.Sizeof(vert)), gl.Pointer(unsafe.Offsetof(vert.u)))
gl.ClientActiveTexture(gl.TEXTURE1)
gl.TexCoordPointer(2, gl.FLOAT, gl.Sizei(unsafe.Sizeof(vert)), gl.Pointer(unsafe.Offsetof(vert.los_u)))
gl.DrawElements(gl.TRIANGLES, door.door_glids.floor_count, gl.UNSIGNED_SHORT, nil)
}
}
gl.StencilFunc(gl.NOTEQUAL, 1, 1)
gl.StencilOp(gl.KEEP, gl.KEEP, gl.KEEP)
do_color(255, 255, 255, room.far_left.wall_alpha)
case &right:
gl.StencilFunc(gl.ALWAYS, 1, 1)
gl.StencilOp(gl.REPLACE, gl.REPLACE, gl.REPLACE)
for _, door := range room.Doors {
if door.Facing != FarRight {
continue
}
door.TextureData().Bind()
R, G, B, A := door.Color()
do_color(R, G, B, alphaMult(A, room.far_right.wall_alpha))
gl.ClientActiveTexture(gl.TEXTURE0)
door.TextureData().Bind()
if door.door_glids.floor_buffer != 0 {
gl.BindBuffer(gl.ARRAY_BUFFER, gl.Uint(door.threshold_glids.vbuffer))
gl.VertexPointer(3, gl.FLOAT, gl.Sizei(unsafe.Sizeof(vert)), gl.Pointer(unsafe.Offsetof(vert.x)))
gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, gl.Uint(door.door_glids.floor_buffer))
gl.TexCoordPointer(2, gl.FLOAT, gl.Sizei(unsafe.Sizeof(vert)), gl.Pointer(unsafe.Offsetof(vert.u)))
gl.ClientActiveTexture(gl.TEXTURE1)
gl.TexCoordPointer(2, gl.FLOAT, gl.Sizei(unsafe.Sizeof(vert)), gl.Pointer(unsafe.Offsetof(vert.los_u)))
gl.DrawElements(gl.TRIANGLES, door.door_glids.floor_count, gl.UNSIGNED_SHORT, nil)
}
}
gl.StencilFunc(gl.NOTEQUAL, 1, 1)
gl.StencilOp(gl.KEEP, gl.KEEP, gl.KEEP)
do_color(255, 255, 255, room.far_right.wall_alpha)
case &floor:
gl.StencilFunc(gl.ALWAYS, 2, 2)
gl.StencilOp(gl.REPLACE, gl.REPLACE, gl.REPLACE)
do_color(255, 255, 255, 255)
}
gl.ClientActiveTexture(gl.TEXTURE0)
gl.BindBuffer(gl.ARRAY_BUFFER, gl.Uint(room.vbuffer))
gl.VertexPointer(3, gl.FLOAT, gl.Sizei(unsafe.Sizeof(vert)), gl.Pointer(unsafe.Offsetof(vert.x)))
gl.TexCoordPointer(2, gl.FLOAT, gl.Sizei(unsafe.Sizeof(vert)), gl.Pointer(unsafe.Offsetof(vert.u)))
gl.ClientActiveTexture(gl.TEXTURE1)
if los_tex != nil {
los_tex.Bind()
}
gl.BindBuffer(gl.ARRAY_BUFFER, gl.Uint(room.vbuffer))
gl.TexCoordPointer(2, gl.FLOAT, gl.Sizei(unsafe.Sizeof(vert)), gl.Pointer(unsafe.Offsetof(vert.los_u)))
// Now draw the walls
gl.LoadMatrixf((*gl.Float)(&floor[0]))
plane.texture.Data().Bind()
gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, gl.Uint(plane.index_buffer))
if (plane.mat == &left || plane.mat == &right) && strings.Contains(string(room.Wall.Path), "gradient.png") {
base.EnableShader("gorey")
base.SetUniformI("gorey", "tex", 0)
base.SetUniformI("gorey", "foo", Foo)
base.SetUniformF("gorey", "num_rows", Num_rows)
base.SetUniformF("gorey", "noise_rate", Noise_rate)
base.SetUniformF("gorey", "num_steps", Num_steps)
}
if plane.mat == &floor && strings.Contains(string(room.Floor.Path), "gradient.png") {
base.EnableShader("gorey")
base.SetUniformI("gorey", "tex", 0)
base.SetUniformI("gorey", "foo", Foo)
base.SetUniformF("gorey", "num_rows", Num_rows)
base.SetUniformF("gorey", "noise_rate", Noise_rate)
base.SetUniformF("gorey", "num_steps", Num_steps)
zexp := math.Log(float64(zoom))
frac := 1 - 1/zexp
frac = (frac - 0.6) * 5.0
switch {
case frac > 0.7:
base.SetUniformI("gorey", "range", 1)
case frac > 0.3:
base.SetUniformI("gorey", "range", 2)
default:
base.SetUniformI("gorey", "range", 3)
}
}
if plane.mat == &floor {
R, G, B, _ := room.Color()
gl.Color4ub(gl.Ubyte(R), gl.Ubyte(G), gl.Ubyte(B), 255)
}
gl.DrawElements(gl.TRIANGLES, gl.Sizei(room.floor_count), gl.UNSIGNED_SHORT, nil)
if los_tex != nil {
base.EnableShader("los")
} else {
base.EnableShader("")
}
}
for _, wt := range room.WallTextures {
if room.wall_texture_gl_map == nil {
room.wall_texture_gl_map = make(map[*WallTexture]wallTextureGlIds)
room.wall_texture_state_map = make(map[*WallTexture]wallTextureState)
}
ids := room.wall_texture_gl_map[wt]
state := room.wall_texture_state_map[wt]
var new_state wallTextureState
new_state.flip = wt.Flip
new_state.rot = wt.Rot
new_state.x = wt.X
new_state.y = wt.Y
new_state.room.x = room.X
new_state.room.y = room.Y
new_state.room.dx = room.Size.Dx
new_state.room.dy = room.Size.Dy
if new_state != state {
wt.setupGlStuff(room.X, room.Y, room.Size.Dx, room.Size.Dy, &ids)
room.wall_texture_gl_map[wt] = ids
room.wall_texture_state_map[wt] = new_state
}
gl.LoadMatrixf((*gl.Float)(&floor[0]))
if ids.vbuffer != 0 {
wt.Texture.Data().Bind()
R, G, B, A := wt.Color()
gl.ClientActiveTexture(gl.TEXTURE0)
gl.BindBuffer(gl.ARRAY_BUFFER, gl.Uint(ids.vbuffer))
gl.VertexPointer(3, gl.FLOAT, gl.Sizei(unsafe.Sizeof(vert)), gl.Pointer(unsafe.Offsetof(vert.x)))
gl.TexCoordPointer(2, gl.FLOAT, gl.Sizei(unsafe.Sizeof(vert)), gl.Pointer(unsafe.Offsetof(vert.u)))
gl.ClientActiveTexture(gl.TEXTURE1)
gl.TexCoordPointer(2, gl.FLOAT, gl.Sizei(unsafe.Sizeof(vert)), gl.Pointer(unsafe.Offsetof(vert.los_u)))
gl.ClientActiveTexture(gl.TEXTURE0)
if ids.floor_buffer != 0 {
gl.StencilFunc(gl.ALWAYS, 2, 2)
gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, gl.Uint(ids.floor_buffer))
gl.Color4ub(gl.Ubyte(R), gl.Ubyte(G), gl.Ubyte(B), gl.Ubyte(A))
gl.DrawElements(gl.TRIANGLES, ids.floor_count, gl.UNSIGNED_SHORT, nil)
}
if ids.left_buffer != 0 {
gl.StencilFunc(gl.ALWAYS, 1, 1)
gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, gl.Uint(ids.left_buffer))
do_color(R, G, B, alphaMult(A, room.far_left.wall_alpha))
gl.DrawElements(gl.TRIANGLES, ids.left_count, gl.UNSIGNED_SHORT, nil)
}
if ids.right_buffer != 0 {
gl.StencilFunc(gl.ALWAYS, 1, 1)
gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, gl.Uint(ids.right_buffer))
do_color(R, G, B, alphaMult(A, room.far_right.wall_alpha))
gl.DrawElements(gl.TRIANGLES, ids.right_count, gl.UNSIGNED_SHORT, nil)
}
}
}
base.EnableShader("marble")
base.SetUniformI("marble", "tex2", 1)
base.SetUniformF("marble", "room_x", float32(room.X))
base.SetUniformF("marble", "room_y", float32(room.Y))
for _, door := range room.Doors {
door.setupGlStuff(room)
if door.threshold_glids.vbuffer == 0 {
continue
}
if door.AlwaysOpen() {
continue
}
if door.highlight_threshold {
gl.Color4ub(255, 255, 255, 255)
} else {
gl.Color4ub(128, 128, 128, 255)
}
gl.BindBuffer(gl.ARRAY_BUFFER, gl.Uint(door.threshold_glids.vbuffer))
gl.VertexPointer(3, gl.FLOAT, gl.Sizei(unsafe.Sizeof(vert)), gl.Pointer(unsafe.Offsetof(vert.x)))
gl.TexCoordPointer(2, gl.FLOAT, gl.Sizei(unsafe.Sizeof(vert)), gl.Pointer(unsafe.Offsetof(vert.u)))
gl.ClientActiveTexture(gl.TEXTURE1)
gl.TexCoordPointer(2, gl.FLOAT, gl.Sizei(unsafe.Sizeof(vert)), gl.Pointer(unsafe.Offsetof(vert.los_u)))
gl.ClientActiveTexture(gl.TEXTURE0)
gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, gl.Uint(door.threshold_glids.floor_buffer))
gl.DrawElements(gl.TRIANGLES, door.threshold_glids.floor_count, gl.UNSIGNED_SHORT, nil)
}
base.EnableShader("")
if los_tex != nil {
base.EnableShader("")
gl.ActiveTexture(gl.TEXTURE1)
gl.Disable(gl.TEXTURE_2D)
gl.ActiveTexture(gl.TEXTURE0)
gl.ClientActiveTexture(gl.TEXTURE1)
gl.DisableClientState(gl.TEXTURE_COORD_ARRAY)
gl.ClientActiveTexture(gl.TEXTURE0)
}
run.Assign(&floor)
mul.Translation(float32(-room.X), float32(-room.Y), 0)
run.Multiply(&mul)
gl.LoadMatrixf((*gl.Float)(&run[0]))
gl.StencilFunc(gl.EQUAL, 2, 3)
gl.StencilOp(gl.KEEP, gl.KEEP, gl.KEEP)
room_rect := image.Rect(room.X, room.Y, room.X+room.Size.Dx, room.Y+room.Size.Dy)
for _, fd := range floor_drawers {
x, y := fd.Pos()
dx, dy := fd.Dims()
if room_rect.Overlaps(image.Rect(x, y, x+dx, y+dy)) {
fd.RenderOnFloor()
}
}
do_color(255, 255, 255, 255)
gl.LoadIdentity()
gl.Disable(gl.STENCIL_TEST)
room.renderFurniture(floor, 255, drawables, los_tex)
gl.ClientActiveTexture(gl.TEXTURE1)
gl.Disable(gl.TEXTURE_2D)
gl.ClientActiveTexture(gl.TEXTURE0)
base.EnableShader("")
}
func (room *Room) renderFurniture(floor mathgl.Mat4, base_alpha byte, drawables []Drawable, los_tex *LosTexture) {
board_to_window := func(mx, my float32) (x, y float32) {
v := mathgl.Vec4{X: mx, Y: my, W: 1}
v.Transform(&floor)
x, y = v.X, v.Y
return
}
var all []RectObject
for _, d := range drawables {
x, y := d.Pos()
if x < room.X {
continue
}
if y < room.Y {
continue
}
if x >= room.X+room.Size.Dx {
continue
}
if y >= room.Y+room.Size.Dy {
continue
}
all = append(all, offsetDrawable{d, -room.X, -room.Y})
}
// Do not include temporary objects in the ordering, since they will likely
// overlap with other objects and make it difficult to determine the proper
// ordering. Just draw the temporary ones last.
var temps []RectObject
for _, f := range room.Furniture {
if f.temporary {
temps = append(temps, f)
} else {
all = append(all, f)
}
}
all = OrderRectObjects(all)
for i := range all {
temps = append(temps, all[i])
}
for i := len(temps) - 1; i >= 0; i-- {
d := temps[i].(Drawable)
fx, fy := d.FPos()
near_x, near_y := float32(fx), float32(fy)
idx, idy := d.Dims()
dx, dy := float32(idx), float32(idy)
leftx, _ := board_to_window(near_x, near_y+dy)
rightx, _ := board_to_window(near_x+dx, near_y)
_, boty := board_to_window(near_x, near_y)
vis := visibilityOfObject(room.X, room.Y, d, los_tex)
r, g, b, a := d.Color()
r = alphaMult(r, vis)
g = alphaMult(g, vis)
b = alphaMult(b, vis)
a = alphaMult(a, vis)
a = alphaMult(a, base_alpha)
gl.Color4ub(gl.Ubyte(r), gl.Ubyte(g), gl.Ubyte(b), gl.Ubyte(a))
d.Render(mathgl.Vec2{leftx, boty}, rightx-leftx)
}
}
