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scripts/examples: Add working Pure Thermal OpenMV example.
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# This work is licensed under the MIT license.
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# Copyright (c) 2013-2024 OpenMV LLC. All rights reserved.
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# https://github.com/openmv/openmv/blob/master/LICENSE
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#
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# Blinky example
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import time
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from machine import LED
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led = LED("LED_BLUE")
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while True:
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led.on()
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time.sleep_ms(500)
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led.off()
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time.sleep_ms(500)
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# This work is licensed under the MIT license.
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# Copyright (c) 2013-2024 OpenMV LLC. All rights reserved.
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# https://github.com/openmv/openmv/blob/master/LICENSE
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#
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# Hello World Example
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#
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# Welcome to the OpenMV IDE! Click on the green run arrow button below to run the script!
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import sensor
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import time
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sensor.reset() # Reset and initialize the sensor.
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sensor.set_pixformat(sensor.RGB565) # Set pixel format to RGB565 (or GRAYSCALE)
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sensor.set_framesize(sensor.QVGA) # Set frame size to QVGA (320x240)
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sensor.skip_frames(time=2000) # Wait for settings take effect.
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clock = time.clock() # Create a clock object to track the FPS.
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while True:
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clock.tick() # Update the FPS clock.
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img = sensor.snapshot() # Take a picture and return the image.
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print(clock.fps()) # Note: OpenMV Cam runs about half as fast when connected
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# to the IDE. The FPS should increase once disconnected.
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# This work is licensed under the MIT license.
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# Copyright (c) 2013-2024 OpenMV LLC. All rights reserved.
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# https://github.com/openmv/openmv/blob/master/LICENSE
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#
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# Pure Thermal Example Script
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#
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# Thanks for buying the Pure Thermal OpenMV! This example script shows off thermal video
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# overlay onto the color camera image and driving the attached LCD screen and HDMI output.
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import sensor
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import image
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import time
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import display
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import fir
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import math
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import tfp410
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# Color Tracking Thresholds (Grayscale Min, Grayscale Max)
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threshold_list = [(200, 255)]
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sensor.reset()
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sensor.set_pixformat(sensor.RGB565)
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sensor.set_framesize(sensor.WVGA)
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time.sleep_ms(50)
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fir.init(fir.FIR_LEPTON)
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fir_img = image.Image(fir.width(), fir.height(), sensor.GRAYSCALE)
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time.sleep_ms(50)
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lcd = display.RGBDisplay(framesize=display.FWVGA, refresh=60)
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lcd.backlight(True)
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hdmi = tfp410.TFP410()
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time.sleep_ms(50)
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alpha_pal = image.Image(256, 1, sensor.GRAYSCALE)
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for i in range(256):
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alpha_pal[i] = int(math.pow((i / 255), 2) * 255)
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to_min = None
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to_max = None
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def map_g_to_temp(g):
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return ((g * (to_max - to_min)) / 255.0) + to_min
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while True:
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img = sensor.snapshot()
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# ta: Ambient temperature
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# ir: Object temperatures (IR array)
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# to_min: Minimum object temperature
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# to_max: Maximum object temperature
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ta, ir, to_min, to_max = fir.read_ir()
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fir.draw_ir(fir_img, ir, color_palette=None)
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fir_img_size = fir_img.width() * fir_img.height()
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# Find IR Blobs
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blobs = fir_img.find_blobs(threshold_list,
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pixels_threshold=(fir_img_size // 100),
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area_threshold=(fir_img_size // 100),
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merge=True)
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# Collect stats into a list of tuples
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blob_stats = []
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for b in blobs:
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blob_stats.append((b.rect(), map_g_to_temp(img.get_statistics(thresholds=threshold_list,
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roi=b.rect()).mean())))
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x_scale = img.width() / fir_img.width()
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y_scale = img.height() / fir_img.height()
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img.draw_image(fir_img, 0, 0, x_scale=x_scale, y_scale=y_scale,
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color_palette=image.PALETTE_IRONBOW,
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alpha_palette=alpha_pal,
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hint=image.BICUBIC)
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# Draw stuff on the colored image
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for b in blobs:
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img.draw_rectangle(int(b.rect()[0] * x_scale), int(b.rect()[1] * y_scale),
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int(b.rect()[2] * x_scale), int(b.rect()[3] * y_scale))
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img.draw_cross(int(b.cx() * x_scale), int(b.cy() * y_scale))
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for blob_stat in blob_stats:
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img.draw_string(int((blob_stat[0][0] * x_scale) + 4), int((blob_stat[0][1] * y_scale) + 1),
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'%.2f C' % blob_stat[1], mono_space=False, scale=2)
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# Draw ambient, min and max temperatures.
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img.draw_string(4, 0, 'Lepton Temp: %0.2f C' % ta,
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color=(255, 255, 255), mono_space=False, scale=2)
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img.draw_string(4, 18, 'Min Temp: %0.2f C' % to_min,
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color=(255, 255, 255), mono_space=False, scale=2)
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img.draw_string(4, 36, 'Max Temp: %0.2f C' % to_max,
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color=(255, 255, 255), mono_space=False, scale=2)
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lcd.write(img, hint=(image.BILINEAR | image.CENTER | image.SCALE_ASPECT_KEEP))
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# "Relative Path Regex", "Board Type Regex", "Sensor Type Regex", "Flatten Regex"
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# "Relative Path Regex", "Board Type Regex", "Sensor Type Regex", "Flatten Regex"
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"examples/00-HelloWorld/blinky.py", ".+", ".+", ""
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"examples/00-HelloWorld/blinky.py", "^(?!OPENMVPT).*$", ".+", ""
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"examples/00-HelloWorld/helloworld.py", ".+", "^(?!None).*$", ""
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"examples/00-HelloWorld/helloworld.py", "^(?!OPENMVPT).*$", "^(?!None).*$", ""
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"examples/01-Camera/00-Snapshot", ".+", "^(?!None).*$", ""
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"examples/01-Camera/00-Snapshot", ".+", "^(?!None).*$", ""
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"examples/01-Camera/01-Video-Recording", ".+", "^(?!None).*$", ""
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"examples/01-Camera/01-Video-Recording", ".+", "^(?!None).*$", ""
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"examples/01-Camera/02-Optical-Flow", ".+", "^(?!None).*$", ""
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"examples/01-Camera/02-Optical-Flow", ".+", "^(?!None).*$", ""
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Can't render this file because it contains an unexpected character in line 1 and column 3.
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static const char fresh_main_py[] =
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static const char fresh_main_py[] =
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"import sensor, image, time, display, fir, math, pyb\n"
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"# This work is licensed under the MIT license.\n"
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"# Copyright (c) 2013-2024 OpenMV LLC. All rights reserved.\n"
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"# https://github.com/openmv/openmv/blob/master/LICENSE\n"
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"#\n"
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"# Pure Thermal Example Script\n"
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"#\n"
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"# Thanks for buying the Pure Thermal OpenMV! This example script shows off thermal video\n"
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"# overlay onto the color camera image and driving the attached LCD screen and HDMI output.\n"
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"\n"
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"import sensor\n"
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"import image\n"
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"import time\n"
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"import display\n"
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"import fir\n"
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"import math\n"
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"import tfp410\n"
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"\n"
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"\n"
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"from machine import I2C\n"
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"from vl53l1x import VL53L1X\n"
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"\n"
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"\n"
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"# Color Tracking Thresholds (Grayscale Min, Grayscale Max)\n"
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"# Color Tracking Thresholds (Grayscale Min, Grayscale Max)\n"
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"threshold_list = [(200, 255)]\n"
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"threshold_list = [(200, 255)]\n"
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"\n"
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"\n"
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"def main():\n"
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"\n"
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" i2c = I2C(2)\n"
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" # distance = VL53L1X(i2c)\n"
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"\n"
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"sensor.reset()\n"
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"sensor.reset()\n"
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"sensor.set_pixformat(sensor.RGB565)\n"
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"sensor.set_pixformat(sensor.RGB565)\n"
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" sensor.set_framesize(sensor.VGA)\n"
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"sensor.set_framesize(sensor.WVGA)\n"
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"time.sleep_ms(50)\n"
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"time.sleep_ms(50)\n"
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"\n"
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"\n"
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"fir.init(fir.FIR_LEPTON)\n"
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"fir.init(fir.FIR_LEPTON)\n"
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" fir_img = sensor.alloc_extra_fb(fir.width(), fir.height(), sensor.GRAYSCALE)\n"
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"fir_img = image.Image(fir.width(), fir.height(), sensor.GRAYSCALE)\n"
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"time.sleep_ms(50)\n"
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"time.sleep_ms(50)\n"
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"\n"
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"\n"
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"lcd = display.RGBDisplay(framesize=display.FWVGA, refresh=60)\n"
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"lcd = display.RGBDisplay(framesize=display.FWVGA, refresh=60)\n"
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"lcd.backlight(True)\n"
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"hdmi = tfp410.TFP410()\n"
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"time.sleep_ms(50)\n"
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"\n"
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"\n"
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"alpha_pal = image.Image(256, 1, sensor.GRAYSCALE)\n"
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"alpha_pal = image.Image(256, 1, sensor.GRAYSCALE)\n"
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" for i in range(256): alpha_pal[i] = int(math.pow((i / 255), 2) * 255)\n"
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"for i in range(256):\n"
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" alpha_pal[i] = int(math.pow((i / 255), 2) * 255)\n"
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"\n"
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"\n"
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"to_min = None\n"
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"to_min = None\n"
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"to_max = None\n"
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"to_max = None\n"
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"\n"
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"\n"
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"\n"
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"def map_g_to_temp(g):\n"
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"def map_g_to_temp(g):\n"
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" return ((g * (to_max - to_min)) / 255.0) + to_min\n"
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" return ((g * (to_max - to_min)) / 255.0) + to_min\n"
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"\n"
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"\n"
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"\n"
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"while True:\n"
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"while True:\n"
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" img = sensor.snapshot()\n"
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" img = sensor.snapshot()\n"
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" # ta: Ambient temperature\n"
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" # ta: Ambient temperature\n"
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" # Collect stats into a list of tuples\n"
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" # Collect stats into a list of tuples\n"
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" blob_stats = []\n"
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" blob_stats = []\n"
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" for b in blobs:\n"
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" for b in blobs:\n"
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" blob_stats.append((b.rect(), map_g_to_temp(fir_img.get_statistics(thresholds = threshold_list,\n"
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" blob_stats.append((b.rect(), map_g_to_temp(img.get_statistics(thresholds=threshold_list,\n"
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" roi=b.rect()).mean())))\n"
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" roi=b.rect()).mean())))\n"
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" x_scale = img.width() / fir_img.width()\n"
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" x_scale = img.width() / fir_img.width()\n"
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" y_scale = img.height() / fir_img.height()\n"
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" y_scale = img.height() / fir_img.height()\n"
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" '%.2f C' % blob_stat[1], mono_space=False, scale=2)\n"
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" '%.2f C' % blob_stat[1], mono_space=False, scale=2)\n"
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"\n"
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"\n"
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" # Draw ambient, min and max temperatures.\n"
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" # Draw ambient, min and max temperatures.\n"
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" img.draw_string(4, 0, 'Lepton Temp: %0.2f C' % ta, color = (255, 255, 255), mono_space = False, scale = 2)\n"
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" img.draw_string(4, 0, 'Lepton Temp: %0.2f C' % ta,\n"
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" img.draw_string(4, 18, 'Min Temp: %0.2f C' % to_min, color = (255, 255, 255), mono_space = False, scale = 2)\n"
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" color=(255, 255, 255), mono_space=False, scale=2)\n"
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" img.draw_string(4, 36, 'Max Temp: %0.2f C' % to_max, color = (255, 255, 255), mono_space = False, scale = 2)\n"
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" img.draw_string(4, 18, 'Min Temp: %0.2f C' % to_min,\n"
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" # img.draw_string(4, 54, 'Distance: %d mm' % distance.read(), color = (255, 255, 255), mono_space = False, scale = 2)\n"
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" color=(255, 255, 255), mono_space=False, scale=2)\n"
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" img.draw_string(4, 36, 'Max Temp: %0.2f C' % to_max,\n"
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" color=(255, 255, 255), mono_space=False, scale=2)\n"
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"\n"
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"\n"
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" lcd.write(img, x_size=lcd.width(), hint=image.BILINEAR)\n"
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" lcd.write(img, hint=(image.BILINEAR | image.CENTER | image.SCALE_ASPECT_KEEP))\n"
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"\n"
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"\n"
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"try:\n"
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" main()\n"
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"except OSError:\n"
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"\n"
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" # I2C Bus may be stuck\n"
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" p = pyb.Pin('P4', pyb.Pin.OUT_OD)\n"
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" for i in range(20000):\n"
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" p.value(not p.value())\n"
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"\n"
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" pyb.hard_reset()\n"
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;
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;
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