mirror of
https://github.com/slsdetectorgroup/slsDetectorPackage.git
synced 2026-04-28 11:32:23 +02:00
maliakal_d
5ec5d46c48
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* not allowing power names for dac names to prevent duplicate names * wip * v_abcd commands should be removed to prevent unintentional usage and throw with a suggestion command for dac and power * binary in * dacs with power dac names should work and do not take in dac units to avoid ambiguity, test with 0 value for power dacs should fail, to do: implement power commands * wip: power in client, tests, and fixed server interfaces and ctb implementation, not tested * wip. client and xilinx todo * wip: ctb power works, tests left * fixed some tests * added vchip check * python cmds still left. wip * fixed xilinx. python left * wip * wip. xilinx * fixed powerchip for ctb * power all returns all * configtransceiver is removed * wip python * wip * wip * wip * wip * wip * wip * wip xilinx * wip * wip * wip * pybindings * fix getdacindex and getdacname for normal detectors to throw if random index that doesnt fit to the detector * wip * fixed tests * fixes for python api * wip * python: moved powerlist to Ctb * fixed tests to work for powelist in Ctb * moved signallist, adclist, slowadc, slowadclist to Ctb * throw approperiate error when no modules added for powers * added dac test * fix dac default names and test for dacs * ctb dacs, yet to do othe rdacs * dacs should work now even in tests * run all tests * DetectorPowers->NamedPowers in ctb * comments * removed unnecessary test code * removed hard coded dac names in python NamedDacs and NamedPowers * minor * minor * fixed error messages * changed power to be able to set DAC directly, using enable and disable methods with enabled to get
282 lines
13 KiB
Python
282 lines
13 KiB
Python
class CodeGenerator:
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def __init__(self):
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self.file = None
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self.actions_dict = {
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'GET': 'slsDetectorDefs::GET_ACTION',
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'PUT': 'slsDetectorDefs::PUT_ACTION',
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'READOUT': 'slsDetectorDefs::READOUT_ACTION',
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'HELP': 'slsDetectorDefs::HELP_ACTION',
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}
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self.template_file = None
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def open(self, path):
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self.file = path.open('w')
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def close(self):
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self.file.close()
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self.file = None
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def write_line(self, line):
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self.file.write(line + '\n')
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def write(self, text):
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self.file.write(text)
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def write_opening(self, path):
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"""Write the opening file for the caller.cpp file"""
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self.template_file = path.open('r')
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for line in self.template_file:
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if "THIS COMMENT TO BE REPLACED BY THE ACTUAL CODE" in line:
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return
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self.file.write(line)
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def write_closing(self):
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"""Write the closing file for the caller.cpp file"""
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for line in self.template_file.readlines():
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self.file.write(line)
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self.template_file.close()
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def write_header(self, in_path, out_path, commands, deprecated_commands, removed_commands):
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"""Write the header file for the caller.h file"""
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with out_path.open('w') as fp:
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with in_path.open('r') as fp2:
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for line in fp2:
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if "THIS COMMENT TO BE REPLACED BY THE ACTUAL CODE (1)" in line:
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for command_name, command in commands.items():
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if 'duplicate_function' in command and command['duplicate_function']:
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continue
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fp.write(f'std::string {command["function_alias"]}(int action);\n')
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continue
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if "THIS COMMENT TO BE REPLACED BY THE ACTUAL CODE (2)" in line:
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map_string = ''
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for command_name, command in commands.items():
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map_string += f'{{"{command_name}", &Caller::{command["function_alias"]}}},'
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fp.write(map_string[:-1] + '\n')
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continue
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if "THIS COMMENT TO BE REPLACED BY THE ACTUAL CODE (3)" in line:
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for key, value in deprecated_commands.items():
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fp.write(f'{{"{key}", "{value}"}},\n')
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continue
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if "THIS COMMENT TO BE REPLACED BY THE ACTUAL CODE (4)" in line:
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for key, value in removed_commands.items():
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fp.write(f'{{"{key}", "{value}"}},\n')
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continue
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fp.write(line)
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def write_infer_header(self, in_path, out_path, commands):
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"""Write the header file for the inferAction.h file"""
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with out_path.open('w+') as fp:
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with in_path.open('r') as fp2:
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for line in fp2:
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if "THIS COMMENT TO BE REPLACED BY THE ACTUAL CODE (1) - DO NOT REMOVE" in line:
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for command_name, command in commands.items():
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if 'duplicate_function' in command and command['duplicate_function']:
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continue
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fp.write(f'int {command["function_alias"]}();\n')
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continue
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if "THIS COMMENT TO BE REPLACED BY THE ACTUAL CODE (2) - DO NOT REMOVE" in line:
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map_string = ''
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for command_name, command in commands.items():
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map_string += f'{{"{command_name}", &InferAction::{command["function_alias"]}}},'
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fp.write(map_string[:-1] + '\n')
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continue
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fp.write(line)
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def write_infer_cpp(self, in_path, out_path, commands, non_dist, type_dist):
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"""Write the source file for the inferAction.cpp file"""
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with in_path.open('r') as fp2:
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for line in fp2:
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if "THIS COMMENT TO BE REPLACED BY THE ACTUAL CODE (1) - DO NOT REMOVE" in line:
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for command_name, command in commands.items():
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if 'duplicate_function' in command and command['duplicate_function']:
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continue
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with function('int', f"InferAction::{command['function_alias']}", []) as f:
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if (command_name, -1) in non_dist| type_dist:
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self.write_line(
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f'throw RuntimeError("sls_detector is disabled for command: {command_name}. Use sls_detector_get or sls_detector_put");')
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elif not command['infer_action']:
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self.write_line('throw RuntimeError("infer_action is disabled");')
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else:
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checked_argcs = set()
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for action, action_params in command['actions'].items():
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for arg in action_params['args']:
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if arg['argc'] in checked_argcs:
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continue
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checked_argcs.add(arg['argc'])
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with if_block(f'args.size() == {arg["argc"]}'):
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# check if this argc is not distinguishable
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if (command_name, arg["argc"]) in non_dist | type_dist:
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self.write_line(
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f'throw RuntimeError("sls_detector is disabled for command: {command_name} with number of arguments {arg["argc"]}. Use sls_detector_get or sls_detector_put");')
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else:
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self.write_line(f'return {self.actions_dict[action]};')
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with else_block():
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self.write_line(
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'throw RuntimeError("Could not infer action: Wrong number of arguments");')
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continue
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self.write_line(line)
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def write_check_arg(self):
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pass
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def write_arg(self, args, action, command_name):
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for arg in args:
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if arg['argc'] != -1:
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if_block(f'args.size() == {arg["argc"]}',).__enter__()
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if 'extra_variables' in arg:
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for var in arg['extra_variables']:
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codegen.write_line(f'{var["type"]} {var["name"]} = {var["value"]};')
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if 'separate_time_units' in arg and arg['separate_time_units']:
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self.write_line(f'std::string tmp_time({arg["separate_time_units"]["input"]});')
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self.write_line(f'std::string {arg["separate_time_units"]["output"][1]}'
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f' = RemoveUnit(tmp_time);')
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self.write_line(f'auto {arg["separate_time_units"]["output"][0]} = '
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f'StringTo < time::ns > (tmp_time,'
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f' {arg["separate_time_units"]["output"][1]});')
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if 'convert_to_time' in arg and arg['convert_to_time']:
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self.write_line(f'auto {arg["convert_to_time"]["output"]} = '
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f'StringTo < time::ns > ({", ".join(arg["convert_to_time"]["input"])});')
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input_arguments = []
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if 'exceptions' in arg:
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for exception in arg['exceptions']:
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self.write_line(f'if ({exception["condition"]}) {{ throw RuntimeError({exception["message"]}); }}')
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if 'check_det_id' in arg and arg['check_det_id']:
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self.write_line(
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f'if (det_id != -1) {{ throw RuntimeError("Cannot execute {command_name} at module level"); }} '
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)
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# only used for 3 commands :(
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if 'ctb_output_list' in arg:
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self.write_line(f"""
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std::string suffix = " {arg['ctb_output_list']['suffix']}";
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auto t = det->{arg['ctb_output_list']['GETFCNLIST']}();""")
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if arg['ctb_output_list']['GETFCNNAME'] != '':
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self.write_line(f"""
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auto names = det->{arg['ctb_output_list']['GETFCNNAME']}();
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auto name_it = names.begin();""")
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self.write_line("os << '[';")
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with if_block(f't.size() > 0'):
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self.write_line(f"""
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auto it = t.cbegin();
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os << ToString({arg['ctb_output_list']['printable_name']}) << ' ';
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os << OutString(det->{arg['ctb_output_list']['GETFCN']}(*it++, std::vector<int>{{det_id}}))<< suffix;
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while (it != t.cend()) {{
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os << ", " << ToString({arg['ctb_output_list']['printable_name']}) << ' ';
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os << OutString(det->{arg['ctb_output_list']['GETFCN']}(*it++, std::vector<int>{{det_id}}))<< suffix;
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}}
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""")
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self.write_line('os << "]\\n";')
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if arg['argc'] != -1:
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if_block().__exit__()
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return
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for i in range(len(arg['input'])):
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if arg['cast_input'][i]:
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self.write_line(
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f'auto arg{i} = StringTo<{arg["input_types"][i]}>({arg["input"][i]});')
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input_arguments.append(f'arg{i}')
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else:
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input_arguments.append(arg["input"][i])
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if 'require_det_id' in arg and arg['require_det_id']:
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if 'convert_det_id' in arg and arg['convert_det_id']:
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input_arguments.append("std::vector<int>{ det_id }")
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else:
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input_arguments.append("det_id")
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input_arguments = ", ".join(input_arguments)
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# call function
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if arg["function"]:
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if arg['store_result_in_t']:
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self.write_line(f'auto t = det->{arg["function"]}({input_arguments});')
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else:
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self.write_line(f'det->{arg["function"]}({input_arguments});')
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else:
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pass #We have no function so skip block
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output_args = []
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for output in arg['output']:
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output_args.append(output)
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if len(output_args) > 0:
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self.write_line(f"os << {'<< '.join(output_args)} << '\\n';")
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if arg['argc'] != -1:
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if_block().__exit__()
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class if_block:
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def __init__(self, condition="", elseif=False):
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self.condition = condition
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self.elseif = elseif
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self.block = False
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def __enter__(self):
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if self.elseif:
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codegen.write_line('else if (' + self.condition + ') {')
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else:
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codegen.write_line('if (' + self.condition + ') {')
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if self.block:
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codegen.write_line('{\n')
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def __exit__(self, *args):
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codegen.write_line('}')
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if self.block:
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codegen.write_line('}')
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codegen.write_line('')
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class else_block:
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def __init__(self):
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pass
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def __enter__(self):
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codegen.write_line('else {')
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codegen.write_line('')
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def __exit__(self, *args):
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codegen.write_line('}')
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codegen.write_line('')
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class for_block:
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def __init__(self, condition):
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self.condition = condition
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def __enter__(self):
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codegen.write_line('for (' + self.condition + ') {')
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codegen.write_line('')
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def __exit__(self, *args):
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codegen.write_line('}')
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codegen.write_line('')
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class function:
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def __init__(self, return_type, name, args: list[tuple[str, str]]):
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self.name = name
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self.args = args
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self.return_type = return_type
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def __enter__(self):
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s = ""
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for arg in self.args:
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arg_type, arg_name = arg
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s += arg_type + ' ' + arg_name + ', '
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s = s[:-2]
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codegen.write_line(self.return_type + ' ' + self.name +
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f'({s}) {{')
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codegen.write_line('')
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return self
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def __exit__(self, *args):
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codegen.write_line('}')
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codegen.write_line('')
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codegen = CodeGenerator()
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