# 3. Quick Start¶

Start a preview for 10 seconds with the default settings:

import time
import picamera

camera = picamera.PiCamera()
try:
camera.start_preview()
time.sleep(10)
camera.stop_preview()
finally:
camera.close()


Note that you should always ensure you call close() on the PiCamera object to clean up resources.

The following example demonstrates that Python’s with statement can be used to achieve this implicitly; when the with block ends, close() will be called implicitly:

import time
import picamera

with picamera.PiCamera() as camera:
camera.start_preview()
time.sleep(10)
camera.stop_preview()


The following example shows that certain properties can be adjusted “live” while a preview is running. In this case, the brightness is increased steadily during display:

import time
import picamera

with picamera.PiCamera() as camera:
camera.start_preview()
try:
for i in range(100):
camera.brightness = i
time.sleep(0.2)
finally:
camera.stop_preview()


The next example demonstrates setting the camera resolution (this can only be done when the camera is not recording) to 640x480, then starting a preview and a recording to a disk file:

import picamera

with picamera.PiCamera() as camera:
camera.resolution = (640, 480)
camera.start_preview()
camera.start_recording('foo.h264')
camera.wait_recording(60)
camera.stop_recording()
camera.stop_preview()


Note that wait_recording() is used above instead of time.sleep(). This method checks for errors (e.g. out of disk space) while the recording is running and raises an exception if one occurs. If time.sleep() was used instead the exception would be raised by stop_recording() but only after the full waiting time had run.

This example demonstrates starting a preview, setting some parameters and then capturing an image while the preview is running:

import time
import picamera

with picamera.PiCamera() as camera:
camera.resolution = (1280, 720)
camera.start_preview()
camera.exposure_compensation = 2
camera.exposure_mode = 'spotlight'
camera.meter_mode = 'matrix'
camera.image_effect = 'gpen'
# Give the camera some time to adjust to conditions
time.sleep(2)
camera.capture('foo.jpg')
camera.stop_preview()


The following example customizes the Exif tags to embed in the image before calling capture():

import time
import picamera

with picamera.PiCamera() as camera:
camera.resolution = (2592, 1944)
camera.start_preview()
time.sleep(2)
camera.exif_tags['IFD0.Artist'] = 'Me!'
camera.capture('foo.jpg')
camera.stop_preview()


See the documentation for exif_tags for a complete list of the supported tags.

The next example demonstrates capturing a series of images as a numbered series with a one minute delay between each capture using the capture_continuous() method:

import time
import picamera

with picamera.PiCamera() as camera:
camera.resolution = (1280, 720)
camera.start_preview()
time.sleep(1)
for i, filename in enumerate(camera.capture_continuous('image{counter:02d}.jpg')):
print('Captured image %s' % filename)
if i == 100:
break
time.sleep(60)
camera.stop_preview()


This example demonstrates capturing low resolution JPEGs extremely rapidly using the video-port capability of the capture_sequence() method. The framerate of the captures is displayed afterward:

import time
import picamera

with picamera.PiCamera() as camera:
camera.resolution = (640, 480)
camera.start_preview()
start = time.time()
camera.capture_sequence((
'image%03d.jpg' % i
for i in range(120)
), use_video_port=True)
print('Captured 120 images at %.2ffps' % (120 / (time.time() - start)))
camera.stop_preview()


This example demonstrates capturing an image in raw RGB format:

import time
import picamera

with picamera.PiCamera() as camera:
camera.resolution = (1024, 768)
camera.start_preview()
time.sleep(2)
camera.capture('image.data', 'rgb')