}
}
return 0;
+ case DMBO_MINIMUM:
+ if (params->input0_broadcast || params->input1_broadcast) {
+ for (int i = 0; i < dims_count; ++i) {
+ dst[i] = FFMIN(params->v, src[i]);
+ }
+ } else {
+ const DnnOperand *input1 = &operands[input_operand_indexes[1]];
+ const float *src1 = input1->data;
+ for (int i = 0; i < dims_count; ++i) {
+ dst[i] = FFMIN(src[i], src1[i]);
+ }
+ }
+ return 0;
default:
return -1;
}
self.conv2d_scope_names = set()
self.conv2d_scopename_inputname_dict = {}
self.op2code = {'Conv2D':1, 'DepthToSpace':2, 'MirrorPad':3, 'Maximum':4, 'MathBinary':5}
- self.mathbin2code = {'Sub':0, 'Add':1, 'Mul':2, 'RealDiv':3}
+ self.mathbin2code = {'Sub':0, 'Add':1, 'Mul':2, 'RealDiv':3, 'Minimum':4}
self.mirrorpad_mode = {'CONSTANT':0, 'REFLECT':1, 'SYMMETRIC':2}
self.name_operand_dict = {}
self.dump_mirrorpad_to_file(node, f)
elif node.op == 'Maximum':
self.dump_maximum_to_file(node, f)
- elif node.op == 'Sub':
- self.dump_mathbinary_to_file(node, f)
- elif node.op == 'Add':
- self.dump_mathbinary_to_file(node, f)
- elif node.op == 'Mul':
- self.dump_mathbinary_to_file(node, f)
- elif node.op == 'RealDiv':
+ elif node.op in self.mathbin2code:
self.dump_mathbinary_to_file(node, f)
+
def dump_operands_to_file(self, f):
operands = sorted(self.name_operand_dict.values())
for operand in operands: