robocar-tools/vendor/gocv.io/x/gocv/videoio.go

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package gocv
/*
#include <stdlib.h>
#include "videoio.h"
*/
import "C"
import (
"errors"
"fmt"
"strconv"
"sync"
"unsafe"
)
// Select preferred API for a capture object.
// Note: Backends are available only if they have been built with your OpenCV binaries
type VideoCaptureAPI int
const (
// Auto detect == 0
VideoCaptureAny VideoCaptureAPI = 0
// Video For Windows (obsolete, removed)
VideoCaptureVFW VideoCaptureAPI = 200
// V4L/V4L2 capturing support
VideoCaptureV4L VideoCaptureAPI = 200
// Same as VideoCaptureV4L
VideoCaptureV4L2 VideoCaptureAPI = 200
// IEEE 1394 drivers
VideoCaptureFirewire VideoCaptureAPI = 300
// Same value as VideoCaptureFirewire
VideoCaptureFireware VideoCaptureAPI = 300
// Same value as VideoCaptureFirewire
VideoCaptureIEEE1394 VideoCaptureAPI = 300
// Same value as VideoCaptureFirewire
VideoCaptureDC1394 VideoCaptureAPI = 300
// Same value as VideoCaptureFirewire
VideoCaptureCMU1394 VideoCaptureAPI = 300
// QuickTime (obsolete, removed)
VideoCaptureQT VideoCaptureAPI = 500
// Unicap drivers (obsolete, removed)
VideoCaptureUnicap VideoCaptureAPI = 600
// DirectShow (via videoInput)
VideoCaptureDshow VideoCaptureAPI = 700
// PvAPI, Prosilica GigE SDK
VideoCapturePvAPI VideoCaptureAPI = 800
// OpenNI (for Kinect)
VideoCaptureOpenNI VideoCaptureAPI = 900
// OpenNI (for Asus Xtion)
VideoCaptureOpenNIAsus VideoCaptureAPI = 910
// Android - not used
VideoCaptureAndroid VideoCaptureAPI = 1000
// XIMEA Camera API
VideoCaptureXiAPI VideoCaptureAPI = 1100
// AVFoundation framework for iOS (OS X Lion will have the same API)
VideoCaptureAVFoundation VideoCaptureAPI = 1200
// Smartek Giganetix GigEVisionSDK
VideoCaptureGiganetix VideoCaptureAPI = 1300
// Microsoft Media Foundation (via videoInput)
VideoCaptureMSMF VideoCaptureAPI = 1400
// Microsoft Windows Runtime using Media Foundation
VideoCaptureWinRT VideoCaptureAPI = 1410
// RealSense (former Intel Perceptual Computing SDK)
VideoCaptureIntelPerc VideoCaptureAPI = 1500
// Synonym for VideoCaptureIntelPerc
VideoCaptureRealsense VideoCaptureAPI = 1500
// OpenNI2 (for Kinect)
VideoCaptureOpenNI2 VideoCaptureAPI = 1600
// OpenNI2 (for Asus Xtion and Occipital Structure sensors)
VideoCaptureOpenNI2Asus VideoCaptureAPI = 1610
// gPhoto2 connection
VideoCaptureGPhoto2 VideoCaptureAPI = 1700
// GStreamer
VideoCaptureGstreamer VideoCaptureAPI = 1800
// Open and record video file or stream using the FFMPEG library
VideoCaptureFFmpeg VideoCaptureAPI = 1900
// OpenCV Image Sequence (e.g. img_%02d.jpg)
VideoCaptureImages VideoCaptureAPI = 2000
// Aravis SDK
VideoCaptureAravis VideoCaptureAPI = 2100
// Built-in OpenCV MotionJPEG codec
VideoCaptureOpencvMjpeg VideoCaptureAPI = 2200
// Intel MediaSDK
VideoCaptureIntelMFX VideoCaptureAPI = 2300
// XINE engine (Linux)
VideoCaptureXINE VideoCaptureAPI = 2400
)
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// VideoCaptureProperties are the properties used for VideoCapture operations.
type VideoCaptureProperties int
const (
// VideoCapturePosMsec contains current position of the
// video file in milliseconds.
VideoCapturePosMsec VideoCaptureProperties = 0
// VideoCapturePosFrames 0-based index of the frame to be
// decoded/captured next.
VideoCapturePosFrames VideoCaptureProperties = 1
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// VideoCapturePosAVIRatio relative position of the video file:
// 0=start of the film, 1=end of the film.
VideoCapturePosAVIRatio VideoCaptureProperties = 2
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// VideoCaptureFrameWidth is width of the frames in the video stream.
VideoCaptureFrameWidth VideoCaptureProperties = 3
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// VideoCaptureFrameHeight controls height of frames in the video stream.
VideoCaptureFrameHeight VideoCaptureProperties = 4
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// VideoCaptureFPS controls capture frame rate.
VideoCaptureFPS VideoCaptureProperties = 5
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// VideoCaptureFOURCC contains the 4-character code of codec.
// see VideoWriter::fourcc for details.
VideoCaptureFOURCC VideoCaptureProperties = 6
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// VideoCaptureFrameCount contains number of frames in the video file.
VideoCaptureFrameCount VideoCaptureProperties = 7
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// VideoCaptureFormat format of the Mat objects returned by
// VideoCapture::retrieve().
VideoCaptureFormat VideoCaptureProperties = 8
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// VideoCaptureMode contains backend-specific value indicating
// the current capture mode.
VideoCaptureMode VideoCaptureProperties = 9
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// VideoCaptureBrightness is brightness of the image
// (only for those cameras that support).
VideoCaptureBrightness VideoCaptureProperties = 10
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// VideoCaptureContrast is contrast of the image
// (only for cameras that support it).
VideoCaptureContrast VideoCaptureProperties = 11
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// VideoCaptureSaturation saturation of the image
// (only for cameras that support).
VideoCaptureSaturation VideoCaptureProperties = 12
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// VideoCaptureHue hue of the image (only for cameras that support).
VideoCaptureHue VideoCaptureProperties = 13
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// VideoCaptureGain is the gain of the capture image.
// (only for those cameras that support).
VideoCaptureGain VideoCaptureProperties = 14
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// VideoCaptureExposure is the exposure of the capture image.
// (only for those cameras that support).
VideoCaptureExposure VideoCaptureProperties = 15
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// VideoCaptureConvertRGB is a boolean flags indicating whether
// images should be converted to RGB.
VideoCaptureConvertRGB VideoCaptureProperties = 16
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// VideoCaptureWhiteBalanceBlueU is currently unsupported.
VideoCaptureWhiteBalanceBlueU VideoCaptureProperties = 17
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// VideoCaptureRectification is the rectification flag for stereo cameras.
// Note: only supported by DC1394 v 2.x backend currently.
VideoCaptureRectification VideoCaptureProperties = 18
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// VideoCaptureMonochrome indicates whether images should be
// converted to monochrome.
VideoCaptureMonochrome VideoCaptureProperties = 19
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// VideoCaptureSharpness controls image capture sharpness.
VideoCaptureSharpness VideoCaptureProperties = 20
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// VideoCaptureAutoExposure controls the DC1394 exposure control
// done by camera, user can adjust reference level using this feature.
VideoCaptureAutoExposure VideoCaptureProperties = 21
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// VideoCaptureGamma controls video capture gamma.
VideoCaptureGamma VideoCaptureProperties = 22
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// VideoCaptureTemperature controls video capture temperature.
VideoCaptureTemperature VideoCaptureProperties = 23
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// VideoCaptureTrigger controls video capture trigger.
VideoCaptureTrigger VideoCaptureProperties = 24
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// VideoCaptureTriggerDelay controls video capture trigger delay.
VideoCaptureTriggerDelay VideoCaptureProperties = 25
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// VideoCaptureWhiteBalanceRedV controls video capture setting for
// white balance.
VideoCaptureWhiteBalanceRedV VideoCaptureProperties = 26
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// VideoCaptureZoom controls video capture zoom.
VideoCaptureZoom VideoCaptureProperties = 27
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// VideoCaptureFocus controls video capture focus.
VideoCaptureFocus VideoCaptureProperties = 28
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// VideoCaptureGUID controls video capture GUID.
VideoCaptureGUID VideoCaptureProperties = 29
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// VideoCaptureISOSpeed controls video capture ISO speed.
VideoCaptureISOSpeed VideoCaptureProperties = 30
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// VideoCaptureBacklight controls video capture backlight.
VideoCaptureBacklight VideoCaptureProperties = 32
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// VideoCapturePan controls video capture pan.
VideoCapturePan VideoCaptureProperties = 33
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// VideoCaptureTilt controls video capture tilt.
VideoCaptureTilt VideoCaptureProperties = 34
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// VideoCaptureRoll controls video capture roll.
VideoCaptureRoll VideoCaptureProperties = 35
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// VideoCaptureIris controls video capture iris.
VideoCaptureIris VideoCaptureProperties = 36
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// VideoCaptureSettings is the pop up video/camera filter dialog. Note:
// only supported by DSHOW backend currently. The property value is ignored.
VideoCaptureSettings VideoCaptureProperties = 37
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// VideoCaptureBufferSize controls video capture buffer size.
VideoCaptureBufferSize VideoCaptureProperties = 38
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// VideoCaptureAutoFocus controls video capture auto focus..
VideoCaptureAutoFocus VideoCaptureProperties = 39
// VideoCaptureSarNumerator controls the sample aspect ratio: num/den (num)
VideoCaptureSarNumerator VideoCaptureProperties = 40
// VideoCaptureSarDenominator controls the sample aspect ratio: num/den (den)
VideoCaptureSarDenominator VideoCaptureProperties = 41
// VideoCaptureBackend is the current api backend (VideoCaptureAPI). Read-only property.
VideoCaptureBackend VideoCaptureProperties = 42
// VideoCaptureChannel controls the video input or channel number (only for those cameras that support).
VideoCaptureChannel VideoCaptureProperties = 43
// VideoCaptureAutoWB controls the auto white-balance.
VideoCaptureAutoWB VideoCaptureProperties = 44
// VideoCaptureWBTemperature controls the white-balance color temperature
VideoCaptureWBTemperature VideoCaptureProperties = 45
// VideoCaptureCodecPixelFormat shows the the codec's pixel format (4-character code). Read-only property.
// Subset of AV_PIX_FMT_* or -1 if unknown.
VideoCaptureCodecPixelFormat VideoCaptureProperties = 46
// VideoCaptureBitrate displays the video bitrate in kbits/s. Read-only property.
VideoCaptureBitrate VideoCaptureProperties = 47
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)
// VideoCapture is a wrapper around the OpenCV VideoCapture class.
//
// For further details, please see:
// http://docs.opencv.org/master/d8/dfe/classcv_1_1VideoCapture.html
//
type VideoCapture struct {
p C.VideoCapture
}
// VideoCaptureFile opens a VideoCapture from a file and prepares
// to start capturing. It returns error if it fails to open the file stored in uri path.
func VideoCaptureFile(uri string) (vc *VideoCapture, err error) {
vc = &VideoCapture{p: C.VideoCapture_New()}
cURI := C.CString(uri)
defer C.free(unsafe.Pointer(cURI))
if !C.VideoCapture_Open(vc.p, cURI) {
err = fmt.Errorf("Error opening file: %s", uri)
}
return
}
// VideoCaptureFile opens a VideoCapture from a file and prepares
// to start capturing. It returns error if it fails to open the file stored in uri path.
func VideoCaptureFileWithAPI(uri string, apiPreference VideoCaptureAPI) (vc *VideoCapture, err error) {
vc = &VideoCapture{p: C.VideoCapture_New()}
cURI := C.CString(uri)
defer C.free(unsafe.Pointer(cURI))
if !C.VideoCapture_OpenWithAPI(vc.p, cURI, C.int(apiPreference)) {
err = fmt.Errorf("Error opening file: %s with api backend: %d", uri, apiPreference)
}
return
}
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// VideoCaptureDevice opens a VideoCapture from a device and prepares
// to start capturing. It returns error if it fails to open the video device.
func VideoCaptureDevice(device int) (vc *VideoCapture, err error) {
vc = &VideoCapture{p: C.VideoCapture_New()}
if !C.VideoCapture_OpenDevice(vc.p, C.int(device)) {
err = fmt.Errorf("Error opening device: %d", device)
}
return
}
// VideoCaptureDevice opens a VideoCapture from a device with the api preference.
// It returns error if it fails to open the video device.
func VideoCaptureDeviceWithAPI(device int, apiPreference VideoCaptureAPI) (vc *VideoCapture, err error) {
vc = &VideoCapture{p: C.VideoCapture_New()}
if !C.VideoCapture_OpenDeviceWithAPI(vc.p, C.int(device), C.int(apiPreference)) {
err = fmt.Errorf("Error opening device: %d with api backend: %d", device, apiPreference)
}
return
}
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// Close VideoCapture object.
func (v *VideoCapture) Close() error {
C.VideoCapture_Close(v.p)
v.p = nil
return nil
}
// Set parameter with property (=key).
func (v *VideoCapture) Set(prop VideoCaptureProperties, param float64) {
C.VideoCapture_Set(v.p, C.int(prop), C.double(param))
}
// Get parameter with property (=key).
func (v VideoCapture) Get(prop VideoCaptureProperties) float64 {
return float64(C.VideoCapture_Get(v.p, C.int(prop)))
}
// IsOpened returns if the VideoCapture has been opened to read from
// a file or capture device.
func (v *VideoCapture) IsOpened() bool {
isOpened := C.VideoCapture_IsOpened(v.p)
return isOpened != 0
}
// Read reads the next frame from the VideoCapture to the Mat passed in
// as the param. It returns false if the VideoCapture cannot read frame.
func (v *VideoCapture) Read(m *Mat) bool {
return C.VideoCapture_Read(v.p, m.p) != 0
}
// Grab skips a specific number of frames.
func (v *VideoCapture) Grab(skip int) {
C.VideoCapture_Grab(v.p, C.int(skip))
}
// CodecString returns a string representation of FourCC bytes, i.e. the name of a codec
func (v *VideoCapture) CodecString() string {
res := ""
hexes := []int64{0xff, 0xff00, 0xff0000, 0xff000000}
for i, h := range hexes {
res += string(rune(int64(v.Get(VideoCaptureFOURCC)) & h >> (uint(i * 8))))
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}
return res
}
// ToCodec returns an float64 representation of FourCC bytes
func (v *VideoCapture) ToCodec(codec string) float64 {
if len(codec) != 4 {
return -1.0
}
c1 := []rune(string(codec[0]))[0]
c2 := []rune(string(codec[1]))[0]
c3 := []rune(string(codec[2]))[0]
c4 := []rune(string(codec[3]))[0]
return float64((c1 & 255) + ((c2 & 255) << 8) + ((c3 & 255) << 16) + ((c4 & 255) << 24))
}
// VideoWriter is a wrapper around the OpenCV VideoWriter`class.
//
// For further details, please see:
// http://docs.opencv.org/master/dd/d9e/classcv_1_1VideoWriter.html
//
type VideoWriter struct {
mu *sync.RWMutex
p C.VideoWriter
}
// VideoWriterFile opens a VideoWriter with a specific output file.
// The "codec" param should be the four-letter code for the desired output
// codec, for example "MJPG".
//
// For further details, please see:
// http://docs.opencv.org/master/dd/d9e/classcv_1_1VideoWriter.html#a0901c353cd5ea05bba455317dab81130
//
func VideoWriterFile(name string, codec string, fps float64, width int, height int, isColor bool) (vw *VideoWriter, err error) {
if fps == 0 || width == 0 || height == 0 {
return nil, fmt.Errorf("one of the numerical parameters "+
"is equal to zero: FPS: %f, width: %d, height: %d", fps, width, height)
}
vw = &VideoWriter{
p: C.VideoWriter_New(),
mu: &sync.RWMutex{},
}
cName := C.CString(name)
defer C.free(unsafe.Pointer(cName))
cCodec := C.CString(codec)
defer C.free(unsafe.Pointer(cCodec))
C.VideoWriter_Open(vw.p, cName, cCodec, C.double(fps), C.int(width), C.int(height), C.bool(isColor))
return
}
// Close VideoWriter object.
func (vw *VideoWriter) Close() error {
C.VideoWriter_Close(vw.p)
vw.p = nil
return nil
}
// IsOpened checks if the VideoWriter is open and ready to be written to.
//
// For further details, please see:
// http://docs.opencv.org/master/dd/d9e/classcv_1_1VideoWriter.html#a9a40803e5f671968ac9efa877c984d75
//
func (vw *VideoWriter) IsOpened() bool {
isOpend := C.VideoWriter_IsOpened(vw.p)
return isOpend != 0
}
// Write the next video frame from the Mat image to the open VideoWriter.
//
// For further details, please see:
// http://docs.opencv.org/master/dd/d9e/classcv_1_1VideoWriter.html#a3115b679d612a6a0b5864a0c88ed4b39
//
func (vw *VideoWriter) Write(img Mat) error {
vw.mu.Lock()
defer vw.mu.Unlock()
C.VideoWriter_Write(vw.p, img.p)
return nil
}
// OpenVideoCapture return VideoCapture specified by device ID if v is a
// number. Return VideoCapture created from video file, URL, or GStreamer
// pipeline if v is a string.
func OpenVideoCapture(v interface{}) (*VideoCapture, error) {
switch vv := v.(type) {
case int:
return VideoCaptureDevice(vv)
case string:
id, err := strconv.Atoi(vv)
if err == nil {
return VideoCaptureDevice(id)
}
return VideoCaptureFile(vv)
default:
return nil, errors.New("argument must be int or string")
}
}
func OpenVideoCaptureWithAPI(v interface{}, apiPreference VideoCaptureAPI) (*VideoCapture, error) {
switch vv := v.(type) {
case int:
return VideoCaptureDeviceWithAPI(vv, apiPreference)
case string:
id, err := strconv.Atoi(vv)
if err == nil {
return VideoCaptureDeviceWithAPI(id, apiPreference)
}
return VideoCaptureFileWithAPI(vv, apiPreference)
default:
return nil, errors.New("argument must be int or string")
}
}