2个工作日
写了一套简单的Export/Import插件
一直对MAX的 Script感到很好奇
说说使用的感受吧。
首先,如果要使用这套Script那么 首先会陷入到庞大的MAX的概念的汪洋大海之中
MAX中很多概念不同于平常熟知的 RealTime里面的思想
例如,MAX中的纹理坐标,每个顶点都有一对UV 这个很正常
但是同时 MAX对每个Face也保存了UV,这是因为MAX中的 每个Face都有可能是不同的贴图
等等
第二,如果熟悉了MAX中的哪些类能够干什么 那么Script也就是很水道渠成的事情了。为了写这2个插件,MAX Script 的help翻了无数次,几乎每写一句就要去翻一次。
第三,MAX中的数组起位置是1,但是MAX中有的概念 使用数组表示的时候起始位置为0 ,例如纹理的Channel,起始就是为0,并且Channel0 很危险,写入错误直接让MAX挂掉
第四,脚本编写很考验打字的准确度,由于变量没有类型,不需要声明就可以试用,打错一个字母的话那就查吧,运气不好的话,会让你疯掉的,同时MAX的脚本编辑器 超级难用。
第五,编写导入插件的时候,发现Script 中读入数据异常痛苦,我在Script的帮助中没有发现任何类似c语言中的fprintf(%...)的东西,只有通过脚本提供的skiptostring来做。
第六 Max Script的函数 没有明确的返回值的概念,不习惯
第七 那个调试器 太难用了,我打了无数个messagebox
总结:对于导入导出插件来说其实用SDK和Script 编写其实差别不大,因为都只是涉及到数据的读取和写入,并不涉及到复杂的逻辑。如果编写渲染类型或者是动画控制类型的插件 我觉得还是用script好一些,因为可以直接在MAX中看到结果,同时还能够一句一句的执行,很方便。
我只是初学,希望有经验的人给点经验,最后附上简单的插件代码,
导出插件只能到处一个几何体,点击ExportGeo按钮,然后点选几何体,即可输出
导入插件没什么特别的操作,导入插件结尾有些仓促
以下是导入插件:其实导入插件没什么必要写,反正是在MAX中建模,直接保存为MAX文件就可以了,这里
纯属练手
macroScript ImportGeo category: "HowTo2"
(
--从文件中读入某个分割符 后面 的数据
--FileStream:文件句柄
--needload :储存读取后的值的变量 (string or value)
--spliter:分隔符(string)
--bReadLine: 是否读取分隔符后所有的数据 1表示读取后面所有
fn LoadData FileStream spliter bReadLine=
(
temp=skiptostring FileStream spliter
if bReadLine==1 then
needload=readline FileStream
else
needload=readvalue FileStream
)
--***************************************************
--******************************************************
--****************************************************
vert_array = #()
face_array = #()
sgroup_array = #()
matid_array = #()
edge_array = #()
tm_row1=#()
tm_row2=#()
tm_row3=#()
tm_row4=#()
nodename=""
--以下均为material变量
_Material_Name
_Material_Type
_Material_Ambient
_Material_Diffuse
_Material_Specular
_Material_Specular_Lv
_Material_Glossiness
_Material_SelfillumColor
_Material_SelfillumAmount
_Material_DiffTexPath
BitmapPath
channel_num
UVW_Ver_Num
UVW_Face_Num
Vert_UV=#() --所有的顶点的uv都放在这里
Face_UV=#() --所有的面的uv都放在这里
Vert_UV_Size=#() --用于记录每个channel的顶点的uv总数
Face_UV_Size=#() --用语及了每个channel的面uv总数
in_name=getopenfilename()
if in_name!=undefined then
(
in_file=openfile in_name
if in_file!=undefined then
(
--node name
temp= readline in_file
token=filterString temp " "
nodename=(token[token.count] as string)
--**************************************************
--material info
_Material_Name=LoadData in_file "->" 1
_Material_Type=LoadData in_file "->" 1
_Material_Ambient=LoadData in_file "->" 0
_Material_Diffuse=LoadData in_file "->" 0
_Material_Specular=LoadData in_file "->" 0
_Material_Specular_Lv=LoadData in_file "->" 0
_Material_Glossiness=LoadData in_file "->" 0
_Material_SelfillumColor=LoadData in_file "->" 0
_Material_SelfillumAmount=LoadData in_file "->" 0
_Material_DiffTexPath=LoadData in_file "->" 1
--**************************************************
--node matrix
--temp= readline in_file
tt=readDelimitedString in_file ":"
temp=readvalue in_file
append tm_row1(temp)
tt=readDelimitedString in_file ":"
temp=readvalue in_file
append tm_row2(temp)
tt=readDelimitedString in_file ":"
temp=readvalue in_file
append tm_row3(temp)
tt=readDelimitedString in_file ":"
temp=readvalue in_file
append tm_row4(temp)
--************************************************
--vertex info
temp= readline in_file
token=filterString temp " "
num_vert=token[token.count] as integer
for i=1 to num_vert do
(
tt=readDelimitedString in_file ":"
temp=readvalue in_file
append vert_array (temp)
)
--************************************************************
--face info
temp=readline in_file
token=filterstring temp " "
num_face=(token[token.count] as integer)
for j=1 to num_face do
(
append face_array (readValue in_file)
append sgroup_array (readValue in_file)
append matid_array (readValue in_file)
edge1 = readValue in_file
edge2 = readValue in_file
edge3 = readValue in_file
append edge_array (#(edge1, edge2, edge3))
)
--************************************************************
--uv info
-- in max channel begin with 0
--the channel 0 stores the vertex color info,no uv info
channel_num=LoadData in_file ":" 0
for b=1 to (channel_num-1) do
(
--读出Channel id
channel_id=LoadData in_file ":" 0
--texture map path
BitmapPath=LoadData in_file "->" 1
--读出uv Vertex 的数量
temp_size=LoadData in_file ":" 0
append Vert_UV_Size temp_size
--uv的数据
for i=1 to temp_size do
(
append Vert_UV (readValue in_file)
)
--uv face的 数量
temp_size==LoadData in_file ":" 0
append Face_UV_Size temp_size
for i=1 to temp_size do
(
append Face_uv (readValue in_file)
)
)
)
close in_file
)
meditmaterials[1].ambient=_Material_Ambient
meditmaterials[1].diffuse=_Material_Diffuse
meditmaterials[1].shaderbyname=_Material_type
meditmaterials[1].specular=_material_specular
meditmaterials[1].specularlevel=_material_specular_lv
meditmaterials[1].glossiness=_material_glossiness
meditmaterials[1].selfillumcolor=_Material_SelfillumColor
meditmaterials[1].selfillumamount=_Material_SelfillumAmount
meditmaterials[1].diffuseMapEnable=true
bmp =bitmaptexture filename: _Material_DiffTexPath
meditmaterials[1].diffusemap=bmp
new_mesh = mesh vertices:vert_array faces:face_array --materialIDs:#(0,1) tverts:vert_uv
for f = 1 to num_face do
(
setFaceSmoothGroup new_mesh f sgroup_array[f]
setFaceMatID new_mesh f matid_array[f]
setEdgeVis new_mesh f 1 edge_array[f][1]
setEdgeVis new_mesh f 2 edge_array[f][2]
setEdgeVis new_mesh f 3 edge_array[f][3]
)
myTransform = new_mesh.transform
new_mesh.transform.row1 = tm_row1[1]
new_mesh.transform.row2 = tm_row2[1]
new_mesh.transform.row3 = tm_row3[1]
new_mesh.transform.row4 = tm_row4[1]
new_mesh.name=(nodename as string)
new_mesh.material=meditmaterials[1]
meshop.setMapSupport new_mesh 0 true
meshop.setMapSupport new_mesh 1 true
--set vertex uv for every vertex
meshop.setNumMapVerts new_mesh 1 Vert_UV_Size[1] keep:false
for i=1 to Vert_UV_Size[1] do
(
meshop.setMapVert new_mesh 1 i Vert_UV[i]
)
--set face uv for every face
meshop.setnummapfaces new_mesh 1 Face_UV_Size[1] keep:false
for i=1 to Face_UV_Size[1] do
(
meshop.setMapFace new_mesh 1 i Face_UV[i]
)
update new_mesh
)
以下是导出插件:
到处插件很容易写,导入插件花了2倍于导出的时间
-- export by sssa2000
macroScript ExportGeo category:"HowTo2"
(
fn GetGeometry o =
(
Superclassof o == Geometryclass and classof o != TargetObject
)
fn DumpMaterial m file=
(
--只对Standard类型的材质处理
--获得diffuse and diffuse map
ismat=iskindof m material
if ismat then
(
name=m.name
format "Material Name-> %\n" name to: file
class_of_mat=classof m
--messagebox class_of_mat
if (class_of_mat )==Standardmaterial then
(
type=m.shaderByName
format "Material Type->%\n" type to: file
_ambient=m.ambient
format "Ambient Value->%\n" _ambient to:file
diffuse_value=m.diffuse
format "Diffuse Value->%\n" diffuse_value to:file
_specular=m.specular
format "Specular Value->%\n" _specular to:file
_specularLevel =m.specularLevel
format "SpecularLevel Value->%\n" _specularLevel to:file
_Glossiness=m.Glossiness
format "Glossiness Value->%\n" _Glossiness to:file
_selfIllumColor =m.selfIllumColor
format "SelfIllumColor Value->%\n" _selfIllumColor to:file
_selfIllumAmount =m.selfIllumAmount
format "SelfIllumAmount Value->%\n" _selfIllumAmount to:file
diffuse_map_path=m.diffusemap.filename
format "Diffuse Map Path->%\n" diffuse_map_path to:file
)
)
format "\n" to: file
)
--/////////////////////////////////////////////////////////////////////////////////////////
obj = pickobject filter:GetGeometry
if isValidNode obj then
(
nodename=obj.name
--First export the matrix
row1=obj.transform.row1
row2=obj.transform.row2
row3=obj.transform.row3
row4=obj.transform.row4
tmesh = snapshotAsMesh obj
out_name = GetSaveFileName()
if out_name != undefined then
(
out_file = createfile out_name
format "Node Name: %\n" nodename to: out_file
format "\n" to: out_file
--******************************************************
-- material info
node_material=obj.material
num_sub_material=getNumSubMtls obj.material
DumpMaterial obj.material out_file
for y=1 to num_sub_material do
(
sub_mat=getSubMtl obj.material y
DumpMaterial sub_mat= out_file
)
--******************************************************
format "Node TM Row1: %\n" row1 to: out_file
format "Node TM Row2: %\n" row2 to: out_file
format "Node TM Row3: %\n" row3 to: out_file
format "Node TM Row4: %\n" row4 to: out_file
--******************************************************
-- vertex info
num_verts = tmesh.numverts
num_faces = tmesh.numfaces
format "Number of Ver: %\n" num_verts to:out_file
for v = 1 to num_verts do
format "Ver%: %\n" v (getVert tmesh v) to:out_file
format "\n" to:out_file
--***********************************************
--face info
format "Number of Face: %\n" num_faces to:out_file
for f = 1 to num_faces do
(
face = getFace tmesh f
sgroup = getFaceSmoothGroup tmesh f
matid = getFaceMatId tmesh f
edge1 = getEdgeVis tmesh f 1
edge2 = getEdgeVis tmesh f 2
edge3 = getEdgeVis tmesh f 3
format "%,%,%,%,%,%\n" face sgroup matid edge1 edge2 edge3 to:out_file
)
--******************************************************
--uv info
channel=meshop.getnummaps tmesh --number of texture
format "\n" to: out_file
format "Channel Number:%\n" channel to:out_file
for i=1 to (channel-1) do
(
-- channel的计数从0开始
--channel 0 is vertex color so do not export it
IsSupport=meshop.getMapSupport tmesh i
if IsSupport==true then
(
format "Channel ID:%\n" i to:out_file
if classof obj.material.maps[i+1]==Bitmaptexture then
format "Map File Path->%\n" obj.material.maps[i+1].filename to: out_file
else
format "Map File Path->Null\n" to: out_file
num_uv_ver=meshop.getNumMapVerts tmesh i
num_uv_face=meshop.getNumMapFaces tmesh i
format "UVW Vertex Number:%\n" num_uv_ver to:out_file
for j=1 to num_uv_ver do
(
vert_uvw=meshop.getMapVert tmesh i j
--messagebox (vert_uvw as string)
format "% \n" vert_uvw to: out_file
)
format "UVW Face Number:%\n" num_uv_face to:out_file
for o=1 to num_uv_face do
(
uvw_face=meshop.getMapFace tmesh i o
format "% \n" uvw_face to: out_file
)
)
else
(
--format "Do Not Support Channel %\n" i to:out_file
)
)
close out_file
edit out_name
)
)
)