Merge pull request #749 from nouiz/small

Small

Merge pull request #749 from nouiz/small
26ad0835 · lamblin · 49add2d8 · 69354dd0 · 26ad0835 · 26ad0835
--- a/theano/compile/mode.py
+++ b/theano/compile/mode.py
@@ -367,7 +367,7 @@ class Mode(object):
 # FunctionMaker, the Mode will be taken from this dictionary using the
 # string as the key
 FAST_COMPILE = Mode('py', 'fast_compile')
-FAST_RUN = Mode('c|py', 'fast_run')
+FAST_RUN = Mode('cvm', 'fast_run')
 predefined_modes = {'FAST_COMPILE': FAST_COMPILE,
                    'FAST_RUN': FAST_RUN,

--- a/theano/printing.py
+++ b/theano/printing.py
@@ -479,10 +479,10 @@ def pydotprint(fct, outfile=None,
               high_contrast=True, cond_highlight=None, colorCodes=None,
               max_label_size=50, scan_graphs=False,
               var_with_name_simple=False,
-               print_output_file=True
+               print_output_file=True,
+               assert_nb_all_strings=-1
               ):
-    """
+    """print to a file in png format the graph of op of a compile theano fct.
-    print to a file in png format the graph of op of a compile theano fct.
    :param fct: the theano fct returned by theano.function.
    :param outfile: the output file where to put the graph.
@@ -509,6 +509,10 @@ def pydotprint(fct, outfile=None,
    :param var_with_name_simple: If true and a variable have a name,
                we will print only the variable name.
                Otherwise, we concatenate the type to the var name.
+    :param assert_nb_all_strings: Used for tests. This assert the
+                number of uniq string node in the dot graph. This is
+                used in tests to verify that dot won't merge Theano
+                node.
    In the graph, ellipses are Apply Nodes (the execution of an op)
    and boxes are variables.  If variables have names they are used as
@@ -526,6 +530,7 @@ def pydotprint(fct, outfile=None,
    grey boxes are variables that are not outputs and are not used
    red ellipses are transfers from/to the gpu (ops with names GpuFromHost,
       HostFromGpu)
    """
    if colorCodes is None:
        colorCodes = default_colorCodes
@@ -622,6 +627,13 @@ def pydotprint(fct, outfile=None,
                varstr = varstr + idx
        elif len(varstr) > max_label_size:
            varstr = varstr[:max_label_size - 3] + '...'
+            idx = 1
+            while varstr in all_strings:
+                idx += 1
+                suffix = ' id=' + str(idx)
+                varstr = (varstr[:max_label_size - 3 - len(suffix)] +
+                          '...' +
+                          suffix)
        var_str[var] = varstr
        all_strings.add(varstr)
@@ -656,6 +668,13 @@ def pydotprint(fct, outfile=None,
                applystr = applystr + idx
        elif len(applystr) > max_label_size:
            applystr = applystr[:max_label_size - 3] + '...'
+            idx = 1
+            while applystr in all_strings:
+                idx += 1
+                suffix = ' id=' + str(idx)
+                applystr = (applystr[:max_label_size - 3 - len(suffix)] +
+                            '...' +
+                            suffix)
        all_strings.add(applystr)
        apply_name_cache[node] = applystr
@@ -698,10 +717,10 @@ def pydotprint(fct, outfile=None,
        for id, var in enumerate(node.inputs):
            varstr = var_name(var)
            label = str(var.type)
-            if len(label) > max_label_size:
-                label = label[:max_label_size - 3] + '...'
            if len(node.inputs) > 1:
                label = str(id) + ' ' + label
+            if len(label) > max_label_size:
+                label = label[:max_label_size - 3] + '...'
            if var.owner is None:
                if high_contrast:
                    g.add_node(pd.Node(varstr,
@@ -751,10 +770,14 @@ def pydotprint(fct, outfile=None,
    if not outfile.endswith('.' + format):
        outfile += '.' + format
-    g.write(outfile, prog='dot', format=format)
+    g.write(outfile, prog='dot', format=format)
    if print_output_file:
        print 'The output file is available at', outfile
+    if assert_nb_all_strings != -1:
+        assert len(all_strings) == assert_nb_all_strings
    if scan_graphs:
        scan_ops = [(idx, x) for idx, x in enumerate(fct_fgraph.toposort())
                    if isinstance(x.op, theano.scan_module.scan_op.Scan)]

--- a/theano/scan_module/tests/test_scan.py
+++ b/theano/scan_module/tests/test_scan.py
@@ -3217,9 +3217,6 @@ def test_speed_rnn():
    # multiplication - the heart of an ESN or RNN.
    #
    import theano.scalar.sharedvar
-    print """Warning: the updates version runs slower than python because by
-    default the blas optimizations don't replace dot with dot22.
-    Why is that?"""
    L = 10000
    N = 50
@@ -3267,15 +3264,15 @@ def test_speed_rnn():
                    s_i: s_i + 1,
                    shared_r: s_rinc},
                mode=theano.Mode(linker='cvm'))
-        theano.printing.debugprint(f)
+        #theano.printing.debugprint(f)
        f_fn = f.fn
-        print f_fn
+        #print f_fn
        t2 = time.time()
        f_fn(n_calls=L - 2)
        f()  # 999 to update the profiling timers
        t3 = time.time()
        print 'theano (updates, cvm)', t3 - t2
-        print shared_r.get_value()
+        #print shared_r.get_value()
 def test_speed_batchrnn():
@@ -3296,9 +3293,6 @@ def test_speed_batchrnn():
    # multiplication - the heart of an ESN or RNN.
    #
    import theano.scalar.sharedvar
-    print """Warning: the updates version runs slower than python because by
-    default the blas optimizations don't replace dot with dot22.
-    Why is that?"""
    L = 100
    B = 50
@@ -3333,9 +3327,9 @@ def test_speed_batchrnn():
                                s_i: s_i + 1,
                                shared_r: s_rinc},
                mode=theano.Mode(linker='cvm'))
-        theano.printing.debugprint(f)
+        #theano.printing.debugprint(f)
        f_fn = f.fn
-        print f_fn
+        #print f_fn
        t2 = time.time()
        f_fn(n_calls=L - 2)
        f()  # 999 to update the profiling timers

--- a/theano/tensor/blas.py
+++ b/theano/tensor/blas.py
@@ -1350,6 +1350,7 @@ class GemmOptimizer(Optimizer):
    """Graph optimizer for inserting Gemm operations"""
    def __init__(self):
        Optimizer.__init__(self)
+        self.warned = False
    def add_requirements(self, fgraph):
        fgraph.extend(toolbox.ReplaceValidate())
@@ -1398,7 +1399,7 @@ class GemmOptimizer(Optimizer):
                            zip(node.outputs, new_outputs),
                            [old_dot22],
                            reason='GemmOptimizer',
-                            warn=nb_replacement_didn_t_remove == 0
+                            warn=not self.warned
                        )
                        did_something = True
                        nb_replacement += 1
@@ -1406,10 +1407,9 @@ class GemmOptimizer(Optimizer):
                        # TODO: retry other applications of gemm (see comment
                        # in _gemm_from_node)
                        nb_inconsistency_replace += 1
-                        pass
                    except ReplacementDidntRemovedError, e:
                        nb_replacement_didn_t_remove += 1
-                        pass
+                        self.warned = True
            nb_iter += 1
        return (self, nb_iter, nb_replacement, nb_replacement_didn_t_remove,
                nb_inconsistency_make, nb_inconsistency_replace,

--- a/theano/tensor/tests/test_casting.py
+++ b/theano/tensor/tests/test_casting.py
 import unittest
 from theano import function
-from theano.tensor.basic import (_convert_to_int32, _convert_to_int8, _convert_to_int16,
+from theano.tensor.basic import (_convert_to_int32, _convert_to_int8,
-        _convert_to_int64, _convert_to_float32, _convert_to_float64)
+                                 _convert_to_int16, _convert_to_int64,
+                                 _convert_to_float32, _convert_to_float64)
 from theano.tensor import *
 class test_casting(unittest.TestCase):
    def test_0(self):
-        for op_fn in _convert_to_int32, _convert_to_float32, _convert_to_float64:
+        for op_fn in [_convert_to_int32, _convert_to_float32,
+                      _convert_to_float64]:
            for type_fn in bvector, ivector, fvector, dvector:
                x = type_fn()
                f = function([x], op_fn(x))
-                xval = theano._asarray(numpy.random.rand(10)*10, dtype=type_fn.dtype)
+                xval = theano._asarray(numpy.random.rand(10) * 10,
+                                       dtype=type_fn.dtype)
                yval = f(xval)
-                assert str(yval.dtype) == op_fn.scalar_op.output_types_preference.spec[0].dtype
+                assert (str(yval.dtype) ==
+                        op_fn.scalar_op.output_types_preference.spec[0].dtype)
    def test_illegal(self):
        try:
            x = zmatrix()
-            function([x], cast(x, 'float64'))(numpy.ones((2,3), dtype='complex128'))
+            function([x], cast(x, 'float64'))(numpy.ones((2, 3),
+                                                         dtype='complex128'))
        except TypeError:
            return
        assert 0
    def test_basic(self):
-        for type1 in ['uint8', 'uint16', 'uint32', 'uint64', 'int8', 'int16', 'int32', 'int64', 'float32', 'float64']:
+        for type1 in ['uint8', 'uint16', 'uint32', 'uint64',
-            x = TensorType(dtype = type1, broadcastable = (False, )).make_variable()
+                      'int8', 'int16', 'int32', 'int64', 'float32', 'float64']:
-            for type2, converter in zip(['int8', 'int16', 'int32', 'int64', 'float32', 'float64'],
+            x = TensorType(dtype=type1,
+                           broadcastable=(False, )).make_variable()
+            for type2, converter in zip(['int8', 'int16', 'int32', 'int64',
+                                         'float32', 'float64'],
                                        [_convert_to_int8, _convert_to_int16,
-                                            _convert_to_int32, _convert_to_int64,
+                                         _convert_to_int32, _convert_to_int64,
-                                         _convert_to_float32, _convert_to_float64]):
+                                         _convert_to_float32,
+                                         _convert_to_float64]):
                y = converter(x)
-                f = function([compile.In(x, strict = True)], y)
+                f = function([compile.In(x, strict=True)], y)
-                a = numpy.arange(10, dtype = type1)
+                a = numpy.arange(10, dtype=type1)
                b = f(a)
-                self.assertTrue(numpy.all(b == numpy.arange(10, dtype = type2)))
+                self.assertTrue(numpy.all(b == numpy.arange(10, dtype=type2)))
    def test_convert_to_complex(self):
        val64 = numpy.ones(3, dtype='complex64') + 0.5j
        val128 = numpy.ones(3, dtype='complex128') + 0.5j
-        vec64 = TensorType('complex64',(False,))()
+        vec64 = TensorType('complex64', (False, ))()
-        vec128 = TensorType('complex128',(False,))()
+        vec128 = TensorType('complex128', (False, ))()
-        f = function([vec64],basic._convert_to_complex128(vec64))
+        f = function([vec64], basic._convert_to_complex128(vec64))
        #we need to compare with the same type.
        assert vec64.type.values_eq_approx(val128, f(val64))
-        f = function([vec128],basic._convert_to_complex128(vec128))
+        f = function([vec128], basic._convert_to_complex128(vec128))
        assert vec64.type.values_eq_approx(val128, f(val128))
-        f = function([vec64],basic._convert_to_complex64(vec64))
+        f = function([vec64], basic._convert_to_complex64(vec64))
        assert vec64.type.values_eq_approx(val64, f(val64))
-        f = function([vec128],basic._convert_to_complex64(vec128))
+        f = function([vec128], basic._convert_to_complex64(vec128))
        assert vec128.type.values_eq_approx(val64, f(val128))
        # upcasting to complex128
-        for t in ['int8','int16','int32','int64','float32','float64']:
+        for t in ['int8', 'int16', 'int32', 'int64', 'float32', 'float64']:
-            a = shared(numpy.ones(3, dtype=t))
+            a = theano.shared(numpy.ones(3, dtype=t))
-            b = shared(numpy.ones(3, dtype='complex128'))
+            b = theano.shared(numpy.ones(3, dtype='complex128'))
-            f = function([],basic._convert_to_complex128(a))
+            f = function([], basic._convert_to_complex128(a))
            assert a.type.values_eq_approx(b.get_value(), f())
        # upcasting to complex64
-        for t in ['int8','int16','int32','int64','float32']:
+        for t in ['int8', 'int16', 'int32', 'int64', 'float32']:
-            a = shared(numpy.ones(3, dtype=t))
+            a = theano.shared(numpy.ones(3, dtype=t))
-            b = shared(numpy.ones(3, dtype='complex64'))
+            b = theano.shared(numpy.ones(3, dtype='complex64'))
-            f = function([],basic._convert_to_complex64(a))
+            f = function([], basic._convert_to_complex64(a))
            assert a.type.values_eq_approx(b.get_value(), f())
        # downcast to complex64
        for t in ['float64']:
-            a = shared(numpy.ones(3, dtype=t))
+            a = theano.shared(numpy.ones(3, dtype=t))
-            b = shared(numpy.ones(3, dtype='complex64'))
+            b = theano.shared(numpy.ones(3, dtype='complex64'))
-            f = function([],basic._convert_to_complex64(a))
+            f = function([], basic._convert_to_complex64(a))
            assert a.type.values_eq_approx(b.get_value(), f())
    def test_bug_complext_10_august_09(self):
        v0 = dmatrix()
        v1 = basic._convert_to_complex128(v0)
@@ -87,5 +95,5 @@ class test_casting(unittest.TestCase):
        inputs = [v0]
        outputs = [v1]
        f = function(inputs, outputs)
-        i = numpy.zeros((2,2))
+        i = numpy.zeros((2, 2))
-        assert (f(i)==numpy.zeros((2,2))).all()
+        assert (f(i) == numpy.zeros((2, 2))).all()
--- a/theano/tests/test_printing.py
+++ b/theano/tests/test_printing.py
@@ -47,6 +47,34 @@ def test_pydotprint_cond_highlight():
            ' is no IfElse node in the graph\n')
+def test_pydotprint_long_name():
+    """This is a REALLY PARTIAL TEST.
+    It print a graph where there is variable and apply node that
+    there too long name is different, but not the shortened name.
+    We should not merge those node in the dot graph.
+    """
+    # Skip test if pydot is not available.
+    if not theano.printing.pydot_imported:
+        raise SkipTest('pydot not available')
+    x = tensor.dvector()
+    mode = theano.compile.mode.get_default_mode().excluding("fusion")
+    f = theano.function([x], [x * 2, x + x], mode=mode)
+    f([1, 2, 3, 4])
+    s = StringIO.StringIO()
+    new_handler = logging.StreamHandler(s)
+    new_handler.setLevel(logging.DEBUG)
+    orig_handler = theano.logging_default_handler
+    theano.printing.pydotprint(f, max_label_size=5,
+                               print_output_file=False,
+                               assert_nb_all_strings=6)
 def test_pydotprint_profile():
    """Just check that pydotprint does not crash with ProfileMode."""