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[diderot] Diff of /branches/lamont/TODO
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Diff of /branches/lamont/TODO

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revision 1301, Thu Jun 9 23:58:40 2011 UTC revision 1445, Mon Jul 11 16:21:47 2011 UTC
# Line 1  Line 1 
1    THIS TODO HAS BEEN MOVED TO THE DIDEROT WIKI.  PLEASE USE THAT ONE.
2    
3  NOTE: GLK's approximate ranking of 8 most important tagged with  NOTE: GLK's approximate ranking of 8 most important tagged with
4  [GLK:1], [GLK:2], ...  [GLK:1], [GLK:2], ...
5    
# Line 5  Line 7 
7  SHORT TERM ============= (*needed* for streamlines & tractography)  SHORT TERM ============= (*needed* for streamlines & tractography)
8  ========================  ========================
9    
10  Remove CL from compiler  [GLK:2] Add sequence types (needed for evals & evecs)
   
 [GLK:3] Add sequence types (needed for evals & evecs)  
11      syntax      syntax
12          types: ty '{' INT '}'          types: ty '{' INT '}'
13          value construction: '{' e1 ',' … ',' en '}'          value construction: '{' e1 ',' … ',' en '}'
14          indexing: e '{' e '}'          indexing: e '{' e '}'
15    
16  [GLK:4] evals & evecs for symmetric tensor[2,2] and  [GLK:3] evals & evecs for symmetric tensor[2,2] and
17  tensor[3,3] (requires sequences)  tensor[3,3] (requires sequences)
18    
19  ability to emit/track/record variables into dynamically re-sized  ability to emit/track/record variables into dynamically re-sized
20  runtime buffer  runtime output buffer
21    
22  tensor fields: convolution on general tensor images  [GLK:4] tensor fields from tensor images: Initially need at least
23    convolution on tensor[2,2] and tensor[3,3] (the same component-wise
24    convolution as for vectors).
25    
26  ========================  ========================
27  SHORT-ISH TERM ========= (to make using Diderot less annoying to  SHORT-ISH TERM ========= (to make using Diderot less annoying to
28  ========================  program in, and slow to execute)  ========================  program in, and slow to execute)
29    
 value-numbering optimization [DONE]  
   
30  Allow ".ddro" file extensions in addition to ".diderot"  Allow ".ddro" file extensions in addition to ".diderot"
31    
32  Be able to output values of type tensor[2,2] and tensor[3,3];  Be able to output values of type tensor[2,2] and tensor[3,3];
33  (currently only scalars & vectors).  Want to add some regression tests  (currently only scalars & vectors).  Want to add some regression tests
34  based on this and currently can't  based on this and currently can't
35    
36  [GLK:1] Add a clamp function, which takes three arguments; either  [GLK:1] Proper handling of stabilize method
 three scalars:  
   clamp(lo, hi, x)  = max(lo, min(hi, x))  
 or three vectors of the same size:  
   clamp(lo, hi, [x,y])  = [max(lo[0], min(hi[0], x)),  
                            max(lo[1], min(hi[1], y))]  
 This would be useful in many current Diderot programs.  
 One question: clamp(x, lo, hi) is the argument order used in OpenCL  
 and other places, but clamp(lo, hi, x) is much more consistent with  
 lerp(lo, hi, x), hence GLK's preference  
 [DONE]  
37    
38  [GLK:2] Proper handling of stabilize method  Convolution on general tensor images (order > 2)
39    
40  allow "*" to represent "modulate": per-component multiplication of  allow "*" to represent "modulate": per-component multiplication of
41  vectors, and vectors only (not tensors of order 2 or higher).  Once  vectors, and vectors only (not tensors of order 2 or higher).  Once
# Line 55  Line 45 
45  implicit type promotion of integers to reals where reals are  implicit type promotion of integers to reals where reals are
46  required (e.g. not exponentiation "^")  required (e.g. not exponentiation "^")
47    
48  [GLK:5] Save Diderot output to nrrd, instead of "mip.txt"  [Nick working on this] Save Diderot output to nrrd, instead of "mip.txt"
49    For grid of strands, save to similarly-shaped array    For grid of strands, save to similarly-shaped array
50    For list of strands, save to long 1-D (or 2-D for non-scalar output) list    For list of strands, save to long 1-D (or 2-D for non-scalar output) list
51    For ragged things (like tractography output), will need to save both    For ragged things (like tractography output), will need to save both
52      complete list of values, as well as list of start indices and lengths      complete list of values, as well as list of start indices and lengths
53      to index into complete list      to index into complete list
54    
55  [GLK:6] Use of Teem's "hest" command-line parser for getting  [GLK:6] ability to declare a field so that probe positions are
 any "input" variables that are not defined in the source file.  
   
 [GLK:7] ability to declare a field so that probe positions are  
56  *always* "inside"; with various ways of mapping the known image values  *always* "inside"; with various ways of mapping the known image values
57  to non-existant index locations.  One possible syntax emphasizes that  to non-existant index locations.  One possible syntax emphasizes that
58  there is a index mapping function that logically precedes convolution:  there is a index mapping function that logically precedes convolution:
# Line 88  Line 75 
75      rgb = real{3}      rgb = real{3}
76      rgba = real{4}      rgba = real{4}
77    
78    Revisit how images are created within the language.
79    The "load" operator should probably go away, and its strangs
80    that strings are there only as a way to refer to nrrd filenames
81    
82  ==============================  ==============================
83  MEDIUM TERM ================== (*needed* for particles)  MEDIUM TERM ================== (*needed* for particles)
84  ==============================  ==============================
85    
86  run-time birth of strands  [Lamont working on this] run-time birth of strands
87    
88  "initially" supports lists  "initially" supports lists
89    
# Line 101  Line 92 
92  e.g. using output of iso2d.diderot for one isovalue to seed the input  e.g. using output of iso2d.diderot for one isovalue to seed the input
93  to another invocation of the same program)  to another invocation of the same program)
94    
95  Communication between strands: they have to be able to learn each  [Lamont working on this] Communication between strands: they have to
96  other's state (at the previous iteration).  Early version of this can  be able to learn each other's state (at the previous iteration).
97  have the network of neighbors be completely static (for running one  Early version of this can have the network of neighbors be completely
98  strand/pixel image computations).  Later version with strands moving  static (for running one strand/pixel image computations).  Later
99  through the domain will require some spatial data structure to  version with strands moving through the domain will require some
100  optimize discovery of neighbors.  spatial data structure to optimize discovery of neighbors.
101    
102  ============================  ============================
103  MEDIUM-ISH TERM ============ (to make Diderot more useful/effective)  MEDIUM-ISH TERM ============ (to make Diderot more useful/effective)
104  ============================  ============================
105    
106    [GLK:5] Want code-generation working for tensors of order three.
107    Order three matters for edge detection in scalar fields (to get
108    second derivatives of gradient magnitude), second derivatives
109    of vector fields (for some feature extraction), and first
110    derivatives of diffusion tensor fields.
111    
112  Python/ctypes interface to run-time  Python/ctypes interface to run-time
113    
114  support for Python interop and GUI  support for Python interop and GUI
# Line 119  Line 116 
116  Allow integer exponentiation ("^2") to apply to square matrices,  Allow integer exponentiation ("^2") to apply to square matrices,
117  to represent repeated matrix multiplication  to represent repeated matrix multiplication
118    
 Alow X *= Y, X /= Y, X += Y, X -= Y to mean what they do in C,  
 provided that X*Y, X/Y, X+Y, X-Y are already supported.  
 Nearly every Diderot program would be simplified by this.  
 [DONE]  
   
119  Put small 1-D and 2-D fields, when reconstructed specifically by tent  Put small 1-D and 2-D fields, when reconstructed specifically by tent
120  and when differentiation is not needed, into faster texture buffers.  and when differentiation is not needed, into faster texture buffers.
121  test/illust-vr.diderot is good example of program that uses multiple  test/illust-vr.diderot is good example of program that uses multiple
122  such 1-D fields basically as lookup-table-based function evaluation  such 1-D fields basically as lookup-table-based function evaluation
123    
 expand trace in mid to low translation [DONE]  
   
124  extend norm (|exp|) to all tensor types [DONE for vectors and matrices]  extend norm (|exp|) to all tensor types [DONE for vectors and matrices]
125    
126  determinant ("det") for tensor[3,3]  determinant ("det") for tensor[3,3]
# Line 154  Line 144 
144      tensor construction [DONE]      tensor construction [DONE]
145      tensor indexing [DONE]      tensor indexing [DONE]
146      tensor slicing      tensor slicing
     verify that hessians work correctly [DONE]  
147    
148  Better handling of variables that determines the scope of a variable  Better handling of variables that determines the scope of a variable
149  based on its actual use, instead of where the user defined it.  So,  based on its actual use, instead of where the user defined it.  So,
# Line 168  Line 157 
157  (but we should only duplicate over the live-range of the result of the  (but we should only duplicate over the live-range of the result of the
158  conditional.  conditional.
159    
160  [GLK:8] Want: non-trivial field expressions & functions.  [GLK:7] Want: non-trivial field expressions & functions.
161  scalar fields from scalar fields F and G:  scalar fields from scalar fields F and G:
162    field#0(2)[] X = (sin(F) + 1.0)/2;    field#0(2)[] X = (sin(F) + 1.0)/2;
163    field#0(2)[] X = F*G;    field#0(2)[] X = F*G;
# Line 221  Line 210 
210    field#0(2)[] F = lambda([x,y], Ft([x,y,42.0]))     // restriction to time=42.0    field#0(2)[] F = lambda([x,y], Ft([x,y,42.0]))     // restriction to time=42.0
211    vec2 grad = ∇F([x,y]);                             // 2D gradient    vec2 grad = ∇F([x,y]);                             // 2D gradient
212    
 Tensors of order 3 (e.g. gradients of diffusion tensor fields, or  
 hessians of vector fields) and order 4 (e.g. Hessians of diffusion  
 tensor fields).  
   
213  representation of tensor symmetry  representation of tensor symmetry
214  (have to identify the group of index permutations that are symmetries)  (have to identify the group of index permutations that are symmetries)
215    
# Line 270  Line 255 
255  //  uncaught exception Size [size]  //  uncaught exception Size [size]
256  //    raised at c-target/c-target.sml:47.15-47.19  //    raised at c-target/c-target.sml:47.15-47.19
257  //field#4(3)[] F = img ⊛ bspln5;  //field#4(3)[] F = img ⊛ bspln5;
258    

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