提交 8b21d123 编写于 作者: S SunAhong1993

fix the reshape problem

上级 b3838fbd
...@@ -12,6 +12,7 @@ def detectionoutput_layer(inputs, ...@@ -12,6 +12,7 @@ def detectionoutput_layer(inputs,
share_location=True, share_location=True,
keep_top_k=100, keep_top_k=100,
confidence_threshold=0.1, confidence_threshold=0.1,
num_classes=2,
input_shape=None, input_shape=None,
name=None): name=None):
nms_param_str = nms_param nms_param_str = nms_param
...@@ -36,9 +37,9 @@ def detectionoutput_layer(inputs, ...@@ -36,9 +37,9 @@ def detectionoutput_layer(inputs,
pb = fluid.layers.reshape(x=pb, shape=[-1, 4]) pb = fluid.layers.reshape(x=pb, shape=[-1, 4])
pbv = fluid.layers.reshape(x=pbv, shape=[-1, 4]) pbv = fluid.layers.reshape(x=pbv, shape=[-1, 4])
mbox_loc = inputs[0] mbox_loc = inputs[0]
mbox_loc = fluid.layers.reshape(x=mbox_loc, shape=[-1, pb.shape[0], 4]) mbox_loc = fluid.layers.reshape(x=mbox_loc, shape=[0, -1, 4])
mbox_conf_flatten = fluid.layers.reshape(x=mbox_conf_flatten, mbox_conf_flatten = fluid.layers.reshape(x=mbox_conf_flatten,
shape=[0, pb.shape[0], -1]) shape=[0, -1, num_classes])
default = {"nms_threshold": 0.3, "top_k": 10, "eta": 1.0} default = {"nms_threshold": 0.3, "top_k": 10, "eta": 1.0}
fields = ['eta', 'top_k', 'nms_threshold'] fields = ['eta', 'top_k', 'nms_threshold']
......
...@@ -293,15 +293,12 @@ def shape_reshape(layer, input_shape): ...@@ -293,15 +293,12 @@ def shape_reshape(layer, input_shape):
explicit_count *= count(l) explicit_count *= count(l)
for i in range(len(copy_axes)): for i in range(len(copy_axes)):
explicit_count *= outshape[start_axis + copy_axes[i]] explicit_count *= outshape[start_axis + copy_axes[i]]
assert input_count % explicit_count == 0, "[Reshape]botom count[%d] "\ outshape[start_axis + inferred_axis] = -1
"must be divisible by product of the specified dimensions[%d] "\ outshape[0] = 0
% (input_count, explicit_count) else:
outshape[start_axis + inferred_axis] = int(input_count / explicit_count) outshape[0] = -1
output_count = count(outshape) output_count = count(outshape)
assert output_count == input_count, "[Reshape]output count[%d] must match input count[%d]" % (
output_count, input_count)
outshape[0] = -1
return [outshape] return [outshape]
...@@ -345,9 +342,10 @@ def shape_flatten(layer, input_shape): ...@@ -345,9 +342,10 @@ def shape_flatten(layer, input_shape):
output_shape = inshape[0:start_axis] output_shape = inshape[0:start_axis]
if len(inshape[start_axis:end_axis]) != 0: if len(inshape[start_axis:end_axis]) != 0:
flat_sz = reduce(lambda a, b: a * b, inshape[start_axis:end_axis]) flat_sz = reduce(lambda a, b: a * b, inshape[start_axis:end_axis])
flat_sz = -1
output_shape[0] = 0
output_shape += [flat_sz] output_shape += [flat_sz]
output_shape += inshape[end_axis:len(inshape)] output_shape += inshape[end_axis:len(inshape)]
output_shape[0] = -1
return [output_shape] return [output_shape]
......
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