Re-think colors.

Color is a property of light, and thus doesn't include information
about transparency.  But canvas pixels and object pigments represent
a color and a degree of transparency.  The new type dmnsn_tcolor/
TColor encapsulates that information.

Also, fix the transparent shadow implementation.

28 files changed, 716 insertions, 887 deletions

diff --git a/dimension/tests/demo.dmnsn b/dimension/tests/demo.dmnsn
index 75a97a7..2d51400 100644
--- a/dimension/tests/demo.dmnsn
+++ b/dimension/tests/demo.dmnsn
@@ -31,9 +31,9 @@ except OSError:
 
 background = PigmentMap(
   pattern = Gradient(Y),
-  map     = {
+  map = {
     0:    image_map,
-    0.35: sRGB(0, 0.1, 0.2, trans = 0.1, filter = 0.0),
+    0.35: TColor(sRGB(0, 0.1, 0.2), trans = 0.1)
   },
 )
 
@@ -50,7 +50,7 @@ hollow_cube = Difference(
       (-1, -1, -1), (1, 1, 1),
 
       texture = Texture(
-        pigment = sRGB(0, 0, 1, trans = 0.75, filter = 1/3),
+        pigment = TColor(Blue, trans = 0.75, filter = 1/3),
         finish  = Reflection(min = 0, max = sRGB(0.5)),
       ),
       interior = Interior(
@@ -63,7 +63,7 @@ hollow_cube = Difference(
       center = 0, radius = 1.25,
       texture = Texture(
         pigment = Green,
-        finish  = Phong(strength = 0.2, size = 40),
+        finish  = Phong(strength = sRGB(0.2), size = 40),
       ),
     )
   ],
diff --git a/libdimension-python/dimension.pxd b/libdimension-python/dimension.pxd
index 94966f3..0d0fcc4 100644
--- a/libdimension-python/dimension.pxd
+++ b/libdimension-python/dimension.pxd
@@ -43,8 +43,7 @@ cdef extern from "../libdimension/dimension.h":
   # Arrays #
   ##########
 
-  ctypedef struct dmnsn_array:
-    pass
+  ctypedef struct dmnsn_array
 
   dmnsn_array *dmnsn_new_array(size_t objsize)
   void dmnsn_delete_array(dmnsn_array *array)
@@ -148,12 +147,8 @@ cdef extern from "../libdimension/dimension.h":
     double R
     double G
     double B
-    double trans
-    double filter
 
   dmnsn_color dmnsn_new_color(double R, double G, double B)
-  dmnsn_color dmnsn_new_color5(double R, double G, double B,
-                               double trans, double filter)
 
   double dmnsn_sRGB_gamma(double Clinear)
   dmnsn_color dmnsn_color_to_sRGB(dmnsn_color color)
@@ -162,11 +157,11 @@ cdef extern from "../libdimension/dimension.h":
 
   double dmnsn_color_intensity(dmnsn_color color)
   dmnsn_color dmnsn_color_add(dmnsn_color color1, dmnsn_color color2)
+  dmnsn_color dmnsn_color_sub(dmnsn_color color1, dmnsn_color color2)
   dmnsn_color dmnsn_color_mul(double n, dmnsn_color color)
 
   dmnsn_color dmnsn_black
   dmnsn_color dmnsn_white
-  dmnsn_color dmnsn_clear
   dmnsn_color dmnsn_red
   dmnsn_color dmnsn_green
   dmnsn_color dmnsn_blue
@@ -175,6 +170,18 @@ cdef extern from "../libdimension/dimension.h":
   dmnsn_color dmnsn_yellow
   dmnsn_color dmnsn_cyan
 
+  ctypedef struct dmnsn_tcolor:
+    dmnsn_color c
+    double T
+    double F
+
+  dmnsn_tcolor dmnsn_new_tcolor(dmnsn_color c, double T, double F)
+  dmnsn_tcolor DMNSN_TCOLOR(dmnsn_color c)
+  dmnsn_tcolor dmnsn_new_tcolor5(double R, double G, double B,
+                                 double T, double F)
+
+  dmnsn_tcolor dmnsn_clear
+
   ############
   # Canvases #
   ############
@@ -186,11 +193,11 @@ cdef extern from "../libdimension/dimension.h":
   dmnsn_canvas *dmnsn_new_canvas(size_t width, size_t height)
   void dmnsn_delete_canvas(dmnsn_canvas *canvas)
 
-  dmnsn_color dmnsn_canvas_get_pixel(dmnsn_canvas *canvas, size_t x, size_t y)
+  dmnsn_tcolor dmnsn_canvas_get_pixel(dmnsn_canvas *canvas, size_t x, size_t y)
   void dmnsn_canvas_set_pixel(dmnsn_canvas *canvas, size_t x, size_t y,
-                              dmnsn_color color)
+                              dmnsn_tcolor tcolor)
 
-  void dmnsn_canvas_clear(dmnsn_canvas *canvas, dmnsn_color color)
+  void dmnsn_canvas_clear(dmnsn_canvas *canvas, dmnsn_tcolor tcolor)
 
   int dmnsn_png_optimize_canvas(dmnsn_canvas *canvas)
   int dmnsn_png_write_canvas(dmnsn_canvas *canvas, FILE *file)
@@ -234,7 +241,7 @@ cdef extern from "../libdimension/dimension.h":
 
   ctypedef struct dmnsn_pigment:
     dmnsn_matrix trans
-    dmnsn_color quick_color
+    dmnsn_tcolor quick_color
 
   ctypedef enum dmnsn_pigment_map_flags:
     DMNSN_PIGMENT_MAP_REGULAR
@@ -242,7 +249,7 @@ cdef extern from "../libdimension/dimension.h":
 
   void dmnsn_delete_pigment(dmnsn_pigment *pigment)
 
-  dmnsn_pigment *dmnsn_new_solid_pigment(dmnsn_color color)
+  dmnsn_pigment *dmnsn_new_solid_pigment(dmnsn_tcolor tcolor)
   dmnsn_pigment *dmnsn_new_canvas_pigment(dmnsn_canvas *canvas)
   dmnsn_pigment *dmnsn_new_pigment_map_pigment(dmnsn_pattern *pattern,
                                                dmnsn_map *map,
@@ -270,7 +277,7 @@ cdef extern from "../libdimension/dimension.h":
 
   void dmnsn_finish_cascade(dmnsn_finish *default_finish, dmnsn_finish *finish)
 
-  dmnsn_ambient *dmnsn_new_basic_ambient(dmnsn_color ambient)
+  dmnsn_ambient *dmnsn_new_ambient(dmnsn_color ambient)
   dmnsn_diffuse *dmnsn_new_lambertian(double diffuse)
   dmnsn_specular *dmnsn_new_phong(double specular, double exp)
   dmnsn_reflection *dmnsn_new_basic_reflection(dmnsn_color min, dmnsn_color max,
@@ -332,7 +339,8 @@ cdef extern from "../libdimension/dimension.h":
   # Lights #
   ##########
 
-  ctypedef struct dmnsn_light
+  ctypedef struct dmnsn_light:
+    dmnsn_vector x0
 
   dmnsn_light *dmnsn_new_light()
   void dmnsn_delete_light(dmnsn_light *light)
diff --git a/libdimension-python/dimension.pyx b/libdimension-python/dimension.pyx
index 8e48a5c..1e79620 100644
--- a/libdimension-python/dimension.pyx
+++ b/libdimension-python/dimension.pyx
@@ -408,13 +408,11 @@ cdef class _BaseColor:
     red    -- The red component
     green  -- The green component
     blue   -- The blue component
-    trans  -- The transparency of the color, 0.0 meaning opaque (default 0.0)
-    filter -- How filtered the transparency is (default 0.0)
 
     Alternatively, you can pass another Color, a gray intensity like 0.5, or a
-    tuple or other sequence (red, green, blue[, trans[, filter]]).
+    tuple or other sequence (red, green, blue).
     """
-    if len(args) == 1:
+    if len(args) == 1 and len(kwargs) == 0:
       if isinstance(args[0], _BaseColor):
         self._clin = (<_BaseColor>args[0])._clin
         self._unlinearize()
@@ -428,9 +426,8 @@ cdef class _BaseColor:
 
     self._linearize()
 
-  def _real_init(self, double red, double green, double blue,
-                 double trans = 0.0, double filter = 0.0):
-    self._c = dmnsn_new_color5(red, green, blue, trans, filter)
+  def _real_init(self, double red, double green, double blue):
+    self._c = dmnsn_new_color(red, green, blue)
 
   property red:
     """The red component."""
@@ -444,14 +441,6 @@ cdef class _BaseColor:
     """The blue component."""
     def __get__(self):
       return self._c.B
-  property trans:
-    """The transparency of the color."""
-    def __get__(self):
-      return self._c.trans
-  property filter:
-    """How filtered the transparency is."""
-    def __get__(self):
-      return self._c.filter
 
   def intensity(self):
     return dmnsn_color_intensity(self._c)
@@ -489,10 +478,7 @@ cdef class _BaseColor:
     cdef double rdiff = clhs.red    - crhs.red
     cdef double gdiff = clhs.green  - crhs.green
     cdef double bdiff = clhs.blue   - crhs.blue
-    cdef double tdiff = clhs.trans  - crhs.trans
-    cdef double fdiff = clhs.filter - crhs.filter
-    cdef double sum = rdiff*rdiff + gdiff*gdiff + bdiff*bdiff \
-                      + tdiff*tdiff + fdiff*fdiff
+    cdef double sum = rdiff*rdiff + gdiff*gdiff + bdiff*bdiff
     equal = sqrt(sum) < dmnsn_epsilon
     if op == 2:   # ==
       return equal
@@ -502,17 +488,11 @@ cdef class _BaseColor:
       return NotImplemented
 
   def __repr__(self):
-    return "dimension.%s(%r, %r, %r, %r, %r)" % \
-             (type(self).__name__, self.red, self.green, self.blue, self.trans,
-              self.filter)
+    return "dimension.%s(%r, %r, %r)" % \
+           (type(self).__name__, self.red, self.green, self.blue)
   def __str__(self):
-    if self.trans >= dmnsn_epsilon:
-      return "%s<%s, %s, %s, trans = %s, filter = %s>" % \
-             (type(self).__name__,
-              self.red, self.green, self.blue, self.trans, self.filter)
-    else:
-      return "%s<%s, %s, %s>" % \
-             (type(self).__name__, self.red, self.green, self.blue)
+    return "%s<%s, %s, %s>" % \
+           (type(self).__name__, self.red, self.green, self.blue)
 
 cdef class Color(_BaseColor):
   """
@@ -551,7 +531,6 @@ cdef _BaseColor _Color(dmnsn_color c, type t):
 
 Black   = _Color(dmnsn_black, Color)
 White   = _Color(dmnsn_white, Color)
-Clear   = _Color(dmnsn_clear, Color)
 Red     = _Color(dmnsn_red, Color)
 Green   = _Color(dmnsn_green, Color)
 Blue    = _Color(dmnsn_blue, Color)
@@ -560,6 +539,65 @@ Orange  = _Color(dmnsn_orange, Color)
 Yellow  = _Color(dmnsn_yellow, Color)
 Cyan    = _Color(dmnsn_cyan, Color)
 
+cdef class TColor:
+  """
+  A transparent color.
+
+  This type is used for representing pigments and pixels, as it carries color as
+  well as transparency information.
+  """
+  cdef dmnsn_tcolor _tc
+
+  def __init__(self, *args, **kwargs):
+    """
+    Create a transparent color.
+
+    Keyword arguments:
+    color  -- The Color() (or sRGB()) component
+    trans  -- The transparency component
+    filter -- The proportion of the transparency that is filtered
+
+    Alternatively, you can pass another TColor.
+    """
+    if len(args) == 1 and len(kwargs) == 0:
+      if isinstance(args[0], TColor):
+        self._tc = (<TColor>args[0])._tc
+      else:
+        self._real_init(*args, **kwargs)
+    else:
+      self._real_init(*args, **kwargs)
+
+  def _real_init(self, color, double trans = 0, double filter = 0):
+    self._tc = dmnsn_new_tcolor(Color(color)._clin, trans, filter)
+
+  property color:
+    """The color component."""
+    def __get__(self):
+      return _Color(self._tc.c, Color)
+  property trans:
+    """The transparency component."""
+    def __get__(self):
+      return self._tc.T
+  property filter:
+    """The filter proportion."""
+    def __get__(self):
+      return self._tc.F
+
+  def __repr__(self):
+    return "dimension.TColor(%r, %r, %r)" % \
+           (self.color, self.trans, self.filter)
+  def __str__(self):
+    return "TColor<%s, %s, %s>" % \
+           (self.color, self.trans, self.filter)
+
+cdef TColor _TColor(dmnsn_tcolor tc):
+  """Wrap a TColor around a dmnsn_tcolor."""
+  cdef TColor self = TColor.__new__(TColor)
+  self._tc = tc
+  return self
+
+Clear = _TColor(dmnsn_clear)
+
 ############
 # Canvases #
 ############
@@ -612,7 +650,7 @@ cdef class Canvas:
 
   def clear(self, c):
     """Clear a canvas with a solid color."""
-    dmnsn_canvas_clear(self._canvas, Color(c)._c)
+    dmnsn_canvas_clear(self._canvas, TColor(c)._tc)
 
   def write_PNG(self, path):
     """Export the canvas as a PNG file."""
@@ -660,10 +698,10 @@ cdef class _CanvasProxy:
     return self._canvas.height
   def __getitem__(self, int y):
     self._bounds_check(y)
-    return _Color(dmnsn_canvas_get_pixel(self._canvas, self._x, y), Color)
+    return _TColor(dmnsn_canvas_get_pixel(self._canvas, self._x, y))
   def __setitem__(self, int y, color):
     self._bounds_check(y)
-    dmnsn_canvas_set_pixel(self._canvas, self._x, y, Color(color)._c)
+    dmnsn_canvas_set_pixel(self._canvas, self._x, y, TColor(color)._tc)
 
   def _bounds_check(self, int y):
     if y < 0 or y >= self._canvas.height:
@@ -734,9 +772,9 @@ cdef class Pigment(_Transformable):
           self._pigment = (<Pigment>quick_color)._pigment
           DMNSN_INCREF(self._pigment)
         else:
-          self._pigment = dmnsn_new_solid_pigment(Color(quick_color)._c)
+          self._pigment = dmnsn_new_solid_pigment(TColor(quick_color)._tc)
       else:
-        self._pigment.quick_color = Color(quick_color)._c
+        self._pigment.quick_color = TColor(quick_color)._tc
 
   def __dealloc__(self):
     dmnsn_delete_pigment(self._pigment)
@@ -858,7 +896,7 @@ cdef class Ambient(Finish):
     Keyword arguments:
     color -- the color and intensity of the ambient light
     """
-    self._finish.ambient = dmnsn_new_basic_ambient(Color(color)._c)
+    self._finish.ambient = dmnsn_new_ambient(Color(color)._c)
 
 cdef class Diffuse(Finish):
   """Lambertian diffuse reflection."""
diff --git a/libdimension-python/tests/color.py b/libdimension-python/tests/color.py
index 9482545..8bf1836 100755
--- a/libdimension-python/tests/color.py
+++ b/libdimension-python/tests/color.py
@@ -24,21 +24,15 @@ from dimension import *
 # Treat warnings as errors for tests
 die_on_warnings(True)
 
-c = Color(0, 0.5, 1, trans = 0.5, filter = 0.35)
-assert repr(c) == "dimension.Color(0.0, 0.5, 1.0, 0.5, 0.35)", repr(c)
-assert str(c) == "Color<0.0, 0.5, 1.0, trans = 0.5, filter = 0.35>", str(c)
+c = Color(0, 0.5, 1)
+assert repr(c) == "dimension.Color(0.0, 0.5, 1.0)", repr(c)
+assert str(c) == "Color<0.0, 0.5, 1.0>", str(c)
 assert c.red    == 0,    c.red
 assert c.green  == 0.5,  c.green
 assert c.blue   == 1,    c.blue
-assert c.trans  == 0.5,  c.filter
-assert c.filter == 0.35, c.trans
-
-c = Color(1, 0.5, 0)
-assert str(c) == "Color<1.0, 0.5, 0.0>", str(c)
 
 assert Black   == Color(0, 0, 0), Black
 assert White   == Color(1, 1, 1), White
-assert Clear   == Color(0, 0, 0, trans = 1), Clear
 assert Red     == Color(1, 0, 0), Red
 assert Green   == Color(0, 1, 0), Green
 assert Blue    == Color(0, 0, 1), Blue
diff --git a/libdimension/Makefile.am b/libdimension/Makefile.am
index e99fe3c..aa5921e 100644
--- a/libdimension/Makefile.am
+++ b/libdimension/Makefile.am
@@ -63,12 +63,10 @@ nobase_include_HEADERS = dimension.h                                           \
 lib_LTLIBRARIES = libdimension.la
 
 libdimension_la_SOURCES = $(nobase_include_HEADERS)                            \
-                          ambient.c                                            \
                           camera.c                                             \
                           canvas.c                                             \
                           canvas_pigment.c                                     \
                           checker.c                                            \
-                          color.c                                              \
                           compiler-internal.h                                  \
                           cone.c                                               \
                           cube.c                                               \
diff --git a/libdimension/ambient.c b/libdimension/ambient.c
deleted file mode 100644
index 2f991f6..0000000
--- a/libdimension/ambient.c
+++ /dev/null
@@ -1,53 +0,0 @@
-/*************************************************************************
- * Copyright (C) 2010-2011 Tavian Barnes <tavianator@tavianator.com>     *
- *                                                                       *
- * This file is part of The Dimension Library.                           *
- *                                                                       *
- * The Dimension Library is free software; you can redistribute it and/  *
- * or modify it under the terms of the GNU Lesser General Public License *
- * as published by the Free Software Foundation; either version 3 of the *
- * License, or (at your option) any later version.                       *
- *                                                                       *
- * The Dimension Library is distributed in the hope that it will be      *
- * useful, but WITHOUT ANY WARRANTY; without even the implied warranty   *
- * of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU  *
- * Lesser General Public License for more details.                       *
- *                                                                       *
- * You should have received a copy of the GNU Lesser General Public      *
- * License along with this program.  If not, see                         *
- * <http://www.gnu.org/licenses/>.                                       *
- *************************************************************************/
-
-/**
- * @file
- * Ambient finish.
- */
-
-#include "dimension.h"
-#include <math.h>
-#include <stdlib.h>
-
-/** Ambient finish callback. */
-static dmnsn_color
-dmnsn_basic_ambient_fn(const dmnsn_ambient *ambient, dmnsn_color pigment)
-{
-  dmnsn_color *light = ambient->ptr;
-  dmnsn_color ret = dmnsn_color_illuminate(*light, pigment);
-  ret.trans  = 0.0;
-  ret.filter = 0.0;
-  return ret;
-}
-
-dmnsn_ambient *
-dmnsn_new_basic_ambient(dmnsn_color ambient)
-{
-  dmnsn_ambient *basic = dmnsn_new_ambient();
-
-  dmnsn_color *param = dmnsn_malloc(sizeof(dmnsn_color));
-  *param = ambient;
-
-  basic->ambient_fn = dmnsn_basic_ambient_fn;
-  basic->free_fn    = dmnsn_free;
-  basic->ptr        = param;
-  return basic;
-}
diff --git a/libdimension/canvas.c b/libdimension/canvas.c
index c0e8b2b..eeeb66b 100644
--- a/libdimension/canvas.c
+++ b/libdimension/canvas.c
@@ -35,7 +35,7 @@ dmnsn_new_canvas(size_t width, size_t height)
   canvas->width      = width;
   canvas->height     = height;
   canvas->optimizers = dmnsn_new_array(sizeof(dmnsn_canvas_optimizer));
-  canvas->pixels     = dmnsn_malloc(sizeof(dmnsn_color)*width*height);
+  canvas->pixels     = dmnsn_malloc(sizeof(dmnsn_tcolor)*width*height);
   canvas->refcount   = 1;
 
   return canvas;
@@ -67,16 +67,16 @@ dmnsn_canvas_optimize(dmnsn_canvas *canvas, dmnsn_canvas_optimizer optimizer)
   dmnsn_array_push(canvas->optimizers, &optimizer);
 }
 
-/* Set the color of a pixel */
+/* Set the value of a pixel */
 void
 dmnsn_canvas_set_pixel(dmnsn_canvas *canvas, size_t x, size_t y,
-                       dmnsn_color color)
+                       dmnsn_tcolor tcolor)
 {
   dmnsn_assert(x < canvas->width && y < canvas->height,
                "Canvas access out of bounds.");
 
   /* Set the pixel */
-  canvas->pixels[y*canvas->width + x] = color;
+  canvas->pixels[y*canvas->width + x] = tcolor;
 
   /* Call the optimizers */
   DMNSN_ARRAY_FOREACH (dmnsn_canvas_optimizer *, i, canvas->optimizers) {
@@ -86,11 +86,11 @@ dmnsn_canvas_set_pixel(dmnsn_canvas *canvas, size_t x, size_t y,
 
 /* Fill a canvas with a solid color */
 void
-dmnsn_canvas_clear(dmnsn_canvas *canvas, dmnsn_color color)
+dmnsn_canvas_clear(dmnsn_canvas *canvas, dmnsn_tcolor tcolor)
 {
   for (size_t x = 0; x < canvas->width; ++x) {
     for (size_t y = 0; y < canvas->height; ++y) {
-      dmnsn_canvas_set_pixel(canvas, x, y, color);
+      dmnsn_canvas_set_pixel(canvas, x, y, tcolor);
     }
   }
 }
diff --git a/libdimension/canvas_pigment.c b/libdimension/canvas_pigment.c
index 564ce00..6847b6c 100644
--- a/libdimension/canvas_pigment.c
+++ b/libdimension/canvas_pigment.c
@@ -26,16 +26,14 @@
 #include "dimension.h"
 
 /** Canvas pigment color callback. */
-static dmnsn_color
+static dmnsn_tcolor
 dmnsn_canvas_pigment_fn(const dmnsn_pigment *pigment, dmnsn_vector v)
 {
   dmnsn_canvas *canvas = pigment->ptr;
 
   size_t x = llround((fmod(v.x, 1.0) + 1.0)*(canvas->width  - 1));
   size_t y = llround((fmod(v.y, 1.0) + 1.0)*(canvas->height - 1));
-  dmnsn_color c = dmnsn_canvas_get_pixel(canvas,
-                                         x%canvas->width, y%canvas->height);
-  return c;
+  return dmnsn_canvas_get_pixel(canvas, x%canvas->width, y%canvas->height);
 }
 
 /** Canvas pigment destructor. */
diff --git a/libdimension/color.c b/libdimension/color.c
deleted file mode 100644
index 862c8ea..0000000
--- a/libdimension/color.c
+++ /dev/null
@@ -1,344 +0,0 @@
-/*************************************************************************
- * Copyright (C) 2009-2011 Tavian Barnes <tavianator@tavianator.com>     *
- *                                                                       *
- * This file is part of The Dimension Library.                           *
- *                                                                       *
- * The Dimension Library is free software; you can redistribute it and/  *
- * or modify it under the terms of the GNU Lesser General Public License *
- * as published by the Free Software Foundation; either version 3 of the *
- * License, or (at your option) any later version.                       *
- *                                                                       *
- * The Dimension Library is distributed in the hope that it will be      *
- * useful, but WITHOUT ANY WARRANTY; without even the implied warranty   *
- * of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU  *
- * Lesser General Public License for more details.                       *
- *                                                                       *
- * You should have received a copy of the GNU Lesser General Public      *
- * License along with this program.  If not, see                         *
- * <http://www.gnu.org/licenses/>.                                       *
- *************************************************************************/
-
-/**
- * @file
- * Color handling.
- */
-
-#include "dimension.h"
-
-/* Standard colors */
-const dmnsn_color dmnsn_black = {
-  .R = 0.0,
-  .G = 0.0,
-  .B = 0.0,
-  .trans  = 0.0,
-  .filter = 0.0,
-};
-const dmnsn_color dmnsn_white = {
-  .R = 1.0,
-  .G = 1.0,
-  .B = 1.0,
-  .trans  = 0.0,
-  .filter = 0.0,
-};
-const dmnsn_color dmnsn_clear = {
-  .R = 0.0,
-  .G = 0.0,
-  .B = 0.0,
-  .trans  = 1.0,
-  .filter = 0.0,
-};
-const dmnsn_color dmnsn_red = {
-  .R = 1.0,
-  .G = 0.0,
-  .B = 0.0,
-  .trans  = 0.0,
-  .filter = 0.0,
-};
-const dmnsn_color dmnsn_green = {
-  .R = 0.0,
-  .G = 1.0,
-  .B = 0.0,
-  .trans  = 0.0,
-  .filter = 0.0,
-};
-const dmnsn_color dmnsn_blue = {
-  .R = 0.0,
-  .G = 0.0,
-  .B = 1.0,
-  .trans  = 0.0,
-  .filter = 0.0,
-};
-const dmnsn_color dmnsn_magenta = {
-  .R = 1.0,
-  .G = 0.0,
-  .B = 1.0,
-  .trans  = 0.0,
-  .filter = 0.0,
-};
-const dmnsn_color dmnsn_orange = {
-  .R = 1.0,
-  .G = 0.21404114048223255,
-  .B = 0.0,
-  .trans  = 0.0,
-  .filter = 0.0,
-};
-const dmnsn_color dmnsn_yellow = {
-  .R = 1.0,
-  .G = 1.0,
-  .B = 0.0,
-  .trans  = 0.0,
-  .filter = 0.0,
-};
-const dmnsn_color dmnsn_cyan = {
-  .R = 0.0,
-  .G = 1.0,
-  .B = 1.0,
-  .filter = 0.0,
-  .trans  = 0.0,
-};
-
-/* sRGB's `C' function. */
-static inline double
-dmnsn_sRGB_C(double Clinear)
-{
-  /*
-   * If C represents R, G, and B, then the sRGB values are now found as follows:
-   *
-   *         { 12.92*Clinear,                Clinear <= 0.0031308
-   * Csrgb = {                1/2.4
-   *         { (1.055)*Clinear      - 0.055, Clinear >  0.0031308
-   */
-  if (Clinear == 1.0) {
-    return 1.0; /* Map 1.0 to 1.0 instead of 0.9999999999999999 */
-  } else if (Clinear > 0.0031308) {
-    return 1.055*pow(Clinear, 1.0/2.4) - 0.055;
-  } else {
-    return 12.92*Clinear;
-  }
-}
-
-/* Export dmnsn_sRGB_C */
-double
-dmnsn_sRGB_gamma(double Clinear)
-{
-  return dmnsn_sRGB_C(Clinear);
-}
-
-/* Convert to sRGB space */
-dmnsn_color
-dmnsn_color_to_sRGB(dmnsn_color color)
-{
-  dmnsn_color ret = {
-    .R = dmnsn_sRGB_C(color.R),
-    .G = dmnsn_sRGB_C(color.G),
-    .B = dmnsn_sRGB_C(color.B),
-    .trans  = color.trans,
-    .filter = color.filter,
-  };
-  return ret;
-}
-
-/* Inverse function of sRGB's `C' function, for the reverse conversion. */
-double
-dmnsn_sRGB_C_inv(double CsRGB)
-{
-  /*
-   * If C represents R, G, and B, then the Clinear values are now found as
-   * follows:
-   *
-   *           { Csrgb/12.92,                  Csrgb <= 0.04045
-   * Clinear = {                        1/2.4
-   *           { ((Csrgb + 0.055)/1.055)     , Csrgb >  0.04045
-   */
-  if (CsRGB == 1.0) {
-    return 1.0; /* Map 1.0 to 1.0 instead of 0.9999999999999999 */
-  } else if (CsRGB <= 0.040449936) {
-    return CsRGB/12.92;
-  } else {
-    return pow((CsRGB + 0.055)/1.055, 2.4);
-  }
-}
-
-/* Export dmnsn_sRGB_C_inv */
-double
-dmnsn_sRGB_inverse_gamma(double CsRGB)
-{
-  return dmnsn_sRGB_C_inv(CsRGB);
-}
-
-/* Convert from sRGB space */
-dmnsn_color
-dmnsn_color_from_sRGB(dmnsn_color color)
-{
-  dmnsn_color ret = {
-    .R = dmnsn_sRGB_C_inv(color.R),
-    .G = dmnsn_sRGB_C_inv(color.G),
-    .B = dmnsn_sRGB_C_inv(color.B),
-    .trans  = color.trans,
-    .filter = color.filter,
-  };
-  return ret;
-}
-
-/* Greyscale color intensity */
-double
-dmnsn_color_intensity(dmnsn_color color)
-{
-  return 0.2126*color.R + 0.7152*color.G + 0.0722*color.B;
-}
-
-/* Add two colors */
-dmnsn_color
-dmnsn_color_add(dmnsn_color c1, dmnsn_color c2)
-{
-  dmnsn_color ret = dmnsn_new_color(c1.R + c2.R, c1.G + c2.G, c1.B + c2.B);
-
-  /* Switch into absolute filter and transmittance space */
-  double n1 = dmnsn_color_intensity(c1), n2 = dmnsn_color_intensity(c2);
-  double f1 = c1.filter*c1.trans, f2 = c2.filter*c2.trans;
-  double t1 = c1.trans - f1, t2 = c2.trans - f2;
-  double f = 0.0;
-  if (n1 + n2 >= dmnsn_epsilon)
-    f = (n1*f1 + n2*f2)/(n1 + n2);
-  double t = t1 + t2;
-
-  /* Switch back */
-  ret.trans = f + t;
-  if (ret.trans >= dmnsn_epsilon)
-    ret.filter = f/ret.trans;
-
-  return ret;
-}
-
-/* Subtract two colors */
-dmnsn_color
-dmnsn_color_sub(dmnsn_color c1, dmnsn_color c2)
-{
-  dmnsn_color ret = dmnsn_new_color(c1.R - c2.R, c1.G - c2.G, c1.B - c2.B);
-
-  /* Switch into absolute filter and transmittance space */
-  double n1 = dmnsn_color_intensity(c1), n2 = dmnsn_color_intensity(c2);
-  double f1 = c1.filter*c1.trans, f2 = c2.filter*c2.trans;
-  double t1 = c1.trans - f1, t2 = c2.trans - f2;
-  double f = 0.0;
-  if (n1 - n2 >= dmnsn_epsilon)
-    f = (n1*f1 - n2*f2)/(n1 - n2);
-  double t = t1 - t2;
-
-  /* Switch back */
-  ret.trans = f + t;
-  if (ret.trans >= dmnsn_epsilon)
-    ret.filter = f/ret.trans;
-
-  return ret;
-}
-
-/* Multiply a color by a scalar */
-dmnsn_color
-dmnsn_color_mul(double n, dmnsn_color color)
-{
-  color.R *= n;
-  color.G *= n;
-  color.B *= n;
-  color.trans *= n;
-  return color;
-}
-
-/* For n in [0, 1] get the color in a gradient between c1 and c2 */
-dmnsn_color
-dmnsn_color_gradient(dmnsn_color c1, dmnsn_color c2, double n)
-{
-  dmnsn_color ret = dmnsn_new_color(
-    n*(c2.R - c1.R) + c1.R,
-    n*(c2.G - c1.G) + c1.G,
-    n*(c2.B - c1.B) + c1.B
-  );
-
-  /* Switch into absolute filter and transmittance space */
-  double f1 = c1.filter*c1.trans, f2 = c2.filter*c2.trans;
-  double t1 = c1.trans - f1, t2 = c2.trans - f2;
-  double f = n*(f2 - f1) + f1;
-  double t = n*(t2 - t1) + t1;
-
-  /* Switch back */
-  ret.trans = f + t;
-  ret.filter = 0.0;
-  if (ret.trans >= dmnsn_epsilon)
-    ret.filter = f/ret.trans;
-
-  return ret;
-}
-
-/* Filters `light' through `filter' */
-dmnsn_color
-dmnsn_filter_light(dmnsn_color light, dmnsn_color filter)
-{
-  dmnsn_color transmitted = dmnsn_color_mul(
-    (1.0 - filter.filter)*filter.trans,
-    light
-  );
-  dmnsn_color filtered = dmnsn_color_mul(
-    filter.filter*filter.trans,
-    dmnsn_color_illuminate(filter, light)
-  );
-
-  dmnsn_color ret = dmnsn_new_color(
-    transmitted.R + filtered.R,
-    transmitted.G + filtered.G,
-    transmitted.B + filtered.B
-  );
-
-  /* Switch into absolute filter and transmittance space */
-  double lf = light.filter*light.trans, ff = filter.filter*filter.trans;
-  double lt = light.trans - lf, ft = filter.trans - ff;
-  double f = lf*(dmnsn_color_intensity(filtered) + ft) + lt*ff;
-  double t = ft*lt;
-
-  /* Switch back */
-  ret.trans = f + t;
-  if (ret.trans >= dmnsn_epsilon)
-    ret.filter = f/ret.trans;
-
-  return ret;
-}
-
-/* Adds the background contribution, `filtered', to `filter' */
-dmnsn_color
-dmnsn_apply_transparency(dmnsn_color filtered, dmnsn_color filter)
-{
-  dmnsn_color ret = dmnsn_color_add(
-    dmnsn_color_mul(1.0 - filter.trans, filter),
-    filtered
-  );
-  ret.trans  = filtered.trans;
-  ret.filter = filtered.filter;
-  return ret;
-}
-
-/* Adds the background contribution of `color' to `filter' */
-dmnsn_color
-dmnsn_apply_filter(dmnsn_color color, dmnsn_color filter)
-{
-  return dmnsn_apply_transparency(dmnsn_filter_light(color, filter), filter);
-}
-
-/* Remove the filter channel */
-dmnsn_color
-dmnsn_remove_filter(dmnsn_color color)
-{
-  double intensity = dmnsn_color_intensity(color);
-  double newtrans = (1.0 - (1.0 - intensity)*color.filter)*color.trans;
-  if (1.0 - newtrans >= dmnsn_epsilon)
-    color = dmnsn_color_mul((1.0 - color.trans)/(1.0 - newtrans), color);
-  color.trans  = newtrans;
-  color.filter = 0.0;
-  return color;
-}
-
-/* Illuminates `color' with `light' */
-dmnsn_color
-dmnsn_color_illuminate(dmnsn_color light, dmnsn_color color)
-{
-  return dmnsn_new_color5(light.R*color.R, light.G*color.G, light.B*color.B,
-                          color.filter, color.trans);
-}
diff --git a/libdimension/dimension.h b/libdimension/dimension.h
index e427b17..708cd8a 100644
--- a/libdimension/dimension.h
+++ b/libdimension/dimension.h
@@ -85,6 +85,7 @@ typedef void dmnsn_free_fn(void *ptr);
 #include <dimension/geometry.h>
 #include <dimension/polynomial.h>
 #include <dimension/color.h>
+#include <dimension/tcolor.h>
 #include <dimension/canvas.h>
 #include <dimension/gl.h>
 #include <dimension/png.h>
diff --git a/libdimension/dimension/canvas.h b/libdimension/dimension/canvas.h
index 48a64c1..ba06b8c 100644
--- a/libdimension/dimension/canvas.h
+++ b/libdimension/dimension/canvas.h
@@ -26,7 +26,7 @@
 #include <stddef.h>
 
 /** A canvas, or image. */
-typedef struct {
+typedef struct dmnsn_canvas {
   size_t width;  /**< Canvas width. */
   size_t height; /**< Canvas height. */
 
@@ -38,7 +38,7 @@ typedef struct {
    * Stored in first-quadrant representation (origin is bottom-left).  The pixel
    * at (a,b) is accessible as pixels[b*width + a].
    */
-  dmnsn_color *pixels;
+  dmnsn_tcolor *pixels;
 
   dmnsn_refcount refcount; /**< @internal Reference count. */
 } dmnsn_canvas;
@@ -94,9 +94,9 @@ void dmnsn_canvas_optimize(dmnsn_canvas *canvas,
  * @param[in] canvas  The canvas to access.
  * @param[in] x       The x coordinate.
  * @param[in] y       The y coordinate.
- * @return The color of the canvas at (\p x, \p y).
+ * @return The color of the pixel at (\p x, \p y).
  */
-DMNSN_INLINE dmnsn_color
+DMNSN_INLINE dmnsn_tcolor
 dmnsn_canvas_get_pixel(const dmnsn_canvas *canvas, size_t x, size_t y)
 {
   dmnsn_assert(x < canvas->width && y < canvas->height,
@@ -105,18 +105,18 @@ dmnsn_canvas_get_pixel(const dmnsn_canvas *canvas, size_t x, size_t y)
 }
 
 /**
- * Set the color of a pixel.
+ * Set the value of a pixel.
  * @param[in,out] canvas  The canvas to modify.
  * @param[in]     x       The x coordinate of the pixel.
  * @param[in]     y       The y coordinate of the pixel.
- * @param[in]     color   The color to set the pixel at (\p x, \p y) to.
+ * @param[in]     tcolor  The value to set the pixel at (\p x, \p y) to.
  */
 void dmnsn_canvas_set_pixel(dmnsn_canvas *canvas, size_t x, size_t y,
-                            dmnsn_color color);
+                            dmnsn_tcolor tcolor);
 
 /**
  * Clear a canvas uniformly with a given color.
  * @param[in,out] canvas  The canvas to erase.
- * @param[in]     color   The color to paint it with.
+ * @param[in]     tcolor  The color to paint it with.
  */
-void dmnsn_canvas_clear(dmnsn_canvas *canvas, dmnsn_color color);
+void dmnsn_canvas_clear(dmnsn_canvas *canvas, dmnsn_tcolor tcolor);
diff --git a/libdimension/dimension/color.h b/libdimension/dimension/color.h
index 295400b..34f3884 100644
--- a/libdimension/dimension/color.h
+++ b/libdimension/dimension/color.h
@@ -20,97 +20,167 @@
 
 /**
  * @file
- * Color-related types and operations.
+ * Colors.
  */
 
 #include <stdbool.h>
 
 /** A color value. */
 typedef struct {
-  double R; /**< Red. */
-  double G; /**< Green. */
-  double B; /**< Blue. */
-
-  double trans;  /**< Transparency. */
-  double filter; /**< Degree of filtering. */
+  double R; /**< Red component. */
+  double G; /**< Green component. */
+  double B; /**< Blue component. */
 } dmnsn_color;
 
 /** A standard format string for colors. */
-#define DMNSN_COLOR_FORMAT                                      \
-  "<red = %g, green = %g, blue = %g, trans = %g, filter = %g>"
+#define DMNSN_COLOR_FORMAT "Color<%g, %g, %g>"
 /** The appropriate arguements to printf() a color. */
-#define DMNSN_COLOR_PRINTF(c) (c).R, (c).G, (c).B, (c).trans, (c).filter
-
-/* Standard colors */
-extern const dmnsn_color dmnsn_black;   /**< Black.   */
-extern const dmnsn_color dmnsn_white;   /**< White.   */
-extern const dmnsn_color dmnsn_clear;   /**< Clear.   */
-extern const dmnsn_color dmnsn_red;     /**< Red.     */
-extern const dmnsn_color dmnsn_green;   /**< Green.   */
-extern const dmnsn_color dmnsn_blue;    /**< Blue.    */
-extern const dmnsn_color dmnsn_magenta; /**< Magenta. */
-extern const dmnsn_color dmnsn_orange;  /**< Orange.  */
-extern const dmnsn_color dmnsn_yellow;  /**< Yellow.  */
-extern const dmnsn_color dmnsn_cyan;    /**< Cyan.    */
-
-/* Color construction */
+#define DMNSN_COLOR_PRINTF(c) (c).R, (c).G, (c).B
 
 /** Construct a new color. */
 DMNSN_INLINE dmnsn_color
 dmnsn_new_color(double R, double G, double B)
 {
-  dmnsn_color ret = { R, G, B, 0.0, 0.0 };
+  dmnsn_color ret = { R, G, B };
   return ret;
 }
 
-/** Construct a new color with transparent components. */
-DMNSN_INLINE dmnsn_color
-dmnsn_new_color5(double R, double G, double B, double trans, double filter)
+/** Apply sRGB gamma */
+DMNSN_INLINE double
+dmnsn_sRGB_gamma(double Clinear)
 {
-  dmnsn_color ret = { R, G, B, trans, filter };
-  return ret;
+  /*
+   * If C represents R, G, and B, then the sRGB values are now found as follows:
+   *
+   *         { 12.92*Clinear,                Clinear <= 0.0031308
+   * Csrgb = {                1/2.4
+   *         { (1.055)*Clinear      - 0.055, Clinear >  0.0031308
+   */
+  if (Clinear == 1.0) {
+    return 1.0; /* Map 1.0 to 1.0 instead of 0.9999999999999999 */
+  } else if (Clinear > 0.0031308) {
+    return 1.055*pow(Clinear, 1.0/2.4) - 0.055;
+  } else {
+    return 12.92*Clinear;
+  }
 }
 
-/** Saturate the color components to [0.0, 1.0]. */
+/** Convert to sRGB space. */
 DMNSN_INLINE dmnsn_color
-dmnsn_color_saturate(dmnsn_color color)
+dmnsn_color_to_sRGB(dmnsn_color color)
 {
-  color.R      = dmnsn_min(dmnsn_max(color.R,      0.0), 1.0);
-  color.G      = dmnsn_min(dmnsn_max(color.G,      0.0), 1.0);
-  color.B      = dmnsn_min(dmnsn_max(color.B,      0.0), 1.0);
-  color.trans  = dmnsn_min(dmnsn_max(color.trans,  0.0), 1.0);
-  color.filter = dmnsn_min(dmnsn_max(color.filter, 0.0), 1.0);
-  return color;
+  return dmnsn_new_color(
+    dmnsn_sRGB_gamma(color.R),
+    dmnsn_sRGB_gamma(color.G),
+    dmnsn_sRGB_gamma(color.B)
+  );
 }
 
-/* Perceptual color manipulation */
-
-/** Apply sRGB gamma */
-double dmnsn_sRGB_gamma(double Clinear);
-/** Convert to sRGB space. */
-dmnsn_color dmnsn_color_to_sRGB(dmnsn_color color);
 /** Remove sRGB gamma */
-double dmnsn_sRGB_inverse_gamma(double CsRGB);
+DMNSN_INLINE double
+dmnsn_sRGB_inverse_gamma(double CsRGB)
+{
+  /*
+   * If C represents R, G, and B, then the Clinear values are now found as
+   * follows:
+   *
+   *           { Csrgb/12.92,                  Csrgb <= 0.04045
+   * Clinear = {                        1/2.4
+   *           { ((Csrgb + 0.055)/1.055)     , Csrgb >  0.04045
+   */
+  if (CsRGB == 1.0) {
+    return 1.0; /* Map 1.0 to 1.0 instead of 0.9999999999999999 */
+  } else if (CsRGB <= 0.040449936) {
+    return CsRGB/12.92;
+  } else {
+    return pow((CsRGB + 0.055)/1.055, 2.4);
+  }
+}
+
 /** Convert from sRGB space. */
-dmnsn_color dmnsn_color_from_sRGB(dmnsn_color color);
+DMNSN_INLINE dmnsn_color
+dmnsn_color_from_sRGB(dmnsn_color color)
+{
+  return dmnsn_new_color(
+    dmnsn_sRGB_inverse_gamma(color.R),
+    dmnsn_sRGB_inverse_gamma(color.G),
+    dmnsn_sRGB_inverse_gamma(color.B)
+  );
+}
 
 /** Greyscale color intensity. */
-double dmnsn_color_intensity(dmnsn_color color);
+DMNSN_INLINE double
+dmnsn_color_intensity(dmnsn_color color)
+{
+  return 0.2126*color.R + 0.7152*color.G + 0.0722*color.B;
+}
+
 /** Add two colors together. */
-dmnsn_color dmnsn_color_add(dmnsn_color lhs, dmnsn_color rhs);
+DMNSN_INLINE dmnsn_color
+dmnsn_color_add(dmnsn_color lhs, dmnsn_color rhs)
+{
+  return dmnsn_new_color(lhs.R + rhs.R, lhs.G + rhs.G, lhs.B + rhs.B);
+}
+
 /** Subtract two colors. */
-dmnsn_color dmnsn_color_sub(dmnsn_color lhs, dmnsn_color rhs);
-/** Multiply a color's intensity by \p n. */
-dmnsn_color dmnsn_color_mul(double n, dmnsn_color color);
+DMNSN_INLINE dmnsn_color
+dmnsn_color_sub(dmnsn_color lhs, dmnsn_color rhs)
+{
+  return dmnsn_new_color(lhs.R - rhs.R, lhs.G - rhs.G, lhs.B - rhs.B);
+}
+
+/** Scale a color's intensity. */
+DMNSN_INLINE dmnsn_color
+dmnsn_color_mul(double n, dmnsn_color color)
+{
+  return dmnsn_new_color(n*color.R, n*color.G, n*color.B);
+}
+
 /** Return the color at \p n on a gradient from \p c1 at 0 to \p c2 at 1. */
-dmnsn_color dmnsn_color_gradient(dmnsn_color c1, dmnsn_color c2, double n);
-/** Filter \p light through \p filter. */
-dmnsn_color dmnsn_filter_light(dmnsn_color light, dmnsn_color filter);
-/** Add the background contribution \p filtered to \p filter. */
-dmnsn_color dmnsn_apply_transparency(dmnsn_color filtered, dmnsn_color filter);
-/** Add the background contribution of \p color to \p filter. */
-dmnsn_color dmnsn_apply_filter(dmnsn_color color, dmnsn_color filter);
-/** Convert the color into a close equivalent with only transmittance. */
-dmnsn_color dmnsn_remove_filter(dmnsn_color color);
+DMNSN_INLINE dmnsn_color
+dmnsn_color_gradient(dmnsn_color c1, dmnsn_color c2, double n)
+{
+  return dmnsn_new_color(
+    n*(c2.R - c1.R) + c1.R,
+    n*(c2.G - c1.G) + c1.G,
+    n*(c2.B - c1.B) + c1.B
+  );
+}
+
 /** Illuminate \p color with \p light. */
-dmnsn_color dmnsn_color_illuminate(dmnsn_color light, dmnsn_color color);
+DMNSN_INLINE dmnsn_color
+dmnsn_color_illuminate(dmnsn_color light, dmnsn_color color)
+{
+  return dmnsn_new_color(light.R*color.R, light.G*color.G, light.B*color.B);
+}
+
+/** Saturate the color components to [0.0, 1.0]. */
+DMNSN_INLINE dmnsn_color
+dmnsn_color_saturate(dmnsn_color color)
+{
+  color.R = dmnsn_min(dmnsn_max(color.R, 0.0), 1.0);
+  color.G = dmnsn_min(dmnsn_max(color.G, 0.0), 1.0);
+  color.B = dmnsn_min(dmnsn_max(color.B, 0.0), 1.0);
+  return color;
+}
+
+/* Standard colors */
+
+/** Black. */
+#define dmnsn_black   dmnsn_new_color(0.0, 0.0, 0.0)
+/** White. */
+#define dmnsn_white   dmnsn_new_color(1.0, 1.0, 1.0)
+/** Red. */
+#define dmnsn_red     dmnsn_new_color(1.0, 0.0, 0.0)
+/** Green. */
+#define dmnsn_green   dmnsn_new_color(0.0, 1.0, 0.0)
+/** Blue. */
+#define dmnsn_blue    dmnsn_new_color(0.0, 0.0, 1.0)
+/** Magenta. */
+#define dmnsn_magenta dmnsn_new_color(1.0, 0.0, 1.0)
+/** Orange. */
+#define dmnsn_orange  dmnsn_new_color(1.0, 0.21404114048223255, 0.0)
+/** Yellow. */
+#define dmnsn_yellow  dmnsn_new_color(1.0, 1.0, 0.0)
+/** Cyan. */
+#define dmnsn_cyan    dmnsn_new_color(0.0, 1.0, 1.0)
diff --git a/libdimension/dimension/finish.h b/libdimension/dimension/finish.h
index 2e3b48c..4ac9239 100644
--- a/libdimension/dimension/finish.h
+++ b/libdimension/dimension/finish.h
@@ -38,14 +38,12 @@ typedef dmnsn_color dmnsn_ambient_fn(const dmnsn_ambient *ambient,
 
 /** Ambient finish component. */
 struct dmnsn_ambient {
-  dmnsn_ambient_fn *ambient_fn; /**< Ambient callback. */
-  dmnsn_free_fn    *free_fn;    /**< Destructor callback. */
-  void             *ptr;        /**< Generic data pointer. */
-  dmnsn_refcount   refcount;    /**< @internal Reference count. */
+  dmnsn_color ambient;     /**< Ambient light. */
+  dmnsn_refcount refcount; /**< @internal Reference count. */
 };
 
 /** Allocate a dummy ambient component. */
-dmnsn_ambient *dmnsn_new_ambient(void);
+dmnsn_ambient *dmnsn_new_ambient(dmnsn_color ambient);
 /** Delete an ambient component. */
 void dmnsn_delete_ambient(dmnsn_ambient *ambient);
 
diff --git a/libdimension/dimension/finishes.h b/libdimension/dimension/finishes.h
index d9cd14c..7ed66d3 100644
--- a/libdimension/dimension/finishes.h
+++ b/libdimension/dimension/finishes.h
@@ -24,13 +24,6 @@
  */
 
 /**
- * Ambient finish.
- * @param[in] ambient  The color of the ambient light.
- * @return An ambient finish component.
- */
-dmnsn_ambient *dmnsn_new_basic_ambient(dmnsn_color ambient);
-
-/**
  * Regular diffuse finish.
  * @param[in] diffuse  The diffuse reflection coefficient.
  * @return A diffuse finish component.
diff --git a/libdimension/dimension/pigment.h b/libdimension/dimension/pigment.h
index 716c28b..176ff28 100644
--- a/libdimension/dimension/pigment.h
+++ b/libdimension/dimension/pigment.h
@@ -32,8 +32,8 @@ typedef struct dmnsn_pigment dmnsn_pigment;
  * @param[in] v        The point to color.
  * @return The color of the pigment at \p v.
  */
-typedef dmnsn_color dmnsn_pigment_fn(const dmnsn_pigment *pigment,
-                                     dmnsn_vector v);
+typedef dmnsn_tcolor dmnsn_pigment_fn(const dmnsn_pigment *pigment,
+                                      dmnsn_vector v);
 
 /**
  * Pigment initializer callback.
@@ -51,7 +51,7 @@ struct dmnsn_pigment {
   dmnsn_matrix trans_inv; /**< The inverse of the transformation matrix. */
 
   /** Quick color -- used for low-quality renders. */
-  dmnsn_color quick_color;
+  dmnsn_tcolor quick_color;
 
   /** Generic pointer. */
   void *ptr;
@@ -86,5 +86,5 @@ void dmnsn_pigment_initialize(dmnsn_pigment *pigment);
  * @param[in] v        The point to color.
  * @return The color at \p v.
  */
-dmnsn_color dmnsn_pigment_evaluate(const dmnsn_pigment *pigment,
-                                   dmnsn_vector v);
+dmnsn_tcolor dmnsn_pigment_evaluate(const dmnsn_pigment *pigment,
+                                    dmnsn_vector v);
diff --git a/libdimension/dimension/pigments.h b/libdimension/dimension/pigments.h
index 3584167..383e38b 100644
--- a/libdimension/dimension/pigments.h
+++ b/libdimension/dimension/pigments.h
@@ -28,7 +28,7 @@
  * @param[in] color  The color of the pigment.
  * @return A pigment with the color \p color everywhere.
  */
-dmnsn_pigment *dmnsn_new_solid_pigment(dmnsn_color color);
+dmnsn_pigment *dmnsn_new_solid_pigment(dmnsn_tcolor color);
 
 /**
  * An image map.  The image (regardless of its real dimensions) is projected
@@ -53,15 +53,6 @@ typedef enum dmnsn_pigment_map_flags {
 dmnsn_map *dmnsn_new_pigment_map(void);
 
 /**
- * Add a raw color to a pigment map.
- * Shorthand for creating a solid pigment and adding it manually.
- * @param[in,out] map    The pigment map to add to.
- * @param[in]     n      The index of the entry.
- * @param[in]     color  The value of the entry.
- */
-void dmnsn_pigment_map_add_color(dmnsn_map *map, double n, dmnsn_color color);
-
-/**
  * A pigment-mapped pigment.
  * @param[in,out] pattern  The pattern of the pigment.
  * @param[in,out] map      The pigment map to apply to the pattern.
diff --git a/libdimension/dimension/tcolor.h b/libdimension/dimension/tcolor.h
new file mode 100644
index 0000000..d1b7338
--- /dev/null
+++ b/libdimension/dimension/tcolor.h
@@ -0,0 +1,100 @@
+/*************************************************************************
+ * Copyright (C) 2009-2011 Tavian Barnes <tavianator@tavianator.com>     *
+ *                                                                       *
+ * This file is part of The Dimension Library.                           *
+ *                                                                       *
+ * The Dimension Library is free software; you can redistribute it and/  *
+ * or modify it under the terms of the GNU Lesser General Public License *
+ * as published by the Free Software Foundation; either version 3 of the *
+ * License, or (at your option) any later version.                       *
+ *                                                                       *
+ * The Dimension Library is distributed in the hope that it will be      *
+ * useful, but WITHOUT ANY WARRANTY; without even the implied warranty   *
+ * of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU  *
+ * Lesser General Public License for more details.                       *
+ *                                                                       *
+ * You should have received a copy of the GNU Lesser General Public      *
+ * License along with this program.  If not, see                         *
+ * <http://www.gnu.org/licenses/>.                                       *
+ *************************************************************************/
+
+/**
+ * @file
+ * Colors with transparency information.
+ */
+
+/** A transparent color. */
+typedef struct dmnsn_tcolor {
+  dmnsn_color c; /**< Color. */
+  double T;      /**< Transparency. */
+  double F;      /**< Proportion of filtered transparency. */
+} dmnsn_tcolor;
+
+/** Create a tcolor. */
+DMNSN_INLINE dmnsn_tcolor
+dmnsn_new_tcolor(dmnsn_color c, double T, double F)
+{
+  dmnsn_tcolor ret = { c, T, F };
+  return ret;
+}
+
+/** Convert a dmnsn_color into a dmnsn_tcolor. */
+#define DMNSN_TCOLOR(c) dmnsn_new_tcolor(c, 0.0, 0.0)
+
+/** Create a tcolor with individually-specified components. */
+DMNSN_INLINE dmnsn_tcolor
+dmnsn_new_tcolor5(double R, double G, double B, double T, double F)
+{
+  dmnsn_tcolor ret = { dmnsn_new_color(R, G, B), T, F };
+  return ret;
+}
+
+/** Return the color at \p n on a gradient from \p c1 at 0 to \p c2 at 1. */
+DMNSN_INLINE dmnsn_tcolor
+dmnsn_tcolor_gradient(dmnsn_tcolor c1, dmnsn_tcolor c2, double n)
+{
+  return dmnsn_new_tcolor(
+    dmnsn_color_gradient(c1.c, c2.c, n),
+    n*(c2.T - c1.T) + c1.T,
+    n*(c2.F - c1.F) + c1.F
+  );
+}
+
+/** Filter \p light through \p filter. */
+DMNSN_INLINE dmnsn_color
+dmnsn_tcolor_filter(dmnsn_color light, dmnsn_tcolor filter)
+{
+  dmnsn_color filtered =
+    dmnsn_color_mul(filter.T*filter.F, dmnsn_color_illuminate(light, filter.c));
+  dmnsn_color transmitted = dmnsn_color_mul(filter.T*(1.0 - filter.F), light);
+  return dmnsn_color_add(filtered, transmitted);
+}
+
+/** Remove the filtered component of a tcolor. */
+DMNSN_INLINE dmnsn_tcolor
+dmnsn_tcolor_remove_filter(dmnsn_tcolor tcolor)
+{
+  double intensity = dmnsn_color_intensity(tcolor.c);
+  double newtrans = (1.0 - (1.0 - intensity)*tcolor.F)*tcolor.T;
+  if (1.0 - newtrans >= dmnsn_epsilon) {
+    tcolor.c = dmnsn_color_mul((1.0 - tcolor.T)/(1.0 - newtrans), tcolor.c);
+  }
+  tcolor.T = newtrans;
+  tcolor.F = 0.0;
+  return tcolor;
+}
+
+/** Saturate the tcolor components to [0.0, 1.0]. */
+DMNSN_INLINE dmnsn_tcolor
+dmnsn_tcolor_saturate(dmnsn_tcolor tcolor)
+{
+  tcolor.c = dmnsn_color_saturate(tcolor.c);
+  tcolor.T = dmnsn_min(dmnsn_max(tcolor.T, 0.0), 1.0);
+  tcolor.F = dmnsn_min(dmnsn_max(tcolor.F, 0.0), 1.0);
+  return tcolor;
+}
+
+/* Standard tcolors */
+
+/** Clear. */
+#define dmnsn_clear dmnsn_new_tcolor5(0.0, 0.0, 0.0, 0.0, 0.0)
diff --git a/libdimension/finish.c b/libdimension/finish.c
index 90f41ae..cd922ff 100644
--- a/libdimension/finish.c
+++ b/libdimension/finish.c
@@ -26,11 +26,10 @@
 #include "dimension-internal.h"
 
 dmnsn_ambient *
-dmnsn_new_ambient(void)
+dmnsn_new_ambient(dmnsn_color ambient_light)
 {
   dmnsn_ambient *ambient = dmnsn_malloc(sizeof(dmnsn_ambient));
-  ambient->free_fn  = NULL;
-  ambient->ptr      = NULL;
+  ambient->ambient = ambient_light;
   ambient->refcount = 1;
   return ambient;
 }
@@ -39,9 +38,6 @@ void
 dmnsn_delete_ambient(dmnsn_ambient *ambient)
 {
   if (DMNSN_DECREF(ambient)) {
-    if (ambient->free_fn) {
-      ambient->free_fn(ambient->ptr);
-    }
     dmnsn_free(ambient);
   }
 }
diff --git a/libdimension/gl.c b/libdimension/gl.c
index 1250307..e2d222c 100644
--- a/libdimension/gl.c
+++ b/libdimension/gl.c
@@ -40,10 +40,6 @@ dmnsn_gl_optimize_canvas(dmnsn_canvas *canvas)
 int
 dmnsn_gl_write_canvas(const dmnsn_canvas *canvas)
 {
-  GLushort *pixels; /* Array of 16-bit ints in RGBA order */
-  GLushort *pixel;
-  dmnsn_color color;
-
   size_t width = canvas->width;
   size_t height = canvas->height;
 
@@ -56,21 +52,21 @@ dmnsn_gl_write_canvas(const dmnsn_canvas *canvas)
   }
 
   /* We couldn't, so transform the canvas to RGB now */
-  pixels = dmnsn_malloc(4*width*height*sizeof(GLushort));
+  GLushort *pixels = dmnsn_malloc(4*width*height*sizeof(GLushort));
 
   for (size_t y = 0; y < height; ++y) {
     for (size_t x = 0; x < width; ++x) {
-      pixel = pixels + 4*(y*width + x);
+      GLushort *pixel = pixels + 4*(y*width + x);
 
-      color = dmnsn_canvas_get_pixel(canvas, x, y);
-      color = dmnsn_remove_filter(color);
-      color = dmnsn_color_to_sRGB(color);
-      color = dmnsn_color_saturate(color);
+      dmnsn_tcolor tcolor = dmnsn_canvas_get_pixel(canvas, x, y);
+      tcolor = dmnsn_tcolor_remove_filter(tcolor);
+      tcolor.c = dmnsn_color_to_sRGB(tcolor.c);
+      tcolor = dmnsn_tcolor_saturate(tcolor);
 
-      pixel[0] = lround(color.R*UINT16_MAX);
-      pixel[1] = lround(color.G*UINT16_MAX);
-      pixel[2] = lround(color.B*UINT16_MAX);
-      pixel[3] = lround(color.trans*UINT16_MAX);
+      pixel[0] = lround(tcolor.c.R*UINT16_MAX);
+      pixel[1] = lround(tcolor.c.G*UINT16_MAX);
+      pixel[2] = lround(tcolor.c.B*UINT16_MAX);
+      pixel[3] = lround(tcolor.T*UINT16_MAX);
     }
   }
 
@@ -102,13 +98,15 @@ dmnsn_gl_read_canvas(size_t x0, size_t y0,
     for (size_t x = 0; x < width; ++x) {
       GLushort *pixel = pixels + 4*(y*width + x);
 
-      dmnsn_color color = dmnsn_new_color5((double)pixel[0]/UINT16_MAX,
-                                           (double)pixel[1]/UINT16_MAX,
-                                           (double)pixel[2]/UINT16_MAX,
-                                           (double)pixel[3]/UINT16_MAX,
-                                           0.0);
-      color = dmnsn_color_from_sRGB(color);
-      dmnsn_canvas_set_pixel(canvas, x, y, color);
+      dmnsn_tcolor tcolor = dmnsn_new_tcolor5(
+        (double)pixel[0]/UINT16_MAX,
+        (double)pixel[1]/UINT16_MAX,
+        (double)pixel[2]/UINT16_MAX,
+        (double)pixel[3]/UINT16_MAX,
+        0.0
+      );
+      tcolor.c = dmnsn_color_from_sRGB(tcolor.c);
+      dmnsn_canvas_set_pixel(canvas, x, y, tcolor);
     }
   }
 
diff --git a/libdimension/lambertian.c b/libdimension/lambertian.c
index 8227cc5..16dc910 100644
--- a/libdimension/lambertian.c
+++ b/libdimension/lambertian.c
@@ -35,11 +35,7 @@ dmnsn_lambertian_diffuse_fn(const dmnsn_diffuse *diffuse,
 {
   double *coeff = diffuse->ptr;
   double diffuse_factor = fabs((*coeff)*dmnsn_vector_dot(ray, normal));
-  dmnsn_color ret
-    = dmnsn_color_mul(diffuse_factor, dmnsn_color_illuminate(light, color));
-  ret.filter = 0.0;
-  ret.trans  = 0.0;
-  return ret;
+  return dmnsn_color_mul(diffuse_factor, dmnsn_color_illuminate(light, color));
 }
 
 dmnsn_diffuse *
diff --git a/libdimension/pigment.c b/libdimension/pigment.c
index 74159ee..c518005 100644
--- a/libdimension/pigment.c
+++ b/libdimension/pigment.c
@@ -34,7 +34,7 @@ dmnsn_new_pigment(void)
   pigment->initialize_fn = NULL;
   pigment->free_fn       = NULL;
   pigment->trans         = dmnsn_identity_matrix();
-  pigment->quick_color   = dmnsn_black;
+  pigment->quick_color   = DMNSN_TCOLOR(dmnsn_black);
   pigment->refcount      = 1;
   pigment->initialized   = false;
   return pigment;
@@ -67,7 +67,7 @@ dmnsn_pigment_initialize(dmnsn_pigment *pigment)
 }
 
 /* Evaluate a pigment */
-dmnsn_color
+dmnsn_tcolor
 dmnsn_pigment_evaluate(const dmnsn_pigment *pigment, dmnsn_vector v)
 {
   if (pigment->pigment_fn) {
diff --git a/libdimension/pigment_map.c b/libdimension/pigment_map.c
index 09665c0..f34be5a 100644
--- a/libdimension/pigment_map.c
+++ b/libdimension/pigment_map.c
@@ -56,13 +56,6 @@ typedef struct dmnsn_pigment_map_payload {
   dmnsn_pigment_map_flags flags;
 } dmnsn_pigment_map_payload;
 
-void
-dmnsn_pigment_map_add_color(dmnsn_map *map, double n, dmnsn_color color)
-{
-  dmnsn_pigment *pigment = dmnsn_new_solid_pigment(color);
-  dmnsn_map_add_entry(map, n, &pigment);
-}
-
 /** Free a pigment_map payload. */
 static void
 dmnsn_delete_pigment_map_payload(void *ptr)
@@ -74,7 +67,7 @@ dmnsn_delete_pigment_map_payload(void *ptr)
 }
 
 /** pigment_map pigment callback. */
-static dmnsn_color
+static dmnsn_tcolor
 dmnsn_pigment_map_pigment_fn(const dmnsn_pigment *pigment, dmnsn_vector v)
 {
   const dmnsn_pigment_map_payload *payload = pigment->ptr;
@@ -82,16 +75,16 @@ dmnsn_pigment_map_pigment_fn(const dmnsn_pigment *pigment, dmnsn_vector v)
   dmnsn_pigment *pigment1, *pigment2;
   dmnsn_map_evaluate(payload->map, dmnsn_pattern_value(payload->pattern, v),
                      &n, &pigment1, &pigment2);
-  dmnsn_color color1 = dmnsn_pigment_evaluate(pigment1, v);
-  dmnsn_color color2 = dmnsn_pigment_evaluate(pigment2, v);
+  dmnsn_tcolor color1 = dmnsn_pigment_evaluate(pigment1, v);
+  dmnsn_tcolor color2 = dmnsn_pigment_evaluate(pigment2, v);
 
   if (payload->flags == DMNSN_PIGMENT_MAP_SRGB) {
-    color1 = dmnsn_color_to_sRGB(color1);
-    color2 = dmnsn_color_to_sRGB(color2);
+    color1.c = dmnsn_color_to_sRGB(color1.c);
+    color2.c = dmnsn_color_to_sRGB(color2.c);
   }
-  dmnsn_color ret = dmnsn_color_gradient(color1, color2, n);
+  dmnsn_tcolor ret = dmnsn_tcolor_gradient(color1, color2, n);
   if (payload->flags == DMNSN_PIGMENT_MAP_SRGB) {
-    ret = dmnsn_color_from_sRGB(ret);
+    ret.c = dmnsn_color_from_sRGB(ret.c);
   }
 
   return ret;
diff --git a/libdimension/png.c b/libdimension/png.c
index 7631804..62f0fcd 100644
--- a/libdimension/png.c
+++ b/libdimension/png.c
@@ -201,16 +201,16 @@ dmnsn_png_write_canvas_thread(void *ptr)
   for (size_t y = 0; y < height; ++y) {
     for (size_t x = 0; x < width; ++x) {
       /* Invert the rows.  PNG coordinates are fourth quadrant. */
-      dmnsn_color color = dmnsn_canvas_get_pixel(payload->canvas,
-                                                 x, height - y - 1);
-      color = dmnsn_remove_filter(color);
-      color = dmnsn_color_to_sRGB(color);
-      color = dmnsn_color_saturate(color);
-
-      row[4*x]     = lround(color.R*UINT16_MAX);
-      row[4*x + 1] = lround(color.G*UINT16_MAX);
-      row[4*x + 2] = lround(color.B*UINT16_MAX);
-      row[4*x + 3] = lround(color.trans*UINT16_MAX);
+      dmnsn_tcolor tcolor = dmnsn_canvas_get_pixel(payload->canvas,
+                                                   x, height - y - 1);
+      tcolor = dmnsn_tcolor_remove_filter(tcolor);
+      tcolor.c = dmnsn_color_to_sRGB(tcolor.c);
+      tcolor = dmnsn_tcolor_saturate(tcolor);
+
+      row[4*x]     = lround(tcolor.c.R*UINT16_MAX);
+      row[4*x + 1] = lround(tcolor.c.G*UINT16_MAX);
+      row[4*x + 2] = lround(tcolor.c.B*UINT16_MAX);
+      row[4*x + 3] = lround(tcolor.T*UINT16_MAX);
     }
 
     /* Write the row */
@@ -350,41 +350,41 @@ dmnsn_png_read_canvas_thread(void *ptr)
      of an alpha channel. */
   for (size_t y = 0; y < height; ++y) {
     for (size_t x = 0; x < width; ++x) {
-      dmnsn_color color;
-      color.filter = 0.0;
+      dmnsn_tcolor tcolor;
+      tcolor.F = 0.0;
 
       if (color_type & PNG_COLOR_MASK_ALPHA) {
         if (bit_depth == 16) {
           png_bytep png_pixel = image + 8*(y*width + x);
-          color.R = (double)((png_pixel[0] << 8) + png_pixel[1])/UINT16_MAX;
-          color.G = (double)((png_pixel[2] << 8) + png_pixel[3])/UINT16_MAX;
-          color.B = (double)((png_pixel[4] << 8) + png_pixel[5])/UINT16_MAX;
-          color.trans = (double)((png_pixel[6] << 8) + png_pixel[7])/UINT16_MAX;
+          tcolor.c.R = (double)((png_pixel[0] << 8) + png_pixel[1])/UINT16_MAX;
+          tcolor.c.G = (double)((png_pixel[2] << 8) + png_pixel[3])/UINT16_MAX;
+          tcolor.c.B = (double)((png_pixel[4] << 8) + png_pixel[5])/UINT16_MAX;
+          tcolor.T   = (double)((png_pixel[6] << 8) + png_pixel[7])/UINT16_MAX;
         } else {
           png_bytep png_pixel = image + 4*(y*width + x);
-          color.R = (double)png_pixel[0]/UINT8_MAX;
-          color.G = (double)png_pixel[1]/UINT8_MAX;
-          color.B = (double)png_pixel[2]/UINT8_MAX;
-          color.trans = (double)png_pixel[3]/UINT8_MAX;
+          tcolor.c.R = (double)png_pixel[0]/UINT8_MAX;
+          tcolor.c.G = (double)png_pixel[1]/UINT8_MAX;
+          tcolor.c.B = (double)png_pixel[2]/UINT8_MAX;
+          tcolor.T   = (double)png_pixel[3]/UINT8_MAX;
         }
       } else {
-        color.trans = 0.0;
+        tcolor.T = 0.0;
 
         if (bit_depth == 16) {
           png_bytep png_pixel = image + 6*(y*width + x);
-          color.R = (double)((png_pixel[0] << 8) + png_pixel[1])/UINT16_MAX;
-          color.G = (double)((png_pixel[2] << 8) + png_pixel[3])/UINT16_MAX;
-          color.B = (double)((png_pixel[4] << 8) + png_pixel[5])/UINT16_MAX;
+          tcolor.c.R = (double)((png_pixel[0] << 8) + png_pixel[1])/UINT16_MAX;
+          tcolor.c.G = (double)((png_pixel[2] << 8) + png_pixel[3])/UINT16_MAX;
+          tcolor.c.B = (double)((png_pixel[4] << 8) + png_pixel[5])/UINT16_MAX;
         } else {
           png_bytep png_pixel = image + 3*(y*width + x);
-          color.R = (double)png_pixel[0]/UINT8_MAX;
-          color.G = (double)png_pixel[1]/UINT8_MAX;
-          color.B = (double)png_pixel[2]/UINT8_MAX;
+          tcolor.c.R = (double)png_pixel[0]/UINT8_MAX;
+          tcolor.c.G = (double)png_pixel[1]/UINT8_MAX;
+          tcolor.c.B = (double)png_pixel[2]/UINT8_MAX;
         }
       }
 
-      color = dmnsn_color_from_sRGB(color);
-      dmnsn_canvas_set_pixel(*payload->canvas, x, height - y - 1, color);
+      tcolor.c = dmnsn_color_from_sRGB(tcolor.c);
+      dmnsn_canvas_set_pixel(*payload->canvas, x, height - y - 1, tcolor);
     }
 
     dmnsn_future_increment(payload->future);
diff --git a/libdimension/ray_trace.c b/libdimension/ray_trace.c
index dd84a26..127eb1e 100644
--- a/libdimension/ray_trace.c
+++ b/libdimension/ray_trace.c
@@ -118,11 +118,13 @@ typedef struct dmnsn_rtstate {
   dmnsn_vector pigment_r;
   dmnsn_vector viewer;
   dmnsn_vector reflected;
-  dmnsn_vector light;
 
-  dmnsn_color pigment;
-  dmnsn_color diffuse;
-  dmnsn_color additional;
+  bool is_shadow_ray;
+  dmnsn_vector light_ray;
+  dmnsn_color light_color;
+
+  dmnsn_tcolor pigment;
+  dmnsn_tcolor color;
 
   double ior;
 
@@ -132,34 +134,9 @@ typedef struct dmnsn_rtstate {
 /** Compute a ray-tracing state from an intersection. */
 static inline void
 dmnsn_rtstate_initialize(dmnsn_rtstate *state,
-                         const dmnsn_intersection *intersection)
-{
-  state->intersection = intersection;
-  state->texture      = intersection->object->texture;
-  state->interior     = intersection->object->interior;
-
-  state->r = dmnsn_line_point(intersection->ray, intersection->t);
-  state->pigment_r = dmnsn_transform_point(
-    intersection->object->pigment_trans,
-    state->r
-  );
-  state->viewer = dmnsn_vector_normalized(
-    dmnsn_vector_negate(intersection->ray.n)
-  );
-  state->reflected = dmnsn_vector_sub(
-    dmnsn_vector_mul(
-      2*dmnsn_vector_dot(state->viewer, intersection->normal),
-      intersection->normal),
-    state->viewer
-  );
-
-  state->pigment    = dmnsn_black;
-  state->diffuse    = dmnsn_black;
-  state->additional = dmnsn_black;
-}
-
-/** Main helper for dmnsn_ray_trace_scene_impl - shoot a ray. */
-static dmnsn_color dmnsn_ray_shoot(dmnsn_rtstate *state, dmnsn_line ray);
+                         const dmnsn_intersection *intersection);
+/** Main helper for dmnsn_ray_trace_scene_concurrent - shoot a ray. */
+static dmnsn_tcolor dmnsn_ray_shoot(dmnsn_rtstate *state, dmnsn_line ray);
 
 /* Actually ray-trace a scene */
 static int
@@ -191,9 +168,8 @@ dmnsn_ray_trace_scene_concurrent(void *ptr, unsigned int thread,
       state.reclevel = scene->reclimit;
       state.ior = 1.0;
       state.adc_value = dmnsn_white;
-      dmnsn_color color = dmnsn_ray_shoot(&state, ray);
-
-      dmnsn_canvas_set_pixel(scene->canvas, x, y, color);
+      dmnsn_tcolor tcolor = dmnsn_ray_shoot(&state, ray);
+      dmnsn_canvas_set_pixel(scene->canvas, x, y, tcolor);
     }
 
     dmnsn_future_increment(future);
@@ -202,19 +178,93 @@ dmnsn_ray_trace_scene_concurrent(void *ptr, unsigned int thread,
   return 0;
 }
 
+/* Compute rtstate fields */
+static inline void
+dmnsn_rtstate_initialize(dmnsn_rtstate *state,
+                         const dmnsn_intersection *intersection)
+{
+  state->intersection = intersection;
+  state->texture      = intersection->object->texture;
+  state->interior     = intersection->object->interior;
+
+  state->r = dmnsn_line_point(intersection->ray, intersection->t);
+  state->pigment_r = dmnsn_transform_point(
+    intersection->object->pigment_trans,
+    state->r
+  );
+  state->viewer = dmnsn_vector_normalized(
+    dmnsn_vector_negate(intersection->ray.n)
+  );
+  state->reflected = dmnsn_vector_sub(
+    dmnsn_vector_mul(
+      2*dmnsn_vector_dot(state->viewer, intersection->normal),
+      intersection->normal),
+    state->viewer
+  );
+
+  state->is_shadow_ray = false;
+}
+
 /** Calculate the background color. */
-static dmnsn_color
-dmnsn_trace_background(const dmnsn_rtstate *state, dmnsn_line ray)
+static void dmnsn_trace_background(dmnsn_rtstate *state, dmnsn_line ray);
+/** Calculate the base pigment at the intersection. */
+static void dmnsn_trace_pigment(dmnsn_rtstate *state);
+/** Handle light, shadow, and shading. */
+static void dmnsn_trace_lighting(dmnsn_rtstate *state);
+/** Trace a reflected ray. */
+static void dmnsn_trace_reflection(dmnsn_rtstate *state);
+/** Trace a transmitted ray. */
+static void dmnsn_trace_transparency(dmnsn_rtstate *state);
+
+/* Shoot a ray, and calculate the color */
+static dmnsn_tcolor
+dmnsn_ray_shoot(dmnsn_rtstate *state, dmnsn_line ray)
+{
+  if (state->reclevel == 0
+      || dmnsn_color_intensity(state->adc_value) < state->scene->adc_bailout)
+  {
+    return DMNSN_TCOLOR(dmnsn_black);
+  }
+
+  --state->reclevel;
+
+  dmnsn_intersection intersection;
+  bool reset = state->reclevel == state->scene->reclimit - 1;
+  dmnsn_prtree_intersection(state->prtree, ray, &intersection, reset);
+  if (dmnsn_prtree_intersection(state->prtree, ray, &intersection, reset)) {
+    /* Found an intersection */
+    dmnsn_rtstate_initialize(state, &intersection);
+
+    dmnsn_trace_pigment(state);
+    if (state->scene->quality & DMNSN_RENDER_LIGHTS) {
+      dmnsn_trace_lighting(state);
+    }
+    if (state->scene->quality & DMNSN_RENDER_REFLECTION) {
+      dmnsn_trace_reflection(state);
+    }
+    if (state->scene->quality & DMNSN_RENDER_TRANSPARENCY) {
+      dmnsn_trace_transparency(state);
+    }
+  } else {
+    /* No intersection, return the background color */
+    dmnsn_trace_background(state, ray);
+  }
+
+  return state->color;
+}
+
+static void
+dmnsn_trace_background(dmnsn_rtstate *state, dmnsn_line ray)
 {
   dmnsn_pigment *background = state->scene->background;
   if (state->scene->quality & DMNSN_RENDER_PIGMENT) {
-    return dmnsn_pigment_evaluate(background, dmnsn_vector_normalized(ray.n));
+    dmnsn_vector r = dmnsn_vector_normalized(ray.n);
+    state->color = dmnsn_pigment_evaluate(background, r);
   } else {
-    return background->quick_color;
+    state->color = background->quick_color;
   }
 }
 
-/** Calculate the base pigment at the intersection. */
 static void
 dmnsn_trace_pigment(dmnsn_rtstate *state)
 {
@@ -224,143 +274,185 @@ dmnsn_trace_pigment(dmnsn_rtstate *state)
   } else {
     state->pigment = pigment->quick_color;
   }
+  state->color = state->pigment;
+}
+
+/** Determine the amount of specular highlight. */
+static inline dmnsn_color
+dmnsn_evaluate_specular(const dmnsn_rtstate *state)
+{
+  const dmnsn_finish *finish = &state->texture->finish;
+  if (finish->specular) {
+    return finish->specular->specular_fn(
+      finish->specular, state->light_color, state->pigment.c,
+      state->light_ray, state->intersection->normal, state->viewer
+    );
+  } else {
+    return dmnsn_black;
+  }
+}
 
-  state->diffuse = state->pigment;
+/** Determine the amount of reflected light. */
+static inline dmnsn_color
+dmnsn_evaluate_reflection(const dmnsn_rtstate *state,
+                          dmnsn_color light, dmnsn_vector direction)
+{
+  const dmnsn_reflection *reflection = state->texture->finish.reflection;
+  if (reflection && (state->scene->quality & DMNSN_RENDER_REFLECTION)) {
+    return reflection->reflection_fn(
+      reflection, light, state->pigment.c, direction,
+      state->intersection->normal
+    );
+  } else {
+    return dmnsn_black;
+  }
+}
+
+/** Determine the amount of transmitted light. */
+static inline dmnsn_color
+dmnsn_evaluate_transparency(const dmnsn_rtstate *state, dmnsn_color light)
+{
+  if (state->pigment.T >= dmnsn_epsilon
+      && (state->scene->quality & DMNSN_RENDER_TRANSPARENCY))
+  {
+    return dmnsn_tcolor_filter(light, state->pigment);
+  } else {
+    return dmnsn_black;
+  }
+}
+
+/** Get a light's diffuse contribution to the object */
+static inline dmnsn_color
+dmnsn_evaluate_diffuse(const dmnsn_rtstate *state)
+{
+  const dmnsn_finish *finish = &state->texture->finish;
+  if (finish->diffuse) {
+    return finish->diffuse->diffuse_fn(
+      finish->diffuse, state->light_color, state->pigment.c,
+      state->light_ray, state->intersection->normal
+    );
+  } else {
+    return dmnsn_black;
+  }
 }
 
 /** Get the color of a light ray at an intersection point. */
 static bool
-dmnsn_trace_light_ray(dmnsn_rtstate *state, const dmnsn_light *light,
-                      dmnsn_color *color)
+dmnsn_trace_light_ray(dmnsn_rtstate *state, const dmnsn_light *light)
 {
-  /** @todo: Start at the light source */
   dmnsn_line shadow_ray = dmnsn_new_line(
     state->r,
     light->direction_fn(light, state->r)
   );
-  state->light = dmnsn_vector_normalized(shadow_ray.n);
   /* Add epsilon to avoid hitting ourselves with the shadow ray */
   shadow_ray = dmnsn_line_add_epsilon(shadow_ray);
 
   /* Check if we're casting a shadow on ourself */
-  if (dmnsn_vector_dot(shadow_ray.n, state->intersection->normal)
-      * dmnsn_vector_dot(state->viewer, state->intersection->normal) < 0.0)
+  if ((dmnsn_vector_dot(shadow_ray.n, state->intersection->normal)
+       * dmnsn_vector_dot(state->viewer, state->intersection->normal) < 0.0)
+      && (!state->is_shadow_ray || state->pigment.T < dmnsn_epsilon))
   {
     return false;
   }
 
-  *color = light->illumination_fn(light, state->r);
+  state->light_ray = dmnsn_vector_normalized(shadow_ray.n);
+  state->light_color = light->illumination_fn(light, state->r);
 
   /* Test for shadow ray intersections */
-  unsigned int reclevel = state->reclevel;
-  while (reclevel-- > 0
-         && dmnsn_color_intensity(*color) >= state->scene->adc_bailout)
-  {
-    dmnsn_intersection shadow_caster;
-    bool shadow_was_cast = dmnsn_prtree_intersection(state->prtree, shadow_ray,
-                                                     &shadow_caster, false);
-
-    if (!shadow_was_cast || !light->shadow_fn(light, shadow_caster.t)) {
-      return true;
-    }
+  dmnsn_intersection shadow_caster;
+  bool in_shadow = dmnsn_prtree_intersection(state->prtree, shadow_ray,
+                                             &shadow_caster, false);
+  if (!in_shadow || !light->shadow_fn(light, shadow_caster.t)) {
+    return true;
+  }
 
-    /* Handle transparency */
-    if (state->scene->quality & DMNSN_RENDER_TRANSPARENCY) {
-      dmnsn_rtstate shadow_state = *state;
-      dmnsn_rtstate_initialize(&shadow_state, &shadow_caster);
-      dmnsn_trace_pigment(&shadow_state);
-
-      if (shadow_state.pigment.trans >= dmnsn_epsilon) {
-        /* Reflect the light */
-        const dmnsn_reflection *reflection =
-          shadow_state.texture->finish.reflection;
-        if ((state->scene->quality & DMNSN_RENDER_REFLECTION) && reflection) {
-          dmnsn_color reflected = reflection->reflection_fn(
-            reflection, *color, shadow_state.pigment, shadow_state.reflected,
-            shadow_state.intersection->normal
-          );
-          *color = dmnsn_color_sub(*color, reflected);
-        }
-
-        /* Filter the light */
-        *color = dmnsn_filter_light(*color, shadow_state.pigment);
-        shadow_ray.x0 = dmnsn_line_point(shadow_ray, shadow_caster.t);
-        shadow_ray.n  = light->direction_fn(light, shadow_ray.x0);
-        shadow_ray = dmnsn_line_add_epsilon(shadow_ray);
-        continue;
+  if (state->reclevel > 0
+      && dmnsn_color_intensity(state->adc_value) >= state->scene->adc_bailout
+      && (state->scene->quality & DMNSN_RENDER_TRANSPARENCY)) {
+    dmnsn_rtstate shadow_state = *state;
+    dmnsn_rtstate_initialize(&shadow_state, &shadow_caster);
+    dmnsn_trace_pigment(&shadow_state);
+
+    if (shadow_state.pigment.T >= dmnsn_epsilon) {
+      --shadow_state.reclevel;
+      shadow_state.adc_value = dmnsn_evaluate_transparency(
+        &shadow_state, shadow_state.adc_value
+      );
+      shadow_state.is_shadow_ray = true;
+      if (dmnsn_trace_light_ray(&shadow_state, light)) {
+        state->light_color = shadow_state.light_color;
+
+        /* Handle reflection */
+        dmnsn_color reflected = dmnsn_evaluate_reflection(
+          &shadow_state, state->light_color, state->light_ray
+        );
+        state->light_color = dmnsn_color_sub(state->light_color, reflected);
+
+        /* Handle transparency */
+        state->light_color = dmnsn_evaluate_transparency(
+          &shadow_state, state->light_color
+        );
+
+        return true;
       }
     }
-
-    break;
   }
 
   return false;
 }
 
-/** Handle light, shadow, and shading. */
 static void
 dmnsn_trace_lighting(dmnsn_rtstate *state)
 {
-  /* The ambient color */
-  state->diffuse = dmnsn_black;
-
+  /* Calculate the ambient color */
+  state->color = DMNSN_TCOLOR(dmnsn_black);
   const dmnsn_finish *finish = &state->texture->finish;
   if (finish->ambient) {
-    state->diffuse =
-      finish->ambient->ambient_fn(finish->ambient, state->pigment);
+    dmnsn_color ambient = finish->ambient->ambient;
+
+    /* Handle reflection and transmittance of the ambient light */
+    dmnsn_color reflected = dmnsn_evaluate_reflection(
+      state, ambient, state->intersection->normal
+    );
+    ambient = dmnsn_color_sub(ambient, reflected);
+    dmnsn_color transmitted = dmnsn_evaluate_transparency(state, ambient);
+    ambient = dmnsn_color_sub(ambient, transmitted);
+
+    state->color.c = dmnsn_color_illuminate(ambient, state->pigment.c);
   }
 
   /* Iterate over each light */
   DMNSN_ARRAY_FOREACH (dmnsn_light **, light, state->scene->lights) {
-    dmnsn_color light_color;
-    if (dmnsn_trace_light_ray(state, *light, &light_color)) {
+    if (dmnsn_trace_light_ray(state, *light)) {
       if (state->scene->quality & DMNSN_RENDER_FINISH) {
-        /* Get this light's specular contribution to the object */
-        dmnsn_color specular = dmnsn_black;
-        if (finish->specular) {
-          specular = finish->specular->specular_fn(
-            finish->specular, light_color, state->pigment, state->light,
-            state->intersection->normal, state->viewer
-          );
-          light_color = dmnsn_color_sub(light_color, specular);
-        }
-
-        /* Reflect the light */
-        const dmnsn_reflection *reflection = state->texture->finish.reflection;
-        if ((state->scene->quality & DMNSN_RENDER_REFLECTION) && reflection) {
-          dmnsn_color reflected = reflection->reflection_fn(
-            reflection, light_color, state->pigment, state->reflected,
-            state->intersection->normal
-          );
-          light_color = dmnsn_color_sub(light_color, reflected);
-        }
-
-        /* Get this light's diffuse contribution to the object */
-        dmnsn_color diffuse = dmnsn_black;
-        if (finish->diffuse) {
-          diffuse = finish->diffuse->diffuse_fn(
-            finish->diffuse, light_color, state->pigment, state->light,
-            state->intersection->normal
-          );
-        }
-
-        state->diffuse = dmnsn_color_add(diffuse, state->diffuse);
-        state->additional = dmnsn_color_add(specular, state->additional);
+        dmnsn_color specular = dmnsn_evaluate_specular(state);
+        state->light_color = dmnsn_color_sub(state->light_color, specular);
+
+        dmnsn_color reflected = dmnsn_evaluate_reflection(
+          state, state->light_color, state->reflected
+        );
+        state->light_color = dmnsn_color_sub(state->light_color, reflected);
+
+        dmnsn_color transmitted = dmnsn_evaluate_transparency(
+          state, state->light_color
+        );
+        state->light_color = dmnsn_color_sub(state->light_color, transmitted);
+
+        dmnsn_color diffuse = dmnsn_evaluate_diffuse(state);
+
+        state->color.c = dmnsn_color_add(state->color.c, specular);
+        state->color.c = dmnsn_color_add(state->color.c, diffuse);
       } else {
-        state->diffuse = state->pigment;
-        state->diffuse.trans  = 0.0;
-        state->diffuse.filter = 0.0;
+        state->color.c = state->pigment.c;
+        break;
       }
     }
   }
 }
 
-/** Trace a reflected ray. */
-static dmnsn_color
-dmnsn_trace_reflection(const dmnsn_rtstate *state)
+static void
+dmnsn_trace_reflection(dmnsn_rtstate *state)
 {
-  dmnsn_color reflected = dmnsn_black;
-
   const dmnsn_reflection *reflection = state->texture->finish.reflection;
   if (reflection) {
     dmnsn_line refl_ray = dmnsn_new_line(state->r, state->reflected);
@@ -369,29 +461,26 @@ dmnsn_trace_reflection(const dmnsn_rtstate *state)
     dmnsn_rtstate recursive_state = *state;
 
     /* Calculate ADC value */
-    recursive_state.adc_value = reflection->reflection_fn(
-      reflection, state->adc_value, state->pigment, state->reflected,
-      state->intersection->normal
+    recursive_state.adc_value = dmnsn_evaluate_reflection(
+      state, state->adc_value, state->reflected
     );
 
     /* Shoot the reflected ray */
-    dmnsn_color rec = dmnsn_ray_shoot(&recursive_state, refl_ray);
-    reflected = reflection->reflection_fn(
-      reflection, rec, state->pigment, state->reflected,
-      state->intersection->normal
+    dmnsn_color rec = dmnsn_ray_shoot(&recursive_state, refl_ray).c;
+    dmnsn_color reflected = dmnsn_evaluate_reflection(
+      state, rec, state->reflected
     );
-    reflected.trans  = 0.0;
-    reflected.filter = 0.0;
-  }
 
-  return reflected;
+    state->color.c = dmnsn_color_add(state->color.c, reflected);
+  }
 }
 
-/** Handle transparency - must be called last to work correctly. */
 static void
 dmnsn_trace_transparency(dmnsn_rtstate *state)
 {
-  if (state->pigment.trans >= dmnsn_epsilon) {
+  if (state->pigment.T >= dmnsn_epsilon) {
+    const dmnsn_interior *interior = state->interior;
+
     dmnsn_line trans_ray = dmnsn_new_line(state->r, state->intersection->ray.n);
     trans_ray = dmnsn_line_add_epsilon(trans_ray);
 
@@ -403,7 +492,7 @@ dmnsn_trace_transparency(dmnsn_rtstate *state)
     /* Calculate new refractive index */
     if (dmnsn_vector_dot(r, n) < 0.0) {
       /* We are entering an object */
-      recursive_state.ior = state->interior->ior;
+      recursive_state.ior = interior->ior;
       recursive_state.parent = state;
     } else {
       /* We are leaving an object */
@@ -433,71 +522,26 @@ dmnsn_trace_transparency(dmnsn_rtstate *state)
     }
 
     /* Calculate ADC value */
-    recursive_state.adc_value =
-      dmnsn_filter_light(state->adc_value, state->pigment);
+    recursive_state.adc_value = dmnsn_evaluate_transparency(
+      state, state->adc_value
+    );
+    dmnsn_color adc_reflected = dmnsn_evaluate_reflection(
+      state, recursive_state.adc_value, state->reflected
+    );
+    recursive_state.adc_value = dmnsn_color_sub(
+      recursive_state.adc_value, adc_reflected
+    );
 
     /* Shoot the transmitted ray */
-    dmnsn_color rec = dmnsn_ray_shoot(&recursive_state, trans_ray);
-    dmnsn_color filtered = dmnsn_filter_light(rec, state->pigment);
+    dmnsn_color rec = dmnsn_ray_shoot(&recursive_state, trans_ray).c;
+    dmnsn_color filtered = dmnsn_evaluate_transparency(state, rec);
 
     /* Conserve energy */
-    const dmnsn_reflection *reflection = state->texture->finish.reflection;
-    if ((state->scene->quality & DMNSN_RENDER_REFLECTION) && reflection) {
-      dmnsn_color reflected = reflection->reflection_fn(
-        reflection, filtered, state->pigment, state->reflected,
-        state->intersection->normal
-      );
-      filtered = dmnsn_color_sub(filtered, reflected);
-    }
-
-    state->diffuse.filter = state->pigment.filter;
-    state->diffuse.trans  = state->pigment.trans;
-    state->diffuse = dmnsn_apply_transparency(filtered, state->diffuse);
-  }
-}
-
-/* Shoot a ray, and calculate the color */
-static dmnsn_color
-dmnsn_ray_shoot(dmnsn_rtstate *state, dmnsn_line ray)
-{
-  if (state->reclevel == 0
-      || dmnsn_color_intensity(state->adc_value) < state->scene->adc_bailout)
-  {
-    return dmnsn_black;
-  }
-
-  --state->reclevel;
-
-  dmnsn_intersection intersection;
-  bool reset = state->reclevel == state->scene->reclimit - 1;
-  if (dmnsn_prtree_intersection(state->prtree, ray, &intersection, reset)) {
-    /* Found an intersection */
-    dmnsn_rtstate_initialize(state, &intersection);
-
-    /* Pigment */
-    dmnsn_trace_pigment(state);
-
-    /* Finishes and shadows */
-    if (state->scene->quality & DMNSN_RENDER_LIGHTS) {
-      dmnsn_trace_lighting(state);
-    }
-
-    /* Reflection */
-    if (state->scene->quality & DMNSN_RENDER_REFLECTION) {
-      state->additional = dmnsn_color_add(
-        dmnsn_trace_reflection(state),
-        state->additional
-      );
-    }
-
-    /* Transparency */
-    if (state->scene->quality & DMNSN_RENDER_TRANSPARENCY) {
-      dmnsn_trace_transparency(state);
-    }
+    dmnsn_color reflected = dmnsn_evaluate_reflection(
+      state, filtered, state->reflected
+    );
+    filtered = dmnsn_color_sub(filtered, reflected);
 
-    return dmnsn_color_add(state->diffuse, state->additional);
-  } else {
-    /* No intersection, return the background color */
-    return dmnsn_trace_background(state, ray);
+    state->color.c = dmnsn_color_add(state->color.c, filtered);
   }
 }
diff --git a/libdimension/rgba16.c b/libdimension/rgba16.c
index 980a2d3..2c7a8d5 100644
--- a/libdimension/rgba16.c
+++ b/libdimension/rgba16.c
@@ -50,14 +50,13 @@ dmnsn_rgba16_optimizer_fn(const dmnsn_canvas *canvas,
                           dmnsn_canvas_optimizer optimizer, size_t x, size_t y)
 {
   uint16_t *pixel = (uint16_t *)optimizer.ptr + 4*(y*canvas->width + x);
-  dmnsn_color color;
-  color = dmnsn_canvas_get_pixel(canvas, x, y);
-  color = dmnsn_remove_filter(color);
-  color = dmnsn_color_to_sRGB(color);
-  color = dmnsn_color_saturate(color);
+  dmnsn_tcolor tcolor = dmnsn_canvas_get_pixel(canvas, x, y);
+  tcolor = dmnsn_tcolor_remove_filter(tcolor);
+  tcolor.c = dmnsn_color_to_sRGB(tcolor.c);
+  tcolor = dmnsn_tcolor_saturate(tcolor);
 
-  pixel[0] = lround(color.R*UINT16_MAX);
-  pixel[1] = lround(color.G*UINT16_MAX);
-  pixel[2] = lround(color.B*UINT16_MAX);
-  pixel[3] = lround(color.trans*UINT16_MAX);
+  pixel[0] = lround(tcolor.c.R*UINT16_MAX);
+  pixel[1] = lround(tcolor.c.G*UINT16_MAX);
+  pixel[2] = lround(tcolor.c.B*UINT16_MAX);
+  pixel[3] = lround(tcolor.T*UINT16_MAX);
 }
diff --git a/libdimension/solid_pigment.c b/libdimension/solid_pigment.c
index 1dbda2d..7f91819 100644
--- a/libdimension/solid_pigment.c
+++ b/libdimension/solid_pigment.c
@@ -28,7 +28,7 @@
 
 /* Create a solid color */
 dmnsn_pigment *
-dmnsn_new_solid_pigment(dmnsn_color color)
+dmnsn_new_solid_pigment(dmnsn_tcolor color)
 {
   dmnsn_pigment *pigment = dmnsn_new_pigment();
   pigment->quick_color = color;
diff --git a/libdimension/tests/render.c b/libdimension/tests/render.c
index abd88d6..41b19b4 100644
--- a/libdimension/tests/render.c
+++ b/libdimension/tests/render.c
@@ -26,9 +26,10 @@ static void
 dmnsn_test_scene_set_defaults(dmnsn_scene *scene)
 {
   /* Default texture */
-  scene->default_texture->pigment = dmnsn_new_solid_pigment(dmnsn_black);
+  scene->default_texture->pigment =
+    dmnsn_new_solid_pigment(DMNSN_TCOLOR(dmnsn_black));
   dmnsn_finish *default_finish = &scene->default_texture->finish;
-  default_finish->ambient = dmnsn_new_basic_ambient(
+  default_finish->ambient = dmnsn_new_ambient(
     dmnsn_color_from_sRGB(dmnsn_color_mul(0.1, dmnsn_white))
   );
   default_finish->diffuse = dmnsn_new_lambertian(dmnsn_sRGB_inverse_gamma(0.7));
@@ -88,14 +89,16 @@ dmnsn_test_scene_add_background(dmnsn_scene *scene)
   } else {
     /* Loading png2.png failed, possibly compiled with --disable-png */
     fprintf(stderr, "--- WARNING: Couldn't open or read png2.png! ---\n");
-    png_pigment = dmnsn_new_solid_pigment(dmnsn_orange);
+    png_pigment = dmnsn_new_solid_pigment(DMNSN_TCOLOR(dmnsn_orange));
   }
   dmnsn_map_add_entry(sky_gradient_pigment_map, 0.0, &png_pigment);
 
   dmnsn_color background = dmnsn_color_from_sRGB(
-    dmnsn_new_color5(0.0, 0.1, 0.2, 0.1, 0.0)
+    dmnsn_new_color(0.0, 0.1, 0.2)
   );
-  dmnsn_pigment_map_add_color(sky_gradient_pigment_map, 0.35, background);
+  dmnsn_tcolor tbackground = dmnsn_new_tcolor(background, 0.1, 0.0);
+  dmnsn_pigment *bkgpigment = dmnsn_new_solid_pigment(tbackground);
+  dmnsn_map_add_entry(sky_gradient_pigment_map, 0.35, &bkgpigment);
 
   scene->background =
     dmnsn_new_pigment_map_pigment(sky_gradient, sky_gradient_pigment_map,
@@ -120,10 +123,8 @@ dmnsn_test_scene_add_hollow_cube(dmnsn_scene *scene)
     dmnsn_new_vector(dmnsn_radians(45.0), 0.0, 0.0)
   );
 
-  dmnsn_color cube_color = dmnsn_blue;
-  cube_color.trans  = 0.75;
-  cube_color.filter = 1.0/3.0;
   cube->texture = dmnsn_new_texture();
+  dmnsn_tcolor cube_color = dmnsn_new_tcolor(dmnsn_blue, 0.75, 1.0/3.0);
   cube->texture->pigment = dmnsn_new_solid_pigment(cube_color);
 
   dmnsn_color reflect =
@@ -136,7 +137,7 @@ dmnsn_test_scene_add_hollow_cube(dmnsn_scene *scene)
 
   dmnsn_object *sphere = dmnsn_new_sphere();
   sphere->texture = dmnsn_new_texture();
-  sphere->texture->pigment = dmnsn_new_solid_pigment(dmnsn_green);
+  sphere->texture->pigment = dmnsn_new_solid_pigment(DMNSN_TCOLOR(dmnsn_green));
   sphere->texture->finish.specular =
     dmnsn_new_phong(dmnsn_sRGB_inverse_gamma(0.2), 40.0);
   sphere->trans = dmnsn_scale_matrix(dmnsn_new_vector(1.25, 1.25, 1.25));
@@ -145,6 +146,13 @@ dmnsn_test_scene_add_hollow_cube(dmnsn_scene *scene)
   dmnsn_array_push(scene->objects, &hollow_cube);
 }
 
+#define dmnsn_pigment_map_add_color(map, n, color)              \
+  do {                                                          \
+    dmnsn_tcolor tcolor = DMNSN_TCOLOR(color);                  \
+    dmnsn_pigment *pigment = dmnsn_new_solid_pigment(tcolor);   \
+    dmnsn_map_add_entry(map, n, &pigment);                      \
+  } while (0)
+
 static void
 dmnsn_test_scene_add_spike(dmnsn_scene *scene)
 {
@@ -155,11 +163,10 @@ dmnsn_test_scene_add_spike(dmnsn_scene *scene)
   dmnsn_array_push(arrow_array, &cylinder);
 
   dmnsn_object *cone = dmnsn_new_cone(0.1, 0.0, true);
-  cone->trans =
-    dmnsn_matrix_mul(
-      dmnsn_translation_matrix(dmnsn_new_vector(0.0, 1.375, 0.0)),
-      dmnsn_scale_matrix(dmnsn_new_vector(1.0, 0.125, 1.0))
-    );
+  cone->trans = dmnsn_matrix_mul(
+    dmnsn_translation_matrix(dmnsn_new_vector(0.0, 1.375, 0.0)),
+    dmnsn_scale_matrix(dmnsn_new_vector(1.0, 0.125, 1.0))
+  );
   dmnsn_array_push(arrow_array, &cone);
 
   dmnsn_object *arrow = dmnsn_new_csg_union(arrow_array);
@@ -200,9 +207,8 @@ dmnsn_test_scene_add_spike(dmnsn_scene *scene)
   dmnsn_object *torii = dmnsn_new_csg_union(torus_array);
   dmnsn_delete_array(torus_array);
   torii->texture = dmnsn_new_texture();
-  torii->texture->pigment = dmnsn_new_solid_pigment(dmnsn_blue);
-  torii->texture->finish.ambient
-    = dmnsn_new_basic_ambient(dmnsn_white);
+  torii->texture->pigment = dmnsn_new_solid_pigment(DMNSN_TCOLOR(dmnsn_blue));
+  torii->texture->finish.ambient = dmnsn_new_ambient(dmnsn_white);
 
   dmnsn_array *spike_array = dmnsn_new_array(sizeof(dmnsn_object *));
   dmnsn_array_push(spike_array, &arrow);
@@ -227,9 +233,12 @@ dmnsn_test_scene_add_triangle_strip(dmnsn_scene *scene)
     dmnsn_new_texture(),
     dmnsn_new_texture(),
   };
-  strip_textures[0]->pigment = dmnsn_new_solid_pigment(dmnsn_red);
-  strip_textures[1]->pigment = dmnsn_new_solid_pigment(dmnsn_orange);
-  strip_textures[2]->pigment = dmnsn_new_solid_pigment(dmnsn_yellow);
+  strip_textures[0]->pigment =
+    dmnsn_new_solid_pigment(DMNSN_TCOLOR(dmnsn_red));
+  strip_textures[1]->pigment =
+    dmnsn_new_solid_pigment(DMNSN_TCOLOR(dmnsn_orange));
+  strip_textures[2]->pigment =
+    dmnsn_new_solid_pigment(DMNSN_TCOLOR(dmnsn_yellow));
   for (unsigned int i = 0; i < 128; ++i) {
     dmnsn_object *triangle = dmnsn_new_triangle(a, b, c);
     triangle->texture = strip_textures[i%3];
@@ -271,8 +280,10 @@ dmnsn_test_scene_add_ground(dmnsn_scene *scene)
   plane->texture = dmnsn_new_texture();
   plane->texture->pigment =
     dmnsn_new_pigment_map_pigment(checker2, big_map, DMNSN_PIGMENT_MAP_REGULAR);
-  plane->texture->pigment->quick_color = dmnsn_color_from_sRGB(
-    dmnsn_new_color(1.0, 0.5, 0.75)
+  plane->texture->pigment->quick_color = DMNSN_TCOLOR(
+    dmnsn_color_from_sRGB(
+      dmnsn_new_color(1.0, 0.5, 0.75)
+    )
   );
   dmnsn_array_push(scene->objects, &plane);
 }
@@ -337,7 +348,7 @@ main(void)
     }
   }
 
-  dmnsn_canvas_clear(scene->canvas, dmnsn_black);
+  dmnsn_canvas_clear(scene->canvas, DMNSN_TCOLOR(dmnsn_black));
 
   /* Create a new glX display */
   dmnsn_display *display = NULL;
diff --git a/libdimension/tests/test_canvas.c b/libdimension/tests/test_canvas.c
index 783914d..73ca1d9 100644
--- a/libdimension/tests/test_canvas.c
+++ b/libdimension/tests/test_canvas.c
@@ -50,7 +50,7 @@ dmnsn_paint_test_canvas(dmnsn_canvas *canvas)
         color = dmnsn_color_from_sRGB(color);
       }
 
-      dmnsn_canvas_set_pixel(canvas, x, y, color);
+      dmnsn_canvas_set_pixel(canvas, x, y, DMNSN_TCOLOR(color));
     }
   }
 }