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@ -72,7 +72,7 @@
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from __future__ import print_function
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from __future__ import division
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import sys,os
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import sys,os,re
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pwd = os.getcwd() # make sure we're executing from the correct directory level
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pwd = pwd.replace('\\', '/')
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@ -123,7 +123,7 @@ from datetime import datetime, date, time
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#
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##########################################################################################
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def get_answer(board_name, cpu_label_txt, cpu_a_txt, cpu_b_txt):
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def get_answer(board_name, question_txt, options, default_value=1):
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if python_ver == 2:
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import Tkinter as tk
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@ -151,10 +151,10 @@ def get_answer(board_name, cpu_label_txt, cpu_a_txt, cpu_b_txt):
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root_get_answer.protocol("WM_DELETE_WINDOW", disable_event)
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root_get_answer.resizable(False, False)
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root_get_answer.radio_state = 1 # declare variables used by TK and enable
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root_get_answer.radio_state = default_value # declare variables used by TK and enable
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global get_answer_val
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get_answer_val = 2 # return get_answer_val, set default to match radio_state default
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get_answer_val = default_value # return get_answer_val, set default to match radio_state default
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radio_state = tk.IntVar()
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radio_state.set(get_answer_val)
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@ -162,35 +162,27 @@ def get_answer(board_name, cpu_label_txt, cpu_a_txt, cpu_b_txt):
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l1 = tk.Label(text=board_name, fg="light green", bg="dark green",
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font="default 14 bold").grid(row=0, columnspan=2, sticky='EW', ipadx=2, ipady=2)
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l2 = tk.Label(text=cpu_label_txt).grid(row=1, pady=4, columnspan=2, sticky='EW')
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l2 = tk.Label(text=question_txt).grid(row=1, pady=4, columnspan=2, sticky='EW')
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b4 = tk.Radiobutton(
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text=cpu_a_txt,
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buttons = []
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for index, val in enumerate(options):
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buttons.append(
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tk.Radiobutton(
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text=val,
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fg="black",
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bg="lightgray",
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relief=tk.SUNKEN,
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selectcolor="green",
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variable=radio_state,
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value=1,
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value=index + 1,
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indicatoron=0,
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command=CPU_exit_3
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).grid(row=2, pady=1, ipady=2, ipadx=10, columnspan=2)
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).grid(row=index + 2, pady=1, ipady=2, ipadx=10, columnspan=2))
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b5 = tk.Radiobutton(
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text=cpu_b_txt,
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fg="black",
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bg="lightgray",
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relief=tk.SUNKEN,
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selectcolor="green",
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variable=radio_state,
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value=2,
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indicatoron=0,
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command=CPU_exit_3
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).grid(row=3, pady=1, ipady=2, ipadx=10, columnspan=2) # use same variable but inverted so they will track
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b6 = tk.Button(text="Cancel", fg="red", command=kill_session).grid(row=(2 + len(options)), column=0, padx=4, pady=4, ipadx=2, ipady=2)
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b6 = tk.Button(text="Cancel", fg="red", command=kill_session).grid(row=4, column=0, padx=4, pady=4, ipadx=2, ipady=2)
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b7 = tk.Button(text="Continue", fg="green", command=got_answer).grid(row=4, column=1, padx=4, pady=4, ipadx=2, ipady=2)
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b7 = tk.Button(text="Continue", fg="green", command=got_answer).grid(row=(2 + len(options)), column=1, padx=4, pady=4, ipadx=2, ipady=2)
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def got_answer_():
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root_get_answer.destroy()
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@ -485,6 +477,11 @@ def get_env_from_line(line, start_position):
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return env, next_position
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def invalid_board():
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print('ERROR - invalid board')
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print(board_name)
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raise SystemExit(0) # quit if unable to find board
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# scan pins.h for board name and return the environment(s) found
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def get_starting_env(board_name_full, version):
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# get environment starting point
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@ -496,48 +493,26 @@ def get_starting_env(board_name_full, version):
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with open(path, 'r') as myfile:
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pins_h = myfile.read()
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env_A = ''
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env_B = ''
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env_C = ''
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board_name = board_name_full[6:] # only use the part after "BOARD_" since we're searching the pins.h file
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pins_h = pins_h.split('\n')
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environment = ''
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board_line = ''
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cpu_A = ''
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cpu_B = ''
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i = 0
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list_start_found = False
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for lines in pins_h:
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i = i + 1 # i is always one ahead of the index into pins_h
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if 0 < lines.find("Unknown MOTHERBOARD value set in Configuration.h"):
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break # no more
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if 0 < lines.find('1280'):
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possible_envs = None
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for i, line in enumerate(pins_h):
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if 0 < line.find("Unknown MOTHERBOARD value set in Configuration.h"):
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invalid_board();
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if list_start_found == False and 0 < line.find('1280'):
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list_start_found = True
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if list_start_found == False: # skip lines until find start of CPU list
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elif list_start_found == False: # skip lines until find start of CPU list
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continue
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board = lines.find(board_name)
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comment_start = lines.find('// ')
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cpu_A_loc = comment_start
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cpu_B_loc = 0
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if board > 0: # need to look at the next line for environment info
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cpu_line = pins_h[i]
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comment_start = cpu_line.find('// ')
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env_A, next_position = get_env_from_line(cpu_line, comment_start) # get name of environment & start of search for next
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env_B, next_position = get_env_from_line(cpu_line, next_position) # get next environment, if it exists
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env_C, next_position = get_env_from_line(cpu_line, next_position) # get next environment, if it exists
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# Use a regex to find the board. Make sure it is surrounded by separators so the full boardname
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# will be matched, even if multiple exist in a single MB macro. This avoids problems with boards
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# such as MALYAN_M200 and MALYAN_M200_V2 where one board is a substring of the other.
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if re.search(r'MB.*[\(, ]' + board_name + r'[, \)]', line):
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# need to look at the next line for environment info
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possible_envs = re.findall(r'env:([^ ]+)', pins_h[i + 1])
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break
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return env_A, env_B, env_C
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# Scan input string for CPUs that users may need to select from
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# return: CPU name
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def get_CPU_name(environment):
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CPU_list = ('1280', '2560', '644', '1284', 'LPC1768', 'DUE')
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CPU_name = ''
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for CPU in CPU_list:
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if 0 < environment.find(CPU):
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return CPU
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return possible_envs
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# get environment to be used for the build
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@ -549,71 +524,81 @@ def get_env(board_name, ver_Marlin):
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print(board_name)
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raise SystemExit(0) # no environment so quit
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def invalid_board():
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print('ERROR - invalid board')
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print(board_name)
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raise SystemExit(0) # quit if unable to find board
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possible_envs = get_starting_env(board_name, ver_Marlin)
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CPU_question = (('1280', '2560', '1280 or 2560 CPU?'), ('644', '1284', '644 or 1284 CPU?'))
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if 0 < board_name.find('MELZI'):
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get_answer(
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board_name, " Which flavor of Melzi? ", "Melzi (Optiboot bootloader)", "Melzi "
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)
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if 1 == get_answer_val:
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target_env = 'melzi_optiboot'
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else:
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target_env = 'melzi'
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else:
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env_A, env_B, env_C = get_starting_env(board_name, ver_Marlin)
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if env_A == '':
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if not possible_envs:
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no_environment()
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if env_B == '':
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return env_A # only one environment so finished
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CPU_A = get_CPU_name(env_A)
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CPU_B = get_CPU_name(env_B)
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# Proceed to ask questions based on the available environments to filter down to a smaller list.
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# If more then one remains after this filtering the user will be prompted to choose between
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# all remaining options.
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for item in CPU_question:
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if CPU_A == item[0]:
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get_answer(board_name, item[2], item[0], item[1])
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if 2 == get_answer_val:
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target_env = env_B
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# Filter selection based on CPU choice
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CPU_questions = [
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{'options':['1280', '2560'], 'text':'1280 or 2560 CPU?', 'default':2},
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{'options':['644', '1284'], 'text':'644 or 1284 CPU?', 'default':2},
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{'options':['STM32F103RC', 'STM32F103RE'], 'text':'MCU Type?', 'default':1}]
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for question in CPU_questions:
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if any(question['options'][0] in env for env in possible_envs) and any(question['options'][1] in env for env in possible_envs):
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get_answer(board_name, question['text'], [question['options'][0], question['options'][1]], question['default'])
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possible_envs = [env for env in possible_envs if question['options'][get_answer_val - 1] in env]
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# Choose which STM32 framework to use, if both are available
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if [env for env in possible_envs if '_maple' in env] and [env for env in possible_envs if '_maple' not in env]:
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get_answer(board_name, 'Which STM32 Framework should be used?', ['ST STM32 (Preferred)', 'Maple (Deprecated)'])
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if 1 == get_answer_val:
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possible_envs = [env for env in possible_envs if '_maple' not in env]
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else:
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target_env = env_A
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return target_env
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possible_envs = [env for env in possible_envs if '_maple' in env]
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if env_A == 'LPC1768':
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# Both USB and non-USB STM32 options exist, filter based on these
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if any('STM32F103R' in env for env in possible_envs) and any('_USB' in env for env in possible_envs) and any('_USB' not in env for env in possible_envs):
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get_answer(board_name, 'USB Support?', ['USB', 'No USB'])
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if 1 == get_answer_val:
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possible_envs = [env for env in possible_envs if '_USB' in env]
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else:
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possible_envs = [env for env in possible_envs if '_USB' not in env]
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if not possible_envs:
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no_environment()
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if len(possible_envs) == 1:
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return possible_envs[0] # only one environment so finished
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target_env = None
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# A few environments require special behavior
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if 'LPC1768' in possible_envs:
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if build_type == 'traceback' or (build_type == 'clean' and get_build_last() == 'LPC1768_debug_and_upload'):
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target_env = 'LPC1768_debug_and_upload'
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else:
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target_env = 'LPC1768'
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elif env_A == 'DUE':
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elif 'DUE' in possible_envs:
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target_env = 'DUE'
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if build_type == 'traceback' or (build_type == 'clean' and get_build_last() == 'DUE_debug'):
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target_env = 'DUE_debug'
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elif env_B == 'DUE_USB':
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get_answer(board_name, 'DUE Download Port?', '(Native) USB port', 'Programming port')
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elif 'DUE_USB' in possible_envs:
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get_answer(board_name, 'DUE Download Port?', ['(Native) USB port', 'Programming port'])
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if 1 == get_answer_val:
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target_env = 'DUE_USB'
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else:
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target_env = 'DUE'
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elif env_A == 'STM32F103RC_btt' or env_A == 'STM32F103RE_btt':
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if env_A == 'STM32F103RE_btt':
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get_answer(board_name, 'MCU Type?', 'STM32F103RC', 'STM32F103RE')
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if 1 == get_answer_val:
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env_A = 'STM32F103RC_btt'
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target_env = env_A
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if env_A == 'STM32F103RC_btt':
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get_answer(board_name, 'RCT6 Flash Size?', '512K', '256K')
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if 1 == get_answer_val:
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target_env += '_512K'
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get_answer(board_name, 'USB Support?', 'USB', 'No USB')
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if 1 == get_answer_val:
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target_env += '_USB'
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else:
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invalid_board()
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options = possible_envs
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# Perform some substitutions for environment names which follow a consistent
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# naming pattern and are very commonly used. This is fragile code, and replacements
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# should only be made here for stable environments unlikely to change often.
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for i, option in enumerate(options):
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if 'melzi' in option:
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options[i] = 'Melzi'
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elif 'sanguino1284p' in option:
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options[i] = 'sanguino1284p'
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if 'optiboot' in option:
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options[i] = options[i] + ' (Optiboot Bootloader)'
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if 'optimized' in option:
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options[i] = options[i] + ' (Optimized for Size)'
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get_answer(board_name, 'Which environment?', options)
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target_env = possible_envs[get_answer_val - 1]
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if build_type == 'traceback' and target_env != 'LPC1768_debug_and_upload' and target_env != 'DUE_debug' and Marlin_ver == 2:
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print("ERROR - this board isn't setup for traceback")
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