Change debugprint id

doc/extending/graphstructures.txt

@@ -400,10 +400,10 @@ such that: ``var.clients[*][0].inputs[index]`` or
 >>> v = theano.tensor.vector()
 >>> f = theano.function([v], (v+1).sum())
 >>> theano.printing.debugprint(f)
-Sum{acc_dtype=float64} [@A] ''   1
- |Elemwise{add,no_inplace} [@B] ''   0
-   |TensorConstant{(1,) of 1.0} [@C]
-   |<TensorType(float64, vector)> [@D]
+Sum{acc_dtype=float64} [id A] ''   1
+ |Elemwise{add,no_inplace} [id B] ''   0
+   |TensorConstant{(1,) of 1.0} [id C]
+   |<TensorType(float64, vector)> [id D]
 >>> # Sorted list of all nodes in the compiled graph.
 >>> topo = f.maker.fgraph.toposort()
 >>> topo[0].outputs[0].clients

doc/library/printing.txt

@@ -81,19 +81,19 @@ iteration number or other kinds of information in the name.
 2) The second function to print a graph is :func:`theano.printing.debugprint`
 
 >>> theano.printing.debugprint(f.maker.fgraph.outputs[0])  # doctest: +NORMALIZE_WHITESPACE
-Elemwise{mul,no_inplace} [#A] ''
- |TensorConstant{2.0} [#B]
- |x [#C]
+Elemwise{mul,no_inplace} [id A] ''
+ |TensorConstant{2.0} [id B]
+ |x [id C]
 
 Each line printed represents a Variable in the graph.
-The line ``|x [#C]`` means the variable named ``x`` with debugprint identifier
-[#C] is an input of the Elemwise.  If you accidentally have two variables called ``x`` in
+The line ``|x [id C]`` means the variable named ``x`` with debugprint identifier
+[id C] is an input of the Elemwise.  If you accidentally have two variables called ``x`` in
 your graph, their different debugprint identifier will be your clue.
 
-The line ``|TensorConstant{2.0} [#B]`` means that there is a constant 2.0
+The line ``|TensorConstant{2.0} [id B]`` means that there is a constant 2.0
 with this debugprint identifier.
 
-The line ``Elemwise{mul,no_inplace} [#A] ''`` is indented less than
+The line ``Elemwise{mul,no_inplace} [id A] ''`` is indented less than
 the other ones, because it means there is a variable computed by multiplying
 the other (more indented) ones together.
 
@@ -106,25 +106,25 @@ printed?  Look for debugprint identifier using the Find feature of your text
 editor.
 
 >>> theano.printing.debugprint(gy)  # doctest: +NORMALIZE_WHITESPACE
-Elemwise{mul} [#A] ''
- |Elemwise{mul} [#B] ''
- | |Elemwise{second,no_inplace} [#C] ''
- | | |Elemwise{pow,no_inplace} [#D] ''
- | | | |x [#E]
- | | | |TensorConstant{2} [#F]
- | | |TensorConstant{1.0} [#G]
- | |TensorConstant{2} [#F]
- |Elemwise{pow} [#H] ''
-   |x [#E]
-   |Elemwise{sub} [#I] ''
-     |TensorConstant{2} [#F]
-     |DimShuffle{} [#J] ''
-       |TensorConstant{1} [#K]
+Elemwise{mul} [id A] ''
+ |Elemwise{mul} [id B] ''
+ | |Elemwise{second,no_inplace} [id C] ''
+ | | |Elemwise{pow,no_inplace} [id D] ''
+ | | | |x [id E]
+ | | | |TensorConstant{2} [id F]
+ | | |TensorConstant{1.0} [id G]
+ | |TensorConstant{2} [id F]
+ |Elemwise{pow} [id H] ''
+   |x [id E]
+   |Elemwise{sub} [id I] ''
+     |TensorConstant{2} [id F]
+     |DimShuffle{} [id J] ''
+       |TensorConstant{1} [id K]
 
 >>> theano.printing.debugprint(gy, depth=2)  # doctest: +NORMALIZE_WHITESPACE
-Elemwise{mul} [#A] ''
- |Elemwise{mul} [#B] ''
- |Elemwise{pow} [#C] ''
+Elemwise{mul} [id A] ''
+ |Elemwise{mul} [id B] ''
+ |Elemwise{pow} [id C] ''
 
 
 If the depth parameter is provided, it limits the number of levels that are

doc/tutorial/debug_faq.txt

@@ -74,11 +74,11 @@ message becomes :
         z = z + y
 
     Debugprint of the apply node:
-    Elemwise{add,no_inplace} [@A] <TensorType(float64, vector)> ''
-     |Elemwise{add,no_inplace} [@B] <TensorType(float64, vector)> ''
-     | |<TensorType(float64, vector)> [@C] <TensorType(float64, vector)>
-     | |<TensorType(float64, vector)> [@C] <TensorType(float64, vector)>
-     |<TensorType(float64, vector)> [@D] <TensorType(float64, vector)>
+    Elemwise{add,no_inplace} [id A] <TensorType(float64, vector)> ''
+     |Elemwise{add,no_inplace} [id B] <TensorType(float64, vector)> ''
+     | |<TensorType(float64, vector)> [id C] <TensorType(float64, vector)>
+     | |<TensorType(float64, vector)> [id C] <TensorType(float64, vector)>
+     |<TensorType(float64, vector)> [id D] <TensorType(float64, vector)>
 
 We can here see that the error can be traced back to the line ``z = z + y``.
 For this example, using ``optimizer=fast_compile`` worked. If it did not,
@@ -150,12 +150,12 @@ Running the above code generates the following error message:
     Inputs scalar values: ['not scalar', 'not scalar']
 
     Debugprint of the apply node:
-    Dot22 [@A] <TensorType(float64, matrix)> ''
-     |x [@B] <TensorType(float64, matrix)>
-     |DimShuffle{1,0} [@C] <TensorType(float64, matrix)> ''
-       |Flatten{2} [@D] <TensorType(float64, matrix)> ''
-         |DimShuffle{2,0,1} [@E] <TensorType(float64, 3D)> ''
-           |W1 [@F] <TensorType(float64, 3D)>
+    Dot22 [id A] <TensorType(float64, matrix)> ''
+     |x [id B] <TensorType(float64, matrix)>
+     |DimShuffle{1,0} [id C] <TensorType(float64, matrix)> ''
+       |Flatten{2} [id D] <TensorType(float64, matrix)> ''
+         |DimShuffle{2,0,1} [id E] <TensorType(float64, 3D)> ''
+           |W1 [id F] <TensorType(float64, 3D)>
 
     HINT: Re-running with most Theano optimization disabled could give you a back-traces when this node was created. This can be done with by setting the Theano flags 'optimizer=fast_compile'. If that does not work, Theano optimization can be disabled with 'optimizer=None'.
 
@@ -392,8 +392,8 @@ can be achieved as follows:
    :options: +NORMALIZE_WHITESPACE
 
    *** NaN detected ***
-   Elemwise{Composite{(log(i0) * i0)}} [#A] ''
-    |x [#B]
+   Elemwise{Composite{(log(i0) * i0)}} [id A] ''
+    |x [id B]
    Inputs : [array(0.0)]
    Outputs: [array(nan)]
 

doc/tutorial/printing_drawing.txt

@@ -67,39 +67,39 @@ Debug Print
 The pre-compilation graph:
 
 >>> theano.printing.debugprint(prediction) # doctest: +NORMALIZE_WHITESPACE
-Elemwise{gt,no_inplace} [#A] ''
- |Elemwise{true_div,no_inplace} [#B] ''
- | |DimShuffle{x} [#C] ''
- | | |TensorConstant{1} [#D]
- | |Elemwise{add,no_inplace} [#E] ''
- |   |DimShuffle{x} [#F] ''
- |   | |TensorConstant{1} [#D]
- |   |Elemwise{exp,no_inplace} [#G] ''
- |     |Elemwise{sub,no_inplace} [#H] ''
- |       |Elemwise{neg,no_inplace} [#I] ''
- |       | |dot [#J] ''
- |       |   |x [#K]
- |       |   |w [#L]
- |       |DimShuffle{x} [#M] ''
- |         |b [#N]
- |DimShuffle{x} [#O] ''
-   |TensorConstant{0.5} [#P]
+Elemwise{gt,no_inplace} [id A] ''
+ |Elemwise{true_div,no_inplace} [id B] ''
+ | |DimShuffle{x} [id C] ''
+ | | |TensorConstant{1} [id D]
+ | |Elemwise{add,no_inplace} [id E] ''
+ |   |DimShuffle{x} [id F] ''
+ |   | |TensorConstant{1} [id D]
+ |   |Elemwise{exp,no_inplace} [id G] ''
+ |     |Elemwise{sub,no_inplace} [id H] ''
+ |       |Elemwise{neg,no_inplace} [id I] ''
+ |       | |dot [id J] ''
+ |       |   |x [id K]
+ |       |   |w [id L]
+ |       |DimShuffle{x} [id M] ''
+ |         |b [id N]
+ |DimShuffle{x} [id O] ''
+   |TensorConstant{0.5} [id P]
 
 The post-compilation graph:
 
 >>> theano.printing.debugprint(predict)  # doctest: +NORMALIZE_WHITESPACE
-Elemwise{Composite{GT(scalar_sigmoid((-((-i0) - i1))), i2)}} [#A] ''   4
- |CGemv{inplace} [#B] ''   3
- | |AllocEmpty{dtype='float64'} [#C] ''   2
- | | |Shape_i{0} [#D] ''   1
- | |   |x [#E]
- | |TensorConstant{1.0} [#F]
- | |x [#E]
- | |w [#G]
- | |TensorConstant{0.0} [#H]
- |InplaceDimShuffle{x} [#I] ''   0
- | |b [#J]
- |TensorConstant{(1,) of 0.5} [#K]
+Elemwise{Composite{GT(scalar_sigmoid((-((-i0) - i1))), i2)}} [id A] ''   4
+ |CGemv{inplace} [id B] ''   3
+ | |AllocEmpty{dtype='float64'} [id C] ''   2
+ | | |Shape_i{0} [id D] ''   1
+ | |   |x [id E]
+ | |TensorConstant{1.0} [id F]
+ | |x [id E]
+ | |w [id G]
+ | |TensorConstant{0.0} [id H]
+ |InplaceDimShuffle{x} [id I] ''   0
+ | |b [id J]
+ |TensorConstant{(1,) of 0.5} [id K]
 
 
 Picture Printing of Graphs

doc/tutorial/shape_info.txt

@@ -24,11 +24,11 @@ Currently, information regarding shape is used in two ways in Theano:
 >>> x = theano.tensor.matrix('x')
 >>> f = theano.function([x], (x ** 2).shape)
 >>> theano.printing.debugprint(f) # doctest: +NORMALIZE_WHITESPACE
-MakeVector{dtype='int64'} [#A] ''   2
- |Shape_i{0} [#B] ''   1
- | |x [#C]
- |Shape_i{1} [#D] ''   0
-   |x [#C]
+MakeVector{dtype='int64'} [id A] ''   2
+ |Shape_i{0} [id B] ''   1
+ | |x [id C]
+ |Shape_i{1} [id D] ''   0
+   |x [id C]
     
 
 The output of this compiled function does not contain any multiplication
@@ -51,24 +51,24 @@ can lead to errors. Consider this example:
 
 >>> f = theano.function([x, y], z.shape)
 >>> theano.printing.debugprint(f) # doctest: +NORMALIZE_WHITESPACE
-MakeVector{dtype='int64'} [#A] ''   4
- |Elemwise{Add}[(0, 0)] [#B] ''   3
- | |Shape_i{0} [#C] ''   1
- | | |x [#D]
- | |Shape_i{0} [#E] ''   2
- |   |y [#F]
- |Shape_i{1} [#G] ''   0
-   |x [#D]
+MakeVector{dtype='int64'} [id A] ''   4
+ |Elemwise{Add}[(0, 0)] [id B] ''   3
+ | |Shape_i{0} [id C] ''   1
+ | | |x [id D]
+ | |Shape_i{0} [id E] ''   2
+ |   |y [id F]
+ |Shape_i{1} [id G] ''   0
+   |x [id D]
 
 >>> f(xv, yv) # DOES NOT RAISE AN ERROR AS SHOULD BE.
 array([8, 4])
 
 >>> f = theano.function([x,y], z)# Do not take the shape.
 >>> theano.printing.debugprint(f) # doctest: +NORMALIZE_WHITESPACE
-Join [#A] ''   0
- |TensorConstant{0} [#B]
- |x [#C]
- |y [#D]
+Join [id A] ''   0
+ |TensorConstant{0} [id B]
+ |x [id C]
+ |y [id D]
 
 >>> f(xv, yv)  # doctest: +ELLIPSIS
 Traceback (most recent call last):
@@ -121,8 +121,8 @@ upgrade.  Here is the current state of what can be done:
 >>> x_specify_shape = theano.tensor.specify_shape(x, (2, 2))
 >>> f = theano.function([x], (x_specify_shape ** 2).shape)
 >>> theano.printing.debugprint(f) # doctest: +NORMALIZE_WHITESPACE
-DeepCopyOp [#A] ''   0
- |TensorConstant{(2,) of 2} [#B]
+DeepCopyOp [id A] ''   0
+ |TensorConstant{(2,) of 2} [id B]
 
 Future Plans
 ============

theano/compile/debugmode.py

@@ -647,11 +647,11 @@ def debugprint(r, prefix='', depth=-1, done=None, print_type=False,
         if obj in done:
             id_str = done[obj]
         elif ids == "id":
-            id_str = "[#%s]" % str(id(r))
+            id_str = "[id %s]" % str(id(r))
         elif ids == "int":
-            id_str = "[#%s]" % str(len(done))
+            id_str = "[id %s]" % str(len(done))
         elif ids == "CHAR":
-            id_str = "[#%s]" % char_from_number(len(done))
+            id_str = "[id %s]" % char_from_number(len(done))
         elif ids == "":
             id_str = ""
         done[obj] = id_str

theano/gof/tests/test_opt.py

@@ -383,16 +383,16 @@ class TestMergeOptimizer:
         g = FunctionGraph([x1, x2], [e])
         MergeOptimizer().optimize(g)
         strg = theano.printing.debugprint(g, file='str')
-        strref = '''Elemwise{add,no_inplace} [@A] ''   4
- |dot [@B] ''   3
- | |Assert{msg='Theano Assert failed!'} [@C] ''   2
- | | |x1 [@D]
- | | |All [@E] ''   1
- | |   |Elemwise{gt,no_inplace} [@F] ''   0
- | |     |x1 [@D]
- | |     |x2 [@G]
- | |x2 [@G]
- |dot [@B] ''   3
+        strref = '''Elemwise{add,no_inplace} [id A] ''   4
+ |dot [id B] ''   3
+ | |Assert{msg='Theano Assert failed!'} [id C] ''   2
+ | | |x1 [id D]
+ | | |All [id E] ''   1
+ | |   |Elemwise{gt,no_inplace} [id F] ''   0
+ | |     |x1 [id D]
+ | |     |x2 [id G]
+ | |x2 [id G]
+ |dot [id B] ''   3
 '''
         assert strg == strref, (strg, strref)
 
@@ -407,35 +407,35 @@ class TestMergeOptimizer:
         g = FunctionGraph([x1, x2, x3], [e])
         MergeOptimizer().optimize(g)
         strg = theano.printing.debugprint(g, file='str')
-        strref1 = '''Elemwise{add,no_inplace} [@A] ''   6
- |dot [@B] ''   5
- | |Assert{msg='Theano Assert failed!'} [@C] ''   4
- | | |x1 [@D]
- | | |All [@E] ''   3
- | | | |Elemwise{gt,no_inplace} [@F] ''   1
- | | |   |x1 [@D]
- | | |   |x3 [@G]
- | | |All [@H] ''   2
- | |   |Elemwise{gt,no_inplace} [@I] ''   0
- | |     |x1 [@D]
- | |     |x2 [@J]
- | |x2 [@J]
- |dot [@B] ''   5
+        strref1 = '''Elemwise{add,no_inplace} [id A] ''   6
+ |dot [id B] ''   5
+ | |Assert{msg='Theano Assert failed!'} [id C] ''   4
+ | | |x1 [id D]
+ | | |All [id E] ''   3
+ | | | |Elemwise{gt,no_inplace} [id F] ''   1
+ | | |   |x1 [id D]
+ | | |   |x3 [id G]
+ | | |All [id H] ''   2
+ | |   |Elemwise{gt,no_inplace} [id I] ''   0
+ | |     |x1 [id D]
+ | |     |x2 [id J]
+ | |x2 [id J]
+ |dot [id B] ''   5
 '''
-        strref2 = '''Elemwise{add,no_inplace} [@A] ''   6
- |dot [@B] ''   5
- | |Assert{msg='Theano Assert failed!'} [@C] ''   4
- | | |x1 [@D]
- | | |All [@E] ''   3
- | | | |Elemwise{gt,no_inplace} [@F] ''   1
- | | |   |x1 [@D]
- | | |   |x2 [@G]
- | | |All [@H] ''   2
- | |   |Elemwise{gt,no_inplace} [@I] ''   0
- | |     |x1 [@D]
- | |     |x3 [@J]
- | |x2 [@G]
- |dot [@B] ''   5
+        strref2 = '''Elemwise{add,no_inplace} [id A] ''   6
+ |dot [id B] ''   5
+ | |Assert{msg='Theano Assert failed!'} [id C] ''   4
+ | | |x1 [id D]
+ | | |All [id E] ''   3
+ | | | |Elemwise{gt,no_inplace} [id F] ''   1
+ | | |   |x1 [id D]
+ | | |   |x2 [id G]
+ | | |All [id H] ''   2
+ | |   |Elemwise{gt,no_inplace} [id I] ''   0
+ | |     |x1 [id D]
+ | |     |x3 [id J]
+ | |x2 [id G]
+ |dot [id B] ''   5
 '''
         # print(strg)
         assert strg == strref1 or strg == strref2, (strg, strref1, strref2)
@@ -450,21 +450,21 @@ class TestMergeOptimizer:
         g = FunctionGraph([x1, x2, x3], [e])
         MergeOptimizer().optimize(g)
         strg = theano.printing.debugprint(g, file='str')
-        strref = '''Elemwise{add,no_inplace} [@A] ''   7
- |dot [@B] ''   6
- | |Assert{msg='Theano Assert failed!'} [@C] ''   5
- | | |x1 [@D]
- | | |All [@E] ''   3
- | |   |Elemwise{gt,no_inplace} [@F] ''   1
- | |     |x1 [@D]
- | |     |x3 [@G]
- | |Assert{msg='Theano Assert failed!'} [@H] ''   4
- |   |x2 [@I]
- |   |All [@J] ''   2
- |     |Elemwise{gt,no_inplace} [@K] ''   0
- |       |x2 [@I]
- |       |x3 [@G]
- |dot [@B] ''   6
+        strref = '''Elemwise{add,no_inplace} [id A] ''   7
+ |dot [id B] ''   6
+ | |Assert{msg='Theano Assert failed!'} [id C] ''   5
+ | | |x1 [id D]
+ | | |All [id E] ''   3
+ | |   |Elemwise{gt,no_inplace} [id F] ''   1
+ | |     |x1 [id D]
+ | |     |x3 [id G]
+ | |Assert{msg='Theano Assert failed!'} [id H] ''   4
+ |   |x2 [id I]
+ |   |All [id J] ''   2
+ |     |Elemwise{gt,no_inplace} [id K] ''   0
+ |       |x2 [id I]
+ |       |x3 [id G]
+ |dot [id B] ''   6
 '''
         # print(strg)
         assert strg == strref, (strg, strref)
@@ -479,21 +479,21 @@ class TestMergeOptimizer:
         g = FunctionGraph([x1, x2, x3], [e])
         MergeOptimizer().optimize(g)
         strg = theano.printing.debugprint(g, file='str')
-        strref = '''Elemwise{add,no_inplace} [@A] ''   7
- |dot [@B] ''   6
- | |Assert{msg='Theano Assert failed!'} [@C] ''   5
- | | |x1 [@D]
- | | |All [@E] ''   3
- | |   |Elemwise{gt,no_inplace} [@F] ''   1
- | |     |x1 [@D]
- | |     |x3 [@G]
- | |Assert{msg='Theano Assert failed!'} [@H] ''   4
- |   |x2 [@I]
- |   |All [@J] ''   2
- |     |Elemwise{gt,no_inplace} [@K] ''   0
- |       |x2 [@I]
- |       |x3 [@G]
- |dot [@B] ''   6
+        strref = '''Elemwise{add,no_inplace} [id A] ''   7
+ |dot [id B] ''   6
+ | |Assert{msg='Theano Assert failed!'} [id C] ''   5
+ | | |x1 [id D]
+ | | |All [id E] ''   3
+ | |   |Elemwise{gt,no_inplace} [id F] ''   1
+ | |     |x1 [id D]
+ | |     |x3 [id G]
+ | |Assert{msg='Theano Assert failed!'} [id H] ''   4
+ |   |x2 [id I]
+ |   |All [id J] ''   2
+ |     |Elemwise{gt,no_inplace} [id K] ''   0
+ |       |x2 [id I]
+ |       |x3 [id G]
+ |dot [id B] ''   6
 '''
         print(strg)
         assert strg == strref, (strg, strref)

theano/tensor/tests/test_opt.py

@@ -3150,26 +3150,26 @@ class Test_local_useless_elemwise_comparison(unittest.TestCase):
         theano.printing.debugprint(Z)
         # here is the output for the debug print:
         """
-        Elemwise{add,no_inplace} [@A] ''
-         |for{cpu,scan_fn} [@B] ''
-         | |Subtensor{int64} [@C] ''
-         | | |Shape [@D] ''
-         | | | |Subtensor{int64::} [@E] 'X[0:]'
-         | | |   |X [@F]
-         | | |   |Constant{0} [@G]
-         | | |Constant{0} [@H]
-         | |Subtensor{:int64:} [@I] ''
-         | | |Subtensor{int64::} [@E] 'X[0:]'
-         | | |ScalarFromTensor [@J] ''
-         | |   |Subtensor{int64} [@C] ''
-         | |Subtensor{int64} [@C] ''
-         |Y [@K]
+        Elemwise{add,no_inplace} [id A] ''
+         |for{cpu,scan_fn} [id B] ''
+         | |Subtensor{int64} [id C] ''
+         | | |Shape [id D] ''
+         | | | |Subtensor{int64::} [id E] 'X[0:]'
+         | | |   |X [id F]
+         | | |   |Constant{0} [id G]
+         | | |Constant{0} [id H]
+         | |Subtensor{:int64:} [id I] ''
+         | | |Subtensor{int64::} [id E] 'X[0:]'
+         | | |ScalarFromTensor [id J] ''
+         | |   |Subtensor{int64} [id C] ''
+         | |Subtensor{int64} [id C] ''
+         |Y [id K]
 
         Inner graphs of the scan ops:
 
-        for{cpu,scan_fn} [@B] ''
-         >Sum{acc_dtype=float64} [@L] ''
-         > |X[t] [@M] -> [@I]
+        for{cpu,scan_fn} [id B] ''
+         >Sum{acc_dtype=float64} [id L] ''
+         > |X[t] [id M] -> [id I]
         """
         
         mode = theano.compile.get_default_mode().excluding('fusion')
@@ -3177,30 +3177,30 @@ class Test_local_useless_elemwise_comparison(unittest.TestCase):
         theano.printing.debugprint(f, print_type=True)
         # here is the output for the debug print:
         """
-        Elemwise{Add}[(0, 0)] [@A] <TensorType(float64, vector)> ''   7
-         |for{cpu,scan_fn} [@B] <TensorType(float64, vector)> ''   6
-         | |Shape_i{0} [@C] <TensorType(int64, scalar)> ''   0
-         | | |X [@D] <TensorType(float64, matrix)>
-         | |Subtensor{int64:int64:int8} [@E] <TensorType(float64, matrix)> ''   5
-         | | |X [@D] <TensorType(float64, matrix)>
-         | | |ScalarFromTensor [@F] <int64> ''   4
-         | | | |Elemwise{switch,no_inplace} [@G] <TensorType(int64, scalar)> ''   3
-         | | |   |Elemwise{le,no_inplace} [@H] <TensorType(int8, scalar)> ''   2
-         | | |   | |Shape_i{0} [@C] <TensorType(int64, scalar)> ''   0
-         | | |   | |TensorConstant{0} [@I] <TensorType(int8, scalar)>
-         | | |   |TensorConstant{0} [@I] <TensorType(int8, scalar)>
-         | | |   |TensorConstant{0} [@J] <TensorType(int64, scalar)>
-         | | |ScalarFromTensor [@K] <int64> ''   1
-         | | | |Shape_i{0} [@C] <TensorType(int64, scalar)> ''   0
-         | | |Constant{1} [@L] <int8>
-         | |Shape_i{0} [@C] <TensorType(int64, scalar)> ''   0
-         |Y [@M] <TensorType(float64, vector)>
+        Elemwise{Add}[(0, 0)] [id A] <TensorType(float64, vector)> ''   7
+         |for{cpu,scan_fn} [id B] <TensorType(float64, vector)> ''   6
+         | |Shape_i{0} [id C] <TensorType(int64, scalar)> ''   0
+         | | |X [id D] <TensorType(float64, matrix)>
+         | |Subtensor{int64:int64:int8} [id E] <TensorType(float64, matrix)> ''   5
+         | | |X [id D] <TensorType(float64, matrix)>
+         | | |ScalarFromTensor [id F] <int64> ''   4
+         | | | |Elemwise{switch,no_inplace} [id G] <TensorType(int64, scalar)> ''   3
+         | | |   |Elemwise{le,no_inplace} [id H] <TensorType(int8, scalar)> ''   2
+         | | |   | |Shape_i{0} [id C] <TensorType(int64, scalar)> ''   0
+         | | |   | |TensorConstant{0} [id I] <TensorType(int8, scalar)>
+         | | |   |TensorConstant{0} [id I] <TensorType(int8, scalar)>
+         | | |   |TensorConstant{0} [id J] <TensorType(int64, scalar)>
+         | | |ScalarFromTensor [id K] <int64> ''   1
+         | | | |Shape_i{0} [id C] <TensorType(int64, scalar)> ''   0
+         | | |Constant{1} [id L] <int8>
+         | |Shape_i{0} [id C] <TensorType(int64, scalar)> ''   0
+         |Y [id M] <TensorType(float64, vector)>
 
         Inner graphs of the scan ops:
 
-        for{cpu,scan_fn} [@B] <TensorType(float64, vector)> ''
-         >Sum{acc_dtype=float64} [@N] <TensorType(float64, scalar)> ''
-         > |X[t] [@O] <TensorType(float64, vector)> -> [@E]
+        for{cpu,scan_fn} [id B] <TensorType(float64, vector)> ''
+         >Sum{acc_dtype=float64} [id N] <TensorType(float64, scalar)> ''
+         > |X[t] [id O] <TensorType(float64, vector)> -> [id E]
         """
 
     def assert_eqs_const(self, f, val):