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geometry.lisp
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geometry.lisp
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(in-package #:org.shirakumo.fraf.trial)
(defvar *known-vertex-attributes*
'(location normal uv tangent color joints weights
uv-0 uv-1 uv-2 uv-3
joints-0 joints-1 joints-2 joints-3
weights-0 weights-1 weights-2 weights-3
index))
(defgeneric vertex-attribute-size (attribute))
(defgeneric vertex-attribute-offset (attribute container))
(defgeneric vertex-attribute-category (attribute))
(defgeneric vertex-attribute-order (attribute))
(defgeneric vertex-attribute-stride (attributes))
(defmethod vertex-attribute-size ((_ (eql 'location))) 3)
(defmethod vertex-attribute-size ((_ (eql 'uv))) 2)
(defmethod vertex-attribute-size ((_ (eql 'normal))) 3)
(defmethod vertex-attribute-size ((_ (eql 'color))) 4)
(defmethod vertex-attribute-size ((_ (eql 'tangent))) 3)
(defmethod vertex-attribute-size ((_ (eql 'joints))) 4)
(defmethod vertex-attribute-size ((_ (eql 'weights))) 4)
(defmethod vertex-attribute-size ((_ (eql 'index))) 1)
(defmethod vertex-attribute-size ((attr symbol))
(let ((cat (vertex-attribute-category attr)))
(if (eq cat attr)
(error "Vertex attribute ~s has no defined size!" attr)
(vertex-attribute-size cat))))
(defmethod vertex-attribute-category ((attr symbol)) attr)
(defmethod vertex-attribute-category ((_ (eql 'uv-0))) 'uv)
(defmethod vertex-attribute-category ((_ (eql 'uv-1))) 'uv)
(defmethod vertex-attribute-category ((_ (eql 'uv-2))) 'uv)
(defmethod vertex-attribute-category ((_ (eql 'uv-3))) 'uv)
(defmethod vertex-attribute-category ((_ (eql 'joints-0))) 'joints)
(defmethod vertex-attribute-category ((_ (eql 'joints-1))) 'joints)
(defmethod vertex-attribute-category ((_ (eql 'joints-2))) 'joints)
(defmethod vertex-attribute-category ((_ (eql 'joints-3))) 'joints)
(defmethod vertex-attribute-category ((_ (eql 'weights-0))) 'weights)
(defmethod vertex-attribute-category ((_ (eql 'weights-1))) 'weights)
(defmethod vertex-attribute-category ((_ (eql 'weights-2))) 'weights)
(defmethod vertex-attribute-category ((_ (eql 'weights-3))) 'weights)
(defmethod vertex-index-attribute ((index integer))
(dolist (attr *known-vertex-attributes*)
(when (= index (vertex-attribute-order attr))
(return attr))))
(macrolet ((distribute-vertex-indices (&rest attributes)
`(progn ,@(loop for group in attributes
for i from 0
append (loop for attribute in (enlist group)
collect `(defmethod vertex-attribute-order ((_ (eql ',attribute))) ,i))))))
(distribute-vertex-indices
location
normal
(uv uv-0)
tangent
color
(joints joints-0)
(weights weights-0)
uv-1
joints-1
weights-1
uv-2
joints-2
weights-2
uv-3
joints-3
weights-3
index))
(defun vertex-attribute-code ()
`(glsl-toolkit:shader
,@(loop for attribute in *known-vertex-attributes*
collect `(glsl-toolkit:preprocessor-directive
,(format NIL "#define TRIAL_V_~:@(~a~) ~a"
(symbol->c-name attribute)
(vertex-attribute-order attribute))))))
(defmethod vertex-attribute-stride ((attributes list))
(loop for attribute in attributes
sum (vertex-attribute-size attribute)))
(defun vertex-attribute< (a b)
(< (vertex-attribute-order a)
(vertex-attribute-order b)))
(defmethod vertex-attribute-offset (attribute (attributes list))
(let ((offset 0))
(dolist (attr attributes NIL)
(when (eq attr attribute)
(return offset))
(incf offset (vertex-attribute-size attr)))))
(defclass mesh-data ()
((name :initarg :name :initform NIL :accessor name)
(vertex-data :initarg :vertex-data :initform (make-array 0 :element-type 'single-float) :accessor vertex-data)
(faces :initarg :faces :initform NIL :accessor faces)
(material :initform NIL :accessor material)
(vertex-form :initarg :vertex-form :initform :triangles :accessor vertex-form)
(vertex-attributes :initarg :vertex-attributes :initform '(location normal uv) :accessor vertex-attributes)))
(defmethod shared-initialize :after ((data mesh-data) slots &key (material NIL material-p))
(when material-p (setf (material data) material)))
(defmethod (setf material) ((name string) (data mesh-data))
(setf (material data) (material name)))
(defmethod (setf material) ((name symbol) (data mesh-data))
(setf (material data) (material name)))
(defmethod (setf material) ((name null) (data mesh-data))
(setf (slot-value data 'material) NIL))
(defmethod vertex-count ((data mesh-data))
(truncate (length (vertex-data data)) (vertex-attribute-stride data)))
(defmethod reordered-vertex-data ((mesh mesh-data) new-attributes)
(if (equal new-attributes (vertex-attributes mesh))
(vertex-data mesh)
(let* ((old-attributes (vertex-attributes mesh))
(old-stride (vertex-attribute-stride mesh))
(old-offsets (loop for attribute in old-attributes
collect (vertex-attribute-offset attribute old-attributes)))
(old-data (vertex-data mesh))
(vertices (truncate (length old-data) old-stride))
(new-stride (loop for attribute in new-attributes
sum (vertex-attribute-size attribute)))
(new-data (make-array (* new-stride vertices) :element-type 'single-float))
(new-offsets (loop for attribute in new-attributes
collect (vertex-attribute-offset attribute new-attributes)))
(new-base 0)
(old-base 0))
(dotimes (vertex vertices new-data)
(loop for attr in new-attributes
for new in new-offsets
for old = (position attr old-attributes)
do (if old
(let ((old (nth old old-offsets)))
(dotimes (i (vertex-attribute-size attr))
(setf (aref new-data (+ i new new-base)) (aref old-data (+ i old old-base)))))
(dotimes (i (vertex-attribute-size attr))
(setf (aref new-data (+ i new new-base)) 0f0))))
(incf new-base new-stride)
(incf old-base old-stride)))))
(defmethod make-vertex-array ((mesh mesh-data) vao)
(let ((vertex-data (make-instance 'vertex-buffer :buffer-data (vertex-data mesh)))
(faces (faces mesh)))
(ensure-instance vao 'vertex-array
:dependencies (when (material mesh) (list (material mesh)))
:vertex-form (vertex-form mesh)
:index-buffer (when faces
(make-instance 'vertex-buffer :buffer-data faces
:buffer-type :element-array-buffer
:element-type (cl-type->pixel-type (array-element-type faces))))
:bindings (loop with stride = (vertex-attribute-stride mesh)
for attribute in (vertex-attributes mesh)
for offset = 0 then (+ offset size)
for size = (vertex-attribute-size attribute)
for index = (vertex-attribute-order attribute)
collect `(,vertex-data :index ,index :size ,size :offset ,(* 4 offset) :stride ,(* 4 stride)))
:size (if faces
(length faces)
(truncate (length (vertex-data mesh)) (+ 3 3 2))))))
(defmethod gl-source ((mesh mesh-data))
`(glsl-toolkit:shader
,@(loop for i from 0
for attribute in (vertex-attributes mesh)
for size = (vertex-attribute-size attribute)
for name = (format NIL "in_~a" (symbol->c-name attribute))
for type = (ecase size (1 :float) (2 :vec2) (3 :vec3) (4 :vec4))
collect `(glsl-toolkit:variable-declaration
(glsl-toolkit:type-qualifier
(glsl-toolkit:layout-qualifier
(glsl-toolkit:layout-qualifier-id "location" ,i))
:in)
(glsl-toolkit:type-specifier ,type)
,name glsl-toolkit:no-value))))
(defmethod vertex-attribute-stride ((mesh mesh-data))
(loop for attribute in (vertex-attributes mesh)
sum (vertex-attribute-size attribute)))
(defmethod vertex-attribute-offset (attribute (mesh mesh-data))
(vertex-attribute-offset attribute (vertex-attributes mesh)))
(defmethod update-buffer-data ((vbo vertex-buffer) (mesh mesh-data) &rest args &key)
(apply #'update-buffer-data vbo (vertex-data mesh) args))
(defmethod update-buffer-data ((vao vertex-array) (mesh mesh-data) &rest args &key)
(let ((buffer (caar (bindings vao))))
(apply #'update-buffer-data buffer (vertex-data mesh) args)))
(defmethod replace-vertex-data ((vao vertex-array) (mesh mesh-data) &key)
(resize-buffer-data (index-buffer vao) T :data (faces mesh))
(let ((vertex-data (caar (bindings vao))))
(resize-buffer-data vertex-data T :data (vertex-data mesh))
(setf (bindings vao) (loop with stride = (vertex-attribute-stride mesh)
for attribute in (vertex-attributes mesh)
for offset = 0 then (+ offset size)
for size = (vertex-attribute-size attribute)
collect `(,vertex-data :size ,size :offset ,(* 4 offset) :stride ,(* 4 stride))))
(setf (size vao) (length (faces mesh)))
vao))
(defmethod coerce-object ((vao vertex-array) (type (eql 'mesh-data)) &rest args &key (index-attribute #'vertex-index-attribute) &allow-other-keys)
(let ((primary (caar (bindings vao)))
(attributes (loop for index from 0
for (buffer . attrs) in (bindings vao)
collect (let ((index (or (getf attrs :index) index)))
(funcall index-attribute index)))))
(remf args :index-attribute)
(if (loop for (binding) in (cdr (bindings vao))
always (eq binding primary))
(apply #'make-instance 'mesh-data
:faces (buffer-data (index-buffer vao))
:vertex-data (buffer-data (caar (bindings vao)))
:vertex-attributes attributes
args)
(implement!))))
(defmethod compute-vertex-attribute :around ((mesh mesh-data) new-attribute)
(unless (find new-attribute (vertex-attributes mesh))
(call-next-method))
mesh)
(defmethod compute-vertex-attribute :before ((mesh mesh-data) new-attribute)
;; Since we have to reshuffle the vertex data for every computation,
;; just do so here.
(let* ((new-attributes (sort (append (vertex-attributes mesh) (list 'normal)) #'vertex-attribute<))
(new-vertices (reordered-vertex-data mesh new-attributes)))
(setf (vertex-attributes mesh) new-attributes)
(setf (vertex-data mesh) new-vertices)))
(defmethod compute-vertex-attribute ((mesh mesh-data) (_ (eql 'uv)))
;; TODO: unwrap UVs
(implement!))
(defmethod compute-vertex-attribute ((mesh mesh-data) (new-attribute (eql 'normal)))
(let* ((adjacency (org.shirakumo.fraf.manifolds:vertex-adjacency-list (faces mesh)))
(vertices (vertex-data mesh))
(offset (vertex-attribute-offset new-attribute mesh)))
(loop for i from 0 below (length vertices) by (vertex-attribute-stride mesh)
for v from 0
for normal = (org.shirakumo.fraf.manifolds:vertex-normal vertices v (aref adjacency v))
do (setf (aref vertices (+ i offset 0)) (vx normal))
(setf (aref vertices (+ i offset 1)) (vy normal))
(setf (aref vertices (+ i offset 2)) (vz normal)))))
(defmethod compute-vertex-attribute ((mesh mesh-data) (_ (eql 'tangent)))
(compute-vertex-attribute mesh 'uv)
(let ((vertices (vertex-data mesh))
(faces (faces mesh))
(stride (vertex-attribute-stride mesh))
(voff (vertex-attribute-offset 'location mesh))
(uoff (vertex-attribute-offset 'uv mesh))
(toff (vertex-attribute-offset 'tangent mesh)))
(flet ((v (f)
(vec (aref vertices (+ (* stride (aref faces f)) voff 0))
(aref vertices (+ (* stride (aref faces f)) voff 1))
(aref vertices (+ (* stride (aref faces f)) voff 2))))
(u (f)
(vec (aref vertices (+ (* stride (aref faces f)) uoff 0))
(aref vertices (+ (* stride (aref faces f)) uoff 1)))))
(loop for face from 0 below (length faces) by 3
for v0 = (v (+ face 0))
for u0 = (u (+ face 0))
for e0 = (nv- (v (+ face 1)) v0)
for e1 = (nv- (v (+ face 2)) v0)
for d0 = (nv- (u (+ face 1)) u0)
for d1 = (nv- (u (+ face 2)) u0)
for tt = (nv* (nv- (v* e0 (vy d1)) (v* e1 (vy d0)))
(/ (- (* (vx d0) (vy d1)) (* (vx d1) (vy d0)))))
do (dotimes (j 3)
(setf (aref vertices (+ (* stride (aref faces (+ face j))) toff 0)) (vx tt))
(setf (aref vertices (+ (* stride (aref faces (+ face j))) toff 1)) (vy tt))
(setf (aref vertices (+ (* stride (aref faces (+ face j))) toff 2)) (vz tt)))))))
(defmethod append-vertex-data ((a mesh-data) (b mesh-data))
(assert (eq (vertex-form a) (vertex-form b)))
(let ((data (make-array (+ (length (vertex-data a)) (length (vertex-data b)))
:element-type 'single-float))
(faces (if (or (faces a) (faces b))
(make-array (+ (length (faces a)) (length (faces b)))
:element-type '(unsigned-byte 16))))
(attributes (if (equal (vertex-attributes a) (vertex-attributes b))
(vertex-attributes a)
(union (vertex-attributes a) (vertex-attributes b)))))
(cond ((eq attributes (vertex-attributes a))
(replace data (vertex-data a))
(replace data (vertex-data b) :start1 (length (vertex-data a))))
(T
(let ((data-a (reordered-vertex-data a attributes))
(data-b (reordered-vertex-data b attributes)))
(replace data data-a)
(replace data data-b :start1 (length data-a)))))
(when faces
(if (faces a)
(replace faces (faces a))
;; Missing, just use every vertex in sequence
(loop for v from 0 below (vertex-count a)
do (setf (aref faces v) v)))
;; Since the vertex data got appended, we have to offset B's
;; faces by the vertex-count of A.
(if (faces b)
(loop with src = (faces b)
with off = (vertex-count a)
for i from (length (faces a))
for j from 0 below (length src)
do (setf (aref faces i) (+ (aref src j) off)))
;; Missing, just use every vertex in sequence
(loop for v from (vertex-count a)
for i from (length (faces a)) below (length faces)
do (setf (aref faces i) v))))
(make-instance 'mesh-data :vertex-data data :faces faces
:material (material a)
:vertex-form (vertex-form a)
:vertex-attributes attributes)))
(defmethod combine-vertex-data ((a mesh-data) (b mesh-data))
(assert (eq (vertex-form a) (vertex-form b)))
(let* ((attributes (union (vertex-attributes a) (vertex-attributes b)))
(stride (vertex-attribute-stride attributes))
(vertex-count (/ (length (vertex-data a)) (vertex-attribute-stride a))))
(unless (= vertex-count (/ (length (vertex-data b)) (vertex-attribute-stride b)))
(error "The meshes contain different numbers of vertices. Can't combine their attributes!"))
(let ((data (make-array (* vertex-count stride) :element-type 'single-float)))
(dolist (attribute attributes)
(let* ((source (if (find attribute (vertex-attributes a)) b a))
(src-data (vertex-data source))
(src-stride (vertex-attribute-stride source))
(dst-offset (vertex-attribute-offset attribute attributes))
(src-offset (vertex-attribute-offset attribute source)))
(loop for src from src-offset by src-stride
for dst from dst-offset below (length data) by stride
do (dotimes (i (vertex-attribute-size attribute))
(setf (aref data (+ dst i)) (aref src-data (+ src i)))))))
(make-instance 'mesh-data :vertex-data data
:faces (faces a)
:material (material a)
:vertex-form (vertex-form a)
:vertex-attributes attributes))))
(defmacro with-mesh-construction ((constructor &optional (finalizer 'finalize) (attributes '(location)) (deduplicate T)) &body body)
(let ((vertices (gensym "VERTICES"))
(faces (gensym "FACES"))
(face-table (gensym "FACE-TABLE"))
(stride (vertex-attribute-stride attributes))
(data-finalizer (intern (format NIL "~a-~a" (string finalizer) (string '#:data))))
(i (gensym "I")))
`(let ((,vertices (make-array 0 :element-type 'single-float :adjustable T))
(,faces (make-array 0 :element-type '(unsigned-byte 16) :adjustable T :fill-pointer T))
,@(when deduplicate `((,face-table (make-hash-table :test 'equal))))
(,i 0))
(labels ((,constructor (&rest bits)
(let* ((c bits)
(e ,(when deduplicate `(gethash c ,face-table))))
(cond (e
(vector-push-extend e ,faces))
(T
(vector-push-extend ,i ,faces)
(let ((j (* ,stride ,i)))
(when (< (length ,vertices) (+ j ,stride))
(adjust-array ,vertices (+ j ,stride)))
(dolist (e c)
(setf (aref ,vertices j) (float e 0f0))
(incf j)))
,@(when deduplicate `((setf (gethash c ,face-table) ,i)))
(incf ,i)))))
(,finalizer ()
(values (make-array (length ,vertices) :element-type 'single-float :initial-contents ,vertices)
(make-array (length ,faces) :element-type '(unsigned-byte 16) :initial-contents ,faces)))
(,data-finalizer (&rest args)
(multiple-value-bind (,vertices ,faces) (,finalizer)
(apply #'make-instance 'mesh-data :vertex-attributes ',attributes :vertex-data ,vertices :faces ,faces args))))
(declare (ignorable #',data-finalizer))
,@body))))