Salve a tutti spero che qualcuno possa aiutarmi, devo leggere dei file ply e ho trovato in rete questo esempio:
% PLY_READ reads a PLY 3D data file.
%
% [DATA,COMMENTS] = PLY_READ(FILENAME) reads a version 1.0 PLY file
% FILENAME and returns a structure DATA. The fields in this structure
% are defined by the PLY header; each element type is a field and each
% element property is a subfield. If the file contains any comments,
% they are returned in a cell string array COMMENTS.
%
% [TRI,PTS] = PLY_READ(FILENAME,'tri') or
% [TRI,PTS,DATA,COMMENTS] = PLY_READ(FILENAME,'tri') converts vertex
% and face data into triangular connectivity and vertex arrays. The
% mesh can then be displayed using the TRISURF command.
%
% Note: This function is slow for large mesh files (+50K faces),
% especially when reading data with list type properties.
%
% Example:
% [Tri,Pts] = PLY_READ('cow.ply','tri');
% trisurf(Tri,Pts(:,1),Pts(:,2),Pts(:,3));
% colormap(gray); axis equal;
%
% Discussion:
%
% The original version of this program had a mistake that meant it
% did not properly triangulate files whose faces were not already triangular.
% This has been corrected (JVB, 25 February 2007).
%
% Glenn Ramsey pointed out and corrected a problem that occurred
% with an uninitialized value of Type2, 27 August 2012.
%
% Licensing:
%
% This code is distributed under the GNU LGPL license.
%
% Modified:
%
% 27 August 2012
%
% Author:
%
% Pascal Getreuer 2004
%
% Parameters:
%
% Local Parameters:
%
% COMMENTS, any comments from the file.
%
% ELEMENTCOUNT, the number of each type of element in file.
%
% ELEMENTS, the element data.
%
% PROPERTYTYPES, the element property types.
%
% SIZEOF, size in bytes of each type.
%
%
% Open the input file in "read text" mode.
%
[ fid, Msg ] = fopen ( Path, 'rt' );
if ( fid == -1 )
error ( Msg );
end
Buf = fscanf ( fid, '%s', 1 );
if ( ~strcmp ( Buf, 'ply' ) )
fclose ( fid );
error('Not a PLY file.');
end
%
% Read the header.
%
Position = ftell(fid);
Format = '';
NumComments = 0;
Comments = {};
NumElements = 0;
NumProperties = 0;
Elements = [];
ElementCount = [];
PropertyTypes = [];
ElementNames = {}; % list of element names in the order they are stored in the file
PropertyNames = []; % structure of lists of property names
while ( 1 )
%
% Read a line from the file.
%
Buf = fgetl ( fid );
BufRem = Buf;
Token = {};
Count = 0;
%
% Split the line into tokens.
%
while ( ~isempty(BufRem) )
[ tmp, BufRem ] = strtok(BufRem);
%
% Count the tokens.
%
if ( ~isempty ( tmp ) )
Count = Count + 1;
Token{Count} = tmp;
end
end
%
% Parse the line.
%
if ( Count )
switch lower ( Token{1} )
%
% Read the data format.
%
case 'format'
if ( 2 <= Count )
Format = lower ( Token{2} );
if ( Count == 3 & ~strcmp ( Token{3}, '1.0' ) )
fclose ( fid );
error('Only PLY format version 1.0 supported.');
end
end
%
% Read a comment.
%
case 'comment'
NumComments = NumComments + 1;
Comments{NumComments} = '';
for i = 2 : Count
Comments{NumComments} = [Comments{NumComments},Token{i},' '];
end
%
% Read an element name.
%
case 'element'
if ( 3 <= Count )
if ( isfield(Elements,Token{2}) )
fclose ( fid );
error(['Duplicate element name, ''',Token{2},'''.']);
end
NumElements = NumElements + 1;
NumProperties = 0;
Elements = setfield(Elements,Token{2},[]);
PropertyTypes = setfield(PropertyTypes,Token{2},[]);
ElementNames{NumElements} = Token{2};
PropertyNames = setfield(PropertyNames,Token{2},{});
CurElement = Token{2};
ElementCount(NumElements) = str2double(Token{3});
if ( isnan(ElementCount(NumElements)) )
fclose ( fid );
error(['Bad element definition: ',Buf]);
end
else
error(['Bad element definition: ',Buf]);
end
%
% Read an element property.
%
case 'property'
if ( ~isempty(CurElement) & Count >= 3 )
NumProperties = NumProperties + 1;
eval(['tmp=isfield(Elements.',CurElement,',Token{Count});'],...
'fclose(fid);error([''Error reading property: '',Buf])');
if ( tmp )
error(['Duplicate property name, ''',CurElement,'.',Token{2},'''.']);
end
%
% Add property subfield to Elements.
%
eval(['Elements.',CurElement,'.',Token{Count},'=[];'], ...
'fclose(fid);error([''Error reading property: '',Buf])');
%
% Add property subfield to PropertyTypes and save type.
%
eval(['PropertyTypes.',CurElement,'.',Token{Count},'={Token{2:Count-1}};'], ...
'fclose(fid);error([''Error reading property: '',Buf])');
%
% Record property name order.
%
eval(['PropertyNames.',CurElement,'{NumProperties}=Token{Count};'], ...
'fclose(fid);error([''Error reading property: '',Buf])');
else
fclose ( fid );
if ( isempty(CurElement) )
error(['Property definition without element definition: ',Buf]);
else
error(['Bad property definition: ',Buf]);
end
end
%
% End of header.
%
case 'end_header'
break;
end
end
end
%
% Set reading for specified data format.
%
if ( isempty ( Format ) )
warning('Data format unspecified, assuming ASCII.');
Format = 'ascii';
end
switch Format
case 'ascii'
Format = 0;
case 'binary_little_endian'
Format = 1;
case 'binary_big_endian'
Format = 2;
otherwise
fclose ( fid );
error(['Data format ''',Format,''' not supported.']);
end
%
% Read the rest of the file as ASCII data...
%
if ( ~Format )
Buf = fscanf ( fid, '%f' );
BufOff = 1;
else
%
% ...or, close the file, and reopen in "read binary" mode.
%
fclose ( fid );
%
% Reopen the binary file as LITTLE_ENDIAN or BIG_ENDIAN.
%
if ( Format == 1 )
fid = fopen ( Path, 'r', 'ieee-le.l64' );
else
fid = fopen ( Path, 'r', 'ieee-be.l64' );
end
%
% Find the end of the header again.
% Using ftell on the old handle doesn't give the correct position.
%
BufSize = 8192;
Buf = [ blanks(10), char(fread(fid,BufSize,'uchar')') ];
i = [];
tmp = -11;
while ( isempty(i) )
i = findstr(Buf,['end_header',13,10]); % look for end_header + CR/LF
i = [i,findstr(Buf,['end_header',10])]; % look for end_header + LF
if ( isempty(i) )
tmp = tmp + BufSize;
Buf = [Buf(BufSize+1:BufSize+10),char(fread(fid,BufSize,'uchar')')];
end
end
%
% seek to just after the line feed
%
fseek ( fid, i + tmp + 11 + (Buf(i + 10) == 13), -1 );
end
%
% Read element data.
%
% PLY and MATLAB data types (for fread)
%
PlyTypeNames = {'char','uchar','short','ushort','int','uint','float','double', ...
'char8','uchar8','short16','ushort16','int32','uint32','float32','double64'};
MatlabTypeNames = {'schar','uchar','int16','uint16','int32','uint32','single','double'};
SizeOf = [1,1,2,2,4,4,4,8];
for i = 1 : NumElements
%
% get current element property information
%
eval(['CurPropertyNames=PropertyNames.',ElementNames{i},';']);
eval(['CurPropertyTypes=PropertyTypes.',ElementNames{i},';']);
NumProperties = size(CurPropertyNames,2);
% fprintf('Reading %s...\n',ElementNames{i});
%
% Read ASCII data.
%
if ( ~Format )
for j = 1 : NumProperties
Token = getfield(CurPropertyTypes,CurPropertyNames{j});
if ( strcmpi(Token{1},'list') )
Type(j) = 1;
else
Type(j) = 0;
end
%
% Glenn Ramsey 20120827
% Initialise Type2{} to prevent uninitialised value error.
%
Type2{j} = '';
end
%
% Parse the buffer.
%
if ( ~any(Type) )
% no list types
Data = reshape ( ...
Buf(BufOff:BufOff+ElementCount(i)*NumProperties-1), ...
NumProperties, ElementCount(i) )';
BufOff = BufOff + ElementCount(i) * NumProperties;
else
ListData = cell(NumProperties,1);
for k = 1 : NumProperties
ListData{k} = cell(ElementCount(i),1);
end
%
% list type
%
for j = 1 : ElementCount(i)
for k = 1 : NumProperties
if ( ~Type(k) )
Data(j,k) = Buf(BufOff);
BufOff = BufOff + 1;
else
tmp = Buf(BufOff);
ListData{k}{j} = Buf(BufOff+(1:tmp))';
BufOff = BufOff + tmp + 1;
end
end
end
end
%
% Read binary data.
%
else
% translate PLY data type names to MATLAB data type names
ListFlag = 0; % = 1 if there is a list type
SameFlag = 1; % = 1 if all types are the same
for j = 1 : NumProperties
Token = getfield(CurPropertyTypes,CurPropertyNames{j});
%
% Non-list type.
%
if ( ~strcmp(Token{1},'list' ) )
tmp = rem(strmatch(Token{1},PlyTypeNames,'exact')-1,8)+1;
if ( ~isempty(tmp) )
TypeSize(j) = SizeOf(tmp);
Type{j} = MatlabTypeNames{tmp};
TypeSize2(j) = 0;
Type2{j} = '';
SameFlag = SameFlag & strcmp(Type{1},Type{j});
else
fclose(fid);
error(['Unknown property data type, ''',Token{1},''', in ', ...
ElementNames{i},'.',CurPropertyNames{j},'.']);
end
else % list type
if ( length(Token) == 3 )
ListFlag = 1;
SameFlag = 0;
tmp = rem(strmatch(Token{2},PlyTypeNames,'exact')-1,8)+1;
tmp2 = rem(strmatch(Token{3},PlyTypeNames,'exact')-1,8)+1;
if ( ~isempty(tmp) & ~isempty(tmp2) )
TypeSize(j) = SizeOf(tmp);
Type{j} = MatlabTypeNames{tmp};
TypeSize2(j) = SizeOf(tmp2);
Type2{j} = MatlabTypeNames{tmp2};
else
fclose(fid);
error(['Unknown property data type, ''list ',Token{2},' ',Token{3},''', in ', ...
ElementNames{i},'.',CurPropertyNames{j},'.']);
end
else
fclose(fid);
error(['Invalid list syntax in ',ElementNames{i},'.',CurPropertyNames{j},'.']);
end
end
end
% read file
if ( ~ListFlag )
%
% No list types, all the same type (fast)
%
if ( SameFlag )
Data = fread(fid,[NumProperties,ElementCount(i)],Type{1})';
%
% No list types, mixed type.
%
else
Data = zeros(ElementCount(i),NumProperties);
for j = 1 : ElementCount(i)
for k = 1 : NumProperties
Data(j,k) = fread(fid,1,Type{k});
end
end
end
else
ListData = cell(NumProperties,1);
for k = 1 : NumProperties
ListData{k} = cell(ElementCount(i),1);
end
if ( NumProperties == 1 )
BufSize = 512;
SkipNum = 4;
j = 0;
%
% List type, one property (fast if lists are usually the same length)
%
while ( j < ElementCount(i) )
BufSize = min(ElementCount(i)-j,BufSize);
Position = ftell(fid);
%
% Read in BufSize count values, assuming all counts = SkipNum
%
[Buf,BufSize] = fread(fid,BufSize,Type{1},SkipNum*TypeSize2(1));
Miss = find(Buf ~= SkipNum); % find first count that is not SkipNum
fseek(fid,Position + TypeSize(1),-1); % seek back to after first count
if ( isempty(Miss) )
% all counts are SkipNum
Buf = fread(fid,[SkipNum,BufSize],[int2str(SkipNum),'*',Type2{1}],TypeSize(1))';
fseek(fid,-TypeSize(1),0); % undo last skip
for k = 1:BufSize
ListData{1}{j+k} = Buf(k,:);
end
j = j + BufSize;
BufSize = floor(1.5*BufSize);
else
%
% Some counts are SkipNum.
%
if ( 1 < Miss(1) )
Buf2 = fread(fid,[SkipNum,Miss(1)-1],[int2str(SkipNum),'*',Type2{1}],TypeSize(1))';
for k = 1:Miss(1)-1
ListData{1}{j+k} = Buf2(k,:);
end
j = j + k;
end
%
% Read in the list with the missed count.
%
SkipNum = Buf(Miss(1));
j = j + 1;
ListData{1}{j} = fread(fid,[1,SkipNum],Type2{1});
BufSize = ceil(0.6*BufSize);
end
end
else
%
% List type(s), multiple properties (slow)
%
Data = zeros(ElementCount(i),NumProperties);
for j = 1:ElementCount(i)
for k = 1:NumProperties
if ( isempty(Type2{k}) )
Data(j,k) = fread(fid,1,Type{k});
else
tmp = fread(fid,1,Type{k});
ListData{k}{j} = fread(fid,[1,tmp],Type2{k});
end
end
end
end
end
end
%
% Put data into Elements structure
%
for k = 1 : NumProperties
if ( ( ~ Format && ~ Type(k) ) || (Format && isempty(Type2{k})) )
eval(['Elements.',ElementNames{i},'.',CurPropertyNames{k},'=Data(:,k);']);
else
eval(['Elements.',ElementNames{i},'.',CurPropertyNames{k},'=ListData{k};']);
end
end
end
clear Data
clear ListData;
fclose ( fid );
%
% Output the data as a triangular mesh pair.
%
if ( ( nargin > 1 & strcmpi(Str,'Tri') ) || nargout > 2 )
%
% Find vertex element field
%
Name = {'vertex','Vertex','point','Point','pts','Pts'};
Names = [];
for i = 1 : length(Name)
if ( any ( strcmp ( ElementNames, Name{i} ) ) )
Names = getfield(PropertyNames,Name{i});
Name = Name{i};
break;
end
end
if ( any(strcmp(Names,'x')) && any(strcmp(Names,'y')) && any(strcmp(Names,'z')) )
eval(['varargout{1}=[Elements.',Name,'.x,Elements.',Name,'.y,Elements.',Name,'.z];']);
else
varargout{1} = zeros(1,3);
end
varargout{1} = varargout{1}';
varargout{2} = Elements;
varargout{3} = Comments;
Elements = [];
%
% Find face element field
%
Name = {'face','Face','poly','Poly','tri','Tri'};
Names = [];
for i = 1 : length(Name)
if ( any(strcmp(ElementNames,Name{i})) )
Names = getfield(PropertyNames,Name{i});
Name = Name{i};
break;
end
end
if ( ~isempty(Names) )
% find vertex indices property subfield
PropertyName = {'vertex_indices','vertex_indexes','vertex_index','indices','indexes'};
for i = 1 : length(PropertyName)
if ( any(strcmp(Names,PropertyName{i})) )
PropertyName = PropertyName{i};
break;
end
end
%
% Convert face index list to triangular connectivity.
%
if ( ~iscell(PropertyName) )
eval(['FaceIndices=varargout{2}.',Name,'.',PropertyName,';']);
N = length(FaceIndices);
Elements = zeros(3,N*2);
Extra = 0;
for k = 1 : N
Elements(1:3,k) = FaceIndices{k}(1:3)';
%
% The original code had an error in the following loop.
%
for j = 4 : length(FaceIndices{k})
Extra = Extra + 1;
Elements(1,N + Extra) = FaceIndices{k}(1);
Elements(2,N + Extra) = FaceIndices{k}(j-1);
Elements(3,N + Extra) = FaceIndices{k}(j);
end
end
%
% Add 1 to each vertex value; PLY vertices are zero based.
%
Elements = Elements(:,1:N+Extra) + 1;
end
end
else
varargout{1} = Comments;
end
return
end
Richiamo la funzione [Tri,Pts] = ply_read('cow.ply','tri'); e mi crea le due strutture ma quando richiamo trisurf(Tri,Pts(:,1),Pts(:,2),Pts(:,3)); mi da questo errore:
Warning: Error creating or updating Patch
Error in value of one or more of the following properties: Faces Vertices
Values in Faces must lie within the range, 1 and number of vertices
qualcuno può' aiutarmi?