@@ -83,7 +83,7 @@ def _eval_linear():
8383
8484@overload (_eval_linear )
8585def __eval_linear (grid ,C ,points ):
86- print ("We allocate with default extrapolation." )
86+ # print("We allocate with default extrapolation.")
8787 d = len (grid )
8888 n_x = len (grid .types )
8989 vector_valued = (C .ndim == d + 1 )
@@ -93,7 +93,7 @@ def __eval_linear(grid,C,points):
9393 grid_types = ['nonuniform' if isinstance (tt , numba .types .Array ) else 'uniform' for tt in grid .types ]
9494 context = {'floor' : floor , 'zeros' : zeros , 'np' : np } #, 'Cd': Ad, 'dCd': dAd}
9595 code = get_code_linear (d , vector_valued = vector_valued , vectorized = vec_eval , allocate = True , grid_types = grid_types )
96- print (code )
96+ # print(code)
9797 f = source_to_function (code , context )
9898 return f
9999
@@ -118,7 +118,7 @@ def __eval_linear(grid,C,points,extrap_mode):
118118 else :
119119 return None
120120 code = get_code_linear (d , vector_valued = vector_valued , vectorized = vec_eval , allocate = True , grid_types = grid_types , extrap_mode = extrap_ )
121- print (code )
121+ # print(code)
122122 f = source_to_function (code , context )
123123 return f
124124
@@ -127,7 +127,7 @@ def __eval_linear(grid,C,points,extrap_mode):
127127@overload (_eval_linear )
128128def __eval_linear (grid ,C ,points ,out ,extrap_mode ):
129129
130- print (f"We are going to do inplace, with { extrap_mode } )
130+ # print(f"We are going to do inplace, with {extrap_mode} extrapolation")
131131 d = len (grid )
132132 n_x = len (grid .types )
133133 vector_valued = (C .ndim == d + 1 )
@@ -143,23 +143,23 @@ def __eval_linear(grid,C,points,out,extrap_mode):
143143 else :
144144 return None
145145 code = get_code_linear (d , vector_valued = vector_valued , vectorized = vec_eval , allocate = False , grid_types = grid_types , extrap_mode = extrap_ )
146- print (code )
146+ # print(code)
147147 f = source_to_function (code , context )
148148 return f
149149
150150
151151@overload (_eval_linear )
152152def __eval_linear (grid ,C ,points ,out ):
153153
154- print ("We are going to do inplace, with default extrapolation" )
154+ # print("We are going to do inplace, with default extrapolation")
155155 d = len (grid )
156156 n_x = len (grid .types )
157157 vector_valued = (C .ndim == d + 1 )
158158 vec_eval = (points .ndim == 2 )
159159 grid_types = ['nonuniform' if isinstance (tt , numba .types .Array ) else 'uniform' for tt in grid .types ]
160160 context = {'floor' : floor , 'zeros' : zeros , 'np' : np } #, 'Cd': Ad, 'dCd': dAd}
161161 code = get_code_linear (d , vector_valued = vector_valued , vectorized = vec_eval , allocate = False , grid_types = grid_types )
162- print (code )
162+ # print(code)
163163 f = source_to_function (code , context )
164164 return f
165165
@@ -180,7 +180,7 @@ def _eval_cubic():
180180
181181@overload (_eval_cubic )
182182def __eval_cubic (grid ,C ,points ):
183- print ("We allocate with default extrapolation." )
183+ # print("We allocate with default extrapolation.")
184184 d = len (grid )
185185 n_x = len (grid .types )
186186 vector_valued = (C .ndim == d + 1 )
@@ -190,7 +190,7 @@ def __eval_cubic(grid,C,points):
190190 grid_types = ['nonuniform' if isinstance (tt , numba .types .Array ) else 'uniform' for tt in grid .types ]
191191 context = {'floor' : floor , 'zeros' : zeros , 'Cd' : Ad , 'dCd' : dAd }
192192 code = get_code_cubic (d , vector_valued = vector_valued , vectorized = vec_eval , allocate = True , grid_types = grid_types )
193- print (code )
193+ # print(code)
194194 f = source_to_function (code , context )
195195 return f
196196
@@ -216,7 +216,7 @@ def __eval_cubic(grid,C,points,extrap_mode):
216216 else :
217217 return None
218218 code = get_code_cubic (d , vector_valued = vector_valued , vectorized = vec_eval , allocate = True , grid_types = grid_types , extrap_mode = extrap_ )
219- print (code )
219+ # print(code)
220220 f = source_to_function (code , context )
221221 return f
222222
@@ -225,7 +225,7 @@ def __eval_cubic(grid,C,points,extrap_mode):
225225@overload (_eval_cubic )
226226def __eval_cubic (grid ,C ,points ,out ,extrap_mode ):
227227
228- print (f"We are going to do inplace, with { extrap_mode } )
228+ # print(f"We are going to do inplace, with {extrap_mode} extrapolation")
229229 d = len (grid )
230230 n_x = len (grid .types )
231231 vector_valued = (C .ndim == d + 1 )
@@ -241,23 +241,23 @@ def __eval_cubic(grid,C,points,out,extrap_mode):
241241 else :
242242 return None
243243 code = get_code_cubic (d , vector_valued = vector_valued , vectorized = vec_eval , allocate = False , grid_types = grid_types , extrap_mode = extrap_ )
244- print (code )
244+ # print(code)
245245 f = source_to_function (code , context )
246246 return f
247247
248248
249249@overload (_eval_cubic )
250250def __eval_cubic (grid ,C ,points ,out ):
251251
252- print ("We are going to do inplace, with default extrapolation" )
252+ # print("We are going to do inplace, with default extrapolation")
253253 d = len (grid )
254254 n_x = len (grid .types )
255255 vector_valued = (C .ndim == d + 1 )
256256 vec_eval = (points .ndim == 2 )
257257 grid_types = ['nonuniform' if isinstance (tt , numba .types .Array ) else 'uniform' for tt in grid .types ]
258258 context = {'floor' : floor , 'zeros' : zeros , 'Cd' : Ad , 'dCd' : dAd }
259259 code = get_code_cubic (d , vector_valued = vector_valued , vectorized = vec_eval , allocate = False , grid_types = grid_types )
260- print (code )
260+ # print(code)
261261 f = source_to_function (code , context )
262262 return f
263263
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